| |
Notice of the making of this Statutory Instrument was published in
|
| |
“Iris Oifigiúil” of 2nd October, 2009.
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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. 2) Order 2009.
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(2) The collective citation, “the Taxes Consolidation Act 1997 (Accelerated Capital Allowances for Energy Efficient Equipment) Orders 2008 and 2009”, includes this Order.
|
| |
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. The Principal Order is amended by substituting for Schedule 1 the following:
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“SCHEDULE 1
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Energy Efficiency Criteria
|
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Part 1
|
| |
Category: Motors and Drives
|
| |
Technology: Motors
|
| |
Motor — An asynchronous electric motor with a power rating of 1.1kW or greater, either standalone or as part of other equipment, meeting a specified efficiency standard.
|
| |
High efficiency 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 and friction losses).
|
| |
Motor Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, a motor must meet all of 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.
|
AC induction motor with rated shaft output greater than 1.1 kW.
|
2.
|
Meet the efficiency requirements listed on Table 1. according to IEC 60034-2 “Rotating Electrical machines — Standard methods for determining losses and efficiency from tests”, or scientific equivalent.
|
3.
|
Equipment must be CE Marked.
|
4.
|
Appropriate operating & maintenance manuals must be available to the end-user in order to optimise the achievement of any potential energy efficiency gains.
|
|
| |
Table 1: Minimum Efficiency Criteria for Motors
|
| |
|
| |
Notes:
|
| |
1. Minimum efficiencies for 2 and 4 pole motors in the range 1.1kW to 90kW are equivalent to CEMEP EFF1 class. Motors in the range >90kW to 400 kW are as per the proposed IEC 60034-30 classification.
|
| |
2. For motors with more than 4 poles, the minimum efficiency criteria for 4-pole motors above shall apply.
|
| |
3. Motors must be tested in accordance with IEC 60034-2.
|
| |
4. Where a particular motor size is not listed, the required minimum efficiency level for the next size up must be met.
|
| |
5. IEC efficiency classification is currently in draft form. IE3 level is defined as Premium Efficiency
|
| |
6. Testing for motors above 400 kW must be certified by a body qualified and approved to test to IEC 60034-2 classification or equivalent. There is currently no prescribed efficiency requirement which must be achieved for motors above 400 kW. However, the results of such certification must be to the reasonable satisfaction of Sustainable Energy Ireland. Sustainable Energy Ireland may have regard, in this respect, to the prescribed standards for smaller motors set out in Table 1, prevalent or proposed standards for motors of that type and size.
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| |
Part 2
|
| |
Category: Motors and Drives
|
| |
Technology: Variable Speed Drives
|
| |
Variable speed drive: A drive that is specifically designed to drive an AC induction motor in a manner that rotates the motor’s drive shaft at a variable speed dictated by an external signal.
|
| |
Typically a Variable Speed Drive (VSD) is a system that uses an external signal to control the rotational speed and torque of an AC induction motor by adjusting the frequency of the power supplied to the motor.
|
| |
VSD Eligibility Criteria:
|
| |
In order to be included on the ACA Specified list, a VSD must meet all of the 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.
|
Drive is specifically designed to drive an AC induction motor in a manner that rotates the motor’s drive shaft at a variable speed dictated by an external signal.
|
2.
|
While in operation, the output from the VSD shall be able to be automatically matched to the changing motor load.
|
3.
|
The VSD must be able use an appropriate external control signal to vary it’s output frequency between 50% (or less) and 100% (or more) of the frequency of the alternating current supply with reference to real-time load conditions.
|
4.
|
Functionality must be capable of being programmed by the user during the commissioning process without recourse to specialist equipment. In the event that specialist software is required it must be provided as part of the contract of sale.
|
5.
|
The VSD shall comply with and have been tested according to IEC 61800-3 “Adjustable Speed Electrical Power Drive Systems Part 3: EMC Requirements and Specific Test Methods”, or scientific equivalent.
|
6.
|
Appropriate operating & maintenance manuals must be available to the end-user in order to optimise the achievement of any potential energy efficiency gains.
|
7.
|
Training: For units above 15kW, appropriate training must be available to the end-user, such that the end user can run the system in an energy efficient manner.
|
|
| |
Part 3
|
| |
Category: Lighting
|
| |
Technology: Lighting
|
| |
Energy Efficient lighting — lighting units, comprising fittings, lamps, and associated control gear, that meet specified efficiency criteria.
|
| |
Lighting Unit definition
|
| |
|
| |
Fig. 1 — Three components of a lamp for the purpose of measuring efficiency.
|
| |
Lighting Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, energy efficient Lighting must meet all of the relevant 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.
|
| |
A) Lighting units must include the three elements required for efficient light output: lamp, electronic control gear, and lamp fitting (see fig. 1). Lighting Units must comply with condition 1 and 2.
|
| |
B) Lighting gear (electronic ballasts) sold independently of lighting units must comply with condition 3.
|
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C) LED products must comply with condition 4.
|
| |
General: All specified equipment must be CE marked as appropriate.
|
| |
|
| |
A) Lighting Units Criteria
|
| |
Condition 1 — Photometric performance
|
| |
The photometric data of the light fittings (Luminaires) must have been measured and tested in accordance with EN 13032-1 and 2 “Light and lighting — Measurement and presentation of photometric data of lamps and Luminaires”
|
| |
— 1: “Measurement and file format”,
|
| |
and
|
| |
— 2: “Presentation of data for indoor and outdoor workplaces”
|
| |
, or scientific equivalent.
|
| |
Condition 2 — Efficiency Criteria
|
| |
The minimum efficiency criteria required for lighting units are outlined in Table 1. These criteria cover High pressure Sodium lamps, Metal Halide lamps, Linear Fluorescent lamps, triphosphor CFL lamps, and Induction lamps.
|
| |
The calculation takes into account the efficiency of the lamps (Lumens per Watt), the power drawn by the control gear (measured in Watts), and the efficacy of the fitting in redirecting the light (Light Output Ratio, LOR) 1
. The output figure is Luminaire Lumens per circuit Watts (ll/cW).
|
| |
Table 1: Minimum efficiencies table for lighting units.
|
| |
Luminaire Lumens per circuit Watts(ll/cW):
|
Minimum ll/cW
|
Units incorporating high-pressure sodium lamps
|
80
|
Units incorporating metal halide lamps
|
65
|
Units incorporating linear fluorescent lamps with associated electronic control gear integrated into fitting (luminaire)
|
50
|
Units incorporating triphosphor compact fluorescent lamps (CFL) with associated electronic control gear integrated into fitting (luminaire)
|
45
|
Units incorporating Induction lamps with external gear
|
45
|
|
| |
B) Lighting Gear (Ballasts)
|
| |
Condition 3
|
| |
Lighting Gear (ballasts) sold independent of Lighting Units must consist of the following:
|
| |
a) Luminaire adaptors converting units with electromagnetic ballasts from T8 or T12 fluorescent tubes (by the use of electronic conversion units) to T5 fluorescent tubes.
|
| |
and / or
|
| |
b) Electronic high frequency (20,000 Hz+) ballasts for gas discharge lamps. Where lamps are included with the ballast it must be demonstrated that these are required in order to achieve efficiency improvements.
|
| |
|
| |
C) LED products criteria
|
| |
Condition 4
|
| |
LED units comprising LED chip, optics, heatsink, and associated control driver must achieve:
|
| |
• L70 lifetime rating — i.e. maintain 70% of initial 2
lumens output after 35,000 hours of continuous operation
|
| |
and
|
| |
• A minimum of 40 Lumens per circuit Watt.
|
| |
Part 4
|
| |
Category: Lighting
|
| |
Technology: Lighting Controls
|
| |
Systems used to control lighting with the aim of optimising energy usage. These systems typically use intelligent timers, daylight sensing and/or occupancy sensing to control switching and/or dimming of lighting within different zones.
|
| |
Lighting Controls Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, a Lighting Control system must meet all of the relevant 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.
|
The lighting control system must operate automatically using sensors and/or timers to control lighting equipment based on real-time conditions.
|
2.
|
The system must use switching and/or dimming control.
|
3.
|
Adjustment of lighting levels using dimming controls must be matched to the lighting requirement as measured by sensors within the lighted area.
|
4.
|
Where non lighting control modules can be added to a system, these are not included in the product identified for the scheme.
|
5.
|
All equipment must be CE marked where appropriate.
|
|
| |
Part 5
|
| |
Category: Building Energy Management Systems (BEMS)
|
| |
Technology: Building Energy Management Systems (BEMS)
|
| |
Building Energy Management System (BEMS) are computer-based systems, designed to monitor and control building energy use with the aim of optimising energy efficiency and meeting specified efficiency standards.
|
| |
All components necessary to perform the energy saving function are included in the BEMS.
|
| |
|
| |
BEMS Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, a BEMS must meet all of the relevant conditions 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.
|
Be computer-based systems, designed to monitor and control building energy use, with the aim of optimising energy efficiency. This is taken to include systems that monitor energy and produce usage and trend data in sufficient detail to enable the user to fully control energy use.
|
2.
|
Primary inputs to the system must be energy use data and/or environmental conditions.
|
3.
|
The overall system must include a user interface.
|
4.
|
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.
|
5.
|
All equipment must be CE Marked where appropriate.
|
6.
|
Appropriate training must be available to the end-user, such that the end user can run the system in an energy efficient manner.
|
7.
|
Appropriate operating & maintenance manuals must be available to the end-user in order to optimise the achievement of any potential energy efficiency gains.
|
|
| |
Part 6
|
| |
Category: Information and Communications Technology (ICT)
|
| |
Technology: Enterprise Servers
|
| |
An Enterprise Server is defined as a computer that is especially designed to provide services and manage networked resources for client devices in a highly energy efficient manner. It is designed to respond to requests and is primarily accessed via network connections, and not through direct user input devices. Enterprise servers can be supplied with Virtualisation solutions installed to further increase server energy efficiency.
|
| |
|
| |
Enterprise Server Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, an Enterprise Server must meet all of 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.
|
Marketed and sold as an Enterprise Server.
|
2.
|
Designed for, and listed as, supporting Enterprise Server operating Systems and/or Hypervisors, and targeted to run user-installed enterprise applications.
|
3.
|
Be capable of remote power-down.
|
4.
|
Meet the relevant minimum performance to power ratios in Table 1, or scientifically equivalent measure.
|
5.
|
If a virtualisation solution is installed it must be capable of virtualising from a physical server to a virtual system 3
, automatically consolidating workloads and powering down unused equipment, and provisioning dynamically. The host physical server must be capable of accommodating a minimum of five virtual servers.
|
|
| |
Table 1: Minimum server performance to power ratios
|
| |
Server application
|
Minimum Ratio*
|
Performance at low utilisation of less than 30%.
|
> 350
|
Performance at moderate utilisation of 30% or greater, but less than 70%.
|
> 800
|
Performance at high utilisation of 70% or greater.
|
> 1050
|
|
| |
* Performance to Power Ratio:
|
| |
The ratio is based on the Standard Performance Evaluation Corporation (SPEC) industry standard benchmark performance test, SPECpower— ssj2008. Under this test the energy use of a 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 overleaf:
|
| |
• Performance to power ratio measured at low utilisation= Σ ssjops(0%+10%+20%) / Σ power (0%+10%+20%)
|
| |
• Performance to power ratio measured at moderate utilisation= Σ ssjops(40%+50%+60%) / Σ power (40%+50%+60%)
|
| |
• Performance to power ratio measured at high utilisation= Σ ssjops(80%+90%+100%) / Σ power (80%+90%+100%)
|
| |
Where:
|
| |
• ssjops = Workload at the specified utilisation level.
|
| |
• Power = Energy consumed in Watts at specified utilisation level.
|
| |
Part 7
|
| |
Category: Information and Communications Technology (ICT)
|
| |
Technology: Enterprise Storage
|
| |
Enterprise Storage equipment is defined as a storage device specifically designed to achieve very high levels of energy efficiency. A storage device is defined as an array of disks which consist of fast access iSCSI/Fibrechannel disks and/or larger and slower SATA disks.
|
| |
Enterprise Storage equipment is considered to include the following:
|
| |
Solid State Drive Storage
|
| |
A Solid State Drive storage unit is typically made up of solid-state electronics rather than electromechanical devices.
|
| |
Disk Drive Storage
|
| |
A Disk Drive storage unit is where data is recorded on planar, round and rotating surfaces.
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA Specified List, the specific Enterprise Storage equipment must meet all of the relevant 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.
|
| |
General Eligibility Criteria
|
| |
(Applicable to all Enterprise Storage Types)
|
| |
No.
|
Condition
|
1.
|
Be supplied with management software capable of two of the following:
A. Data de-duplication, data compression or single instancing
B. Thin/Virtual Provisioning
C. Array Virtualisation
|
2.
|
Must form part of one of the following enterprise storage solutions:
A. Storage Area Network (SAN)
B. Direct Attached Storage (DAS)
C. Network Attached Storage (NAS)
|
|
| |
Solid State Drive Storage Specific Eligibility Criteria
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
3.
|
Must be designed to form part of an enterprise storage solution and have a minimum storage capacity of 120 Gb.
|
|
| |
Disk Drive Storage specific Eligibility Criteria
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
4.
|
Be capable of intelligent power-down, and drive spin-down or slow spin (MAID 2/IPM).
|
5.
|
Have a disk tiering strategy capable of supporting storage media with multiple power / capacity points with a factor of at least 2X between the slowest and fastest.
|
|
| |
Part 8
|
| |
Category: Information and Communications Technology (ICT)
|
| |
Technology: Precision Cooling
|
| |
ICT Precision Cooling is defined as equipment that is designed to efficiently and effectively remove heat from enterprise IT equipment. This includes the most efficient cooling units and ancillary items designed to provide direct cooling and aid heat removal from IT rooms and cabinets.
|
| |
ICT Precision Cooling equipment is considered to include the following:
|
| |
Refrigerant based equipment—
|
| |
Computer Room Air Conditioners
|
| |
Computer Room Air Conditioners (CRAC) are up-flow and down-flow units that use a refrigerant supply from an outside condenser and provide overall area cooling. CRAC and applicable condensers are appraised as a system and can include relevant containment equipment 4
.
|
| |
Cooling Modules and Coolant Distribution Units (CDU)
|
| |
Cooling Modules are units designed to provide localised cooling and may be connected directly, or via a CDU, to an outside condenser supplying the refrigerant. A CDU is a circulation system that is designed to distribute coolant to cooling modules. Refrigerant based Cooling Modules are appraised as a system which can include CDU and outside condensers.. All units can include relevant containment equipment.
|
| |
Water based equipment—
|
| |
Computer Room Air Handlers
|
| |
Computer Room Air Handlers (CRAH) are up-flow and down-flow units that use a chilled water supply from a separate liquid chilling package to provide overall area cooling. CRAH are appraised as individual units and can include relevant containment equipment.
|
| |
Cooling Modules and Coolant Distribution Units (CDU)
|
| |
Cooling Modules are units designed to provide localised cooling and may be connected directly, or via a CDU, to a chilled water system. A CDU is a circulation system that is designed to distribute coolant to cooling modules. Water based Cooling Modules are appraised as a complete system which can include applicable CDU. All units can include relevant containment equipment.
|
| |
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA Specified List, the specific Precision Cooling equipment must meet all of the relevant 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.
|
| |
General Eligibility Criteria
|
| |
(Applicable to all Precision Cooling equipment)
|
| |
No.
|
Condition
|
1.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
2.
|
Relevant equipment must meet the cooling performance criteria, measured by the Energy Efficiency Ratio (EER) of the unit at 100% (full load) capacity, as indicated in Table 1.
|
3.
|
Relevant equipment must have a Sensible Heat Ratio, obtained according to EN14511 and the test conditions stipulated therein and below, greater than or equal to 0.9.
|
4.
|
Each system must include the following optimisation functions:
• Optimise operating parameters to match changes in load requirements
• Where applicable, be capable of communicating with other control and cooling equipment for the purposes of system optimisation.
|
|
| |
CRAC specific Eligibility Criteria:
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
5.
|
Compressors must have Variable Speed Drive control.
|
6.
|
EER values must be obtained according to appropriate test conditions included in EN14511 & EN14511-2 Table 4 “Standard Rating Conditions, Close Control”, or scientific equivalent, as follows:
• Indoor Unit — Air entering 24°C Dry Bulb, 17°C Wet Bulb.
• Outdoor Unit — Air entering 35°C Dry Bulb, 24°C Wet Bulb.
|
|
| |
CRAH specific Eligibility Criteria:
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
7.
|
EER values must be obtained according to appropriate test conditions included in EN14511 & EN14511-2 Table 6 & 8 “Standard Rating Conditions, Close Control” & Table 8 “Standard Rating Conditions, Water to Water”, or scientific equivalent, as follows:
• Indoor Unit — Air entering 24°C Dry Bulb, 17°C Wet Bulb.
• Indoor Unit — Water entering 7°C, leaving 12°C.
|
|
| |
Cooling Module & CDU specific Eligibility Criteria:
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
8.
|
A means of maintaining the temperature of coolant loops above the dew point temperature in order to prevent condensation.
|
9.
|
Compressors (if applicable) must have Variable Speed Drive control.
|
10.
|
For refrigerant based equipment, EER values must be obtained according to appropriate test procedures outlined in EN14511, or scientific equivalent, and for test conditions as follows:
• Cooling Module — Air entering 37°C Dry Bulb, 20°C Wet Bulb.
• Outdoor Unit — Air entering 35°C Dry Bulb, 24°C Wet Bulb.
Or
For water based equipment, EER values must be obtained according to appropriate test procedures outlined in EN14511, or scientific equivalent, and for test conditions as follows:
• Cooling Module — Air entering 37°C Dry Bulb, 20°C Wet Bulb.
• Cooling Module/CDU — Water entering 7°C, leaving 12°C.
|
|
| |
Table 1: Energy Efficiency Ratio (EER) requirements for cooling systems:
|
| |
Type
|
EER
|
CRAC
|
≥3
|
CRAH
|
≥20
|
Cooling Module and CDU — Refrigerant based
|
≥2.0
|
Cooling Module and CDU — Water based
|
≥20
|
|
| |
Where:
|
| |
|
| |
Part 9
|
| |
Category: Information and Communications Technology (ICT)
|
| |
Technology: Heat Rejection
|
| |
ICT Heat Rejection is defined as equipment that is designed to achieve very high operational cooling efficiencies, and which is used to transfer heat from ICT Precision Cooling equipment to the external atmosphere.
|
| |
ICT Heat Rejection equipment is considered to include the following:
|
| |
Air Cooled Liquid Chilling Packages
|
| |
Air Cooled Liquid Chilling Packages generate a chilled water supply loop for water based precision cooling equipment and can include an integral free cooling system.
|
| |
Water Cooled Liquid Chilling Packages
|
| |
Water Cooled Liquid Chilling Packages generate a chilled water supply loop for water based precision cooling equipment.
|
| |
Mechanical Draught Cooling Towers
|
| |
Forced and induced Mechanical Draught Cooling Towers are wet systems which transfer heat from Water Cooled Liquid Chilling Packages by means of fan induced air circulation and can be used (in suitable ambient conditions) in parallel with Air Cooled Liquid Chilling Packages as a free cooling system.
|
| |
Dry Air Coolers
|
| |
Dry Air Coolers transfer heat from Water Cooled Liquid Chilling Packages by means of fan induced air circulation and can be used (in suitable ambient conditions) in parallel with Air Cooled Liquid Chilling Packages as a free cooling system.
|
| |
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA Specified List, the specific ICT Heat Rejection equipment must meet all of the relevant 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.
|
| |
General Eligibility Criteria
|
| |
(Applicable to all ICT Heat Rejection equipment)
|
| |
No.
|
Condition
|
1.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
2.
|
Each system must include the following optimisation functions:
• Optimise operating parameters to match changes in load requirements
• Where applicable, be capable of communicating with other control and cooling equipment for the purposes of free cooling
|
|
| |
Liquid Chilling Packages specific Eligibility Criteria
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
3.
|
Meet the cooling performance criteria for the applicable Thermal Load Capacity, measured by the Energy Efficiency Ratio (EER) of the unit at 100% (full) load capacity, as indicated in Table 1.
and
the European Seasonal Energy Efficiency Ratio (ESEER), as indicated in Table 1.
|
4.
|
Air cooled EER values must be obtained according to the test procedure EN14511 and standard rating conditions EN14511-2 Table 10 “Standard rating conditions, Water”, or scientific equivalent, as follows:
• Outdoor Unit — Water entering 12°C, leaving 7 °C
• Outdoor Unit — Air entering 35°C Dry Bulb
|
5.
|
Water cooled EER values must be obtained according to the test procedure EN14511 and standard rating conditions EN14511-2 Table 8, or scientific equivalent, as follows:
• Outdoor Unit — Chilled Water Side — Water entering 12°C, leaving 7°C
• Outdoor Unit — Heat Rejection Side — Water entering 30°C, leaving 35 °C
|
6.
|
Air and water cooled ESEER values must be according to the test procedure EN14511, or scientific equivalent, and the rating conditions as indicated in Table 2, to follow.
|
|
| |
Table 1: Minimum cooling performance values
|
| |
Type
|
Thermal Load Capacity (kW)
|
EER
|
ESEER
|
Air Cooled Liquid Chilling Package
|
100 to 1500
|
≥2.7
|
≥4.25
|
Water Cooled Liquid Chilling Package
|
100 to 3500
|
≥4.65
|
≥6.55
|
|
| |
Notes:
|
| |
Energy Efficiency Ratio (EER) is calculated as follows:
|
| |
EER=Net rejection capacity (kW) / Effective power input (kW) in cooling mode
|
| |
European Seasonal Energy Efficiency Ratio (ESEER) is calculated as follows:
|
| |
ESEER=A*EER100% + B*EER75% + C*EER50% + D*EER25%
|
| |
With the following weighting coefficients:
|
| |
A=0.03; B = 0.33; C = 0.41; D = 0.23
|
| |
Table 2: ESEER test conditions
|
| |
Part Load Ratio
|
Air temperature (°C)
|
Water temperature (°C)
|
Weighting coefficients
|
100
|
35
|
30
|
3.00%
|
75
|
30
|
26
|
33.00%
|
50
|
25
|
22
|
41.00%
|
25
|
20
|
18
|
23.00%
|
|
| |
Part 10
|
| |
Category: Information and Communications Technology (ICT)
|
| |
Technology: Centralised Direct Current Power Distribution
|
| |
ICT Centralised Direct Current (DC) Power Distribution is defined as equipment that converts utility power from alternating current (AC) to direct current, with the purpose of eliminating the requirement for individual IT components to have their own AC/DC conversion transformers. Efficient Centralised DC Power Distribution equipment is seen as the initial required component of an overall advanced ICT electrical management system.
|
| |
|
| |
Centralised DC Power Distribution Equipment Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, Centralised DC Power Distribution equipment must meet all of 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.
|
Have a minimum rated output of 3kW at specified Voltage.
|
2.
|
Have a facility for the import of DC electrical power from a separate external source (e.g. a renewable source or battery storage)
|
3.
|
Have an efficiency of 96% at 50% (or greater) of rated output.
|
4.
|
Have “No Load” losses of maximum 5%.
|
5.
|
Operate in the Voltage output range —575V DC to —48V DC (+/- 10%).
|
6.
|
Have integrated facility and components (input, output and switching) to allow load switching control
|
7.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
| |
Part 11
|
| |
Category: Information and Communications Technology (ICT)
|
| |
Technology: Power Management
|
| |
ICT Power Management is defined as a system that provides monitoring, analysis, reporting and management tools to allow end users to manage and rationalise the power usage of IT equipment and resources with the aim of achieving optimal energy efficiency.
|
| |
Power management equipment is considered to include the following:
|
| |
Power monitoring
|
| |
Power monitoring is switchboard metering for individual circuits, including performance analysis, failure alarm and overheat sensing — status monitoring & reporting.
|
| |
Remote power switching
|
| |
Remote Power Switching equipment consists of intelligent power distribution units typically for use within IT server cabinets. These power boards can be remotely switched by computer software.
|
| |
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA Specified List, the specific Power Management system must meet all of the relevant 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.
|
| |
Power monitoring specific Eligibility Criteria:
|
| |
No.
|
Condition
|
1.
|
Automatic collection and collation of data at regular intervals.
|
2.
|
Automatic identification of data collection failures, missing data and the failure of communication to any sensing device.
|
3.
|
Automatic notification where device electrical consumption is outside selected value.
|
4.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
| |
Remote power switching specific Eligibility Criteria:
|
| |
No.
|
Condition
|
5.
|
Allow selectable transfer between pre-defined operating modes.
|
6.
|
User selectable interface to remotely signal actuators for the purpose of controlling loads.
|
7.
|
Signalling capability back to monitoring device indicating the actuator state.
|
8.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
| |
Part 12
|
| |
Category: Information and Communications Technology (ICT)
|
| |
Technology: Uninterruptible Power Supply
|
| |
An ICT Uninterruptible Power Supply (UPS) is defined as energy efficient equipment which provides uninterrupted, regulated power from a separate source when utility power fails or falls outside predetermined parameters. UPS is considered an important component of an overall advanced ICT Electrical Management system
|
| |
ICT UPS equipment is considered to include the following:
|
| |
Double Conversion UPS
|
| |
Double Conversion UPS is an online UPS involving AC/DC rectification and DC/AC inversion with online batteries used as the primary energy store.
|
| |
Delta Conversion UPS
|
| |
Delta Conversion UPS is an online UPS utilising AC/DC rectification, battery energy store and DC/AC inversion. A delta transformer is also integrated to provide part load to the output.
|
| |
Flywheel UPS
|
| |
A Flywheel UPS uses a flywheel as an energy store. The flywheel provides energy until a secondary source of energy comes on line.
|
| |
|
| |
UPS Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, UPS equipment must meet all of the relevant 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.
|
Must incorporate AC / DC Inversion.
And
Double and Delta Conversion UPS must additionally incorporate AC / DC Rectification.
|
2.
|
Must have Integrated Filtering and Static Bypass.
And
Delta conversion UPS must additionally have a Delta Transformer.
|
3.
|
Must meet the minimum efficiency requirements set out in table 1.
|
4.
|
Must comply with EN 62040-3 “Uninterruptible Power Systems (UPS) Method of specifying the performance and test requirements”, or scientific equivalent.
|
5.
|
Must have a control system for transmitting and receiving performance data.
|
6.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
| |
Table 1 — UPS minimum efficiency requirements
|
| |
UPS Type
|
Efficiency @ 25% — 49% of rated full load (%)
|
Efficiency @ 50% — 100% of rated full load (%)
|
Double Conversion UPS
|
≥ 92%
|
≥ 95%
|
Delta Conversion UPS
|
≥ 92%
|
≥ 95%
|
Flywheel UPS
|
|
≥ 95%
|
|
| |
Part 13
|
| |
Category: Heating and Electricity Provision
|
| |
Technology: Co-generation
|
| |
Co-generation is defined as highly energy efficient equipment which can simultaneously generate a combination of heat, cooling energy and usable electrical power in a single thermodynamic process and which is intended primarily for on-site use.
|
| |
Co-generation equipment is considered to include the following:
|
| |
Combined Heat and Power
|
| |
Combined Heat and Power (CHP) is the simultaneous generation of heat and power in a single process.
|
| |
Tri-generation
|
| |
Tri-generation is the simultaneous generation of heat, cooling and power in a single process whereby the cooling effect is obtained through the CHP generated heat by means of an absorption chiller.
|
| |
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA Specified List, the specific Co-generation equipment must meet all of the relevant 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.
|
| |
General Co-generation Eligibility Criteria
|
| |
(Applicable to all Co-generation equipment)
|
| |
No.
|
Condition
|
1.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
2.
|
Appropriate operating and maintenance manuals must be available for the end-user as part of the main contract of sale in order to optimise the achievement of any potential efficiency improvements.
|
|
| |
CHP specific Eligibility Criteria:
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
3.
|
The CHP unit must be a packaged unit with the power generation section and heat recovery section contained within a single enclosure, and should consist of a single prime mover.
|
4.
|
Units must have a minimum overall efficiency (thermal + electricity) greater than or equal to 80%.
|
5.
|
The unit must have installed software to record levels of electricity and heat generated over a running period.
|
6.
|
The CHP Unit must include one main heat output system i.e. a system recovering heat from the prime mover and the exhaust gasses, and must have no inbuilt facility to dump heat.
|
7.
|
Must comply with IEC 60034-1 “Rotating electrical machines — Rating and performance”, or scientific equivalent.
and
Reciprocating engine CHP units must also comply with ISO 3046-1“Reciprocating internal combustion engines — Performance — Part 1: Declarations of power, fuel and lubricating oil consumptions, and test methods — Additional requirements for engines for general use”, or scientific equivalent.
|
|
| |
Tri-generation specific Eligibility Criteria:
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
8.
|
The heat & power element of the Trigeneration system must comply with the eligibility criteria for CHP units.
|
9.
|
The Absorption chiller must use the CHP heat source as its primary energy input. (The chiller should be an “indirect fired” Absorption chiller).
|
10.
|
The Absorption chiller must have a minimum COP of 0.6
|
11.
|
The Absorption chiller must meet and be tested according to the standard ARI (ANSI/ARI) 560-2000 “Absorption Water Chilling and Water Heating Packages”, or scientific equivalent.
|
12.
|
The units must have installed software to record levels of cooling achieved.
|
|
| |
Part 14
|
| |
Category: Heating and Electricity Provision
|
| |
Technology: Wind Turbines
|
| |
A wind turbine is defined as advanced equipment which converts the winds kinetic energy into rotary mechanical energy, which is then used for electricity generation primarily for on-site use.
|
| |
A Wind Turbine must always contain the turbine and supporting structure, the primary element, but may also comprise of a package, containing ancillary equipment, namely:
|
| |
• Electrical management and/or control systems
|
| |
• Energy storage system
|
| |
provided these meet the relevant conditions listed below.
|
| |
|
| |
Wind Turbine Eligibility Criteria:
|
| |
In order to be included on the ACA Specified list, a Wind Turbine must meet all of 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 have a rating of greater than 5kW
|
2.
|
The wind turbine must comply with, and have been tested according to, the appropriate European standard(s), or scientific equivalent, applicable to its size and type.
|
3.
|
Inverters must be at least 90% efficient and comply with the appropriate European standard(s), or scientific equivalent, applicable to the connection interface type.
|
4.
|
Energy storage must have a charging efficiency of at least 75% and comply with the appropriate European standard(s), or scientific equivalent, applicable to the storage method chosen.
|
5.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
6.
|
Appropriate operating and maintenance manuals must be available for the end-user as part of the main contract of sale in order to optimise the achievement of any potential efficiency improvements.
|
|
| |
Part 15
|
| |
Category: Heating and Electricity Provision
|
| |
Technology: Hot Water Generation
|
| |
Hot Water Generation is defined as advanced equipment which provides heating and/or hot water primarily for on-site use.
|
| |
Hot Water Generation equipment is considered to include the following:
|
| |
Direct Hot Water Heaters
|
| |
Direct Hot Water Heaters combust fuel to provide hot water on demand, whereby the water used is heated directly by the boiler. They also have the facility to recover heat from the flue gases to maximise the heat output from the boiler.
|
| |
Closed Loop Hot Water Heaters
|
| |
Closed Loop Hot Water Heaters combust fuel to provide heating, whereby the delivery medium is a closed loop hot water system which can also indirectly heat water for on-site use. The equipment consists of the boiler and/or burner.
|
| |
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA Specified List, the specific Hot Water Generation equipment must meet all of the relevant 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.
|
| |
General Eligibility Criteria
|
| |
(Applicable to all Hot Water Generation equipment)
|
| |
No.
|
Condition
|
1.
|
Condensing only.
|
2.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
| |
Direct Hot Water Heaters specific Eligibility Criteria:
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
3.
|
Net Thermal Efficiency tested at full load:
• Storage & non-storage instantaneous types must be ≥ 102%
• Non storage circulator types must be ≥ 93%
|
4.
|
• Gas condensing water heaters must comply with all the requirements in the standard EN 89 “Gas-fired storage water heaters for the production of domestic hot water”, or scientific equivalent.
• Gas condensing water heaters with atmospheric burners must comply with EN 26/A1 “ Gas-fired instantaneous water heaters for sanitary uses production, fitted with atmospheric burners (Including Corrigendum 1998)”, or scientific equivalent.
|
5.
|
Modulating output — non-storage types must have the capability to vary their hot water output in response to changes in water demand, without initiating a purge cycle.
|
6.
|
Balanced flue on units with a rated output less than 70kW.
|
|
| |
Closed Loop Hot Water Heaters specific Eligibility Criteria:
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
7.
|
Boilers <70kW rated output Seasonal Thermal Efficiency must be ≥ 93% (To be calculated according to S.I. No. 260/1994 as used in the Home-heating Appliance Register of Performance (HARP) database)
or
Boilers >70kW rated output Net Thermal Efficiency ≥ 93% (To be calculated as per — UK DTI Efficiency Requirements for Hot-water Boilers, Oct 1995)
|
8.
|
Must be tested in accordance with BS 845: Part 1 ‘Methods for assessing thermal performance of boilers for steam, hot water and high temperature heat transfer fluids — Part 1 Concise Procedure’, or scientific equivalent.
and
• Oil boilers must be tested in accordance with EN 304 “Heating boilers — Test code for heating boiler for atomising oil burners”, or scientific equivalent.
• Oil & gas shell boilers must comply with the acceptance tests set out in EN 12953-11 “Shell Boilers — Part 11: Acceptance tests”, or scientific equivalent.
• Oil & gas water tube boilers must comply with the acceptance tests set out in EN 12952-15 “Water-tube boilers and auxiliary installations. Acceptance tests”, or scientific equivalent.
• Combination boilers must also comply with “EN 625-Gas-fired central heating boilers —Specific requirements for the domestic hot water operation of combination boilers of nominal heat input not exceeding 70 kW”, or scientific equivalent.
|
9.
|
Incorporated burners must comply with Part 19 “Boiler Controls” eligibility criteria.
|
10.
|
Standing losses — 2% or less of boiler rated output.
|
|
| |
Part 16
|
| |
Category: Heating and Electricity Provision
|
| |
Technology: Localised Steam Generators
|
| |
Localised Steam Generators are defined as equipment that rapidly and efficiently produces pressurised steam on demand primarily for on-site use, by use of a cold water feed through the combustion of fuel in a burner.
|
| |
|
| |
Localised Steam Generators Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, a Localised Rapid Steam Generator must meet all of 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.
|
Minimum Net Thermal Efficiency of 90% at full load in accordance with BS 845: Part 1: ‘Methods for assessing thermal performance of boilers for steam, hot water and high temperature heat transfer fluids — Part 1 Concise Procedure’, or scientific equivalent.
|
2.
|
Localised rapid steam generators must comply with the acceptance tests set out in I.S. EN 12952-15 “Water-tube boilers and auxiliary installations. Acceptance tests”, or scientific equivalent.
|
3.
|
Standing losses — 2% or less of boiler rated output.
|
4.
|
Steam generation time (steaming rate) — maximum 8 minutes.
|
5.
|
Incorporated burners must comply with Part 19 “Boiler Controls” eligibility criteria.
|
6.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
| |
Part 17
|
| |
Category: Heating and Electricity Provision
|
| |
Technology: Stationary Fuel Cell Systems
|
| |
A Stationary Fuel Cell System is defined as an advanced non-mobile system which uses a fuel cell or fuel cells to efficiently generate electricity primarily for on-site use. A Fuel Cell is an electrochemical conversion device which converts a fuel (hydrogen or a hydrocarbon fuel) and an oxidant (air or pure oxygen) directly into electricity in the presence of an electrolyte.
|
| |
A Stationary Fuel Cell System must always contain one or more fuel cell modules, the primary element, but may also comprise of a package, containing ancillary equipment, namely:
|
| |
• Fuel processing system
|
| |
• Electrical management elements
|
| |
• Monitoring & Control elements
|
| |
provided these meet the relevant conditions listed below.
|
| |
|
| |
Stationary Fuel Cell Systems Eligibility Criteria:
|
| |
In order to be included in the ACA specified list a Stationary Fuel Cell System must meet all of 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.
|
Must have an electrical power rating of 5kW or greater.
|
2.
|
For a Fuel Cell System without heat recovery the minimum electrical efficiency must be greater than 35% at full load,
or
For a Fuel Cell System with heat recovery the minimum overall efficiency must be greater than 75% at full load,according to EN 62282-3-2 “Stationary Fuel Cell Power Systems — Performance Test Methods”, or scientific equivalent, and the efficiency must be based on the lower heating value (LHV) of fuels.
|
3.
|
Equipment must comply with EN 62282-3-1 “Stationary Fuel Cell Power Systems — Safety”, or scientific equivalent, and all relevant Irish and European regulations.
|
4.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
5.
|
Appropriate operating and maintenance manuals must be available for the end-user as part of the main contract of sale in order to optimise the achievement of any potential efficiency improvements.
|
|
| |
Part 18
|
| |
Category: Heating and Electricity Provision
|
| |
Technology: Photovoltaic Systems
|
| |
A Photovoltaic (PV) System is defined as an advanced system which efficiently converts solar energy into electrical energy primarily for on-site use.
|
| |
A Photovoltaic System must always contain one or more photovoltaic modules and supporting structure, the primary element, but may also comprise of a package, containing ancillary equipment, namely:
|
| |
• Tracker and/or Tracking mechanism
|
| |
• Solar-concentrator
|
| |
• Battery system
|
| |
• Electrical management and/or control systems
|
| |
provided these meet the relevant conditions listed below.
|
| |
|
| |
Photovoltaic Systems Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, a Photovoltaic System must meet all of the relevant 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.
|
Photovoltaic modules must comply with the relevant standards (design qualification and type approval), or scientific equivalent, and outputs specified in Table 1.
(Photovoltaic module output per m2 must be quoted in terms of Standard Test Conditions: Irradiance of 1000W/m2; spectrum AM 1.5G; cell temperature 25°C)
|
2.
|
Inverters must be at least 90% efficient and comply with the appropriate European standard(s), or scientific equivalent applicable to the connection interface type.
|
3.
|
Energy storage must have a charging efficiency of at least 75% and comply with the appropriate European standard(s)s, or scientific equivalent, applicable to the storage method chosen.
|
|
|
4.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
5.
|
Appropriate operating and maintenance manuals must be available for the end-user as part of the main contract of sale in order to optimise the achievement of any potential efficiency improvements.
|
|
| |
Table 1 — Minimum photovoltaic module outputs:
|
| |
Type
|
Standard
|
Minimum Peak Watt (Wp) output per m2
|
Crystalline silicon
|
EN 61215
|
110
|
Thin-film
|
EN 61646
|
30
|
|
| |
Part 19
|
| |
Category: Heating and Electricity Provision
|
| |
Technology: Boiler Controls
|
| |
Boiler Controls are defined as specifically designed equipment that maximise the energy efficiency of new and/or existing boiler and burner plant.
|
| |
Boiler Controls equipment is considered to include the following:
|
| |
Oxygen Trim Controls
|
| |
Oxygen trim controls which automatically monitor the oxygen or carbon monoxide concentration in boiler flue gases and vary the air and fuel supply to the burner to limit excess or low oxygen concentrations in the fuel/air mix.
|
| |
Burner Systems
|
| |
Burner systems are designed to provide boiler modulation and combustion control through the use of digital microprocessor based systems with the aim of optimising energy use. They include new burners with controls and retrofit burner control systems.
|
| |
Sequencers
|
| |
Boiler sequencer controls which optimise fuel usage by managing the firing sequence of different boilers to ensure that the most efficient boiler(s) are selected to match the prevailing load conditions.
|
| |
Metering
|
| |
Energy meters which can track boiler performance and report boiler system efficiency to the user.
|
| |
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA Specified List, the specific Boiler Controls equipment must meet all of the relevant 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.
|
| |
Oxygen Trim Controls specific Eligibility Criteria:
|
| |
No.
|
Condition
|
1.
|
• Equipment must contain the following elements:
• Electronic Oxygen (or Carbon Monoxide) sensor designed for fitting in the boiler flue near the boiler
• Boiler temperature or pressure sensor
• Actuated air supply control damper
• Actuated valve on fuel supply
• Control panel which takes a reading from the sensor and adjusts the air supply damper and fuel supply accordingly.
|
2.
|
Overall equipment to be accurate to minimum accuracy of ± 1% excess oxygen (“overall” refers to the “sum of errors” across the system)
|
3.
|
Must permit integration with burner management systems.
|
4.
|
Capability to output to BMS or other equivalent control system.
|
|
| |
Burner Systems specific Eligibility Criteria:
|
| |
No.
|
Condition
|
5.
|
Burners must have microprocessor based controls that are capable of continuously modulating burner output in response to measured temperature or pressure values over a turn-down ratio as appropriate below:
• Gas (≥ 1,200kW): ≥4 to 1
• Oil (≥ 1,200kW): ≥2.5 to 1
• Gas or dual fuel (<1,200kW): ≥3 to 1
• Oil (< 1,200kW): ≥2 to 1
Note: Turn-down ratio is a measure of the range within which the burner can be adjusted. Turn down of 4 to 1 indicates adjustment in the range 25% to 100%.
|
6.
|
Microprocessor must control the air/fuel ratio to limit Oxygen levels in exhaust gasses to the following levels:
• 3% O2 at 100% rated boiler output
• 4% O2 at 50% rated boiler output
|
7.
|
CO levels in the exhaust gases must be less than:
• 50 ppm for boilers ≥ 1,200kW
• 100 ppm for boilers < 1,200kW
|
8.
|
All valves and dampers to be fitted with precision servomotors.
|
9.
|
Burner must be fitted with an air damper which is fully closed on burner shutdown.
|
10.
|
All burner fans must be fitted with VSD control on the fan motor.
|
11.
|
Oil fired burners must comply with the performance criteria set out in IS EN 267, or scientific equivalent.
or
Gas fired burners must comply with the performance criteria set out in IS EN 676, or scientific equivalent.
|
|
| |
Sequencer specific Eligibility Criteria:
|
| |
No.
|
Condition
|
12.
|
The sequencer must be microprocessor based.
|
13.
|
Must use sensors to measure heating system flow and return temperatures.
|
14.
|
Must be able to control and isolate a minimum of two boilers.
|
15.
|
Must have the capability of storing and consulting individual control parameters for each connected boiler.
|
16.
|
Must select the appropriate boiler(s) based on the optimum efficiency of the whole system.
|
17.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
18.
|
Appropriate operating & maintenance manuals must be available to the end-user in order to optimise the achievement of any potential energy efficiency gains.
|
19.
|
Training: Appropriate training must be available to the end-user, such that the end user can run the system in an energy efficient manner.
|
|
| |
Metering specific Eligibility Criteria
|
| |
No.
|
Condition
|
20.
|
Meter must be microprocessor based.
|
21.
|
Meter must be designed to measure the appropriate boiler parameters (Flow, temperature pressure) and calculate the associated energy usage in kW and kWh.
|
22.
|
Equipment must be specifically for use with boiler or steam systems with a view to optimising boiler efficiency.
|
23.
|
Meters must be able to measure across a varying load profile (wide turndown range).
|
24.
|
• Meter output to have:Local display output.
• Output to BEMS or equivalent system
|
25.
|
Accuracy of equipment to be minimum 2%.
|
|
| |
Part 20
|
| |
Category: Heating and Electricity Provision
|
| |
Technology: Condensate Recovery Systems Eligibility Criteria
|
| |
Condensate Recovery Systems are defined as equipment which is specifically designed to efficiently recover condensate from steam installations in order to maximise their overall energy efficiency.
|
| |
Condensate Recovery Systems equipment is considered to include the following:
|
| |
Condensate Recovery Vessels
|
| |
Condensate recovery units are designed to handle hot condensate, which is commonly returned for use as boiler feedwater.
|
| |
Steam Traps
|
| |
Steam traps are devices which allow the discharge of condensate without allowing the release of steam from a steam & condensate installation.
|
| |
Deaeration Tanks
|
| |
Deaeration tanks remove oxygen and other dissolved gases from steam boiler feedwater to reduce corrosion and improve efficiency in the steam system.
|
| |
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA Specified List, the specific Condensate Recovery Systems equipment must meet all of the relevant 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.
|
| |
Condensate Recovery Vessels specific Eligibility Criteria:
|
| |
No.
|
Condition
|
1.
|
Must have low level, mid level & high level sensors in condensate recovery tank.
|
2.
|
Must have motorised valves on cold water feed & condensate return line
|
3.
|
Must include a control system which operates as follows:
• At high level, cold water feed is shut off & condensate is diverted to drain
• At mid level, cold water feed is shut off but condensate valve is open to allow condensate return to the tank
• At low level both the condensate return & the cold water feed valves are open to allow both to fill the tank.
|
|
| |
Steam Traps specific Eligibility Criteria:
|
| |
No.
|
Condition
|
4.
|
Steam trap must be one of those defined in EN 26704 “Classification of automatic steam traps”, or scientific equivalent.
And
Steam trap must be designed and manufactured in accordance with IS/EN 26948 “Production and performance characteristic tests for automatic steam traps”, or scientific equivalent.
|
5.
|
Must include Failure Monitoring:
• Failure sensor located in the steam trap or in suitable device adjacent to it;
• Output from sensor either to an intermediate device which communicates with a control system or directly to control system
• Output to BMS, DCS, Delta V or other equivalent control system.
|
|
| |
Deaeration Tanks specific Eligibility Criteria:
|
| |
No.
|
Condition
|
6.
|
Equipment must be capable of achieving a minimum dissolved oxygen concentration of 5 ppb by weight or less.
|
7.
|
Equipment must be rated for total removal of dissolved carbon dioxide.
|
8.
|
Low vent losses must be less than or equal to 22.4 kg/h of steam/air mixture per 1000 kg/h of deaerator capacity.
|
9.
|
Allow rapid load changes of boiler for which designed — minimum of 5% of boiler rating in 30 seconds.
|
10.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
| |
Part 21
|
| |
Category: Process and Heating, Ventilation and Air-conditioning (HVAC) Control Systems
|
| |
Technology: Steam Systems
|
| |
A Steam System is defined as equipment specifically designed to maximise the energy efficiency of a boiler and/ or a heating system as a whole.
|
| |
Steam Systems equipment is considered to include the following:
|
| |
Economisers
|
| |
Economisers are heat exchangers installed in steam boiler flues whose purpose is to recover heat from the flue gases and thereby increase the overall efficiency of the steam boiler system.
|
| |
TDS Boiler Blow-down Control
|
| |
A TDS (Total Dissolved Solids) Boiler Blow-down Control replaces manual or timed control with an automatic control based on the percentage of TDS in the steam. This reduces the number and frequency of boiler blow-downs which in turn saves energy on steam boiler systems.
|
| |
Flue Gas Shut off Damper
|
| |
Flue Gas Shut off Dampers are installed in steam boiler flues to restrict airflow through the flue and thereby prevent heat loss from the boiler during standby.
|
| |
|
| |
Eligibility Criteria Overview:
|
| |
In order to be included on the ACA Specified List, the specific Steam System equipment must meet all of the relevant 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.
|
| |
Economisers specific Eligibility Criteria:
|
| |
No.
|
Condition
|
1.
|
Thermal Efficiency
• Condensing: Minimum of 9% increase in the net boiler thermal efficiency for which it is designed
• Non-condensing: Minimum of 3% increase in the net boiler thermal efficiency for which it is designed
|
2.
|
Economiser performance must be measured using EN 308 “Heat exchangers — Test procedures for establishing performance of air to air and flue gases heat recovery devices”, or scientific equivalent.
|
3.
|
It must be declared what boiler fuel the economiser is suitable for use with.
|
|
| |
TDS Boiler Blow-down Control specific Eligibility Criteria:
|
| |
No.
|
Condition
|
4.
|
Must include Automatic control of boiler base blow-down valve in addition to manual bottom blow-down valve.
|
5.
|
Continuously monitor the % TDS level in boiler water at steam level
|
6.
|
Only allow blowdown when TDS concentration exceeds a minimum allowable level to maintain the TDS level below a set limit.
|
7.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
|
| |
Flue Gas Shut Off Damper specific Eligibility Criteria:
|
| |
No.
|
Condition
|
8.
|
Automatic control & operation. Damper to close after post combustion purge operation.
|
9.
|
Damper to be to gas tight in accordance with DIN 25 414 or scientific equivalent.
|
10.
|
Safety interlocks to be included to prevent boiler firing when damper is closed.
|
|
| |
Part 22
|
| |
Category: Process and Heating, Ventilation and Air-conditioning (HVAC) Control Systems
|
| |
Technology: Heating, Ventilation and Air Condition (HVAC) Zone Controls
|
| |
HVAC Zone Controls are defined as equipment specially designed to automatically control the amount of heating, cooling, ventilation and/or air conditioning that is supplied to defined areas within a building, known as zones, in an energy efficient manner.
|
| |
A HVAC Zone Control system must always contain one central module, the primary element, but may also comprise of a package, containing ancillary equipment, namely:
|
| |
• Sensors (Temperature, Humidity, Occupancy)
|
| |
• Calendar control
|
| |
• Actuators to drive valves or dampers
|
| |
• Multi-way valves
|
| |
provided these meet the relevant conditions listed below.
|
| |
|
| |
HVAC Zone Controls Eligibility Criteria
|
| |
In order to be included on the ACA Specified List, HVAC Zone Controls must meet all of the relevant 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.
|
Must have the ability to automatically control the level of heating and cooling which occurs in a zone and must ensure that simultaneous heating and cooling does not occur (unless required for humidity control).
|
2.
|
Sensors must be calibrated in accordance with EN ISO 17025:, or scientific equivalent.
|
3.
|
Must utilise indoor and outdoor environmental conditions to determine the amount of heating and cooling which is supplied.
|
4.
|
If a damper control is used it must automatically regulate the air mixing ratio to ensure the optimum fresh air condition is achieved.
|
5.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
6.
|
Appropriate operating and maintenance manuals must be available for the end-user as part of the main contract of sale in order to optimise the achievement of any potential efficiency improvements.
|
|
| |
Part 23
|
| |
Category: Process and Heating, Ventilation and Air-conditioning (HVAC) Control Systems
|
| |
Technology: Heating, Ventilation and Air-conditioning (HVAC) Heat Recovery
|
| |
HVAC Heat Recovery is defined as equipment which is specially designed to allow the energy efficient transfer of energy from one air stream to another in both heating and cooling applications.
|
| |
HVAC Heat Recovery equipment is considered to include the following:
|
| |
Run-around Coil heat exchangers
|
| |
A Run-around Coil heat exchanger transfers energy from an exhaust stream to a supply stream via an energy transfer medium circuit (usually water) connecting the two energy streams.
|
| |
Plate heat exchangers
|
| |
Plate heat exchangers comprise of a series of formed plates through which air or liquid streams are channelled in alternate flows. Energy is transferred between an exhaust and supply stream via the exchangers and an energy transfer circuit.
|
| |
Thermal Wheel heat exchangers
|
| |
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.
|
| |
_________________________________
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA specified list, the specific HVAC Heat Recovery equipment must satisfy all of the relevant 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.
|
| |
General HVAC Heat Recovery Eligibility Criteria
|
| |
(Applicable to all HVAC Heat Recovery equipment)
|
| |
No.
|
Condition
|
1.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
2.
|
All required performance values must be tested according to EN 308 “Heat exchangers — Test procedures for establishing performance of air to air and flue gases heat recovery devices”, or scientific equivalent.
|
|
| |
Run-around heat exchangers specific Eligibility Criteria
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
3.
|
A minimum rated heat exchanger coil efficiency of 50%
|
4.
|
A maximum air side pressure drop across an individual heat exchanger coil of 100 Pa.
|
5.
|
A maximum water side pressure drop across an individual heat exchanger coil of 25 kPa
|
|
| |
Plate Heat exchangers specific Eligibility Criteria
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
6.
|
A minimum rated efficiency of 50%
|
7.
|
A maximum pressure drop across the heat exchanger of 250 Pa
|
|
| |
Thermal Wheel heat exchangers specific Eligibility Criteria
|
| |
(To be met in addition to the general eligibility criteria)
|
| |
No.
|
Condition
|
8.
|
A minimum rated efficiency of 70%
|
9.
|
A maximum pressure drop across the heat exchanger component of 200 Pa.
|
|
| |
Part 24
|
| |
Category: Process and Heating, Ventilation and Air-conditioning (HVAC) Control Systems
|
| |
Technology: Pumps
|
| |
A high efficiency pump is defined as a machine designed for the energy-efficient on-site transfer of liquid, and which works by adding energy to the liquid by increasing its velocity and / or increasing its pressure, thus raising its kinetic (velocity) energy and/or potential (pressure) energy.
|
| |
_________________________________
|
| |
Pumps Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, a Pump must meet all of 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.
|
Must have a power rating greater than 1.1kW
|
2.
|
Must fall under one of the pump type categories as outlined in Table 1
|
3.
|
Must be tested in accordance with ISO 9906 grade 2., or scientific equivalent.
|
4.
|
Must have an efficiency level greater than that calculated using Equation 2 & 3, Table 2 and the appropriate C value specified for the specific pump type in Table 1
|
5.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
6.
|
Pump curve plots and appropriate operating & maintenance manuals must be available for the end-user as part of the main contract of sale in order to optimise the achievement of any potential efficiency improvements.
|
|
| |
Table 1: Eligible pump categories
|
| |
|
| |
|
| |
Where:
|
| |
C value = an efficiency correction factor which takes into account the fall off in efficiency when the pump is not operating at its exact “specific speed”.
|
| |
n = Rotational speed (rpm) P = Power (kW)
|
| |
n s = Pump specific speed (rpm) as calculated H = Head (m)
|
| |
Qbep = Flow at best efficiency point (m3/h)
|
| |
Table 2.: Relevant pump equations
|
| |
|
| |
Where:
|
| |
x = ln (ns) y = ln (Qbep)
|
| |
Qpl = 0.75 Qbep i = Number of stages
|
| |
Hbep = Head at best efficiency point (m) ηpl. = Efficiency at part load (%)
|
| |
Part 25
|
| |
Category: Process and Heating, Ventilation and Air-conditioning (HVAC) Control Systems
|
| |
Technology: Hydraulic Power Recovery Turbine (HPRT)
|
| |
A HPRT is defined as a device designed for the energy-efficient on-site transfer of liquid and such that it can operate in two modes of operation depending upon the physical flows of fluid required in a system:
|
| |
Mode 1 — Pump: Utilised to cause the hydraulic flow of a fluid, or increase the hydraulic flow of a fluid, typically water, in a system.
|
| |
Mode 2 — Turbine: Operates such that the system recovers some of the kinetic energy associated with the flow of a fluid in a circuit and harnesses this to drive a generator or other useful power requirement.
|
| |
|
| |
HPRT Eligibility Criteria:
|
| |
In order to be included on the Specified List, a HPRT must meet all of the requirements 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.
|
Be supplied complete with all required equipment to operate in the HPRT mode and be marked as a HPRT. This will include motor/ generator unit, pump/ turbine unit and associated control system and circuitry.
|
2.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
3.
|
Appropriate operating and maintenance manuals must be available for the end-user as part of the main contract of sale in order to optimise the achievement of any potential efficiency improvements.
|
|
| |
Part 26
|
| |
Category: Process and Heating, Ventilation and Air-conditioning (HVAC) Control Systems
|
| |
Technology: Blowers
|
| |
A blower is defined as a machine designed for the energy-efficient on-site transfer of gas in situations where its application will result in substantially lower energy usage compared to an air compressor used for the same application. A blower works by receiving energy from a rotating shaft and transmitting it to the air causing the air to move and can be used to produce positive pressures or alternatively negative pressures for industrial vacuum systems.
|
| |
|
| |
Blower Eligibility Criteria:
|
| |
In order to be included on the ACA specified list, a Blower must meet all of 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.
|
Must have a maximum discharge pressure of 1.2 kg/cm 2
|
2.
|
Must have a nominal input power rating of greater than 1.1kW.
|
3.
|
Must have a specific ratio (the ratio of discharge pressure over suction pressure) of greater than or equal to 1.11 and less than or equal to 1.2
|
4.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
5.
|
Appropriate operating and maintenance manuals must be available for the end-user as part of the main contract of sale in order to optimise the achievement of any potential efficiency improvements.
|
|
| |
Part 27
|
| |
Category: Process and Heating, Ventilation and Air-conditioning (HVAC) Control Systems
|
| |
Technology: Fans
|
| |
A fan is defined as a rotary bladed machine designed for the energy-efficient on-site transfer of gas, which works by receiving mechanical energy and utilising it by means of one or more impeller(s) fitted with blades to maintain a continuous flow of air or other gas passing through it and whose work per unit mass does not normally exceed 25 kJ/kg.
|
| |
Fan equipment is considered to include the following:
|
| |
Axial flow fan: A fan having a static pressure development with in-line entry and exit of the air.
|
| |
Centrifugal fan: A radial flow fan comprising an impeller where the direction of the entry air flow is vertical to the direction of the exit air flow
|
| |
Cross flow fan: A forward curved centrifugal fan with impeller of an increased axial length. The air entry to the casing is positioned on the scroll such that the air traverses the impeller
|
| |
|
| |
Fan Eligibility Criteria
|
| |
In order to be included on the ACA Specified List, a Fan must meet all of 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.
|
Have a power rating greater than 1.1kW.
|
2.
|
Must fall under one of the fan type categories and minimum energy performance requirements as outlined in Table 1., and comply with ISO 5801 “Industrial fans — Performance testing using standardized airways”, or scientific equivalent.
|
3.
|
All equipment and/or components must be CE marked as required by the specific EU directive(s).
|
4.
|
Fan curve plots, operating & maintenance manual must be available as part of the contract of sale in order to optimise the achievement of any potential energy savings.
|
|
| |
Table 2: Minimum overall fan energy performance requirements
|
| |
Type
|
Characteristics
|
Min Efficiency (%)
|
|
|
Power rating:1.1-500 kW
|
Axial flow fan
|
In line air flow.
|
3.9 *ln(Pel) + 41.1
|
Centrifugal fan
|
Forward with housing
|
3.9 *ln(Pel) + 46.1
|
|
Backward Curved Bladed Fan with and without housing
|
5.25 *ln(Pel) + 52.9
|
|
| |
Where:
|
| |
Pel = Electrical Power (kW)
|
| |
ln = Natural Log
|
| |
Part 28
|
| |
Category: Electric and Alternative Fuel Vehicles
|
| |
Technology: Electric Vehicles and Associated Charging Equipment
|
| |
An Electric Vehicle is defined as a vehicle covered under the EU vehicle categories set out in Table 1 and powered fully or partially by electricity. Associated Charging Equipment is accordingly defined as the equipment required to recharge the energy store of a full or partial electric vehicle.
|
| |
Electric Vehicles and Associated Charging Equipment is considered to include the following:
|
| |
Battery Electric Vehicle
|
| |
A Battery Electric Vehicle (BEV) is powered solely by electricity stored in batteries within the vehicle which need to be recharged by plugging into recharging points
|
| |
Hybrid Electric Vehicle
|
| |
A Hybrid Electric Vehicle (HEV) is a vehicle that derives its power from a combination of electricity stored in a battery and an internal combustion engine.
|
| |
Plug-in Hybrid Electric Vehicles
|
| |
Plug-in Hybrid Electric Vehicles (PHEV) operate similarly to conventional hybrid electric vehicles but the battery can also be recharged by plugging into recharging points.
|
| |
Electric Vehicle Charging Equipment
|
| |
Electric Vehicle Charging Equipment is the ancillary equipment necessary to recharge electric vehicles from an electricity point.
|
| |
|
| |
Eligibility Criteria Overview
|
| |
In order to be included on the ACA Specified List, the specific Electric Vehicles and/or Associated Charging Equipment must meet all of the relevant 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.
|
| |
Battery Electric Vehicle specific Eligibility Criteria:
|
| |
No.
|
Condition
|
1.
|
The vehicle must have an electric motor size >1kW.
|
2.
|
If charging equipment is included in the vehicle it must comply with the associated European standard(s), or scientific equivalent, applicable to its type.
|
3.
|
The vehicle must achieve a range of 60km before recharging.
|
|
| |
Hybrid and Plug-in Hybrid Electric Vehicles Specific Eligibility Criteria:
|
| |
No.
|
Condition
|
4.
|
The vehicle must have an electric motor size >1kW.
|
5.
|
If charging equipment is included in the vehicle it must comply with the associated European standard(s), or scientific equivalent, applicable to its type.
|
6.
|
Vehicle category M1 must achieve a CO2 emission of less than 120g/km (as determined by
S.I. No. 443 of 2000
).
|
7.
|
Light commercial vehicles from vehicle categories other then M 1 and up to 3,500kg must achieve a CO2 emission of less than 175g/km (as determined by
S.I. No. 443 of 2000
).
|
|
| |
Electric Vehicle Charging Equipment specific Eligibility Criteria:
|
| |
No.
|
Condition
|
8.
|
The equipment must comply with the appropriate European standard(s), or scientific equivalent, applicable to the type of charging equipment.
|
|
| |
Table 1: Definition of EU vehicle categories according to Directives 2002/24/EC and 2007/46/EC
|
| |
Category L — Mopeds, Motorcycles, Motor Tricycles and Quadricycles
|
| |
Category
|
Description
|
L1e
|
Two-wheel vehicles with a maximum design speed of not more than 45 km/h and characterised by an engine whose:
• maximum continuous rated power is no more than 4 kW in the case of an electric motor
|
L2e
|
Three-wheel vehicles with a maximum design speed of not more than 45 km/h and characterised by an engine whose:
• maximum continuous rated power does not exceed 4 kW in the case of an electric motor
|
L3e
|
Two-wheel vehicles without a sidecarfitted with an engine having a cylinder capacity of more than 50 cm3 if of the internal combustion type and/or having a maximum design speed of more than 45 km/h
|
L4e
|
Two-wheel vehicles with a sidecarfitted with an engine having a cylinder capacity of more than 50 cm3 if of the internal combustion type and/or having a maximum design speed of more than 45 km/h
|
L5e
|
Vehicles with three symmetrically arranged wheels fitted with an engine having a cylinder capacity of more than 50 cm3 if of the internal combustion type and/or a maximum design speed of more than 45 km/h
|
L6e
|
Quadricycles whose unladen mass is not more than 350 kg, not including the mass of the batteries in case of electric vehicles, whose maximum design speed is not more than 45 km/h, and
• whose maximum continuous rated power does not exceed 4 kW in the case of an electric motor.
These vehicles shall fulfil the technical requirements applicable to three-wheel mopeds of category L2e unless specified differently.
|
L7e
|
Quadricycles other than those referred to in category L6e, whose unladen mass is not more than 400 kg (550 kg for vehicles intended for carrying goods), not including the mass of batteries in the case of electric vehicles, and whose maximum net engine power does not exceed 15 kW. These vehicles shall be considered to be motor tricycles and shall fulfil the technical requirements applicable to motor tricycles of category L5e unless specified differently.
|
|
| |
Category M — Motor vehicles having at least four wheels and for the carriage of passengers
|
| |
Category
|
Description
|
M1
|
Vehicles for the carriage of passengers and comprising not more than eight seats in addition to the drivers seat
|
M2
|
Vehicles for the carriage of passengers, comprising more than eight seats in addition to the drivers seat, and having a maximum mass not exceeding 5 tonnes
|
M3
|
Vehicles for the carriage of passengers, comprising more than eight seats in addition to the drivers seat, and having a maximum mass exceeding 5 tonnes
|
|
| |
Category N — Power-driven vehicles having at least four wheels and for the carriage of goods
|
| |
Category
|
Description
|
N1
|
Vehicles for the carriage of goods and having a maximum mass not exceeding 3.5 tonnes
|
N2
|
Vehicles for the carriage of goods and having a maximum mass exceeding 3.5 tonnes but not exceeding 12 tonnes
|
N3
|
Vehicles for the carriage of goods and having a maximum mass exceeding 12 tonnes
|
|
| |
Part 29
|
| |
Category: Electric and Alternative Fuel Vehicles
|
| |
Technology: Alternative Energy Vehicle Conversions
|
| |
Alternative Energy Vehicle Conversions are defined as equipment used to convert an existing commercial diesel vehicle covered under the EU vehicle categories, as set out in Table 1, to operate on 100% bio-fuel.
|
| |
|
| |
Alternative Energy Vehicle Conversions Eligibility Criteria:
|
| |
In order to be included on the ACA Specified List, an Alternative Energy Vehicle Conversion must meet all of 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.
|
Must apply as a retrofit to existing commercial diesel vehicles only.
|
2.
|
Must apply for operation on 100% bio-fuel only.
|
2.
|
Must be for a conversion to a relevant Bio-fuel as defined in Article 2 of Directive 2003/30/EC.
|
|
| |
Table 1: Definition of EU vehicle categories according to Directives 2002/24/EC and 2007/46/EC
|
| |
Category M — Motor vehicles having at least four wheels and for the carriage of passengers
|
| |
Category
|
Description
|
M1
|
Vehicles for the carriage of passengers and comprising not more than eight seats in addition to the drivers seat
|
M2
|
Vehicles for the carriage of passengers, comprising more than eight seats in addition to the drivers seat, and having a maximum mass not exceeding 5 tonnes
|
M3
|
Vehicles for the carriage of passengers, comprising more than eight seats in addition to the drivers seat, and having a maximum mass exceeding 5 tonnes
|
|
| |
Category N — Power-driven vehicles having at least four wheels and for the carriage of goods
|
| |
Category
|
Description
|
N1
|
Vehicles for the carriage of goods and having a maximum mass not exceeding 3.5 tonnes
|
N2
|
Vehicles for the carriage of goods and having a maximum mass exceeding 3.5 tonnes but not exceeding 12 tonnes
|
N3
|
Vehicles for the carriage of goods and having a maximum mass exceeding 12 tonnes
|
|
| |
”
|
| |
4. Part 1 of Schedule 2 to the Principal Order is amended by inserting the following:
|
| |
“
|
| |
ACA Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
MOT11174
|
22236921
|
Pegasus 1 Motor (UP5-11)
|
EFF1, TEFC Motor
|
Hebei
|
MOT11175
|
54735915
|
Pegasus 1 Motor (UP5-15)
|
EFF1, TEFC Motor
|
Hebei
|
MOT11176
|
54735949
|
Pegasus 1 Motor (UP5-18)
|
EFF1, TEFC Motor
|
Hebei
|
MOT11177
|
54735972
|
Pegasus 1 Motor (UP5-22)
|
EFF1, TEFC Motor
|
Hebei
|
MOT11178
|
22406151
|
Pegasus 2 Motor (UP5-22E)
|
EFF1, TEFC Motor
|
Hebei
|
MOT11179
|
22406102
|
Pegasus 2 Motor (UP5-30)
|
EFF1, TEFC Motor
|
Hebei
|
MOT11180
|
22406060
|
Pegasus 2 Motor (UP5-37)
|
EFF1, TEFC Motor
|
Hebei
|
MOT11630
|
83B15234
|
225SGrundfos MG
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11631
|
83A15124
|
Grundfo.MG.160M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11632
|
96504782
|
Grundfos MG 090.S
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11633
|
96504783
|
Grundfos MG 090L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11634
|
87262297a
|
Grundfos MG 100L,C
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11635
|
87260324a
|
Grundfos MG 100L.B
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11636
|
87264228a
|
Grundfos MG 100L.C
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11637
|
87260322a
|
Grundfos MG 100LB
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11638
|
96504786
|
Grundfos MG 112.M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11639
|
96504773
|
Grundfos MG 112M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11640
|
87312301a
|
Grundfos MG 112M,C
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11641
|
87312402
|
Grundfos MG 112-M,C
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11642
|
87312330a
|
Grundfos MG 112M.C
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11643
|
87312371
|
Grundfos MG 112-M.C
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11644
|
87312369
|
Grundfos MG 112-MC
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11645
|
83B05222
|
Grundfos MG 132.M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11646
|
83B15217a
|
Grundfos MG 132.S
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11647
|
87312229a
|
Grundfos MG 132.SC
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11648
|
87312232a
|
Grundfos MG 132.SD
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11649
|
83B05217
|
Grundfos MG 132S
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11650
|
85817417
|
Grundfos MG 132SB
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11651
|
87312227
|
Grundfos MG 132SC
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11652
|
87312230
|
Grundfos MG 132SD
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11653
|
96504757
|
Grundfos MG 160,M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11654
|
87313004
|
Grundfos MG 160.MC
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11655
|
96504759
|
Grundfos MG 160L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11656
|
81825726
|
Grundfos MG 160MB
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11657
|
87313002
|
Grundfos MG 160MC
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11658
|
83B15228
|
Grundfos MG 180.M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11659
|
83A15132
|
Grundfos MG 200,L
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11660
|
83215132
|
Grundfos MG 200.L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11661
|
83115134
|
Grundfos MG 200LB
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11662
|
83105136
|
Grundfos MG 225.M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11663
|
83B15436
|
Grundfos MG 225M
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11664
|
83215134
|
Grundfos MG 225S
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11665
|
83A15238
|
Grundfos MG 250,M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11666
|
83B15440
|
Grundfos MG 280,S
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11667
|
83A15442
|
Grundfos MG 280.M
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11668
|
83A15440
|
Grundfos MG 280.S
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11669
|
83A15242
|
Grundfos MG 280M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11670
|
83B15242
|
Grundfos MG 280S
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11671
|
96508873
|
Grundfos MG 315
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11672
|
83A15248
|
Grundfos MG 315.L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11673
|
83A15246
|
Grundfos MG 315.M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11674
|
83B15444
|
Grundfos MG 315.S
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11675
|
83B15248
|
Grundfos MG 315L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11676
|
83115148
|
Grundfos MG 315LA
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11677
|
83B15146
|
Grundfos MG 315MA
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11678
|
83A15444
|
Grundfos MG 315S
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11679
|
96509255
|
Grundfos MG 400
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11680
|
87210393
|
Grundfos MG 90,LC
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11681
|
87210390
|
Grundfos MG 90,SB
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11682
|
87210319d
|
Grundfos MG 90.LC
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11683
|
87210360
|
Grundfos MG 90L,C
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11684
|
85D05510
|
Grundfos MG 90LA
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11685
|
87210354
|
Grundfos MG 90S,A
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11686
|
87210357
|
Grundfos MG 90S,B
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11687
|
87210286a
|
Grundfos MG 90S.A
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11688
|
85D05906a
|
Grundfos MG 90S.B
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11689
|
87210289a
|
Grundfos MG 90SB
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11690
|
83B05224
|
Grundfos MG,160M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11691
|
81D15340
|
Grundfos MG,280S
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11692
|
96509252
|
Grundfos MG,355
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11693
|
83215130
|
Grundfos MG,80L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11694
|
96504784
|
Grundfos MG.100l
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11695
|
83B15122
|
Grundfos MG.132M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11696
|
83A05228
|
Grundfos MG.160.L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11697
|
83B15224
|
Grundfos MG.160.M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11698
|
83A15126
|
Grundfos MG.160M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11699
|
83205130
|
Grundfos MG.180L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11700
|
83A15230
|
Grundfos MG.180M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11701
|
81D25340
|
Grundfos MG.280,S
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11702
|
81D05340
|
Grundfos MG.280S
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11703
|
96509251
|
Grundfos MG.315
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11704
|
83B15446
|
Grundfos MG.315MA
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11705
|
96509256
|
Grundfos MG.400
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11706
|
83A15128
|
Grundfos MG/160,L
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11707
|
81D25326
|
Grundfos MG/160.M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11708
|
83205126
|
Grundfos MG/160L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11709
|
81D15326
|
Grundfos MG/160M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11710
|
83A15136
|
Grundfos MG/225M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11711
|
83205140
|
Grundfos MG/280.S
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11712
|
83B15128
|
Grundfos MG\ 180M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11713
|
81D25328
|
Grundfos MG\160.L
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11714
|
83B15142
|
Grundfos MG\280,S
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11715
|
83B15140
|
Grundfos MG\280.S
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11716
|
83A15140
|
Grundfos MG\280S
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11717
|
83A15244
|
Grundfos MG>315.S
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11718
|
87260398
|
Grundfos MG-100,LB
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11719
|
87260324
|
Grundfos MG100.LB
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11720
|
96504771
|
Grundfos MG100L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11721
|
87260322
|
Grundfos MG100LB
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11722
|
87260396
|
Grundfos MG-100LB
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11723
|
87312330
|
Grundfos MG-112,MC
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11724
|
87312303a
|
Grundfos MG-112.M.C
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11725
|
87312301
|
Grundfos MG-112.MC
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11726
|
87312328
|
Grundfos MG-112M.C
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11727
|
83B15117
|
Grundfos MG132,S
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11728
|
85D17417
|
Grundfos MG132,SC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11729
|
85D17422
|
Grundfos MG132,SD
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11730
|
85D07417
|
Grundfos MG132.SC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11731
|
87312377
|
Grundfos MG132.SD
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11732
|
83B15217
|
Grundfos MG132S
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11733
|
87312229
|
Grundfos MG132SC
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11734
|
87312232
|
Grundfos MG132SD
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11735
|
83B15226
|
Grundfos MG160,L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11736
|
83215124
|
Grundfos MG160,M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11737
|
81D25324
|
Grundfos MG-160,M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11738
|
83B05226
|
Grundfos MG160.L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11739
|
83A15428
|
Grundfos MG-160.L
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11740
|
83B15424
|
Grundfos MG160.M
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11741
|
85D17424
|
Grundfos MG160.MC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11742
|
81325726
|
Grundfos MG160L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11743
|
83B15426
|
Grundfos MG-160L
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11744
|
83205124
|
Grundfos MG160M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11745
|
81D05326
|
Grundfos MG-160M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11746
|
83B15124
|
Grundfos- MG-160M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11747
|
83115424
|
Grundfos MG160MA
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11748
|
85D07424
|
Grundfos MG160MC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11749
|
83B15230
|
Grundfos MG180.L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11750
|
83A05232
|
Grundfos MG200,L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11751
|
81D25334
|
Grundfos MG-200,L
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11752
|
83B15232
|
Grundfos MG200.L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11753
|
81D15334
|
Grundfos MG-200.L
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11754
|
83B05232
|
Grundfos MG200L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11755
|
81D05334
|
Grundfos MG-200L
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11756
|
83215136
|
Grundfos MG225,M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11757
|
81D25336
|
Grundfos MG-225,M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11758
|
83A15236
|
Grundfos MG225.M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11759
|
83B15136
|
Grundfos- MG225.M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11760
|
81D15336
|
Grundfos MG-225.M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11761
|
83B15236
|
Grundfos MG225M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11762
|
83115136
|
Grundfos MG-225M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11763
|
83205134
|
Grundfos MG225S
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11764
|
83A15240
|
Grundfos MG280,S
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11765
|
83105140
|
Grundfos MG-280,S
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11766
|
83A15142
|
Grundfos MG280.M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11767
|
83B15240
|
Grundfos MG280S
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11768
|
83B15442
|
Grundfos MG-280S
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11769
|
83B15244
|
Grundfos MG315,S
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11770
|
83B15448
|
Grundfos MG315L
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11771
|
83105148
|
Grundfos MG315LA
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11772
|
83A15144
|
Grundfos MG315S
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11773
|
85D05906
|
Grundfos MG-90,SB
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11774
|
85D15105
|
Grundfos MG-90.LC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11775
|
87210316
|
Grundfos MG-90.SB
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11776
|
87210294
|
Grundfos MG90L.C
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11777
|
85D15510
|
Grundfos MG-90L.C
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11778
|
87210319c
|
Grundfos MG90LC
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11779
|
85D05908b
|
Grundfos MG-90LC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11780
|
87210316b
|
Grundfos MG90S.B
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11781
|
87210289
|
Grundfos MG-90S.B
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11782
|
85D05905
|
Grundfos MG90SA
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11783
|
86D05905
|
Grundfos MG90SB
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11784
|
87210316a
|
Grundfos MG-90SB
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11785
|
81825728
|
Grundfos MMG 160L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11786
|
81325730
|
Grundfos MMG 180.L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11787
|
81325728
|
Grundfos MMG 180M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11788
|
81825732
|
Grundfos MMG 200L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11789
|
83105150
|
Grundfos MMG 315LB
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11790
|
81325722
|
Grundfos MMG132M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11791
|
81325724
|
Grundfos MMG160M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11792
|
96492435
|
Grundfos MMG90S
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11793
|
83B15222
|
Grundfos,MG 132M
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11794
|
83A15430
|
Grundfos,MG 180.M
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11795
|
83B15430
|
Grundfos,MG 180L
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11796
|
87210286
|
Grundfos,MG 90SA
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11797
|
83215142
|
Grundfos,MG,280M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11798
|
87262365
|
Grundfos,MG.100.LC
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11799
|
87264228
|
Grundfos,MG.100LC
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11800
|
83A15226
|
Grundfos,MG.160.M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11801
|
83205138
|
Grundfos,MG.250M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11802
|
81D05336
|
Grundfos,MG-225M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11803
|
83115142
|
Grundfos,MG280M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11804
|
83A15436
|
Grundfos. MG.225,M
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11805
|
83215126
|
Grundfos. MG/160.L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11806
|
87312303
|
Grundfos. MG-112M.C
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11807
|
83215140
|
Grundfos..MG/280,S
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11808
|
83B15432
|
Grundfos..MG200.L
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11809
|
83A15432
|
Grundfos./MG200L
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11810
|
96509254
|
Grundfos./MG355
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11811
|
96504772
|
Grundfos.MG 100L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11812
|
87262327c
|
Grundfos.MG 100LC
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11813
|
87312328a
|
Grundfos.MG 112MC
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11814
|
83B15222a
|
Grundfos.MG 132M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11815
|
83A15228
|
Grundfos.MG 160,L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11816
|
83A05226
|
Grundfos.MG 160.M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11817
|
83A05230
|
Grundfos.MG 180.M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11818
|
83B05230
|
Grundfos.MG 180L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11819
|
83A15234
|
Grundfos.MG 200L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11820
|
83105134
|
Grundfos.MG 200LB
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11821
|
81D05332
|
Grundfos.MG 200LK
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11822
|
83B15434
|
Grundfos.MG 225S
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11823
|
83A15438
|
Grundfos.MG 250M
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11824
|
83B15238
|
Grundfos.MG 250-M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11825
|
83B15148
|
Grundfos.MG 315.L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11826
|
83B15450
|
Grundfos.MG 315L
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11827
|
85D05908a
|
Grundfos.MG 90L.C
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11828
|
85D05105
|
Grundfos.MG 90LC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11829
|
87262363
|
Grundfos.MG,100,LC
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11830
|
83A15130
|
Grundfos.MG,180L
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11831
|
83115138
|
Grundfos.MG,250M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11832
|
83215150
|
Grundfos.MG,315,L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11833
|
87210292a
|
Grundfos.MG,90LC
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11834
|
96504785
|
Grundfos.MG.100.L
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11835
|
87262327b
|
Grundfos.MG.100.LC
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11836
|
83C02206
|
Grundfos.MG.100L
|
Grundfos EEF1, 6 Pole, NB Motor
|
Grundfos
|
MOT11837
|
87262297
|
Grundfos.MG.100LC
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11838
|
85D15413
|
Grundfos.MG.112,MC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11839
|
85D07422
|
Grundfos-.MG.112.MC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11840
|
85D05413
|
Grundfos.MG.112MC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11841
|
87312404
|
Grundfos.MG.112-MC
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11842
|
96504758
|
Grundfos.MG.160M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11843
|
83A15134
|
Grundfos.MG.200.L
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11844
|
81D25332
|
Grundfos.MG.200.LK
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11845
|
83205132
|
Grundfos.MG.200L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11846
|
81D15332
|
Grundfos.MG.200LK
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11847
|
83105138
|
Grundfos.MG.250.M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11848
|
83B15438
|
Grundfos.MG.250M
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11849
|
83205142
|
Grundfos.MG.280M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11850
|
83205150
|
Grundfos.MG.315,L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11851
|
83A15148
|
Grundfos.MG.315L
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11852
|
87210362
|
Grundfos.MG.90L,C
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11853
|
81D05328
|
Grundfos.MG/160.L
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11854
|
83B15126
|
Grundfos.MG/160L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11855
|
87262295a
|
Grundfos.MG100LC
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11856
|
83A15424
|
Grundfos.MG160M
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11857
|
83A15434
|
Grundfos.MG200,L
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11858
|
96504761
|
Grundfos.MG200.L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11859
|
83B15132
|
Grundfos.MG200L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11860
|
83205136
|
Grundfos.MG225.M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11861
|
83105142
|
Grundfos.MG280M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11862
|
83B15144
|
Grundfos.MG315S
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11863
|
96509253
|
Grundfos.MG355
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11864
|
87210292
|
Grundfos.MG90L.C
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11865
|
81825730
|
Grundfos.MMG 180M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11866
|
83115150
|
Grundfos.MMG 315LB
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11867
|
81825724
|
Grundfos.MMG160MA
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11868
|
87262399
|
Grundfos/MG 100LC
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11869
|
83B15130
|
Grundfos/MG 180L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11870
|
96504760
|
Grundfos/MG, 180M
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11871
|
85D15908
|
Grundfos/MG,100.LC
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11872
|
87262401
|
Grundfos/MG.100LC
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11873
|
83B05228
|
Grundfos/MG.180M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11874
|
83205128
|
Grundfos/MG/180.M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11875
|
83B15428
|
Grundfos/MG/180M
|
Grundfos EEF1, 4 Pole, NB Motor
|
Grundfos
|
MOT11876
|
83215128
|
Grundfos\MG 180M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11877
|
81D25330
|
Grundfos\MG,180,M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11878
|
81D15330
|
Grundfos\MG,180M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11879
|
81D05330
|
Grundfos\MG. 180M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11880
|
87262295
|
Grundfos\MG.100LC
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11881
|
83115140
|
Grundfos> MG/280S
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11882
|
81D15328
|
Grundfos> MG\160L
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11883
|
83215138
|
Grundfos-MG 250M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11884
|
83A15448
|
GrundfosMG 315L
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11885
|
83A15150
|
Grundfos-MG 315L
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11886
|
83B15246
|
GrundfosMG 315M
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11887
|
85D05905a
|
GrundfosMG 90SA
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11888
|
81D15338
|
Grundfos-MG,250,M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11889
|
81D05338
|
Grundfos-MG,250M
|
Grundfos EEF1, 2 Pole, CR Motor
|
Grundfos
|
MOT11890
|
83B15138
|
Grundfos-MG.250M
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11891
|
83B15250
|
Grundfos-MG.315.L.
|
Grundfos EEF1, 4 Pole, TP Motor
|
Grundfos
|
MOT11892
|
83B15150
|
Grundfos-MG.315L
|
Grundfos EEF1, 4 Pole, NK Motor
|
Grundfos
|
MOT11893
|
83A15426
|
GrundfosMG160M
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11894
|
83A15232
|
GrundfosMG200L
|
Grundfos EEF1, 2 Pole, TP Motor
|
Grundfos
|
MOT11895
|
83A15146
|
GrundfosMG315.M
|
Grundfos EEF1, 2 Pole, NK Motor
|
Grundfos
|
MOT11896
|
83A15450
|
GrundfosMG315L
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
MOT11897
|
83A15446
|
GrundfosMG315M
|
Grundfos EEF1, 2 Pole, NB Motor
|
Grundfos
|
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
MOT12749
|
WU-DA160LR
|
W series
|
W aluminium 160 frame motor
|
Brook Crompton
|
MOT12750
|
WU-DA160MJ
|
W series 160MJ
|
W aluminium 160 frame motor
|
Brook Crompton
|
MOT12751
|
WU-DA180ME
|
W series 180ME
|
W aluminium 180 frame motor
|
Brook Crompton
|
MOT12752
|
WP-DF200LNX
|
W series 200LNX 4P
|
W cast iron 200 frame motor
|
Brook Crompton
|
MOT12753
|
WP-DF225SN
|
W series 225SN 4P
|
W cast iron 225S frame motor
|
Brook Crompton
|
MOT13178
|
W-DA112MM24.0
|
W Series Aluminium
|
4Kw 2 pole
|
Brook Crompton
|
MOT13179
|
W-DA132SE25.5
|
W Series 5.5Kw 2 pole
|
5.5Kw 2 pole
|
Brook Crompton
|
MOT13180
|
W-DA132SE27.5
|
W Series 7.5Kw 2 pole
|
7.5Kw 2 pole
|
Brook Crompton
|
MOT13181
|
W-DA132SE211
|
W Series 11Kw 2 pole
|
11Kw 2 pole
|
Brook Crompton
|
MOT13182
|
W-DA132SE215
|
W Series 15Kw 2 pole
|
15Kw 2 pole
|
Brook Crompton
|
MOT13184
|
W-DA132SE222
|
W Series 22Kw 2 pole
|
22Kw 2 pole
|
Brook Crompton
|
MOT13185
|
W-DA132SE411
|
W Series 11Kw 4 pole
|
11Kw 4 pole
|
Brook Crompton
|
MOT13186
|
W-DA132SE415
|
W Series 15Kw 4 pole
|
15Kw 4 pole
|
Brook Crompton
|
MOT13187
|
W-DA132SE418.5
|
W Series 18.5Kw 4 pole
|
18.5Kw 4 pole
|
Brook Crompton
|
MOT13188
|
W-DA132SE422
|
W Series 22Kw 4 pole
|
22Kw 4 pole
|
Brook Crompton
|
MOT13189
|
WP-DF80MM21.1
|
WP Series 1.1Kw 2 pole
|
1.1Kw 2 pole
|
Brook Crompton
|
MOT13190
|
WP-DF90LMX21.5
|
WP Series 1.5Kw 2 pole
|
1.5Kw 2 pole
|
Brook Crompton
|
MOT13191
|
WP-DF90LSX22.2
|
WP Series 2.2Kw 2 pole
|
2.2Kw 2 pole
|
Brook Crompton
|
MOT13192
|
WP-DF90LSX23.0
|
WP Series 3.0Kw 2 pole
|
3.0Kw 2 pole
|
Brook Crompton
|
MOT13193
|
WP-DF112MMX24.0
|
WP Series 4.0Kw 2 pole
|
4.0Kw 2 pole
|
Brook Crompton
|
MOT13194
|
WP-DF132SEX25.5
|
WP Series 5.5Kw 2 pole
|
5.5Kw 2 pole
|
Brook Crompton
|
MOT13195
|
WP-DF132SJX27.5
|
WP Series 7.5Kw 2 pole
|
7.5Kw 2 pole
|
Brook Crompton
|
MOT13196
|
WP-DF160MB211
|
WP Series 11Kw 2 pole
|
11Kw 2 pole
|
Brook Crompton
|
MOT13197
|
WP-DF160MJ215
|
WP Series 15Kw 2 pole
|
15Kw 2 pole
|
Brook Crompton
|
MOT13198
|
WP-DF160LR218.5
|
WP Series 18.5Kw 2 pole
|
18.5Kw 2 pole
|
Brook Crompton
|
MOT13199
|
WP-DF180ME222
|
WP Series 22Kw 2 pole
|
22Kw 2 pole
|
Brook Crompton
|
MOT13200
|
WP-DF200LGX230
|
WP Series 30Kw 2 pole
|
30Kw 2 pole
|
Brook Crompton
|
MOT13201
|
WP-DF200LGX237
|
WP Series 37Kw 2 pole
|
37Kw 2 pole
|
Brook Crompton
|
MOT13202
|
WP-DF225MN245
|
WP Series 45Kw 2 pole
|
45Kw 2 pole
|
Brook Crompton
|
MOT13203
|
WP-DF250SN255
|
WP Series 55Kw 2 pole
|
55Kw 2 pole
|
Brook Crompton
|
MOT13204
|
WP-DF250MN275
|
WP Series 75Kw 2 pole
|
75Kw 2 pole
|
Brook Crompton
|
MOT13205
|
WP-DF280SN290
|
WP Series 90Kw 2 pole
|
90Kw 2 pole
|
Brook Crompton
|
MOT13206
|
WP-DF280MN2110
|
WP Series 110Kw 2 pole
|
110Kw 2 pole
|
Brook Crompton
|
MOT13207
|
WP-DF315SN2132
|
WP Series 132Kw 2 pole
|
132Kw 2 pole
|
Brook Crompton
|
MOT13208
|
WP-DF315MN2150
|
WP Series 150Kw 2 pole
|
150Kw 2 pole
|
Brook Crompton
|
MOT13209
|
WP-DF315MP2160
|
WP Series 160Kw 2 pole
|
160Kw 2 pole
|
Brook Crompton
|
MOT13210
|
WP-DF315LN2185
|
WP Series 185Kw 2 pole
|
185Kw 2 pole
|
Brook Crompton
|
MOT13211
|
WP-DF315LN2200
|
WP Series 200Kw 2 pole
|
200Kw 2 pole
|
Brook Crompton
|
MOT13212
|
WP-DF355SG225
|
WP Series 225Kw 2 pole
|
225Kw 2 pole
|
Brook Crompton
|
MOT13213
|
WP-DF355SJ250
|
WP Series 250Kw 2 pole
|
250Kw 2 pole
|
Brook Crompton
|
MOT13214
|
WP-DF355SN280
|
WP Series 280Kw 2 pole
|
280Kw 2 pole
|
Brook Crompton
|
MOT13215
|
WP-DF355MJ2315
|
WP Series 315Kw 2 pole
|
315Kw 2 pole
|
Brook Crompton
|
MOT13216
|
WP-DF355MN2355
|
WP Series 355Kw 2 pole
|
355Kw 2 pole
|
Brook Crompton
|
MOT13217
|
WP-DF355LN2400
|
WP Series 400Kw 2 pole
|
400Kw 2 pole
|
Brook Crompton
|
MOT13218
|
WP-DF90LRX41.1
|
WP Series 1.1Kw 4 pole
|
1.1Kw 4 pole
|
Brook Crompton
|
MOT13219
|
WP-DF90LWX41.5
|
WP Series 1.5Kw 4 pole
|
1.5Kw 4 pole
|
Brook Crompton
|
MOT13220
|
WP-DF100LRF412.2
|
WP Series 2.2Kw 4 pole
|
2.2Kw 4 pole
|
Brook Crompton
|
MOT13221
|
WP-DF100LTF413.0
|
WP Series 3.0Kw 4 pole
|
3.0Kw 4 pole
|
Brook Crompton
|
MOT13222
|
WP-DF112MWX44.0
|
WP Series 4.0Kw 4 pole
|
4.0Kw 4 pole
|
Brook Crompton
|
MOT13223
|
WP-DF132STX45.5
|
WP Series 5.5Kw 4 pole
|
5.5Kw 4 pole
|
Brook Crompton
|
MOT13224
|
WP-DF132MVX47.5
|
WP Series 7.5Kw 4 pole
|
7.5Kw 4 pole
|
Brook Crompton
|
MOT13225
|
WP-DF160MJ411
|
WP Series 11Kw 4 pole
|
11Kw 4 pole
|
Brook Crompton
|
MOT13226
|
WP-DF160LR415
|
WP Series 15Kw 4 pole
|
15Kw 4 pole
|
Brook Crompton
|
MOT13227
|
WP-DF180ME418.5
|
WP Series 18.5Kw 4 pole
|
18.5Kw 4 pole
|
Brook Crompton
|
MOT13228
|
WP-DF180LJ422
|
WP Series 22Kw 4 pole
|
22Kw 4 pole
|
Brook Crompton
|
MOT13229
|
WP-DF200LNX430
|
WP Series 30Kw 4 pole
|
30Kw 4 pole
|
Brook Crompton
|
MOT13230
|
WP-DF225SN437
|
WP Series 37Kw 4 pole
|
37Kw 4 pole
|
Brook Crompton
|
MOT13231
|
WP-DF225MN445
|
WP Series 45Kw 4 pole
|
45Kw 4 pole
|
Brook Crompton
|
MOT13232
|
WP-DF250SN455
|
WP Series 55Kw 4 pole
|
55Kw 4 pole
|
Brook Crompton
|
MOT13233
|
WP-DF250MN475
|
WP Series 75Kw 4 pole
|
75Kw 4 pole
|
Brook Crompton
|
MOT13234
|
WP-DF280SN490
|
WP Series 90Kw 4 pole
|
90Kw 4 pole
|
Brook Crompton
|
MOT13235
|
WP-DF280MN4110
|
WP Series 110Kw 4 pole
|
110Kw 4 pole
|
Brook Crompton
|
MOT13236
|
WP-DF315SN4132
|
WP Series 132Kw 4 pole
|
132Kw 4 pole
|
Brook Crompton
|
MOT13237
|
WP-DF315MN4150
|
WP Series 150Kw 4 pole
|
150Kw 4 pole
|
Brook Crompton
|
MOT13238
|
WP-DF315MP4160
|
WP Series 160Kw 4 pole
|
160Kw 4 pole
|
Brook Crompton
|
MOT13239
|
WP-DF315LN4185
|
WP Series 185Kw 4 pole
|
185Kw 4 pole
|
Brook Crompton
|
MOT13240
|
WP-DF315LN4200
|
WP Series 200Kw 4 pole
|
200Kw 4 pole
|
Brook Crompton
|
MOT13241
|
WP-DF355SG4225
|
WP Series 225Kw 4 pole
|
225Kw 4 pole
|
Brook Crompton
|
MOT13242
|
WP-DF355SJ4250
|
WP Series 250Kw 4 pole
|
250Kw 4 pole
|
Brook Crompton
|
MOT13243
|
WP-DF355SN4280
|
WP Series 280Kw 4 pole
|
280Kw 4 pole
|
Brook Crompton
|
MOT13244
|
WP-DF355MJ4315
|
WP Series 315Kw 4 pole
|
315Kw 4 pole
|
Brook Crompton
|
MOT13245
|
WP-DF355MN4355
|
WP Series 355Kw 4 pole
|
355Kw 4 pole
|
Brook Crompton
|
MOT13246
|
WP-DF355LN4400
|
WP Series 400Kw 4 pole
|
400Kw 4 pole
|
Brook Crompton
|
MOT24881
|
WDA160MB211
|
W Type 11Kw 2 pole
|
11Kw 2 pole W Series High Efficiency
|
Brook Crompton
|
MOT24882
|
WDA160MJ215
|
W Type 15Kw 2 pole
|
15Kw 2 pole W Series High Efficiency
|
Brook Crompton
|
MOT24883
|
WDA160LR218.5
|
W Type 18.5Kw 2 pole
|
18.5Kw 2 pole W Series High Efficiency
|
Brook Crompton
|
MOT24884
|
WDA180ME222
|
W Type 22Kw 2 pole
|
22Kw 2 pole W Series High Efficiency
|
Brook Crompton
|
MOT24885
|
WDA160MJ411
|
W Type 11Kw 4 pole
|
11Kw 4 pole W Series High Efficiency
|
Brook Crompton
|
MOT24887
|
WDA180ME418.5
|
W Type 18.5Kw 4 pole
|
18.5Kw 4 pole W Series High Efficiency
|
Brook Crompton
|
MOT24888
|
WDA160LR415
|
W Type 15Kw 4 pole
|
15Kw 4 pole W Series High Efficiency
|
Brook Crompton
|
MOT24889
|
WDA1180LJ422
|
W Type 22Kw 4 pole
|
22Kw 4 pole W Series High Efficiency
|
Brook Crompton
|
|
| |
”.
|
| |
5. Part 2 of Schedule 2 to the Principal Order is amended by inserting the following:
|
| |
“
|
| |
ACA Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
VSD11296
|
96764675
|
0.55 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11297
|
96754704
|
0.55 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11299
|
96754676
|
0.75 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11300
|
96754705
|
0.75 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11386
|
96754481
|
1.1 KW Grundfos CUE IP 20 1x200-240V1.1
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11387
|
96754460
|
1.1 KW Grundfos CUE IP 20 1x200-240V1100w
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11388
|
96754677
|
1.1 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11389
|
96754706
|
1.1 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11392
|
96754502
|
1.5 KW Grundfos CUE IP 20 1x200-240V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11393
|
96754461
|
1.5 KW Grundfos CUE IP 20 1x200-240V1.5
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11394
|
96754678
|
1.5 KW Grundfos CUE IP 20 3X380-500V1.5
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11395
|
96754707
|
1.5 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11396
|
96754694
|
11 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11397
|
96754723
|
11 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11398
|
96754649
|
110 KW Grundfos CUE IP 21 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11399
|
96754666
|
110 KW Grundfos CUE IP 54 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11401
|
96754651
|
132 KW Grundfos CUE IP 21 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11402
|
96754669
|
132 KW Grundfos CUE IP 54 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11403
|
96754695
|
15 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11404
|
96754724
|
15 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11406
|
96754662
|
160 KW Grundfos CUE IP 21 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11407
|
96754671
|
160 KW Grundfos CUE IP 54 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11408
|
96754696
|
18.5 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11409
|
96754725
|
18.5 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11411
|
96754503
|
2.2 KW Grundfos CUE IP 20 1x200-240V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11412
|
96754472
|
2.2 KW Grundfos CUE IP 20 1x200-240V2.2
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11413
|
96754679
|
2.2 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11414
|
96754708
|
2.2 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11417
|
96754663
|
200 KW Grundfos CUE IP 21 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11418
|
96754672
|
200 KW Grundfos CUE IP 54 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11419
|
96754697
|
22 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11420
|
96754726
|
22 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11422
|
96754665
|
250 KW Grundfos CUE IP 21 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11423
|
96754673
|
250 KW Grundfos CUE IP 54 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11424
|
96754505
|
3 KW Grundfos CUE IP 20 1x200-240V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11425
|
96754473
|
3 KW Grundfos CUE IP 20 1x200-240V3
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11426
|
96754680
|
3 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11427
|
96754709
|
3 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11569
|
96754698
|
30 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11570
|
96754727
|
30 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11571
|
96754699
|
37 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11572
|
96754728
|
37 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11573
|
96754506
|
4 KW Grundfos CUE IP 20 1x200-240V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11574
|
96754474
|
4 KW Grundfos CUE IP 20 1x200-240V4000
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11575
|
96754681
|
4 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11576
|
96754710
|
4 KW Grundfos CUE IP 55 3X380-500V4000
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11577
|
96754700
|
45 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11578
|
96754729
|
45 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11579
|
96754475
|
5.5 KW Grundfos CUE IP 20 1x200-240V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11580
|
96754507
|
5.5 KW Grundfos CUE IP 20 1x200-240V5500
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11581
|
96754692
|
5.5 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11582
|
96754711
|
5.5 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11584
|
96754701
|
55 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11585
|
96754730
|
55 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11586
|
96754476
|
7.5 KW Grundfos CUE IP 20 1x200-240V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11587
|
96754509
|
7.5 KW Grundfos CUE IP 20 1x200-240V7500
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11588
|
96754693
|
7.5 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11589
|
96754722
|
7.5 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11591
|
96754702
|
75 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11592
|
96754731
|
75 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11593
|
96754703
|
90 KW Grundfos CUE IP 20 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11594
|
96754732
|
90 KW Grundfos CUE IP 55 3X380-500V
|
The Grundfos CUE are a range of frequency convertors designed for use with the Grundfos Pump Range
|
Grundfos
|
VSD11960
|
VFD002E21A
|
DELTA VFD002E21A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11961
|
VFD004E21A
|
DELTA VFD004E21A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11962
|
VFD007E21A
|
DELTA VFD007E21A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11963
|
VFD015E21A
|
DELTA VFD015E21A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11964
|
VFD022E21A
|
DELTA VFD022E21A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11965
|
VFD004E43A
|
DELTA VFD004E43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11966
|
VFD007E43A
|
DELTA VFD007E43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11967
|
VFD015E43A
|
DELTA VFD015E43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11968
|
VFD022E43A
|
DELTA VFD022E43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11969
|
VFD037E43A
|
DELTA VFD037E43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11970
|
VFD055E43A
|
DELTA VFD055E43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11971
|
VFD075E43A
|
DELTA VFD075E43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11972
|
VFD110E43A
|
DELTA VFD110E43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11973
|
VFD007F43A
|
DELTA VFD007F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11974
|
VFD015F43A
|
DELTA VFD015F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11975
|
VFD022F43A
|
DELTA VFD022F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11976
|
VFD037F43A
|
DELTA VFD037F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11977
|
VFD055F43A
|
DELTA VFD055F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11978
|
VFD075F43A
|
DELTA VFD075F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11979
|
VFD110F43A
|
DELTA VFD110F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11980
|
VFD150F43A
|
DELTA VFD150F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11981
|
VFD185F43A
|
DELTA VFD185F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11982
|
VFD220F43A
|
DELTA VFD220F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11983
|
VFD300F43A
|
DELTA VFD300F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11984
|
VFD370F43A
|
DELTA VFD370F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11985
|
VFD450F43A
|
DELTA VFD450F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11986
|
VFD550F43A
|
DELTA VFD550F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11987
|
VFD750F43A
|
DELTA VFD750F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11988
|
VFD900F43A
|
DELTA VFD900F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11989
|
VFD1100F43A
|
DELTA VFD1100F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11990
|
VFD1320F43A
|
DELTA VFD1320F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11991
|
VFD1600F43A
|
DELTA VFD1600F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11992
|
VFD1850F43A
|
DELTA VFD1850F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
VSD11993
|
VFD2200F43A
|
DELTA VFD2200F43A
|
Variable Speed AC Inverter — Vector+PID
|
DELTA
|
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
VSD12613
|
CIMR-E7Z20P41A
|
CIMR-E7Z20P41A
|
Inverter drive, 0.4kW, 1.8A, 200VAC, 3-phase
|
Omron
|
VSD12614
|
CIMR-E7Z40P41
|
CIMR-E7Z40P41
|
Inverter drive, 0.4kW, 1.8A, 415VAC, 3-phase
|
Omron
|
VSD12615
|
CIMR-E7Z40P71
|
CIMR-E7Z40P71
|
Inverter drive, 0.75kW, 2.1A, 415VAC, 3-phase
|
Omron
|
VSD12616
|
CIMR-E7Z41P51
|
CIMR-E7Z41P51
|
Inverter drive, 1.5kW, 3.7A, 415VAC, 3-phase
|
Omron
|
VSD12617
|
CIMR-E7Z42P21
|
CIMR-E7Z42P21
|
Inverter drive, 2.2kW, 5.3A, 415VAC, 3-phase
|
Omron
|
VSD12618
|
CIMR-E7Z43P71
|
CIMR-E7Z43P71
|
Inverter drive, 3.7kW, 7.6A, 415VAC, 3-phase
|
Omron
|
VSD12619
|
CIMR-E7Z44P01
|
CIMR-E7Z44P01
|
Inverter drive, 4.0kW, 8.7A, 415VAC, 3-phase
|
Omron
|
VSD12620
|
CIMR-E7Z45P51
|
CIMR-E7Z45P51
|
Inverter drive, 5.5kW, 12.5A, 415VAC, 3-phase
|
Omron
|
VSD12621
|
CIMR-E7Z47P51
|
CIMR-E7Z47P51
|
Inverter drive, 7.5kW, 17A, 415VAC, 3-phase
|
Omron
|
VSD12622
|
CIMR-E7Z-47P52A
|
CIMR-E7Z-47P52A
|
Inverter drive, IP54 version, 7.5KW, 17A, 415vac, 3-phase
|
Omron
|
VSD12623
|
CIMR-E7Z40111
|
CIMR-E7Z40111
|
Inverter drive, 11kW, 24A, 415VAC, 3-phase
|
Omron
|
VSD12624
|
CIMR-E7Z-40112A
|
CIMR-E7Z-40112A
|
Inverter drive, IP54 version, 11KW, 24A, 415vac, 3-phase
|
Omron
|
VSD12625
|
CIMR-E7Z40151
|
CIMR-E7Z40151
|
Inverter drive, 15kW, 31A, 415VAC, 3-phase
|
Omron
|
VSD12626
|
CIMR-E7Z-40152A
|
CIMR-E7Z-40152A
|
Inverter drive, IP54 version, 15KW, 31A, 415vac, 3-phase
|
Omron
|
VSD12627
|
CIMR-E7Z40181
|
CIMR-E7Z40181
|
Inverter drive, 18.5kW, 39A, 415VAC, 3-phase
|
Omron
|
VSD12628
|
CIMR-E7Z-40182A
|
CIMR-E7Z-40182A
|
Inverter drive, IP54 version, 18.5KW, 39A, 415vac, 3-phase
|
Omron
|
VSD12629
|
CIMR-E7Z40220
|
CIMR-E7Z40220
|
Inverter drive, 22kW, 45A, 415VAC, 3-phase
|
Omron
|
VSD12630
|
CIMR-E7Z-40222A
|
CIMR-E7Z-40222A
|
Inverter drive, IP54 version, 22KW, 45A, 415vac, 3-phase
|
Omron
|
VSD12631
|
CIMR-E7Z40300
|
CIMR-E7Z40300
|
Inverter drive, 30kW, 60A, 415VAC, 3-phase
|
Omron
|
VSD12632
|
CIMR-E7Z-40302A
|
CIMR-E7Z-40302A
|
Inverter drive, IP54 version, 30KW, 60A, 415vac, 3-phase
|
Omron
|
VSD12633
|
CIMR-E7Z40370
|
CIMR-E7Z40370
|
Inverter drive, 37kW, 75A, 415VAC, 3-phase
|
Omron
|
VSD12634
|
CIMR-E7Z-40372A
|
CIMR-E7Z-40372A
|
Inverter drive, IP54 version, 37KW, 75A, 415vac, 3-phase
|
Omron
|
VSD12635
|
CIMR-E7Z40450
|
CIMR-E7Z40450
|
Inverter drive, 45kW, 91A, 415VAC, 3-phase
|
Omron
|
VSD12636
|
CIMR-E7Z-40452A
|
CIMR-E7Z-40452A
|
Inverter drive, IP54 version, 45KW, 91A, 415vac, 3-phase
|
Omron
|
VSD12637
|
CIMR-E7Z40550
|
CIMR-E7Z40550
|
Inverter drive, 55kW, 112A, 415VAC, 3-phase
|
Omron
|
VSD12638
|
CIMR-E7Z-40552A
|
CIMR-E7Z-40552A
|
Inverter drive, IP54 version, 55KW, 112A, 415vac, 3-phase
|
Omron
|
VSD12639
|
CIMR-E7Z40750
|
CIMR-E7Z40750
|
Inverter drive, 75kW, 150A, 415VAC, 3-phase
|
Omron
|
VSD12640
|
CIMR-E7Z40900
|
CIMR-E7Z40900
|
Inverter drive, 90kW, 180A, 415VAC, 3-phase
|
Omron
|
VSD12641
|
CIMR-E7Z41100
|
CIMR-E7Z41100
|
Inverter drive, 110kW, 216A, 415VAC, 3-phase
|
Omron
|
VSD12642
|
CIMR-E7Z41320
|
CIMR-E7Z41320
|
Inverter drive, 132kW, 260A, 415VAC, 3-phase
|
Omron
|
VSD12643
|
CIMR-E7Z41600
|
CIMR-E7Z41600
|
Inverter drive, 160kW, 304A, 415VAC, 3-phase
|
Omron
|
VSD12644
|
CIMR-E7Z41850
|
CIMR-E7Z41850
|
Inverter drive, 180kW, 370A, 415VAC, 3-phase
|
Omron
|
VSD12645
|
CIMR-E7Z42200
|
CIMR-E7Z42200
|
Inverter drive, 220kW, 506A, 415VAC, 3-phase
|
Omron
|
VSD12646
|
CIMR-E7Z43000
|
CIMR-E7Z43000
|
Inverter drive, 300kW, 675A, 415VAC, 3-phase
|
Omron
|
VSD13691
|
SVXF07A1-2A1B1
|
SVX9000 General Purpose Drives
|
SVX9000 General Purpose Drives IP21 208-240V single phase and 3 phase
|
Eaton Electric B.V.
|
VSD13692
|
SVX001A1-2A1B1
|
SVX9000 General Purpose Drives SVX001A1-2A1B1
|
SVX9000 General Purpose Drives IP21 208-240V single phase and 3 phase
|
Eaton Electric B.V.
|
VSD13693
|
SVXF15A1-2A1B1
|
SVX9000 General Purpose Drives SVXF15A1-2A1B1
|
SVX9000 General Purpose Drives IP21 208-240V single phase and 3 phase
|
Eaton Electric B.V.
|
VSD13694
|
SVX002A1-2A1B1
|
SVX9000 General Purpose Drives SVX002A1-2A1B1
|
SVX9000 General Purpose Drives IP21 208-240V single phase and 3 phase
|
Eaton Electric B.V.
|
VSD13695
|
SVX003A1-2A1B1
|
SVX9000 General Purpose Drives SVX003A1-2A1B1
|
SVX9000 General Purpose Drives IP21 208-240V single phase and 3 phase
|
Eaton Electric B.V.
|
VSD13696
|
SVX004A1-2A1B1
|
SVX9000 General Purpose Drives SVX004A1-2A1B1
|
SVX9000 General Purpose Drives IP21 208-240V single phase and 3 phase
|
Eaton Electric B.V.
|
VSD13697
|
SVX005A1-2A1B1
|
SVX9000 General Purpose Drives SVX005A1-2A1B1
|
SVX9000 General Purpose Drives IP21 208-240V single phase and 3 phase
|
Eaton Electric B.V.
|
VSD13698
|
SVX007A1-2A1B1
|
SVX9000 General Purpose Drives SVX007A1-2A1B1
|
SVX9000 General Purpose Drives IP21 208-240V single phase and 3 phase
|
Eaton Electric B.V.
|
VSD13699
|
SVX010A1-2A1B1
|
SVX9000 General Purpose Drives SVX010A1-2A1B1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13700
|
SVX015A1-2A1B1
|
SVX9000 General Purpose Drives SVX015A1-2A1B1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13701
|
SVX020A1-2A1N1
|
SVX9000 General Purpose Drives SVX020A1-2A1N1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13702
|
SVX025A1-2A1N1
|
SVX9000 General Purpose Drives SVX025A1-2A1N1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13703
|
SVX030A1-2A1N1
|
SVX9000 General Purpose Drives SVX030A1-2A1N1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13704
|
SVX040A1-2A1N1
|
SVX9000 General Purpose Drives SVX040A1-2A1N1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13705
|
SVX050A1-2A1N1
|
SVX9000 General Purpose Drives SVX050A1-2A1N1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13706
|
SVX060A1-2A1N1
|
SVX9000 General Purpose Drives SVX060A1-2A1N1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13707
|
SVX075A1-2A1N1
|
SVX9000 General Purpose Drives SVX075A1-2A1N1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13708
|
SVX100A1-2A1N1
|
SVX9000 General Purpose Drives SVX100A1-2A1N1
|
SVX9000 General Purpose Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13709
|
SVXF07A2-2A1B1
|
SVX9000 General Purpose Drives SVXF07A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13710
|
SVX001A2-2A1B1
|
SVX9000 General Purpose Drives SVX001A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13711
|
SVXF15A2-2A1B1
|
SVX9000 General Purpose Drives SVXF15A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13712
|
SVX002A2-2A1B1
|
SVX9000 General Purpose Drives SVX002A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13713
|
SVX003A2-2A1B1
|
SVX9000 General Purpose Drives SVX003A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13714
|
SVX004A2-2A1B1
|
SVX9000 General Purpose Drives SVX004A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13715
|
SVX005A2-2A1B1
|
SVX9000 General Purpose Drives SVX005A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13716
|
SVX007A2-2A1B1
|
SVX9000 General Purpose Drives SVX007A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13717
|
SVX010A2-2A1B1
|
SVX9000 General Purpose Drives SVX010A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13718
|
SVX015A2-2A1B1
|
SVX9000 General Purpose Drives SVX015A2-2A1B1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13719
|
SVX020A2-2A1N1
|
SVX9000 General Purpose Drives SVX020A2-2A1N1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13720
|
SVX025A2-2A1N1
|
SVX9000 General Purpose Drives SVX025A2-2A1N1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13721
|
SVX030A2-2A1N1
|
SVX9000 General Purpose Drives SVX030A2-2A1N1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13722
|
SVX040A2-2A1N1
|
SVX9000 General Purpose Drives SVX040A2-2A1N1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13723
|
SVX050A2-2A1N1
|
SVX9000 General Purpose Drives SVX050A2-2A1N1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13724
|
SVX060A2-2A1N1
|
SVX9000 General Purpose Drives SVX060A2-2A1N1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13725
|
SVX075A2-2A1N1
|
SVX9000 General Purpose Drives SVX075A2-2A1N1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13726
|
SVX100A2-2A1N1
|
SVX9000 General Purpose Drives SVX100A2-2A1N1
|
SVX9000 General Purpose Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13727
|
SVX001A1-4A1B1
|
SVX9000 General Purpose Drives SVX001A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13728
|
SVXF15A1-4A1B1
|
SVX9000 General Purpose Drives SVXF15A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13729
|
SVX002A1-4A1B1
|
SVX9000 General Purpose Drives SVX002A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13730
|
SVX003A1-4A1B1
|
SVX9000 General Purpose Drives SVX003A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13731
|
SVX005A1-4A1B1
|
SVX9000 General Purpose Drives SVX005A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13732
|
SVX006A1-4A1B1
|
SVX9000 General Purpose Drives SVX006A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13733
|
SVX007A1-4A1B1
|
SVX9000 General Purpose Drives SVX007A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13734
|
SVX010A1-4A1B1
|
SVX9000 General Purpose Drives SVX010A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13735
|
SVX015A1-4A1B1
|
SVX9000 General Purpose Drives SVX015A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13736
|
SVX020A1-4A1B1
|
SVX9000 General Purpose Drives SVX020A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13737
|
SVX025A1-4A1B1
|
SVX9000 General Purpose Drives SVX025A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13738
|
SVX030A1-4A1B1
|
SVX9000 General Purpose Drives SVX030A1-4A1B1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13739
|
SVX040A1-4A1N1
|
SVX9000 General Purpose Drives SVX040A1-4A1N1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13740
|
SVX050A1-4A1N1
|
SVX9000 General Purpose Drives SVX050A1-4A1N1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13741
|
SVX060A1-4A1N1
|
SVX9000 General Purpose Drives SVX060A1-4A1N1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13742
|
SVX075A1-4A1N1
|
SVX9000 General Purpose Drives SVX075A1-4A1N1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13743
|
SVX100A1-4A1N1
|
SVX9000 General Purpose Drives SVX100A1-4A1N1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13744
|
SVX125A1-4A1N1
|
SVX9000 General Purpose Drives SVX125A1-4A1N1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13745
|
SVX150A1-4A1N1
|
SVX9000 General Purpose Drives SVX150A1-4A1N1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13746
|
SVX200A1-4A1N1
|
SVX9000 General Purpose Drives SVX200A1-4A1N1
|
SVX9000 General Purpose Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13747
|
SVX001A2-4A1B1
|
SVX9000 General Purpose Drives SVX001A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13748
|
SVXF15A2-4A1B1
|
SVX9000 General Purpose Drives SVXF15A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13749
|
SVX002A2-4A1B1
|
SVX9000 General Purpose Drives SVX002A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13750
|
SVX003A2-4A1B1
|
SVX9000 General Purpose Drives SVX003A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13751
|
SVX005A2-4A1B1
|
SVX9000 General Purpose Drives SVX005A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13752
|
SVX006A2-4A1B1
|
SVX9000 General Purpose Drives SVX006A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13753
|
SVX007A2-4A1B1
|
SVX9000 General Purpose Drives SVX007A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13754
|
SVX010A2-4A1B1
|
SVX9000 General Purpose Drives SVX010A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13755
|
SVX015A2-4A1B1
|
SVX9000 General Purpose Drives SVX015A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13756
|
SVX020A2-4A1B1
|
SVX9000 General Purpose Drives SVX020A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13757
|
SVX025A2-4A1B1
|
SVX9000 General Purpose Drives SVX025A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13758
|
SVX030A2-4A1B1
|
SVX9000 General Purpose Drives SVX030A2-4A1B1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13759
|
SVX040A2-4A1N1
|
SVX9000 General Purpose Drives SVX040A2-4A1N1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13760
|
SVX050A2-4A1N1
|
SVX9000 General Purpose Drives SVX050A2-4A1N1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13761
|
SVX060A2-4A1N1
|
SVX9000 General Purpose Drives SVX060A2-4A1N1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13762
|
SVX075A2-4A1N1
|
SVX9000 General Purpose Drives SVX075A2-4A1N1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13763
|
SVX100A2-4A1N1
|
SVX9000 General Purpose Drives SVX100A2-4A1N1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13764
|
SVX125A2-4A1N1
|
SVX9000 General Purpose Drives SVX125A2-4A1N1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13765
|
SVX150A2-4A1N1
|
SVX9000 General Purpose Drives SVX150A2-4A1N1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13766
|
SVX200A2-4A1N1
|
SVX9000 General Purpose Drives SVX200A2-4A1N1
|
SVX9000 General Purpose Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13767
|
SVX002A1-5A4N1
|
SVX9000 General Purpose Drives SVX002A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13768
|
SVX003A1-5A4N1
|
SVX9000 General Purpose Drives SVX003A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13769
|
SVX004A1-5A4N1
|
SVX9000 General Purpose Drives SVX004A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13770
|
SVX005A1-5A4N1
|
SVX9000 General Purpose Drives SVX005A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13771
|
SVX007A1-5A4N1
|
SVX9000 General Purpose Drives SVX007A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13772
|
SVX010A1-5A4N1
|
SVX9000 General Purpose Drives SVX010A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13773
|
SVX015A1-5A4N1
|
SVX9000 General Purpose Drives SVX015A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13774
|
SVX020A1-5A4N1
|
SVX9000 General Purpose Drives SVX020A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13775
|
SVX025A1-5A4N1
|
SVX9000 General Purpose Drives SVX025A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13776
|
SVX030A1-5A4N1
|
SVX9000 General Purpose Drives SVX030A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13777
|
SVX040A1-5A4N1
|
SVX9000 General Purpose Drives SVX040A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13778
|
SVX050A1-5A4N1
|
SVX9000 General Purpose Drives SVX050A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13779
|
SVX060A1-5A4N1
|
SVX9000 General Purpose Drives SVX060A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13780
|
SVX075A1-5A4N1
|
SVX9000 General Purpose Drives SVX075A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13781
|
SVX100A1-5A4N1
|
SVX9000 General Purpose Drives SVX100A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13782
|
SVX125A1-5A4N1
|
SVX9000 General Purpose Drives SVX125A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13783
|
SVX150A1-5A4N1
|
SVX9000 General Purpose Drives SVX150A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13784
|
SVX175A1-5A4N1
|
SVX9000 General Purpose Drives SVX175A1-5A4N1
|
SVX9000 General Purpose Drives IP21 525-690V
|
Eaton Electric B.V.
|
VSD13785
|
SVX002A2-5A4N1
|
SVX9000 General Purpose Drives SVX002A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13786
|
SVX003A2-5A4N1
|
SVX9000 General Purpose Drives SVX003A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13787
|
SVX004A2-5A4N1
|
SVX9000 General Purpose Drives SVX004A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13788
|
SVX005A2-5A4N1
|
SVX9000 General Purpose Drives SVX005A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13789
|
SVX007A2-5A4N1
|
SVX9000 General Purpose Drives SVX007A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13790
|
SVX010A2-5A4N1
|
SVX9000 General Purpose Drives SVX010A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13791
|
SVX015A2-5A4N1
|
SVX9000 General Purpose Drives SVX015A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13792
|
SVX020A2-5A4N1
|
SVX9000 General Purpose Drives SVX020A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13793
|
SVX025A2-5A4N1
|
SVX9000 General Purpose Drives SVX025A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13794
|
SVX030A2-5A4N1
|
SVX9000 General Purpose Drives SVX030A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13795
|
SVX040A2-5A4N1
|
SVX9000 General Purpose Drives SVX040A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13796
|
SVX050A2-5A4N1
|
SVX9000 General Purpose Drives SVX050A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13797
|
SVX060A2-5A4N1
|
SVX9000 General Purpose Drives SVX060A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13798
|
SVX075A2-5A4N1
|
SVX9000 General Purpose Drives SVX075A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13799
|
SVX100A2-5A4N1
|
SVX9000 General Purpose Drives SVX100A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13800
|
SVX125A2-5A4N1
|
SVX9000 General Purpose Drives SVX125A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13801
|
SVX150A2-5A4N1
|
SVX9000 General Purpose Drives SVX150A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13802
|
SVX175A2-5A4N1
|
SVX9000 General Purpose Drives SVX175A2-5A4N1
|
SVX9000 General Purpose Drives IP54 525-690V
|
Eaton Electric B.V.
|
VSD13803
|
SPXF07A1-2A1B1
|
SPX9000 High Performance Drives SPXF07A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13804
|
SPX001A1-2A1B1
|
SPX9000 High Performance Drives SPX001A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13805
|
SPXF15A1-2A1B1
|
SPX9000 High Performance Drives SPXF15A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13806
|
SPX002A1-2A1B1
|
SPX9000 High Performance Drives SPX002A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13807
|
SPX003A1-2A1B1
|
SPX9000 High Performance Drives SPX003A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13808
|
SPX004A1-2A1B1
|
SPX9000 High Performance Drives SPX004A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13809
|
SPX005A1-2A1B1
|
SPX9000 High Performance Drives SPX005A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13810
|
SPX007A1-2A1B1
|
SPX9000 High Performance Drives SPX007A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13811
|
SPX010A1-2A1B1
|
SPX9000 High Performance Drives SPX010A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13812
|
SPX015A1-2A1B1
|
SPX9000 High Performance Drives SPX015A1-2A1B1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13813
|
SPX020A1-2A1N1
|
SPX9000 High Performance Drives SPX020A1-2A1N1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13814
|
SPX025A1-2A1N1
|
SPX9000 High Performance Drives SPX025A1-2A1N1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13815
|
SPX030A1-2A1N1
|
SPX9000 High Performance Drives SPX030A1-2A1N1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13816
|
SPX040A1-2A1N1
|
SPX9000 High Performance Drives SPX040A1-2A1N1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13817
|
SPX050A1-2A1N1
|
SPX9000 High Performance Drives SPX050A1-2A1N1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13818
|
SPX060A1-2A1N1
|
SPX9000 High Performance Drives SPX060A1-2A1N1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13819
|
SPX075A1-2A1N1
|
SPX9000 High Performance Drives SPX075A1-2A1N1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13820
|
SPX100A1-2A1N1
|
SPX9000 High Performance Drives SPX100A1-2A1N1
|
SPX9000 High Performance Drives IP21 208-240V
|
Eaton Electric B.V.
|
VSD13821
|
SPXF07A2-2A1B1
|
SPX9000 High Performance Drives SPXF07A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13822
|
SPX001A2-2A1B1
|
SPX9000 High Performance Drives SPX001A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13823
|
SPXF15A2-2A1B1
|
SPX9000 High Performance Drives SPXF15A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13826
|
SPX002A2-2A1B1
|
SPX9000 High Performance Drives SPX002A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13827
|
SPX003A2-2A1B1
|
SPX9000 High Performance Drives SPX003A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13828
|
SPX004A2-2A1B1
|
SPX9000 High Performance Drives SPX004A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13829
|
SPX005A2-2A1B1
|
SPX9000 High Performance Drives SPX005A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13830
|
SPX007A2-2A1B1
|
SPX9000 High Performance Drives SPX007A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13831
|
SPX010A2-2A1B1
|
SPX9000 High Performance Drives SPX010A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13832
|
SPX015A2-2A1B1
|
SPX9000 High Performance Drives SPX015A2-2A1B1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13833
|
SPX020A2-2A1N1
|
SPX9000 High Performance Drives SPX020A2-2A1N1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13834
|
SPX025A2-2A1N1
|
SPX9000 High Performance Drives SPX025A2-2A1N1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13835
|
SPX030A2-2A1N1
|
SPX9000 High Performance Drives SPX030A2-2A1N1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13836
|
SPX040A2-2A1N1
|
SPX9000 High Performance Drives SPX040A2-2A1N1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13837
|
SPX050A2-2A1N1
|
SPX9000 High Performance Drives SPX050A2-2A1N1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13838
|
SPX060A2-2A1N1
|
SPX9000 High Performance Drives SPX060A2-2A1N1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13839
|
SPX075A2-2A1N1
|
SPX9000 High Performance Drives SPX075A2-2A1N1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13840
|
SPX100A2-2A1N1
|
SPX9000 High Performance Drives SPX100A2-2A1N1
|
SPX9000 High Performance Drives IP54 208-240V
|
Eaton Electric B.V.
|
VSD13841
|
SPX001A1-4A1B1
|
SPX9000 High Performance Drives SPX001A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13842
|
SPXF15A1-4A1B1
|
SPX9000 High Performance Drives SPXF15A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13843
|
SPX002A1-4A1B1
|
SPX9000 High Performance Drives SPX002A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13844
|
SPX003A1-4A1B1
|
SPX9000 High Performance Drives SPX003A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13845
|
SPX005A1-4A1B1
|
SPX9000 High Performance Drives SPX005A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13846
|
SPX006A1-4A1B1
|
SPX9000 High Performance Drives SPX006A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13847
|
SPX007A1-4A1B1
|
SPX9000 High Performance Drives SPX007A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13848
|
SPX010A1-4A1B1
|
SPX9000 High Performance Drives SPX010A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13849
|
SPX015A1-4A1B1
|
SPX9000 High Performance Drives SPX015A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13850
|
SPX020A1-4A1B1
|
SPX9000 High Performance Drives SPX020A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13851
|
SPX025A1-4A1B1
|
SPX9000 High Performance Drives SPX025A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13852
|
SPX030A1-4A1B1
|
SPX9000 High Performance Drives SPX030A1-4A1B1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13853
|
SPX040A1-4A1N1
|
SPX9000 High Performance Drives SPX040A1-4A1N1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13854
|
SPX050A1-4A1N1
|
SPX9000 High Performance Drives SPX050A1-4A1N1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13855
|
SPX060A1-4A1N1
|
SPX9000 High Performance Drives SPX060A1-4A1N1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13856
|
SPX075A1-4A1N1
|
SPX9000 High Performance Drives SPX075A1-4A1N1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13857
|
SPX100A1-4A1N1
|
SPX9000 High Performance Drives SPX100A1-4A1N1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13858
|
SPX125A1-4A1N1
|
SPX9000 High Performance Drives SPX125A1-4A1N1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13859
|
SPX150A1-4A1N1
|
SPX9000 High Performance Drives SPX150A1-4A1N1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13860
|
SPX200A1-4A1N1
|
SPX9000 High Performance Drives SPX200A1-4A1N1
|
SPX9000 High Performance Drives IP21 380-500V
|
Eaton Electric B.V.
|
VSD13861
|
SPX001A2-4A1B1
|
SPX9000 High Performance Drives SPX001A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13862
|
SPXF15A2-4A1B1
|
SPX9000 High Performance Drives SPXF15A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13863
|
SPX002A2-4A1B1
|
SPX9000 High Performance Drives SPX002A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13864
|
SPX003A2-4A1B1
|
SPX9000 High Performance Drives SPX003A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13865
|
SPX005A2-4A1B1
|
SPX9000 High Performance Drives SPX005A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13866
|
SPX006A2-4A1B1
|
SPX9000 High Performance Drives SPX006A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13867
|
SPX007A2-4A1B1
|
SPX9000 High Performance Drives SPX007A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13868
|
SPX010A2-4A1B1
|
SPX9000 High Performance Drives SPX010A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13869
|
SPX015A2-4A1B1
|
SPX9000 High Performance Drives SPX015A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13870
|
SPX020A2-4A1B1
|
SPX9000 High Performance Drives SPX020A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13871
|
SPX025A2-4A1B1
|
SPX9000 High Performance Drives SPX025A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13872
|
SPX030A2-4A1B1
|
SPX9000 High Performance Drives SPX030A2-4A1B1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13873
|
SPX040A2-4A1N1
|
SPX9000 High Performance Drives SPX040A2-4A1N1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13874
|
SPX050A2-4A1N1
|
SPX9000 High Performance Drives SPX050A2-4A1N1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13875
|
SPX060A2-4A1N1
|
SPX9000 High Performance Drives SPX060A2-4A1N1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13876
|
SPX075A2-4A1N1
|
SPX9000 High Performance Drives SPX075A2-4A1N1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13877
|
SPX100A2-4A1N1
|
SPX9000 High Performance Drives SPX100A2-4A1N1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13878
|
SPX125A2-4A1N1
|
SPX9000 High Performance Drives SPX125A2-4A1N1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13879
|
SPX150A2-4A1N1
|
SPX9000 High Performance Drives SPX150A2-4A1N1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13880
|
SPX200A2-4A1N1
|
SPX9000 High Performance Drives SPX200A2-4A1N1
|
SPX9000 High Performance Drives IP54 380-500V
|
Eaton Electric B.V.
|
VSD13881
|
SPX250A0-4A2N1
|
SPX9000 High Performance Drives SPX250A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13882
|
SPX300A0-4A2N1
|
SPX9000 High Performance Drives SPX300A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13883
|
SPX350A0-4A2N1
|
SPX9000 High Performance Drives SPX350A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13884
|
SPX400A0-4A2N1
|
SPX9000 High Performance Drives SPX400A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13885
|
SPX500A0-4A2N1
|
SPX9000 High Performance Drives SPX500A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13886
|
SPX550A0-4A2N1
|
SPX9000 High Performance Drives SPX550A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13887
|
SPX600A0-4A2N1
|
SPX9000 High Performance Drives SPX600A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13888
|
SPX650A0-4A2N1
|
SPX9000 High Performance Drives SPX650A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13889
|
SPX700A0-4A2N1
|
SPX9000 High Performance Drives SPX700A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13890
|
SPX800A0-4A2N1
|
SPX9000 High Performance Drives SPX800A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13891
|
SPX900A0-4A2N1
|
SPX9000 High Performance Drives SPX900A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13892
|
SPXH10A0-4A2N1
|
SPX9000 High Performance Drives SPXH10A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13893
|
SPXH12A0-4A2N1
|
SPX9000 High Performance Drives SPXH12A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13894
|
SPXH16A0-4A2N1
|
SPX9000 High Performance Drives SPXH16A0-4A2N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13895
|
SPX250A0-4A2N1U
|
SPX9000 High Performance Drives SPX250A0-4A2N1U
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 12-pulse supply
|
Eaton Electric B.V.
|
VSD13896
|
SPX300A0-4A2N1U
|
SPX9000 High Performance Drives SPX300A0-4A2N1U
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 12-pulse supply
|
Eaton Electric B.V.
|
VSD13897
|
SPX350A0-4A2N1U
|
SPX9000 High Performance Drives SPX350A0-4A2N1U
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 12-pulse supply
|
Eaton Electric B.V.
|
VSD13898
|
SPX400A0-4A2N1V
|
SPX9000 High Performance Drives SPX400A0-4A2N1V
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 12-pulse supply
|
Eaton Electric B.V.
|
VSD13899
|
SPX500A0-4A2N1V
|
SPX9000 High Performance Drives SPX500A0-4A2N1V
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 12-pulse supply
|
Eaton Electric B.V.
|
VSD13900
|
SPX550A0-4A2N1V
|
SPX9000 High Performance Drives SPX550A0-4A2N1V
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 12-pulse supply
|
Eaton Electric B.V.
|
VSD13901
|
SPX600A0-4A2N1U
|
SPX9000 High Performance Drives SPX600A0-4A2N1U
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 12-pulse supply
|
Eaton Electric B.V.
|
VSD13902
|
SPX650A0-4A2N1U
|
SPX9000 High Performance Drives SPX650A0-4A2N1U
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 12-pulse supply
|
Eaton Electric B.V.
|
VSD13903
|
SPX700A0-4A2N1U
|
SPX9000 High Performance Drives SPX700A0-4A2N1U
|
SPX9000 High Performance Drives SPX 380-500 V, IP00, EMC-level N, AIR COOLED FC MODULE, 12-pulse supply
|
Eaton Electric B.V.
|
VSD13904
|
SPX250A1-4A4N1
|
SPX9000 High Performance Drives SPX250A1-4A4N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP21, EMC-level L, AIR COOLED STAND-ALONE FC
|
Eaton Electric B.V.
|
VSD13905
|
SPX300A1-4A4N1
|
SPX9000 High Performance Drives SPX300A1-4A4N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP21, EMC-level L, AIR COOLED STAND-ALONE FC
|
Eaton Electric B.V.
|
VSD13906
|
SPX350A1-4A4N1
|
SPX9000 High Performance Drives SPX350A1-4A4N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP21, EMC-level L, AIR COOLED STAND-ALONE FC
|
Eaton Electric B.V.
|
VSD13907
|
SPX400A1-4A4N1
|
SPX9000 High Performance Drives SPX400A1-4A4N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP21, EMC-level L, AIR COOLED STAND-ALONE FC
|
Eaton Electric B.V.
|
VSD13908
|
SPX500A1-4A4N1
|
SPX9000 High Performance Drives SPX500A1-4A4N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP21, EMC-level L, AIR COOLED STAND-ALONE FC
|
Eaton Electric B.V.
|
VSD13909
|
SPX550A1-4A4N1
|
SPX9000 High Performance Drives SPX550A1-4A4N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP21, EMC-level L, AIR COOLED STAND-ALONE FC
|
Eaton Electric B.V.
|
VSD13910
|
SPX250A2-4A4N1
|
SPX9000 High Performance Drives SPX250A2-4A4N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP54, EMC-level L, AIR COOLED STAND-ALONE FC
|
Eaton Electric B.V.
|
VSD13911
|
SPX300A2-4A4N1
|
SPX9000 High Performance Drives SPX300A2-4A4N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP54, EMC-level L, AIR COOLED STAND-ALONE FC
|
Eaton Electric B.V.
|
VSD13912
|
SPX350A2-4A4N1
|
SPX9000 High Performance Drives SPX350A2-4A4N1
|
SPX9000 High Performance Drives SPX 380-500 V, IP54, EMC-level L, AIR COOLED STAND-ALONE FC
|
Eaton Electric B.V.
|
VSD13913
|
SPX002A1-5A4N1
|
SPX9000 High Performance Drives SPX002A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13914
|
SPX003A1-5A4N1
|
SPX9000 High Performance Drives SPX003A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13915
|
SPX004A1-5A4N1
|
SPX9000 High Performance Drives SPX004A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13916
|
SPX005A1-5A4N1
|
SPX9000 High Performance Drives SPX005A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13917
|
SPX007A1-5A4N1
|
SPX9000 High Performance Drives SPX007A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13918
|
SPX010A1-5A4N1
|
SPX9000 High Performance Drives SPX010A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13919
|
SPX015A1-5A4N1
|
SPX9000 High Performance Drives SPX015A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13920
|
SPX020A1-5A4N1
|
SPX9000 High Performance Drives SPX020A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13921
|
SPX025A1-5A4N1
|
SPX9000 High Performance Drives SPX025A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13922
|
SPX030A1-5A4N1
|
SPX9000 High Performance Drives SPX030A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13923
|
SPX040A1-5A4N1
|
SPX9000 High Performance Drives SPX040A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13924
|
SPX050A1-5A4N1
|
SPX9000 High Performance Drives SPX050A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13925
|
SPX060A1-5A4N1
|
SPX9000 High Performance Drives SPX060A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13926
|
SPX075A1-5A4N1
|
SPX9000 High Performance Drives SPX075A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13927
|
SPX100A1-5A4N1
|
SPX9000 High Performance Drives SPX100A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13928
|
SPX125A1-5A4N1
|
SPX9000 High Performance Drives SPX125A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13929
|
SPX150A1-5A4N1
|
SPX9000 High Performance Drives SPX150A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13930
|
SPX175A1-5A4N1
|
SPX9000 High Performance Drives SPX175A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13931
|
SPX200A1-5A4N1
|
SPX9000 High Performance Drives SPX200A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13932
|
SPX250A1-5A4N1
|
SPX9000 High Performance Drives SPX250A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13933
|
SPX300A1-5A4N1
|
SPX9000 High Performance Drives SPX300A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13934
|
SPX400A1-5A4N1
|
SPX9000 High Performance Drives SPX400A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13935
|
SPX450A1-5A4N1
|
SPX9000 High Performance Drives SPX450A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13936
|
SPX500A1-5A4N1
|
SPX9000 High Performance Drives SPX500A1-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP21, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13937
|
SPX002A2-5A4N1
|
SPX9000 High Performance Drives SPX002A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13938
|
SPX003A2-5A4N1
|
SPX9000 High Performance Drives SPX003A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13939
|
SPX004A2-5A4N1
|
SPX9000 High Performance Drives SPX004A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13940
|
SPX005A2-5A4N1
|
SPX9000 High Performance Drives SPX005A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13941
|
SPX007A2-5A4N1
|
SPX9000 High Performance Drives SPX007A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13942
|
SPX010A2-5A4N1
|
SPX9000 High Performance Drives SPX010A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13943
|
SPX015A2-5A4N1
|
SPX9000 High Performance Drives SPX015A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13944
|
SPX020A2-5A4N1
|
SPX9000 High Performance Drives SPX020A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13945
|
SPX025A2-5A4N1
|
SPX9000 High Performance Drives SPX025A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13946
|
SPX030A2-5A4N1
|
SPX9000 High Performance Drives SPX030A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13947
|
SPX040A2-5A4N1
|
SPX9000 High Performance Drives SPX040A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13948
|
SPX050A2-5A4N1
|
SPX9000 High Performance Drives SPX050A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13949
|
SPX060A2-5A4N1
|
SPX9000 High Performance Drives SPX060A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13950
|
SPX075A2-5A4N1
|
SPX9000 High Performance Drives SPX075A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13951
|
SPX100A2-5A4N1
|
SPX9000 High Performance Drives SPX100A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13952
|
SPX125A2-5A4N1
|
SPX9000 High Performance Drives SPX125A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13953
|
SPX150A2-5A4N1
|
SPX9000 High Performance Drives SPX150A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13954
|
SPX175A2-5A4N1
|
SPX9000 High Performance Drives SPX175A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13955
|
SPX200A2-5A4N1
|
SPX9000 High Performance Drives SPX200A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13956
|
SPX250A2-5A4N1
|
SPX9000 High Performance Drives SPX250A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13957
|
SPX300A2-5A4N1
|
SPX9000 High Performance Drives SPX300A2-5A4N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP54, EMC-level L, AIR COOLED FC
|
Eaton Electric B.V.
|
VSD13958
|
SPX200A0-5A2N1
|
SPX9000 High Performance Drives SPX200A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13959
|
SPX250A0-5A2N1
|
SPX9000 High Performance Drives SPX250A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13960
|
SPX300A0-5A2N1
|
SPX9000 High Performance Drives SPX300A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13961
|
SPX400A0-5A2N1
|
SPX9000 High Performance Drives SPX400A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13962
|
SPX450A0-5A2N1
|
SPX9000 High Performance Drives SPX450A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13963
|
SPX500A0-5A2N1
|
SPX9000 High Performance Drives SPX500A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13964
|
SPX550A0-5A2N1
|
SPX9000 High Performance Drives SPX550A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13965
|
SPX600A0-5A2N1
|
SPX9000 High Performance Drives SPX600A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13966
|
SPX700A0-5A2N1
|
SPX9000 High Performance Drives SPX700A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13967
|
SPX800A0-5A2N1
|
SPX9000 High Performance Drives SPX800A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13968
|
SPX900A0-5A2N1
|
SPX9000 High Performance Drives SPX900A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13969
|
SPXH10A0-5A2N1
|
SPX9000 High Performance Drives SPXH10A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13970
|
SPXH13A0-5A2N1
|
SPX9000 High Performance Drives SPXH13A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13971
|
SPXH15A0-5A2N1
|
SPX9000 High Performance Drives SPXH15A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD13972
|
SPXH20A0-5A2N1
|
SPX9000 High Performance Drives SPXH20A0-5A2N1
|
SPX9000 High Performance Drives SPX 525-690 V, IP00, EMC-level N, AIR COOLED FC MODULE, 6-pulse supply
|
Eaton Electric B.V.
|
VSD26330
|
09.F5.C1B-2B0A
|
Combivert F5 1.5-C1B2B0A
|
Rating 1.5kW 7A, 1/3PH 230V
|
KEB Ltd
|
VSD26331
|
10.F5.C1B-2A0A
|
Combivert F5 2.2-C1B2A0A
|
Rating 2.2kW 10A, 1/3PH 230V
|
KEB Ltd
|
VSD26332
|
12.F5.C1D-1A0A
|
Combivert F5 4.0-C1D1A0A
|
Rating 4kW 16.5A, 3PH 230V
|
KEB Ltd
|
VSD26333
|
13.F5.C1E-160A
|
Combivert F5 5.5-C1E-160A
|
Rating 5.5kW 24A, 3PH 230V
|
KEB Ltd
|
VSD26334
|
14.F5.C1E-150A
|
Combivert F5 7.5-C1E-150A
|
Rating 7.5kW 33A, 3PH 230V
|
KEB Ltd
|
VSD26335
|
15.F5.C1G-190F
|
Combivert F5 11-C1G-190F
|
Rating 11kW 48A, 3PH 230V
|
KEB Ltd
|
VSD26336
|
16.F5.C1H-1B0F
|
Combivert F5 15-C1H-1B0F
|
Rating 15kW 66A, 3PH 230V
|
KEB Ltd
|
VSD26337
|
09.F5.C1B-3A0A
|
Combivert F5 1.5-C1B-3A0A
|
Rating 1.5kW 4.1A, 3PH 400V
|
KEB Ltd
|
VSD26338
|
10.F5.C1B-3A0A
|
Combivert F5 2.2-C1B-3A0A
|
Rating 2.2kW 5.8A, 3PH 400V
|
KEB Ltd
|
VSD26339
|
12.F5.C1B-350A
|
Combivert F5 1.5-C1B-350A
|
Rating 4kW 9.5A, 3PH 400V
|
KEB Ltd
|
VSD26340
|
12.F5.C1D-3A0A
|
Combivert F5 4-C1D-3A0A
|
Rating 4kW 9.5A, 3PH 400V
|
KEB Ltd
|
VSD26341
|
13.F5.C1D-390A
|
Combivert F5 5.5-C1D-390A
|
Rating 5.5kW 12A, 3PH 400V
|
KEB Ltd
|
VSD26342
|
14.F5.C1D-380A
|
Combivert F5 7.5-C1D-380A
|
Rating 7.5kW 16.5A, 3PH 400V
|
KEB Ltd
|
VSD26343
|
12.F5.C1E-3B0A
|
Combivert F5 4-C1E-3B0A
|
Rating 4kW 9.5A, 3PH 400V
|
KEB Ltd
|
VSD26344
|
13.F5.C1E-3B0A
|
Combivert F5 5.5-C1E-3B0A
|
Rating 5.5kW 12A, 3PH 400V
|
KEB Ltd
|
VSD26345
|
14.F5.C1E-3A0A
|
Combivert F5 7.5-C1E-3A0A
|
Rating 7.5kW 16.5A, 3PH 400V
|
KEB Ltd
|
VSD26346
|
15.F5.C1E-350A
|
Combivert F5 11-C1E-350A
|
Rating 11kW 24A, 3PH 400V
|
KEB Ltd
|
VSD26347
|
16.F5.C1E-340A
|
Combivert F5 15-C1E-340A
|
Rating 15kW 33A, 3PH 400V
|
KEB Ltd
|
VSD26348
|
18.F5.C1G-340F
|
Combivert F5 22-C1G-340F
|
Rating 22kW 50A, 3PH 400V
|
KEB Ltd
|
VSD26349
|
17.F5.C0H-360F
|
Combivert F5 18.5-C0H-360F
|
Rating 18.5kW 42A, 3PH 400V
|
KEB Ltd
|
VSD26350
|
18.F5.C0H-360F
|
Combivert F5 22-C0H-360F
|
Rating 22kW 50A, 3PH 400V
|
KEB Ltd
|
VSD26351
|
19.F5.C0H-350F
|
Combivert F5 30-C0H-350F
|
Rating 30kW 60A, 3PH 400V
|
KEB Ltd
|
VSD26352
|
20.F5.C0H-340F
|
Combivert F5 37-C0H-340F
|
Rating 37kW 75A, 3PH 400V
|
KEB Ltd
|
VSD26353
|
19.F5.C0R-960A
|
Combivert F5 30-C0R-960A
|
Rating 30kW 60A, 3PH 400V
|
KEB Ltd
|
VSD26354
|
19.F5.C2R-960A
|
Combivert F5 30-C2R-960A
|
Rating 30kW 60A, 3PH 400V
|
KEB Ltd
|
VSD26355
|
20.F5.C0R-960A
|
Combivert F5 37-C0R-960A
|
Rating 37kW 75A, 3PH 400V
|
KEB Ltd
|
VSD26356
|
20.F5.C2R-960A
|
Combivert F5 37-C2R-960A
|
Rating 37kW 75A, 3PH 400V
|
KEB Ltd
|
VSD26357
|
21.F5.C0R-950A
|
Combivert F5 45-C0R-950A
|
Rating 45kW 90A, 3PH 400V
|
KEB Ltd
|
VSD26358
|
21.F5.C2R-950A
|
Combivert F5 45-C2R-950A
|
Rating 45kW 90A, 3PH 400V
|
KEB Ltd
|
VSD26359
|
22.F5.C0R-950A
|
Combivert F5 55-C0R-950A
|
Rating 55kW 115A, 3PH 400V
|
KEB Ltd
|
VSD26360
|
22.F5.C2R-950A
|
Combivert F5 55-C2R-950A
|
Rating 55kW 115A, 3PH 400V
|
KEB Ltd
|
VSD26361
|
23.F5.C0R-940A
|
Combivert F5 75-C0R-940A
|
Rating 75kW 115A, 3PH 400V
|
KEB Ltd
|
VSD26362
|
23.F5.C2R-940A
|
Combivert F5 75-C2R-940A
|
Rating 75kW 150A, 3PH 400V
|
KEB Ltd
|
VSD26363
|
24.F5.C0R-940A
|
Combivert F5 90-C0R-940A
|
Rating 90kW 180A, 3PH 400V
|
KEB Ltd
|
VSD26364
|
15.F5.C1G-360A
|
Combivert F5 11-G1G-360A
|
Rating 11kW 24A, 3PH 400V
|
KEB Ltd
|
VSD26365
|
16.F5.C1G-360A
|
Combivert F5 16-G1G-360A
|
Rating 15kW 33A, 3PH 400V
|
KEB Ltd
|
VSD26366
|
17.F5.C1G-350A
|
Combivert F5 18.5-G1G-350A
|
Rating 18.5kW 42A, 3PH 400V
|
KEB Ltd
|
VSD26367
|
17.F5.G0H-360F
|
Combivert F5 18.5-G0H-360F
|
Rating 18.5kW 42A, 3PH 400V
|
KEB Ltd
|
VSD26368
|
18.F5.G0H-360F
|
Combivert F5 22-G0H-360F
|
Rating 22kW 50A, 3PH 400V
|
KEB Ltd
|
VSD26369
|
19.F5.G0H-350F
|
Combivert F5 30-G0H-350F
|
Rating 30kW 60A, 3PH 400V
|
KEB Ltd
|
VSD26370
|
20.F5.G0H-340F
|
Combivert F5 37-G0H-340F
|
Rating 37kW 75A, 3PH 400V
|
KEB Ltd
|
VSD26371
|
19.F5.G0R-960A
|
Combivert F5 30-G0R-960A
|
Rating 30kW 60A, 3PH 400V
|
KEB Ltd
|
VSD26372
|
19.F5.G2R-960A
|
Combivert F5 30-G2R-960A
|
Rating 30kW 60A, 3PH 400V
|
KEB Ltd
|
VSD26373
|
20.F5.G0R-960A
|
Combivert F5 37-G0R-960A
|
Rating 37kW 75A, 3PH 400V
|
KEB Ltd
|
VSD26374
|
20.F5.G2R-960A
|
Combivert F5 37-G2R-960A
|
Rating 37kW 75A, 3PH 400V
|
KEB Ltd
|
VSD26375
|
21.F5.G0R-950A
|
Combivert F5 45-G0R-950A
|
Rating 45kW 90A, 3PH 400V
|
KEB Ltd
|
VSD26376
|
21.F5.G2R-950A
|
Combivert F5 45-G2R-950A
|
Rating 45kW 90A, 3PH 400V
|
KEB Ltd
|
VSD26377
|
22.F5.G0R-950A
|
Combivert F5 55-G0R-950A
|
Rating 55kW 115A, 3PH 400V
|
KEB Ltd
|
VSD26378
|
22.F5.G2R-950A
|
Combivert F5 55-G2R-950A
|
Rating 55kW 115A, 3PH 400V
|
KEB Ltd
|
VSD26379
|
23.F5.G0R-940A
|
Combivert F5 75-G0R-940A
|
Rating 75kW 115A, 3PH 400V
|
KEB Ltd
|
VSD26380
|
23.F5.G2R-940A
|
Combivert F5 75-G2R-940A
|
Rating 75kW 150A, 3PH 400V
|
KEB Ltd
|
VSD26381
|
24.F5.G0R-940A
|
Combivert F5 90-G0R-940A
|
Rating 90kW 180A, 3PH 400V
|
KEB Ltd
|
VSD26382
|
25.F5.G0U-910A
|
Combivert F5 90-G0U-910A
|
Rating 110kW 210A, 3PH 400V
|
KEB Ltd
|
VSD26383
|
26.F5.G0U-910A
|
Combivert F5 90-G0U-910
|
Rating 132kW 250A, 3PH 400V
|
KEB Ltd
|
VSD26384
|
27.F5.G0U-900A
|
Combivert F5 90-G0U-900A
|
Rating 160kW 3000A, 3PH 400V
|
KEB Ltd
|
VSD26385
|
28.F5.G0W-900A
|
Combivert F5 90-G0W-900A
|
Rating 200kW 3700A, 3PH 400V
|
KEB Ltd
|
VSD26386
|
30.F5.G0W-A00A
|
Combivert F5 90-G0W-A00A
|
Rating 315kW 570A, 3PH 400V
|
KEB Ltd
|
|
| |
”.
|
| |
6. Part 3 of Schedule 2 to the Principal Order is amended by inserting the following:
|
| |
“
|
| |
ACA Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
LIG9426
|
199XX-XXX-XXX
|
Fagerhult Open Box
|
Fagerhult Open Box suspended fluorescent luminaire. Direct/Indirect light distribution. With Beta or Lamell Louvres. HF, HF Dim, DALI and DSI options available. Fagerhult e-Sense Actilume and Smartswitch control options available.
|
Fagerhult
|
LIG9428
|
116XX
|
Fagerhult Tilt
|
Fagerhult Tilt suspended fluorescent luminaire. Direct/Indirect light distribution. With Lamell louvres. HF, HF Dim, DALI and DSI options available. Fagerhult e-Sense Actilume and Smartswitch control options available.
|
Fagerhult
|
LIG9429
|
26XXX
|
Fagerhult Notor G2 System
|
Fagerhult Notor G2 complete luminaire system. Direct/Indirect light distribution options. Suspended/Surface and wall mounted options. Lamell Louvre and opal diffuser options. HF, HF Dim, DALI and DSI options available.
|
Fagerhult
|
LIG9432
|
20150X-XXX
|
Fagerhult Tove
|
Fagerhult Tove suspended fluorescent luminaire. Direct/indirect light distribution. Various Louvre and diffuser options. HF, HF Dim and DALI options available.
|
Fagerhult
|
LIG9433
|
2448X-XXX
|
Fagerhult Indigo Clivus
|
Fagerhult Indigo Clivus surface mounted fluorescent luminaire. Direct light distribution. Beta louvre. Available with DALI, SwitchDim, DSI and e-Sense actilume options.
|
Fagerhult
|
LIG9434
|
268XX-XXX
|
Fagerhult Tigrus
|
Fagerhult Tigris suspended fluorescent luminaire. Direct/indirect light distribution. Beta and Lamell louvres. DALI, switchDIM, DSI and eSense actilum options available.
|
Fagerhult
|
LIG9436
|
2064XX-XXX
|
Fagerhult Como
|
Fagerhult Como fluorescent luminaire. Direct light distribution. Lamell louvre and Opal diffuser options. HF and SwitchDIM/DSI options available.
|
Fagerhult
|
LIG9437
|
2036XX-XXX
|
Fagerhult Fovea II
|
Fagerhult Fovea II fluorescent system. Direct/indirect light distribution. Cross blade louvre. HF, HF DIM, Smartswitch/SwitchDIM and DSI options available.
|
Fagerhult
|
LIG9439
|
283XX-XXX
|
Fagerhult Zora
|
Fagerhult Zora suspended fluorescent system. Direct/indirect light distribution. Gamma, Beta, Lamell, Terazza and honeycomb louvre options. HF, DALI, SwitchDIM/DSI and eSense actilume control options.
|
Fagerhult
|
LIG9440
|
26XXX-XXX
|
Fagerhult Ten
|
Fagerhult Ten fluorescent system. Direct/indirect light distribution. Beta, Terazza and Lamell louvre options. HF, DALI, SwitchDIM/DSI and eSense actilume control options.
|
Fagerhult
|
LIG9441
|
28XXX-XXX
|
Fargehult DTI
|
Fagerhult DTI fluorescent system. Direct/indirect light distribution. Beta, Terazza and Lamell louvre options. HF, DALI, SwitchDIM/DSI and eSense actilume control options.
|
Fagerhult
|
LIG9442
|
208XXX-XXX
|
Fagerhult Super Tube
|
Fagerhult Super Tube fluorescent system. Cross blade louvre. HF and HF/DIM options.
|
Fagerhult
|
LIG9443
|
198XX-XXX
|
Fagerhult Lento
|
Fagerhult Lento wall mounted fluorescent luminaire. Acrylic lined diffuser. HP, DALI, SwitchDIM and DSI options available.
|
Fagerhult
|
LIG9445
|
17401
|
Fagerhult Sektor T5
|
Fagerhult Sektor T5 surface mounted fluoescent luminaire. Lamell louvre. HF, DALI and SwitchDIM/DSI options available.
|
Fagerhult
|
LIG9446
|
183XX-XX
|
Fagerhult Excis
|
Fagerhult Excis fluorescent system. White louvre. HF, DALI and SwitchDIM/DSI options available.
|
Fagerhult
|
LIG9447
|
176XX-XXX
|
Fagerhult Gondol T5
|
Fagerhult Gondol surface or recessed fluorescent system. HF, DALI and SwitchDIM/DSI options available.
|
Fagerhult
|
LIG9448
|
108XX
|
Fagerhult Basic
|
Fagerhult Basic surface mounted fluorescent system. HF and HFDIM options available.
|
Fagerhult
|
LIG10603
|
1990X1
|
Fagerhult Orosso1
|
Fagerhult Orosso suspended fluorescent luminaire. Direct/Indirect light distribution. Available with HF or DALI control gear.
|
Fagerhult
|
LIG10783
|
PROFI3 V2
|
Profi 3 V2
|
1x80W Surface Luminaire, HF Ballast
|
Garrabridge
|
LIG10790
|
PROFI12 V2
|
profi 12 V2
|
1x80W Surface Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG10858
|
Task1 V2
|
Batten1 V2
|
TSK154
|
Garrabridge
|
LIG10859
|
Task2 V2
|
Batten2 V2
|
TSK149
|
Garrabridge
|
LIG10860
|
Task3 V2
|
Batten3 V2
|
TSK180
|
Garrabridge
|
LIG10863
|
Task6 V2
|
Batten6 V2
|
TSK239
|
Garrabridge
|
LIG10864
|
Task7 V2
|
Batten7 V2
|
TSK254
|
Garrabridge
|
LIG10866
|
Task9 V2
|
Batten9 V2
|
TSK249
|
Garrabridge
|
LIG10867
|
Task10 V2
|
Batten10 V2
|
TSK280
|
Garrabridge
|
LIG10888
|
Blade1 V2
|
Wall 1 V2
|
BDE 1X55W Wall Mounted Luminaire, HF Ballast
|
Garrabridge
|
LIG10889
|
Blade2 V2
|
Wall 2 V2
|
BDE 1X80W Wall Mounted Luminaire, HF Ballast
|
Garrabridge
|
LIG10890
|
Blade3 V2
|
Wall 3 V2
|
BDE 1X55W Wall Mounted Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG10891
|
Blade4 V2
|
Wall 4 V2
|
BDE 1X80W Wall Mounted Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG10898
|
HERALD T52 V2
|
High Rack2 V2
|
HERT5 3X49 High Rack Luminaire, HF Ballast
|
Garrabridge
|
LIG10900
|
HERALD T54 V2
|
High Rack4 V2
|
HERT5 4X54 High Rack Luminaire, HF Ballast
|
Garrabridge
|
LIG10901
|
HERALD T55 V2
|
High Rack5 V2
|
HERT5 4X49 High Rack Luminaire, HF Ballast
|
Garrabridge
|
LIG10903
|
HERALD T57 V2
|
High Rack7 V2
|
HERT5 3X54 High Rack Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG10904
|
HERALD T58 V2
|
High Rack8 V2
|
HERT5 3X49 High Rack Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG10906
|
HERALD T510 V2
|
High Rack10 V2
|
HERT5 4X54 High Rack Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG10907
|
HERALD T511 V2
|
High Rack11 V2
|
HERT5 4X49 High Rack Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG10920
|
Lux6 V2
|
IP65 WProof6 V2
|
2x35W Surface, Diffuser,HF Ballast
|
Garrabridge
|
LIG10921
|
Lux7 V2
|
IP65 WProof7 V2
|
2x49W Surface, Diffuser,HF Ballast
|
Garrabridge
|
LIG10925
|
Lux13 V2
|
IP65 WProof13 V2
|
2x35W Surface, Diffuser,HF Ballast Dimmable
|
Garrabridge
|
LIG10926
|
Lux14 V2
|
IP65 WProof14 V2
|
2x49W Surface, Diffuser,HF Ballast Dimmable
|
Garrabridge
|
LIG10943
|
PRO SPORT1 V2
|
Sports 1 V2
|
PRO 3x49W Surface Sports Hall Luminaire, HF Ballast
|
Garrabridge
|
LIG10945
|
PRO SPORT3 V2
|
Sports 3 V2
|
PRO 4x49W Surface Sports Hall Luminaire, HF Ballast
|
Garrabridge
|
LIG10946
|
PRO SPORT4 V2
|
Sports 4 V2
|
PRO 4x80W Surface Sports Hall Luminaire, HF Ballast
|
Garrabridge
|
LIG10947
|
PRO SPORT5 V2
|
Sports 5 V2
|
PRO 3x49W Surface Sports Hall Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG10949
|
PRO SPORT7 V2
|
Sports 7 V2
|
PRO 4x49W Surface Sports Hall Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG10950
|
PRO SPORT8 V2
|
Sports 8 V2
|
PRO 4x80W Surface Sports Hall Luminaire, HF Ballast Dimmable
|
Garrabridge
|
LIG11025
|
Futurix6 V2
|
IP65 WProof21 V2
|
2x35W Surface, Diffuser,HF Ballast
|
Garrabridge
|
LIG11026
|
Futurix7 V2
|
IP65 WProof22 V2
|
2x49W Surface, Diffuser,HF Ballast
|
Garrabridge
|
LIG11030
|
Futurix13 V2
|
IP65 WProof28 V2
|
2x35W Surface, Diffuser,HF Ballast Dimmable
|
Garrabridge
|
LIG11031
|
Futurix14 V2
|
IP65 WProof29 V2
|
2x49W Surface, Diffuser,HF Ballast Dimmable
|
Garrabridge
|
LIG11152
|
248XX
|
Fagerhult Indigo Combo Beta 2-cell
|
Fagerhult Indigo Combo Beta 2-cell recessed 600 x 600 luminaire. Beta Louvre 1 cell. HF, Dali, SwitchDim/DSI, e-Sense Actilume and Smartwitch absense control options.
|
Fagerhult
|
LIG11153
|
246XX
|
Fagerhult Indigo Ed2 R1 Perfo
|
Fagerhult Indigo Ed2 R1 Perfo recessed 600 x 600 luminaire. Perfo Louvre. HF, SwitchDim/DSI control options.
|
Fagerhult
|
LIG11154
|
2464X
|
Fagerhult Indigo Ed2 R1 Slits
|
Fagerhult Indigo Ed2 R1 Slits recessed 600 x 600 luminaire. Slits Louvre. HF, SwitchDim/DSI control options.
|
Fagerhult
|
LIG11155
|
25AXX
|
Fagerhult Multifive Basic Beta
|
Fagerhult Multifive Basic Beta recessed luminaire. Beta Louvre. HF, Dali, SwitchDim/DSI, e-Sense Actilume and Smartwitch absense control options.
|
Fagerhult
|
LIG11156
|
256XX
|
Fagerhult Multifive Basic Gamma
|
Fagerhult Multifive Basic Beta recessed luminaire. Gamma Louvre. HF, Dali, SwitchDim/DSI, e-Sense Actilume and Smartwitch absense control options.
|
Fagerhult
|
LIG11157
|
25BXX
|
Fagerhult Multifive Basic Terazza
|
Fagerhult Multifive Basic Gamma recessed luminaire. Terazza Louvre. HF, Dali, SwitchDim/DSI, e-Sense Actilume and Smartwitch absense control options.
|
Fagerhult
|
LIG11158
|
251XX
|
Fagerhult Multifive Basic Texpo
|
Fagerhult Multifive Basic Texpo recessed luminaire. Terazza Louvre. HF, Dali, SwitchDim/DSI, e-Sense Actilume and Smartwitch absense control options.
|
Fagerhult
|
LIG11159
|
206AXX
|
Fagerhult Como 600 Symmetrical
|
Fagerhult Como 600 recessed luminaire. White Lamelle Louvre. HF, Dali, SwitchDim/DSI control options.
|
Fagerhult
|
LIG11160
|
206XXXX
|
Fagerhult Como 1200 Symmetrical
|
Fagerhult Como 1200 recessed luminaire. White Lamelle Louvre. HF, Dali, SwitchDim/DSI control options.
|
Fagerhult
|
LIG11161
|
2063XX
|
Fagerhult Como 600 Wide Symmetrical
|
Fagerhult Como 600 Wide recessed luminaire. White Lamelle Louvre. HF, Dali, SwitchDim/DSI control options.
|
Fagerhult
|
LIG11162
|
2006XX
|
Fagerhult Como 1200 Wide Symmetrical
|
Fagerhult Como 1200 Wide recessed luminaire. White Lamelle Louvre. HF, Dali, SwitchDim/DSI control options.
|
Fagerhult
|
LIG11184
|
IM098DTFL214
|
I-Mod
|
Recessed modular 2x14w HF T5 LOR
|
Hacel Lighting
|
LIG11185
|
IM098DTFL224
|
I-Mod Solo
|
Recessed modular 2x24w HF T5 LOR
|
Hacel Lighting
|
LIG11186
|
IM098DPLL055
|
I-Mod Solo.
|
Recessed modular 1x55w HF PLL LOR
|
Hacel Lighting
|
LIG11187
|
IM098DPLL040
|
I-Mod Solo,
|
Recessed modular 1x40w HF PLL LOR
|
Hacel Lighting
|
LIG11195
|
WR135E
|
Westlux Retrolux T5, 35 Watt Adapter
|
Adapter T5 for Energysaving with linear Flourescent lamps
|
Global Energy Management (Europe) Ltd
|
LIG11196
|
WR128E
|
Westlux Retrolux T5, 28 Watt Adapter
|
Adapter T5 for Energysaving with linear Flourescent lamps
|
Global Energy Management (Europe) Ltd
|
LIG11999
|
LF654.
|
Powerlux.
|
A T5 linear flourecent replacement for Highbays and Lowbays using warm start high frequency ballasts for surface or suspended mounting.
|
Preslite Ltd
|
LIG12000
|
LF455L.
|
Flo-Bay.
|
A compact fluorecent lowbay utilising 55 watt compact fluorecent tubes and warm start high frequency ballasts.
|
Preslite Ltd
|
LIG12274
|
LB400M
|
Starbay
|
400 watt Industrial Lowbay c/w lamp and safety glass
|
Preslite Ltd
|
LIG12275
|
HB400M
|
Highbay
|
400 watt Industrial Highbay c/w lamp and safety glass
|
Preslite Ltd
|
LIG12276
|
HBRB400M
|
Decorative Highbay
|
400 watt Decorative Highbay c/w lamp and refractor
|
Preslite Ltd
|
LIG12277
|
LF355
|
Flo-bay 3
|
A fluorescent lowbay supplied c/w 55 watt PLL lamps
|
Preslite Ltd
|
LIG12278
|
LF255
|
Flo-bay 2
|
A fluorescent lowbay supplied c/w 55 watt PLL lamps
|
Preslite Ltd
|
LIG12279
|
LF455
|
Flo-bay 4
|
A fluorescent lowbay supplied c/w 55 watt PLL lamps
|
Preslite Ltd
|
LIG12280
|
Tornado 118 HF
|
Tornado PC 1x 18w HF
|
Corrosion resistant luminaire- polycarb. Diffuser
|
ACEC Distributors
|
LIG12281
|
Tornado 136 HF
|
Tornado PC 1x 36w HF
|
Corrosion resistant luminaire- polycarb. Diffuser
|
ACEC Distributors
|
LIG12282
|
Tornado 158 HF
|
Tornado PC 1x 58w HF
|
Corrosion resistant luminaire- polycarb. Diffuser
|
ACEC Distributors
|
LIG12283
|
Tornado 236 HF
|
Tornado PC 2 X 36w HF
|
Corrosion resistant luminaire- polycarb. Diffuser
|
ACEC Distributors
|
LIG12284
|
Tornado 258 HF
|
Tornado PC 2 X 58w HF
|
Corrosion resistant luminaire- polycarb. Diffuser
|
ACEC Distributors
|
LIG12285
|
Tornado136AL HF
|
Tornado PC AL x 136 HF
|
corrosion resistant luminaire- polycarb. Diffuser +Aluminium Ref
|
ACEC Distributors
|
LIG12286
|
Tornado 158AL HF
|
Tornado PC AL x158 HF
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12287
|
Tornado 236AL HF
|
Tornado PC AL x 236 HF
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12288
|
Tornado 258 AL HF
|
Tornado PC AL 2x 58 HF
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12289
|
Tornado 128
|
Tornado PC 1 X 28W + Ref
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12290
|
Tornado 135
|
Tornado PC 1x 35w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12291
|
Tornado 135 AL
|
Tornado PC 1 X 35W + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12292
|
Tornado 149
|
Tornado PC 1x 49w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12293
|
Tornado 149 AL
|
Tornado PC 1 X 49w + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12294
|
Tornado 154
|
Tornado PC 1x 54w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12295
|
Tornado 154 AL
|
Tornado PC 1 X 54w + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12296
|
Tornado 180
|
Tornado PC 1x 80w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12297
|
Tornado 180 AL
|
Tornado PC 1 X 80w + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12298
|
Tornado 214
|
Tornado PC 2x 14w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12299
|
Tornado 224
|
Tornado PC 2x 24w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12300
|
Tornado 228
|
Tornado PC 2x 28w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12301
|
Tornado 228 AL
|
Tornado PC 2x 28w + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12302
|
Tornado 235
|
Tornado PC 2x 35w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12303
|
Tornado 235 AL
|
Tornado PC 2x 35w + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12304
|
Tornado 249
|
Tornado PC 2x 49w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12305
|
Tornado 249 AL
|
Tornado PC 2x 49w + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12306
|
Tornado 254
|
Tornado PC 2x 54w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12307
|
Tornado 254 AL
|
Tornado PC 2x 54w + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12308
|
Tornado 280
|
Tornado PC 2x 80w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12309
|
Tornado 280 AL
|
Tornado PC 2x 80w + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12310
|
Tornado 328
|
Tornado PC 3x 28w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12311
|
Tornado 328 AL
|
Tornado PC 3x 35w + Ref
|
corrosion resistant luminaire — polycarb. Diffuser + Aluminium Ref
|
ACEC Distributors
|
LIG12312
|
Tornado 354
|
Tornado PC 3x 54w
|
corrosion resistant luminaire — polycarb. Diffuser
|
ACEC Distributors
|
LIG12313
|
Rel PMV ref 414
|
Relax ParMat V Ref 4x 14w
|
Recessed 600 X 600 Matt Louved Luminaire
|
ACEC Distributors
|
LIG12314
|
Rel PMV M5 414
|
Relax ParMat V M5 4x 14w
|
Recessed 600 X 600 Matt Louved Luminaire
|
ACEC Distributors
|
LIG12315
|
Rel PVM4 414
|
Relax ParV M4 4X 14w
|
Recessed 600 X 600 Spec Louved Luminaire
|
ACEC Distributors
|
LIG12316
|
Rel PVM4 424
|
Relax ParV M4 4X 24w
|
Recessed 600 X 600 Spec Louved Luminaire
|
ACEC Distributors
|
LIG12317
|
Rel PV M5228
|
Relax ParMat M5 2 X 28w
|
Recessed 1200 x 300 Matt Louvred Luminaire
|
ACEC Distributors
|
LIG12318
|
Rel PV M5254
|
Relax ParV M5 2 X 54w
|
Recessed 1200 x 300 Spec Louvred Luminaire
|
ACEC Distributors
|
LIG12319
|
CL ASPAR 258HF
|
Classic ASPAR 2X 58w HF
|
Surface 2 x 58w Spec Louvred Luminaire
|
ACEC Distributors
|
LIG12320
|
CL ASPAR 236HF
|
Classic ASPAR 2X 36w HF
|
Surface 2 x 36w Spec Louvred Luminaire
|
ACEC Distributors
|
LIG12321
|
CL ASPAR 235
|
Classic ASPAR 2X 35w
|
Surface 2 x 35w Spec Louvred Luminaire
|
ACEC Distributors
|
LIG12322
|
CL ASPAR 228
|
Classic ASPAR 2X 28w
|
Surface 2 x 28w Spec Louvred Luminaire
|
ACEC Distributors
|
LIG12323
|
CL ASLA 258HF
|
Classic ASLA 2X 58wHF
|
Surface 2 x 58w Louvred Luminaire
|
ACEC Distributors
|
LIG12324
|
CL ASLA 236HF
|
Classic ASLA 2X 36wHF
|
Surface 2 x 36w Louvred Luminaire
|
ACEC Distributors
|
LIG12325
|
CL ASLA 158HF
|
Classic ASLA 1X58wHF
|
Surface 1 x 58w Louvred Luminaire
|
ACEC Distributors
|
LIG12326
|
CL ASLA 136HF
|
Classic ASLA 1X36WwF
|
Surface 1 x 36w Louvred Luminaire
|
ACEC Distributors
|
LIG12327
|
Var 254
|
Vario PARV 2 X 54W
|
Track System 2 x 54w louvred luminaire
|
ACEC Distributors
|
LIG12328
|
Mod ESO PARV328
|
Modul ESO PARV M4 3 x28w
|
Suspended Louvred Luminaire
|
ACEC Distributors
|
LIG12329
|
Mod ESO PARV335
|
Modul ESO PARV M4 3 x35w
|
Suspended Louvred Luminaire
|
ACEC Distributors
|
LIG12330
|
Mod DA
|
Modul DA PARV 2 x54w
|
Suspended Louvred Luminaire
|
ACEC Distributors
|
LIG12331
|
Mod EXE
|
Modul EXE PARV 2 x49w
|
Suspended Louvred Luminaire Dir/Ind
|
ACEC Distributors
|
LIG12332
|
Avavt PARV149
|
Modul Avant PARV 1 X 49w
|
Suspended Louvred Luminaire System
|
ACEC Distributors
|
LIG12333
|
Mod KA135
|
Modul KA 1 X 35w
|
Suspended Louvred Luminaire System
|
ACEC Distributors
|
LIG12334
|
Mod KA254
|
Modul KA 2 X 54w
|
Suspended Louvred Luminaire System
|
ACEC Distributors
|
LIG12335
|
Mod KA 236HF
|
Modul KA 2 X 36w HF
|
Suspended Louvred Luminaire System
|
ACEC Distributors
|
LIG12336
|
SUP 454HFD
|
Supreme 454 HFD
|
Suspended Energy Efficient High Bay
|
ACEC Distributors
|
LIG12337
|
SUP 454HF
|
Supreme 454 HF
|
Suspended Energy Efficient High Bay
|
ACEC Distributors
|
LIG12340
|
SUP 254HFD
|
Supreme 254 HFD
|
Suspended Energy Efficient High Bay
|
ACEC Distributors
|
LIG12341
|
SUP 254HF
|
Supreme 254 HF
|
Suspended Energy Efficient High Bay
|
ACEC Distributors
|
LIG12604
|
3F49
|
LINDA
|
CORROSION PROOF T5
|
3F filippi
|
LIG12714
|
GE-LT306050CTR.
|
Immersion RV30 Series 6050CTR
|
Supermarket refrigerator luminaire. 60" centre mullion. The LED is driven by a GE PS1700 Power Supply.
|
GE Lumination
|
LIG12715
|
GE-LT306050EDL.
|
Immersion RV30 Series 6050EDL
|
Supermarket refrigerator luminaire. 60" Edge left mullion. The LED is driven by a GE PS1700 Power Supply.
|
GE Lumination
|
LIG12716
|
GE-LT306050EDR.
|
Immersion RV30 Series 6050EDR
|
Supermarket refrigerator luminaire. 60" edge right mullion. The LED is driven by a GE PS1700 Power Supply.
|
GE Lumination
|
LIG12717
|
GE-LT307050CTR.
|
Immersion RV30 Series 7050CTR
|
Supermarket refrigerator luminaire. 70" centre mullion. The LED is driven by a GE PS1700 Power Supply.
|
GE Lumination
|
LIG12718
|
GE-LT307050EDL.
|
Immersion RV30 Series 7050EDL
|
Supermarket refrigerator luminaire. 70" edge left mullion. The LED is driven by a GE PS1700 Power Supply.
|
GE Lumination
|
LIG12719
|
GE-LT307050EDR.
|
Immersion RV30 Series 7050EDR
|
Supermarket refrigerator luminaire. 70" edge right mullion. The LED is driven by a GE PS1700 Power Supply.
|
GE Lumination
|
LIG12720
|
SUP.654.HFD.
|
Supreme.654.HFD.
|
Suspended Energy Efficient Fluorescent High Bay with Dual Sensor
|
ACEC Distributors
|
LIG12721
|
SUP.654.HF.
|
Supreme.654.HF.
|
Suspended Energy Efficient Fluorescent High Bay
|
ACEC Distributors
|
LIG13143
|
RBS315/2TL80/HF/M4.
|
Luxonic Aislelux 2x80W (specular).
|
T5 fluo. luminaire for rack lighting in stores and warehouses, c/w high intensity reflector for mounting heights of >10m. HF,DSI or DALI control gear, with integral controls. IP65 version available.
|
Luxonic Lighting Plc
|
LIG13144
|
RBS315/3TL80/HF/M4.
|
Luxonic Aislelux 3x80W (specular).
|
T5 fluo. luminaire for rack lighting in stores and warehouses, c/w high intensity reflector for mounting heights of >10m. HF,DSI or DALI control gear, with integral controls. IP65 version available.
|
Luxonic Lighting Plc
|
LIG13145
|
RBS315/4TL80/HF/M4.
|
Luxonic Aislelux 4x80W (specular).
|
T5 fluo. luminaire for rack lighting in stores and warehouses, c/w high intensity reflector for mounting heights of >10m. HF,DSI or DALI control gear, with integral controls. IP65 version available.
|
Luxonic Lighting Plc
|
LIG13146
|
RBS315/2TL80/HF/MM.
|
Luxonic Aislelux2x80W (micromatt).
|
T5 fluo. luminaire for rack lighting in stores and warehouses, c/w high intensity reflector for mounting heights of >10m. HF,DSI or DALI control gear, with integral controls. IP65 version available.
|
Luxonic Lighting Plc
|
LIG13147
|
RBS315/3TL80/HF/MM.
|
Luxonic Aislelux 3x80W (micromatt).
|
T5 fluo. luminaire for rack lighting in stores and warehouses, c/w high intensity reflector for mounting heights of >10m. HF,DSI or DALI control gear, with integral controls. IP65 version available.
|
Luxonic Lighting Plc
|
LIG13148
|
MBS315/2TL80/HF/M4.
|
Luxonic MBS 2x80W.
|
T5 fluo. luminaire for open industrial/retail applications c/w high intensity reflector for mounting heights of >10m. HF,DSI or DALI control gear, with integral controls. IP65 version available.
|
Luxonic Lighting Plc
|
LIG13149
|
MBS315/3TL80/HF/M4.
|
Luxonic MBS 3x80W.
|
T5 fluo. luminaire for open industrial/retail applications c/w high intensity reflector for mounting heights of >10m. HF,DSI or DALI control gear, with integral controls. IP65 version available.
|
Luxonic Lighting Plc
|
LIG13150
|
MBS315/4TL80/HF/M4.
|
Luxonic MBS 4x80W.
|
T5 fluo. luminaire for open industrial/retail applications c/w high intensity reflector for mounting heights of >10m. HF,DSI or DALI control gear, with integral controls. IP65 version available.
|
Luxonic Lighting Plc
|
LIG13151
|
BLR66/1TC40/HF/LP.
|
Luxonic Broadlighter BLR 1x40W.
|
Recessed modular luminaire c/w high efficiency LG7 compatible microprism diffuser & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13152
|
BLR66/1TC55/HF/LP.
|
Luxonic Broadlighter 1x55W.
|
Recessed modular luminaire c/w high efficiency LG7 compatible microprism diffuser & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13153
|
AHH55/1TCL36/HF/WMM.
|
Luxonic Alterlux Harmony1x36W.
|
Recessed modular luminaire c/w LG7 compatible direct/indirect louvre/perforated diffuser & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13154
|
AHH55/1BX34/HF/WMM.
|
Luxonic Alterlux Harmony 1x34W.
|
Recessed modular luminaire c/w LG7 compatible direct/indirect louvre/perforated diffuser & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13155
|
AHH55/1TCL40/HF/WMM.
|
Luxonic Alterlux Harmony 1x40W.
|
Recessed modular luminaire c/w LG7 compatible direct/indirect louvre/perforated diffuser & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13156
|
AHH55/1TCL55/HF/WMM.
|
Luxonic Alterlux Harmony 1x55W.
|
Recessed modular luminaire c/w LG7 compatible direct/indirect louvre/perforated diffuser & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13157
|
AHH55/2TCL36/HF/WMM.
|
Luxonic Alterlux Harmony 2x36W.
|
Recessed modular luminaire c/w LG7 compatible direct/indirect louvre/perforated diffuser & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13158
|
AHH55/2TCL40/HF/WMM.
|
Luxonic Alterlux Harmony 2x40W.
|
Recessed modular luminaire c/w LG7 compatible direct/indirect louvre/perforated diffuser & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13159
|
AHH55/2TCL55/HF/WMM.
|
Luxonic Alterlux Harmony 2x55W.
|
Recessed modular luminaire c/w LG7 compatible direct/indirect louvre/perforated diffuser & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13160
|
BLM312/1TL28/HF/LP.
|
Luxonic Broadlighter Mono1x28W.
|
Recessed modular luminaire c/w LG7 compatible prismatic diffuser/ribbed reflector & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13161
|
BLM612/1TL54/HF/LP.
|
Luxonic Broadlighter Mono 1x54W (wide).
|
Recessed modular luminaire c/w LG7 compatible prismatic diffuser/ribbed reflector & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13162
|
BLM312/1TL54/HF/LP.
|
Luxonic Broadlighter Mono 1x54W.
|
Recessed modular luminaire c/w LG7 compatible prismatic diffuser/ribbed reflector & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13163
|
BLD66/2TL24/HF/LP.
|
Luxonic Broadlighter Duo 2x24W.
|
Recessed modular luminaire c/w LG7 compatible prismatic diffuser/ribbed reflector & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
LIG13164
|
BLD66/2TCL40/HF/LP.
|
Luxonic Broadlighter Duo 2x40W.
|
Recessed modular luminaire c/w LG7 compatible prismatic diffuser/ribbed reflector & HF/DSI/DALI control gear. Fits most standard ceilings.
|
Luxonic Lighting Plc
|
|
| |
ACA Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
LIG12602
|
T150xx
|
Trust 150W
|
Compact IP65 luminaire with CDM lamp for industrial use. Useful for cranes, hi-masts, warehouses, workshops, stables, mining equipment.
|
Prismalence AB
|
LIG12603
|
BM250xx
|
Booster Mast 250W
|
Powerful IP65 luminaire with CDM lamp for industrial use. Useful for large cranes, hi-masts, workshops.
|
Prismalence AB
|
LIG13824
|
HLB454
|
Warehouse Lighting
|
warehouse light 4x54w
|
Galaxy Components Ltd
|
LIG13825
|
HLB654
|
Warehouse Lighting High Output
|
warehouse light 6x54w
|
Galaxy Components Ltd
|
LIG17387
|
SW14023
|
SOLOW XL 4x80w OB
|
4x80w Open Broad
|
Thorlux Lighting
|
LIG17388
|
SW14026
|
SOLOW XL 4x80w ON
|
4x80w Open Narrow
|
Thorlux Lighting
|
LIG17389
|
SW14029
|
SOLOW XL 4x80w PB
|
4x80w Poly Broad
|
Thorlux Lighting
|
LIG17390
|
SW14032
|
SOLOW XL 4x80w PN
|
4x80w Poly Narrow
|
Thorlux Lighting
|
LIG17391
|
SW14035
|
SOLOW XL S 4x80w OB
|
4x80w Open Broad Smart
|
Thorlux Lighting
|
LIG17392
|
SW14038
|
SOLOW XL S 4x80w ON
|
4x80w Open Narrow Smart
|
Thorlux Lighting
|
LIG17393
|
SW14041
|
SOLOW XL S 4x80w PB
|
4x80w Poly Broad Smart
|
Thorlux Lighting
|
LIG17394
|
SW14044
|
SOLOW XL S 4x80w PN
|
4x80w Poly Narrow Smart
|
Thorlux Lighting
|
LIG17395
|
AL14082
|
A-LINE XL 2x49w A
|
2x49w Acrylic
|
Thorlux Lighting
|
LIG17396
|
AL14081
|
A-LINE XL 2x49w P
|
2x49w Polycarbonate
|
Thorlux Lighting
|
LIG17397
|
AL14084
|
A-LINE XL S 2x35w A
|
2x35w Acrylic Smart
|
Thorlux Lighting
|
LIG17398
|
AL14083
|
A-LINE XL S 2x35w P
|
2x35w Polycarbonate Smart
|
Thorlux Lighting
|
LIG17399
|
AL14086
|
A-LINE XL S 2x49w A
|
2x49w Acrylic Smart
|
Thorlux Lighting
|
LIG17400
|
AL14085
|
A-LINE XL S 2x49w P
|
2x49w Polycarbonate Smart
|
Thorlux Lighting
|
LIG24316
|
PVD01-14W
|
14W T5 Adapter
|
Adapter to convert T8 Fluorecent fittings to T5
|
Deqing Daran Electronics Ltd.
|
LIG24317
|
PVD01-21W
|
21W T5 Adapter
|
Adapter to convert T8 Fluorecent fittings to T5
|
Deqing Daran Electronics Ltd.
|
LIG24330
|
PVD01-28W
|
28W T5 Adapter
|
Adapter to convert T8 Fluorecent fittings to T5
|
Deqing Daran Electronics Ltd.
|
LIG24331
|
PVD01-35W
|
35W T5 Adapter
|
Adapter to convert T8 Fluorecent fittings to T5
|
Deqing Daran Electronics Ltd.
|
LIG24830
|
DB114-35
|
Dimmable ballast 1x14w to 1x35w
|
Dimmable ballast 1x14w to 1x35w
|
Galaxy Components Ltd
|
LIG24831
|
DB214-35
|
Dimmable ballast 2x14w to 2x35w
|
Dimmable ballast 2x14w to 2x35w
|
Galaxy Components Ltd
|
LIG24832
|
DB254-58
|
Dimmable ballast 2x54w and 2x58w
|
Dimmable ballast 2x54w and 2x58w
|
Galaxy Components Ltd
|
LIG24833
|
DB149
|
Dimmable ballast 1x49w
|
Dimmable ballast 1x49w
|
Galaxy Components Ltd
|
LIG24834
|
DB249
|
Dimmable ballast 2x49w
|
Dimmable ballast 2x49w
|
Galaxy Components Ltd
|
LIG24835
|
DB154-58
|
Dimmable ballast 1x54w and 1x58w
|
Dimmable ballast 1x54w and 1x58w
|
Galaxy Components Ltd
|
LIG24836
|
DB118-40
|
Dimmable ballast 1x18w to 1x36w
|
Dimmable ballast 1x18w to 1x36w
|
Galaxy Components Ltd
|
LIG24837
|
DB218-40
|
Dimmable ballast 2x18w to 2x36w
|
Dimmable ballast 2x18w to 2x36w
|
Galaxy Components Ltd
|
LIG24838
|
DB118
|
Dimmable ballast 1x18w
|
Dimmable ballast 1x18w
|
Galaxy Components Ltd
|
LIG24839
|
DB218
|
Dimmable ballast 2x18w
|
Dimmable ballast 2x18w
|
Galaxy Components Ltd
|
LIG24840
|
RC414C2
|
4x14w recessed with Cat2 cover
|
4x14w recessed with Cat2 cover
|
Galaxy Components Ltd
|
LIG24841
|
RC228C2
|
2x28w recessed Cat2 grid lamp
|
2x28w low energy recessed louvre with anti glare louvre
|
Galaxy Components Ltd
|
LIG24842
|
RC254C2
|
2x54w recessed Cat2 grid lamp
|
2x54w low energy recessed louvre with anti glare louvre
|
Galaxy Components Ltd
|
LIG24843
|
RC428C2
|
4x28w recessed Cat2 grid lamp
|
4x28w low energy recessed louvre with anti glare louvre
|
Galaxy Components Ltd
|
LIG24844
|
RC236C2HF
|
2x36w recessed Cat2 grid lamp
|
2x36w low energy recessed louvre with anti glare louvre
|
Galaxy Components Ltd
|
LIG24845
|
RC228
|
2x28w recessed grid lamp
|
2x28w low energy recessed louvre with retail cover
|
Galaxy Components Ltd
|
LIG24846
|
RC254
|
2x54w recessed grid lamp
|
2x28w low energy recessed louvre with retail cover
|
Galaxy Components Ltd
|
LIG24847
|
RC428
|
4x28w recessed grid lamp
|
4x28w low energy recessed louvre with retail cover
|
Galaxy Components Ltd
|
LIG24848
|
RC236PCHF
|
2x36w recessed with pmma cover
|
2x36w recessed with pmma cover
|
Galaxy Components Ltd
|
LIG24849
|
RC436PCHF
|
4x36w recessed with pmma cover
|
4x36w recessed with pmma cover
|
Galaxy Components Ltd
|
LIG24850
|
HB454
|
4x54w warehouse light and hooks
|
4x54w warehouse light and hooks
|
Galaxy Components Ltd
|
LIG24851
|
HB654
|
6x54w warehouse light and hooks
|
6x54w warehouse light and hooks
|
Galaxy Components Ltd
|
LIG25105
|
AU-CFD181
|
AU-CFD181
|
1x18W PLC recessed downlighter
|
Aurora Limited
|
LIG25106
|
AU-CFD182
|
AU-CFD182
|
2x18W PLC recessed downlighter
|
Aurora Limited
|
LIG25107
|
AU-CFD261
|
AU-CFD261
|
1x26W PLC recessed downlighter
|
Aurora Limited
|
LIG25108
|
AU-CFD262
|
AU-CFD262
|
2x26W PLC recessed downlighter
|
Aurora Limited
|
LIG25109
|
AU-CFD422
|
AU-CFD422
|
2x42W TCT recessed downlighter
|
Aurora Limited
|
LIG25110
|
AU-PLR155PL
|
AU-PLR155PL
|
Polar 1x55W PL Recessed Module
|
Aurora Limited
|
LIG25111
|
AU-SPC155PL
|
AU-SPC155PL
|
Space 1x55W PL Recessed Module
|
Aurora Limited
|
LIG25112
|
AU-FST155PL
|
AU-FST155PL
|
Frost 1x55W PL Recessed Module
|
Aurora Limited
|
LIG25113
|
AU-SFX480TCL
|
AU-SFX480TCL
|
Superflux 4x80W PL Suface module 600 x 600
|
Aurora Limited
|
LIG25114
|
AU-SFX480TL5
|
AU-SFX480TL5
|
Superflux 4x80W T5 Suface module 1200 x 600
|
Aurora Limited
|
LIG25115
|
AU-SFX380T5WG
|
AU-SFX380T5WG
|
Superflux 3x80W T5 Suface module 1200 x 600 c/w wire guard
|
Aurora Limited
|
LIG25116
|
AU-FRT280T5
|
AU-FRT280T5
|
Fortis 2 x 80W T5 Surface module 1506 x 418
|
Aurora Limited
|
LIG25117
|
AU-FRT480T5
|
AU-FRT480T5
|
Fortis 4 x 80W T5 Surface module 1506 x 418
|
Aurora Limited
|
LIG25118
|
AU-2118NT5FL
|
AU-2118NT5FL
|
T5 Electronic Ballast — 1X14W, 1X21W
|
Aurora Limited
|
LIG25119
|
AU-2418NT5FL
|
AU-2418NT5FL
|
T5 Electronic Ballast — 1X24W
|
Aurora Limited
|
LIG25120
|
AU-SIS135C
|
AU-SIS135C
|
T5 Electronic Ballast — 1X35W
|
Aurora Limited
|
LIG25121
|
AU-SIS154C
|
AU-SIS154C
|
T5 Electronic Ballast — 1X54W
|
Aurora Limited
|
LIG25122
|
AU-2128NT5FL
|
AU-2128NT5FL
|
T5 Electronic Ballast — 2X14W, 2X21W
|
Aurora Limited
|
LIG25123
|
AU-SI228C
|
AU-SI228C
|
T5 Electronic Ballast — 2X28W
|
Aurora Limited
|
LIG25124
|
AU-SI235C
|
AU-SI235C
|
T5 Electronic Ballast — 2X35W
|
Aurora Limited
|
LIG25125
|
AU2428NT5FL
|
AU2428NT5FL
|
T5 Electronic Ballast — 2X24W
|
Aurora Limited
|
LIG25126
|
AU-SI239C
|
AU-SI239C
|
T5 Electronic Ballast — 2X39W
|
Aurora Limited
|
LIG25127
|
AU-SI249C
|
AU-SI249C
|
T5 Electronic Ballast — 2x49W
|
Aurora Limited
|
LIG25128
|
AU-SI254C
|
AU-SI254C
|
T5 Electronic Ballast — 2x54W
|
Aurora Limited
|
LIG25129
|
AU-1818NT8FL
|
AU-1818NT8FL
|
T8 Electronic Ballast — 1X18W
|
Aurora Limited
|
LIG25130
|
AU-1828NT8FL
|
AU-1828NT8FL
|
T8 Electronic Ballast — 2X18W
|
Aurora Limited
|
LIG25131
|
AU-1838NT8FL
|
AU-1838NT8FL
|
T8 Electronic Ballast — 3X18W
|
Aurora Limited
|
LIG25132
|
AU-1848NT8FL
|
AU-1848NT8FL
|
T8 Electronic Ballast — 4X18W
|
Aurora Limited
|
LIG25133
|
AU-4018NT8FL
|
AU-4018NT8FL
|
T8 Electronic Ballast — 1X36W, 1X38W, 1X40W
|
Aurora Limited
|
LIG25134
|
AU-4028NT8FL
|
AU-4028NT8FL
|
T8 Electronic Ballast — 2X36W, 2X38W, 2X40W
|
Aurora Limited
|
LIG25135
|
AU-4038AT8FL
|
AU-4038AT8FL
|
T8 Electronic Ballast — 3X36W, 3X38W, 3X40W
|
Aurora Limited
|
LIG25136
|
AU-4048AT8FL
|
AU-4048AT8FL
|
T8 Electronic Ballast — 4X38W, 4X38W, 4X40W
|
Aurora Limited
|
LIG25137
|
AU-5818NT8FL
|
AU-5818NT8FL
|
T8 Electronic Ballast — 1X58W
|
Aurora Limited
|
LIG25138
|
AU-4028AT8FL
|
AU-4028AT8FL
|
T8 Electronic Ballast — 2X18W, 2X36W, 2X38W, 2X40W
|
Aurora Limited
|
LIG25139
|
AU-5828AT8FL
|
AU-5828AT8FL
|
T8 Electronic Ballast — 2X58W
|
Aurora Limited
|
LIG25140
|
AU-7018AT8FL
|
AU-7018AT8FL
|
T8 Electronic Ballast — 1X70W
|
Aurora Limited
|
LIG25141
|
AU-7028AT8FL
|
AU-7028AT8FL
|
T8 Electronic Ballast — 2X70W
|
Aurora Limited
|
LIG25142
|
AU-1818NT5PL
|
AU-1818NT5PL
|
PL-L Electronic Ballast — 1X13W, 1X18W
|
Aurora Limited
|
LIG25143
|
AU-1828NT5PL
|
AU-1828NT5PL
|
PL-L Electronic Ballast — 2X13W, 2X18W
|
Aurora Limited
|
LIG25144
|
AU-2618NT5PL
|
AU-2618NT5PL
|
PL-L Electronic Ballast — 1X24W
|
Aurora Limited
|
LIG25145
|
AU-2628NT5PL
|
AU-2628NT5PL
|
PL-L Electronic Ballast — 2X24W
|
Aurora Limited
|
LIG25146
|
AU-3618NT5PL
|
AU-3618NT5PL
|
PL-L Electronic Ballast- 1X36W
|
Aurora Limited
|
LIG25147
|
AU-SIS158C
|
AU-SIS158C
|
PL-L Electronic Ballast — 1X55W
|
Aurora Limited
|
LIG25148
|
AU-SI236C
|
AU-SI236C
|
PL-L Electronic Ballast — 2X36W
|
Aurora Limited
|
LIG25149
|
AU-SI258C
|
AU-SI258C
|
PL-L Electronic Ballast — 2X55W
|
Aurora Limited
|
LIG25150
|
AU-1319NT5PC
|
AU-1319NT5PC
|
PL-C Electronic Ballast — 1X10W, 1X13W
|
Aurora Limited
|
LIG25151
|
AU-1329NT5PC
|
AU-1329NT5PC
|
PL-C Electronic Ballast — 2X10W, 2X13W
|
Aurora Limited
|
LIG25152
|
AU-1819NT5PC
|
AU-1819NT5PC
|
PL-C Electronic Ballast — 1X18W
|
Aurora Limited
|
LIG25153
|
AU-1829NT5PC
|
AU-1829NT5PC
|
PL-C Electronic Ballast — 2X18W
|
Aurora Limited
|
LIG25154
|
AU-2619NT5PC
|
AU-2619NT5PC
|
PL-C Electronic Ballast — 1X26W
|
Aurora Limited
|
LIG25155
|
AU-2629NT5PC
|
AU-2629NT5PC
|
PL-C Electronic Ballast — 2X26W
|
Aurora Limited
|
LIG25156
|
AU-4219NT5PC
|
AU-4219NT5PC
|
PL-T Electronic Ballast — 1X32W, 1X42W
|
Aurora Limited
|
LIG25157
|
AU-4229AT5PC
|
AU-4229AT5PC
|
PL-T Electronic Ballast — 2X32W, 2X42W
|
Aurora Limited
|
LIG25158
|
AU-5519AT5FC
|
AU-5519AT5FC
|
TL5-C Electronic Ballast — 55W
|
Aurora Limited
|
LIG25159
|
AU-2119NT5DD
|
AU-2119NT5DD
|
TC-DD Electronic Ballast — 1X16W, 1X21W
|
Aurora Limited
|
LIG25160
|
AU-2819NT5DD
|
AU-2819NT5DD
|
TC-DD Electronic Ballast — 1X28W
|
Aurora Limited
|
LIG25161
|
AU-3819NT5DD
|
AU-3819NT5DD
|
TC-DD Electronic Ballast — 1X38W
|
Aurora Limited
|
LIG25162
|
AU-SD118-40
|
AU-SD118-40
|
0-10V Dimmable Electronic Ballast — T5 — 1X24W, 1X39W TL5-C — 1X22W, 1X40W T8 — 1X18W, 1X25W, 1X36W, 1X30W PL-F — 1X18W, 1X24W, 1X36W PL-L 1X18W, 1X24W, 1X36W, 1X40W
|
Aurora Limited
|
LIG25163
|
AU-SD114-35
|
AU-SD114-35
|
0-10V Dimmable Electronic Ballast — T5 — 1x14W, 1X21W, 1X28W, 1X35W
|
Aurora Limited
|
LIG25164
|
AU-SD149
|
AU-SD149
|
0-10V Dimmable Electronic Ballast — T5 — 1x49W
|
Aurora Limited
|
LIG25165
|
AU-SD154-58
|
AU-SD154-58
|
0-10V Dimmable Electronic Ballast — T5 — 1X54W T8 — 1X58W PL-L — 1x55W
|
Aurora Limited
|
LIG25166
|
AU-SD180
|
AU-SD180
|
0-10V Dimmable Electronic Ballast — T5 — 1x80W PL-L — 1x55W
|
Aurora Limited
|
LIG25167
|
AU-SD224-40
|
AU-SD224-40
|
0-10V Dimmable Electronic Ballast — T5 — 2X24W, 2X39W TL5-C — 2X22W, 2X40W T8 — 2X30W, 2X36W PL-F — 2x24W, 2x36W PL-L — 2x24W, 2x36W, 2x40W
|
Aurora Limited
|
LIG25168
|
AU-SD214-35
|
AU-SD214-35
|
0-10V Dimmable Electronic Ballast — T5 — 2X14W, 2X21W, 2X28W, 2X35W
|
Aurora Limited
|
LIG25169
|
AU-SD249
|
AU-SD249
|
0-10V Dimmable Electronic Ballast — T5 — 2X49W
|
Aurora Limited
|
LIG25170
|
AU-SD254-58
|
AU-SD254-58
|
0-10V Dimmable Electronic Ballast — T5 — 2X54W T8 — 2X58W PL-L — 2x55W
|
Aurora Limited
|
LIG25171
|
AU-TD118-42
|
AU-TD118-42
|
0-10V Dimmable Electronic Ballast — TL5-C — 1X22W, 1X32W, 1X40W PL-C — 1x26W PL-T — 1x18W, 1x26W, 1x32W, 1x42W PL-L — 1x36W, 1x40W
|
Aurora Limited
|
LIG25172
|
AU-TD155
|
AU-TD155
|
0-10V Dimmable Electronic Ballast — TL5-C — 1X55W PL-L — 1x55W
|
Aurora Limited
|
LIG25173
|
AU-TD218-42
|
AU-TD218-42
|
0-10V Dimmable Electronic Ballast — TL5-C — 2X22W, 2X32W, 2X40W PL-C — 2x26W PL-T — 2x18W, 2x26W, 2x32W, 2x42W PL-L — 2x36W, 2x40W
|
Aurora Limited
|
LIG25174
|
AU-SI254
|
AU-SI254
|
Electronic Ballast — T5 — 2x54W
|
Aurora Limited
|
LIG25175
|
AU-TC126-42
|
AU-TC126-42
|
Electronic Ballast — T5 1x24W, 1x39W TL5-C — 1x22W, 1x40W T8 — 1x18W, 1x25W, 1x30W, 1x36W PL-C 1x26W, 2x26W PL-T — 1x26W, 2x26W, 1x32W, 1x42W PL-F — 1x24W, 2x24W PL-L — 1x18W, 2x18W, 1x36W, 1x40W
|
Aurora Limited
|
LIG25176
|
AU-TC154-58
|
AU-TC154-58
|
Electronic Ballast — T5 — 1x54W T8 — 1x58W
|
Aurora Limited
|
LIG25177
|
AU-TC226-42
|
AU-TC226-42
|
Electronic Ballast — T5 — 2x24W, 2x39W TL5-C — 2x22W, 2x40W T8 — 2x36W
|
Aurora Limited
|
LIG25178
|
AU-SIS114-35
|
AU-SIS114-35
|
Electronic Ballast — T5 — 1x14W, 1x21W, 1x28W
|
Aurora Limited
|
LIG25179
|
AU-SIS118-40
|
AU-SIS118-40
|
Electronic Ballast — T8 — 1x25W
|
Aurora Limited
|
LIG25180
|
AU-SIS149
|
AU-SIS149
|
Electronic Ballast — T5 — 1x49W
|
Aurora Limited
|
LIG25181
|
AU-SIS154-58
|
AU-SIS154-58
|
Electronic Ballast — T5 — 1x54W
|
Aurora Limited
|
LIG25182
|
AU-SIS170
|
AU-SIS170
|
Electronic Ballast — T8 — 1x70W
|
Aurora Limited
|
LIG25183
|
AU-SIS180
|
AU-SIS180
|
Electronic Ballast — T5 — 80W PL-L — 1x55W
|
Aurora Limited
|
LIG25184
|
AU-SI214-35
|
AU-SI214-35
|
Electronic Ballast — T5 — 2x14W, 2x21W, 2x28W, 2x35W
|
Aurora Limited
|
LIG25185
|
AU-SI218-40
|
AU-SI218-40
|
Electronic Ballast — T5 — 2x24W, 2x39W T8 — 2x18W, 2x25W, 2x30W, 2x36W PL-F — 2x24W, 2x36W PL-L — 2x18W, 2x24W, 2x36W, 2x40W
|
Aurora Limited
|
LIG25186
|
AU-SI249
|
AU-SI249
|
Electronic Ballast — T5 — 2x49W
|
Aurora Limited
|
LIG25187
|
AU-SI254-58
|
AU-SI254-58
|
Electronic Ballast — T5 — 2x54W T8 — 2x58W PL-L — 2x55W
|
Aurora Limited
|
LIG25188
|
AU-SI270
|
AU-SI270
|
Electronic Ballast — T8 — 2x70W
|
Aurora Limited
|
LIG25189
|
AU-SI280
|
AU-SI280
|
Electronic Ballast — T5 — 2x80W PL-L — 2X80W, 2X55W
|
Aurora Limited
|
LIG25190
|
AU-TC113
|
AU-TC113
|
Electronic Ballast — PL-C — 1x10W, 1x13W, 2x10W, 2x13W PL-T — 1x13W, 2x13W
|
Aurora Limited
|
LIG25191
|
AU-TC118
|
AU-TC118
|
Electronic Ballast — PL-C 1x18W, 2x18W PL-T — 1x18W, 2x18W
|
Aurora Limited
|
|
| |
”.
|
| |
7. Part 3 of Schedule 2 to the Principal Order is amended by deleting the following:
|
| |
“
|
| |
ACA Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
LIG10628
|
HFL-8030N-060602-H2 V2
|
60cm T8 LED Tube
|
Fluorescent Replacement T8 LED Tube
|
ATG Electronics
|
LIG10629
|
HFL-8060N-120602-H2 V2
|
120cm T8 LED Tube
|
Fluorescent Replacement T8 LED Tube
|
ATG Electronics
|
LIG10630
|
HFL-8088N-150602-H2 V2
|
150cm T8 LED Tube
|
Fluorescent Replacement T8 LED Tube
|
ATG Electronics
|
|
| |
”.
|
| |
8. Part 4 of Schedule 2 to the Principal Order is amended by inserting the following:
|
| |
“
|
| |
ACA Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
LCO10627
|
DLExxx
|
Dynalite
|
Dynalite manufactures technology solutions for lighting control and energy management applications.
|
Dynalite
|
LCO10631
|
78-050
|
Servodan Luxstat system
|
Dimmable 3 zone control unit
|
Servodan
|
LCO10652
|
COPD
|
PIR Control
|
Outdoor PIR switch
|
DANLERS Limited
|
LCO10653
|
Multi Sensor 312
|
Lighting Control
|
DALI Daylight and PIR sensor
|
HELVAR
|
LCO10654
|
Digidim
|
Digidim System
|
System for control of DALi Devices
|
HELVAR
|
LCO10655
|
Digidim Router 910
|
Digidim Router
|
Control Device for centralised control of DALI systems and devices.
|
HELVAR
|
LCO11170
|
FNC 4000
|
Flex Connector dimming Controls
|
Dimming and prescense system control
|
Flex Connectors Limited
|
LCO11181
|
R180
|
Motion Detector 180 PIR
|
180 degree range wall-mounted Passive Infra-Red sensor
|
LED Group
|
LCO11182
|
RR360
|
Recessed Presence Detector 360 PIR
|
360 degree range recessed Passive Infra-Red sensor
|
LED Group
|
LCO11183
|
R360
|
Presnece Detector 360
|
360 degree Passive InfraRed Sensor
|
LED Group
|
LCO11189
|
Theben Luna Range
|
Luna Range
|
A range of twilight switches providing fully automatic control of lighting systems
|
Theben
|
LCO11190
|
Theben Selekta Range
|
Selekta Range
|
A range of astronomic time clocks that calculate the sunrise and sunset times for each day of the year.
|
Theben
|
LCO11191
|
Theben Elpa Range
|
Elpa
|
A range of electronic staircase light time switches
|
Theben
|
LCO11192
|
Theben Termina Range
|
Termina
|
A range of digitail programable time switches
|
Theben
|
LCO11193
|
Theben HTS Range
|
HTS
|
A high end range of presence detectors both surface and recessed.
|
Theben
|
LCO11194
|
Theben KNX Range
|
KNX
|
A range of home and building system technologies
|
Theben
|
LCO11280
|
910
|
DIGIDIM
|
Lighting Control System(s) with emphasis on daylight controls, PIR detectors and monitoring.
|
HELVAR
|
LCO11923
|
Niko Daylight control
|
Niko Daylight control
|
control of lighting via ultrasonic presecence detectors and light measuring cells. The system can maintain a predetermined light level by automatically adjusting the intensity of the lighting within a building in relation to the amount of natural light available throughout the day, as well as switching off the lighting when areas are unoccupied. Ultrasonic detection allows the detection of presence behind obstacles such as office partitions.
|
Niko
|
LCO12195
|
AK-SC255E
|
AK-SC255E
|
Danfoss AK-SC255E lighting system, lighting scheduling management & indoor/out door lighting control for supermarkets distribution centers & administrative facilities
|
Danfoss
|
LCO12403
|
ELLIPSE SW
|
Time Lag Switches
|
Push button time lag switch for Stairwells Lobbies Storerooms Corridors suitable for retrofit
|
CP Electronics
|
LCO12404
|
MRT16-PB SW
|
Multi Range Timers
|
Push button timer suitable for Lighting Control Heating Boost and Ventilation Control indoor or outdoor
|
CP Electronics
|
LCO12405
|
PDS SW
|
Wall Mounted PIR Switches
|
No neutral presence detector with adjustable 1 hour time delay multiway switching and 9 metre coverage presence or absence mode
|
CP Electronics
|
LCO12406
|
EBDSPIR SW
|
Ceiling Mounted PIR Switches
|
Ceiling Mounted PIR with time and lux level adjustment IP rated Dimming and multi channel options available presence or absence detection
|
CP Electronics
|
LCO12407
|
EBMPIR-B/SA/C SW
|
Miniature PIR Switches
|
Miniature PIR basic standalone complete kit luminaire mounting or stand alone
|
CP Electronics
|
LCO12408
|
SPIR-F/C SW
|
Ceiling Box Mounted PIR Switches
|
Ceiling mounted presence detector for square accessory box
|
CP Electronics
|
LCO12409
|
MWS-1 SW
|
Microwave Presence Detectors
|
Microwave presence detector with 30m detection range with time and lux level control IP and dimming DSI or DALI versions available also. Presence or Absence detection
|
CP Electronics
|
LCO12410
|
VITB-PD SW
|
Vitesse Lighting Distribution Systems
|
Vitesse PIR detector with 3m lead & connector
|
CP Electronics
|
LCO12411
|
ALC15 SW
|
Light Level Controls
|
Photocell Twilight Switch IP66 with adjustable time delay and switching differential in a vandal resistant enclosure.
|
CP Electronics
|
LCO12412
|
TH-857 SW
|
DIN Rail Time Switches
|
Single and Two channel DIN rail time switch
|
CP Electronics
|
LCO12413
|
GI1DC SW
|
Green I
|
green-i single or double dimmer with remote control security and scene selection features. Lux level presence or absence modes also
|
CP Electronics
|
LCO12596
|
Elkay Energy Saving Sensors/Switch
|
Elkay Energy Saving Lighting Control
|
Range of Energy Saving Lighting Controls
|
Elkay
|
LCO12610
|
LWZ-PL-H..
|
EnergySave"LightWiz"..
|
The EnergySave LightWiz reduces KWh usage for lighting by reducing voltage to lighting circuits.
|
Ahead Innovations Limited
|
LCO12677
|
Nikobus.lighting control
|
Nikobus (lighting control)
|
Programmable lighting control. lighting can be controlled by presence detectors, photocells, timeclocks and programmable lighting switches and touchscreen controllers
|
Niko
|
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
LCO13170
|
Liteminder
|
Liteminder
|
A range of 240 volt self contained occupancy sensors with or without photocell, wall mounted, ceiling mounted surface or recessed.
|
Setsquare Ltd
|
LCO13171
|
INFRAPOD
|
INFRAPOD
|
INFRAPOD system with Single Relay, dual relay and 2 zone relay (Up To 10 PDOCH / MLMW sensors and 1 photocell)
|
Setsquare Ltd
|
LCO13172
|
Daylux
|
Daylux
|
Control Unit Analogue or Digital (Single Relay 8 Amp Load Or 8 HF Ballasts — Maximum Of 50 Ballasts) — Up To 10 PDOCH/MLMW sensors and 1 ALD5 Photocell / manual or auto dimming plus IR control
|
Setsquare Ltd
|
LCO13173
|
DLCS
|
DLCS
|
Daylux digital controller for Analogue/DSI or DALI broadcast with scene set plates and IR facilty
|
Setsquare Ltd
|
LCO13174
|
Sensalux
|
Sensalux
|
Sensalux Controller Single Relay, dual relay with internal or external photocell and time clock
|
Setsquare Ltd
|
LCO13175
|
Setlite
|
Setlite
|
Setlite sytem with single relay,dual relay and 2 zone relay control unit plus 20/30/60Metres Range Sensor Metal Case or vandal resistant, photocell
|
Setsquare Ltd
|
|
| |
”.
|
| |
9. Part 5 of Schedule 2 to the Principal Order is amended by inserting the following:
|
| |
“
|
| |
ACA Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
BEM11033
|
Vykon/JACE
|
Tridium Niagara
|
Web based Java software framework that allows BEMS to integrate into other systems.
|
Tridium
|
BEM11102
|
RSG40
|
MEMOGRAPH M
|
This is a Graphical Data Manager, which can Record, Visualise, Analyse and Communicate Process Signals. It has Steam Tables and Heat calculation tables included for Energy, Enthalpy & Heat Calcs.
|
Endress+Hauser Ireland
|
BEM11103
|
RMM621
|
Application Manager
|
Logging, computing and controlling of processes and process values with READWIN 2000 PC configuration and operation software- RS232/485, Ethernet, PROFIBUS interface options
|
Endress+Hauser Ireland
|
BEM11167
|
19150500
|
Devicom PC PRO
|
Control of electrical or water based heating systems operated by network connected Devireg 550 thermostats. The system offers the operator a central way to monitor and control the heating system.
|
Danfoss
|
BEM11953
|
Hughes-EMS
|
Hughes Energy Monitoring System
|
A complete energy monitoring & targeting solution tailored for individual sites, including hardware, data loggers, browser-based M&T software, installation, training and support.
|
Hughes Energy Systems Ltd
|
BEM11954
|
EnECOMS09
|
EnECOMS
|
An intelligent energy management solution, that provides true real time energy monitoring, recording and load shedding functionality across a full spectrum of business enterprises
|
ICM UniComp Ltd
|
BEM12194
|
AK-SC 255 E
|
AK-SC 255 E
|
Danfoss AK-SC255E total system energy manager for control & monitoring of refrigeration lighting schedules HVAC & food quality temperatures (HACCP) in supermarkets distribution centres & process system
|
Danfoss
|
BEM12342
|
Microbox Energy Monitoring/ Management System
|
Siemens Microbox Energy Management system
|
Siemens Micorbox solution can be used for all types of energy, to deliver detailed information on consumption & costs. This transparency permits optimisation of energy consumption.
|
Siemens Ltd.
|
BEM12354
|
ELMO System
|
ELMO System
|
ELMO Radio Based Energy Monitoring System
|
IMC Group
|
BEM12559
|
rz100.
|
cisco richards-zeta
|
richards-zeta range of controllers for building services
|
Richards-Zeta
|
BEM13380
|
North BEMS
|
North BEMS
|
Consists of sub systems Commander, Compass, Zip and Obsys
|
North Building Technologies
|
BEM11052
|
EFT_ EM001
|
EFT Energy Manager
|
Energy Management Software Platform
|
EFT
|
BEM12557
|
ICIS-PE-02B
|
ICIS Plant Energy
|
Energy monitoring and analysis web application that utilises metered and non-metered data from field and automation systems to provide detailed reports and graphs on power/water/steam usage & costs
|
ICIS
|
BEM13361
|
9912-0000
|
OREM
|
OREM utilises cellular, web and sensor technology to provide automated remote monitoring, management and control of building energy assets and associated fuels. Optimises fuel use and comfort levels.
|
DedicatedEngines Ltd
|
BEM13611
|
PA310
|
power transducer
|
split type, clip on Current transformer, CT three phase included, max. measure 200Amp
|
Arch Meter Corp
|
BEM24812
|
CS NET Web V2
|
CS Net Web
|
Web based air conditioning central control and monitoring system.
|
HITACHI
|
|
| |
”.
|
| |
10. Schedule 2 to the Principal Order is amended by inserting the following:
|
| |
“
|
| |
Part 6
|
| |
Enterprise Servers Eligible Products
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
ESE24767
|
DL160 G6
|
DL160 G6
|
DL 160 G6 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Rack server
|
Hewlett Packard
|
ESE24768
|
DL165 G6
|
DL165 G6
|
DL 165 G6 2 AMD 24xx prosessor, 64 GB DDR2 Memory, Rack server
|
Hewlett Packard
|
ESE24769
|
DL180 G6
|
DL180 G6
|
DL 180 G6 2 Intel X55xx prosessor, 96 GB DDR3 Memory, Rack server
|
Hewlett Packard
|
ESE24770
|
DL320 G6
|
DL320 G6
|
DL 320 G6 Intel X55xx prosessor, 72 GB DDR3 Memory, Rack server
|
Hewlett Packard
|
ESE24771
|
DL360 G6
|
DL360 G6
|
DL 320 G6 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Rack server
|
Hewlett Packard
|
ESE24772
|
DL360 G6 5570
|
DL360 G6 5570
|
DL 320 G6 2 Intel X5570 prosessor, 144 GB DDR3 Memory, Rack server
|
Hewlett Packard
|
ESE24773
|
DL370 G6
|
DL370 G6
|
DL 370 G6 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Rack server
|
Hewlett Packard
|
ESE24774
|
DL380 G6 5520
|
DL380 G6 5520
|
DL 380 G6 2 Intel 5520 prosessor, 144 GB DDR3 Memory, Rack server
|
Hewlett Packard
|
ESE24775
|
DL380 G6
|
DL380 G6
|
DL 380 G6 2 Intel 55xx prosessor, 144 GB DDR3 Memory, Rack server
|
Hewlett Packard
|
ESE24776
|
DL385 G6
|
DL385 G6
|
DL 385 G6 2 AMD 24xx prosessor, 128 GB DDR2 Memory, Rack server
|
Hewlett Packard
|
ESE24777
|
DL585 G6
|
DL585 G6
|
DL 585 G6 2 AMD 84xx prosessor, 256 GB DDR2 Memory, SSD, Rack server
|
Hewlett Packard
|
ESE24778
|
DL785 G6
|
DL785 G6
|
DL 785 G6 8 AMD 84xx processors Rack Server
|
Hewlett Packard
|
ESE24779
|
ML150 G6
|
ML150 G6
|
2 Intel X55xx prosessor, 48 GB DDR3 Memory, Tower server
|
Hewlett Packard
|
ESE24780
|
ML330 G6
|
ML330 G6
|
ML 330 G6 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Tower server
|
Hewlett Packard
|
ESE24781
|
ML350 G6
|
ML350 G6
|
ML 350 G6 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Tower server
|
Hewlett Packard
|
ESE24782
|
ML370 G6
|
ML370 G6
|
ML 370 G6 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Tower server
|
Hewlett Packard
|
ESE24783
|
487912-B21 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT ML150G6
|
Hewlett Packard 2 Intel X55xx prosessor 48 GB DDR3 Memory, Tower server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24784
|
491531-B21/491532-B21 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT DL160 G6
|
Hewlett Packard 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Rack Server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24785
|
VS4-ENT/VI3-ENT DL165 G6
|
VS4-ENT/VI3-ENT DL165 G6
|
Hewlett Packard 2 AMD 24xx processor, 64 GB DDR2 Memory, Rack server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24786
|
507168-B21 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT DL180 G6
|
Hewlett Packard 2 Intel X55xx prosessor 96 GB DDR3 Memory, Rack server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24787
|
505768-B21 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT DL320 G6
|
Hewlett Packard Intel X55xx prosessor 72 GB DDR3 Memory, Rack server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24788
|
484184-B21 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT DL360 G6
|
Hewlett Packard 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Rack Server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24789
|
483874-B21 483879-B21 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT DL370 G6
|
Hewlett Packard 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Rack Server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24790
|
483880-B21 483879-B21 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-EN ML370G6
|
Hewlett Packard 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Tower Server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24791
|
VS4-ENT/VI3-ENT DL385 G6
|
VS4-ENT/VI3-ENT DL385 G6
|
Hewlett Packard 2 AMD 24xx prosessor, 128 GB DDR2 Memory, Rack server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24792
|
366701-001 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT DL380 G6
|
Hewlett Packard 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Rack Server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24793
|
507865-B21 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT BL280c G6
|
Hewlett Packard 2 Intel X55xx prosessor, 96 GB DDR3 Memory, Blade Server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24794
|
483444-B21 483448-B21 483443-B21 483447-B21 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT ML350 G6
|
Hewlett Packard 2 Intel X55xx prosessor, 144 GB DDR3 Memory, Tower Server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24799
|
VS4-ENT/VI3-ENT DL585 G6
|
VS4-ENT/VI3-ENT DL585 G6
|
Hewlett Packard 2 AMD 84xx processor, 256 GB DDR2 Memory, SSD, rack server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24801
|
VS4-ENT/VI3-ENT DL785 G6
|
VS4-ENT/VI3-ENT DL785 G6
|
Hewlett Packard 8 AMD 84xx processors, Rack server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24802
|
VS4-ENT/VI3-ENT ML330 G6
|
VS4-ENT/VI3-ENT ML330 G6
|
Hewlett Packard 2 Intel X55xx prosessor, 144 GB DDR3 Memory Tower Server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24803
|
R710 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT PowerEdge R710
|
Dell Inc. PowerEdge R710 (Intel Xeon X5570, 2.93 GHz) and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24804
|
R610 L:274.1 M:436 H:645 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT PowerEdge R610
|
Dell Inc. PowerEdge R610 (Intel Xeon X5570, 2.93 GHz) and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24805
|
R300 L:239.9 M:292.9 H:341 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT PowerEdge R300
|
Dell Inc. PowerEdge R300 and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS)
|
VMware International Limited
|
ESE24826
|
X3400 M2
|
X3400 M2
|
x3400 M2 is a dual socket 5U tower server with up to 96 GB of RAM & up to 8 hard disks
|
IBM Ltd.
|
ESE24827
|
X3550 M2
|
X3550 M2
|
x3550 M2 is a dual socket 1U rack server with up to 128 GB of RAM & up to 6 hard disks
|
IBM Ltd.
|
ESE24828
|
X3650 M2
|
X3650 M2
|
x3650 M2 is a dual socket 2U rack server with up to 128 GB of RAM & up to 12 hard disks
|
IBM Ltd.
|
ESE24862
|
x3400 M2 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT x3400 M2
|
IBM x3400 M2 server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS) http://www-03.ibm.com/systems/x/solutions/ os/vmware/vmware.html
|
VMware International Limited
|
ESE24863
|
x3550 M2 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT x3550 M2
|
IBM x3550 M2 server and VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS) http://www-03.ibm.com/systems/x/solutions/ os/vmware/vmware.html
|
VMware International Limited
|
ESE24864
|
x3650 M2 VS4-ENT/VI3-ENT
|
VS4-ENT/VI3-ENT x3650 M2
|
IBM x3650 M2 server VS4-ENT/PL or VI3 equivalent (incorporating DPM, VMotion and DRS) http://www-03.ibm.com/systems/x/solutions/ os/vmware/vmware.html
|
VMware International Limited
|
|
| |
Part 7
|
| |
Enterprise Storage Eligible Products
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
EST17382
|
DL4106
|
DL4106
|
EMC Disk Liberary for midsize and large enterprises
|
EMC INFORMATION SYSTEMS INTERNATIONAL
|
EST17383
|
DL4206
|
DL4206
|
EMC Disk Liberary for midsize and large enterprises
|
EMC INFORMATION SYSTEMS INTERNATIONAL
|
EST17384
|
DL4406A
|
DL4406A
|
EMC Disk Liberary for midsize and large enterprises
|
EMC INFORMATION SYSTEMS INTERNATIONAL
|
EST17385
|
DL4406B
|
DL4406B
|
EMC Disk Liberary for midsize and large enterprises
|
EMC INFORMATION SYSTEMS INTERNATIONAL
|
EST17386
|
3D4000
|
3D4000
|
EMC Disk Liberary for midsize and large enterprises
|
EMC INFORMATION SYSTEMS INTERNATIONAL
|
|
| |
Part 10
|
| |
Centralised Direct Current Power Distribution Eligible Products
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
CDC24945
|
CTO20402
|
FP2 19" 48Vdc 8kW 230V1ph LVBD
|
8KW Flatpack 2 integrated 19" Power Core. Height 2u complete with: up to 2x battery MCBs, up to 6x load MCBs (up to 60amp) LVBD, up to 6 alarm outputs, optional SNMP, Temp Comp. and Batt Symmetry.
|
Eltek Valere
|
CDC24946
|
CTO20806
|
FP2 19" 48Vdc 16kW 400Vac3ph LVBD
|
16KW Flatpack 2 integrated 19" Power Core. Height 6u complete with: up to 6x battery MCBs, up to 18x load MCBs (up to 125amp) LVBD, up to 6 alarm outputs, optional SNMP, Temp Comp. and Batt Symmetry.
|
Eltek Valere
|
CDC24947
|
CTO208042
|
FP2 PRSB 16kW 48V 400Vac LVBD
|
16KW Flatpack 2 Power Cabinet. Height 2M complete with: up to 6x battery MCBs, up to 48x load MCBs (up to 125amp) LVBD, up to 4 Batt Shelves, optional SNMP, Temp Comp. and Batt Symmetry.
|
Eltek Valere
|
CDC24948
|
CTO21242
|
FP2 PRSB 24kW 48V 400Vac LVBD
|
24KW Flatpack 2 Power Cabinet. Height 2M complete with: up to 6x battery MCBs, up to 48x load MCBs (up to 125amp) LVBD, up to 4 Batt Shelves, optional SNMP, Temp Comp. and Batt Symmetry.
|
Eltek Valere
|
CDC24949
|
C22442
|
FP2 PRS 48kW 48V 3ph400V LVBD
|
48KW Flatpack 2 Power Cabinet. Height 2M complete with: up to 4x battery Fuses, up to 60x load MCBs, up to 8x load Fuses (up to 600amp) LVBD, optional SNMP, Temp Comp. and Batt Symmetry.
|
Eltek Valere
|
CDC24950
|
C24842
|
FP2 PRS 96kW 48V 3ph400V LVBD
|
96KW Flatpack 2 Power Cabinet. Height 2M complete with: up to 4x battery Fuses, up to 60x load MCBs, up to 8x load Fuses (up to 600amp) LVBD, optional SNMP, Temp Comp. and Batt Symmetry.
|
Eltek Valere
|
CDC24952
|
CTO20828
|
FP2 8kW T3 outdoor cabinet 1.5M
|
16KW Outdoor Cabinet. Height 1.5M complete with: up to 6x battery MCBs, up to 18x load MCBs (up to 60amp) LVBD, optional SNMP, Temp Comp. and Batt Symmetry. Fan Filter or Air Con.
|
Eltek Valere
|
CDC24953
|
CTO20834
|
FP2 8kW T3 outdoor cabinet 1.8M
|
16KW Outdoor Cabinet. Height 1.8M complete with: up to 6x battery MCBs, up to 18x load MCBs (up to 60amp) LVBD, optional SNMP, Temp Comp. and Batt Symmetry. Fan Filter or Air Con.
|
Eltek Valere
|
|
| |
Part 14
|
| |
Wind Turbines Eligible Products
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
WTU24917
|
E5.6-6
|
Eoltec Scirocco
|
Eoltec Scirocco 6kW Wind Turbine
|
Eoltec SAS
|
|
| |
Part 18
|
| |
Photovoltaic Systems Eligible Products
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
PSY24933
|
Schott ASI 78
|
Schott ASI 78
|
78Wp Thin Film Solar Module
|
SCHOTT Solar AG
|
PSY24934
|
Schott ASI 90
|
Schott ASI 90
|
90Wp Thin Film Solar Module
|
SCHOTT Solar AG
|
PSY24935
|
Schott ASI 100
|
Schott ASI 100
|
100Wp Thin Film Solar Module
|
SCHOTT Solar AG
|
PSY25223
|
REC205AE
|
REC205AE
|
205Wp Polycrystalline Solar Module
|
REC Solar AS
|
PSY25225
|
REC215AE
|
REC215AE
|
215Wp Polycrystalline Solar Module
|
REC Solar AS
|
PSY25226
|
REC230AE
|
REC230AE
|
230Wp Polycrystalline Solar Module
|
REC Solar AS
|
|
| |
Part 20
|
| |
Condensate Recovery Systems Eligible Products
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
CRS23181
|
6140000
|
1/2" ITD32L SSL1
|
1/2" ITD32L Steam Trap BSP with SSL1 sensor
|
Spirax Sarco Ltd
|
CRS23182
|
6140091
|
1/2" ITD32L WLSL1
|
1/2" ITD32L Steam Trap BSP with WLSL1 sensor
|
Spirax Sarco Ltd
|
CRS23183
|
6140098
|
1/2" ITD32L WLSL1 diode
|
1/2" ITD32L Steam trap BSP with WLSL1 sensor with diode
|
Spirax Sarco Ltd
|
CRS23184
|
6140096
|
1/2" ITD32LA WLSL1diode
|
1/2" ITD32LA Steam Trap BSP with WLSL1 sensor with diode
|
Spirax Sarco Ltd
|
CRS23185
|
6140064
|
1/2" ITD32LA WLSL1
|
1/2" ITD32LA steam trap BSP with WLS1 Sensor
|
Spirax Sarco Ltd
|
CRS23186
|
6140093
|
1/2" ITD32LA SSL1
|
1/2" ITD32LA Steam Trap BSP with SSL1 sensor
|
Spirax Sarco Ltd
|
CRS23187
|
6140100
|
3/4" ITD32L SSL1
|
3/4" ITD32L Steam Trap BSP with SSL1 sensor
|
Spirax Sarco Ltd
|
CRS23188
|
6140191
|
3/4" ITD32L WLSL1
|
3/4" ITD32L Steam Trap BSP with WLSL1 sensor
|
Spirax Sarco Ltd
|
CRS23189
|
6140198
|
3/4" ITD32L WLSL1 diode
|
3/4" ITD32L Steam Trap BSP with WLSL1 sensor with diode
|
Spirax Sarco Ltd
|
CRS23190
|
6150500
|
1/2" IFTGS14 —14 SS1
|
1/2" IFTGS14 —14 TV BSP float steam trap with SS1 sensor
|
Spirax Sarco Ltd
|
CRS23191
|
6150400
|
1/2" IFTGS14 —10 SS1
|
1/2" IFTGS14 —14 TV BSP float steam trap with SS1 sensor
|
Spirax Sarco Ltd
|
CRS23192
|
6150300
|
1/2" IFTGS14-4.5 SS1
|
1/2" IFTGS14-4.5 TV BSP float steam trap with SS1 sensor
|
Spirax Sarco Ltd
|
CRS23193
|
6150560
|
3/4" IFTGS14 —14 SS1
|
3/4" IFTGS14 —14 TV BSP float steam trap with SS1 sensor
|
Spirax Sarco Ltd
|
CRS23194
|
6150460
|
3/4" IFTGS14-10 SS1
|
3/4" IFTGS14-10 BSP TV float steam trap with SS1 sensor
|
Spirax Sarco Ltd
|
CRS23195
|
6150360
|
3/4" IFTGS14-4.5 SS1
|
3/4" IFTGS14-4.5 BSP TV float steam trap with SS1 sensor
|
Spirax Sarco Ltd
|
CRS23196
|
0051070
|
1/2" IBPC32STD SS1
|
1/2" IBPC32STD BSP balanced pressure steam trap with SS1 sensor
|
Spirax Sarco Ltd
|
CRS23197
|
0051470
|
3/4" IBPC32STD SS1
|
3/4" IBPC32STD BSP balanced pressure steam trap with SS1 sensor
|
Spirax Sarco Ltd
|
CRS23198
|
0051870
|
1" IBPC32STD SS1
|
1" IBPC32STD BSP balanced pressure steam trap with SS1 sensor
|
Spirax Sarco Ltd
|
|
| |
Part 27
|
| |
Fans Eligible Products
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
FAN17428
|
A3G630-AG08-03
|
ebm-papst A3G630-AG08-03
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17429
|
A3G630-AG08-04
|
ebm-papst A3G630-AG08-04
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17430
|
W3G630-CG08-03
|
ebm-papst W3G630-AG08-03
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17431
|
W3G630-CG08-04
|
ebm-papst W3G630-AG08-04
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17432
|
S3G630-BG08-03
|
ebm-papst S3G630-BG08-03
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17433
|
S3G630-AG08-03
|
ebm-papst S3G630-AG08-03
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17434
|
S3G630-CG08-04
|
ebm-papst S3G630-CG08-04
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17435
|
A3G630-AH02-03
|
ebm-papst A3G630-AH02-03
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17436
|
A3G630-AH02-04
|
ebm-papst A3G630-AH02-04
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17437
|
W3G630-CH02-03
|
ebm-papst W3G630-CH02-03
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17438
|
W3G630-CH02-04
|
ebm-papst W3G630-CH02-04
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17439
|
S3G630-BH02-03
|
ebm-papst S3G630-BH02-03
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17440
|
S3G630-AH02-03
|
ebm-papst S3G630-AH02-03
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17441
|
S3G630-CH02-04
|
ebm-papst S3G630-CH02-04
|
EC Axial 630mm fan
|
ebm-papst Ltd
|
FAN17442
|
A3G650-AJ08-03
|
ebm-papst A3G650-AJ08-03
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17443
|
A3G650-AJ08-04
|
ebm-papst A3G650-AJ08-04
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17444
|
W3G650-CJ08-03
|
ebm-papst W3G650-CJ08-03
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17445
|
W3G650-CJ08-04
|
ebm-papst W3G650-CJ08-04
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17446
|
S3G650-BJ08-03
|
ebm-papst S3G650-BJ08-03
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17447
|
S3G650-CJ08-04
|
ebm-papst S3G650-CJ08-04
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17448
|
A3G650-AK02-03
|
ebm-papst A3G650-AK02-03
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17449
|
A3G650-AK02-04
|
ebm-papst A3G650-AK02-04
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17450
|
W3G650-CK02-03
|
ebm-papst W3G650-CK02-03
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17451
|
W3G650-CK02-04
|
ebm-papst W3G650-CK02-04
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17452
|
S3G650-BK02-03
|
ebm-papst S3G650-BK02-03
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17453
|
S3G650-CK02-04
|
ebm-papst S3G650-CK02-04
|
EC Axial 650mm fan
|
ebm-papst Ltd
|
FAN17454
|
A3G710-AG01-03
|
ebm-papst A3G710-AG01-03
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17455
|
A3G710-AG01-04
|
ebm-papst A3G710-AG01-04
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17456
|
W3G710-CG01-03
|
ebm-papst W3G710-CG01-03
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17457
|
W3G710-CG01-04
|
ebm-papst W3G710-CG01-04
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17458
|
S3G710-BG01-03
|
ebm-papst S3G710-BG01-03
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17459
|
S3G710-AG01-03
|
ebm-papst S3G710-AG01-03
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17460
|
S3G710-CG01-04
|
ebm-papst S3G710-CG01-04
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17461
|
A3G710-AH06-03
|
ebm-papst A3G710-AH06-03
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17462
|
A3G710-AH06-04
|
ebm-papst A3G710-AH06-04
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17463
|
W3G710-CH06-03
|
ebm-papst W3G710-CH06-03
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17464
|
W3G710-CH06-04
|
ebm-papst W3G710-CH06-04
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17465
|
S3G710-BH06-03
|
ebm-papst S3G710-BH06-03
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17466
|
S3G710-AH06-03
|
ebm-papst S3G710-AH06-03
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17467
|
S3G710-CH06-04
|
ebm-papst S3G710-CH06-04
|
EC Axial 710mm fan
|
ebm-papst Ltd
|
FAN17468
|
A3G800-AG02-03
|
ebm-papst A3G800-AG02-03
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17469
|
A3G800-AG02-04
|
ebm-papst A3G800-AG02-04
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17470
|
W3G800-CG02-03
|
ebm-papst W3G800-CG02-03
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17471
|
W3G800-CG02-04
|
ebm-papst W3G800-CG02-04
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17472
|
S3G800-BG02-03
|
ebm-papst S3G800-BG02-03
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17473
|
S3G800-AG02-03
|
ebm-papst S3G800-AG02-03
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17474
|
S3G800-CG02-04
|
ebm-papst S3G800-CG02-04
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17475
|
A3G800-AH03-03
|
ebm-papst A3G800-AH03-03
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17476
|
A3G800-AH03-04
|
ebm-papst A3G800-AH03-04
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17477
|
W3G800-CH03-03
|
ebm-papst W3G800-CH03-03
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17478
|
W3G800-CH03-04
|
ebm-papst W3G800-CH03-04
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17479
|
S3G800-BH03-03
|
ebm-papst S3G800-BH03-03
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17480
|
S3G800-AH03-03
|
ebm-papst S3G800-AH03-03
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17481
|
S3G800-CH03-04
|
ebm-papst S3G800-CH03-04
|
EC Axial 800mm fan
|
ebm-papst Ltd
|
FAN17482
|
A3G910-AG02-03
|
ebm-papst A3G910-AG02-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17483
|
W3G910-CG02-03
|
ebm-papst W3G910-CG02-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17484
|
W3G910-CG02-04
|
ebm-papst W3G910-CG02-04
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17485
|
S3G910-BG02-03
|
ebm-papst S3G910-BG02-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17486
|
S3G910-AG02-03
|
ebm-papst S3G910-AG02-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17487
|
S3G910-CG02-04
|
ebm-papst S3G910-CG02-04
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17488
|
A3G910-AH04-03
|
ebm-papst A3G910-AH04-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17489
|
A3G910-AH04-04
|
ebm-papst A3G910-AH04-04
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17490
|
W3G910-CH04-03
|
ebm-papst W3G910-CH04-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17491
|
W3G910-CH04-04
|
ebm-papst W3G910-CH04-04
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17492
|
S3G910-BH04-03
|
ebm-papst S3G910-BH04-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17493
|
S3G910-AH04-03
|
ebm-papst S3G910-AH04-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17494
|
S3G910-CH04-04
|
ebm-papst S3G910-CH04-04
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17495
|
A3G910-AI02-03
|
ebm-papst A3G910-AI02-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17496
|
A3G910-AI02-04
|
ebm-papst A3G910-AI02-04
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17497
|
W3G910-CI02-03
|
ebm-papst W3G910-CI02-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17498
|
S3G910-BI02-03
|
ebm-papst S3G910-BI02-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17499
|
S3G910-AI02-03
|
ebm-papst S3G910-AI02-03
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17500
|
S3G910-CI02-04
|
ebm-papst S3G910-CI02-04
|
EC Axial 910mm fan
|
ebm-papst Ltd
|
FAN17501
|
A3G990-AD05-03
|
ebm-papst A3G990-AD05-03
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17502
|
A3G990-AD05-04
|
ebm-papst A3G990-AD05-04
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17503
|
W3G990-CD05-03
|
ebm-papst W3G990-CD05-03
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17504
|
W3G990-CD05-04
|
ebm-papst W3G990-CD05-04
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17505
|
S3G990-BD05-03
|
ebm-papst S3G990-BD05-03
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17506
|
S3G990-CD05-04
|
ebm-papst S3G990-CD05-04
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17507
|
A3G990-AE03-03
|
ebm-papst A3G990-AE03-03
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17508
|
A3G990-AE03-04
|
ebm-papst A3G990-AE03-04
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17509
|
W3G990-CE03-03
|
ebm-papst W3G990-CE03-03
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17510
|
W3G990-CE03-04
|
ebm-papst W3G990-CE03-04
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17511
|
S3G990-BE03-03
|
ebm-papst S3G990-BE03-03
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17512
|
S3G990-CE03-04
|
ebm-papst S3G990-CE03-04
|
EC Axial 990mm fan
|
ebm-papst Ltd
|
FAN17513
|
R3G450-AT09-03
|
ebm-papst R3G450-AT09-03
|
EC Centrifugal 450mm Backward Curved Fan
|
ebm-papst Ltd
|
FAN17514
|
K3G450-AT09-10
|
ebm-papst K3G450-AT09-10
|
EC Centrifugal 450mm Backward Curved Fan
|
ebm-papst Ltd
|
FAN17515
|
K3G450-AT09-03
|
ebm-papst K3G450-AT09-03
|
EC Centrifugal 450mm Backward Curved Fan
|
ebm-papst Ltd
|
FAN17516
|
R3G560-AG07-03
|
ebm-papst R3G560-AG07-03
|
EC Centrifugal 560mm Backward Curved Fan
|
ebm-papst Ltd
|
FAN17517
|
K3G560-AG07-10
|
ebm-papst K3G560-AG07-10
|
EC Centrifugal 560mm Backward Curved Fan
|
ebm-papst Ltd
|
FAN17518
|
K3G560-AG07-03
|
ebm-papst K3G560-AG07-03
|
EC Centrifugal 560mm Backward Curved Fan
|
ebm-papst Ltd
|
FAN17519
|
R3G560-AH02-03
|
ebm-papst R3G560-AH02-03
|
EC Centrifugal 560mm Backward Curved Fan
|
ebm-papst Ltd
|
FAN17520
|
K3G560-AH02-10
|
ebm-papst K3G560-AH02-10
|
EC Centrifugal 560mm Backward Curved Fan
|
ebm-papst Ltd
|
FAN17521
|
K3G560-AH02-03
|
ebm-papst K3G560-AH02-03
|
EC Centrifugal 560mm Backward Curved Fan
|
ebm-papst Ltd
|
|
| |
Part 28
|
| |
Electric Vehicles and Associated Charging Equipment Eligible Products
|
| |
Aca Code
|
Product Code
|
Product Name
|
Short Description
|
Manufacturer
|
EVA13358
|
NEWTON
|
SMITH
|
TRUCK
|
SMITH ELECTRIC VEHICLES
|
EVA13359
|
EDISON
|
SMITH EDISON
|
Van or Cab/Chassis
|
SMITH ELECTRIC VEHICLES
|
EVA13360
|
AMPERE
|
SMITH AMPERE
|
Van
|
SMITH ELECTRIC VEHICLES
|
EVA13372
|
VX-1
|
Vectrix VX-1
|
Vectrix Electric Maxi-Scooter
|
Vectrix Corporation Inc.
|
EVA13373
|
Doblo Electric
|
Micro-Vett Electric Doblo
|
Electric Micro-Vett Doblo
|
Micro-Vett SPA
|
EVA13374
|
Daily Electric
|
Micro-Vett Electric Daily
|
Electric Micro-Vett Daily
|
Micro-Vett SPA
|
EVA13375
|
Electric Porter
|
Micro-Vett Electric Porter
|
Electric Micro-Vett Porter People Carrier
|
Micro-Vett SPA
|
EVA13376
|
Electric Fiorino
|
Micro-Vett Electric Fiorino
|
Electric Micro-Vett Fiorino
|
Micro-Vett SPA
|
EVA13377
|
Electric Ducato
|
Micro-Vett Electric Ducato
|
Electric Micro-Vett Ducato
|
Micro-Vett SPA
|
EVA13378
|
MEGA CITY
|
Mega City
|
Mega e-City Electric Car
|
Aixam-Mega SAS
|
|
| |
”.
|
| |
The Minister for Finance approves the making of the foregoing Order.
|
| |
|
| |
GIVEN under my Official Seal,
|
| |
24 September 2009.
|
| |
BRIAN LENIHAN,
|
| |
Minister for Finance.
|
| |
|
| |
GIVEN under my Official Seal,
|
| |
28 September 2009.
|
| |
EAMON RYAN,
|
| |
Minister for Communications, Energy Natural Resources.
|
| |
EXPLANATORY NOTE
|
| |
(This note is not part of the Instrument and does not purport to be a legal interpretation.)
|
| |
The effect of this Order is to update, in accordance with the provisions of section 285A of the
Taxes Consolidation Act 1997
(amended by
section 37
of the
Finance (No. 2) 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.
|
| |
The Accelerated Capital Allowance Scheme will involve quarterly updates to those product lists.
|
| |
1 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.
2 Initial lumens measured after 100 hours operation.
3 Physical to Virtual is often termed as P2V.
4 Containment Equipment are proprietary systems designed to channel air flow within IT rooms and cabinets with the aim of preventing hot and cold air streams mixing. |