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Notice of the making of this Statutory Instrument was published in
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"Iris Oifigiúil" of 22nd October, 2010.
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I, EAMON RYAN, Minister for Communications, Energy and Natural Resources, in exercise of the powers conferred on me by section 285A (inserted by section 46 of the Finance Act 2008 (No. 3 of 2008)) of the Taxes Consolidation Act 1997 (No. 39 of 1997), with the approval of, and after consultation with, the Minister for Finance, hereby order as follows:
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1. (1) This Order may be cited as the Taxes Consolidation Act 1997 (Accelerated Capital Allowances for Energy Efficient Equipment) (Amendment) (No. 3) Order 2010.
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(2) The collective citation, "the Taxes Consolidation Act 1997 (Accelerated Capital Allowances for Energy Efficient Equipment) Orders 2008, 2009 and 2010", includes this Order.
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2. In this Order "Principal Order" means the Taxes Consolidation Act 1997 (Accelerated Capital Allowances for Energy Efficient Equipment) Order 2008 ( S.I. No. 399 of 2008 ).
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3. Schedule 1 of the Principal Order is amended by substituting the following for Part 1 of that Schedule:
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"Part 1
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Category: Motors and Drives
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Technology: AC Induction Motors
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An AC Induction Motor is an asynchronous electric motor that meets high efficiency standards. High efficiency AC induction motors are typically designed and constructed in such a manner as to reduce load losses (copper losses, rotor and stray load losses) and standing losses which are independent of the load (iron core and windage & friction losses). They can be considered either as standalone motors or as part of other equipment.
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Eligibility criteria
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In order to be included on the ACA Specified List, an AC induction motor must meet all of the requirements set out below.
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Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
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No.
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Condition
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1.
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Be a totally enclosed 3-phase induction motor with a power rating of greater than or equal to 1.1 kW.
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2.
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Meet the efficiency requirements listed on Table 1. according to IEC 60034-2-1 "Rotating Electrical machines - Standard methods for determining losses and efficiency of rotating electrical machinery from tests", or scientific equivalent.
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3.
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All equipment and/or components must be CE-marked as required by the specific EU directive(s).
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4.
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Appropriate operating and maintenance manuals must be available to the end-user in order to optimise the achievement of any potential energy efficiency gains.
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Table 1 - Minimum Efficiency Criteria for Motors:
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Power (kW)
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2 PoleEfficiency % at Full load (50Hz)
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4 PoleEfficiency % at Full load (50Hz)
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6 PoleEfficiency % at Full load (50Hz)
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1. 1
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82. 7
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84. 1
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81. 0
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1. 5
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84. 2
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85. 3
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82. 5
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2. 2
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85. 9
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86. 7
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84. 3
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3
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87. 1
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87. 7
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85. 6
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4
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88. 1
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88. 6
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86. 8
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5. 5
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98. 2
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89. 6
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88. 0
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7. 5
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90. 1
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90. 4
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89. 1
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11
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91. 2
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91. 4
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90. 3
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15
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91. 9
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92. 1
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91. 2
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18. 5
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92. 4
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92. 6
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91. 7
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22
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92. 7
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93. 0
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92. 2
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30
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93. 3
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93. 6
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92. 9
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37
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93. 7
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93. 9
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93. 3
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45
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94. 0
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94. 2
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93. 7
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55
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94. 3
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94. 6
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94. 1
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75
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94. 7
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95. 0
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94. 6
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90
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95. 0
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95. 2
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94. 9
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110
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95. 2
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95. 4
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95. 1
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132
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95. 4
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95. 6
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95. 4
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160
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95. 6
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95. 8
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95. 6
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200
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95. 8
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96. 0
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95. 8
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375
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95. 8
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96. 0
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95. 8
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>=400
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96. 0
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96. 0
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96. 0
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Notes:
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1. Minimum efficiencies for 2-, 4- and 6-pole motors in the range 1.1kW to 375kW correspond to those for the IE3 premium efficiency class defined by the IEC 60034-30 standard.
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2. For motors with more than 6 poles, the minimum efficiency criteria for 6-pole motors above shall apply.
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3. Motors must be tested in accordance with IEC 60034-2-1 or scientific equivalent, where additional load losses are determined using low uncertainty methods.
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4. Where a particular motor size is not listed, the required minimum efficiency level for the next size up must be met.
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Testing for motors rated 400 kW and above must be certified by a body qualified and approved to test to IEC 60034-2-1 standard or equivalent. Detailed test results must be submitted and these results must be to the reasonable satisfaction of the Sustainable Energy Authority of Ireland".
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4. Schedule 1 of the Principal Order is amended by substituting the following for Part 3 of that Schedule:
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"Part 3
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Category: Lighting
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Technology: Lighting Units
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Lighting units are products that are specifically designed to provide efficient interior or exterior illumination.
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Lighting units are considered to include:
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High efficiency luminaires:
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High efficiency Luminaires consist of a light fitting, one or more lamps and associated electronic control gear*.
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Light emitting diode (LED) luminaires
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LED Luminaires are solid state lighting devices consisting of a light fitting, one or more LED light sources, optical system and associated LED driver.
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Light emitting diode (LED) lamps:
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LED Lamps are solid state lighting devices consisting of a lamp with LED's, integrated LED driver and lamp base suitable for existing light fittings.
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*For High intensity discharge lamps (e.g. High-pressure sodium or metal halide) of individual lamp wattage greater than or equal to 200W suitable electronic control gear is not available and is therefore not a requirement.
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Eligibility Criteria
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In order to be included on the ACA Specified List, Lighting units must meet the relevant requirement set out below.
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Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
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General eligibility criteria
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(applicable to all Lighting units)
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No.
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Condition
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1.
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All equipment and/or components must be CE marked as required by the specific EU directive(s).
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2.
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Must have a minimum power factor of 0.7 at all levels of product light output
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High Efficiency Luminaires - Specific eligibility criteria
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(to be met in addition to the general eligibility criteria)
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No.
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Condition
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3.
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The photometric data of the Luminaires must have been measured and tested in accordance with EN 13032-1&2 "Light and lighting - Measurement and presentation of photometric data of lamps and Luminaires"
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4.
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Must meet the minimum efficacy criteria required for high efficiency luminaires as outlined in Table 1
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5.
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All lamps and control gear must be ENEC marked or comply with the relevant performance standards.
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LED lamps and luminaires - Specific eligibility criteria
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(to be met in addition to the general eligibility criteria)
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No.
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Condition
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6.
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The photometric data of the Luminaire or lamp must have been measured and tested in accordance with:EN 13032-1&2 "Light and lighting - Measurement and presentation of photometric data of lamps and Luminaires" or IES LM-79-08 "Electrical and photometric measurements of Solid-State lighting products".
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7.
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Must have a light output (in lumens) not less than 90% of initial1 light output after 6,000 hours of continuous operation and which is tested according to:IEC/PAS 62612 "Self ballasted LED-Lamps for general lighting services - performance requirements" or IES LM-80-08 "Measuring Lumen maintenance of LED light sources".
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8.
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Luminaires must meet the minimum efficacy criteria required for LED luminaires as outlined in Table 1. Lamps must meet the minimum efficacy criteria in table 2.
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9.
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A minimum lumen output of 150 lumens for the whole lamp or luminaire.
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10.
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A colour rendering index not less than Ra70.
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11.
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A rated Correlated Colour Temperature between 2500 and 6500K
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Table 1 - Luminaires: Minimum efficacies table for high-efficiency and LED Luminaires
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Luminare type
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Minimum efficacy(l l/cW)
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High-pressure sodium 200W per lamp
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80
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High-pressure sodium <200W per lamp
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65
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Metal halide
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65
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Linear Fluorescent*
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55
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Compact Fluorescent* 300mm**
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55
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Compact Fluorescent* < 300mm**
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45
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Induction
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45
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LED
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45
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*Linear and Compact Fluorescent luminaires must have High frequency control gear incorporated into the fitting
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**300mm in longest dimension
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ll/cW = Luminaire Lumens per circuit Watts
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= Total Lumen Output x Light Output Ratio
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Circuit Power Drawn
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Where:
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-� Total lumen output (Lumens)= the total light output of all the lamps in the fitting (measured in Lumens),
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-� Light Output Ratio (LOR) = ULOR and DLOR values may be combined where the fitting is designed to provide direct and indirect lighting, otherwise only the LOR in the intended lighting direction may be used.
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-� Circuit Power Drawn (Watts) = the electrical power drawn by the whole luminaire from main circuit connection point to lamp, including losses in the control gear (ballast)2
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Table 2 - Lamps: Minimum efficacies table for LED lamps
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LED Lamp type
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Minimum efficacy l/cW
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Omni directional*
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45
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Directional*
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45
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*As defined under Energy Star.
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l/cW = Lumens per circuit Watts
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= total lumen output
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circuit power drawn
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Where:
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-� Total lumen output (Lumens)= the total light output of the lamp
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-� Circuit Power Drawn (Watts) = the electrical power drawn by the whole lamp, including losses in the LED driver".
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5. Schedule 1 of the Principal Order is amended by substituting the following for Part 4 of that Schedule:
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"Part 4
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Category: Lighting
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Technology: Lighting Controls
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Systems used to control lighting with the aim of optimising energy usage. These systems use timers, daylight sensing, occupancy sensing and/or traffic flow sensing to control switching and/or dimming of lighting within different zones.
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Lighting controls are considered to include:
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Time controllers
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Automatically switch off lighting, or dim it down, at predetermined times
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Daylight controllers and sensors
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Monitor daylight availability, and automatically switch off lighting or dim it down to the level needed to sufficiently illuminate the area.
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Occupancy controllers and sensors
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Monitor occupancy or movement of personnel, and automatically switch off, or dim down, lighting when the area is unoccupied.
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Traffic flow controllers and sensors
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Monitor traffic flow density, and automatically switch off, or dim down, lighting when a predetermined low average traffic flow is reached.
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Eligibility Criteria
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In order to be included on the ACA Specified List, Lighting Control equipment must meet all of the relevant requirements set out below.
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Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
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General eligibility criteria
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(applicable to all lighting control equipment)
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No.
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Condition
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1.
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All equipment and/or components must be CE-marked as required by the specific EU directive(s).
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2.
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Where automatic dimming controls are used, they must work by reducing the power consumption of the lamps. And,-� Where LED lighting or fluorescent lighting is being dimmed, the controls must be capable of reducing the power consumption of the controlled lamps by at least 50%. -� Where fluorescent lighting is being dimmed, it must incorporate high frequency control gear with dimmable ballasts. -� Where other forms of lighting than fluorescent are being dimmed, they must incorporate either mains frequency or high frequency control gear with dimmable ballasts.
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Time controllers - specific eligibility criteria
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(to be met in addition to the general eligibility criteria)
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No.
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Condition
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3.
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The product must automatically switch the lighting off, or dim it down, at predetermined times, or after a predefined interval.
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Daylight controllers - specific eligibility criteria
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(to be met in addition to the general eligibility criteria)
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No.
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Condition
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4.
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The product must monitor the availability of daylight and automatically switch the lighting off when sufficient daylight is available to illuminate the area irrespective of switching cycle mode. Controls that incorporate dimming must dim down the lighting to the level needed to sufficiently illuminate the area by a combination of daylight and electric light.
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Occupancy controllers - specific eligibility criteria
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(to be met in addition to the general eligibility criteria)
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No.
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Condition
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5.
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The product must automatically switch off the lighting, or dim it down, after the area has become unoccupied.
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Traffic flow controllers - specific eligibility criteria
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(to be met in addition to the general eligibility criteria)
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No.
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Condition
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4.
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The product must automatically switch the lighting off, or dim it down, when a predetermined low average traffic flow is reached.
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Notes
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1. Modules which can be added to a lighting control system/product but do not control or monitor lighting are not eligible for ACA support as lighting controls.
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2. Products may incorporate the facility for local users to manually switch on and off lighting in a local area and thus to override the relevant lighting controls at any particular instance. However products that allow local users to locally override the ability of lighting controls to automatically switch off or dim down the lighting, are not eligible".
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6. Schedule 1 of the Principal Order is amended by substituting the following for Part 23 of that Schedule:
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"Part 23
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Category: Process and Heating, Ventilation and Air-conditioning (HVAC) Control Systems
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Technology: Heat Exchangers
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Heat Exchangers are equipment that is specifically designed to enable the efficient transfer of energy from one liquid or gas stream to another, in both heating and cooling applications.
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Heat Exchanger equipment is considered to include the following:
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Run-around Coil heat exchangers
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A Run-around Coil heat exchanger transfers energy from an exhaust air stream to a supply air stream via an energy transfer medium circuit (usually water) connecting the two energy streams.
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Liquid-to-liquid Plate heat exchangers
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Liquid-to-liquid plate heat exchangers comprise of a series of formed plates through which liquid streams are channeled in alternate flows. Energy is transferred between an exhaust and supply liquid stream via the exchangers and an energy transfer circuit.
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Air-to-air Plate heat exchangers
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Air-to-air plate heat exchangers comprise of a series of formed plates through which air streams are channeled in alternate flows. Energy is transferred between an exhaust and supply airstream via the exchangers and an energy transfer circuit.
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Thermal Wheel heat exchangers
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Thermal wheel heat exchangers are installed where the exhaust air stream is directly adjacent to the supply air stream. The wheel rotates slowly on an axis perpendicular to air flow. The rotation of the wheel transfers energy between the two streams.
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Eligibility Criteria
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In order to be included on the ACA Specified List, the specific heat exchanger equipment must satisfy all of the relevant requirements set out below.
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Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
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General Heat Exchanger Eligibility Criteria
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(Applicable to all heat exchanger equipment)
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No.
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Condition
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1.
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All equipment and/or components must be CE marked as required by the specific EU directive(s).
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2.
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All required performance values must be tested according to:-� EN305 "Heat exchangers. Definitions of performance of heat exchangers and the general test procedure for establishing performance of all heat exchangers"-� EN 306 "Heat exchangers. Methods of measuring the parameters necessary for establishing the performance"-� EN 308 "Heat exchangers - Test procedures for establishing the performance of air to air and flue gases heat recovery devices" As specified for each individual condition,or scientific equivalent.
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Run-around heat exchangers - specific Eligibility Criteria
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(To be met in addition to the general eligibility criteria)
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No.
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Condition
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3.
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A heat transfer efficiency greater than or equal to 50% during maximum capacity operation tested in compliance with EN305/EN306.
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4.
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A maximum air side pressure drop across an individual heat exchanger coil of 100 Pa. tested in compliance with EN305/EN306.
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5.
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A maximum water side pressure drop across an individual heat exchanger coil of 25 kPa tested in compliance with EN305/EN306.
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Liquid-to-liquid Plate Heat exchangers - specific Eligibility Criteria
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(To be met in addition to the general eligibility criteria)
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6.
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A ratio of internal heat exchanging surface area to maximum operating volume greater than 200. (m2/m3 >200). tested in compliance with EN305/EN306.
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7.
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A heat transfer efficiency greater than or equal to 85% during maximum capacity operation. tested in compliance with EN305/EN306.
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Air-to-air Plate Heat exchangers - specific Eligibility Criteria
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(To be met in addition to the general eligibility criteria)
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No.
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Condition
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8.
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A heat transfer efficiency greater than or equal to 50% during maximum capacity operation. tested in compliance with EN308.
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9.
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A maximum pressure drop across the heat exchanger of 250 Pa tested in compliance with EN308.
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Thermal Wheel heat exchangers - specific Eligibility Criteria
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(To be met in addition to the general eligibility criteria)
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No.
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Condition
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10.
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A heat transfer efficiency greater than or equal to 70% during maximum capacity operation tested in compliance with EN308.
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11.
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A maximum pressure drop across the heat exchanger component of 200 Pa. tested in compliance with EN308.
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".
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7. Schedule 1 of the Principal Order is amended by inserting the following:
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"Part 30
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Category: Refrigeration and Cooling
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Technology: Compressors and Condensing Units
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Compressors and Condensing Units are defined as equipment designed to compress refrigerant vapour, and in the case of Condensing Units to also condense that vapour into a liquid, achieving very high operational efficiencies.
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Compressors and Condensing Units equipment is considered to include the following:
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Compressors
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Refrigeration compressors are products specifically designed to raise the pressure, temperature and energy level of a refrigerant vapour by mechanical means, as part of a vapour-compression, economised vapour-compression or transcritical CO2 refrigeration cycle.
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Economiser packages consist of a refrigeration compressor, an expansion device, and an economiser that is capable of increasing refrigerant sub-cooling and refrigeration cycle efficiency.
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Condensing Units
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Air-Cooled Condensing Units products are specifically designed to provide cooling to other equipment and systems that incorporate evaporators (and associated expansion valve control systems). Air-cooled condensing units are factory-assembled units that consist of one or more compressors, an air-cooled condenser and interconnecting pipework. They may include liquid receivers, filter driers, oil separators, shut-off valves and related controls, and a weatherproof housing.
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Eligibility Criteria Overview
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To be included on the ACA Specified List, the specific Refrigeration and Cooling equipment must meet all the relevant requirements listed below.
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Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
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General Eligibility Criteria
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(applicable to all Refrigeration and Condensing Units)
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No.
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Condition
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1
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All equipment and/or components must be CE-marked as required by the specific EU directive(s)
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2
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Be designed to operate with one or more clearly identified standard refrigerants
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3
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Compressors must be hermetic or semi-hermetic type. Products that depend on an external motor for compressor operation (i.e. 'open'-type compressors) are not eligible
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Compressors - Specific Eligibility Criteria
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(to be met in addition to the general eligibility criteria)
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No.
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Condition
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4
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Be either a refrigeration compressor or an economiser package
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5
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Incorporate a positive displacement type, hermetic or semi-hermetic compressor (with integral electric motor)
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6
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Have a displacement greater than 9 cubic metres per hour, except for products using R744 which must have a displacement greater than 5 cubic metres per hour
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7
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Products must have a coefficient of performance (COP) that is greater than the values shown in Table 1 (below) at the specified rating points. COP must be calculated according to IS EN 12900:2005 'Refrigerant compressors - Rating conditions, tolerances and presentation of manufacturer's performance data'.
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8
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Low-temperature transcritical/subcritical R744 products must include an appropriately matched gas intercooler that is capable of reducing the intermediate gas temperature to the level required for second-stage compression
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Condensing Units - Specific Eligibility Criteria
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(to be met in addition to the general eligibility criteria)
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No.
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Condition
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9
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Be a factory-assembled unit that incorporates at least the following components: a) Air-cooled refrigerant condenser b) One or more electrically driven refrigeration compressors c) A control system that controls the product's compressors and cooling fan(s)
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10
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Fall into one or more of the following three temperature categories: -� High-temperature units -� Medium-temperature units -� Low-temperature units
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11
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Products must have a coefficient of performance (COP) that is greater than the values shown in Table 2 (below) at the specified rating points
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Table 1: Minimum performance thresholds for refrigeration compressors at the Republic of Ireland (RoI) rating points
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Category
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Evaporating temperature (dew point)
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Condensing temperature (dew point)
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Compressor suction gas temperature
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Liquid sub-cooling
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COP threshold
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High-temperature with HFC3 or HC4 refrigerant
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+5°C
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35°C
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20°C
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0K
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> 5.20
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Medium-temperature with HFC or HC refrigerant
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-10°C
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30°C
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20°C
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0K
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> 3.36
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Low-temperature with HFC or HC refrigerant
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-35°C
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25°C
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20°C
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0K
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> 1.94
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Medium-temperature transcritical/ subcritical with R744 refrigerant
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-10°C
|
15°C
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0°C
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0K
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> 4.20
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Low-temperature transcritical/ subcritical with R744 refrigerant
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-35°C
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15°C
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-25°C
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0K
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> 1.80
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Low-temperature subcritical with R744
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-35°C
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-5°C
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-25°C
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0K
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> 3.20
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|
|
Note: For economiser packages, zero subcooling refers to the liquid condition at the condenser exit.
|
|
|
Table 2: Performance thresholds for air-cooled condensing units at the RoI rating points
|
|
|
|
Temperature category
|
Evaporating temperature (dew point)
|
Ambient (condenser air-on) temperature
|
Compressor suction gas temperature
|
COP threshold
|
|
High-temperature units
|
+5°C
|
20°C
|
20°C
|
3.9
|
|
Medium-temperature units
|
-10°C
|
20°C
|
20°C
|
2.8
|
|
Low-temperature units
|
-35°C
|
20°C
|
20°C
|
1.6
|
|
|
|
Where:
|
|
|
COP = refrigerating capacity/power absorbed, including the compressor and the condenser fans (and any other power use associated with the air-cooled condensing unit)
|
|
|
The refrigerating capacity and power absorbed are as defined in IS EN 13215:2000 - 'Condensing units for refrigeration - Rating conditions, tolerances and presentation of manufacturer's performance data', and the power absorbed must be measured at full load, without condenser pressure control, and must include the fan power.
|
|
|
Part 31
|
|
|
Category: Refrigeration and Cooling Systems
|
|
|
Technology: Refrigerated Display Cabinet equipment
|
|
|
Refrigerated Display Cabinet equipment is defined as equipment that is designed to store and display chilled and/or frozen foodstuffs.
|
|
|
Refrigerated Display Cabinet equipment is considered to include the following:
|
|
|
Refrigerated Display Cabinets
|
|
|
Refrigerated display cabinets are used to maintain foodstuffs and drinks at chilled and frozen temperatures. There are many different designs of refrigerated display cabinets, but all enable the customer to view the foodstuff stored in the cabinet, either through an opening in the cabinet, or through a transparent door or lid. The two types of cabinets included are:
|
|
|
-� 'Plug-in' refrigerated display cabinets with integral refrigeration systems (i.e. incorporating a compressor and condensing unit)
|
|
|
-� 'Remote' refrigerated display cabinets that are designed to work with a non-integral refrigeration system (i.e. where the compressor and condenser, or all or parts of the refrigeration system, are located at a different location from the cabinet)
|
|
|
Covers for Refrigerated Display Cabinets
|
|
|
Covers for Refrigerated Display Cabinets are rigid barriers that can be used to reduce the infiltration of ambient air and heat flow into refrigerated display cabinets, thereby reducing the energy consumption of the cabinet. The five types of covers included are:
|
|
|
1. Strip curtains that consist of transparent, flexible strips hung adjacent to each other, and fastened at both ends to neighbouring strips, in a manner that allows temporary openings to be made in the curtain for the purpose of removing items from the cabinet.
|
|
|
2. Night blinds that consist of a flexible fabric mounted on a roller mechanism that enables the blind to be deployed across the display window of the cabinet when the retail outlet is closed. The blind may also incorporate a motorised control system.
|
|
|
3. Transparent chest freezer covers (or 'bubble lids') that consist of a rigid transparent material that fits across the display window of the cabinet, and incorporates access holes that enable items to be removed from the cabinet without removing the cover.
|
|
|
4. Transparent sliding doors that consist of doors with a heat-reflective coating, mounted in a mechanism (designed to be installed in the window of the cabinet) that enables the doors to be opened when items need to be removed from the cabinet.
|
|
|
5. Transparent hinged doors that consist of doors with a heat-reflective coating, mounted in a mechanism (designed to be installed in the window of the cabinet) that enables the doors to be opened when items need to be removed from the cabinet.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, the specific Refrigerated Display Cabinet equipment must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
General Eligibility Criteria
|
|
|
(applicable to all Refrigerated Display Cabinet equipment)
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
|
|
Refrigerated Display Cabinets - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
2
|
Be designed to display chilled and/or frozen foodstuffs, while maintaining them within prescribed temperature limits
|
|
3
|
Conform to one of the temperature classifications in Table 1 (see below) when tested to IS EN ISO 23953-2:2005 in climate class III (25°C, 60% RH)
|
|
4
|
Have an Energy Efficiency Index (EEI) that is less than, or equal to, the threshold shown in Table 2 (see below) for the relevant temperature class and type of cabinet
|
|
5
|
Be classified in accordance with the precise 5-digit classification system set out in Annex A of IS EN ISO 23953-1:2005
|
|
|
|
Covers for Refrigerated Display Cabinets - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
6
|
Products must: -� Provide a rigid barrier that can be used to reduce the infiltration of ambient air and heat flow through the open display window of a refrigerated display cabine-� Be designed to fit one or more specific types or models of refrigerated display cabinet in a manner that ensures that, when fitted, there is no air gap around the edges of the product's rigid barriers
|
|
|
|
Table 1: Classification according to temperature
|
|
|
|
Class
|
Highest temperature ah of warmest M-package equal to or lower than:
|
Lowest temperature b of coldest M-package equal to or higher than:
|
Lowest temperature al of warmest M-package equal to or lower than:
|
|
L1
|
-15°C
|
-
|
-18°C
|
|
L3
|
-12°C
|
-
|
-15°C
|
|
M0*
|
+4°C
|
-1°C
|
-
|
|
M1
|
+5°C
|
-1°C
|
-
|
|
M2
|
+7°C
|
-1°C
|
-
|
|
H1
|
+10°C
|
+1°C
|
-
|
|
H2
|
+10°C
|
-1°C
|
-
|
|
|
|
*Note: All classes are as described in IS EN ISO 23953-2:2005, except M0, which is based on recommendations by the British Refrigeration Association.
|
|
|
Table 2: Performance thresholds for refrigerated display cabinets
|
|
|
|
Classification according to temperature
|
EEI performance threshold(kWh/day/m2)
|
|
|
Integral type
|
Remote type
|
|
L1
|
21. 00
|
23. 50
|
|
L3
|
n/a
|
21. 00
|
|
M0
|
12. 50
|
11. 75
|
|
M1
|
12. 20
|
11. 45
|
|
M2
|
11. 60
|
10. 85
|
|
H1
|
n/a
|
8. 00
|
|
H2
|
10. 20
|
9. 20
|
|
|
|
Where the Energy Efficiency Index (EEI) is defined as the ratio of the product's Total Energy Consumption (TEC) to Total Display Area (TDA), i.e. EEI = TEC/TDA, and:
|
|
|
-� TEC is calculated according to IS EN ISO 23953-2:2005 section 5.3.6.3.4
|
|
|
-� TDA is calculated according to IS EN ISO 23953-2:2005 Annex A
|
|
|
Part 32
|
|
|
Category: Refrigeration and Cooling
|
|
|
Technology: Condensers
|
|
|
Condensers are defined as equipment that is designed to cool and condense high-pressure refrigerant vapour by means of a heat exchanger.
|
|
|
Condenser equipment is considered to include the following:
|
|
|
Evaporative Condensers
|
|
|
Evaporative Condensers are specifically designed to cool and condense high-pressure refrigerant vapour by means of a heat exchanger that has a continuously wetted external surface across which air is blown by a fan.
|
|
|
Air-Cooled Condensers
|
|
|
Air-cooled Condensers are specifically designed to cool and condense high-pressure refrigerant vapour by means of a heat exchanger across which air is blown by a fan.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, the specific Condenser equipment must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
General Eligibility Criteria
|
|
|
(applicable to all Condenser equipment)
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
2
|
Products must incorporate: -� A heat exchanger that is designed to cool and condense refrigerant vapour -� A fan that blows air over the heat exchanger
|
|
|
|
Evaporative Condensers - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
3
|
Products must incorporate a mechanism that continually wets the external surface of the heat exchanger, and that includes a water pump and a water storage tank
|
|
4
|
Equipment must be manufactured so as to comply fully with all applicable requirements of the 'National Guidelines for the Control of Legionellosis in Ireland 2009' (or later edition)
|
|
|
|
Air-Cooled Condensers - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
5
|
Meet the performance criteria measured by the Energy Efficiency Ratio (EER) of the unit at 100% (full) load capacity, as indicated in Table 1
|
|
|
|
Table 1: Minimum Energy Efficiency Ratio (EER) performance values
|
|
|
|
Type
|
EER
|
|
Air-Cooled Condenser
|
110
|
|
|
|
Where: EER = Net heat rejection capacity kW (@T 15K)
|
|
|
Absorbed electrical power kW
|
|
|
Part 33
|
|
|
Category: Refrigeration and Cooling Systems
|
|
|
Technology: Refrigeration System Controls
|
|
|
Refrigeration System Controls are defined as equipment that controls and optimises the temperatures and pressures in a refrigeration system, and automatically adjusts the refrigeration system's operation to minimise its energy consumption, while maintaining within predefined temperature limits the spaces, processes or equipment being refrigerated, and reflecting changes in load, weather conditions and operating requirements.
|
|
|
Refrigeration System Controls equipment is considered to include the following:
|
|
|
System Management Package
|
|
|
This consists of one or more control units or modules designed to optimise an entire refrigeration system, including the operation of refrigeration compressor(s), evaporator(s) and condenser(s).
|
|
|
'Add-on' Controllers
|
|
|
These are designed to be used in conjunction with a specific system management unit or package, and enable the operation of additional refrigeration compressors, evaporators and condensers to be optimised
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, the specific Refrigeration System Controls equipment must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
General Eligibility Criteria
|
|
|
(applicable to all Refrigeration System Controls equipment)
|
|
|
|
No.
|
Condition
|
|
1.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
2.
|
Must comply with the relevant requirements, as set out in Tables 1 to 3 below, for products that directly control by means of an analogue or digital signal connection: a) Evaporators (see Table 1) b) Condensers (see Table 2) c) Compressors (see Table 3)
|
|
3.
|
Products must incorporate a microprocessor-based controller that is pre-programmed to automatically control the rate of flow of refrigerant through, and/or operating temperature of, at least one of the following types of refrigeration equipment: a) Evaporatorsb) Condensers c) Compressors
|
|
|
|
System Management Package - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
4.
|
Must automatically adjust the system operating set points in a manner that minimises the refrigeration system's energy consumption under different operating loads, weather conditions and surrounding air temperatures
|
|
5.
|
Is pre-programmed to undertake one or more of the following: i. Monitor temperatures and/or pressures around the refrigeration system, and automatically initiate defrost cycles, or inhibit (or delay) scheduled defrost cycles, within individual parts of the refrigeration system, as required, to optimise the overall performance of the refrigeration system ii. Monitor refrigeration system energy input (kWh) and generate a visual or audible alarm when system power consumption exceeds a pre-defined limit, or when system efficiency degradation is preventing automatic adjustment iii. Automatically, in accordance with a pre-defined weekly time schedule, turn off, or turn down, ancillary power loads around the refrigeration system (such as lighting in display cabinets, trim heaters or fans), or activate night blinds, in order to reduce system energy consumption
|
|
6.
|
Must provide facilities that enable system managers to define the default set points, and alarm limits, for each item of refrigeration equipment controlled.
|
|
|
|
'Add-on' Controller - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
7.
|
Must automatically accept instructions from the system manager to change its operating set points or alarm limits, or to initiate or inhibit a defrost cycle.
|
|
8.
|
Must automatically transmit data on operating temperatures, pressures, or flow rates to the system manager at intervals not exceeding 10 minutes.
|
|
|
|
Table 1: Control of evaporators
|
|
|
All products that directly control evaporators must:
|
|
|
|
No.
|
Requirement
|
|
a.
|
Be designed to directly measure evaporator pressure or temperature by means of a sensor, and automatically adjust the flow of refrigerant through the evaporator to maintain the refrigerated space within pre-defined operating limits.
|
|
b.
|
Automatically terminate its defrost cycle when: -� The temperature of the evaporator or refrigerated space exceeds a preset value.-� A maximum defrost time consistent with sensor failure has been exceeded.
|
|
c.
|
Provide facilities that enable system managers to define separate temperature set points and alarm limits for each evaporator being controlled.
|
|
d.
|
Provide facilities that enable system managers to take the equipment out of service for cleaning or maintenance.
|
|
e.
|
Generate an alarm signal when the temperature of the refrigerated space is in danger of straying outside, or has strayed outside, its pre-defined safe operating limits.
|
|
|
|
Table 2: Control of condensers
|
|
|
All products that directly control condensers must:
|
|
|
|
No.
|
Requirement
|
|
a.
|
Be designed to directly measure condenser pressure or temperature by means of a sensor, and automatically adjust the airflow across the condenser(s) in a manner that maintains condensation at the rate required to maintain the thermal balance of the refrigeration system under different operating loads and weather conditions.
|
|
b.
|
Allow the compressor discharge (head) pressure to 'float' with ambient temperature down to the minimum safe level for the particular refrigeration system for maximum system efficiency.
|
|
c.
|
Provide facilities that enable system managers to define separate temperature set points and alarm limits for each condenser being controlled.
|
|
d.
|
Generate an alarm signal when the condensing pressure or temperature is in danger of straying outside, or has strayed outside, the predefined limits for safety or efficiency.
|
|
|
|
Table 3: Control of compressors
|
|
|
All products that directly control compressors must:
|
|
|
|
No.
|
Requirement
|
|
a.
|
Be able to control the operation of at least two refrigeration compressors.
|
|
b.
|
Incorporate automatic control algorithms that monitor rate of change in system suction pressure or refrigerant temperature to prevent compressors from unnecessarily being controlled to load or unload in response to small fluctuations in cooling demand.
|
|
|
|
Where:
|
|
|
-� Automatic control may be implemented either directly by means of an analogue or digital signal connection, or indirectly by means of another control device or network.
|
|
|
-� A mechanism is defined as "any sequence of pre-defined actions that performs a given function, where an action can be defined in hardware and/or software".
|
|
|
-� An algorithm is defined as "a mechanism that is defined in software".
|
|
|
-� The product's control strategy is the combination of automatic control functions, mechanisms and facilities specified for the particular equipment controlled. In this context, products may be pre-programmed in one of the following ways:
|
|
|
a) One or more fixed control strategies that are designed to control a specific set of equipment that can be selected during commissioning
|
|
|
b) One or more flexible control strategies that can be configured to control different equipment, as part of a clearly defined commissioning procedure
|
|
|
Part 34
|
|
|
Category: Electro-Mechanical Systems
|
|
|
Technology: Injection Blow Moulding Machines
|
|
|
An Injection Blow Moulding Machine (IBMM) is a machine for the injection blow moulding of thermoplastics that:
|
|
|
-� Melts and plasticizes the thermoplastic raw material
|
|
|
-� Closes the mould and clamps closed the pre-form mould
|
|
|
-� Injects the plasticized raw material into the pre-form mould and holds it under pressure until it has solidified
|
|
|
-� Opens the pre-form mould and rotates or otherwise moves the pre-form to the blowing station
|
|
|
-� Closes the blowing station mould over the pre-form
|
|
|
-� Injects high-pressure compressed air into the hot pre-form to expand the pre-form to the final shape
|
|
|
-� Ejects the completed product
|
|
|
IBMMs have traditionally been powered by hydraulic systems using a hydraulic pump and hydraulic motors. The newer generation of IBMMs use electrical servo-motors to provide variable power to the machine; these are called 'all-electric machines'.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, an Injection Blow Moulding Machine (IBMM) must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
2
|
The IBMM drive system is to be primarily servo-motor-controlled.Limited hydraulic motors are allowed for hybrid systems but hydraulic motor energy use is to be less than 40% of total IBMM energy use.
|
|
3
|
The average power consumption of the IBMM shall be less than:kW = 0.3 x (Production Rate) + 22where the 'Production Rate' is measured in kg/hour of machine throughput.
|
|
4
|
Appropriate operating & maintenance manuals must be available to the end-user in order to maximise the achievement of any potential energy-efficiency gains.
|
|
|
|
Notes:
|
|
|
1. Some manufacturers will use a 'hybrid' technology combining both electric and hydraulic operation for specific applications. This allows processors to benefit from the advantages of both electric and hydraulic operations. In these cases, the hydraulic element of the power consumption (kW) shall be less than 40% of the total power consumption of the IBMM.
|
|
|
2. In some existing tooling, hydraulic control of mould movements is needed and is currently powered from the IBMM's hydraulic system. In these cases, a hydraulic power pack may be required to allow existing tooling to be used on all-electric machines. The power consumption use of any such hydraulic power pack is not included in the power consumption assessment of the machine.
|
|
|
3. Where the process is injection stretch blow moulding (ISBM), the same conditions for ACA eligibility shall apply.
|
|
|
Part 35
|
|
|
Category: Electro-Mechanical Systems
|
|
|
Technology: Injection Moulding Machines
|
|
|
An Injection Moulding Machine (IMM) is a machine for the injection moulding of thermoplastics that:
|
|
|
-� Melts and plasticizes the thermoplastic raw material
|
|
|
-� Closes the mould and clamps the mould closed
|
|
|
-� Injects the plasticized raw material into the mould and holds it under pressure until it has solidified
|
|
|
-� Opens the mould and ejects the completed product
|
|
|
IMMs have traditionally been powered by hydraulic systems using a hydraulic pump and hydraulic motors. The newer generation of IMMs uses electrical servo-motors to provide variable power to the machine; these are called 'all-electric machines'.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, an Injection Moulding Machine (IMM) must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
2
|
The IMM drive system is to be primarily servo-motor-controlled.Limited hydraulic motors are allowed for hybrid systems but hydraulic motor energy use is to be less than 40% of total IMM energy use.
|
|
3
|
The average power consumption of the IMM shall be less than:kW = 0.6 x (Production Rate) + 4where the 'Production Rate' is measured in kg/hour of machine throughput (product + any sprues and runners).
|
|
4
|
Appropriate operating and maintenance manuals must be available to the end-user in order to maximise the achievement of any potential energy-efficiency gains.
|
|
|
|
Notes:
|
|
|
1. Some manufacturers use a 'hybrid' technology combining both electric and hydraulic operation for specific applications. This allows processors to benefit from the advantages of both electric and hydraulic operations. In these cases, the hydraulic element of the power consumption (kW) shall be less than 40% of the total power consumption of the IMM.
|
|
|
2. In some existing tooling, hydraulic control of mould movements is needed and is currently powered from the IMM's hydraulic system. In these cases a hydraulic power pack may be required to allow existing tooling to be used on all-electric machines. The power consumption use of any such hydraulic power pack is not included in the power consumption assessment of the machine.
|
|
|
Part 36
|
|
|
Category: Electro-Mechanical Systems
|
|
|
Technology: Extrusion Blow Moulding Machines
|
|
|
An Extrusion Blow Moulding Machine (EBMM) is a machine for the extrusion blow moulding of thermoplastics that:
|
|
|
-� Melts and plasticizes the thermoplastic raw material
|
|
|
-� Extrudes a hollow parison from the extrusion head
|
|
|
-� Closes the mould around the parison
|
|
|
-� Injects high-pressure compressed air into the parison, to expand it to the final shape
|
|
|
-� Trims the 'tops and tails' from the product
|
|
|
-� Opens the mould
|
|
|
-� Removes the completed product from the mould to the packing station
|
|
|
-� Recycles the 'tops and tails' back into the process via conveyors, regranulators and blowers
|
|
|
EBMMs have traditionally been powered by extruder motors with hydraulic systems for most of the machine movements. The newer generation of EBMMs uses electrical servo-motors to provide variable power for the machine movements. These are called 'all-electric machines'.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, an Extrusion Blow Moulding Machine (EBMM) must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
2
|
The EBMM machine movements are to be primarily servo-motor-controlled.Limited hydraulic motors are allowed for hybrid systems, but hydraulic motor energy use is to be less than 25% of total EBMM energy use.
|
|
3
|
The average power consumption of the entire EBMM shall be less than:kW = 0.22 x (Production Rate) + 18where the 'Production Rate' is measured in kg/hour of total machine throughput (product + any tops and tails).
|
|
4
|
Appropriate operating and maintenance manuals must be available to the end-user in order to maximise the achievement of potential energy efficiency gains.
|
|
|
|
Notes:
|
|
|
1. Some manufacturers will use a 'hybrid' technology combining both electric and hydraulic operation for specific machine movements. This allows processors to benefit from the advantages of both electric and hydraulic operations. In these cases, the hydraulic element of the power consumption (kW) shall be less than 25% of the total power consumption of the EBMM.
|
|
|
2. In some existing tooling, hydraulic control of mould movements may be needed, and s currently powered from the EBMM's hydraulic system. In these cases, a hydraulic power pack may be required to allow existing tooling to be used on all-electric machines. The power consumption use of any such hydraulic power pack is not included in the power consumption assessment of the machine.
|
|
|
Part 37
|
|
|
Category: Electro-Mechanical Systems
|
|
|
Technology: Process Energy Management Systems
|
|
|
Process Energy Management Systems (PEMS) are hardware, firmware or software control systems designed to manage the energy consumption of energy-using equipment, with the sole aim of optimising energy efficiency within the process and meeting specified energy-efficiency standards.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, a PEMS must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
Inputs to the system must include energy use and process/system conditions.
|
|
2
|
The system must provide a user interface that alerts the user when the system is not performing to its specified conditions.
|
|
3
|
The system must control the operation of more than one piece of standalone machinery, and the equipment must be able to operate without the PEMS (i.e. the system is not an integral part of the operating controls of a machine).
|
|
4
|
All controlled variables on the system must have upper and lower control limits and alert the user when these are outside of required bands, along with the energy impact expected.
|
|
5
|
The system shall have at least one key performance indicator that will be a good indicator of the energy efficiency of the operation of the process/equipment, with an ability to set both upper and lower bands of acceptance.
|
|
6
|
The system must allow the user to monitor and archive energy-related data, and have the capacity to generate standard interchange files that will allow other computer systems to use the data collected.
|
|
7
|
The device will have the functionality to cause controlled devices to be set to inactive mode after defined periods of inactivity.
|
|
8
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
9
|
Appropriate installation, operating and maintenance manuals, including an appropriate connections diagram, must be available for the end-user as part of the main contract of sale, along with any software supports required to communicate with external devices in order to maximise the achievement of any potential efficiency improvements when installed.
|
|
|
|
Part 38
|
|
|
Category: Electro-Mechanical Systems
|
|
|
Technology: Voltage Stabilisation
|
|
|
Voltage Stabilisation is defined as equipment designed to control the delivered output voltages within a specific acceptable range. It also provides for efficient use of electrical energy in electro-mechanical devices when the supply voltage variations fall outside of the specific acceptable range. Typical voltage stabilisation equipment includes voltage optimisers, voltage regulators and voltage stabilisers.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, Voltage Stabilisation equipment must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
The device must control the output voltage within a 1% range of set point when the supply voltage falls between the levels of 207V and 243.8V single-phase, or associated 3-phase voltages if a 3-phase unit.
|
|
2
|
Where the unit is three-phase, the unit must be capable of providing an equal three-phase output (balanced) in cases where the input supply voltages are not equal.
|
|
3
|
Insertion losses of the unit must not exceed an overall average of 1% over the ranges of 20%, 40%, 60%, 80% and 95% rated output load. The average shall be calculated as being the weighted average of each of the individual insertion losses in % terms. The defined connection profile is that the connected load will be 20% rated load for 10% of the time, 40% rated load for 20% of the time, 60% rated load for 30% of the time, 80% rated load for 30% of the time, and 95% rated load for 10% of the time.
|
|
4
|
The device must have a nominal output power rating of greater than or equal to 10kVA and less than or equal to 2MVA.
|
|
5
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
6
|
Documentation must be supplied with the unit that provides clear indications to the purchaser of expected savings in sample installation situations, outlining (a) the initial supply voltage, (b) the final controlled voltage and (c) the type of equipment connected. This will also include situations where savings are minimal or zero for (a) the case where existing supply voltages lead to minimal savings, and also separately for (b) the case where the supply voltages are high but significant amounts of installed equipment do not readily lend themselves to energy savings. The documentation shall provide a clear indication to the end-user of the types of equipment that do NOT typically provide savings when connected to these devices.
|
|
7
|
Appropriate installation, operating and maintenance manuals, including a wiring diagram, must be available for the end-user as part of the main contract of sale, along with any specific software or commissioning tools required in order to maximise the achievement of any potential efficiency improvements when installed.
|
|
|
|
Part 39
|
|
|
Category: Electro-Mechanical Systems
|
|
|
Technology: Electrical Actuators
|
|
|
An electrical actuator is a device that receives an electrical signal in the form of a controlled voltage, current or digital control signal from a device controller, and causes a mechanical part to move in a linear or rotational manner by a defined amount.
|
|
|
Actuators are considered to include multi-turn, partial turn or linear types which control valves, air dampers or similar devices.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA specified list, an electrical actuator must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
2
|
Actuator shall have a nominal input power rating of greater than or equal to 60W and less than or equal to 6kW.
|
|
3
|
Actuator electrical control signal shall cause the actuator to change state or position as desired, using electrical energy sources solely. Power supplies to provide the drive forces may be DC or single/ 3-phase AC only.
|
|
4
|
The actuator shall remain in its set position when external power is removed from the device and shall not consume energy from its main drive circuitry when in a fixed position and stationary for more than 10 seconds.
|
|
5
|
Appropriate installation, operating and maintenance manuals, including wiring diagram, must be available for the end-user as part of the main contract of sale, along with any specific actuator commissioning tools required in order to optimise potential efficiency improvements when installed.
|
|
|
|
Part 40
|
|
|
Category: Catering and Hospitality Equipment
|
|
|
Technology: Commercial Combination Ovens
|
|
|
Commercial electric and gas combination ovens are used in commercial kitchens and catering. They are categorised as electric (both full and half-size) and gas convection ovens (full-size only) where cookery within one unit is possible by using a combination of convection heat and steam.
|
|
|
Commercial Combination Ovens are considered to include the following:
|
|
|
Electric-Powered Combi Ovens
|
|
|
Electric-powered combi ovens are defined as half-size (capacity for a min. five pans5 ) and full-size (capacity for a min. 10 pans).
|
|
|
Gas Convection Ovens
|
|
|
Gas convection ovens are defined as full-size only (capacity for a min. ten pans).
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, the specific Commercial Combination Oven must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
General Eligibility Criteria
|
|
|
(applicable to all Commercial Combination Ovens)
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
2
|
Must comply with the Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment (RoHS)6 and Waste Electrical and Electronic Equipment (WEEE)7 regulations.
|
|
3
|
Must have the option to be supplied with an integrated condenser hood to regulate climate control in the location where it will operate or a heat exchanger to transfer heat from the steam exhaust to the incoming water.
|
|
|
|
Electric-Powered Combi Ovens - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
4
|
Must achieve a minimum cooking efficiency of 70% (both half and full-size units).
|
|
5
|
Must not exceed 1.6 kW (for full-size ovens) or 1.0 kW (for half-size ovens) in electrical energy consumption while operating at a stabilised temperature set point (standby rate)
|
|
|
|
Gas Convection Ovens - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
6
|
Must achieve a minimum cooking efficiency of 44%
|
|
7
|
Must not exceed 3.8 kWh gas consumption while operating at a stabilised temperature set point (standby rate)
|
|
|
|
Part 41
|
|
|
Category: Catering & Hospitality Equipment
|
|
|
Technology: Commercial Dishwashers
|
|
|
Commercial Dishwashers are defined as equipment constructed in stainless steel for use in commercial kitchens and to clean and sanitise dishes, plates, utensils, glasses, trays, cups, and bowls.
|
|
|
Commercial Dishwasher equipment is considered to include the following:
|
|
|
Undercounter Dishwashers
|
|
|
Undercounter dishwashers are loaded and unloaded by opening a drop-down door to the front of the machine and are typically less than 1000mm high. Maximum output per hour is 30 racks.
|
|
|
Stationary Single Tank Door Dishwashers
|
|
|
These include hood-type dishwashers and potwashers. They work by passing the racks through the stationary wash chamber. Maximum output per hour is 45 racks.
|
|
|
Single and Multiple Tank Rack Conveyor Dishwashers
|
|
|
Rack-type dishwashers feed baskets through the machine using a moving rack. Output ranges from 100 to 190 racks per hour.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, the specific Commercial Dishwasher must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
General Eligibility Criteria
|
|
|
(applicable to all Commercial Dishwashers)
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
2
|
Must comply with the Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment (RoHS)8 and Waste Electrical and Electronic Equipment (WEEE)9 regulations.
|
|
3
|
Must have a maximum water consumption as per Table 1 below
|
|
4
|
Must have a maximum idle energy rate as per Table 1 below (measured with door closed, representative of the energy used by the tank heater only)
|
|
|
|
Single and Multiple Tank Rack Conveyor Dishwasher - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
5
|
Must incorporate a heat-recovery system to preheat rinse water to a minimum temperature of 40° C
|
|
|
|
Table 1: Minimum Dishwasher Water Consumption and Idle Energy Rates
|
|
|
|
Dishwasher Type
|
Water Consumption(litres pre rack)
|
Idle Energy Rate(kW per hour)
|
|
Under-counter
|
3
|
0. 9
|
|
Stationary Single Tank Door
|
3
|
1
|
|
Single and Multiple Tank Rack Conveyor
|
2. 9
|
2. 6
|
|
|
|
Part 42
|
|
|
Category: Catering & Hospitality Equipment
|
|
|
Technology: Commercial Water Boilers
|
|
|
Commercial Water Boilers are defined as electrically powered equipment that delivers hot water (>90C) for use in the catering, restaurant and vending sectors. These units are automatically fed from, and thus continuously coupled to, the main potable water supply.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, a Commercial Water Boiler must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
2
|
Must have a storage capacity of greater than or equal to 5 litres and less than or equal to 25 litres
|
|
3
|
Efficiency during a normal operating period must be >95%
|
|
4
|
Standby energy loss <100WStandby energy loss is calculated as the energy consumption of a filled water heater, after steady-state conditions have been reached when connected to electrical supply, when no water is drawn for 24 hours
|
|
5
|
The amount of condensate lost to the atmosphere (out of system) over a 24hr period (8hrs operational/16hrs standby) should be < 50mL
|
|
|
|
Part 43
|
|
|
Category: Catering and Hospitality Equipment
|
|
|
Technology: Commercial Laundry Driers
|
|
|
Commercial laundry driers are defined as products that automatically use mechanical motion and a heat source to dry laundry such as clothes, towels, sheets, etc.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, a Commercial Laundry Drier must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
2
|
The load capacity of the drier must be a minimum of 14 kg.
|
|
3
|
Must comply with the Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment (RoHS)10 and Waste Electrical and Electronic Equipment (WEEE)11 regulations.
|
|
4
|
The performance of the laundry drier must be as per the minimum values set out in Table 1 below
|
|
5
|
The drier must have a moisture sensing element that will automatically turn off the machine once the load is dry.
|
|
|
|
Table 1. Minimum drier energy performance values
|
|
|
|
Drier Type
|
Energy Efficiency (kWh per kg dryer load)
|
|
Air vented drier
|
0.51
|
|
Condensing drier
|
0.55
|
|
|
|
Part 44
|
|
|
Category: Catering & Hospitality Equipment
|
|
|
Technology: Commercial Laundry Washers
|
|
|
Commercial laundry washers are defined as products that automatically use mechanical motion to clean laundry such as clothes, towels, sheets, etc, and use water as the primary washing solution.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, a Commercial Laundry Washer must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
2
|
The load capacity of the washing machine must be a minimum of 10 kg
|
|
3
|
Must comply with the Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment (RoHS)12 and Waste Electrical and Electronic Equipment (WEEE)13 regulations.
|
|
4
|
The performance of the washing machine must be as per the minimum values set out in Table 1 below
|
|
|
|
Table 1: Minimum laundry washer energy performance values
|
|
|
|
Performance Type
|
Minimum Value for A Rating
|
|
Energy Consumption
|
0.15 kWh per kg wash load
|
|
Washing Efficiency Index
|
1.03
|
|
|
|
Part 45
|
|
|
Category: Motors and Drives
|
|
|
Technology: Permanent Magnet Motors
|
|
|
A Permanent Magnet Motor (PMM) is electric synchronous motor with a 3-phase wound stator, and a rotor that incorporates permanent magnets. When the wound stator is energised by a 3-phase alternating current, it creates a rotating magnetic field that causes the rotor to rotate synchronously with it, i.e. the rotor and the rotating electric field in the stator move at the same speed.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, a permanent magnet motor must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
Must be a sinusoidally commutated, 3-phase permanent magnet synchronous motor with a rated shaft output of at least 0.75 kW
|
|
2
|
The motor must meet the efficiency requirements listed in Table 1
|
|
3
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
4
|
Appropriate operating and maintenance manuals must be available to the end user in order to maximise the achievement of any potential energy-efficiency gains
|
|
|
|
Table 1: Minimum Efficiency Criteria for Permanent Magnet Motors at 100% of max. continuous speed rating
|
|
|
|
Power Rating (kW)
|
Maximum continuous speed rating
|
|
|
Up to 325 rpm
|
326 rpm to 749 rpm
|
751 rpm to 1,000 rpm
|
1,001 rpmto 1,500 rpm
|
1,501 rpmto 3,000 rpm
|
Over 3,000 rpm
|
|
0. 75
|
71. 7
|
75. 3
|
78. 9
|
82. 5
|
80. 7
|
78. 9
|
|
1. 1
|
74. 8
|
77. 9
|
81. 0
|
84. 1
|
82. 7
|
81. 3
|
|
1. 5
|
76. 9
|
79. 7
|
82. 5
|
85. 3
|
84. 2
|
83. 1
|
|
2. 2
|
79. 5
|
81. 9
|
84. 3
|
86. 7
|
85. 9
|
85. 1
|
|
3. 0
|
81. 4
|
83. 5
|
85. 6
|
87. 7
|
87. 1
|
86. 5
|
|
4. 0
|
83. 2
|
85. 0
|
86. 8
|
88. 6
|
88. 1
|
87. 6
|
|
5. 5
|
84. 8
|
86. 4
|
88. 0
|
89. 6
|
89. 2
|
88. 8
|
|
7. 5
|
86. 5
|
87. 8
|
89. 1
|
90. 4
|
90. 1
|
89. 8
|
|
11. 0
|
88. 1
|
89. 2
|
90. 3
|
91. 4
|
91. 2
|
91. 0
|
|
15. 0
|
89. 4
|
90. 3
|
91. 2
|
92. 1
|
91. 9
|
91. 7
|
|
18. 5
|
89. 9
|
90. 8
|
91. 7
|
92. 6
|
92. 4
|
92. 2
|
|
22. 0
|
90. 6
|
91. 4
|
92. 2
|
93. 0
|
92. 7
|
92. 4
|
|
30. 0
|
91. 5
|
92. 2
|
92. 9
|
93. 6
|
93. 3
|
93. 0
|
|
37. 0
|
92. 1
|
92. 7
|
93. 3
|
93. 9
|
93. 7
|
93. 5
|
|
45. 0
|
92. 7
|
93. 2
|
93. 7
|
94. 2
|
94. 0
|
93. 8
|
|
55. 0
|
93. 1
|
93. 6
|
94. 1
|
94. 6
|
94. 3
|
94. 0
|
|
75. 0
|
93. 8
|
94. 2
|
94. 6
|
95. 0
|
94. 7
|
94. 4
|
|
90. 0
|
94. 3
|
94. 6
|
94. 9
|
95. 2
|
95. 0
|
94. 8
|
|
110. 0
|
94. 5
|
94. 8
|
95. 1
|
95. 4
|
95. 2
|
95. 0
|
|
132. 0
|
95. 0
|
95. 2
|
95. 4
|
95. 6
|
95. 4
|
95. 2
|
|
160. 0
|
95. 2
|
95. 4
|
95. 6
|
95. 8
|
95. 6
|
95. 4
|
|
200. 0
|
95. 4
|
95. 6
|
95. 8
|
96. 0
|
95. 8
|
95. 6
|
|
>200.0
|
95. 4
|
95. 6
|
95. 8
|
96. 0
|
95. 8
|
95. 6
|
|
|
|
Notes:
|
|
|
Where a particular motor size is not listed, the required minimum efficiency level for the next size up must be met.
|
|
|
Part 46
|
|
|
Category: Information and Communications Technology (ICT)
|
|
|
Technology: Blade Servers
|
|
|
A blade server is an optimised server computer of modular design for use in a shared blade chassis which can house multiple blade servers resulting in reduced space and energy usage. It will typically contain processors, memory, integrated network controllers, an optional fibre channel host bus adaptor (HBA) and other input/output (IO) ports. Blade servers can also optionally contain internal storage disks and cooling systems.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, a Blade Server must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1
|
Must be marketed and sold as an enterprise Blade Server
|
|
2
|
Designed for, and listed as, supporting Blade Server operating systems and/or hypervisors, and targeted to run user-installed enterprise applications
|
|
3
|
Be capable of remote power-down
|
|
4
|
Must meet the relevant minimum performance to power ratios listed in Table 1, or scientifically equivalent measure
|
|
5
|
Must be supplied with a software management system that renders the server virtualisation capable
|
|
|
|
Table 1: Minimum server performance to power ratios
|
|
|
|
Server application
|
Minimum ratio*
|
|
Performance at low utilisation of less than or equal to 30%
|
> 900
|
|
Performance at moderate utilisation of greater than 30%, but less than 70%
|
> 1900
|
|
Performance at high utilisation of greater than or equal to 70%
|
> 2500
|
|
|
|
*Performance to Power Ratio
|
|
|
The ratio is based on the Standard Performance Evaluation Corporation (SPEC) industry standard benchmark performance test, SPECpower_ ssj2008 V1.10. Under this test the energy use of a blade server is tracked (plug power) while the server performs a defined sequence of operational tasks.
|
|
|
The metric required is calculated using the sum of outputs (throughput per Watt of power) and power consumed at 10% utilisation intervals, as shown below:
|
|
|
-� Performance to power ratio measured at low utilisation
|
|
|
= ssj ops(0%+10%+20%+30%) / power (0%+10%+20%+30%)
|
|
|
-� Performance to power ratio measured at moderate utilisation
|
|
|
= ssj ops(40%+50%+60%) / power (40%+50%+60%)
|
|
|
-� Performance to power ratio measured at high utilisation
|
|
|
= ssj ops(70%+80%+90%+100%) / power (70%+80%+90%+100%)
|
|
|
where:
|
|
|
-� ssj ops = Workload at the specified utilisation level
|
|
|
-� Power = Energy consumed in watts at specified utilisation level
|
|
|
Part 47
|
|
|
Category: Information and Communications Technology (ICT)
|
|
|
Technology: ICT Optimisation Solutions
|
|
|
ICT Optimisation Solutions are defined as systems and/or software that improve the power efficiency of enterprise ICT hardware systems and/or of ICT-related infrastructure resources.
|
|
|
ICT Optimisation Solutions are considered to include the following:
|
|
|
ICT power efficiency systems
|
|
|
ICT power efficiency systems are designed to automatically and continuously identify under-use of installed ICT hardware (e.g. servers), and facilitate their optimisation, with the aim of reducing overall power consumption.
|
|
|
Virtualisation solutions
|
|
|
Virtualisation solutions are software platforms that allow multiple OS applications to run simultaneously on one physical machine, with the aim of reducing the number of physical machines required.
|
|
|
Infrastructure power efficiency systems
|
|
|
Infrastructure power efficiency systems are designed to visually map, automate and optimise ICT-related infrastructure resources such as cooling, power and space, with the aim of reducing overall power consumption.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, the specific ICT Optimisation Solution must meet all the relevant requirements as listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
ICT Power Efficiency Systems - Specific Eligibility Criteria
|
|
|
|
No.
|
Condition
|
|
1
|
Must have the capability of continuously collecting utilisation data from IT equipment using RS232, Ethernet or wireless connectivity
|
|
2
|
Must have the capability of identifying power-saving opportunities and outputting commands to a power management system
|
|
3
|
Must have the capability of presenting utilisation data in a graphical format, and calculating and presenting performance metrics
|
|
|
|
Virtualisation Solutions - Specific Eligibility Criteria
|
|
|
|
No.
|
Condition
|
|
4
|
Must be capable of virtualising from a physical server to a virtual system.14 The host physical server must be capable of accommodating a minimum of 20 virtual servers.
|
|
5
|
Physical servers, where included in the solution, must meet the separate ACA Enterprise Server eligibility criteria
|
|
6
|
Must be capable of powering down virtual machines and provisioning dynamically
|
|
|
|
Infrastructure Power Efficiency Systems - Specific Eligibility Criteria
|
|
|
|
No.
|
Condition
|
|
7
|
Must offer visual modelling of the physical, electrical and mechanical infrastructure within the data centre
|
|
8
|
Must offer a capacity management and infrastructure management capability
|
|
9
|
Must offer a data-centre efficiency reporting capability
|
|
|
|
Part 48
|
|
|
Category: Information and Communications Technology (ICT)
|
|
|
Technology: Enterprise Communication Equipment
|
|
|
Enterprise Communication Equipment is defined as equipment which enables a network of connected computers to communicate with each other. This equipment is made up of network devices which facilitate the intercommunication and resource sharing between the computers.
|
|
|
Enterprise Communication Equipment is considered to include the following:
|
|
|
Network Routers
|
|
|
A network router is a hardware device that interconnects wired or wireless networks. These may be subdivided into Core Routers, Carrier Edge/Ethernet Service Routers, and Multipurpose Routers.
|
|
|
Network Switches
|
|
|
A network switch is a hardware device that interconnects computers, forming a local area network (LAN).
|
|
|
Network Firewalls
|
|
|
A network firewall is a hardware device that protects a computer network from external unauthorised access.
|
|
|
Optical Transmission Equipment
|
|
|
Optical transmission equipment is communication hardware used for transmitting data over medium to long distances through a fibre-optic network.
|
|
|
Eligibility Criteria Overview
|
|
|
To be included on the ACA Specified List, the specific Enterprise Communication Equipment must meet all the relevant requirements listed below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
General Eligibility Criteria
|
|
|
(applicable to all Enterprise Communication equipment)
|
|
|
|
No.
|
Condition
|
|
1
|
Internal power supplies must achieve an 80 PLUS gold standard15 or scientific equivalent
|
|
2
|
External power supplies must be Energy Star-compliant16 or scientific equivalent
|
|
|
|
Network Router - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
3
|
Must achieve an ECR-VL17 energy consumption rating with variable load of less than or equal to 10 W/ Gbps
|
|
4
|
Must have variable-load energy-management capabilities
|
|
|
|
Network Switch - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
5
|
Must achieve an ECR-VL energy consumption rating with variable load of less than or equal to the values as set out in Table 1.
|
|
6
|
Must have variable-load energy-management capabilities
|
|
|
|
Network Firewall - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
7
|
Must achieve an ECR energy consumption rating of less than or equal to 3W/ Gbps
|
|
8
|
Must have variable-load energy-management capabilities
|
|
|
|
Optical Transmission Equipment - Specific Eligibility Criteria
|
|
|
(to be met in addition to the general eligibility criteria)
|
|
|
|
No.
|
Condition
|
|
9
|
Must achieve an ECR energy consumption rating with variable load of less than or equal to 3W/Gbps
|
|
10
|
Must have variable-load energy-management capabilities
|
|
|
|
Table 1: Network Switches - Maximum energy consumption values
|
|
|
|
Switch Type
|
Energy Consumption Rating(W/Gbps)
|
|
Stackable fixed port switches
|
3
|
|
6 port modular chassis switches
|
7. 5
|
|
6-12 port modular chassis switches
|
11
|
|
|
|
Notes:
|
|
|
W = Watts
|
|
|
Gbps = Giga bits per second
|
|
|
ECR = energy consumption rating (peak efficiency metric, W/Gbps)
|
|
|
= Ef/Tf (expressed in Watts per Gbps)
|
|
|
Where:
|
|
|
Ef = energy consumption (Watts) measured during the running test
|
|
|
Tf = maximum throughput (Gbps) achieved in the measurement
|
|
|
ECR-VL = energy efficiency metric over a variable-load cycle (W/Gbps)
|
|
|
(*E100 + *E50 + *E30 + * E10 + *Ei)
|
|
|
= ____________________
|
|
|
(*Tf + *T50 + *T30 + * T10)
|
|
|
Where:
|
|
|
, , , , are weight coefficients selected such as ( + + + + ) = 1
|
|
|
For test purposes the following values are used:
|
|
|
= 0.1
|
|
|
= 0.5
|
|
|
= 0.25
|
|
|
= 0.05
|
|
|
= 0.1
|
|
|
Tf = maximum throughput (Gbps) achieved in the measurement cycle
|
|
|
- T50 = Tf * 0.5
|
|
|
- T30 = Tf * 0.3
|
|
|
- T10 = Tf * 0.1
|
|
|
E100 = energy consumption under highest load accepted by System Under Test (SUT) (watts)
|
|
|
E50 = energy consumption under half load (watts)
|
|
|
E30 = energy consumption under 30% load (watts)
|
|
|
E10 = energy consumption under 10% load (watts)
|
|
|
Ei = energy consumption under 0% load (watts)
|
|
|
Part 49
|
|
|
Category: Heating and Electricity Provision
|
|
|
Technology: Biomass Boilers
|
|
|
Biomass Boilers provide an efficient, automatic method of generating hot water, steam or other heat-transporting fluids, using carbon-neutral biomass as the fuel source. The biomass boiler is considered as incorporating ancillary equipment such as control systems, fuel-feed system, fans and grit arrestors.
|
|
|
Eligibility criteria
|
|
|
To be included on the ACA Specified List, a biomass boiler must meet all the requirements set out below.
|
|
|
Note: Supporting documentation that clearly demonstrates ACA compliance according to the conditions below will be required as part of the ACA checking process. Detailed information on the types of documents accepted can be found in the separate Supporting Documentation guidelines.
|
|
|
|
No.
|
Condition
|
|
1.
|
All equipment and/or components must be CE-marked as required by the specific EU directive(s).
|
|
2.
|
Must be a minimum size of 50kW
|
|
3.
|
Appropriate operating and maintenance manuals must be available for the end-user as part of the main contract of sale in order to maximise the achievement of potential efficiency improvements.
|
|
4.
|
Must be equipped for automatic operation without the need for permanent supervision. This shall include:-� Automatic start-up and shut-down -� Ability to operate in slumber mode and to restart when the heating load demands -� Automatic fuel loading commensurate with the heat/steam demand -� Automatic ash removal -� Automatic control of the burning rate commensurate with the heat demand
|
|
5.
|
Must incorporate a system to automatically prevent burn-back through the fuel-feed system.
|
|
6.
|
Must incorporate a fault-monitoring system which should be capable of communicating remotely a fault.The parameters to be monitored shall include:-� Fuel shortage or blockage -� Boiler shut-down -� Boiler hot water/thermal fluid outlet temperature or steam pressure -� Flue gas temperature
|
|
7.
|
To facilitate automatic tube cleaning, the boiler must incorporate a mechanical or pneumatic system for heat exchanger cleaning on the gas side.
|
|
8.
|
Must incorporate an automatic system to 'trim' the combustion air commensurate with the oxygen content of the flue gases so as to minimise 'stack' losses caused by excess air.
|
|
9.
|
Must incorporate a system to prevent over-heating of the water within the boiler in the event of a mains electricity failure.
|
|
10.
|
Efficiency and certified dust-emission levels, both measured in accordance with a recognised European standard, must achieve the minimum and maximum limits listed in Table 1 when burning wood pellets or wood chips.
|
|
|
|
Table 1. Thermal efficiency and emissions
|
|
|
|
Boiler rating
|
Thermal efficiency1
|
Dust emission2
|
|
|
Chips
|
Pellets
|
|
|
50 -150 kW
|
85%
|
90%
|
150
|
|
>150 - 500 kW
|
86%
|
91%
|
130
|
|
> 500 kW
|
87%
|
92%
|
120
|
|
|
|
1 The efficiencies shall be measured on a 'net' calorific value basis.
|
|
|
2 On an mg/Nm3 13 Vol.-%O2 basis".
|
|
|
8. Part 2 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
VSD32650
|
3AUA0000039625
|
ACS310-03E- 01A3-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32651
|
3AUA0000039626
|
ACS310-03E- 02A1-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32652
|
3AUA0000039627
|
ACS310-03E- 02A6-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32653
|
3AUA0000039628
|
ACS310-03E- 03A6-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32654
|
3AUA0000039629
|
ACS310-03E- 04A5-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32655
|
3AUA0000039630
|
ACS310-03E- 06A2-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32656
|
3AUA0000039631
|
ACS310-03E- 08A0-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32657
|
3AUA0000039632
|
ACS310-03E- 09A7-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32658
|
3AUA0000039633
|
ACS310-03E- 13A8-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32659
|
3AUA0000039634
|
ACS310-03E- 17A2-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32660
|
3AUA0000039635
|
ACS310-03E- 25A4-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32661
|
3AUA0000039636
|
ACS310-03E- 34A1-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32662
|
3AUA0000039637
|
ACS310-03E- 41A8-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32663
|
3AUA00000039638
|
ACS310-03E- 48A4-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32664
|
3AUA0000058182
|
ACS355-03E- 01A2-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32665
|
3AUA0000058183
|
ACS355-03E- 01A9-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32666
|
3AUA0000058184
|
ACS355-03E- 02A4-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32667
|
3AUA0000058185
|
ACS355-03E- 03A3-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32668
|
3AUA0000058186
|
ACS355-03E- 04A1-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32669
|
3AUA0000058187
|
ACS355-03E- 05A6-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32670
|
3AUA0000058188
|
ACS355-03E- 07A3-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32671
|
3AUA0000058189
|
ACS355-03E- 08A8-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32672
|
3AUA0000058190
|
ACS355-03E- 12A5-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32673
|
3AUA0000058191
|
ACS355-03E- 15A6-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32674
|
3AUA0000058192
|
ACS355-03E- 23A1-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32675
|
3AUA0000058193
|
ACS355-03E- 31A0-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32676
|
3AUA0000058194
|
ACS355-03E- 38A0-4
|
Variable Speed Drive
|
ABB Ltd
|
|
VSD32677
|
3AUA0000058195
|
ACS355-03E- 44A0-4
|
Variable Speed Drive
|
ABB Ltd
|
|
|
|
".
|
|
|
9. Part 3 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
LIG33282
|
IND 354
|
Excel Industry 354
|
3x54W T5 Industrial Luminaire
|
Excel Lighting
|
|
LIG33283
|
IND 454
|
Excel Industry 454
|
4X54W T5 Industrial Luminaire
|
Excel Lighting
|
|
LIG33284
|
IND 349
|
Excel Industry 349
|
3x49W T5 Industrial Luminaire
|
Excel Lighting
|
|
LIG33285
|
IND 449
|
Excel Industry 449
|
4x49W T5 Industrial Luminaire
|
Excel Lighting
|
|
LIG33286
|
IND 380
|
Excel Industry 380
|
3x80W T5 Industrial Luminaire
|
Excel Lighting
|
|
LIG33287
|
IND 480
|
Excel Industry 480
|
4x80W T5 Industrial Luminaire
|
Excel Lighting
|
|
LIG31992
|
CLASSIC ASN PAR-V 414
|
CLASSIC ASN PAR-V 414
|
SURFACE 4 X 14W T5 LUMINAIRE
|
ACEC Distributors
|
|
LIG31993
|
DL VISION ECO 217
|
DL VISION ECO 217
|
2X17W PL-R ECO DOWNLIGHT
|
ACEC Distributors
|
|
LIG31994
|
FIVE 328-RBV 328
|
FIVE 328-RBV 328
|
RECESSED 3 X 28W T5 PAR LOUVRE
|
ACEC Distributors
|
|
LIG31995
|
PLAST 228PRISMA
|
PLAST 228PRISMA
|
SURFACE 2 x 28W T5 OPL FLATBACK
|
ACEC Distributors
|
|
LIG31996
|
PLAST 235PRISMA
|
PLAST 235PRISMA
|
SURFACE 2 x 28W T5 OPL FLATBACK
|
ACEC Distributors
|
|
LIG31997
|
PLAST 249PRISMA
|
PLAST 249PRISMA
|
SURFACE 2 x 28W T5 OPL FLATBACK
|
ACEC Distributors
|
|
LIG31998
|
PLAST 254PRISMA
|
PLAST 254PRISMA
|
SURFACE 2 x 28W T5 OPL FLATBACK
|
ACEC Distributors
|
|
LIG32134
|
ELC2
|
2ft Linear Converter
|
A T5 fluroescent tube adaptor to convert T8 & T12 fluorescent tube fittings
|
E-Matic
|
|
LIG32135
|
ELC4
|
4ft Linear Converter
|
A T5 fluroescent tube adaptor to convert T8 & T12 fluorescent tube fittings
|
E-Matic
|
|
LIG32136
|
ELC5
|
5ft Linear Converter
|
A T5 fluroescent tube adaptor to convert T8 & T12 fluorescent tube fittings
|
E-Matic
|
|
LIG32137
|
ELC6
|
6ft Linear Converter
|
A T5 fluroescent tube adaptor to convert T8 & T12 fluorescent tube fittings
|
E-Matic
|
|
LIG32138
|
ELC8
|
8ft Linear Converter
|
A T5 fluroescent tube adaptor to convert T8 & T12 fluorescent tube fittings
|
E-Matic
|
|
LIG32139
|
ELCQ
|
2ft Quad Linear converter
|
A T5 fluroescent tube adaptor to convert T8 & T12 fluorescent tube fittings
|
E-Matic
|
|
LIG32166
|
T230
|
T230
|
2X24W RECESSED
|
Philips
|
|
LIG32167
|
MRS551
|
MRS551
|
35W CDM TRACK SPOT
|
Philips
|
|
LIG32179
|
ACDC1068/FX
|
EVO 100 Fixed
|
Recessed downlighter with fixed reflector
|
ACDC LED Ltd.
|
|
LIG32180
|
ACDC1068/AD
|
EVO 100 Adjustable
|
Recessed downlighter with adjustable reflector
|
ACDC LED Ltd.
|
|
LIG32181
|
ACDC1068/TR
|
EVO 90 Trimless
|
Recessed trimless downlighter for plaster ceilings
|
ACDC LED Ltd.
|
|
LIG29100
|
RBP436/2
|
Cleanline 236
|
Cleanroom luminaire IP54 with aluminium back reflectors
|
ACEC Distributors
|
|
LIG29103
|
Plast H 249 prisma
|
Plast H 249P
|
Linear Flat back luminaire with prismatic polycarbonate diffuser
|
ACEC Distributors
|
|
LIG29107
|
Plast P236 HF prisma
|
Plast P 236P
|
Linear Flat back luminaire with prismatic polycarbonate diffuser
|
ACEC Distributors
|
|
LIG29108
|
Plast P236 HF opal
|
Plast P 2360
|
Linear Flat back luminaire with opal polycarbonate diffuser
|
ACEC Distributors
|
|
LIG29196
|
SR10-10
|
SunRAY10
|
Intelligent LED High Bay Light, 110W, automated & programmable power output increase/ decrease & on/off dimming & scheduling capabilities, light adjusting photocell & LED automatic temperature control
|
Low Energy Designs Limited
|
|
LIG29197
|
SR10-8
|
SunRAY8
|
Intelligent LED High Bay Light, 88W, automated & programmable power output increase/ decrease & on/off dimming & scheduling capabilities, light adjusting photocell & LED automatic temperature control
|
Low Energy Designs Limited
|
|
LIG29198
|
SR6-6
|
SunRAY6
|
Intelligent LED Modular Light, 66W, automated & programmable power output increase/ decrease & on/off dimming & scheduling capabilities, light adjusting photocell & LED automatic temperature control
|
Low Energy Designs Limited
|
|
LIG29199
|
SR6-4
|
SunRAY4
|
Intelligent LED Modular Light, 44W, automated & programmable power output increase/ decrease & on/off dimming & scheduling capabilities, light adjusting photocell & LED automatic temperature control
|
Low Energy Designs Limited
|
|
LIG29200
|
SR6-2
|
SunRAY2
|
Intelligent LED Modular Light, 22W, automated & programmable power output increase/ decrease & on/off dimming & scheduling capabilities, light adjusting photocell & LED automatic temperature control
|
Low Energy Designs Limited
|
|
LIG29201
|
SR6-1
|
SunRAY1
|
Intelligent LED Modular Light, 11W, automated & programmable power output increase/ decrease & on/off dimming & scheduling capabilities, light adjusting photocell & LED automatic temperature control
|
Low Energy Designs Limited
|
|
LIG31225
|
LUCI V01
|
LUCI
|
LED Under Canopy Illumination. LED Energy Saving
|
Bever Innovations B.V.
|
|
LIG31226
|
LIN454Z
|
LINERGY454W
|
Flourescent T5 Low bay luminaire with open area optics
|
Cooper Lighting & Safety Ltd.
|
|
LIG31227
|
LIN480Z
|
LINERGY480W
|
Flourescent T5 Low bay luminaire with open area optics
|
Cooper Lighting & Safety Ltd.
|
|
LIG31228
|
LIN654Z
|
LINERGY654W
|
Flourescent T5 Low bay luminaire with open area optics
|
Cooper Lighting & Safety Ltd.
|
|
LIG31229
|
LINR454Z
|
LINERGY454R
|
Flourescent T5 Low bay luminaire with racking aisle optics
|
Cooper Lighting & Safety Ltd.
|
|
LIG31230
|
LINR480Z
|
LINERGY480R
|
Flourescent T5 Low bay luminaire with racking aisle optics
|
Cooper Lighting & Safety Ltd.
|
|
LIG31231
|
LINR654Z
|
LINERGY654R
|
Flourescent T5 Low bay luminaire with racking aisle optics
|
Cooper Lighting & Safety Ltd.
|
|
LIG31232
|
MDI414Z
|
ModulayDI414
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31233
|
MDI224Z
|
ModulayDI224
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31234
|
MDI240Z
|
ModulayDI240
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31235
|
MDI155Z
|
ModulayDI155
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31236
|
MDI255Z
|
ModulayDI1255
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31237
|
WLT128ZX
|
WaveliteT5128
|
Surface mounted shallow profiled IP44 prismatic luminaire
|
Cooper Lighting & Safety Ltd.
|
|
LIG31238
|
WLT228ZX
|
WaveliteT5228
|
Surface mounted shallow profiled IP44 prismatic luminaire
|
Cooper Lighting & Safety Ltd.
|
|
LIG31239
|
WLT135ZX
|
WaveliteT5153
|
Surface mounted shallow profiled IP44 prismatic luminaire
|
Cooper Lighting & Safety Ltd.
|
|
LIG31240
|
WLT235ZX
|
WaveliteT5235
|
Surface mounted shallow profiled IP44 prismatic luminaire
|
Cooper Lighting & Safety Ltd.
|
|
LIG31241
|
WLT154ZX
|
WaveliteT5154
|
Surface mounted shallow profiled IP44 prismatic luminaire
|
Cooper Lighting & Safety Ltd.
|
|
LIG31242
|
WLT149ZX
|
WaveliteT5149
|
Surface mounted shallow profiled IP44 prismatic luminaire
|
Cooper Lighting & Safety Ltd.
|
|
LIG31243
|
WLT249ZX
|
WaveliteT5249
|
Surface mounted shallow profiled IP44 prismatic luminaire
|
Cooper Lighting & Safety Ltd.
|
|
LIG31244
|
SYWV128Z
|
Syntesis 128V
|
Extruded aluminium Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31245
|
SYWV228Z
|
Syntesis 228V
|
Extruded aluminium Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31246
|
SYWV135Z
|
Syntesis 135V
|
Extruded aluminium Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31247
|
SYWV235Z
|
Syntesis 235V
|
Extruded aluminium Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31248
|
SYWR128Z
|
Syntesis 128R
|
Extruded aluminium Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31249
|
SYWR228Z
|
Syntesis 228R
|
Extruded aluminium Supended T5 up/downlight luminaire withlow brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31250
|
SYWR135Z
|
Syntesis 135R
|
Extruded aluminium Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31251
|
SYWR235Z
|
Syntesis 235R
|
Extruded aluminium Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31252
|
SYWV154Z
|
Syntesis 154V
|
Extruded aluminium Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31253
|
SYWV254Z
|
Syntesis 254V
|
Extruded aluminium Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31254
|
SYWV149Z
|
Syntesis 149V
|
Extruded aluminium Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31255
|
SYWV249Z
|
Syntesis 249V
|
Extruded aluminium Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31256
|
SYWR154Z
|
Syntesis 154R
|
Extruded aluminium Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31257
|
SYWR254Z
|
Syntesis 254R
|
Extruded aluminium Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31258
|
SYWR149Z
|
Syntesis 149R
|
Extruded aluminium Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31259
|
SYWR249Z
|
Syntesis 249R
|
Extruded aluminium Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31260
|
LLWV128Z
|
Lasaline128V
|
Square section steel Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31261
|
LLWV228Z
|
Lazeline228V
|
Square section steel Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31262
|
LLWV135Z
|
Lazeline135V
|
Square section steel Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31263
|
LLWV235Z
|
Lazeline235V
|
Square section steel Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31264
|
LLWR128Z
|
Lazeline128R
|
Square section steel Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31265
|
LLWR228Z
|
Lazeline228R
|
Square section steel Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31266
|
LLWR135Z
|
Lazeline135R
|
Square section steel Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31267
|
LLWR235Z
|
Lazeline235R
|
Square section steel Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31268
|
LLWV154Z
|
Lazeline154V
|
Square section steel Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31269
|
LLWV254Z
|
Lazeline254V
|
Square section steel Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31270
|
LLWV149Z
|
Lazeline149V
|
Square section steel Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31271
|
LLWV249Z
|
Lazeline249V
|
Square section steel Supended T5 up/downlight luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31272
|
LLWR154Z
|
Lazeline154R
|
Square section steel Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31273
|
LLWR254Z
|
Lazeline254R
|
Square section steel Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31274
|
LLWR149Z
|
Lazeline149R
|
Square section steel Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31275
|
LLWR249Z
|
Lazeline249R
|
Square section steel Supended T5 up/downlight luminaire with low brightness louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31276
|
CFL414Z
|
Combiform Layin 414
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31277
|
CFL224Z
|
Combiform Layin 224
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31278
|
CFL140Z
|
Combiform Layin 140
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31279
|
CFL240Z
|
Combiform Layin 240
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31280
|
CFL155Z
|
Combiform Layin 155
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31281
|
CFL255Z
|
Combiform Layin 255
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31282
|
MSFM314Z
|
Moduspec T5FM314
|
T5 Recessed modular luminaire with LG7 mirror louver and solid pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31283
|
MSFM414Z
|
Moduspec T5FM414
|
T5 Recessed modular luminaire with LG7 mirror louver and solid pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31284
|
MSPM314Z
|
Moduspec T5PM314
|
T5 Recessed modular luminaire with LG7 mirror louver and perforated pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31285
|
MSPM414Z
|
Moduspec T5PM414
|
T5 Recessed modular luminaire with LG7 mirror louver and perforated pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31286
|
MSFS314Z
|
Moduspec T5FS314
|
T5 Recessed modular luminaire with LG7 satin louver and solid pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31287
|
MSFS414Z
|
Moduspec T5FS414
|
T5 Recessed modular luminaire with LG7 satin louver and solid pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31288
|
MSPS314Z
|
Moduspec T5PS314
|
T5 Recessed modular luminaire with LG7 satin louver and perforated pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31289
|
MSPS414Z
|
Moduspec T5PS414
|
T5 Recessed modular luminaire with LG7 satin louver and perforated pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31290
|
MSTS314Z
|
Moduspec T5TS314
|
T5 Recessed modular luminaire with LG7 satin louver and tilted perforated pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31291
|
MSTS414Z
|
Moduspec T5TS414
|
T5 Recessed modular luminaire with LG7 satin louver and tilted perforated pannel
|
Cooper Lighting & Safety Ltd.
|
|
LIG31292
|
ML314ZT/MLG318
|
Modulay T5GP314
|
Recessed T5 lay in Modular luminaire with General purpos louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31293
|
ML414ZT/MLGP418
|
Modulay T5GP414
|
Recessed T5 lay in Modular luminaire with General purpos louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31294
|
ML314ZT/MLV318
|
Modulay T5V314
|
Recessed T5 lay in Modular luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31295
|
ML414ZT/MLV418
|
Modulay T5V414
|
Recessed T5 lay in Modular luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31296
|
ML328ZT/MLG336
|
Modulay T5GP328
|
Recessed T5 lay in Modular luminaire with General purpose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31297
|
ML428ZT/MLG436
|
Modulay T5GP428
|
Recessed T5 lay in Modular luminaire with General purpose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31298
|
ML328ZT/MLV336
|
Modulay T5V328
|
Recessed T5 lay in Modular luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31299
|
ML428ZT/MLV436
|
Modulay T5V428
|
Recessed T5 lay in Modular luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31300
|
ML354ZT/MLG336
|
Modulay T5GP354
|
Recessed T5 lay in Modular luminaire with General purpose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31301
|
ML454ZT/MLG436
|
Modulay T5GP454
|
Recessed T5 lay in Modular luminaire with General purpose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31302
|
ML354ZT/MLV336
|
Modulay T5V354
|
Recessed T5 lay in Modular luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31303
|
ML454ZT/MLV436
|
Modulay T5V454
|
Recessed T5 lay in Modular luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31304
|
BALI224Z
|
BALI224
|
Recessed modular indirect/direct with pendant LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31305
|
BALI155Z
|
BALI155
|
Recessed modular indirect/direct with pendant LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31306
|
HAL414Z
|
HAL414
|
Semi recessed modular luminaire with drpoed LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31307
|
HAL424Z
|
HAL424
|
Semi recessed modular luminaire with drpoed LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31308
|
CFP140Z
|
Combiform CFP140
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31309
|
CFP155Z
|
Combiform CFP155
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31310
|
CFP240Z
|
Combiform CFP240
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31311
|
CFP25Z
|
Combiform CFP255
|
Recessed Modular indirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31312
|
ILDCFP240R
|
INTELLECT DIGITAL COMBIFORM CFP240
|
Intellect digital recessed Modular luminaire ndirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31313
|
ILDCFP255R
|
INTELLECT DIGITAL COMBIFORM CFP255
|
Intellect digital recessed Modular luminaire ndirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31314
|
ILDCFPS255R
|
INTELLECT DIGITAL COMBIFORM CFPS255
|
Intellect digital semi recessed Modular luminaire ndirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31315
|
ILRCFP240R
|
INTELLECT REGULATOR COMBIFORM CFP240
|
Intellect regulator recessed Modular luminaire ndirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31316
|
ILRCFP255R
|
INTELLECT REGULATOR COMBIFORM CFP255
|
Intellect regulator recessed Modular luminaire ndirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31317
|
ILRCFPS255R
|
INTELLECT REGULATOR COMBIFORM CFPS255
|
Intellect regulator semi recessed Modular luminaire ndirect/direct with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31318
|
CVX241Z
|
Chevinplus CVX241
|
Surface mounted luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31319
|
CVX242Z
|
Chevinplus CVX242
|
Surface mounted luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31320
|
CVX244Z
|
Chevinplus CVX244
|
Surface mounted luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31321
|
CXV261Z
|
Chevinplus CVX261
|
Surface mounted luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31322
|
CVX262Z
|
Chevinplus CVX262
|
Surface mounted luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31323
|
CVXR41Z
|
Chevinplus CVXR41
|
Surface mounted luminaire with general propose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31324
|
CVXR42Z
|
Chevinplus CVXR42
|
Surface mounted luminaire with general propose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31325
|
CVXR44Z
|
Chevinplus CVXR44
|
Surface mounted luminaire with general propose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31326
|
CVXR51Z
|
Chevinplus CVXR51
|
Surface mounted luminaire with general propose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31327
|
CVXR52Z
|
Chevinplus CVXR52
|
Surface mounted luminaire with general propose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31328
|
CVXR61Z
|
Chevinplus CVXR61
|
Surface mounted luminaire with general propose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31329
|
CVXR62Z
|
Chevinplus CVXR62
|
Surface mounted luminaire with general propose louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31330
|
WAVL128Z
|
WAVEFORM WAVL128
|
Surface direct/indirect luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31331
|
WAVL228Z
|
WAVEFORM WAVL228
|
Surface direct/indirect luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31332
|
WAVL154Z
|
WAVEFORM WAVL154
|
Surface direct/indirect luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31333
|
WAVL254Z
|
WAVEFORM WAVL254
|
Surface direct/indirect luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31334
|
WAVL135Z
|
WAVEFORM WAVL135
|
Surface direct/indirect luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31335
|
WAVL235Z
|
WAVEFORM WAVL235
|
Surface direct/indirect luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31336
|
WAVL149Z
|
WAVEFORM WAVL149
|
Surface direct/indirect luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31337
|
WAVL249Z
|
WAVEFORM WAVL249
|
Surface direct/indirect luminaire with LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31338
|
WAVP128Z
|
WAVEFORM WAVP128
|
Surface direct/indirect luminaire with perforated basket
|
Cooper Lighting & Safety Ltd.
|
|
LIG31339
|
WAVP228Z
|
WAVEFORM WAVP228
|
Surface direct/indirect luminaire with perforated basket
|
Cooper Lighting & Safety Ltd.
|
|
LIG31340
|
WAVP154Z
|
WAVEFORM WAVP154
|
Surface direct/indirect luminaire with perforated basket
|
Cooper Lighting & Safety Ltd.
|
|
LIG31341
|
WAVP135Z
|
WAVEFORM WAVP135
|
Surface direct/indirect luminaire with perforated basket
|
Cooper Lighting & Safety Ltd.
|
|
LIG31342
|
WAVP235Z
|
WAVEFORM WAVP235
|
Surface direct/indirect luminaire with perforated basket
|
Cooper Lighting & Safety Ltd.
|
|
LIG31343
|
WAVP149Z
|
WAVEFORM WAVP149
|
Surface direct/indirect luminaire with perforated basket
|
Cooper Lighting & Safety Ltd.
|
|
LIG31344
|
WAVP249Z
|
WAVEFORM WAVP249
|
Surface direct/indirect luminaire with perforated basket
|
Cooper Lighting & Safety Ltd.
|
|
LIG31345
|
VYP128Z
|
VARSITY T5 VYP128
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31346
|
VYP228Z
|
VARSITY T5 VYP228
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31347
|
VYP135Z
|
VARSITY T5 VYP135
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31348
|
VYP235Z
|
VARSITY T5 VYP235
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31349
|
VYP149Z
|
VARSITY T5 VYP149
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31350
|
VYP249Z
|
VARSITY T5 VYP249
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31351
|
VYP136Z
|
VARSITY T8 VYP136
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31352
|
VYP236Z
|
VARSITY T8 VYP236
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31353
|
VYP158Z
|
VARSITY T8 VYP158
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31354
|
VYP258Z
|
VARSITY T8 VYP258
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31355
|
VYP170Z
|
VARSITY T VYP170
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31356
|
VYP270Z
|
VARSITY T8 VYP270
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31357
|
ILDVYP228R
|
INTELLECT VARSITY T5 VYP228
|
Intellect digital surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31358
|
ILDVYP235R
|
INTELLECT VARSITY T5 VYP235
|
Intellect digital surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31359
|
ILDVYP249R
|
INTELLECT VARSITY T5 VYP249
|
Intellect digital surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31360
|
ILDVYP236R
|
INTELLECT VARSITY T8 VYP236
|
Intellect digital surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31361
|
ILDVYP258R
|
INTELLECT VARSITY T8 VYP258
|
Intellect digital surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31362
|
VYSP128Z
|
VARSITY SCHOOL T5 VYSP128
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31363
|
VYSP228Z
|
VARSITY SCHOOL T5 VYSP228
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31364
|
VYSP135Z
|
VARSITY SCHOOL T5 VYSP135
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31365
|
VYSP235Z
|
VARSITY SCHOOL T5 VYSP235
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31366
|
VYSP149Z
|
VARSITY SCHOOL T5 VYSP149
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31367
|
VYSP249Z
|
VARSITY SCHOOL T5 VYSP249
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31368
|
VYSP136Z
|
VARSITY SCHOOL T8 VYSP136
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31369
|
VYSP236Z
|
VARSITY SCHOOL T8 VYSP236
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31370
|
VYSP158Z
|
VARSITY SCHOOL T8 VYSP158
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31371
|
VYSP258Z
|
VARSITY SCHOOL T8 VYSP258
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31372
|
VYSP170Z
|
VARSITY SCHOOL T8 VYSP170
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31373
|
VYSP270Z
|
VARSITY SCHOOL T8 VYSP270
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31374
|
ILDVYSP228R
|
INTELLECT VARSITY SCHOOL T5 VYSP228
|
surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31375
|
ILDVYSP235R
|
INTELLECT VARSITY SCHOOL T5 VYSP235
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31376
|
ILDVYSP249R
|
INTELLECT VARSITY SCHOOL T5 VYSP249
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31377
|
ILDVYSP236R
|
INTELLECTVARSITY SCHOOL T8 VYSP236
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31378
|
ILDVYSP258R
|
INTELLECT VARSITY SCHOOL T8 VYSP258
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31379
|
VYHP128Z
|
VARSITY HOSPITAL T5 VYHP128
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31380
|
VYHP228Z
|
VARSITY HOSPITAL T5 VYHP228
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31381
|
VYHS135Z
|
VARSITY HOSPITAL T5 VYHP135
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31382
|
VYHP235Z
|
VARSITY HOSPITAL T5 VYHP235
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31383
|
VYHP149Z
|
VARSITY HOSPITAL T5 VYHP149
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31384
|
VYHP249Z
|
VARSITY HOSPITAL T5 VYHP249
|
Surface T5 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31385
|
VYHP136Z
|
VARSITY HOSPITAL T5 VYHP136
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31386
|
VYHP236Z
|
VARSITY HOSPITAL T5 VYHP236
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31387
|
VYHP158Z
|
VARSITY HOSPITAL T5 VYHP158
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31388
|
VYHP258Z
|
VARSITY HOSPITAL T5 VYHP258
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31389
|
VYHP170Z
|
VARSITY HOSPITAL T5 VYHP170
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31390
|
VYHP270Z
|
VARSITY HOSPITAL T5 VYHP270
|
Surface T8 luminare with polycarbonate prismatic controller
|
Cooper Lighting & Safety Ltd.
|
|
LIG31391
|
MCX240Z/MXM22
|
MODUCELL 240
|
Recessed 600 x 600mm modular luminaire with 16 cell LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31392
|
MCX255Z/ MVXM22
|
MODUCELL255
|
Recessed 600 x 600mm modular luminaire with 16 cell LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31393
|
MCFX236Z/ MVFXM22
|
MODUCELL236
|
Recessed 500 x 500mm modular luminaire with 16 cell LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31394
|
ILDMCX240R/ ILMVXM22
|
INTELLECT DIGITAL MODUCELL 240
|
Intellect digital recessed 600 x 600mm modular luminaire with 16 cell LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31395
|
ILDMCX255R/ ILMVXM22
|
INTELLECT DIGTAL MODUCELL255
|
Intellect digital recessed 600 x 600mm modular luminaire with 16 cell LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31396
|
ILDMCFX236R/ ILMVFXM22
|
INTELLECT DIGITAL MODUCELL236
|
Intellect digital recessed 500 x 500mm modular luminaire with 16 cell LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31397
|
ILRMCX240R/ ILMVXM22
|
INTELECT REGULATOR MODUCELL 240
|
Intellect regulatorrecessed 600 x 600mm modular luminaire with 16 cell LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31398
|
ILRMCX255R/ ILMVXM22
|
INTELLECT REGULATOR MODUCELL255
|
Intellect regulator recessed 600 x 600mm modular luminaire with 16 cell LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31399
|
ILRMCFX236R/ ILMVFXM22
|
INTELLECT REGULATOR MODUCELL236
|
Intellect regulator recessed 500 x 500mm modular luminaire with 16 cell LG7 louvre
|
Cooper Lighting & Safety Ltd.
|
|
LIG31400
|
AFXS2240Z
|
AEROFORM 240
|
Recessed modular luminare with LG7 Louver
|
Cooper Lighting & Safety Ltd.
|
|
LIG31401
|
AFXS2255Z
|
AEROFORM 255
|
Recessed modular luminare with LG7 Louver
|
Cooper Lighting & Safety Ltd.
|
|
LIG31402
|
ILDAFXS2240R
|
INTELLECT DIGITAL AEROFORM 240
|
Intellect digitalRecessed modular luminare with LG7 Louver
|
Cooper Lighting & Safety Ltd.
|
|
LIG31403
|
ILDAFXS2255R
|
INTELLECT DIGITAL AEROFORM 255
|
Intellect digitalRecessed modular luminare with LG7 Louver
|
Cooper Lighting & Safety Ltd.
|
|
LIG31404
|
ILRAFXS2240R
|
INTELLECT REGULAR AEROFORM 240
|
Intellect digitalRecessed modular luminare with LG7 Louver
|
Cooper Lighting & Safety Ltd.
|
|
LIG31406
|
TFC118Z
|
TUFFLITE TFC118
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31407
|
TFC218Z
|
TUFFLITE TFC218
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31408
|
TFC136Z
|
TUFFLITE TFC136
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31409
|
TFC236Z
|
TUFFLITE TFC236
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31410
|
TFC158Z
|
TUFFLITE TFC158
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31411
|
TFC258Z
|
TUFFLITE TFC258
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31412
|
TFC170Z
|
TUFFLITE TFC170
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31413
|
TFC270Z
|
TUFFLITE TFC270
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31414
|
TFC128Z
|
TUFFLITE TFC128
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31415
|
TFC228Z
|
TUFFLITE TFC228
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31416
|
TFC135Z
|
TUFFLITE TFC135
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31417
|
TFC235Z
|
TUFFLITE TFC235
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31418
|
TFC149Z
|
TUFFLITE TFC149
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31419
|
TFC249Z
|
TUFFLITE TFC249
|
IP65 Corrosion Proof luminaire with GRP housing and Acrylic diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31420
|
TFW118Z
|
TUFFLITE TFW118
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31421
|
TFW218Z
|
TUFFLITE TFW218
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31422
|
TFW136Z
|
TUFFLITE TFW136
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31423
|
TFW236Z
|
TUFFLITE TFW236
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31424
|
TFW158Z
|
TUFFLITE TFW158
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31425
|
TFW258Z
|
TUFFLITE TFW258
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31426
|
TFW170Z
|
TUFFLITE TFW170
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31427
|
TFW270Z
|
TUFFLITE TFW270
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31428
|
TFW128Z
|
TUFFLITE TFW128
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31429
|
TFW228Z
|
TUFFLITE TFW228
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31430
|
TFW135Z
|
TUFFLITE TFW135
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31431
|
TFW235Z
|
TUFFLITE TFW235
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31432
|
TFW149Z
|
TUFFLITE TFW149
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31433
|
TFW249Z
|
TUFFLITE TFW249
|
IP65 Corrosion Proof luminaire with Polycarbonate and housing and diffuser
|
Cooper Lighting & Safety Ltd.
|
|
LIG31513
|
MASTER LEDbulb 6W E27 4200K 230V A55
|
MASTER LEDbulb 6W E27 4200K
|
LED Lamp
|
Philips
|
|
LIG31515
|
MASTER LEDbulb 6W E27 2700K 230V A55
|
MASTER LEDbulb 6W E27 2700K
|
LED Lamp
|
Philips
|
|
LIG33741
|
Plast H 280 Prisma
|
Plast H 280P
|
Linear Flatback luminaire with polycarbonate prismatic diffuser
|
ACEC Distributors
|
|
LIG33742
|
Plast H 254 Prisma
|
Plast H 254P
|
Linear Flatback luminaire with polycarbonate prismatic diffuser
|
ACEC Distributors
|
|
LIG33743
|
Plast H 235 Prisma
|
Plast H 235P
|
Linear Flatback luminaire with polycarbonate prismatic diffuser
|
ACEC Distributors
|
|
LIG33744
|
Plast H 228 Prisma
|
Plast H 228P
|
Linear Flatback luminaire with polycarbonate prismatic diffuser
|
ACEC Distributors
|
|
|
|
".
|
|
|
10. Part 4 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
LCO30110
|
Hid control unit
|
Hid light manager
|
High intensity discharge unit for the control and dimming of metal halides, high and low pressure sodiums and mercury vapour lights.
|
Power-save Energy Corp
|
|
LCO30772
|
eDin Control System
|
eDin
|
Din allows individual modules to be selected to create the desired lighting system. eDin provides solutions for simple standalone systems to a fully connected and integrated multi-room systems.
|
Mode Lighting Ltd.
|
|
|
|
".
|
|
|
11. Part 5 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
BEM32688
|
MONI/ 000006
|
Eniscope Energy Management System
|
A computer based energy management system which monitors and controls energy use providing salient real time information and historical trend data.
|
Enigin Plc
|
|
BEM33476
|
M90211
|
Power Studio
|
Energy supervision software allowing -� monitoring in real time -� Recording and printing of logs -� XML Server -� Multiple Users -� Data can be exported to external applications
|
Circutor
|
|
|
|
".
|
|
|
12. Part 6 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
EST31169
|
EqualLogic PS6010S
|
PS6010S
|
PS6010 iSCSI SAN with either 8 or 16 SSD drives, and up to 1.6TB per array
|
Dell
|
|
|
|
".
|
|
|
13. Part 7 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
ESE31518
|
Primergy RX300 S6
|
S26361-K1344-V201
|
RX300 S6, 2x Intel 55xx CPU, 144GB DDR3 Memory Rack Server
|
fujitsu
|
|
ESE31519
|
Primergy TX150 S7
|
S26361-K1265-V401
|
TX150 S7, Ix Intel CPU, Tower Server
|
fujitsu
|
|
|
|
".
|
|
|
14. Part 10 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
CDC31990
|
1-M00024G
|
GDN.C.48.M24
|
20kW Guardian Access Power System for up to 10 x 2kW Rectifiers. ACC System controller. Distribution with up to 6 x battery MCBs, 24 x load MCBs. 400 or 500A LVD. PLD option. Up to 4 battery shelves. Optional Battery Temperature and Symmetry monitoring.
|
Power-One
|
|
CDC31991
|
1-M00029G
|
GDN.C.48.M29
|
96kW Guardian Central Power System. Single or twin cabinet with up to 24 x 2kW Rectifiers per cabinet. ACC System controller. Battery Distribution options foir MCCB and NH fuses. Load distribution options for MCB, MCCB and NH fuses. LVD and PLD options. Battery Temperature and Symmetry monitoring.
|
Power-One
|
|
|
|
".
|
|
|
15. Part 14 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
WTU33748
|
Aurora PVI-3600-OUTD-IE-F-W
|
Aurora PVI-3600 Outdoor Inverter
|
Wind Turbine Inverter
|
Power-One
|
|
WTU33749
|
PVI-6000-OUTD-IE-W
|
Aurora PVI-6000
|
Wind Turbine Inverter
|
Power-One
|
|
WTU33751
|
SMA WB2500
|
SMA Windboy 2500 Inverter
|
WInd Turbine Inverter
|
SMA
|
|
WTU33752
|
SMA WB3000
|
SMA Windy Boy 3000 Inverter
|
Wind Turbine Inverter
|
SMA
|
|
WTU33756
|
SMA WB6000A
|
SMA Windy Boy WB6000A
|
Wind Energy Inverter
|
SMA
|
|
|
|
".
|
|
|
16. Part 18 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
PSY33757
|
SMC5000A
|
SMA SMC 5000A
|
Photovoltiac Inverter
|
SMA
|
|
PSY33762
|
SB 1100
|
SMA Sunny Boy 1100
|
PV inverter 1.1kW
|
SMA
|
|
PSY33763
|
SB 1700
|
SMA Sunny Boy 1700
|
PV Inverter 1.7kW
|
SMA
|
|
PSY33764
|
SB 2500
|
SMA Sunny Boy 2500
|
PV Inverter 2.5kW
|
SMA
|
|
PSY33765
|
SB 3000
|
SMA Sunny Boy 3000
|
PV Inverter 3kW
|
SMA
|
|
PSY33745
|
SMC 4600A
|
Sunny Mini Central 4600A
|
PV Inverter
|
SMA
|
|
PSY33746
|
Sunny Boy 1200
|
Sunny Boy 1200
|
PV Inverter
|
SMA
|
|
PSY33747
|
Sunny Boy 3300
|
Sunny Boy 3300
|
PV Inverter
|
SMA
|
|
PSY33717
|
Sunmaster XS2000
|
Sunmaster XS2000
|
PV Inverter
|
Mastervolt
|
|
PSY33720
|
Sunmaster XS3200
|
Sunmaster XS3200
|
PV Inverter
|
Mastervolt
|
|
PSY33721
|
Sunmaster XS4300
|
Sunmaster XS4300
|
PV Inverter
|
Mastervolt
|
|
PSY33722
|
Sunmaster XS6500
|
Sunmaster XS6500
|
PV Inverter
|
Mastervolt
|
|
PSY33723
|
Sunmaster XL10
|
Sunmaster XL10
|
PV Inverter
|
Mastervolt
|
|
PSY33724
|
Sunmaster XL15
|
Sunmaster XL15
|
PV Inverter
|
Mastervolt
|
|
PSY33725
|
Fronius IG15
|
Fronius IG15
|
PV Inverter
|
Fronius
|
|
PSY33726
|
Fronius IG20
|
Fronius IG20
|
PV Inverter
|
Fronius
|
|
PSY33727
|
Fronius IG30
|
Fronius IG30
|
PV Inverter
|
Fronius
|
|
PSY33728
|
Fronius IG40
|
Fronius IG40
|
PV Inverter
|
Fronius
|
|
PSY33729
|
Fronius IG60HV
|
Fronius IG60HV
|
PV Inverter
|
Fronius
|
|
PSY33730
|
Fronius IG Plus 35
|
Fronius IG Plus 35
|
PV Inverter
|
Fronius
|
|
PSY33731
|
Fronius IG Plus 50
|
Fronius IG Plus 50
|
PV Inverter
|
Fronius
|
|
PSY33732
|
Fronius IG Plus 70
|
Fronius IG Plus 70
|
PV Inverter
|
Fronius
|
|
PSY33733
|
Fronius IG Plus 100
|
Fronius IG Plus 100
|
PV Inverter
|
Fronius
|
|
PSY33734
|
Fronius IG Plus 120
|
Fronius IG Plus 120
|
PV Inverter
|
Fronius
|
|
PSY33735
|
Fronius IG Plus 150
|
Fronius IG Plus 150
|
PV Inverter
|
Fronius
|
|
PSY30799
|
PV-Modul SCHOTT POLY 225, 225Wp
|
Schott Poly 225
|
poly PV panel
|
SCHOTT Solar AG
|
|
PSY31221
|
A-277P
|
Atersa Solar PV Panel A-277P
|
Solar Photovoltaic Panel
|
Atersa
|
|
PSY31222
|
A-214P
|
Atersa Solar PV Panel A-214P
|
Solar Photovoltaic Panel
|
Atersa
|
|
PSY31223
|
A-222P
|
Atersa Solar PV Panel A-222P
|
Solar Photovoltaic System
|
Atersa
|
|
PSY31224
|
A-230P
|
Atersa Solar PV Panel A-230P
|
Solar Photovoltaic System
|
Atersa
|
|
PSY32935
|
SB3800
|
Sunnyboy SB3800
|
3800 watt Grid-Connected Solar PV Inverter
|
SMA
|
|
PSY32936
|
SB 4200TL HC
|
Sunnyboy SB 4200TL HC
|
4200 watt Grid-connected Multi-string Solar PV inverter
|
SMA
|
|
PSY32937
|
SB 5000TL HC
|
Sunnyboy SB 5000TL HC
|
5000 watt Grid-Connected Multi-string Solar PV inverter
|
SMA
|
|
PSY32938
|
SMC 5000A
|
Sunny Mini Central SMC 5000A
|
5000 watt Grid-Connected Solar PV Inverter
|
SMA
|
|
PSY32939
|
SMC 6000A
|
Sunny Mini Central SMC 6000A
|
6000 watt Grid-Connected Solar PV Inverter
|
SMA
|
|
PSY32940
|
SMC 7000 HV
|
Sunny Mini Central SMC 7000 HV
|
7000 watt Grid-Connected Solar PV Inverter
|
SMA
|
|
PSY32941
|
SMC 6000 TL
|
Sunny Mini Central SMC 6000TL
|
6000 watt Grid-connected Solar PV Inverter
|
SMA
|
|
PSY32942
|
SMC 7000TL
|
Sunny Mini Central SMC 7000TL
|
7000 watt Grid-connected Solar PV Inverter
|
SMA
|
|
PSY32943
|
SMC 8000TL
|
Sunny Mini Central SMC 8000TL
|
8000 watt Grid-connected Solar PV Inverter
|
SMA
|
|
|
|
".
|
|
|
17. Part 22 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
HHR32643
|
Brink-HRM 300
|
Brink Renovent HR-M
|
An MVHR unit capable of delivering up to300m3/h @ 250Pa. Unit incorporates-constant flow DC fan motors, a crosscounter flow exchanger and integrated thermostats.
|
Brink Climate Systems Ireland Ltd
|
|
HHR32644
|
Brink-HRL 400
|
Brink Renovent HR-L
|
An MVHR unit capable of delivering up to400m3/h @ 275Pa. Unit incorporates-constant flow DC fan motors, a crosscounter flow exchanger and integrated thermostats.
|
Brink Climate Systems Ireland Ltd
|
|
HHR32645
|
Brink-HRB/M 300
|
Brink Renovent HRB-M
|
An MVHR unit capable of delivering up to300m3/h @ 250Pa. Unit incorporates-constant flow DC fan motors, a crosscounter flow exchanger and integrated thermostats. 100% Summer bypass.
|
Brink Climate Systems Ireland Ltd
|
|
HHR32646
|
Brink-HRB/L 400
|
Brink Renovent HRB-L
|
An MVHR unit capable of delivering up to400m3/h @ 275Pa. Unit incorporates-constant flow DC fan motors, a crosscounter flow exchanger and integrated thermostats. 100% summer bypass.
|
Brink Climate Systems Ireland Ltd
|
|
|
|
".
|
|
|
18. Part 24 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
PUM31019
|
107390801
|
SV405F11M/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31020
|
107390811
|
SV406F11M/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31021
|
107390821
|
SV407F11M/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31022
|
107390831
|
SV408F15M/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31023
|
107390841
|
SV409F15M/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31024
|
101500861
|
SV411F22M/P ELP 220-240 50
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31029
|
107390551
|
SV405F11T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31030
|
107390561
|
SV406F11T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31031
|
107390571
|
SV407F11T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31032
|
107390581
|
SV408F15T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31033
|
107390591
|
SV409F15T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31034
|
107390611
|
SV411F22T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31042
|
107391221
|
SV802F11M/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31043
|
107391231
|
SV803F15M/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31044
|
101501241
|
SV804F22M/P ELP 220-240 50
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31045
|
101501251
|
SV805F22M/P ELP 220-240 50
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31046
|
107391021
|
SV802F11T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31047
|
107391031
|
SV803F15T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31048
|
107391041
|
SV804F22T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31049
|
107391051
|
SV805F22T/A
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31050
|
101501061
|
SV806F30T/P ELP 23/40
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31051
|
101501081
|
SV808F40T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31052
|
101501091
|
SV809F40T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31053
|
101501111
|
SV811F55T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31054
|
101501121
|
SV812F55T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31055
|
101501141
|
SV814F75T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31056
|
101501161
|
SV816F75T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31073
|
101570051
|
SV3302F55T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31074
|
101570061
|
SV3303/2F55T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31075
|
101570071
|
SV3303/1F75T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31076
|
101570081
|
SV3303F75T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31077
|
101570091
|
SV3304/2F75T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31078
|
101570101
|
SV3304/1F110T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31079
|
101570111
|
SV3304F110T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31080
|
101570121
|
SV3305/2F110T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31081
|
101570131
|
SV3305/1F110T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31082
|
101570141
|
SV3305F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31083
|
101570151
|
SV3306/2F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31084
|
101570161
|
SV3306/1F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31085
|
101570171
|
SV3306F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31086
|
101570181
|
SV3307/2F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31087
|
101570191
|
SV3307/1F185T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31088
|
101570201
|
SV3307F185T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31089
|
101570211
|
SV3308/2F185T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31090
|
101570221
|
SV3308/1F185T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31091
|
101570231
|
SV3308F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31092
|
101570241
|
SV3309/2F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31093
|
101570251
|
SV3309/1F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31094
|
101570261
|
SV3309F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31095
|
101570271
|
SV3310/2F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31096
|
102700281
|
SV3310/1F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31097
|
102700291
|
SV3310F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31098
|
102700301
|
SV3311/2F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31099
|
102700311
|
SV3311/1F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31100
|
102700321
|
SV3311F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31101
|
102700331
|
SV3312/2F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31102
|
102700341
|
SV3312/1F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31103
|
102700351
|
SV3312F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31104
|
102700361
|
SV3313/2F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31105
|
102700371
|
SV3313/1F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31106
|
101572011
|
SV4601/1F30T/P ELP 23/40
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31107
|
101572021
|
SV4601F40T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31108
|
101572031
|
SV4602/2F55T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31109
|
101572041
|
SV4602F75T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31110
|
101572051
|
SV4603/2F110T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31111
|
101572061
|
SV4603F110T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31112
|
101572071
|
SV4604/2F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31113
|
101572081
|
SV4604F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31114
|
101572091
|
SV4605/2F185T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31115
|
101572101
|
SV4605F185T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31116
|
101572111
|
SV4606/2F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31117
|
101572121
|
SV4606F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31118
|
102702131
|
SV4607/2F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31119
|
102702141
|
SV4607F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31120
|
102702151
|
SV4608/2F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31121
|
102702161
|
SV4608F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31122
|
102702171
|
SV4609/2F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31123
|
102702181
|
SV4609F370T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31124
|
102702191
|
SV4610/2F370T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31125
|
102702201
|
SV4610F370T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31126
|
102702211
|
SV4611/2F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31127
|
102702221
|
SV4611F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31128
|
102702231
|
SV4612/2F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31129
|
102702241
|
SV4612F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31130
|
102702251
|
SV4613/2F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31131
|
101574011
|
SV6601/1F40T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31134
|
101574041
|
SV6602/1F110T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31135
|
101574051
|
SV6602F110T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31136
|
101574061
|
SV6603/2F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31137
|
101574071
|
SV6603/1F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31138
|
101574081
|
SV6603F185T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31139
|
101574091
|
SV6604/2F185T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31140
|
101574101
|
SV6604/1F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31141
|
101574111
|
SV6604F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31142
|
102704121
|
SV6605/2F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31143
|
102704131
|
SV6605/1F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31144
|
102704141
|
SV6605F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31145
|
102704151
|
SV6606/2F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31146
|
102704161
|
SV6606/1F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31147
|
102704171
|
SV6606F370T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31148
|
102704181
|
SV6607/2F370T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31149
|
102704191
|
SV6607/1F370T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31150
|
102704201
|
SV6607F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31151
|
102704211
|
SV6608/2F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31152
|
102704221
|
SV6608/1F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31153
|
102704231
|
SV6608F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31157
|
101576041
|
SV9202F150T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31158
|
101576051
|
SV9203/2F185T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31159
|
101576061
|
SV9203F220T/P ELP 40/69
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31160
|
102706071
|
SV9204/2F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31161
|
102706081
|
SV9204F300T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31162
|
102706091
|
SV9205/2F370T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31163
|
102706101
|
SV9205F370T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31164
|
102706111
|
SV9206/2F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31165
|
102706121
|
SV9206F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
PUM31166
|
102706131
|
SV9207/2F450T
|
Vertical Multistage Centrifugal
|
ITT Ireland
|
|
|
|
".
|
|
|
19. Part 28 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
EVA32232
|
Verde Scooter 1500w
|
Verde Scooter 1500w
|
1500w Electric Scooter
|
Verde Autos
|
|
EVA31520
|
MB7EVFA1A
|
REVAi
|
REVA Electric Car
|
Reva Electric Car Company
|
|
|
|
".
|
|
|
20. Part 30 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
CCU33429
|
114X4280
|
OP-MPUC046MLP 00G
|
Danfoss Optyma Plus Condensing Unit
|
Danfoss
|
|
CCU33430
|
114X4283
|
OP-MPUC046MLP 00E
|
Danfoss Optyma Plus Condensing Unit
|
Danfoss
|
|
CCU33431
|
114X4364
|
OP-MPZC086MTP 00E
|
Danfoss Optyma Plus Condensing Unit
|
Danfoss
|
|
CCU33432
|
114X4310
|
OP-MPUC068MLP 00E
|
Danfoss Optyma Plus Condensing Unit
|
Danfoss
|
|
CCU33433
|
114X4323
|
OP-MPUC080MLP 00E
|
Danfoss Optyma Plus Condensing Unit
|
Danfoss
|
|
CCU33434
|
114X4343
|
OP-MPUC107MLP 00E
|
Danfoss Optyma Plus Condensing Unit
|
Danfoss
|
|
CCU33435
|
114X4488
|
OP-MPZC171MTP 00E
|
Danfoss Optyma Plus Condensing Unit
|
Danfoss
|
|
CCU33436
|
114X4413
|
OP-MPUC125MLP 00E
|
Danfoss Optyma Plus Condensing Unit
|
Danfoss
|
|
CCU33437
|
114X4433
|
OP-MPUC162MLP 00E
|
Danfoss Optyma Plus Condensing Unit
|
Danfoss
|
|
CCU33351
|
120U1016
|
HRP040T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33352
|
120U1026
|
HRP042T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33353
|
120U1036
|
HRP045T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33354
|
120U1046
|
HRP047T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33355
|
120U0986
|
HRP047T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33356
|
120U1656
|
HRP048T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33357
|
120U0596
|
HRP058T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33358
|
120U1606
|
HRP060T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33359
|
120U1621
|
HLP068T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33360
|
120U1756
|
HLP072T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33361
|
120U1631
|
HLP072T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33362
|
120U1766
|
HLP075T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33363
|
120U1641
|
HLP075T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33364
|
120U1781
|
HLP081T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33365
|
120U1651
|
HLP081T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33366
|
120U0601
|
HCP094T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33367
|
SZ090-4VI
|
SZ090-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33368
|
SZ100-4VI
|
SZ100-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33369
|
SZ110-4VI
|
SZ110-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33370
|
SZ115-4RI
|
SZ115-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33371
|
SZ120-4VI
|
SZ120-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33372
|
SZ125-4RI
|
SZ125-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33373
|
SZ148-4VAI
|
SZ148-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33374
|
SZ160-4RAI
|
SZ160-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33375
|
SZ161-4VAI
|
SZ161-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33376
|
SZ175-4RI
|
SZ175-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33377
|
SZ185-4RI
|
SZ185-4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33378
|
121U8030
|
MLZ026T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33379
|
121U8032
|
MLZ030T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33380
|
121U8034
|
MLZ038T5
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33381
|
121U8008
|
MLZ026T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33382
|
121U8010
|
MLZ030T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33383
|
121U8012
|
MLZ038T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33384
|
121U8014
|
MLZ045T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33385
|
121U8016
|
MLZ048T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33386
|
121U8018
|
MLZ058T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33387
|
121U8020
|
MLZ066T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
CCU33388
|
121U8022
|
MLZ076T4
|
Danfoss Scroll Compressor
|
Danfoss
|
|
|
|
".
|
|
|
21. Part 31 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
RDC33400
|
185(-) AD
|
Paris 1
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33401
|
185(-) VSAD
|
Paris 2
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33402
|
185(U) VSAD
|
Paris 3
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33403
|
210(-) AD
|
Paris 4
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33404
|
210(-) VSAD
|
Paris 5
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33405
|
210(U) VSAD
|
Paris 6
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33406
|
250(-) AD
|
Paris 7
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33407
|
250(-) VSAD
|
Paris 8
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33408
|
250(U) VSAD
|
Paris 9
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33409
|
175(-) AD
|
Athen XL 1
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33410
|
175(-) VSAD
|
Athen XL 2
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33411
|
210(-) AD
|
Athen XL 3
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33412
|
210(-) VSAD
|
Athen XL 4
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33413
|
207(-) AD
|
Athen XL 5
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC33414
|
207(-) VSAD
|
Athen XL 6
|
Plug-In Display Freezer/Sliding Lids
|
AHT Cooling Systems GmbH
|
|
RDC32262
|
6180006
|
ARNEG NIMES 2 ES 88/200/250
|
Narrow width vertical multideck refrigerated display cabinet
|
Arneg SPA
|
|
RDC32263
|
6180804
|
ARNEG LISBONA LF 1C 95/216 187 S 230 50
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32264
|
6180806
|
ARNEG LISBONA LF 1C 95/216 250 S 230 50
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32265
|
6180809
|
ARNEG LISBONA LF 1C 95/216 375 S 230 50
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32266
|
6180704
|
ARNEG LISBONA LF 1C 85/216 187 S 230 50
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32267
|
6180706
|
ARNEG LISBONA LF 1C 85/216 250 S 230 50
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32268
|
6180709
|
ARNEG LISBONA LF 1C 85/216 375 S 230 50
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32269
|
6180404
|
ARNEG LISBONA LF 2C 85/200 187 S23050
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32270
|
6180406
|
ARNEG LISBONA LF 2C 85/200 250 S23050
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32271
|
6180409
|
ARNEG LISBONA LF 2C 85/200 375 S23050
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32272
|
6208909
|
ARNEG Panama 750 - 375S23050
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32273
|
6208904
|
ARNEG Panama 750 - 187S23050
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32274
|
6208906
|
ARNEG Panama 750 - 250S23050
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32275
|
6180504
|
ARNEG LISBONA LF 2C 95/200 187 S23050
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32276
|
6180506
|
ARNEG LISBONA LF 2C 95/200 250 S23050
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32277
|
6180509
|
ARNEG LISBONA LF 2C 95/200 375 S23050
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32278
|
6180009
|
ARNEG NIMES 2 ES 88/200/375
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32279
|
6180002
|
ARNEG NIMES 2 ES 88/200/125
|
Narrow width vertical multideck low front refrigerated display cabinet
|
Arneg SPA
|
|
RDC32949
|
MJC316-3
|
Merac Meat Multijet 1.875m
|
Meat Multideck
|
Hussmann Koxka S.L.
|
|
RDC32950
|
MJC316-4
|
Merac Meat Multijet 2.5m
|
Meat Multideck
|
Hussmann Koxka S.L.
|
|
RDC32951
|
MJC316-6
|
Merac Meat Multijet 3.75m
|
Meat Multideck
|
Hussmann Koxka S.L.
|
|
|
|
".
|
|
|
22. Part 32 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
CON32952
|
10102014
|
SAV5R 4510
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32953
|
10102015
|
SAV5R 4511
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32954
|
10102016
|
SAV5R 4520
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32955
|
10102017
|
SAV5R 4521
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32956
|
10102018
|
SAV5R 4530
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32957
|
10101524
|
SAV5R 4531
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32958
|
10102019
|
SAV5R 4545
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32959
|
10102020
|
SAV5R 4546
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32960
|
10101919
|
SAV5R 4565
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32961
|
10102021
|
SAV5R 4566
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32962
|
10102084
|
EAV5S 5410
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32963
|
10102085
|
EAV5S 5411
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32964
|
10102091
|
EAV5S 5420
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32965
|
10102092
|
EAV5S 5421
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32966
|
10102093
|
EAV5S 5430
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32967
|
10102094
|
EAV5S 5431
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32968
|
10102095
|
EAV5S 5440
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32969
|
10102096
|
EAV5S 5441
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32970
|
10102100
|
EAV5S 5450
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32971
|
10102102
|
EAV5S 5451
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32972
|
10102097
|
EAV5S 5445
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32973
|
10102099
|
EAV5S 5446
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32974
|
10102103
|
EAV5S 5465
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32975
|
10102104
|
EAV5S 5466
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32976
|
10102105
|
EAV5S 5485
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32977
|
10102106
|
EAV5S 5486
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32978
|
10102107
|
EAV5R 5510
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32979
|
10102108
|
EAV5R 5511
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32980
|
10102109
|
EAV5R 5520
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32981
|
10102110
|
EAV5R 5521
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32982
|
10102111
|
EAV5R 5530
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32983
|
10102112
|
EAV5R 5531
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32984
|
10102113
|
EAV5R 5540
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32985
|
10102115
|
EAV5R 5541
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32986
|
10102119
|
EAV5R 5550
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32987
|
10102120
|
EAV5R 5551
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32988
|
10102116
|
EAV5R 5545
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32989
|
10102117
|
EAV5R 5546
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32990
|
10102121
|
EAV5R 5565
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32991
|
10102122
|
EAV5R 5566
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32992
|
10102123
|
EAV5R 5585
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32993
|
10102124
|
EAV5R 5586
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32994
|
10102156
|
SAV6S 6511
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32995
|
10102158
|
SAV6S 6521
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32996
|
10102160
|
SAV6S 6531
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32997
|
10102162
|
SAV6S 6541
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32998
|
10102164
|
SAV6S 6551
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON32999
|
10102166
|
SAV6S 6546
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33000
|
10102163
|
SAV6S 6566
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33001
|
10102170
|
SAV6S 6586
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33002
|
10102171
|
SAV6R 6610
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33003
|
10102172
|
SAV6R 6611
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33004
|
10102173
|
SAV6R 6621
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33005
|
10102174
|
SAV6R 6620
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33006
|
10102176
|
SAV6R 6630
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33007
|
10102177
|
SAV6R 6640
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33008
|
10102178
|
SAV6R 6641
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33009
|
10102181
|
SAV6R 6650
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33010
|
10102182
|
SAV6R 6651
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33011
|
10102179
|
SAV6R 6645
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33012
|
10102180
|
SAV6R 6646
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33013
|
10102183
|
SAV6R 6665
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33014
|
10102184
|
SAV6R 6666
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33015
|
10102185
|
SAV6R 6685
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33016
|
10102186
|
SAV6R 6686
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33017
|
10102226
|
EAV6S 7510
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33018
|
10102228
|
EAV6S 7511
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33019
|
10102229
|
EAV6S 7520
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33020
|
10102231
|
EAV6S 7521
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33021
|
10102232
|
EAV6S 7530
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33022
|
10102233
|
EAV6S 7531
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33023
|
10102234
|
EAV6S 7540
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33024
|
10102235
|
EAV6S 7541
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33025
|
10102239
|
EAV6S 7550
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33026
|
10102240
|
EAV6S 7551
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33027
|
10102236
|
EAV6S 7545
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33028
|
10102238
|
EAV6S 7546
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33029
|
10102241
|
EAV6S 7565
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33030
|
10102242
|
EAV6S 7566
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33031
|
10102243
|
EAV6S 7585
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33032
|
10102244
|
EAV6S 7586
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33033
|
10102246
|
EAV6R 7610
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33034
|
10102247
|
EAV6R 7611
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33035
|
10102248
|
EAV6R 7620
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33036
|
10102249
|
EAV6R 7621
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33037
|
10102250
|
EAV6R 7630
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33038
|
10102251
|
EAV6R 7631
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33039
|
10102252
|
EAV6R 7640
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33040
|
10102253
|
EAV6R 7641
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33041
|
10102256
|
EAV6R 7650
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33042
|
10102258
|
EAV6R 7651
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33043
|
10102254
|
EAV6R 7645
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33044
|
10102255
|
EAV6R 7646
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33045
|
10102259
|
EAV6R 7665
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33046
|
10102260
|
EAV6R 7666
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33047
|
10102261
|
EAV6R 7685
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33048
|
10102263
|
EAV6R 7686
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33049
|
10066276
|
SAV8R 4110
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33050
|
10066279
|
SAV8R 4111
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33051
|
10066283
|
SAV8R 4120
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33052
|
10066286
|
SAV8R 4121
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33053
|
10066290
|
SAV8R 4130
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33054
|
10066293
|
SAV8R 4131
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33055
|
10066297
|
SAV8R 4140
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33056
|
10066300
|
SAV8R 4141
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33057
|
10066304
|
SAV8R 4150
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33058
|
10066307
|
SAV8R 4151
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33059
|
10066311
|
SAV8R 4220
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33060
|
10066314
|
SAV8R 4221
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33061
|
10066318
|
SAV8R 4230
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33062
|
10066321
|
SAV8R 4231
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33063
|
10066325
|
SAV8R 4240
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33064
|
10066328
|
SAV8R 4241
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33065
|
10066332
|
SAV8R 4250
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33066
|
10066335
|
SAV8R 4251
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33067
|
10066339
|
SAV8R 4260
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33068
|
10066342
|
SAV8R 4261
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33069
|
10066346
|
SAV8R 4270
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33070
|
10066349
|
SAV8R 4271
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33071
|
10066353
|
SAV8R 4280
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33072
|
10066356
|
SAV8R 4281
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33084
|
10066491
|
EAV9U 5110
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33085
|
10066492
|
EAV9U 5111
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33086
|
10066493
|
EAV9U 5120
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33087
|
10066494
|
EAV9U 5121
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33088
|
10066495
|
EAV9U 5130
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33089
|
10066496
|
EAV9U 5131
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33090
|
10066497
|
EAV9U 5140
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33091
|
10066498
|
EAV9U 5141
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33092
|
10066499
|
EAV9U 5150
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33093
|
10066500
|
EAV9U 5151
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33094
|
10066501
|
EAV9U 5160
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33095
|
10066502
|
EAV9U 5161
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33096
|
10066503
|
EAV9U 5220
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33097
|
10066504
|
EAV9U 5221
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33098
|
10066505
|
EAV9U 5230
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33099
|
10066506
|
EAV9U 5231
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33100
|
10066507
|
EAV9U 5240
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33101
|
10066508
|
EAV9U 5241
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33102
|
10066509
|
EAV9U 5250
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33103
|
10066510
|
EAV9U 5251
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33104
|
10066511
|
EAV9U 5260
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33105
|
10066512
|
EAV9U 5261
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33106
|
10066360
|
EAV8R 9110
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33107
|
10066364
|
EAV8R 9111
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33108
|
10066369
|
EAV8R 9120
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33109
|
10066373
|
EAV8R 9121
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33110
|
10066378
|
EAV8R 9130
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33111
|
10066382
|
EAV8R 9131
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33112
|
10066387
|
EAV8R 9140
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33113
|
10066391
|
EAV8R 9141
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33114
|
10066396
|
EAV8R 9150
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33115
|
10066400
|
EAV8R 9151
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33116
|
10066405
|
EAV8R 9160
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33117
|
10066409
|
EAV8R 9161
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33118
|
10066414
|
EAV8R 9220
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33119
|
10066418
|
EAV8R 9221
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33120
|
10066423
|
EAV8R 9230
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33121
|
10066427
|
EAV8R 9231
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33122
|
10066432
|
EAV8R 9240
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33123
|
10066436
|
EAV8R 9241
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33124
|
10066441
|
EAV8R 9250
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33125
|
10066445
|
EAV8R 9251
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33126
|
10066450
|
EAV8R 9260
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33127
|
10066454
|
EAV8R 9261
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33137
|
82052073
|
XDHVT 5114
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33138
|
82052074
|
XDHVT 5115
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33140
|
82052076
|
XDHVT 5124
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33141
|
82052077
|
XDHVT 5125
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33143
|
82052079
|
XDHVT 5134
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33144
|
82052080
|
XDHVT 5135
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33146
|
82052082
|
XDHVT 5144
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33147
|
82052083
|
XDHVT 5145
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33149
|
82052085
|
XDHVT 5154
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33150
|
82052086
|
XDHVT 5155
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33152
|
82052088
|
XDHVT 5164
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33153
|
82052089
|
XDHVT 5165
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33155
|
82052091
|
XDHVT 5174
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33156
|
82052092
|
XDHVT 5175
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33157
|
82052093
|
XDHVT 5184
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33158
|
82052094
|
XDHVT 5185
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33159
|
82052095
|
XDHVU 6113
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33160
|
82052096
|
XDHVU 6114
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33161
|
82052097
|
XDHVU 6123
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33162
|
82052098
|
XDHVU 6124
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33163
|
82052099
|
XDHVU 6133
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33164
|
82052100
|
XDHVU 6134
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33165
|
82052101
|
XDHVU 6143
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33166
|
82052102
|
XDHVU 6144
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33167
|
82052103
|
XDHVU 6153
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33168
|
82052104
|
XDHVU 6154
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33169
|
82052105
|
XDHVU 6163
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33170
|
82052106
|
XDHVU 6164
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33171
|
82052107
|
XDHVU 6173
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33172
|
82052108
|
XDHVU 6174
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33173
|
82052109
|
XDHVU 6183
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33174
|
82052110
|
XDHVU 6184
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33175
|
82052111
|
XDHVR 7113
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33176
|
82052112
|
XDHVR 7114
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33177
|
82052113
|
XDHVR 7123
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33178
|
82052114
|
XDHVR 7124
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33179
|
82052115
|
XDHVR 7133
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33180
|
82052116
|
XDHVR 7134
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33181
|
82052117
|
XDHVR 7143
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33182
|
82052118
|
XDHVR 7144
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33183
|
82052119
|
XDHVR 7153
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33184
|
82052120
|
XDHVR 7154
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33185
|
82052121
|
XDHVR 7163
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33186
|
82052122
|
XDHVR 7164
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33187
|
82052123
|
XDHVR 7173
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33188
|
82052124
|
XDHVR 7174
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33189
|
82052125
|
XDHVR 7183
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33190
|
82052126
|
XDHVR 7184
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33207
|
10062275
|
EHVDT 4226
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33208
|
10062280
|
EHVDT 4227
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33209
|
10062285
|
EHVDT 4236
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33210
|
10062290
|
EHVDT 4237
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33211
|
10062295
|
EHVDT 4246
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33212
|
10062300
|
EHVDT 4247
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33213
|
10062305
|
EHVDT 4256
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33214
|
10062309
|
EHVDT 4257
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33215
|
10062314
|
EHVDT 4266
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33216
|
10062319
|
EHVDT 4267
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33217
|
10062324
|
EHVDT 4277
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33218
|
10062329
|
EHVDT 4276
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33219
|
10062334
|
EHVDT 4286
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33220
|
10062339
|
EHVDT 4287
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33221
|
10062344
|
EHVDT 4296
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33222
|
10062349
|
EHVDT 4297
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33223
|
10062368
|
EHVDU 7225
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33224
|
10062369
|
EHVDU 7226
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33225
|
10062370
|
EHVDU 7235
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33226
|
10062371
|
EHVDU 7236
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33227
|
10062372
|
EHVDU 7245
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33228
|
10062373
|
EHVDU 7246
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33229
|
10062374
|
EHVDU 7255
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33230
|
10062375
|
EHVDU 7256
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33231
|
10062376
|
EHVDU 7265
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33232
|
10062377
|
EHVDU 7266
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33233
|
10062378
|
EHVDU 7275
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33234
|
10062379
|
EHVDU 7276
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33235
|
10062380
|
EHVDU 7285
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33236
|
10062381
|
EHVDU 7286
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33237
|
10062382
|
EHVDU 7295
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33238
|
10062383
|
EHVDU 7296
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33239
|
10062281
|
EHVDR 5225
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33240
|
10062276
|
EHVDR 5226
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33241
|
10062291
|
EHVDR 5235
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33242
|
10062286
|
EHVDR 5236
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33243
|
10062301
|
EHVDR 5245
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33244
|
10062296
|
EHVDR 5246
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33245
|
10062310
|
EHVDR 5255
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33246
|
10062351
|
EHVDR 5256
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33247
|
10062320
|
EHVDR 5265
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33248
|
10062315
|
EHVDR 5266
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33249
|
10062330
|
EHVDR 5275
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33250
|
10062325
|
EHVDR 5276
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33251
|
10062340
|
EHVDR 5285
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33252
|
10062335
|
EHVDR 5286
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33253
|
10062350
|
EHVDR 5295
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
CON33254
|
10062345
|
EHVDR 5296
|
Axial fan type air cooled condenser
|
LU-VE SpA
|
|
|
|
".
|
|
|
|
|
|
23. Part 33 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
RSC33288
|
080Z2521
|
Danfoss AK-SC255E
|
System Manager for Control and Monitoring of Refrigeration Systems
|
Danfoss
|
|
RSC33289
|
080Z2520
|
Danfoss AK-SC255
|
System Manager for Control and Monitoring of Refrigeration systems
|
Danfoss
|
|
RSC33290
|
080Z2583
|
Danfoss AK-SC255 DIN
|
System Manager (w/o Display) for Control and Monitoring of Refrigeration Systems
|
Danfoss
|
|
RSC33291
|
080Z2551
|
Danfoss AK-CS
|
System Manager for control and monitoring of regrigeration system and ancilliary equipment in small and medium applications
|
Danfoss
|
|
RSC33347
|
084B8521
|
Danfoss EKC202A Controller
|
Refrigeration Controller for Display cabinets and Cold Rooms
|
Danfoss
|
|
RSC33348
|
084B8522
|
Danfoss EKC202B Controller
|
Refrigeration Display Cabinet and Cold Room Controller
|
Danfoss
|
|
RSC33349
|
084B8523
|
Danfoss EKC202C Controller
|
Refrigeration Display Cabinet and Cold Room Controller
|
Danfoss
|
|
RSC33350
|
084B8536
|
Danfoss EKC202D Controller
|
Refrigeration Display Cabinet and Cold Room Controller
|
Danfoss
|
|
RSC33415
|
080Z8500
|
Danfoss AK-SM 350
|
System Management front End for Refrigeration Applications
|
Danfoss
|
|
RSC33416
|
080Z8502
|
Danfoss AK-SM350
|
System Manager Front End for Refrigeration Applications
|
Danfoss
|
|
RSC33417
|
080Z8512
|
Danfoss AK-SM 720
|
System Management Gateway for Refrigeration Applications
|
Danfoss
|
|
RSC33418
|
080Z2553
|
Danfoss AK-CS Din Version
|
Front End System Manager for Small refrigeration Systems
|
Danfoss
|
|
RSC33419
|
084B8022
|
Danfoss AK-CC 450 Screw Terminals
|
Refrigeration Display Case and Coldroom Controller
|
Danfoss
|
|
RSC33420
|
084B8023
|
Danfoss AK-CC 450 Plug and Socket
|
Refrigeration Display Case and Coldroom Controller
|
Danfoss
|
|
RSC33421
|
080Z0117
|
Danfoss AK-PC730
|
Refrigeration Controller Multiple evaporators and Pack Controller
|
Danfoss
|
|
RSC33422
|
080Z0112
|
Danfoss AK-PC840
|
Refrigeration Controller for Multiple Compressors and Condensers
|
Danfoss
|
|
RSC33424
|
080Z0141
|
Danfoss AK-PC740
|
Refrigeration Controller for Multiple Compressors and Condensers with Oil Management
|
Danfoss
|
|
RSC33425
|
080Z0151
|
Danfoss AK-PC780
|
Refrigeration Controller for Multiple Compressors and Condensers with Oil Control
|
Danfoss
|
|
RSC33440
|
084B8012
|
Danfoss AK-PC 520
|
Refrigeration Controller for Multiple Compressors and Condensers
|
Danfoss
|
|
RSC33389
|
084B8520
|
Danfoss AK-CC210 Controller
|
Refrigeration Display Cabinet and Cold Room Controller
|
Danfoss
|
|
RSC33390
|
084B8524
|
Danfoss AK-CC450 Controller
|
Refrigeration Display Cabinet and Cold Room Controller
|
Danfoss
|
|
RSC33391
|
084B8011
|
Danfoss EKC414A1 Controller
|
Refrigeration Display Case and Cold Room Controller
|
Danfoss
|
|
RSC33392
|
084B8020
|
Danfoss AK-CC550 Controller
|
Refrigeration Display Case and Cold Room Controller
|
Danfoss
|
|
RSC33393
|
084B7086
|
Danfoss EKC315A Controller
|
Refrigeration Controller (Superheat and Temperature) Temperature Input.
|
Danfoss
|
|
RSC33394
|
084B8030
|
Danfoss AK-CC550A Controller
|
Refrigeration Display case and Cold Room Controller optimised for C02 applications
|
Danfoss
|
|
RSC33395
|
080Z0122
|
Danfoss AK-CC750 Controller
|
Refrigeration multi-evaporator controller
|
Danfoss
|
|
RSC33396
|
080Z0116
|
Danfoss AK-PC730 Pack Controller
|
Refrigeration Compressor & Condenser Pack Controller
|
Danfoss
|
|
RSC33397
|
080Z0111
|
Danfoss AK-PC840 Pack Controller
|
Refrigeration Multiple Compressor Pack and Condenser Controller
|
Danfoss
|
|
RSC33398
|
084B8007
|
Danfoss AK-PC530 Pack Controller
|
Refrigeration Compressor Pack and Condenser controller
|
Danfoss
|
|
RSC33399
|
084B7252
|
Danfoss EKC326A CO2 Gas Controller
|
Refrigeration Gas Cooler Controller for CO2 applications
|
Danfoss
|
|
|
|
".
|
|
|
24. Part 35 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
IMM33697
|
1280130
|
vc330/60
|
servo hydrauic
|
ENGEL UK
|
|
IMM33698
|
2180190
|
vc750/150
|
servo hydrauic
|
ENGEL UK
|
|
IMM33699
|
2340210
|
vc2050/300
|
servo hydrauic
|
ENGEL UK
|
|
IMM33700
|
1280960
|
e-vic200/65
|
servo hydraulic / electric injection unit
|
ENGEL UK
|
|
IMM33701
|
1330975
|
e-vic310/120
|
servo hydraulic / electric injection unit
|
ENGEL UK
|
|
IMM33702
|
4900400
|
e-vic1640/280
|
servo hydraulic / electric injection unit
|
ENGEL UK
|
|
IMM33703
|
4100100
|
emax80/50
|
full servo
|
ENGEL UK
|
|
IMM33704
|
4300200
|
emotion200/55
|
full servo
|
ENGEL UK
|
|
IMM33705
|
4500150
|
emotion310/100
|
full servo
|
ENGEL UK
|
|
IMM33706
|
4900100
|
emotion740/280
|
full servo
|
ENGEL UK
|
|
IMM33707
|
4750300
|
emotion940/180
|
full servo
|
ENGEL UK
|
|
IMM33708
|
4920300
|
emotion2440/380
|
full servo
|
ENGEL UK
|
|
IMM33709
|
4300050
|
em50/55
|
full servo
|
ENGEL UK
|
|
IMM33710
|
4130200
|
em310/100
|
full servo
|
ENGEL UK
|
|
IMM33711
|
4130300
|
em440/100
|
full servo
|
ENGEL UK
|
|
IMM33712
|
4200300
|
emx740/180
|
full servo
|
ENGEL UK
|
|
IMM33713
|
4900300
|
em1340/280
|
full servo
|
ENGEL UK
|
|
IMM33714
|
4020300
|
em2440/380
|
full servo
|
ENGEL UK
|
|
|
|
".
|
|
|
25. Part 38 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
VSA32297
|
ESS-A-1-63
|
ESS-A-1-63
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32298
|
ESS-A-1-100
|
ESS-A-1-100
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32299
|
ESS-A-1-200
|
ESS-A-1-200
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32300
|
ESS-A-1-400
|
ESS-A-1-400
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32301
|
ESS-A-1-600
|
ESS-A-1-600
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32302
|
ESS-A-1-800
|
ESS-A-1-800
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32303
|
ESS-A-1-1000
|
ESS-A-1-1000
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32304
|
ESS-A-1-1200
|
ESS-A-1-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32305
|
ESS-A-1-1400
|
ESS-A-1-1400
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32306
|
ESS-A-1-1600
|
ESS-A-1-1600
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32307
|
ESS-A-1-1800
|
ESS-A-1-1800
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32308
|
ESS-A-1-2000
|
ESS-A-1-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32309
|
ESS-B-1-45
|
ESS-B-1-45
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32310
|
ESS-B-1-90
|
ESS-B-1-90
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32311
|
ESS-B-1-150
|
ESS-B-1-150
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32312
|
ESS-B-1-300
|
ESS-B-1-300
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32313
|
ESS-B-1-600
|
ESS-B-1-600
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32314
|
ESS-B-1-900
|
ESS-B-1-900
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32315
|
ESS-B-1-1200
|
ESS-B-1-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32316
|
ESS-B-1-1500
|
ESS-B-1-1500
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32317
|
ESS-B-1-1800
|
ESS-B-1-1800
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32318
|
ESS-B-1-2100
|
ESS-B-1-2100
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32319
|
ESS-B-1-2400
|
ESS-B-1-2400
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32320
|
ESS-B-1-2700
|
ESS-B-1-2700
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32321
|
ESS-B-1-3000
|
ESS-B-1-3000
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32322
|
ESS-C-1-63
|
ESS-C-1-63
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32323
|
ESS-C-1-125
|
ESS-C-1-125
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32324
|
ESS-C-1-200
|
ESS-C-1-200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32325
|
ESS-C-1-400
|
ESS-C-1-400
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32326
|
ESS-C-1-800
|
ESS-C-1-800
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32327
|
ESS-C-1-1200
|
ESS-C-1-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32328
|
ESS-C-1-1600
|
ESS-C-1-1600
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32329
|
ESS-C-1-2000
|
ESS-C-1-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32330
|
ESS-C-1-2400
|
ESS-C-1-2400
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32331
|
ESS-C-1-2800
|
ESS-C-1-2800
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32332
|
ESS-C-1-3200
|
ESS-C-1-3200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32333
|
ESS-C-1-3600
|
ESS-C-1-3600
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32334
|
ESS-C-1-4000
|
ESS-C-1-4000
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32335
|
ESS-D-1-75
|
ESS-D-1-75
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32336
|
ESS-D-1-125
|
ESS-D-1-125
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32337
|
ESS-D-1-250
|
ESS-D-1-250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32338
|
ESS-D-1-500
|
ESS-D-1-500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32339
|
ESS-D-1-750
|
ESS-D-1-750
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32340
|
ESS-D-1-1000
|
ESS-D-1-1000
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32341
|
ESS-D-1-1250
|
ESS-D-1-1250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32342
|
ESS-D-1-1500
|
ESS-D-1-1500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32343
|
ESS-D-1-1750
|
ESS-D-1-1750
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32344
|
ESS-D-1-2000
|
ESS-D-1-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32345
|
ESS-D-1-2250
|
ESS-D-1-2250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32346
|
ESS-D-1-2500
|
ESS-D-1-2500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32347
|
ESS-AV-1-63
|
ESS-AV-1-63
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32348
|
ESS-AV-1-100
|
ESS-AV-1-100
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32349
|
ESS-AV-1-200
|
ESS-AV-1-200
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32350
|
ESS-AV-1-400
|
ESS-AV-1-400
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32351
|
ESS-AV-1-600
|
ESS-AV-1-600
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32352
|
ESS-AV-1-800
|
ESS-AV-1-800
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32353
|
ESS-AV-1-1000
|
ESS-AV-1-1000
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32354
|
ESS-AV-1-1200
|
ESS-AV-1-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32355
|
ESS-AV-1-1400
|
ESS-AV-1-1400
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32356
|
ESS-AV-1-1600
|
ESS-AV-1-1600
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32357
|
ESS-AV-1-1800
|
ESS-AV-1-1800
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32358
|
ESS-AV-1-2000
|
ESS-AV-1-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32359
|
ESS-BV-1-45
|
ESS-BV-1-45
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32360
|
ESS-BV-1-90
|
ESS-BV-1-90
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32361
|
ESS-BV-1-150
|
ESS-BV-1-150
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32362
|
ESS-BV-1-300
|
ESS-BV-1-300
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32363
|
ESS-BV-1-600
|
ESS-BV-1-600
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32364
|
ESS-BV-1-900
|
ESS-BV-1-900
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32365
|
ESS-BV-1-1200
|
ESS-BV-1-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32366
|
ESS-BV-1-1500
|
ESS-BV-1-1500
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32367
|
ESS-BV-1-1800
|
ESS-BV-1-1800
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32368
|
ESS-BV-1-2100
|
ESS-BV-1-2100
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32369
|
ESS-BV-1-2400
|
ESS-BV-1-2400
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32370
|
ESS-BV-1-2700
|
ESS-BV-1-2700
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32371
|
ESS-BV-1-3000
|
ESS-BV-1-3000
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32372
|
ESS-CV-1-63
|
ESS-CV-1-63
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32373
|
ESS-CV-1-125
|
ESS-CV-1-125
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32374
|
ESS-CV-1-200
|
ESS-CV-1-200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32375
|
ESS-CV-1-400
|
ESS-CV-1-400
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32376
|
ESS-CV-1-800
|
ESS-CV-1-800
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32377
|
ESS-CV-1-1200
|
ESS-CV-1-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32378
|
ESS-CV-1-1600
|
ESS-CV-1-1600
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32379
|
ESS-CV-1-2000
|
ESS-CV-1-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32380
|
ESS-CV-1-2400
|
ESS-CV-1-2400
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32381
|
ESS-CV-1-2800
|
ESS-CV-1-2800
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32382
|
ESS-CV-1-3200
|
ESS-CV-1-3200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32383
|
ESS-CV-1-3600
|
ESS-CV-1-3600
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32384
|
ESS-CV-1-4000
|
ESS-CV-1-4000
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32385
|
ESS-DV-1-75
|
ESS-DV-1-75
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32386
|
ESS-DV-1-125
|
ESS-DV-1-125
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32387
|
ESS-DV-1-250
|
ESS-DV-1-250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32388
|
ESS-DV-1-500
|
ESS-DV-1-500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32389
|
ESS-DV-1-750
|
ESS-DV-1-750
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32390
|
ESS-DV-1-1000
|
ESS-DV-1-1000
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32391
|
ESS-DV-1-1250
|
ESS-DV-1-1250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32392
|
ESS-DV-1-1500
|
ESS-DV-1-1500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32393
|
ESS-DV-1-1750
|
ESS-DV-1-1750
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32394
|
ESS-DV-1-2000
|
ESS-DV-1-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32395
|
ESS-DV-1-2250
|
ESS-DV-1-2250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32396
|
ESS-DV-1-2500
|
ESS-DV-1-2500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32397
|
ESS-A-3-32
|
ESS-A-3-32
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32398
|
ESS-A-3-63
|
ESS-A-3-63
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32399
|
ESS-A-3-100
|
ESS-A-3-100
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32400
|
ESS-A-3-200
|
ESS-A-3-200
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32401
|
ESS-A-3-400
|
ESS-A-3-400
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32402
|
ESS-A-3-600
|
ESS-A-3-600
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32403
|
ESS-A-3-800
|
ESS-A-3-800
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32404
|
ESS-A-3-1000
|
ESS-A-3-1000
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32405
|
ESS-A-3-1200
|
ESS-A-3-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32406
|
ESS-A-3-1400
|
ESS-A-3-1400
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32407
|
ESS-A-3-1600
|
ESS-A-3-1600
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32408
|
ESS-A-3-1800
|
ESS-A-3-1800
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32409
|
ESS-A-3-2000
|
ESS-A-3-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%'
|
Claude Lyons Limited
|
|
VSA32410
|
ESS-B-3-45
|
ESS-B-3-45
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32411
|
ESS-B-3-90
|
ESS-B-3-90
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32412
|
ESS-B-3-150
|
ESS-B-3-150
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32413
|
ESS-B-3-300
|
ESS-B-3-300
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32414
|
ESS-B-3-600
|
ESS-B-3-600
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32415
|
ESS-B-3-900
|
ESS-B-3-900
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32416
|
ESS-B-3-1200
|
ESS-B-3-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32417
|
ESS-B-3-1500
|
ESS-B-3-1500
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32418
|
ESS-B-3-1800
|
ESS-B-3-1800
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32419
|
ESS-B-3-2100
|
ESS-B-3-2100
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32420
|
ESS-B-3-2400
|
ESS-B-3-2400
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32421
|
ESS-B-3-2700
|
ESS-B-3-2700
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%'
|
Claude Lyons Limited
|
|
VSA32422
|
ESS-C-3-63
|
ESS-C-3-63
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32423
|
ESS-C-3-125
|
ESS-C-3-125
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32424
|
ESS-C-3-200
|
ESS-C-3-200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32425
|
ESS-C-3-400
|
ESS-C-3-400
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32426
|
ESS-C-3-800
|
ESS-C-3-800
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32427
|
ESS-C-3-1200
|
ESS-C-3-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32428
|
ESS-C-3-1600
|
ESS-C-3-1600
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32429
|
ESS-C-3-2000
|
ESS-C-3-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32430
|
ESS-C-3-2400
|
ESS-C-3-2400
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%'
|
Claude Lyons Limited
|
|
VSA32431
|
ESS-D-3-40
|
ESS-D-3-40
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32432
|
ESS-D-3-75
|
ESS-D-3-75
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32433
|
ESS-D-3-125
|
ESS-D-3-125
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32434
|
ESS-D-3-250
|
ESS-D-3-250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32435
|
ESS-D-3-500
|
ESS-D-3-500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32436
|
ESS-D-3-750
|
ESS-D-3-750
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32437
|
ESS-D-3-1000
|
ESS-D-3-1000
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32438
|
ESS-D-3-1250
|
ESS-D-3-1250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32439
|
ESS-D-3-1500
|
ESS-D-3-1500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32440
|
ESS-D-3-1750
|
ESS-D-3-1750
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32441
|
ESS-D-3-2000
|
ESS-D-3-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32442
|
ESS-D-3-2250
|
ESS-D-3-2250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32443
|
ESS-D-3-2500
|
ESS-D-3-2500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%'
|
Claude Lyons Limited
|
|
VSA32444
|
ESS-AV-3-32
|
ESS-AV-3-32
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32445
|
ESS-AV-3-63
|
ESS-AV-3-63
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32446
|
ESS-AV-3-100
|
ESS-AV-3-100
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32447
|
ESS-AV-3-200
|
ESS-AV-3-200
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32448
|
ESS-AV-3-400
|
ESS-AV-3-400
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32449
|
ESS-AV-3-600
|
ESS-AV-3-600
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32450
|
ESS-AV-3-800
|
ESS-AV-3-800
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32451
|
ESS-AV-3-1000
|
ESS-AV-3-1000
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32452
|
ESS-AV-3-1200
|
ESS-AV-3-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32453
|
ESS-AV-3-1400
|
ESS-AV-3-1400
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32454
|
ESS-AV-3-1600
|
ESS-AV-3-1600
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32455
|
ESS-AV-3-1800
|
ESS-AV-3-1800
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32456
|
ESS-AV-3-2000
|
ESS-AV-3-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32457
|
ESS-BV-3-45
|
ESS-BV-3-45
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32458
|
ESS-BV-3-90
|
ESS-BV-3-90
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32459
|
ESS-BV-3-150
|
ESS-BV-3-150
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32460
|
ESS-BV-3-300
|
ESS-BV-3-300
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32461
|
ESS-BV-3-600
|
ESS-BV-3-600
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32462
|
ESS-BV-3-900
|
ESS-BV-3-900
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32463
|
ESS-BV-3-1200
|
ESS-BV-3-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32464
|
ESS-BV-3-1500
|
ESS-BV-3-1500
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32465
|
ESS-BV-3-1800
|
ESS-BV-3-1800
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32466
|
ESS-BV-3-2100
|
ESS-BV-3-2100
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32467
|
ESS-BV-3-2400
|
ESS-BV-3-2400
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32468
|
ESS-BV-3-2700
|
ESS-BV-3-2700
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32469
|
ESS-CV-3-63
|
ESS-CV-3-63
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32470
|
ESS-CV-3-125
|
ESS-CV-3-125
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32471
|
ESS-CV-3-200
|
ESS-CV-3-200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32472
|
ESS-CV-3-400
|
ESS-CV-3-400
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32473
|
ESS-CV-3-800
|
ESS-CV-3-800
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32474
|
ESS-CV-3-1200
|
ESS-CV-3-1200
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32475
|
ESS-CV-3-1600
|
ESS-CV-3-1600
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32476
|
ESS-CV-3-2000
|
ESS-CV-3-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32477
|
ESS-CV-3-2400
|
ESS-CV-3-2400
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32478
|
ESS-DV-3-40
|
ESS-DV-3-40
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32479
|
ESS-DV-3-75
|
ESS-DV-3-75
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32480
|
ESS-DV-3-125
|
ESS-DV-3-125
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32481
|
ESS-DV-3-250
|
ESS-DV-3-250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32482
|
ESS-DV-3-500
|
ESS-DV-3-500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32483
|
ESS-DV-3-750
|
ESS-DV-3-750
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32484
|
ESS-DV-3-1000
|
ESS-DV-3-1000
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32485
|
ESS-DV-3-1250
|
ESS-DV-3-1250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32486
|
ESS-DV-3-1500
|
ESS-DV-3-1500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32487
|
ESS-DV-3-1750
|
ESS-DV-3-1750
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32488
|
ESS-DV-3-2000
|
ESS-DV-3-2000
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32489
|
ESS-DV-3-2250
|
ESS-DV-3-2250
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32490
|
ESS-DV-3-2500
|
ESS-DV-3-2500
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with 264V input voltage option
|
Claude Lyons Limited
|
|
VSA32491
|
ESS-A-1-63 'S'
|
ESS-A-1-63 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32492
|
ESS-A-1-100 'S'
|
ESS-A-1-100 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32493
|
ESS-A-1-200 'S'
|
ESS-A-1-200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32494
|
ESS-A-1-400 'S'
|
ESS-A-1-400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32495
|
ESS-A-1-600 'S'
|
ESS-A-1-600 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32496
|
ESS-A-1-800 'S'
|
ESS-A-1-800 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32497
|
ESS-A-1-1000 'S'
|
ESS-A-1-1000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32498
|
ESS-A-1-1200 'S'
|
ESS-A-1-1200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32499
|
ESS-A-1-1400 'S'
|
ESS-A-1-1400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32500
|
ESS-A-1-1600 'S'
|
ESS-A-1-1600 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32501
|
ESS-A-1-1800 'S'
|
ESS-A-1-1800 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32502
|
ESS-A-1-2000 'S'
|
ESS-A-1-2000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32503
|
ESS-B-1-45 'S'
|
ESS-B-1-45 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32504
|
ESS-B-1-90 'S'
|
ESS-B-1-90 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32505
|
ESS-B-1-150 'S'
|
ESS-B-1-150 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32506
|
ESS-B-1-300 'S'
|
ESS-B-1-300 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32507
|
ESS-B-1-600 'S'
|
ESS-B-1-600 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32508
|
ESS-B-1-900 'S'
|
ESS-B-1-900 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32509
|
ESS-B-1-1200 'S'
|
ESS-B-1-1200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32510
|
ESS-B-1-1500 'S'
|
ESS-B-1-1500 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32511
|
ESS-B-1-1800 'S'
|
ESS-B-1-1800 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32512
|
ESS-B-1-2100 'S'
|
ESS-B-1-2100 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32513
|
ESS-B-1-2400 'S'
|
ESS-B-1-2400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32514
|
ESS-B-1-2700 'S'
|
ESS-B-1-2700 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32515
|
ESS-B-1-3000 'S'
|
ESS-B-1-3000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32516
|
ESS-C-1-63 'S'
|
ESS-C-1-63 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32517
|
ESS-C-1-125 'S'
|
ESS-C-1-125 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32518
|
ESS-C-1-200 'S'
|
ESS-C-1-200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32519
|
ESS-C-1-400 'S'
|
ESS-C-1-400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32520
|
ESS-C-1-800 'S'
|
ESS-C-1-800 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32521
|
ESS-C-1-1200 'S'
|
ESS-C-1-1200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32522
|
ESS-C-1-1600 'S'
|
ESS-C-1-1600 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32523
|
ESS-C-1-2000 'S'
|
ESS-C-1-2000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32524
|
ESS-C-1-2400 'S'
|
ESS-C-1-2400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32525
|
ESS-C-1-2800 'S'
|
ESS-C-1-2800 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32526
|
ESS-C-1-3200 'S'
|
ESS-C-1-3200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32527
|
ESS-C-1-3600 'S'
|
ESS-C-1-3600 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32528
|
ESS-C-1-4000 'S'
|
ESS-C-1-4000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32529
|
ESS-D-1-75 'S'
|
ESS-D-1-75 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32530
|
ESS-D-1-125 'S'
|
ESS-D-1-125 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32531
|
ESS-D-1-250 'S'
|
ESS-D-1-250 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32532
|
ESS-D-1-500 'S'
|
ESS-D-1-500 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32533
|
ESS-D-1-750 'S'
|
ESS-D-1-750 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32534
|
ESS-D-1-1000 'S'
|
ESS-D-1-1000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32535
|
ESS-D-1-1250 'S'
|
ESS-D-1-1250 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32536
|
ESS-D-1-1500 'S'
|
ESS-D-1-1500 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32537
|
ESS-D-1-1750 'S'
|
ESS-D-1-1750 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32538
|
ESS-D-1-2000 'S'
|
ESS-D-1-2000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32539
|
ESS-D-1-2250 'S'
|
ESS-D-1-2250 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32540
|
ESS-D-1-2500 'S'
|
ESS-D-1-2500 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32541
|
ESS-A-3-32 'S'
|
ESS-A-3-32 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32542
|
ESS-A-3-63 'S'
|
ESS-A-3-63 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32543
|
ESS-A-3-100 'S'
|
ESS-A-3-100 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32544
|
ESS-A-3-200 'S'
|
ESS-A-3-200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32545
|
ESS-A-3-400 'S'
|
ESS-A-3-400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32546
|
ESS-A-3-600 'S'
|
ESS-A-3-600 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32547
|
ESS-A-3-800 'S'
|
ESS-A-3-800 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32548
|
ESS-A-3-1000 'S'
|
ESS-A-3-1000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32549
|
ESS-A-3-1200 'S'
|
ESS-A-3-1200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32550
|
ESS-A-3-1400 'S'
|
ESS-A-3-1400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32551
|
ESS-A-3-1600 'S'
|
ESS-A-3-1600 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32552
|
ESS-A-3-1800 'S'
|
ESS-A-3-1800 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32553
|
ESS-A-3-2000 'S'
|
ESS-A-3-2000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -12.5%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32554
|
ESS-B-3-45 'S'
|
ESS-B-3-45 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32555
|
ESS-B-3-90 'S'
|
ESS-B-3-90 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32556
|
ESS-B-3-150 'S'
|
ESS-B-3-150 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32557
|
ESS-B-3-300 'S'
|
ESS-B-3-300 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32558
|
ESS-B-3-600 'S'
|
ESS-B-3-600 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32559
|
ESS-B-3-900 'S'
|
ESS-B-3-900 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32560
|
ESS-B-3-1200 'S'
|
ESS-B-3-1200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32561
|
ESS-B-3-1500 'S'
|
ESS-B-3-1500 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32562
|
ESS-B-3-1800 'S'
|
ESS-B-3-1800 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32563
|
ESS-B-3-2100 'S'
|
ESS-B-3-2100 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32564
|
ESS-B-3-2400 'S'
|
ESS-B-3-2400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32565
|
ESS-B-3-2700 'S'
|
ESS-B-3-2700 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -8.33%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32566
|
ESS-C-3-63 'S'
|
ESS-C-3-63 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32567
|
ESS-C-3-125 'S'
|
ESS-C-3-125 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32568
|
ESS-C-3-200 'S'
|
ESS-C-3-200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32569
|
ESS-C-3-400 'S'
|
ESS-C-3-400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32570
|
ESS-C-3-800 'S'
|
ESS-C-3-800 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32571
|
ESS-C-3-1200 'S'
|
ESS-C-3-1200 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32572
|
ESS-C-3-1600 'S'
|
ESS-C-3-1600 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32573
|
ESS-C-3-2000 'S'
|
ESS-C-3-2000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32574
|
ESS-C-3-2400 'S'
|
ESS-C-3-2400 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -6.25%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32575
|
ESS-D-3-40 'S'
|
ESS-D-3-40 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32576
|
ESS-D-3-75 'S'
|
ESS-D-3-75 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32577
|
ESS-D-3-125 'S'
|
ESS-D-3-125 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32578
|
ESS-D-3-250 'S'
|
ESS-D-3-250 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32579
|
ESS-D-3-500 'S'
|
ESS-D-3-500 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32580
|
ESS-D-3-750 'S'
|
ESS-D-3-750 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32581
|
ESS-D-3-1000 'S'
|
ESS-D-3-1000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32582
|
ESS-D-3-1250 'S'
|
ESS-D-3-1250 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32583
|
ESS-D-3-1500 'S'
|
ESS-D-3-1500 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32584
|
ESS-D-3-1750 'S'
|
ESS-D-3-1750 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32585
|
ESS-D-3-2000 'S'
|
ESS-D-3-2000 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32586
|
ESS-D-3-2250 'S'
|
ESS-D-3-2250 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32587
|
ESS-D-3-2500 'S'
|
ESS-D-3-2500 'S'
|
Dynamic voltage optimisation, voltage correction range '0 to -10%' with remote monitoring and metering options
|
Claude Lyons Limited
|
|
VSA32588
|
TS-3.5
|
TS-3.5
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32589
|
TS-4
|
TS-4
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32590
|
TS-5
|
TS-5
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32591
|
TS-6
|
TS-6
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32592
|
TS-8
|
TS-8
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32593
|
TS-9
|
TS-9
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32594
|
TS-10
|
TS-10
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32595
|
TS-11
|
TS-11
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32596
|
TS-12
|
TS-12
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32597
|
TS-2.5/3
|
TS-2.5/3
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32598
|
TS-333
|
TS-333
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32599
|
TS-3.5/3
|
TS-3.5/3
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32600
|
TS-444
|
TS-444
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32601
|
TS-555
|
TS-555
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32602
|
TS-666
|
TS-666
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32603
|
TS-777
|
TS-777
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32604
|
TS-888
|
TS-888
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32605
|
TS-999
|
TS-999
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32606
|
TS-1010
|
TS-1010
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32607
|
TS-1111
|
TS-1111
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32608
|
TS-1212
|
TS-1212
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -17.5 +7.5%, Tap B - / +12.5%, Tap C -7.5 +17.5%
|
Claude Lyons Limited
|
|
VSA32609
|
TS-4X
|
TS-4X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32610
|
TS-5X
|
TS-5X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32611
|
TS-6X
|
TS-6X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32612
|
TS-8X
|
TS-8X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32613
|
TS-9X
|
TS-9X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32614
|
TS-10X
|
TS-10X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32615
|
TS-11X
|
TS-11X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32616
|
TS-12X
|
TS-12X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32617
|
TS-333 X
|
TS-333 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32618
|
TS-3.5/3 X
|
TS-3.5/3 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32619
|
TS-444 X
|
TS-444 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32620
|
TS-555 X
|
TS-555 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32621
|
TS-666 X
|
TS-666 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32622
|
TS-777 X
|
TS-777 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32623
|
TS-888 X
|
TS-888 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32624
|
TS-999 X
|
TS-999 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32625
|
TS-1010 X
|
TS-1010 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32626
|
TS-1111 X
|
TS-1111 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
VSA32627
|
TS-1212 X
|
TS-1212 X
|
Servo mechanical AC voltage regulators/ stabilisers, Voltage correction ranges; Tap A -21 +9%, Tap B - / +15%, Tap C -9 +21%
|
Claude Lyons Limited
|
|
|
|
".
|
|
|
26. Part 47 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
IOS33441
|
VS4-ENT-C
|
VMware vSphere 4 Enterprise for 1 processor (Max 6 cores per processor)
|
VMware vSphere 4 Enterprise for 1 processor (Max 6 cores per processor)
|
VMware International Limited
|
|
IOS33442
|
VS4-ENT-PL-C
|
VMware vSphere 4 Enterprise Plus for 1 processor (Max 12 cores per processor)
|
VMware vSphere 4 Enterprise Plus for 1 processor (Max 12 cores per processor)
|
VMware International Limited
|
|
IOS33443
|
VS4-EP-AK-VU-PRO
|
VMware vSphere Enterprise Plus Acceleration Kit PROMO for 8 processors
|
VMware vSphere Enterprise Plus Acceleration Kit PROMO for 8 processors
|
VMware International Limited
|
|
IOS33444
|
VS4-MS-AK-VU-PRO
|
VMware vSphere Midsize Acceleration Kit PROMO for 6 processors
|
VMware vSphere Midsize Acceleration Kit PROMO for 6 processors
|
VMware International Limited
|
|
IOS33445
|
VCS-FND-C
|
VMware vCenter Server 4 Foundation for vSphere up to 3 hosts
|
VMware vCenter Server 4 Foundation for vSphere up to 3 hosts
|
VMware International Limited
|
|
IOS33446
|
VCS-STD-C
|
VMware vCenter Server 4 Standard for vSphere (Includes Orchestrator and Linked Mode)
|
VMware vCenter Server 4 Standard for vSphere (Includes Orchestrator and Linked Mode)
|
VMware International Limited
|
|
IOS33447
|
VU4-PR-10-C
|
VMware View 4 Premier Bundle: 10 Pack
|
VMware View 4 Premier Bundle: 10 Pack
|
VMware International Limited
|
|
IOS33448
|
VU4-PR-100-C
|
VMware View 4 Premier Bundle: 100 Pack
|
VMware View 4 Premier Bundle: 100 Pack
|
VMware International Limited
|
|
|
|
".
|
|
|
27. Part 49 of Schedule 2 of the Principal Order is amended by inserting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
BBO32285
|
USV 50 Wood Chips
|
KWB Multifire USV50_ W
|
The KWB Multifire system runs on G30/W30 wood chips in accordance with ONORM M 7133 or B1 in accordance with CEN TC 335.
|
KWB Biomass Heating Systems
|
|
BBO32286
|
USV 50 Wood Pellets
|
KWB Multifire USV50_ P
|
The KWB Multifire system runs on wood pellets dia=6 mm / dia=8 mm in accordance with ONORM M 7135 or DIN Plus and industrial pellets dia=11 mm in accordance with ONORM M 7135 HP2.
|
KWB Biomass Heating Systems
|
|
BBO32287
|
USV 60 Wood Chips
|
KWB Multifire USV60_ W
|
The KWB Multifire system runs on G30/W30 wood chips in accordance with ONORM M 7133 or B1 in accordance with CEN TC 335.
|
KWB Biomass Heating Systems
|
|
BBO32288
|
USV 60 Wood Pellets
|
KWB Multifire USV60_ P
|
The KWB Multifire system runs on wood pellets dia=6 mm / dia=8 mm in accordance with ONORM M 7135 or DIN Plus and industrial pellets dia=11 mm in accordance with ONORM M 7135 HP2.
|
KWB Biomass Heating Systems
|
|
BBO32289
|
USV 80 Wood Chips
|
KWB Multifire USV80_ W
|
The KWB Multifire system runs on G30/W30 wood chips in accordance with ONORM M 7133 or B1 in accordance with CEN TC 335.
|
KWB Biomass Heating Systems
|
|
BBO32290
|
USV 80 Wood Pellets
|
KWB Multifire USV80_ P
|
The KWB Multifire system runs on wood pellets dia=6 mm / dia=8 mm in accordance with ONORM M 7135 or DIN Plus and industrial pellets dia=11 mm in accordance with ONORM M 7135 HP2.
|
KWB Biomass Heating Systems
|
|
BBO32291
|
USV 100 Wood Chips
|
KWB Multifire USV100_ W
|
The KWB Multifire system runs on G30/W30 wood chips in accordance with ONORM M 7133 or B1 in accordance with CEN TC 335.
|
KWB Biomass Heating Systems
|
|
BBO32292
|
USV 100 Wood Pellets
|
KWB Multifire USV100_ P
|
The KWB Multifire system runs on wood pellets dia=6 mm / dia=8 mm in accordance with ONORM M 7135 or DIN Plus and industrial pellets dia=11 mm in accordance with ONORM M 7135 HP2.
|
KWB Biomass Heating Systems
|
|
BBO32293
|
TDS 130 Multifuel
|
KWB Powerfire TDS130
|
The KWB Powerfire operates on wood chips (G30/G50 in accordance with ONORM M7133) with up to 45 % water content, as well as wood pellets/ industrial pellets (dia=11mm) in accordance with ONORM M7135 or DIN Plus.
|
KWB Biomass Heating Systems
|
|
BBO32294
|
TDS 150 Multifuel
|
KWB Powerfire TDS150
|
The KWB Powerfire operates on wood chips (G30/G50 in accordance with ONORM M7133) with up to 45 % water content, as well as wood pellets/ industrial pellets (dia=11mm) in accordance with ONORM M7135 or DIN Plus.
|
KWB Biomass Heating Systems
|
|
BBO32295
|
TDS 240 Multifuel
|
KWB Powerfire TDS240
|
The KWB Powerfire operates on wood chips (G30/G50 in accordance with ONORM M7133) with up to 45 % water content, as well as wood pellets/ industrial pellets (dia=11mm) in accordance with ONORM M7135 or DIN Plus.
|
KWB Biomass Heating Systems
|
|
BBO32296
|
TDS 300 Multifuel
|
KWB Powerfire TDS300
|
The KWB Powerfire operates on wood chips (G30/G50 in accordance with ONORM M7133) with up to 45 % water content, as well as wood pellets/ industrial pellets (dia=11mm) in accordance with ONORM M7135 or DIN Plus.
|
KWB Biomass Heating Systems
|
|
|
|
".
|
|
|
28. Part 3 of Schedule 2 of the Principal Order is amended by deleting the following:
|
|
|
"
|
|
|
|
Triple E Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
|
LIG9367
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T5-ZP-28
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T8/T5 Adapter 28W w Reflector
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Luminaire adaptor converting units with electromagnetic ballasts from T8/T12 fluorescent tubes (by use of electronic conversion units) to T5 fluorescent tubes.
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Scremir
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LIG9366
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T5-ZH-28
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T8/T5 Adapter 28W w/o Reflector
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Luminaire adaptor converting units with electromagnetic ballasts from T8/T12 fluorescent tubes (by use of electronic conversion units) to T5 fluorescent tubes.
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Scremir
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LIG9365
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T5-ZP-21
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T8/T5 Adapter 21W
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Luminaire adaptor converting units with electromagnetic ballasts from T8/T12 fluorescent tubes (by use of electronic conversion units) to T5 fluorescent tubes.
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Scremir
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LIG9364
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T5-ZH-21
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T8/T5 Adapter 21W w/o Reflector
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Luminaire adaptor converting units with electromagnetic ballasts from T8/T12 fluorescent tubes (by use of electronic conversion units) to T5 fluorescent tubes.
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Scremir
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LIG9363
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T5-ZP-14
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T8/T5 Adapter 14W w Refelctor
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Luminaire adaptor converting units with electromagnetic ballasts from T8/T12 fluorescent tubes (by use of electronic conversion units) to T5 fluorescent tubes.
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Scremir
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LIG9362
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T5-ZH-14
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T8/T5 Adapter 14W w/o Reflector
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Luminaire adaptor converting units with electromagnetic ballasts from T8/T12 fluorescent tubes (by use of electronic conversion units) to T5 fluorescent tubes.
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Scremir
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LIG9369
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T5-XP-35
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T8/T5 Adapter 35W w Reflector
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Luminaire adaptor converting units with electromagnetic ballasts from T8/T12 fluorescent tubes (by use of electronic conversion units) to T5 fluorescent tubes.
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Scremir
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LIG9368
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T5-X1-35
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T8/T5 Adapter 35W w/o Reflector
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Luminaire adaptor converting units with electromagnetic ballasts from T8/T12 fluorescent tubes (by use of electronic conversion units) to T5 fluorescent tubes.
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Scremir
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".
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29. Part 4 of Schedule 2 of the Principal Order is amended by deleting the following:
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"
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Triple E Code
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Product Code
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Product Name
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Short Description
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Manufacturer
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LCO30306
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DIN-INT-CI-08
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eDIN input/output module
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An eight channel adaptable input/output which can be configured to accept 0-10v, DSI or switched contact as inputs or provide 0-10v, DSI or DMX outputs
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Mode Lighting Ltd.
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".
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30. Part 6 of Schedule 2 of the Principal Order is amended by deleting the following:
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"
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Triple E Code
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Product Code
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Product Name
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Short Description
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Manufacturer
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ESE31538
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R910 X7560
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PowerEdge R910 X7560
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4S, 4U Rack, 64 DIMMS, 16 HDDs, 10 PCI, 4 LOMS (2 x 10GB), Intel X7560 processor
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Dell
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".
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The Minister for Finance approves the making of the foregoing Order.
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GIVEN under my Official Seal
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18 October 2010
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BRIAN LENIHAN,
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Minister for Finance.
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GIVEN under my Official Seal,
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20 October 2010.
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EAMON RYAN,
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Minister for Communications, Energy and Natural Resources.
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EXPLANATORY NOTE
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(This note is not part of the Instrument and does not purport to be a legal interpretation)
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The effect of this Order is to update, in accordance with the provisions of section 285A of the section 46 of the Finance Act 2008 ), those energy efficient products whose capital cost will be eligible for accelerated capital allowances and to update the energy efficiency criteria used to determine eligibility for inclusion on those product lists.
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The Accelerated Capital Allowance Scheme will involve quarterly updates to those product lists.
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1Initial lumens measured after 100 hours operation.
2 Some fluorescent lamps are labelled and branded with the wattage (power) consumed when operated on standard 50Hz (i.e. not high-frequency) control gear. When operated on high-frequency control gear the watts consumed are less.
3Hydrofluorocarbon
4Hydrocarbon
5Pan size as per Gastronorm
6S.I. No. 341/2005 - Waste Management (Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment) Regulations 2005 as amended by S.I. No. 376/2008 - Waste Management (Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment)(Amendment) Regulations 2008.
7S.I. No. 340/2005 - Waste Management (Waste Electrical and Electronic Equipment) Regulations 2005 as amended by S.I. No. 375/2008 - Waste Management (Waste Electrical and Electronic Equipment) (Amendment) Regulations 2008.
8S.I. No. 341/2005 - Waste Management (Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment) Regulations 2005 as amended by S.I. No. 376/2008 - Waste Management (Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment)(Amendment) Regulations 2008.
9S.I. No. 340/2005 - Waste Management (Waste Electrical and Electronic Equipment) Regulations 2005 as amended by S.I. No. 375/2008 - Waste Management (Waste Electrical and Electronic Equipment) (Amendment) Regulations 2008.
10S.I. No. 341/2005 - Waste Management (Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment) Regulations 2005 as amended by S.I. No. 376/2008 - Waste Management (Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment)(Amendment) Regulations 2008.
11S.I. No. 340/2005 - Waste Management (Waste Electrical and Electronic Equipment) Regulations 2005 as amended by S.I. No. 375/2008 - Waste Management (Waste Electrical and Electronic Equipment) (Amendment) Regulations 2008.
12S.I. No. 341/2005 - Waste Management (Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment) Regulations 2005 as amended by S.I. No. 376/2008 - Waste Management (Restriction of Certain Hazardous Substances in Electrical and Electronic Equipment)(Amendment) Regulations 2008.
13S.I. No. 340/2005 - Waste Management (Waste Electrical and Electronic Equipment) Regulations 2005 as amended by S.I. No. 375/2008 - Waste Management (Waste Electrical and Electronic Equipment) (Amendment) Regulations 2008.
14Physical to Virtual is often termed P2V.
15The 80 PLUS performance specification requires multi-output power supplies in computers and servers to be 80% or greater energy-efficient at 20%, 50% and 100% of rated load with a true power factor of 0.9 or greater.
16The Energy Star compliance certification for external power supply is issued by the United Stated Environmental Protection Agency (EPA) in recognition of a product's compliance with defined efficiency levels as set out in the relevant EPA specification for external power supplies.
17As per ECR Specification V2.1.1
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