te20 manual
DESCRIPTION
Argus TE20 Power EnclosureTRANSCRIPT
Te20 Outdoor Power Enclosure
030-765-B2
Argus Technologies Ltd. Visit www.argus.ca
Burnaby, British Columbia. Telephone: 604 436 5900 Fax: 604 436 1233 Argus Technologies reserves the right to make changes to the products and information contained in this document without notice. Copyright 2008 Argus Technologies Ltd. Argus® is a registered trademark of Argus Technologies Ltd. All Rights Reserved. Printed in Canada.
This page intentionally left blank.
Argus Technologies Ltd. 030-765-B2 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS is a registered trademark of Argus Technologies Ltd. All Rights Reserved.
Te20 Outdoor Power Enclosure 030-765-B2
The following documents and drawings are included in this manual to provide the necessary information required for installation, routine operation and fault diagnosis of the system. • Specifications: 030-765-B1
• CSA/NRTL Equivalence: 048-554-10
• Safety and Installation Instructions: 030-765-C0 Rev A
• Schematic: 030-765-05
• Outline Drawings: 030-765-06
• Customer Connections: 030-765-08
• Factory Service Information: 048-527-10
This page intentionally left blank.
Specifications for Argus’ Te20 Outdoor Power Enclosure
Argus Technologies Ltd. 030-765-B1 Rev B WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved.
Electrical Input Voltage: 120/240Vac, 60Hz single phase 120Vac for auxiliary equipment 240Vac for rectifiers Output Voltage: 20-30Vdc for system with 24V (nominal) rectifiers 42-60Vdc for system with 48V (nominal) rectifiers Output Power: 31.0kW (10x Cordex 24V rectifiers; Argus #010-572-20) 32.4kW (9x Cordex 48V rectifiers; Argus #010-567-20) Recommended Feeder Breakers (no integrated ac distribution panel) Per rectifier (10 max.): 2-pole, 30A (240Vac single phase) For internal load center: 1-pole, 30A (120Vac single phase)
Mechanical Dimensions: 2134mm H x 762mm W x 762mm D
(84" H x 30" W x 30" D) Weight: 410 kg (903 lb.) No batteries, no rectifiers Mounting: Pad or platform Cooling: Upper compartment is fan cooled (rectifiers and distribution) Lower compartment is air conditioned (batteries and customer equipment) Enclosure: Aluminum, 5052-H32 Internal Rack: 23”, 7RU dedicated to customer equipment
Environmental Operating Temperature: -40 to +46°C (-40 to 115°F) Storage Temperature: -40 to +85°C
(-40 to +185°F) Humidity: 0 to 95% non-condensing Elevation: 3600m, see Operating Temperature
(12,000 feet) Weather Tightness: NEMA Type 3R
Regulatory Approvals Enclosure Ratings: CSA/UL Type 3R
Product Safety: CSA/UL 60950 The above information is valid at the time of publication. Consult factory for up-to-date ordering information. Specifications are subject to change without notice.
What are the CSA and NRTL?CSA (Canadian Standards Association also known as CSA International) was established in 1919 as an independent testing laboratory in Canada. CSA received its recognition as an NRTL (Nationally Recognized Testing Laboratory) in 1992 from OSHA (Occupational Safety and Health Administration) in the United States of America (Docket No. NRTL-2-92). This was expanded and renewed in 1997, 1999, and 2001. The specific notifications were posted on OSHA’s official website as follows:
Federal Register #: 59:40602 - 40609 [08/09/1994] Federal Register #: 64:60240 - 60241 [11/04/1999] Federal Register #: 66:35271 - 35278 [07/03/2001]
When these marks appear with the indicator “C and US” or “NRTL/C” it means that the product is certified for both the US and Canadian markets, to the applicable US and Canadian standards. (1)
Argus rectifier and power system products, bearing the aforementioned CSA marks, are certified to CSA C22.2 No. 950 and UL 1950, or CSA/UL 60950.
As part of the reciprocal, US/Canada agreement regarding testing laboratories, the Standards Council of Canada (Canada’s national accreditation body) granted Underwriters Laboratories (UL) authority to certify products for sale in Canada. (2)
Only Underwriters Laboratories may grant a licence for the use of this mark, which indicates compliance with both Canadian and US requirements. (3)
What are NRTLs and what do they do?NRTLs are third party organizations recognized by OSHA, US Department of Labor, under the NRTL program.
The testing and certifications are based on product safety standards developed by US based standards developing organizations and are often issued by the American National Standards Institute (ANSI). (4)
The NRTL determines that a product meets the requirements of an appropriate consensus-based product safety standard either by successfully testing the product itself, or by verifying that a contract laboratory has done so, and the NRTL certifies that the product meets the requirements of the product safety standard. (4)
When was the NRTL started and who governs it?In 1983, in a suit brought on by an independent testing laboratory, OSHA was court ordered to remove specific references to UL (Underwriters Laboratories) and FMRC (Factory Mutual Research Corporation) from its regulations.
In 1988, OSHA revised its regulations to remove those references and the NRTL program was established.
The NRTL Program is both national and international in scope with foreign labs permitted.
References:Information in this document has been developed from the official websites of the respective organizations.(1) www.csa-international.org(2) www.scc.ca(3) www.ulc.ca(4) www.osha.gov
CSA/NRTL — MARKS — BACKGROUND
argusdcpower.com
048-554-10-I1 Rev C (2004/02)
The product on which either of these marks appear has been certified by CSA as meeting applicable Canada/US standards.
The product on which this mark appears has been certified by UL as meeting applicable Canada/US standards.
i
IMPORTANT SAFETY INSTRUCTIONS
SAVE THESE INSTRUCTIONS
This section contains important instructions that should be followed during the installation and maintenance of equipment and batteries. Please read all of the instructions before operating the equipment, and save this manual for future reference.
A licensed electrician MUST perform connections to the branch circuit of service feed. Installation of the power supply and batteries must be performed by, or under the direct supervision of service personnel knowledgeable of the required electrical and battery safety precautions.
If instructions in this manual conflict with local electrical codes, those instructions shall be superseded by the local code.
The following safety symbols will be found throughout this manual, carefully read all information and abide by the instructions:
DANGEROUS VOLTAGE This symbol indicates a dangerous voltage
exists in this area of the product.
GAS HAZARD This symbol indicates a gas hazard
exists in the area of vented batteries.
NO MATCHES OR OPEN FLAMES This symbol indicates a fire or explosive hazard
exists in the area of the product.
The following levels of warning will be used with the above symbols:
DANGER: You WILL be KILLED or SERIOUSLY INJURED if instructions are not followed closely.
WARNING: You CAN be KILLED or SERIOUSLY INJURED if instructions are not followed closely.
CAUTION: You CAN be INJURED or equipment can be DAMAGED if instructions are not followed closely.
Mechanical Safety
Keep hands and tools clear of fans. Fans are thermostatically controlled and will turn on automatically.
Power supplies can reach extreme temperatures under load.
Use caution around sheet metal components and sharp edges.
ii
Electrical Safety
WARNING Hazardous voltages are present at the input of a power system. The DC output from rectifiers and batteries, though not dangerous in voltage, has a high short-circuit current capacity that may cause severe burns and electrical arcing.
Before working with any live battery or power system, the following precautions should be followed:
• Remove all metallic jewelry; e.g., watches, rings, eyeglasses, necklaces. • Safety glasses with side shields must be worn at all times. • Tools with insulated handles must be used.
Lethal voltages are present within a power system. Never assume that an electrical connection or conductor is not energized. Check the circuit with a voltmeter with respect to the grounded portion of the enclosure (both ac and dc) prior to any installation or removal procedure.
Do not work alone under hazardous conditions.
A licensed electrician is required to install permanently wired equipment. Input voltages can range up to 240Vac. Ensure that utility power is disabled before beginning installation or removal.
Ensure no liquids or wet clothes contact internal components.
Hazardous electrically live parts inside this unit are energized from batteries even when the ac input power is disconnected.
Battery Safety
Servicing and connection of batteries shall be performed by, or under the direct supervision of, personnel knowledgeable of batteries and the required safety precautions.
Always wear eye protection, rubber gloves, and a protective vest when working near batteries. Remove all metallic objects from hands and neck.
Use tools with insulated handles; do not rest tools on top of batteries.
Batteries contain or emit chemicals known to the State of California to cause cancer and birth defects or other reproductive harm. Battery post terminals and related accessories contain lead and lead compounds; wash hands after handling (California Proposition 65).
WARNING Follow battery manufacturer’s safety recommendations when working around battery systems.
WARNING Do not smoke or present an open flame when batteries (especially vented batteries) are on charge. Batteries vent hydrogen gas when on charge, which creates an explosion hazard.
Batteries are hazardous to the environment and should be disposed of safely at a recycling facility. Consult the battery manufacturer for recommended local authorized recyclers.
iii
TABLE OF CONTENTS
SECTION PAGE
1 INTRODUCTION ............................................................................................................................................................. 1 1.1 Scope of the Manual ..................................................................................................................................... 1 1.2 Product Overview.......................................................................................................................................... 1
2 FEATURES ................................................................................................................................................................... 2 2.1 Power Equipment Compartment................................................................................................................... 2 2.2 Battery/Customer Equipment Compartment ................................................................................................. 2 2.3 Heating, Ventilating, and Air Conditioning (HVAC)....................................................................................... 3 2.4 Security ......................................................................................................................................................... 4
3 ACCESSORIES.............................................................................................................................................................. 5 3.1 Cordex System Controller ............................................................................................................................. 5 3.2 Cordex Rectifiers........................................................................................................................................... 5 3.3 DC Distribution .............................................................................................................................................. 5
4 TRANSPORTATION AND STORAGE ................................................................................................................................. 6
5 ENCLOSURE INSTALLATION .......................................................................................................................................... 7 5.1 Site Considerations ....................................................................................................................................... 7 5.2 Enclosure Preparation................................................................................................................................... 7 5.3 Lifting Preparation ......................................................................................................................................... 7 5.4 Enclosure Mounting ...................................................................................................................................... 8 5.5 Cable Bridge Interface .................................................................................................................................. 9
6 GROUNDING, WIRING AND CONNECTIONS.................................................................................................................... 10 6.1 Tools Required............................................................................................................................................ 10 6.2 Grounding ................................................................................................................................................... 11 6.3 AC Input Power ........................................................................................................................................... 12 6.4 DC Power Connections............................................................................................................................... 14 6.5 Alarm Connections...................................................................................................................................... 15 6.6 Battery Temperature Sensor Cables .......................................................................................................... 15 6.7 Customer Equipment Installation ................................................................................................................ 15 6.8 Cordex DC Power Set-up............................................................................................................................ 15
7 BATTERY INSTALLATION ............................................................................................................................................. 16 7.1 Preparation/Mounting.................................................................................................................................. 16 7.2 Installation of Batteries in Argus Tempest Power Systems ........................................................................ 16
8 SYSTEM STARTUP ...................................................................................................................................................... 18 8.1 Check System Connections........................................................................................................................ 18 8.2 Verify AC and Power the Rectifier Shelf ..................................................................................................... 18 8.3 Check Battery Polarity and Connect ........................................................................................................... 18 8.4 CXCM4 Reset ............................................................................................................................................. 18
9 HVAC SETTING DEFAULTS/CHANGES ........................................................................................................................ 19 9.1 Air Conditioner ............................................................................................................................................ 19 9.2 Enclosure Heater ........................................................................................................................................ 19 9.3 Temperature Alarms ................................................................................................................................... 19 9.4 Fan Control Temperature............................................................................................................................ 19
iv
10 TEST AND COMMISSIONING (OVERVIEW)...................................................................................................................... 20 10.1 System ........................................................................................................................................................ 20 10.2 Battery......................................................................................................................................................... 20 10.3 Documentation ............................................................................................................................................ 20
11 MAINTENANCE ........................................................................................................................................................... 21 11.1 Power Equipment Compartment Fan and Filter ......................................................................................... 21 11.2 Rectifiers ..................................................................................................................................................... 21 11.3 Battery/Customer Equipment Compartment Air Conditioner and Filter...................................................... 22 11.4 Batteries ...................................................................................................................................................... 22
12 ARGUS CONVENTIONS................................................................................................................................................ 23 12.1 Numbering System...................................................................................................................................... 23 12.2 Acronyms and Definitions ........................................................................................................................... 23
FIGURE PAGE
Figure 1–Tempest Te20 Outdoor Power Enclosure......................................................................................................... 1 Figure 2–Power equipment compartment ........................................................................................................................ 2 Figure 3–Battery/Customer equipment compartment ...................................................................................................... 3 Figure 4–Front door interlock ........................................................................................................................................... 4 Figure 5–Top rear removable access panel..................................................................................................................... 4 Figure 6–Split bus breaker distribution with optional LVD override switch....................................................................... 5 Figure 7–Mounting hole layout ......................................................................................................................................... 8 Figure 8–Cable bridge interface kit installed on the Te20................................................................................................ 9 Figure 9–Example of an insulated tool kit....................................................................................................................... 10 Figure 10–Site ground wire entry ................................................................................................................................... 11 Figure 11–Master ground bus ........................................................................................................................................ 11 Figure 12–Input power demarcation............................................................................................................................... 12 Figure 13–Rectifier module shelf connections ............................................................................................................... 12 Figure 14–Internal load center, cover removed.............................................................................................................. 13 Figure 15–DC power load cables for customer equipment ............................................................................................ 14 Figure 16–DC power load cables for BTS enclosures ................................................................................................... 14 Figure 17–Alarm interface cable..................................................................................................................................... 15 Figure 18–Customer equipment installation................................................................................................................... 15 Figure 19–Filter for dual fan assembly ........................................................................................................................... 21 Figure 20–Air conditioner ............................................................................................................................................... 22
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 1 of 23
1 Introduction
1.1 Scope of the Manual
This instruction manual explains the features, installation, startup and maintenance of Argus Technologies’ Tempest Te20 Outdoor Power Enclosure.
NOTE: Images contained in this document are for illustrative purposes only and may not exactly match your installation.
System specifications may be found in Argus document #030-765-B1. An explanation of the power system operation will be provided with the Cordex Controller (CXC) Software manual.
1.2 Product Overview
The Te20 Outdoor Power Enclosure is designed to provide –48Vdc or +24Vdc power to BTS radio enclosures as part of a wireless network.
The system components are differentiated by list options (e.g., L0, L4, L105, etc.) for all options; which are configured in a complete package. Some components retain standard part numbers as they may or may not be installed in the base system and can be added later.
The “Base” system is designated as List 0 of the base part number 030-765-20. This provides a starting point for constructing an outdoor power system with a maximum capacity of ten 24Vdc or nine 48Vdc rectifiers (see note below) complete with up to three shelves of batteries.
System includes:
• Zone 4 (Seismic) enclosure design • Cordex rectifiers and shelves • Cordex system controller • Provision for 7RU of customer equipment • 3 battery shelves for various VRLA battery options • Split output bus front access modular distribution center • DC power cabling for up to three BTS enclosures • Rectifier alarm / communications cabling for connection
to BTS enclosure
Figure 1–Tempest Te20 Outdoor Power Enclosure
NOTE: Te20 is evaluated with a max. ten Cordex 24Vdc (31kW) or nine Cordex 48Vdc (32.4kW) rectifiers for product safety compliance.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 2 of 23
2 Features
2.1 Power Equipment Compartment
The fan-cooled power equipment compartment includes two rectifier shelves, a modular system controller, DC distribution center, punch-down alarm wiring block and an ac load center for the air conditioner and the GFCI convenience outlet (located in lower compartment).
Figure 2–Power equipment compartment
Cooling fan and filter assembly
DC distribution center
Rectifier shelf (blank panel) AC load center (120Vac)
Modular Cordex system controller, model CXCM4 Cordex rectifiers
Punch-down alarm wiring block (not visible)
2.2 Battery/Customer Equipment Compartment
The air-conditioned battery/customer equipment compartment is equipped with three battery shelves and battery string disconnects. See Figure 3 on next page.
2.2.1 Adjustable Battery Shelves
Battery shelves are adjustable to accommodate different battery manufacturers as shown in the following table:
Battery Manufacturer/Number Height (in.) Width (in.) Length (in.) Weight (lb.) GNB M12V155FT 11.15 4.9 22 119
Alpha SpaCell SMU-F 155 11.1 4.9 21.9 119
Alpha SpaCell SMU-F 170 12.2 4.92 21.96 129.8
East Penn 12AVR-150ET 11.75 4.9 22 115
C&D TEL12-150 12.53 4.94 21.95 131
Enersys 12V155FS 11.1 4.9 22.1 148
Table A–Battery manufacturers
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 3 of 23
Air conditioner (mounted on door)
7RU for customer equipment
Battery shelves with slotted mounting holes for front to back adjustment Individual battery strings are fused
Enclosure ground bar
Figure 3–Battery/Customer equipment compartment
2.3 Heating, Ventilating, and Air Conditioning (HVAC)
2.3.1 Power Equipment Compartment
A thermostat-controlled dual fan assembly provides filtered ambient air cooling to the power equipment compartment. The filter is installed behind the dual fan assembly (see Figure 19).
2.3.2 Battery/Customer Equipment Compartment
A 5000 BTU air conditioner provides battery/customer equipment cooling.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 4 of 23
2.4 Security
All openings are padlockable and all removable panels are secured from the inside of the enclosure. The power equipment compartment door is interlocked with the battery/customer equipment door as shown below:
Figure 4–Front door interlock
Only one padlock is required on the battery/customer equipment front door. An additional padlock is required on the top rear removable access panel.
Figure 5–Top rear removable access panel
The bottom rear panel can be removed for installation if necessary. There are interior security fasteners that must be unlatched before the panel can be removed.
Flange used for front door interlock
Latches used (with padlocks) for top rear access panel
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 5 of 23
3 Accessories
3.1 Cordex System Controller
A modular Cordex system controller (CXCM4) is mounted in the rectifier shelf and provides easy access to controls and display status.
The CXCM4 provides comprehensive setup, control, monitoring and communication for Argus DC power systems.
CXCM4 features include the following:
• Designed to communicate directly with Cordex rectifiers • Includes battery temperature compensation charging • Battery performance diagnostics • Provides local and remote communications • User definable alarms • Daily logging of power system events and system statistics • Located on rectifier shelf for easy accessibility.
3.2 Cordex Rectifiers
See Cordex rectifier manual included with the system documentation package.
3.3 DC Distribution
3.3.1 20-Position Split Bus Breaker Distribution Panel
The Te20 system comes equipped with a 20-position “AM” style plug-in breaker distribution panel located above the power equipment in the top compartment. Breakers are “bullet” style allowing the user to simply plug the required breakers into, or remove them from, the panel without the need for tools or any extra hardware. The split bus distribution panel is rated at 600 amps per side. Each side incorporates a shunt and low voltage disconnect (LVD).
Figure 6–Split bus breaker distribution with optional LVD override switch
Drop-down panel door
LVD override switch
3.3.2 LVD Override Switch
An LVD override switch is located inside the breaker distribution panel door on the left hand side and can be used to maintain the LVD in operational status during maintenance or repair periods. When the switch is operated, a manual override in alarm is generated.
3.3.3 8-Position GMT Fuse Block
An optional 8-position GMT fuse block may be mounted in the battery/customer equipment compartment. The fuse block is designed for use in any DC power supply system where the application requires from one to eight alarm-equipped fused outputs ranging from 0.5 to 10A using GMT type fuses (to a maximum of 30A).
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 6 of 23
4 Transportation and Storage
4.1.1 Packaging
The enclosure and components are shipped on individual pallets and shrink wrapped. The pallet is approximately 0.15m H x 1.22m W x 1.52m D (6” H x 48” W x 60” D) and the overall height including pallet and enclosure is approximately 2.3m (91”). The enclosures and components cannot be stacked.
Batteries may or may not be installed; if they are not, they will be on a separate pallet and packaged per the manufacturers guidelines.
NOTE: Packaging assemblies and methods are tested to National Safe Transit Association standards.
4.1.2 Storage
The weight of the enclosure is listed in the specifications. The equipment pallet can be moved using a forklift.
Do not hoist/lift enclosure with batteries installed.
If the batteries are installed, the warehouse facility may have to be certified for handling such goods. Typically, the batteries will be on a separate pallet; the same requirements for certification will apply.
4.1.3 Site Considerations (see Section 5)
It is assumed that the site will be ready for enclosure installation upon arrival. Two able-bodied persons will be required at the site to lift and place the enclosure and components.
4.1.4 Inspection
Prior to unpacking the equipment, perform a visual inspection and note any damage. Unpack the equipment and inspect the exterior for damage. If any damage is observed contact the carrier immediately.
Continue the inspection for any internal damage. In the unlikely event of internal damage, please inform the carrier and contact Argus Technologies for advice on the consequence of any damage.
Verify that you have all the necessary parts per your order for proper assembly.
Call Argus Technologies if you have any questions before you proceed: 1 (888) 462-7487
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 7 of 23
5 Enclosure Installation
5.1 Site Considerations
The information in this section is intended as a guideline only; there may be site-specific requirements and other factors that will require individual attention, such as jurisdictional codes and construction covenants.
5.1.1 Site Selection
The supporting structure must be designed to support a fully configured enclosure. This will require a concrete slab and any existing structures to be properly reinforced to support the floor loading. In addition, the mounting site must be designed and installed in accordance with local building practices and codes.
Site consideration should include the following: • Areas that may receive hot air exhaust from neighboring buildings or structures should be avoided. • Any areas with architectural controls or environmental restrictions should be known. • Areas prone to flooding should be avoided. • A proper grounding system. See next section.
5.1.2 Enclosure Support
A supporting structure (slab, roof top, etc. with a minimum loading capacity of up to 475lb./sq.ft.) is required to support a fully loaded enclosure (rectifiers, batteries, air conditioning, etc.).
5.2 Enclosure Preparation
Remove the protective covering from the enclosure.
NOTE: Inspect the packing slip to verify that all equipment is there.
If batteries are on a separate pallet, they should not be installed until after the enclosure has been secured. If the batteries are going to be placed within the enclosure, the inter-unit connectors must be installed.
Inspect moving parts, hardware, connectors, and installed equipment.
NOTE: In case of damage, report it according to procedure.
Remove and properly dispose of all packaging.
5.3 Lifting Preparation
CAUTION All local safety practices and guidelines must be followed while lifting the enclosure.
Do not lift enclosure with batteries installed.
All personnel involved with lifting and placing the enclosure should wear head and eye protection and gloves when required.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 8 of 23
5.4 Enclosure Mounting
There are two sets of mounting holes in the base of the Te20. The following figure shows the mounting hole layout with all the battery trays removed:
Figure 7–Mounting hole layout
Inside holes (4PL)
Outside holes (4PL)
5.4.1 Concrete Pad
The “outside” holes are visible and accessible without removing battery trays.
Cast-in-place or pre-cast concrete slabs can be used.
Place the enclosure on the concrete slab and secure with Hilti HSL heavy-duty expansion anchor bolts or approved equivalent. Secure the enclosure using the specific recommendations from the chosen fastener manufacturer, taking into account the embedment depth and clear edge distances in order for the securing device to achieve its full structural capacity. All alternates other than what is provided directly with the enclosure will need to be reviewed by a registered professional engineer qualified to practice within the area where the enclosure is being installed.
Alternate installation could be to use a chemical anchoring system such as Hilti HY150 for concrete or HY20 for masonry along with suitable threaded rods and inserts from the same manufacturer. Spacing and placement utilizing this method shall be performed as per the manufacturer’s recommendations.
5.4.2 Steel Platform
To access the “inside” holes it will be necessary to remove the bottom battery tray. See enclosed drawing for dimensions.
It is recommended that the mounting bolts be 1.27cm (1/2”) diameter A325 structural bolts in conjunction with a backing plate/clasp to grip the underside of the grating. Once the enclosure is in place, secure on the inside using appropriate washers and bolts.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 9 of 23
5.5 Cable Bridge Interface
The cable bridge interface installation kit can be mounted on either the left or right side of the enclosure. This kit must be installed prior to installing the adjacent enclosure. See enclosed drawings for interface kit assembly.
Figure 8–Cable bridge interface kit installed on the Te20
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 10 of 23
6 Grounding, Wiring and Connections
This section is provided for qualified personnel to install and interconnect the power components within the Argus Outdoor Enclosure. Regarding battery installation, refer primarily to the manufacturer’s guidelines for more specific information.
6.1 Tools Required
Various insulated tools are essential for DC power system installation. Use this list as a guide:
• Battery lifting apparatus (as required) • Various crimping tools and dies, to match lugs used in installation • Digital voltmeter equipped with test leads • Cable cutters • Torque wrench: 1/4” drive, 0-150 in/lbs • Torque wrench: 3/8” drive, 0-100 ft/lbs • Insulating canvases as required (2’ x 2’, 1’ x 1’, 3’ x 3’, etc.) • Various insulated hand tools (see Figure 9) including:
-Combination wrenches -Ratchet and socket set -Various screwdrivers -Electricians knife -Fine tipped slot screwdrivers (“tweaker”)
• Battery safety spill kit (required for wet cells only) including: -Protective clothing -Face shields -Gloves -Baking soda -Eye wash equipment
• Cutters and wire strippers (#14 to #22AWG) [2.5 to 0.34mm2].
Figure 9–Example of an insulated tool kit
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 11 of 23
6.2 Grounding
DANGER An enclosure that is not properly grounded can present an electrical hazard.
A proper grounding system that meets or exceeds the specifications of the equipment must be designed and installed prior to or in conjunction with the construction of the mounting scenario. The ground system must be bonded to the enclosure to ensure a “Common” or “Single-Point” Ground; some examples are:
New builds – Buried ground ring with bare solid conductor to ground rods.
Rooftop – Connection to building steel, water pipes, etc.
Refer to local codes and practices from the local power company. Size to suit.
Only a licensed electrician should connect any ac power and grounding to the enclosure. A dedicated ground rod is required for the grounding the ac panel.
CAUTION Do not route ac and dc wiring in the same conduit.
6.2.1 Site Ground Wire Entry
Located at the bottom corners (front and rear) of the enclosure, there are entry/exit points (center punch marks) for making the external site ground wire connection.
Figure 10–Site ground wire entry
Chassis ground (4 PL)
Center punch marks (4 PL)
6.2.2 Master Ground Bus (MGB)
The master (main) ground bus is located at the bottom of the enclosure. Terminate to the MGB and to the external ground ring with either a compression or exothermic connection. Argus recommends a minimum 2/0.
Figure 11–Master ground bus
6.2.3 Enclosure Chassis Ground (Factory Installed)
The chassis ground is connected to the enclosure frame and equipment racks and is terminated to the MGB within the enclosure.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 12 of 23
6.3 AC Input Power
Verify electrical codes prior to installation. Codes may vary and contain specific conduit and wire sizes for connection to the ac load center.
Connection to utility power must be approved by the local utility before installing the power supply.
Figure 12–Input power demarcation
Without an ac service panel, the Te20 shall be wired to an external source. Individual 2-pole breakers are required to feed each rectifier (30A 240Vac). Refer to the rectifier manual specifications.
Figure 13–Rectifier module shelf connections
AC power wiring entrance demarcation (top rear of Te20); center punch marks or knockouts depending on version ordered
Rectifier module ac input power terminal blocks (2 PL) [shown without top rear removable panel]
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 13 of 23
The internal ac load center, located in the power equipment compartment in the front bottom left corner, requires a single pole breaker (30A 120Vac) feed to power auxiliary equipment; such as, air conditioner, cooling fans, and GFCI convenience outlet.
Figure 14–Internal load center, cover removed
Procedure:
Knockout for feeder circuit
1. Locate the ac load center in the enclosure. Remove cover. 2. Remove an appropriate knockout on the box to accept the power conduit and cable. 3. Run conduit and cable into the load center. 4. Connect to the main terminal lugs located inside load center as follows:
a. Black to L1 (line connection), b. White to N (neutral connection), c. Green to equipment ground bar, d. Jumper wire (same gauge as incoming feeds) between L1 & L2.
5. Replace ac load center cover.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 14 of 23
6.4 DC Power Connections
DC power connections include circuit breakers and load cables for BTS enclosures and the customer equipment section (in the battery/customer equipment compartment). Circuit breakers are labeled on the front panel of the dc distribution center (Figure 6) and each power load cable set is tagged (shown below).
Figure 15–DC power load cables for customer equipment
DC power load cables for BTS equipment are supplied coiled up in rear of top section. When the equipment lineup is in place, these cables will be routed through the BTS bridge interface to load connection points. Any unused cables should be removed and stored elsewhere.
Figure 16–DC power load cables for BTS enclosures
Battery temperature compensation cables
DC power load cables for customer equipment
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 15 of 23
6.5 Alarm Connections
A BTS alarm interface cable is provided (shown below). Route cable through the bridge interface to the BTS enclosure. See enclosed schematic for alarm connection details.
Figure 17–Alarm interface cable
‘66’ punch-down wiring block
Alarm interface cable
NOTE: If necessary, configurations changes can be made at the ‘66’ punch-down wiring block.
6.6 Battery Temperature Sensor Cables
Battery temperature compensation cables are provided for installation when batteries are installed. See Figure 15.
6.7 Customer Equipment Installation
7RU is allocated to customer equipment in the battery/customer equipment compartment. As noted above dc power cabling is provided from the dc distribution panel. When there are not enough positions available on the dc distribution panel, an 8-position GMT fuse block can be added.
Three cable entry boots are provided at the back of the enclosure to provide cable routing from the battery/customer equipment compartment through the power equipment compartment and the bridge interface for external termination.
NOTE: When rear access is not available, connections must be made on customer’s ancillary equipment prior to mounting on equipment rails.
Figure 18–Customer equipment installation
6.8 Cordex DC Power Set-up
See enclosed Cordex rectifier and system controller manuals.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 16 of 23
7 Battery Installation
WARNING Follow battery manufacturer’s safety recommendations when working around battery systems and review the safety instructions provided in this manual.
7.1 Preparation/Mounting
The Outdoor Enclosure must be mounted (Section 5) before installation of the bottom tray of batteries may be completed.
Batteries should be located in a temperature-controlled environment; i.e., Tempest. The temperature should be regulated at approx. 25°C (77°F). Significantly lower temperatures reduce performance and higher temperatures decrease life expectancy.
Before assembly, clean cells (where applicable) as per the battery manufacturer's recommendations. First neutralize any acid with a baking soda and water solution. Then wipe the cells with clean water.
7.2 Installation of Batteries in Argus Tempest Power Systems
Verify that all battery breakers, DC circuit breakers, and fuses on the distribution panels are either in the OFF position or removed. For each of the following steps, verify that the rubber terminal caps / plastic covers are on and are completely covering the positive and negative terminal connections.
Use a corrosion-inhibiting agent such as NO-OX or NCP-2 on all battery terminal connections.
1. Check the battery block voltage (typically >12.6V). 2. Disconnect Anderson connectors. 3. Slide the battery blocks onto the battery trays starting at the bottom (four per tray).
NOTE: The Outdoor Enclosure must be mounted before installation of the bottom tray of batteries may be completed. 4. Ensure that the battery output cabling will reach the [+] and [–] terminals of the series battery string and that
the batteries are oriented correctly for easy installation of the inter-unit “series” connectors. 5. Remove any no-oxide “A” grease from battery terminals. 6. Burnish terminal posts with a non-metallic brush, polishing pad or 3M-type scotch pad. 7. Apply a light coating of no-oxide “A” grease to the terminal posts. 8. If lead plated inter-unit connectors are used, they should also be burnished and no-oxide “A” grease applied
as above. Install the inter-unit connectors. 9. Connect the batteries to the pre-installed cables. 10. Install in-line battery fuse on one battery terminal inter-unit connector. 11. Repeat the above installation procedure for each shelf and battery string. For the middle battery tray, install a
temperature probe to each of the negative posts on the center batteries. 12. After all battery connections are completed, torque per battery specifications (typically 100 in-lbs). 13. Verify polarity and voltage at Anderson connectors.
NOTE: See system startup procedure before connecting batteries online.
After assembly, batteries should be numbered and “as received” readings should be taken; such as, battery voltage and temperature. Refer to manufacturer's literature for guidelines. See following table for typical maintenance report.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 17 of 23
Company: ________________________________________________ Date: ____________________ Address:____________________________________________________________________________ Battery location and/or number:__________________________________________________________ No. of cells: _______________ Type: __________________________ Date new: ________________ Date installed: _____________ Float voltage: ____________________ Ambient temp.: ____________
Battery Readings
Battery # Serial # Voltage Specific Gravity
Ohms Mhos Observations
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
Remarks and recommendations:_________________________________________________________ __________________________________________________________________________________ __________________________________________________________________________________
Readings taken by: _________________________________________
Table B–Typical VRLA battery maintenance report
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 18 of 23
8 System Startup
After completing the enclosure installation and power system wiring, perform the following startup and test procedure to ensure proper operation:
8.1 Check System Connections
• Ensure ac is off, battery is disconnected, and all power modules are removed from the shelf. • Triple-check the polarity of all connections.
8.2 Verify AC and Power the Rectifier Shelf
• Install one power module. • Verify ac input voltage is correct and turn on the corresponding feeder breaker. • The power module OK LED should illuminate after a preset start delay. • Using the CXCM4, test functionality of various module alarms and controls.
8.3 Check Battery Polarity and Connect
• Verify correct battery polarity using a voltmeter (ensuring no cells or batteries are reversed). • Connect battery as required to the output of the system. • Install remaining power modules. • In the adjustments menu of the CXCM4, set float and equalize voltage to the levels specified by the battery
manufacturer. • Using the CXCM4, test functionality of various module alarms and controls. In addition, perform a load test
with the system using a resistive load box as needed. • Enable the temperature compensation (temp comp) feature (Batteries menu) and program the settings for
slope and breakpoints (upper and lower) with respect to the specific batteries used.
8.4 CXCM4 Reset
The reset button located on the front panel of the optional CXCM4 is for restarting the microprocessor. When pressed momentarily, the unit beeps twice then resets. The front-panel LED’s will illuminate temporarily, but will extinguish after the system has finished its 15-second self-test.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 19 of 23
9 HVAC Setting Defaults/Changes
9.1 Air Conditioner
Setting Default Adjust To Cooling System ON Temperature 80°F [26.6°C] NO CHANGE Heating System ON Temperature 50°F [10°C] NO CHANGE High Enclosure Temperature Alarm 100°F [37.8°C] 113°F [45°C] Low Enclosure Temperature Alarm 40°F [4.4°C] 34°F [1.1°C] Audible and Visual Alarm ON OFF Digital Temperature Display Units (C or F) F NO CHANGE Filter Maintenance Alarm 30 Days 0 Days High Condensor Temperature Alarm 170°F [76.5°C] NO CHANGE
9.2 Enclosure Heater
Enclosure Heater Thermostat Setpoint: 18.3°C (65°F) (if heater is present)
9.3 Temperature Alarms
Battery Compartment Thermostat Default Adjust To High Temperature Alarm (Blue) N/A 35°C (95°F) Low Temperature Alarm (Red) N/A -15°C (5°F)
Power Compartment Thermostat Default Adjust To High Temperature Alarm (Blue) N/A 65°C (149°F) Low Temperature Alarm (Red) N/A -15°C (5°F)
9.4 Fan Control Temperature
Power Compartment Thermostat Default Adjust To Fan Control Temperature (Blue) N/A 25°C (77°F)
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 20 of 23
10 Test and Commissioning (Overview)
10.1 System
All Argus power system components undergo thorough factory testing. All levels/alarms are set to predetermined values as detailed in their individual component manuals except where custom levels are specified. Good installation practice is to check the operation of all features and alarms and to set the power system levels in accordance with the specific requirements of your system.
NOTE: The individual system component manuals detail the methodology for testing and calibration of all components.
10.2 Battery
After installation of batteries it is usually necessary to “initial charge” the batteries to ensure proper operation and to eliminate plate sulfation. Follow guidelines supplied with the battery and record initial charge readings; i.e. specific gravity, cell voltage, charge current and temperature.
NOTE: Battery warranty may be void if batteries are not initially charged following the manufacture's guidelines – with proper records maintained.
Some VRLA batteries do not require initial charging if placed on charge within 3-6 months of manufacture, check with the manufacturer.
After the equalization period battery voltage should be reduced to the recommended float level.
Once the batteries have been initial charged it is suggested to perform a short duration high rate discharge test on the batteries to verify the connections on the batteries and also to verify that there are no open or failed cells. Cell voltages should be monitored during this process:
• Discharge for 15 minutes at the C/8 rate. • Record cell voltages every 5 minutes. • Check for overheating connections.
10.3 Documentation
Complete all necessary documentation; i.e., battery reports (Table B), DC wiring lists, ac distribution tables, floor plans, etc. Tag wires, fill out identification strips, and identify circuit breakers.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 21 of 23
11 Maintenance
Although very little maintenance is required with Argus systems, routine checks and adjustments are recommended to ensure optimum system performance. Qualified service personnel should do repairs.
The following table lists a few maintenance procedures for this system. These procedures should be performed at least once a year.
WARNING: HIGH VOLTAGE AND SHOCK HAZARD.
Use extreme care when working inside the enclosure/shelf while the system is energized. Do not make contact with live components or parts.
Circuit cards, including RAM chips, can be damaged by static electricity. Always wear a grounded wrist strap when handling or installing circuit cards.
Procedure Date Completed Clean ventilation openings
Inspect all system connections (re-torque as necessary)
Verify alarm/control settings
Verify alarm relay operation
Table C–Sample maintenance log
11.1 Power Equipment Compartment Fan and Filter
To access the filter for cleaning (every 2 to 6 months), remove the four wing nuts from the dual fan assembly mounting bracket.
Figure 19–Filter for dual fan assembly
Filter
Mounting bracket
11.2 Rectifiers
It is recommended that every five years MOV surge suppressors are replaced (especially in areas of high lightning activity).
See Cordex rectifier manual for general maintenance information.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 22 of 23
11.3 Battery/Customer Equipment Compartment Air Conditioner and Filter
Figure 20–Air conditioner
Control panel/display cover plate
Air conditioner filter and holder
11.3.1 Air Conditioner Settings
The air conditioner is programmed with the factory default settings. Refer to the air conditioner manual (supplied with the unit) for operation and maintenance details.
To access the controller for adjustments, remove the screws from the control panel cover plate (shown above).
11.3.2 Air Conditioner Filter
Air conditioners fail due to lack of maintenance, specifically dirty filters. Initially this filter should be checked frequently until a proper maintenance schedule is developed.
IMPORTANT It is recommended that filter maintenance be promptly scheduled, to eliminate failure possibilities.
To access the filter for cleaning (every 2 to 6 months), remove the screws from the filter holder on the side of the air conditioner (shown above).
11.3.3 High Temperature Alarms and Air Conditioner Failures
The air conditioner is factory programmed however not every unit is checked for continual operation. If the air conditioner is failing, refer to the air conditioner manual and check settings.
If the air conditioner is working and a "Hi-Temp" alarm is reported to the OMC, check that the enclosure's Hi-Temp alarm thermostat (in the battery compartment) is set to 35°C (95°F).
11.4 Batteries
It is recommended that checks are made every six months for battery voltage, conductance, temperature, impedance, connections, etc.
See battery manual for general maintenance information.
Argus Technologies Ltd. 030-765-C0 Rev A WC Printed in Canada. © 2005 Argus Technologies Ltd. ARGUS and CORDEX are trademarks of Argus Technologies Ltd. All Rights Reserved. Page 23 of 23
12 Argus Conventions
12.1 Numbering System
Argus Technologies uses an eight-digit drawing number system, which is broken into three blocks. The first three digits describe the category of the product; e.g., rectifier or fuse panel. The next three digits indicate the sequence in which the product number was allocated in a particular category. The last two digits indicate the type of drawing, for example:
“-06” Outline Drawing “-08” Customer Connections “-20” Main Assembly
Argus uses an eight-digit part numbering system for all components and sub assemblies. Each part is covered by its own unique number. Due to the quantity, categories will not be listed within this manual.
12.2 Acronyms and Definitions
AC Alternating current AWG American Wire Gauge BTU British thermal unit CSA Canadian Standards Association CX Cordex™ series; e.g., CXC for Cordex System Controller DC Direct current HVAC Heating, ventilating, and air conditioning LED Light emitting diode LVD Low voltage disconnect MOV Metal oxide varistor NEMA National Electrical Manufacturers AssociationRAM Random access memory RU Rack unit (1.75”) UL Underwriters Laboratories
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
1
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:53:00 PM
03076505PD__SHEET1.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
1 2
30C
0C 60C
DUAL-COOLING FANCONTROL THERMOSTAT
POWER COMPARTMENT
BLK - #18 AWG
BLK - #18 AWG
GRN/YEL
BLK - #18 AWG
BLK - #18 AWG
GRN/YEL - #18 AWG
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
POWER COMPARTMENT DUAL-COOLING FAN ASSEMBLY
2
3
1 1
2
3
GROUNDINGSCREW
GROUNDINGSCREW120VAC / 60 Hz
CB1 CB2
L1 L2
N
EQUIP.GROUNDBAR
WH
T
GR
N
BLK
5000 BTU/Hr
RETURN AIR
SUPPLY AIR
LINE
NEUAC POWER
GND
AIR CONDITIONER UNIT
16/3 SJTPOWER CORD
120VAC, 60HzINPUT
GR
N
WH
T
BLK
15A/125V
BONDINGSCREW
AC LOADCENTRE
MOLEX CONNECTOR
120VAC / 60 Hz
J3
J4
GRN
HOT'WHT'
GND
GFCI RECEPTACLE OUTLET
TEST
RESET
LINE
NEU
TERMINALS
BONDINGSCREW
SW1
N.O.COM
POWER COMPARTMENT DUAL-COOLINGFAN POWER CONTROL SWITCH
WHT - #14AWG
BLK - #14AWG
GRN - #14AWG
GRN - #14AWG
WHT - #14AWG
BLK - #14AWGB
LK
WH
T
BL
K
BLK
BL
K
WHT
WH
T
GRN
GR
N
BLK - #14 AWG
WHT - #14 AWG
BLK - #14 AWG
WHT - #14 AWG
SW3
N.O. COM
AIR CONDITIONER
POWER CONTROL SWITCH
BL
K -
#1
4 A
WG
WH
T -
#14
AW
G
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
2 31
1 2 3
N.O.
COMSTATUS ALARM
N.C.
OUTPUT
N.O.
COM
N.C.
ON ALARM WIRING PUNCH-DOWN BLOCK
* REFER TO SHEET 4 (FOR 24V SYS.) OR SHEET 5 (FOR 48V SYS.)
TO PIN 38
TO PIN 39
TO PIN 40
1
2
3
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
WHT
BLK
RED
WHT
BLK
RED
J2
P2
P1 J1
ORG
WHT
GRN
GR
N15A 15A
LINE
NEU
120V SINGLE PHASE AC POWER INPUT(CUSTOMER CONNECTION)
* NOTE: A 30 AMP, 1 POLE FEEDER CIRCUITGND BREAKER IS RECOMMENDED
#18 AWG
'TANDEMBREAKER'
MO
LE
XC
ON
NE
CT
OR
BL
K
BL
K
GR
N
GR
N
BL
K
WHT
ORG
ORG
ORG
WH
T
YEL
GRN
ADD JUMPER WIRE(CUSTOMERINSTALLED)
AHEAD OF THIS LOADCENTRE.
BATTERY COMPARTMENT
BATTERY COMPARTMENT
* SEE NOTE 2
* SEE NOTE 2
* SEE NOTE 2
'UTILITY BOX'
'UTILITY BOX'
* SEE NOTE 2
NOTES:
1.) USE 14/3 SJ FLEXIBLE CORD FOR WIRING UNLESS OTHERWISE INDICATED.
2.) USE BLACK ELECTRICAL TAPE AROUND WHITE WIRES NEAR ENDS TO IDENTIFY THEM AS 'HOT' CONDUCTORS.
P/B 48V CONFIGURATION ADDED 05/05
P/C GMT FUSE ALARM WIRE ADDED 05/06
M.E.AC POWER DISTRIBUTION WIRING:
LIST 35: AC LOADCENTRE, 70A, 120/240V, 1PH, 2 POS, MAIN LUGS P/D ADD AC PANELBOARD OPTION 05/12
M.E.
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
2
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:53:52 PM
03076505PD__SHEET2.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
CORDEX 24V-3.1kW POWER RECTIFIER MODULE 23" SHELF (UPPER)(P/N 030-736-20)
GND (PE)
RECTIFIERL1
L1
L1
L2
L2
L2
MOD #1
MOD #2
MOD #3
L1
L1
L1
L2
L2
L2
MOD #6
MOD #5
MOD #4
MODULE #6
GND (PE)
J8
CAN BUS OUTPUT
J7
CAN BUS INPUT
CORDEX 24V-3.1kW POWER RECTIFIER MODULE 23" SHELF (LOWER)(P/N 030-736-20)
GND (PE)
CXCM4
RECTIFIER RECTIFIER RECTIFIER RECTIFIER RECTIFIERL1
L1
L1
L2
L2
L2
MOD #1
MOD #2
MOD #3
L1
L1
L1
L2
L2
L2
MOD #6
MOD #5
MOD #4
CONTROLLER
MODULE #1 MODULE #2 MODULE #3 MODULE #4 MODULE #5
GND (PE)
J8
CAN BUS OUTPUT
J7
CAN BUS INPUT
AC POWER INPUT TERMINAL BLOCK(CUSTOMER CONNECTION)
AC POWER INPUT TERMINAL BLOCK(CUSTOMER CONNECTION)
(CUSTOMER CONNECTION)AC POWER INPUT TERMINAL BLOCK
MODULE
SYSTEMAC POWER INPUT TERMINAL BLOCK(CUSTOMER CONNECTION)
1200A, 20 POS 'AM' BREAKER DC DISTRIBUTION
(REFER TO SHEET 10 FOR WIRING DIAGRAM)
( + ) ( - )
( + ) ( - )
POWER RECTIFIER MODULE SHELF & DC POWER DISTRIBUTION PANEL WIRING: 'SYSTEM DC OUTPUT BUS BARS'
CABLE ASSEMBLY P/N 877-176-28
TO CUSTOMER EQUIPMENT #1
TO NOKIA GSM EQUIPMENT #1
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #2/0 AWG
BLK - #2/0 AWG
BLK - #2/0 AWG
BLK - #2/0 AWG
BLK - #2/0 AWG
BLK - #2/0 AWG
TO NOKIA GSM EQUIPMENT #2
TO NOKIA GSM EQUIPMENT #3
TO CUSTOMER EQUIPMENT #2
TO CUSTOMER EQUIPMENT #3
DC POWER OUTPUT LOAD CABLES
+24V
GND
+24V
GND
+24V
GND
+24V
GND
+24V
GND
+24V
GND
LIST 1: + 24V SYSTEM
72
73
74
75
76
77
78
79
80
81
82
83
72
73
74
75
76
77
78
79
80
81
82
83
(FROM CB1)
(FROM CB2)
(FROM CB3)
(FROM CB4)
(FROM CB5)
(FROM CB6)
+
-
+
-
+
-
+
-
+
-
+
-
CUSTOMER TERMINATIONSPANEL ASSEMBLY - P/N 020-689-20
BREAKER OUTPUTTERMINATIONS
TB TB
TB TB
2 POS, MAIN LUGSLIST 35: AC LOADCENTRE, 70A, 120/240V, 1PH,
(OPTIONAL)
(OPTIONAL) (OPTIONAL) (OPTIONAL)
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
3
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:54:21 PM
03076505PD__SHEET3.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
CORDEX 48V-3.6kW POWER RECTIFIER MODULE 23" SHELF (UPPER)(P/N 030-716-20)
GND (PE)
RECTIFIERL1
L1
L1
L2
L2
L2
MOD #1
MOD #2
MOD #3
L1
L1
L1
L2
L2
L2
MOD #6
MOD #5
MOD #4
MODULE #6
GND (PE)
J8
CAN BUS OUTPUT
J7
CAN BUS INPUT
CORDEX 48V-3.6kW POWER RECTIFIER MODULE 23" SHELF (LOWER)(P/N 030-716-20)
GND (PE)
CXCM4
RECTIFIER RECTIFIER RECTIFIER RECTIFIER RECTIFIERL1
L1
L1
L2
L2
L2
MOD #1
MOD #2
MOD #3
L1
L1
L1
L2
L2
L2
MOD #6
MOD #5
MOD #4
CONTROLLER
MODULE #1 MODULE #2 MODULE #3 MODULE #4 MODULE #5
GND (PE)
J8
CAN BUS OUTPUT
J7
CAN BUS INPUT
AC POWER INPUT TERMINAL BLOCK(CUSTOMER CONNECTION)
AC POWER INPUT TERMINAL BLOCK(CUSTOMER CONNECTION)
(CUSTOMER CONNECTION)AC POWER INPUT TERMINAL BLOCK
MODULE
SYSTEMAC POWER INPUT TERMINAL BLOCK(CUSTOMER CONNECTION)
( - ) ( + )
( - ) ( + )
POWER RECTIFIER MODULE SHELF & DC POWER DISTRIBUTION PANEL WIRING: 'SYSTEM DC OUTPUT BUS BARS'
CABLE ASSEMBLY P/N 877-176-28
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #2 AWG
DC POWER OUTPUT LOAD CABLES
72
73
74
75
76
77
78
79
80
81
82
83
-48V
GND
LIST 2: - 48V SYSTEM
BLK - #2 AWG
BLK - #2 AWG
BLK - #2 AWG
BLK - #2 AWG
BLK - #2 AWG
72
73
74
75
76
77
78
79
80
81
82
83
-48V
GND
-48V
GND
-48V
GND
-48V
GND
-48V
GND
1200A, 20 POS 'AM' BREAKER DC DISTRIBUTION
(REFER TO SHEET 11 FOR WIRING DIAGRAM)
PANEL ASSEMBLY - P/N 020-689-20BREAKER OUTPUTTERMINATIONS
TB TB
TBTB
TO CUSTOMER EQUIPMENT #1
TO NOKIA GSM EQUIPMENT #1
TO NOKIA GSM EQUIPMENT #2
TO NOKIA GSM EQUIPMENT #3
TO CUSTOMER EQUIPMENT #2
TO CUSTOMER EQUIPMENT #3
(FROM CB1)
(FROM CB2)
(FROM CB3)
(FROM CB4)
(FROM CB5)
(FROM CB6)
CUSTOMER TERMINATIONS
(OPTIONAL)
(OPTIONAL)
+
-
+
-
+
-
+
-
+
-
+
-
2 POS, MAIN LUGSLIST 35: AC LOADCENTRE, 70A, 120/240V, 1PH,
(OPTIONAL)(OPTIONAL)
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
4
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:54:38 PM
03076505PD__SHEET4.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
K2
K4
K3
K6
K5
K7
K8
K0
21
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
TB1
COMN.C.
N.O.N.C.
N.O.COM
COMN.C.
N.O.
COMN.C.
N.O.
COMN.C.
N.O.
N.C.
N.O.COM
N.C.
N.O.COM
N.C.
N.O.COM
48 49 50 51 52 53 54 55 56
V1
-
V1
+
I1 -
I1 +
I2 -
I2 +
N.C
.
CO
M
N.O
.
47464544
43424140
TB5
TB4
+ POWER
- POWER
SYSTEM INPUTS LVD CONTROL (K1)
2425
2627
2829
3031
3233
343638353739
D4
_2
D4
_1
D3
_2
D3
_1
D2
_2
D2
_1
D1
_2
D1
_1
GP
4 -
GP
4 +
GP
3 -
GP
3 +
GP
2 -
GP
2 +
GP
1 -
GP
1 +
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
J2
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
P1
I/O EXTENSION BOARD - P/N 707-449-20
RELAY OUTPUTS
GENERAL
PURPOSE INPUTS DIGITAL INPUTS
1
2
3
4
5
6
7
8
9
10
11
12
P4
I/O EXTENSION WIRE HARNESS - P/N 877-406-20
28 29 30 31 24 25
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
P9
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
J4
TO
J9
ON
CX
CM
4 B
AC
KP
LA
NE
BO
AR
D
TO
P4
ON
CX
CM
4 B
AC
KP
LA
NE
BO
AR
D
CABLE ASSEMBLY - P/N 877-397-20
CABLE ASS'Y - P/N 877-398-20
TO J4 ON 1200 AMPDC DISTRIBUTION PANELASS'Y - P/N 020-689-20
1
2
3
4
6
9
10
12
13
14
15
16
17
18
19
21
22
23
24
11
5
20
1
2
3
4
6
7
8
9
10
12
13
14
15
16
17
18
19
21
22
23
24
25
11
5
20
8
7
26
27
28
29
30
31
32
33
34
35
36
37
40
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
41
42
43
44
45
46
47
48
4949
5050
40
38
39
41
42
43
44
45
46
47
48
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
NO
KIA
BT
S A
LA
RM
IN
TE
RF
AC
E C
AB
LE
AS
S'Y
- P
/N 8
77
-30
9-2
0
'LVD MANUAL OVERRIDE IN ALARM' (K2)
'TEMPERATURE ALARM' (K3)
'RECTIFIER FAIL [MINOR] ALARM' (K4)
'RECTIFIER FAIL [MAJOR] ALARM' (K5)
'DISTRIBUTION BREAKER ALARM' (K6)
'SYSTEM HI/LO VOLTAGE ALARM' (K7)
BLK - #22AWG
WHT- #22AWG
BRN - #22AWG
BLU - #22AWG
ORG - #22AWG
YEL - #22AWG
VIO - #22AWG
GRY - #22AWG
PNK - #22AWG
TAN - #22AWG
BLK - #22AWGWHT- #22AWG
RED - #22AWGGRN - #22AWG
BRN - #22AWGBLU - #22AWG
ORG - #22AWGYEL - #22AWG
VIO - #22AWGGRY - #22AWG
PNK - #22AWGTAN - #22AWG
RED - #22AWG
GRN - #22AWG
NOT USED
BLK - #22 AWG
WHT - #22 AWG
BLU/WHT - #22 AWG
BLK/RED - #22 AWG
WHT/RED - #22 AWG
ORG/RED - #22 AWG
BLU/RED - #22 AWG
RED/GRN - #22 AWG
RED - #22 AWG
GRN - #22 AWG
ORG/GRN - #22 AWG
BLK/WHT/RED - #22 AWG
ORG - #22 AWG
BLU - #22 AWG
WHT/BLK - #22 AWG
RED/BLK - #22 AWG
GRN/BLK - #22 AWG
ORG/BLK - #22 AWG
BLU/BLK - #22 AWG
BLK/WHT - #22 AWG
RED/WHT - #22 AWG
GRN/WHT - #22 AWG
WHT/BLK/RED - #22 AWG
RED/BLK/WHT - #22 AWG
ON
RE
CT
IFIE
R S
HE
LF
ON
RE
CT
IFIE
R S
HE
LF
TB6 TB10 TB11 TB12
TB2 TB13 TB3 TB14
32
33
34
35
26 27
34BLK - #18AWG
(CU
ST
OM
ER
CO
NN
EC
TIO
N)
TB1 - ALARM WIRING PUNCH-DOWN BLOCK
35
BLK - #18AWG
'LVD MANUAL OVERRIDE IN ALARM'
'DIST BREAKER ALARM'
NOTE:
TIE BACK ALL UNUSED WIRES OFF TO THE SIDE WITH OTHER CABLING.
SYSTEM INPUT/OUTPUT SIGNAL & ALARM INTERFACE WIRING:
N.O.
COM
N.C.
WHT
BLK
RED
FROM AIR CONDITIONER ALARM CABLE(REFER TO SHEET 1 OR 13)
'AIR COND.STATUS ALARM'
(REFER TO SHEET 10)
BL
K -
#1
8A
WG
BL
K -
#1
8A
WG
37
BLK - #18AWG
36
LIST 1: + 24V SYSTEM
37
BL
K -
#1
8A
WG
CABLE ASSEMBLY - P/N 877-413-20
* PLEASE REFER TO SHEET 6 FOR OTHER ALARM CONNECTIONS NOT SHOWN HERE.
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
5
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:55:01 PM
03076505PD__SHEET5.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
K2
K4
K3
K6
K5
K7
K8
K0
21
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
TB1
COMN.C.
N.O.N.C.
N.O.COM
COMN.C.
N.O.
COMN.C.
N.O.
COMN.C.
N.O.
N.C.
N.O.COM
N.C.
N.O.COM
N.C.
N.O.COM
48 49 50 51 52 53 54 55 56
V1
-
V1
+
I1 -
I1 +
I2 -
I2 +
N.C
.
CO
M
N.O
.
47464544
43424140
TB5
TB4
+ POWER
- POWER
SYSTEM INPUTS LVD CONTROL (K1)
2425
2627
2829
3031
3233
343638353739
D4
_2
D4
_1
D3
_2
D3
_1
D2
_2
D2
_1
D1
_2
D1
_1
GP
4 -
GP
4 +
GP
3 -
GP
3 +
GP
2 -
GP
2 +
GP
1 -
GP
1 +
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
J2
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
P1
I/O EXTENSION BOARD - P/N 707-449-20
RELAY OUTPUTS
GENERAL
PURPOSE INPUTS DIGITAL INPUTS
1
2
3
4
5
6
7
8
9
10
11
12
P4
I/O EXTENSION WIRE HARNESS - P/N 877-406-20
29 28 31 30 24 25
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
P9
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
J4
TO
J9
ON
CX
CM
4 B
AC
KP
LA
NE
BO
AR
D
TO
P4
ON
CX
CM
4 B
AC
KP
LA
NE
BO
AR
D
CABLE ASSEMBLY - P/N 877-397-20
CABLE ASS'Y - P/N 877-398-20
TO J4 ON 1200 AMPDC DISTRIBUTION PANELASS'Y - P/N 020-689-20
1
2
3
4
6
9
10
12
13
14
15
16
17
18
19
21
22
23
24
11
5
20
1
2
3
4
6
7
8
9
10
12
13
14
15
16
17
18
19
21
22
23
24
25
11
5
20
8
7
26
27
28
29
30
31
32
33
34
35
36
37
40
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
41
42
43
44
45
46
47
48
4949
5050
40
38
39
41
42
43
44
45
46
47
48
1
20
2
21
3
22
4
23
5
24
6
25
7
8
9
10
11
12
13
14
15
16
17
18
19
27
26
NO
KIA
BT
S A
LA
RM
IN
TE
RF
AC
E C
AB
LE
AS
S'Y
- P
/N 8
77
-30
9-2
0
'LVD MANUAL OVERRIDE IN ALARM' (K2)
'TEMPERATURE ALARM' (K3)
'RECTIFIER FAIL [MINOR] ALARM' (K4)
'RECTIFIER FAIL [MAJOR] ALARM' (K5)
'DISTRIBUTION BREAKER ALARM' (K6)
'SYSTEM HI/LO VOLTAGE ALARM' (K7)
BLK - #22AWG
WHT- #22AWG
BRN - #22AWG
BLU - #22AWG
ORG - #22AWG
YEL - #22AWG
VIO - #22AWG
GRY - #22AWG
PNK - #22AWG
TAN - #22AWG
BLK - #22AWGWHT- #22AWG
RED - #22AWGGRN - #22AWG
BRN - #22AWGBLU - #22AWG
ORG - #22AWGYEL - #22AWG
VIO - #22AWGGRY - #22AWG
PNK - #22AWGTAN - #22AWG
RED - #22AWG
GRN - #22AWG
NOT USED
BLK - #22 AWG
WHT - #22 AWG
BLU/WHT - #22 AWG
BLK/RED - #22 AWG
WHT/RED - #22 AWG
ORG/RED - #22 AWG
BLU/RED - #22 AWG
RED/GRN - #22 AWG
RED - #22 AWG
GRN - #22 AWG
ORG/GRN - #22 AWG
BLK/WHT/RED - #22 AWG
ORG - #22 AWG
BLU - #22 AWG
WHT/BLK - #22 AWG
RED/BLK - #22 AWG
GRN/BLK - #22 AWG
ORG/BLK - #22 AWG
BLU/BLK - #22 AWG
BLK/WHT - #22 AWG
RED/WHT - #22 AWG
GRN/WHT - #22 AWG
WHT/BLK/RED - #22 AWG
RED/BLK/WHT - #22 AWG
ON
RE
CT
IFIE
R S
HE
LF
ON
RE
CT
IFIE
R S
HE
LF
TB6 TB10 TB11 TB12
TB2 TB13 TB3 TB14
32
33
35
34
26 27
34
(CU
ST
OM
ER
CO
NN
EC
TIO
N)
CABLE ASSEMBLY - P/N 877-413-20
TB1 - ALARM WIRING PUNCH-DOWN BLOCK
35
'LVD MANUAL OVERRIDE IN ALARM'
'DIST BREAKER ALARM'
NOTE:
TIE BACK ALL UNUSED WIRES OFF TO THE SIDE WITH OTHER CABLING.
SYSTEM INPUT/OUTPUT SIGNAL & ALARM INTERFACE WIRING:
N.O.
COM
N.C.
WHT
BLK
RED
FROM AIR CONDITIONER ALARM CABLE(REFER TO SHEET 1 OR 13)
'AIR COND.STATUS ALARM'
(REFER TO SHEET 11)
BL
K -
#1
8A
WG
BL
K -
#1
8A
WG
37
36
BLK - #18AWG
37
LIST 2: - 48V SYSTEM
BL
K -
#1
8A
WG
BLK - #18AWG
BLK - #18AWG
* PLEASE REFER TO SHEET 6 FOR OTHER ALARM CONNECTIONS NOT SHOWN HERE.
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
6
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:55:23 PM
03076505PD__SHEET6.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
1 2
15C
-15C 45C
1 2
50C
20C 80C
ALARM THERMOSTATLOW TEMPERATUREHIGH TEMPERATUREALARM THERMOSTAT
11 15 13 17
1 2
15C
-15C 45C
1 2
50C
20C 80C
LOW TEMPERATUREHIGH TEMPERATUREPOWER COMPARTMENT POWER COMPARTMENT
ALARM THERMOSTAT ALARM THERMOSTAT
BATTERY COMPARTMENT BATTERY COMPARTMENT
40
SW2 SW4
COM N.O.COM N.O.
SW5
N.O.COM
1921 2323
38
39
41
42
43
44
45
46
47
48
4949
5050
40
38
39
41
42
43
44
45
46
47
48
12 16 14 18
2220
RED BLK
YEL
GRN
RED
BLK
YEL
GRN
12
11
12
11
2425
2627
2829
3031
3233
343638353739
D4
_2
D4
_1
D3
_2
D3
_1
D2
_2
D2
_1
D1
_2
D1
_1
GP
4 -
GP
4 +
GP
3 -
GP
3 +
GP
2 -
GP
2 +
GP
1 -
GP
1 +
GENERALPURPOSE INPUTS DIGITAL INPUTS
47464544
43424140
TB5
TB4
+ POWER
- POWER
REDBLKYELGRN
REDBLKYELGRN
REDBLK
RED
BLK
RED
BLK
RED
BLK
RED
BLK
RED
BLK
RED
REDRED
REDRED
YELYEL
RED
BLK
BLKBLK
RED
REDBLK
BLK
RED
RED
BLK
BLKGRNGRN
BLKBLK
NOTES:
1.) #22 AWG, 4 CONDUCTOR CABLE IS USED FOR WIRING ON THIS SHEET UNLESS OTHERWISE INDICATED.
13
11
12
14
15
16
17
18
19
20
21
22
910
19 19
9
10
7 8
6
5
4
4
BLK - #18AWG
BLK
BATTERY TEMPERATURE
* CONNECT TO NEGATIVE TERMINALIN THE MIDDLE OF BATTERY STRING
BL
K
BL
K
RED RED
MONITORING PROBES
'INTRUSIONALARM'
N.C.
COM
PART OF I/O EXTENSION BOARDASS'Y - P/N 707-449-20
POWER COMPARTMENT
ALARM SWITCHFRONT DOOR INTRUSION
BATTERY COMPARTMENT
ALARM SWITCHFRONT DOOR INTRUSION
POWER COMPARTMENT
INTRUSION ALARM SWITCHREAR LIFT-OFF ACCESS PANEL
2
1 1
2
TB1 - ALARM WIRING PUNCH-DOWN BLOCK
PROBE #2
PROBE #1
RED
BLK
7
8
5
6
P3 J3
'HIGH TEMP ALARM'
'LOW TEMP ALARM'
SYSTEM MONITORING & ALARM SENSOR WIRING:
CABLE ASSEMBLY - P/N 747-095-20-072 x2
* REFER TO SHEET 4 (FOR 24V SYS.) OR SHEET 5 (FOR 48V SYS.)
TB2 TB13 TB3 TB14
MOLEX CONNECTOR
* PART OF - REFER TO SHEET 4 (FOR 24V SYS.)OR SHEET 5 (FOR 48V SYS.)
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
7
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:55:45 PM
03076505PD__SHEET7.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
( + )
BATTERY STRING DISCONNECTS
VRLA BATTERY STRING CABLING:
(ANDERSON STYLE CONNECTOR)
( - )
BATTERY STRING # 5
++
'SYSTEM DC OUTPUT BUS BARS'
BLK - #2 AWG FLEX
BATTERY STRING # 3
++
BATTERY STRING # 6
+ +
BATTERY STRING # 4
+ +
BATTERY STRING # 2
+ +BATTERY STRING # 1
++
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
TO ENCLOSURE MASTER GROUND BAR(REFER TO SHEET 9)
GRN - #2/0AWG FLEX 56
69 65 61 68 64 60
63 67 7162 66 70
68
64
60
69
65
61
70
66
62
71
67
63
(FRONT VIEW)
63
56
LIST 1: + 24V SYSTEM
F2
250A
F4
250A
F6
250A
F5
250A
F3
250A
F1
250A
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
8
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:56:05 PM
03076505PD__SHEET8.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
( - )
BATTERY STRING DISCONNECTS
VRLA BATTERY STRING CABLING:
(ANDERSON STYLE CONNECTOR)
( + )
BATTERY STRING # 3
++
'SYSTEM DC OUTPUT BUS BARS'
BATTERY STRING # 2
++
BATTERY STRING # 1
++
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
BLK - #2 AWG FLEX
TO ENCLOSURE MASTER GROUND BAR(REFER TO SHEET 9)
GRN - #2/0 AWG FLEX 56
64
62
60
65
63
61
(FRONT VIEW)
56
LIST 2: - 48V SYSTEM
606264 65 63 61
F1
250A
F2
250A
F3
250A
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
9
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:56:21 PM
03076505PD__SHEET9.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
TO AC LOADCENTRE/PANELBOARD EQUIPMENT GROUND BUS BAR
TO ENCLOSURE FRAME/CHASSIS
TO POWER COMPARTMENT EQUIPMENT RACK
TO BATTERY COMPARTMENT EQUIPMENT RACK
TO DC SYSTEM RETURN BUS BAR56
53
52
ENCLOSURE MASTER GROUND BAR TERMINATIONS:
GRN - #6 AWG
GRN - #6 AWG
GRN - #2/0 AWG
TO EXTERNAL SITE GROUND (CUSTOMER INSTALLED)
51 GRN - #6 AWG
50 GRN - #6 AWG
56
53
52
51
50
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
10
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:56:43 PM
03076505PD__SHEET10.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
( - ) GND
( + ) 24V ( - ) GND
COIL
D1
1N4005
D2
1N4005
SHUNT #2SHUNT #1800A / 50mV 800A / 50mV
CONTACTOR #2600A / 24V
CONTACTOR #1600A / 24V
K1
K2
LVD OVERRIDE/ALARM BOARD ASSEMBLYP/N 707-307-20-040
P3
P4
TB1
P5
P2
P1
1
1
1
2
3
4
1
1
1
J4
1
2
3
4
5
6
7
8
9
10
11
12
TB1
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BL
K -
#1
8 A
WG
BLK - #18 AWG
BLK - #18 AWG
1 2 3 4 5 6 7 8 9 10
1 2 3 4 5 6 7 8 9 10
11
12
12
16
17
19
13
14
14
6
5
8
7
9
10
1
2
3
4
9
5
10
6
7
8
FROM I/O EXTENSION WIREHARNESS ASSEMBLY
BREAKER OUTPUT TERMINATIONS'
#1 #2 #3 #4 #5 #6 #7 #8 #9 #10 #11 #12 #13 #14 #15 #16 #17 #18 #19 #20CB POS -->
BREAKER ALARMSTRIP
'DC INPUT BUS BARS'
15
DC POWER DISTRIBUTION PANEL WIRING (P/N 020-689-20):
* REFER TO SHEET 4 [24V]
200ACB1
200ACB2
200A
CB3
10A
CB4
5A
CB5
5A
CB6
EXTENSION BOARD ASS'Y
'CUSTOMER LOAD CIRCUIT
LIST 1: + 24V SYSTEM
BLK - #18 AWG
18
18
18
18
BLK - #18 AWG
WIRE HARNESS ASSEMBLY - P/N 877-407-20
WIR
E H
AR
NE
SS
AS
SE
MB
LY
- P
/N 8
77-4
06
-20
WIR
E H
AR
NE
SS
AS
SE
MB
LY
-
P/N
87
7-4
05
-20
WIRE HARNESS ASSEMBLY - P/N 877-412-20
(P/N 877-408-20) ON I/O
BREAKER
LVD OVERRIDE
ALARM OUTPUT
ALARM OUTPUT
LVD AUTO CONTROL IN
COMMON
LVD #1 DRIVE
LVD #1 OUTPUT
BREAKERALARM INPUT
LVD #2 DRIVE
LVD #2 OUTPUT
BREAKERALARM INPUT
1 2 3 4 5 6 7 8 9 10 11 12POS >>>
( + ) 24V ( + ) 24V
OR SHEET 5 [48V]
20
20
BLK - #18 AWG
20
PRIMARY ALARM INPUT
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
11
J.K.
M.E.
M.E.
M.E.
14
1200A, 24 NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:57:04 PM
03076505PD__SHEET11.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
(+ ) GND
( - ) 48V ( + ) GND
COIL
D1
1N4005
D2
1N4005
SHUNT #2SHUNT #1800A / 50mV 800A / 50mV
CONTACTOR #2600A / 48V
CONTACTOR #1600A / 48V
K1
K2
LVD OVERRIDE/ALARM BOARD ASSEMBLYP/N 707-307-20-041
P3
P4
TB1
P5
P2
P1
1
1
1
2
3
4
1
1
1
J4
1
2
3
4
5
6
7
8
9
10
11
12
TB1
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BLK - #18 AWG
BL
K -
#1
8 A
WG
BLK - #18 AWG
BLK - #18 AWG
1 2 3 4 5 6 7 8 9 10
1 2 3 4 5 6 7 8 9 10
11
12
12
16
17
19
13
14
14
6
5
8
7
10
9
1
2
3
4
9
5
10
6
7
8
BREAKER OUTPUT TERMINATIONS'
#1 #2 #3 #4 #5 #6 #7 #8 #9 #10 #11 #12 #13 #14 #15 #16 #17 #18 #19 #20CB POS -->
BREAKER
LVD OVERRIDE
ALARM OUTPUT
ALARM OUTPUT
LVD AUTO CONTROL IN
COMMON
LVD #1 DRIVE
LVD #1 OUTPUT
BREAKER
ALARM INPUT
LVD #2 DRIVE
LVD #2 OUTPUT
BREAKERALARM INPUT
BREAKER ALARMSTRIP
'DC INPUT BUS BARS'
15
18
18
18
BLK - #18 AWG
18
BLK - #18 AWG
DC POWER DISTRIBUTION PANEL WIRING (P/N 020-689-20):LIST 2: - 48V SYSTEM
'CUSTOMER LOAD CIRCUIT
WIRE HARNESS ASSEMBLY - P/N 877-412-20
WIRE HARNESS ASSEMBLY - P/N 877-407-20
WIR
E H
AR
NE
SS
AS
SE
MB
LY
-
P/N
87
7-4
05
-20
WIR
E H
AR
NE
SS
AS
SE
MB
LY
- P
/N 8
77-4
06
-20
1 2 3 4 5 6 7 8 9 10 11 12POS >>>
( - ) 48V ( - ) 48V
100ACB1
100ACB2
100ACB3
10ACB4
5ACB5
5ACB6
FROM I/O EXTENSION WIREHARNESS ASSEMBLY
* REFER TO SHEET 4 [24V]
EXTENSION BOARD ASS'Y
(P/N 877-408-20) ON I/O
OR SHEET 5 [48V]
BLK - #18 AWG
20
20
20
PRIMARY ALARM INPUT
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
12
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-675-05 P/D
2005-Dec-145:57:26 PM
03076505PD_SHEET12.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
CB1
CB2
CB3
CB4
CB5
CB6
CB7
CB8
CB9
CB10
LINE2
LINE1
LINE 1
LINE 2
NEU
GND
COMMERCIAL POWER GENERATOR POWER
NEU
NEU
AC PANELBOARD, 200A, 120/240V
GNDNEUL1L2
AC SURGE PROTECTION UNIT (OPTIONAL)
GND
GND
1
3
5
7
9
11
13
15
17
2
4
6
8
10
12
14
16
18
WHT - #14 AWG
(P/N 020-653-10)
AC INPUT
GR
OU
ND
ING
BU
S B
AR
MAIN BREAKER MAIN BREAKER
MANUAL TRANSFER SWITCH
NEU
GENERATOR RECEPTACLE (OPTIONAL)
120/240V, 200A, 1PH, 60Hz
AC INPUT POWER CONNECTION
120/240V, 200A, SINGLE PHASE, 60Hz3W + GND
(CUSTOMER INSTALLED)
3W + GND
25A
25A
25A
30A
25A
25A
200A 200A
GND TO ENCLOSURE MASTER GROUND BAR
25A
WHEN AC PANELBOARD IS USED AS A SERVICE ENTRANCE, CONNECT BONDING STRAP/LINKBETWEEN THE NEUTRAL ASSEMBLY AND THE ENCLOSURE GROUND STUD/SCREW TERMINAL.
BLK - #3/0 AWG
RED - #3/0 AWG
WHT - #3/0 AWG
(MATING PLUG PROVIDED BY CUSTOMER)
LINE1
LINE2
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
NEUTRAL BUS BAR
GRN - #14 AWG
GRN - #14 AWG
GROUNDING ELECTRODE
GROUNDING ELECTRODE CONDUCTOR
EQ
UIP
ME
NT
GRN - #6 AWG
BLK - #10 AWG
25A
SERVICE ENTRANCE CONDUCTORS
(CUSTOMER INSTALLED)
GROUND STUD/SCREW TERMINAL
WHT - #14 AWG
WHT - #14 AWG
WHEN AC PANELBOARD IS USED AS A SUB-PANEL, CONNECT GROUNDING ELECTRODECONDUCTOR TO THE EQUIPMENT GROUNDING BUS BAR/TERMINAL LUG.
N-G BONDING
STRAP/LINK
13
(REFER TO SHEET 9)
NEU
GNDGRN - #14 AWG
BLK - #10 AWG
TVSS
(TYPICAL)
BLK - #14 AWG
BLK - #10 AWGLINE1
BLK - #10 AWGLINE2
BLK - #10 AWGLINE1
BLK - #10 AWGLINE2
BLK - #10 AWGLINE1
BLK - #10 AWGLINE2
BLK - #10 AWGLINE1
BLK - #10 AWGLINE2
BLK - #14 AWGLINE
TO RECTIFIER SHELF TB POSITION #5 (REFER TO SHEET 14)
15A15A
LINE1
LINE2
LINE1
LINE2
LINE TO EQUIPMENT COMPARTMENT AIR CONDITIONER (REFER TO SHEET 13)
TO RECTIFIER SHELF TB POSITION #1 (REFER TO SHEET 14)
TO POWER COMPARTMENT COOLING FANS (REFER TO SHEET 13)
TO BATTERY COMPARTMENT GFCI RECEPTACLE OUTLET (REFER TO SHEET 13)
TO BATTERY COMPARTMENT AIR CONDITIONER (REFER TO SHEET 13)
BLK - #14 AWGLINE
TO POWER COMPARTMENT COOLING FANS (REFER TO SHEET 13)
TO BATT. COMPARTMENT GFCI RECEPTACLE OUTLET (REFER TO SHEET 13)
TO POWER COMPARTMENT COOLING FANS (REFER TO SHEET 13)
TO BATTERY COMPARTMENT GFCI RECEPTACLE OUTLET (REFER TO SHEET 13)
TO BATTERY COMPARTMENT AIR CONDITIONER (REFER TO SHEET 13)
GR
N -
#3 A
WG
GR
N -
#3 A
WG
GR
N -
#14
AW
G
WHT - #14 AWG
WHT - #3/0 AWG
BLK - #14 AWG
BLK - #14 AWG
TO RECTIFIER SHELF TB POSITION #2 (REFER TO SHEET 14)
TO RECTIFIER SHELF TB POSITION #3 (REFER TO SHEET 14)
TO RECTIFIER SHELF TB POSITION #4 (REFER TO SHEET 14)
TO RECTIFIER SHELF TB POSITION #6 (REFER TO SHEET 14)
TO RECTIFIER SHELF TB POSITION #7 (REFER TO SHEET 14)
GNDGRN - #10 AWG
TO LOWER RECTIFIER MODULE SHELF (REFER TO SHEET 14)
GNDGRN - #10 AWG
TO UPPER RECTIFIER MODULE SHELF (REFER TO SHEET 14)
AC POWER DISTRIBUTION WIRING:
LIST 34: AC PANELBOARD, 200A, 120/240V, 1PH, 18 POS w/ GENERATOR RECEPTACLE
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
13
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:57:57 PM
03076505PD_SHEET13.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
1 2
30C
0C 60C
DUAL-COOLING FANCONTROL THERMOSTAT
POWER COMPARTMENT
BLK - #18 AWG
BLK - #18 AWG
GRN/YEL
BLK - #18 AWG
BLK - #18 AWG
GRN/YEL - #18 AWG
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
POWER COMPARTMENT DUAL-COOLING FAN ASSEMBLY
2
3
1 1
2
3
GROUNDINGSCREW
GROUNDINGSCREW120VAC / 60 Hz
5000 BTU/Hr
RETURN AIR
SUPPLY AIR
LINE
NEUAC POWER
GND
AIR CONDITIONER UNIT
16/3 SJTPOWER CORD
120VAC, 60HzINPUT
GR
N
WH
T
BLK
15A/125V
BONDINGSCREW
MOLEX CONNECTOR
120VAC / 60 Hz
J3
J4
GRN
HOT'WHT'
GND
GFCI RECEPTACLE OUTLET
TEST
RESET
LINE
NEU
TERMINALS
BONDINGSCREW
SW1
N.O.COM
POWER COMPARTMENT DUAL-COOLINGFAN POWER CONTROL SWITCH
BLK - #14 AWG
WHT - #14 AWG
BLK - #14 AWG
WHT - #14 AWG
SW3
N.O. COM
AIR CONDITIONER
POWER CONTROL SWITCH
BL
K -
#1
4 A
WG
WH
T -
#14
AW
G
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
2 31
1 2 3
N.O.
COMSTATUS ALARM
N.C.
OUTPUT
N.O.
COM
N.C.
ON ALARM WIRING PUNCH-DOWN BLOCK* REFER TO SHEET 4 (FOR 24V SYS.) OR SHEET 5 (FOR 48V SYS.)
TO PIN 38
TO PIN 39
TO PIN 40
1
2
3
BLK - #14 AWG
WHT - #14 AWG
GRN - #14 AWG
WHT
BLK
RED
WHT
BLK
RED
J2
P2
EQUIPMENT AC POWER DISTRIBUTION WIRING:
P1 J1
#18 AWGM
OL
EX
CO
NN
EC
TO
R
BL
K
BL
K
GR
N
GR
N
BL
K
WHT
ORG
ORG
ORG
WH
T
YEL
GRN
BATTERY COMPARTMENT
BATTERY COMPARTMENT
* SEE NOTE 2
* SEE NOTE 2
'UTILITY BOX'
'UTILITY BOX'
* SEE NOTE 2
NOTES:
1.) USE 14/3 SJ FLEXIBLE CORD FOR WIRING UNLESS OTHERWISE INDICATED.
2.) USE BLACK ELECTRICAL TAPE AROUND WHITE WIRES NEAR ENDS TO IDENTIFY THEM AS 'HOT' CONDUCTORS.
NEU
GND
LINE
LINE
NEU
GND
LINE
NEU
GND
TO AC PANELBOARD BREAKER POS #17 (REFER TO SHEET 12)
TO AC PANELBOARD NEUTRAL BUS BAR (REFER TO SHEET 12)
TO AC PANELBOARD EQUIPMENT GROUND BUS BAR (REFER TO SHEET 12)
TO AC PANELBOARD BREAKER POS #17 (REFER TO SHEET 12)
TO AC PANELBOARD NEUTRAL BUS BAR (REFER TO SHEET 12)
TO AC PANELBOARD EQUIPMENT GROUND BUS BAR (REFER TO SHEET 12)
TO AC PANELBOARD BREAKER POS #18 (REFER TO SHEET 12)
TO AC PANELBOARD NEUTRAL BUS BAR (REFER TO SHEET 12)
TO AC PANELBOARD EQUIPMENT GROUND BUS BAR (REFER TO SHEET 12)
* NOTE: THIS CONNECTION IS TO BE MADE
* SEE NOTE 2
ORGINSIDE AC PANELBOARD.
BLK - #14 AWG
LIST 34: AC PANELBOARD, 200A, 120/240V, 1PH, 18 POS w/ GENERATOR RECEPTACLE
1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
14
J.K.
M.E.
M.E.
M.E.
14
1200A, 24V NEG GND OR 48V POS GND
030-765-05 P/D
2005-Dec-145:58:33 PM
03076505PD_SHEET14.SCHDOC
Title
SIZE DWG NO.
Date:
File:
Rev
Sheet of
Time:
B
DESIGN
DRAWN
CHECKED
APPROVED
OUTDOOR POWER SYSTEM ENCL.
TEMPEST, Te20
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OFARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
MATERIAL
TYPE
FINISH
TOLERANCES
SCALE
ISSUEDATE
05/05
05/05
05/05
05/05
REVISION
LTR DESCRIPTION DATE APPD
S5
CORDEX 24V-3.1kW POWER RECTIFIER MODULE 23" SHELF (UPPER)(P/N 030-736-20)
GND (PE)
RECTIFIER
MOD #1
MOD #2
MOD #3
L1
L1
L1
L2
L2
L2
MOD #6
MOD #5
MOD #4
MODULE #6
GND (PE)
J8
CAN BUS OUTPUT
J7
CAN BUS INPUT
CORDEX 24V-3.1kW POWER RECTIFIER MODULE 23" SHELF (LOWER)(P/N 030-736-20)
GND (PE)
CXCM4
RECTIFIER RECTIFIER RECTIFIER RECTIFIER RECTIFIERL1
L1
L1
L2
L2
L2
MOD #1
MOD #2
MOD #3
L1
L1
L1
L2
L2
L2
MOD #6
MOD #5
MOD #4
CONTROLLER
MODULE #1 MODULE #2 MODULE #3 MODULE #4 MODULE #5
GND (PE)
J8
CAN BUS OUTPUT
J7
CAN BUS INPUT
MODULE
SYSTEM
1200A, 20 POS 'AM' BREAKER DC DISTRIBUTION
(REFER TO SHEET 10 FOR WIRING DIAGRAM)
( + ) ( - )
( + ) ( - )
POWER RECTIFIER MODULE SHELF & DC POWER DISTRIBUTION PANEL WIRING: 'SYSTEM DC OUTPUT BUS BARS'
CABLE ASSEMBLY P/N 877-176-28
TO CUSTOMER EQUIPMENT #1
TO NOKIA GSM EQUIPMENT #1
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #10 AWG
BLK - #2 AWG
BLK - #2 AWG
BLK - #2 AWG
BLK - #2 AWG
BLK - #2 AWG
BLK - #2 AWG
TO NOKIA GSM EQUIPMENT #2
TO NOKIA GSM EQUIPMENT #3
TO CUSTOMER EQUIPMENT #2
TO CUSTOMER EQUIPMENT #3
DC POWER OUTPUT LOAD CABLES
+24V
GND
+24V
GND
+24V
GND
+24V
GND
+24V
GND
+24V
GND
LIST 1: - 48V SYSTEM
72
73
74
75
76
77
78
79
80
81
82
83
72
73
74
75
76
77
78
79
80
81
82
83
(FROM CB1)
(FROM CB2)
(FROM CB3)
(FROM CB4)
(FROM CB5)
(FROM CB6)
+
-
+
-
+
-
+
-
+
-
+
-
CUSTOMER TERMINATIONSPANEL ASSEMBLY - P/N 020-689-20BREAKER OUTPUTTERMINATIONS
TB TB
TB TB
LINE1
LINE2
BLK - #10 AWGBLK - #10 AWGBLK - #10 AWGBLK - #10 AWGBLK - #10 AWGBLK - #10 AWG
LINE1
LINE2
LINE1
LINE2
BLK - #10 AWGBLK - #10 AWGBLK - #10 AWGBLK - #10 AWG
L1
L1
L1
L2
L2
L2
LINE1
LINE2
LINE1
LINE2
RECTIFIER
MODULE #7
LIST 34: AC PANELBOARD, 200A, 120/240V, 18 POS
TO BREAKER POSITION #13 (REFER TO SHEET 12)TO BREAKER POSITION #15 (REFER TO SHEET 12)TO BREAKER POSITION #9 (REFER TO SHEET 12)TO BREAKER POSITION #11 (REFER TO SHEET 12)
TO BREAKER POSITION #6 (REFER TO SHEET 12)TO BREAKER POSITION #8 (REFER TO SHEET 12)
TO BREAKER POSITION #10 (REFER TO SHEET 12)TO BREAKER POSITION #12 (REFER TO SHEET 12)TO BREAKER POSITION #14 (REFER TO SHEET 12)TO BREAKER POSITION #16 (REFER TO SHEET 12)
GNDGRN - #10 AWG
TO EQUIPMENT GROUND BAR (REFER TO SHEET 12)
GNDGRN - #10 AWG
TO EQUIPMENT GROUND BAR (REFER TO SHEET 12)
LINE1
LINE2
LINE1
LINE2
BLK - #10 AWGBLK - #10 AWGBLK - #10 AWGBLK - #10 AWG
TO BREAKER POSITION #1 (REFER TO SHEET 12)TO BREAKER POSITION #3 (REFER TO SHEET 12)TO BREAKER POSITION #5 (REFER TO SHEET 12)TO BREAKER POSITION #7 (REFER TO SHEET 12)
(OPTIONAL)(OPTIONAL)
(OPTIONAL) (OPTIONAL) (OPTIONAL)
AC INPUT
AC INPUT
AC INPUT
AC INPUT
w/ GENERATOR RECEPTACLE
TO AC PANELBOARD
TO AC PANELBOARD
TO AC PANELBOARD
FRONT ISOMETRIC VIEW
4 MOUNTING HOLES ADDED, SHEET 4 J.U.
SIZE DWG NO.TYPE
B
SHEET
TITLE
ISSUE
DATEOF
TOLERANCES
SCALE
APPROVED
CHECKED
DRAWN
DESIGN MATERIAL
FINISH
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
ARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF
REVISIONS
LTR DESCRIPTION APPDDATE
B
REV BY
N.T.S.
2005/05M.E.
0.01"X.XXX0.02"X.XX
REV
X.X
0.25mm
0.04"
[X.XX]
030-765-06
OUTLINETe20 POWER ENCLOSURE
Doc. 070-024-83
1 4
CH/EOF
J.U./EOF
2005/05
2005/05
D2
c 2005 ARGUS TECHNOLOGIESO
BDIMENSIONS ARE IN INCHES WITH METRIC (mm) IN BRACKETS: INCHES [mm]
M.E. 2005/05
[X] 1mm[X.X] 0.5mm
PER P.O. and
2005/06
30.00
2133.6
762.0
84.00
FRONT VIEW
42.51.68
762.0
708.2
22.79 578.8
27.88
679.5
30.00
26.75
RIGHT SIDE VIEW
REAR ISOMETRIC VIEWLEFT SIDE VIEW
SIZE DWG NO.TYPE
B
SHEET
TITLE
ISSUE
DATEOF
SCALEMATERIAL:
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
ARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF
REVISIONS
LTR DESCRIPTION APPDDATE
REV
030-765-06
OUTLINETe20 POWER ENCLOSURE
2 4
D2
c 2005 ARGUS TECHNOLOGIESO
B
DIMENSIONS ARE IN INCHES WITH METRIC (mm) IN BRACKETS: INCHES [mm]
N.T.S.
REV BY
REAR VIEW
ISOMETRIC FRONT VIEWDOOR OPEN
SIZE DWG NO.TYPE
B
SHEET
TITLE
ISSUE
DATEOF
SCALEMATERIAL:
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
ARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF
REVISIONS
LTR DESCRIPTION APPDDATE
REV
030-765-06
OUTLINETe20 POWER ENCLOSURE
3 4
D2
c 2005 ARGUS TECHNOLOGIESO
B
DIMENSIONS ARE IN INCHES WITH METRIC (mm) IN BRACKETS: INCHES [mm]
N.T.S.
REV BY
55.92 1420.3
21.45 544.8
FRONT VIEWDOOR OPEN
25.78 654.7
TOP VIEWDOOR OPEN
TOP VIEWDOOR CLOSED
30.00 762.0
ENCLOSURE DIMS.
30.00 762.0
ENCLOSURE DIMS
3.65 92.7
2.80 71.1
0.75 19.1
22.70 576.6
24.40 619.8
4.85 123.2
20.30 515.6
4.00 101.6 22.00 558.8
0.75 19.1
MAX. 1/4" [6.4mm]
DRILL AND INSTALLCONCRETE ANCHORS (4)
HILTI HSLB-M12/25(ARGUS P/N 633-066-10)
OR EQUIVALENT
HOLE OPENINGALL CORNERS
4 PLACES
BOTTOM MOUNTING HOLE PATTERN
FRONT
HOLE OPENINGALL CORNERS
4 PLACES
INSTALLMOUNTING HARDWARE
B
PLATFORM MOUNTING:
CONCRETE PAD MOUNTING:
ARGUSENCLOSURE
NOKIAENCLOSURE
DETAIL
(SCALE 1 : 50)
SIZE DWG NO.TYPE
B
SHEET
TITLE
ISSUE
DATEOF
SCALEMATERIAL:
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
ARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF
REVISIONS
LTR DESCRIPTION APPDDATE
REV
030-765-06
OUTLINETe20 POWER ENCLOSURE
4 4
D2
c 2005 ARGUS TECHNOLOGIESO
B
DIMENSIONS ARE IN INCHES WITH METRIC (mm) IN BRACKETS: INCHES [mm]
N.T.S.
REV BY
OPTIONAL DC POWER
120V FEEDER CIRCUIT CONNECTION DETAILS.
LEFT SIDE VIEW
LOAD & ALARM INTERFACE
ENCLOSURE AC LOADCENTER WIRING:
REFER TO SHEET 2 AND SYSTEM WIRING DIAGRAM
CABLES SIDE EXIT PORT
P/N 030-765-05 (SHEET 1) FOR AC LOADCENTER
(COVER PLATE SHOWN)
REFER TO SHEET 3 AND RECTIFIERMANUAL P/N 010-572-B2 (24V) ORP/N 010-567-B2 (48V) FOR AC INPUTPOWER TERMINAL BLOCK CONNECTIONDETAILS.
INSTALLATION DETAILS)
POWER COMPARTMENT
AC INPUT POWER CONDUIT ENTRY POINT
REMOVEABLE ACCESS PANEL
DC POWER LOAD AND
RECTIFIER SHELF AC POWER WIRING:
ALARM INTERFACE CABLESSIDE EXIT PORT
(FOR CABLE ROUTINGAND AC POWER WIRING ACCESS)
(4 x 1.375" [36mm] K.O. AND 3 x 1.125" [28.6mm] K.O. SIZES AVAILABLE)
(FOR ACCESS TO BOTTOMMOUNTING HOLES)
REAR VIEW
REFER TO SHEET 4 FOR
SITE GROUND WIRE ENTRY POINTS FRONT & REAR(CENTER PUNCHES PROVIDED FOR HOLE DRILLING LOCATION)
(NOKIA BTS STYLE CABLEBRIDGE INTERFACEASSEMBLY SHOWN -
BATTERY COMPARTMENTREMOVEABLE PANEL
NOKIA BRIDGE UPDATED J.U.
SIZE DWG NO.TYPE
B
SHEET
TITLE
ISSUE
DATEOF
TOLERANCES
SCALE
APPROVED
CHECKED
DRAWN
DESIGN MATERIAL
FINISH
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
ARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF
REVISIONS
LTR DESCRIPTION APPDDATE
B
REV BY
N.T.S.
2005/05 M.E.
0.01"X.XXX0.02"X.XX
REV
X.X
0.25mm
0.04"
[X.XX]
030-765-08
CUSTOMER CONNECTIONTe20 POWER ENCLOSURE
Doc. 070-024-83
1 4
CH/EOF
J.U.
2005/04
2005/05
D2
c 2005 ARGUS TECHNOLOGIESO
BDIMENSIONS ARE IN INCHES WITH METRIC (mm) IN BRACKETS: INCHES [mm]
M.E. 2005/05
M.E. 2005/05
N.T.S.
REV BY
SIZE DWG NO.TYPE
B
SHEET
TITLE
ISSUE
DATEOF
TOLERANCES
SCALE
APPROVED
CHECKED
DRAWN
DESIGN MATERIAL
FINISH
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
ARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF
REVISIONS
LTR DESCRIPTION APPDDATE
X.XX 0.02"X.XXX 0.01"
[X] 1mm[X.X] 0.5mm
PER P.O. and
REV
X.X
0.25mm
0.04"
[X.XX]
030-765-08
CUSTOMER CONNECTIONTe20 POWER ENCLOSURE
Doc. 070-024-83
1 4
CH/EOF
J.U.
2005/04
2005/05
D2
c 2005 ARGUS TECHNOLOGIESO
B
M.E. 2005/05
[X] 1mm[X.X] 0.5mm
PER P.O. and
2005/07
RIGHT SIDE VIEW
SCALE 1 : 3DETAIL A
CXCM4 SYSTEM CONTROLLERNETWORK CABLE CONNECTIONJACK (RJ-45)
FRONT ISOMETRIC VIEW
120VAC FEEDER CIRCUIT CONDUIT ENTRY POINT.1" CABLE CONNECTOR PROVIDED.
SIZE DWG NO.TYPE
B
SHEET
TITLE
ISSUE
DATEOF
SCALEMATERIAL: SEE SHEET 1
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
ARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF
REVISIONS
LTR DESCRIPTION APPDDATE
REV
030-765-08
CUSTOMER CONNECTIONTe20 POWER ENCLOSURE
2 4
D2
c 2005 ARGUS TECHNOLOGIESO
B
DIMENSIONS ARE IN INCHES WITH METRIC (mm) IN BRACKETS: INCHES [mm]
N.T.S.
REV BY
DETAIL - FRONT ISOMETRIC VIEWAC LOADCENTER(SEE DETAIL PHOTO)
A
SIZE DWG NO.TYPE
B
SHEET
TITLE
ISSUE
DATEOF
SCALEMATERIAL: SEE SHEET 1
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
ARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF
REVISIONS
LTR DESCRIPTION APPDDATE
REV
030-765-08
CUSTOMER CONNECTIONTe20 POWER ENCLOSURE
3 4
D2
c 2005 ARGUS TECHNOLOGIESO
B
DIMENSIONS ARE IN INCHES WITH METRIC (mm) IN BRACKETS: INCHES [mm]
N.T.S.
REV BY
RECTIFIER SHELF #1
DETAIL B SCALE 1 : 6
RECTIFIER SHELF #2
RECTIFIER SHELF AC INPUT POWER TERMINAL BLOCKS(2 PLACES PER SHELF-COVER PLATE SHOWN REMOVED)
REFER TO RECTIFIER MANUAL P/N 010-572-B2 (24V)OR P/N 010-567-B2 (48V) FOR WIRING DETAILS.
REAR VIEW
(SOME COMPONENTS ARE HIDDEN FOR CLARITY)
B
ITEM QTY PART NO. REVISION DESCRIPTION
1
2
3
4
5
1
4
16
12
12
747-263-20
630-175-10
633-008-10
633-123-10
634-011-10
P/A Assy., Nokia Cable Bridge Interface
Scrw,Mach, #10-32x1/2", Pnh Phh, SSt
Wshr Flat, #10, SAE Styl, SSt
Wshr Lock, Split, #10, SSt
Nut, Mach, #10-32 Hex, SSt
SIZE DWG NO.TYPE
B
SHEET
TITLE
ISSUE
DATEOF
SCALEMATERIAL: SEE SHEET 1
FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT.
ARGUS TECHNOLOGIES AND SHALL NOT BE COPIED OR USED
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF
REVISIONS
LTR DESCRIPTION APPDDATE
REV
030-765-08
CUSTOMER CONNECTIONTe20 POWER ENCLOSURE
4 4
D2
c 2005 ARGUS TECHNOLOGIESO
B
DIMENSIONS ARE IN INCHES WITH METRIC (mm) IN BRACKETS: INCHES [mm]
N.T.S.
REV BY
3 4 5
8 PLACES
NOKIA BTSCABINET
FRONT VIEW
ARGUS Te20POWER ENCLOSURE
1
2 3
4 PLACES
3 4 5
4 PLACES
NOKIA BTS CABINETUPPER SECTION(DETAILS OMITTEDFOR CLARITY)
Technical SupportTechnical support staff are available for answering general questions related to installation, operation and maintenance of Argus products. In Canada and the USA, call Argus toll free 7:30 am to 5:00 pm Pacific Standard Time at:
+1-888 GO ARGUS (+1-888-462-7487)
For emergencies, call +1-888-GO-ARGUS 24 hours a day, seven days a week.Customers outside Canada and the USA, call +1-604-436-5547 for technical support.
TrainingArgus offers various levels of product and technical training. These workshops provide a mix of theory and hands on application for qualified customers. Please consult your sales representative for course schedules, locations and costs, or visit our website at www.argusdcpower.com.
Factory Repair and ServicingAll service, beyond initial adjustments, should be carried out by qualified factory service personnel. For these procedures, please contact Argus Technologies at the locations listed to the right.
Product ReturnsBefore returning any product for service, please obtain a Return Material Authorization (RMA) number from an Argus factory service representative. The representative will require the model and serial number, as well as a brief description of the problem prior to issuing the RMA number. All material must be pre-authorized before being returned.See document 048-507-10 “Warranty and Repair Information” for more details.
Moving and StorageUnits must be suitably packed in the original shipping container (or equivalent) prior to re-shipping. The box should be completely enclosed and constructed of wood or double-wall, corrugated cardboard. At least 3” of foam or shock absorbing packing material must surround the unit.
FACTORY SERVICE INFORMATION
048-527-10-I1 Rev L (09/2007)
Canada and USA toll free 24 hour emergency technical support: +1 888 GO ARGUS (462 7487) Outside North America: +1 604 436 5547
Factory Service CentersCanada and InternationalArgus Technologies Ltd.ATTN: RMA Returns7033 Antrim Avenue Burnaby, BC, V5J 4M5 Canada Tel: +1 604 436 5900Fax: +1 604 436 1233Email: [email protected]
USA Argus Technologies Inc.ATTN: RMA Returns3116 Mercer AvenueBellingham, WA, 98225 USA Tel: +1-360 756 4904Fax: +1-360 647 0498Email: [email protected]
Asia-PacificPCM Electronics (Dong Guan) Co., Ltd.Hongli Industrial Area, Miaobian, Liaobu Town, Dongguan City, Guangdong Province, 523400 China Tel: +86 755 8895 3310Fax: +86 755 8895 3307
Authorized Service CenterArgentinaArgus Technologies de ArgentinaBelen 315, Capital Federal, Buenos Aires, 1407l ArgentinaTel: +54 (11) 4672 4821Fax: +54 (11) 4504 4698Cell: +54 9 (11) 4993 9996Email: [email protected]
AsiaArgus Technologies Asia Pte LtdBlk 6 Tagore Lane #160Singapore 787570Tel: +65 6458 8900Fax: +65 6458 2122
AustraliaCPS National8/376 Newbridge RdMoorebank, NSW, 2170 Australia Tel: +61 02 9822 8977Fax: +61 02 9822 8077
Australia/New ZealandAlpha Power Systems Pty LtdUnit 3, 30 Heathcote Road Moorebank, NSW, 2170 Australia Tel: +61 02 9602 8331Fax: +61 02 9602 9180
Century Yuasa37 - 65 Colbalt StreetCarole Park QLD 4300Australian Sales & ServiceTel: +61 07 3361 6587Fax: +61 07 3361 6705New Zealand Sales & Service Tel: +64 9 978 6689Fax: +64 9 978 6677
CanadaCompower Systems Inc.118 Tiffield Road Toronto, ON, M1V 5N2 Canada Tel: +1 416 293 3088Fax: +1 416 293 0671
EuropeAlpha Technologies Europe Ltd.Cartel Business EstateEdinburgh WayHarlow, Essex, CM20 2DU UK Tel: +44 1279 422110Fax: +44 1279 423355
Mexico & Central AmericaTechnologies Argus First De Mexico SA de CVAnatole France No. 17Col. PolancoMexico City, 11560 Mexico Tel: +52 55 5280 6990Fax: +52 55 5280 6585
South AmericaArgus Technologies ArgentinaSanto Tome 2573, Capital FederalBuenos Aires, 1416 ArgentinaTel: +54 11 4504 4698Cell: +54 9 11 4993 9996E-pager: [email protected]
TurkeyIPC Enerji Elk San ve TIC ASInonu cad. Kanarya sok. No:20Yenisahra - KadikoyIstanbul, TurkeyTel: +90 216 317 41 42Fax: +90 216 472 90 66