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351401.013 Issue 2 July 2003
Flatpack Power Tower
Operation Guide
2(48) Operation Guide, Flatpack Power Tower 351401.013v2 July 2003
Information in this document is subject to change without notice and does not represent a commitment on the part of ELTEK Energy. No part of this document may be reproduced or transmitted in any form or by any means — electronic or mechanical, including photocopying and recording — for any purpose without the explicit written permission of ELTEK Energy.
Copyright ©: ELTEK Energy, Norway 2006 NS-EN ISO 9001:1994 Certificate no: 900005Q NS-EN ISO 14001:1996 Certificate no: 900005E. This product holds a CE mark and satisfies all requirements covering relevant standards and directives. EMC Generic Immunity Standard ▫ EN61000-6-1 Residential, Commercial and Light Industry ▫ EN61000-6-2 Industrial Environment Generic Emission Standard ▫ EN61000-6-3 Residential, Commercial and Light Industry ▫ EN61000-6-4 Industrial Environment ETS 300386 v1.3.1 Telecommunication Equipment
LVD ▫ EN 60950 Safety of Technology Equipment
Certificate no: 900005E
Head Office:
Eltek Energy P.O. Box 2340 Strømsø N-3003 DRAMMEN Norway
Certificate no: 900005Q
Phone: (+47) 32 20 32 00 Fax: (+47) 32 20 32 10 E-Mail: [email protected] Visit our Web site on Internet: http://www.eltekenergy.com
351470.013 Issue 2, July 2003 This document was produced using Microsoft Word
Table of Contents
Operation Guide, Flatpack Power Tower 3(48) 351401.013v2 July 2003
1 Table of Contents
1 Table of Contents 3 2 Key Stakeholders/ Document History 5 3 Scope 7 4 Description of Flatpack Power Tower 9
4.1 General ..............................................................................................................9 5 Installation Procedures 11
5.1 Safety Precautions ...........................................................................................11 5.2 Mechanical Installation ...................................................................................11 5.3 Earth connections ............................................................................................12 5.4 Mains Connections..........................................................................................13 5.5 General Arrangement ......................................................................................14 5.6 Installation of rectifiers ...................................................................................18
6 System Monitoring 27 7 Specification Flatpack Power Tower 29 8 Figures 31
Table of Contents
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2 Key Stakeholders/ Document History
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2 Key Stakeholders/ Document History Name Title Kjartan Albrigtsen Product Manager Roar Linseth Technical Responsible Written by Checked by Approved by Rev Date Sign Date Sign Date Sign V1 19.02.03 M.G.C. R.L.. K.A. V2 18.07.03 M.G.C. 04.08.2003 J.K 04.08.2003 I.F Rev.V1 First issue Rev.V2 Updated to include Imperial measurements The original signatures are recorded on the company’s logistic data system
2 Key Stakeholders/ Document History
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3 Scope
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3 Scope Flatpack Power Systems are made up of Power Shelves for plug-in rectifier modules, a DC distribution that includes a monitoring and control unit and optional Batteries. The power shelves include the necessary amount of rectifiers needed in the system. The DC distribution include fuses, breakers (MCB`s), load and/or battery disconnect units as well as a Monitoring & Control Unit. This Operation Guide contains information about the Flatpack Power Tower distribution. It includes information about alarm connections, DC connections and optional equipment, together with a description on how to install and commission the distribution.
3 Scope
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4 Description of Flatpack Power Tower
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4 Description of Flatpack Power Tower
4.1 General
The Power Tower system is a power rack system based on the Flatpack 1500 W 48Vdc. The systems contain a DC distr., until 6 Flatpack 1500 W 48Vdc. To provided monitoring and control Flatpack Monitoring/Control Unit (MCU) are used. The distribution is rated for 200A, negative distribution. The system is designed for cable entry from top. Prepared for 2 battery banks (2 x100Ah) and max. output current of 200A. DC output is made by connection between the positive rail and the different load/battery fuses. Negative distribution is standard. Cabinet size is 300x600x1800mm (11.8”x23.6”x70.9”). The system is build up from a basic number and prepared for different armament (Valid option3).
4 Description of Flatpack Power Tower
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4.1.1 Basic or extended functionality for monitoring and control The Flatpack Power Tower is available with either basic- or extended functionality for monitoring and control of the system. The type of interface PCB mounted inside determines whether the distribution unit has basic or extended functionality. The pictures below show that the interface PCB used distribution units with basic functionality has less wire connectors than the PCB used in distribution units with extended functionality. A distribution with extended functionality includes five more alarm relay outputs (totally 11) in addition to the standard monitoring and control features.
4.1.1.1 Basic functionality
4.1.1.2 Extended functionality
4.1.1.3 Front access interface PCB
Interface PCB for distribution units with basic functionality (part no. 100350). Includes all standard monitoring and control features. See chapter 5.6.2.2Basic version (PCB part no. 100350) for more details.
Interface PCB for distribution units with extended functionality (part no. 100145). Includes all standard monitoring and control features and five additional alarm relay outputs. See chapter 5.6.2.3 Extended version (PCB part no 100145)for more details.
Interface PCB for distribution units with basic functionality (part no. 1001714). Includes all standard monitoring and control features. See chapter 5.6.2.4 Front Access PCB (PCB Part number 101714) for more details.
5 Installation Procedures
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5 Installation Procedures
5.1 Safety Precautions
The equipment described in this manual must only be operated by Eltek Energy personnel or by persons who have attended a suitable Eltek Energy training course.
The equipment represents an energy hazard and failure to observe this could cause terminal injury and invalidate our warranty.
There are hazardous voltages inside the rectifier system. As the rectifier units incorporate large charged capacitors, it is dangerous to work inside the system even if the mains supply is disconnected.
Products into which our components are incorporated have to comply with a number of requirements. Installation is to be in accordance with the recommendations herein.
Please read the manual carefully before using the equipment.
5.2 Mechanical Installation
Installation Step Comments Okay
1 TAKE THE FLATPACK POWER TOWER OUT OF THE PACKAGING
INSPECT THE DISTRIBHUTION UNIT FOR ANY PHYSICAL DAMAGE. DAMAGED EQUIPMENT SHOULD BE RETURNED TO YOUR SUPPLIER
Procedure 1: Mechanical Installation Flatpack Power Tower
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5.3 Earth connections
The System Ground Cable must be connected to the Common Positive Busbar to ensure that the positive output of the rectifiers will be connected to ground and the negative output will represent the – 48Vdc supply voltage. The common positive busbar is connected to the chassis through an earth strap.
The ground point (M6 stud) is located behind the AC terminals
Earth connection between chassis and common positive bar (system ground)
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5.4 Mains Connections
Installation Step Comments OK
1. VERIFY WHICH MAINS CONFIGURATION IS APPLICABLE FOR YOUR SYSTEM
Refer to label for Power Tower AC connections
2. IF NECESSARY, RECONFIGURE THE MAINS TERMINALS ACCORDING TO THE SUPPLY AVAILABLE
3. CONNECT THE PROTECTIVE EARTH BEFORE ANY OF THE LIVE TERMINATIONS
Procedure 2: Mains Connections Flatpack Power Shelf
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5.5 General Arrangement
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5.5.1 DC Connections/Terminations
Cord anchorage
Common positive busbar
DC load MCB’s with the negative output on top of each MCB.
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5.5.2 Description of battery connections
Connection of negative pole from battery fuse
Connection of positive pole (from common Positive Busbar)
Cutaway view showing connection of a battery bank in series
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5.5.3 Procedure for connection of DC cables
Installation Step Comments OK
1 DECIDE CABLE ENTRY The cables or copper bars can enter from top
2 DRESS THE CABLES INTO THE CABINET, CUT TO LENGTH AND FIT CABLE LUGS OR FERRULES IF APPLICABLE
Use cable cutter and cable lug crimper fitted with appropriate sized die. For cables/wires The holes are dimensioned for M8 bolts, which are fitted at delivery
3 FASTEN THE CABLES TO THE DC TERMINALS
See chapter “connections/terminal” for connection details
6 FASTEN ALL CABLES AWAY FROM SHARP EDGES AND RELIEVE ANY STRAIN FROM THE TERMINALS.
Ensure that the cables do not impose any stress to the terminal connections. Ensure that the cables do not rest against any sharp edges inside the cabinet
Batt. Bank No. 2 (Batt.fuse 2)
Batt. Bank No. 1 (Batt.fuse 1)
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5.6 Installation of rectifiers
Installation of Flatpack 1500 Rectifiers
Installation Step Comments OK
1. PLUG IN THE NEW SMPS MODULE(S)
Make sure that the levers on each side of the rectifier are pulled forward (see section 5.6.1)
2. FASTEN THE MODULE BY PUSHING THE LEVERS BACK INTO POSITION
3. VERIFY THAT THE RECTIFIER IS ON The green “Power” LED is lit and no alarm is activated
4. MOUNT BLIND PANELS ON EMPTY RECTIFIER POSITIONS
For safety reasons all vacant rectifier positions must be covered by blind panels
Procedure 3: Installation of Rectifiers
5.6.1 Handles and locking mechanism The Flatpack 1500 rectifier incorporates handles that serve two purposes: 1.TO LOCK THE RECTIFIER INTO POSITION When the rectifier is plugged into its slot, it is then locked into position using the handles on either side of the front panel. The handles must be rotated into their housings and firmly pushed home only after the rectifier is in position, failure to do so will prevent the rectifier from making proper contact.
Handle in locked position
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To unlock and release the handles, insert a small screw driver into the holes in the upper corners of the rectifier front panel to release the spring mechanism. Do not use excessive force. The handle will release and pop out. 2. PULL-OUT HANDLES
When both handles are released use them to pull the rectifier loose.
o Do not hold or hand-carry the rectifier by its handles.
o Use gentle force, when releasing the handles from their locked position
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5.6.2 Description of alarm and signal connections Three types of PCB`s are used for this purpose (Basic and Extended version). All PCB`s are described in this chapter. Please verify which type of PCB is mounted in your system before any connections are made (see chapter “Basic or extended functionality for monitoring and control” for details).
5.6.2.1 Alarm relay specification Nominal switching capacity 2A/30V DC Maximum switching power 60W (resistive load) Maximum switching voltage 220V DC Maximum switching current 2A DC
5.6.2.2 Basic version (PCB part no. 100350)
CON2 CON3 CON4 CON5 PIN11 PIN20 PIN1 PIN18
PIN1 PIN10
CON4 PIN ASSIGNMENT (for basic PCB version part no. 100350) PIN DESCRIPTION
1 Digital Input 1 (When shorted to AGND (PIN2), the input will be de-activated) 2 AGND 3 Digital Input 2 (When shorted to AGND (PIN4), the input will be de-activated) 4 AGND 5 Digital Input 3 (When shorted to AGND (PIN6), the input will be de-activated) 6 AGND 7 Digital Input 4 (When shorted to AGND (PIN8), the input will be de-activated) 8 AGND 9 Symmetry Alarm 2 (Digital input referred to AGND (PIN9). For use together with external symmetry alarm PCB(`s). 10 AGND 11 Symmetry Alarm 1 (+) (Analog measurement between PIN11 and PIN12) 12 Symmetry Alarm 1 (-) (Analog measurement between PIN11 and PIN12) 13 Symmetry Alarm 3 (+) (Analog measurement between PIN13 and PIN14) 14 Symmetry Alarm 3 (-) (Analog measurement between PIN13 and PIN14) 15 AUX.power output (+) (20Vdc/ 200mA (21V ±5%) Intended for powering a modem) 16 AUX.power output (-) (20Vdc/ 200mA (21V ±5%) Intended for powering a modem) 17 Not in use 18 Temperature sensor (+) (For connection of temperature probe) 19 Temperature sensor (-) (For connection of temperature probe) 20 Temperature sensor (cable screen)
CON5 PIN ASSIGNMENT (for basic PCB version part no. 100350)
PIN DESCRIPTION PIN DESCRIPTION 1 Alarm relay 6 NC (Alarm relay output) 10 Alarm relay 3 NC (Alarm relay output) 2 Alarm relay 6 NO (Alarm relay output) 11 Alarm relay 3 NO (Alarm relay output) 3 Alarm relay 6 C (Alarm relay output) 12 Alarm relay 3 C (Alarm relay output) 4 Alarm relay 5 NC (Alarm relay output) 13 Alarm relay 2 NC (Alarm relay output) 5 Alarm relay 5 NO (Alarm relay output) 14 Alarm relay 2 NO (Alarm relay output) 6 Alarm relay 5 C (Alarm relay output) 15 Alarm relay 2 C (Alarm relay output) 7 Alarm relay 4 NC (Alarm relay output) 16 Alarm relay 1 NC (Alarm relay output) 8 Alarm relay 4 NO (Alarm relay output) 17 Alarm relay 1 NO (Alarm relay output) 9 Alarm relay 4 C (Alarm relay output) 18 Alarm relay 1 C (Alarm relay output)
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5.6.2.3 Extended version (PCB part no 100145)
CON2 CON3 CON4 CON5 PIN11 PIN20 PIN19 PIN36
PIN1 PIN10 PIN1 PIN18
CON4 PIN ASSIGNMENT (for extended PCB version part no. 100145) PIN DESCRIPTION
1 Digital Input 1 (When shorted to AGND (PIN2), the input will be de-activated) 2 AGND 3 Digital Input 2 (When shorted to AGND (PIN4), the input will be de-activated) 4 AGND 5 Digital Input 3 (When shorted to AGND (PIN6), the input will be de-activated) 6 AGND 7 Digital Input 4 (When shorted to AGND (PIN8), the input will be de-activated) 8 AGND 9 Symmetry Alarm 2 (Digital input referred to AGND (PIN9). For use together with external symmetry alarm PCB(`s). 10 AGND 11 LVD1 status (For external verification of contactor state. An alarm switch mounted on the contactor must be hardwired to CON6) 12 LVD1 status (For external verification of contactor state. An alarm switch mounted on the contactor must be hardwired to CON6) 13 LVD2 status (For external verification of contactor state. An alarm switch mounted on the contactor must be hardwired to CON6) 14 LVD2 status (For external verification of contactor state. An alarm switch mounted on the contactor must be hardwired to CON6) 15 Symmetry Alarm 1 (+) (Analog measurement between PIN11 and PIN12) 16 Symmetry Alarm 1 (-) (Analog measurement between PIN11 and PIN12) 17 Symmetry Alarm 3 (+) (Analog measurement between PIN13 and PIN14). Not in use 18 Symmetry Alarm 3 (-) (Analog measurement between PIN13 and PIN14). Not in use 19 AUX.power output (+) (20Vdc/ 200mA (21V ±5%) Intended for powering a modem) 20 AUX.power output (-) (20Vdc/ 200mA (21V ±5%) Intended for powering a modem)
CON5 PIN ASSIGNMENT (for extended PCB version part no. 100145)
PIN DESCRIPTION PIN DESCRIPTION 1 Temperature sensor (+) (For connection of temp. probe) 19 Alarm relay 6 NC (Alarm relay output) 2 Temperature sensor (-) (For connection of temp. probe) 20 Alarm relay 6 NO (Alarm relay output) 3 Temperature sensor (cable screen) 21 Alarm relay 6 C (Alarm relay output) 4 Alarm relay 11 NC (Alarm relay output) 22 Alarm relay 5 NC (Alarm relay output) 5 Alarm relay 11 NO (Alarm relay output) 23 Alarm relay 5 NO (Alarm relay output) 6 Alarm relay 11 C (Alarm relay output) 24 Alarm relay 5 C (Alarm relay output) 7 Alarm relay 10 NC (Alarm relay output) 25 Alarm relay 4 NC (Alarm relay output) 8 Alarm relay 10 NO (Alarm relay output) 26 Alarm relay 4 NO (Alarm relay output) 9 Alarm relay 10 C (Alarm relay output) 27 Alarm relay 4 C (Alarm relay output)
10 Alarm relay 9 NC (Alarm relay output) 28 Alarm relay 3 NC (Alarm relay output) 11 Alarm relay 9 NO (Alarm relay output) 29 Alarm relay 3 NO (Alarm relay output) 12 Alarm relay 9 C (Alarm relay output) 30 Alarm relay 3 C (Alarm relay output) 13 Alarm relay 8 NC (Alarm relay output) 31 Alarm relay 2 NC (Alarm relay output) 14 Alarm relay 8 NO (Alarm relay output) 32 Alarm relay 2 NO (Alarm relay output) 15 Alarm relay 8 C (Alarm relay output) 33 Alarm relay 2 C (Alarm relay output) 16 Alarm relay 7 NC (Alarm relay output) 34 Alarm relay 1 NC (Alarm relay output) 17 Alarm relay 7 NO (Alarm relay output) 35 Alarm relay 1 NO (Alarm relay output) 18 Alarm relay 7 C (Alarm relay output) 36 Alarm relay 1 C (Alarm relay output)
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5.6.2.4 Front Access PCB (PCB Part number 101714)
CON4 PIN ASSIGNMENT (for basic PCB version part no. 101714) PIN DESCRIPTION
1 Digital Input 1 (When shorted to AGND (PIN2), the input will be de-activated) 2 AGND 3 Digital Input 2 (When shorted to AGND (PIN4), the input will be de-activated) 4 AGND 5 Digital Input 3 (When shorted to AGND (PIN6), the input will be de-activated) 6 AGND 7 Digital Input 4 (When shorted to AGND (PIN8), the input will be de-activated) 8 AGND 9 Symmetry Alarm 2 (Digital input referred to AGND (PIN9). For use together with external symmetry alarm PCB(`s). 10 AGND 11 Symmetry Alarm 1 (+) (Analog measurement between PIN11 and PIN12) 12 Symmetry Alarm 1 (-) (Analog measurement between PIN11 and PIN12) 13 Symmetry Alarm 3 (+) (Analog measurement between PIN13 and PIN14) 14 Symmetry Alarm 3 (-) (Analog measurement between PIN13 and PIN14) 15 AUX.power output (+) (20Vdc/ 200mA (21V ±5%) Intended for powering a modem) 16 AUX.power output (-) (20Vdc/ 200mA (21V ±5%) Intended for powering a modem) 17 Not in use 18 Temperature sensor (+) (For connection of temperature probe) 19 Temperature sensor (-) (For connection of temperature probe) 20 Temperature sensor (cable screen)
CON5 PIN ASSIGNMENT (for basic PCB version part no. 101714)
PIN DESCRIPTION PIN DESCRIPTION 1 Alarm relay 6 NC (Alarm relay output) 10 Alarm relay 3 NC (Alarm relay output) 2 Alarm relay 6 NO (Alarm relay output) 11 Alarm relay 3 NO (Alarm relay output) 3 Alarm relay 6 C (Alarm relay output) 12 Alarm relay 3 C (Alarm relay output) 4 Alarm relay 5 NC (Alarm relay output) 13 Alarm relay 2 NC (Alarm relay output) 5 Alarm relay 5 NO (Alarm relay output) 14 Alarm relay 2 NO (Alarm relay output) 6 Alarm relay 5 C (Alarm relay output) 15 Alarm relay 2 C (Alarm relay output) 7 Alarm relay 4 NC (Alarm relay output) 16 Alarm relay 1 NC (Alarm relay output) 8 Alarm relay 4 NO (Alarm relay output) 17 Alarm relay 1 NO (Alarm relay output) 9 Alarm relay 4 C (Alarm relay output) 18 Alarm relay 1 C (Alarm relay output)
CON 3 CON 2CON 4 CON 5
Pin 1 Pin 10Pin 20
Pin 1 Pin 9Pin 18
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5.6.2.5 Front access from PCB 100350
4 - pole connector
Pin 1 Pin 16
2 – pole connector
Pin 1
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5.6.2.6 Connectors for Internal system wiring
The connectors CON2 and CON3 have the same pin assignment on both the basic and the extended PCB versions. CON6 is only mounted on the extended version PCB. CON3 is used for rectifier and power shelf communication. All three connectors are only used for internal system wiring, which has been done at the factory. These connectors are not involved in the system installation and commissioning process. The tables below show the pin assignment for CON2 and CON6.
CON2 PIN ASSIGNMENT Pin no. Name Description Classification
1 Batt curr + Current measurement, battery A/I 2 Batt curr - Current measurement, battery A/I 3 Rect curr + Current measurement, rectifier A/I 4 Rect curr - Current measurement, rectifier A/I 5 Power + Power for Flatpack Monitoring/Control Unit O 6 Power - Power for Flatpack Monitoring/Control Unit O 7 Vdc+ Voltage measurement, dc bus voltage A/I 8 Signal ref/Vdc- Voltage measurement, dc bus voltage A/I 9 DI Batt fuse Battery fuse state D/I
10 Load fuse Load fuse detection D/I 11 LVD1 Contactor control O 12 LVD2 Contactor control O
CON6 can be used to get an alarm via voltage free change over contacts, if the battery/load disconnect contactor(s) fail to change state, or remains mechanically locked in any state. The contactors must be equipped with alarm switch(s). CON6 is only used to improve the connectivity to external equipment. The alarm signal(s) from the alarm switch(s) are connected to CON6 so they can be obtained on CON4 for easy connection to external monitoring equipment. The same alarm(s) can be transmitted to a remote/local management station via software in Flatpack MCU, if the signal(s) are connected directly to any of the programmable digital input(s) on CON4. See “Flatpack MCU Operation Guide” for detailed information about digital inputs and how they are programmed in software.
CON6 PIN ASSIGNMENT Pin no. Name Description
1 LVD1 status For internal wiring to alarm switch on LVD1. Obtained on CON4 for external connection 2 LVD1 status For internal wiring to alarm switch on LVD1. Obtained on CON4 for external connection 3 LVD2 status For internal wiring to alarm switch on LVD2. Obtained on CON4 for external connection 4 LVD2 status For internal wiring to alarm switch on LVD2. Obtained on CON4 for external connection
CON6
CON3 CON2
PIN1
PIN1
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5.6.2.7 Internal connections for front access Interface PCB The connectors CON2 and CON3 have the same pin assignment on both the basic and the extended PCB versions. CON3 is used for rectifier and power shelf communication. All three connectors are only used for internal system wiring, which has been done at the factory. These connectors are not involved in the system installation and commissioning process. The table below shows the pin assignment for CON2.
CON2 PIN ASSIGNMENT Pin no. Name Description Classification
1 Batt curr + Current measurement, battery A/I 2 Batt curr - Current measurement, battery A/I 3 Rect curr + Current measurement, rectifier A/I 4 Rect curr - Current measurement, rectifier A/I 5 Power + Power for Flatpack Monitoring/Control Unit O 6 Power - Power for Flatpack Monitoring/Control Unit O 7 Vdc+ Voltage measurement, dc bus voltage A/I 8 Signal ref/Vdc- Voltage measurement, dc bus voltage A/I 9 DI Batt fuse Battery fuse state D/I
10 Load fuse Load fuse detection D/I 11 LVD1 Contactor control O 12 LVD2 Contactor control O
Con 2 Pin 1
Con 3
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6 System Monitoring
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6 System Monitoring The Flatpack system can be monitored locally or from a remote location via the Flatpack MCU Monitoring & Control Unit. The Flatpack MCU monitors and controls the entire rectifier system including distribution and batteries, as well as other equipment on site. Please refer to the Flatpack MCU Operation Guide, for detailed information about system monitoring
6 System Monitoring
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7 Specification Flatpack Power Tower
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7 Specification Flatpack Power Tower
FlatPack Power Tower SPECIFICATION RATING Voltage 0-60Vdc Max. Current 200A DISTRIBUTION OPTIONS No. of Load breakers (Note: Customer distribution can be made on request)
2 x 125A Siemens +11 x (Siemens 5SY4)
breakers or
15 x (Cbi, Q-series) breakers
No. of Battery fuses 2 (max. 200A) Low Voltage Battery Disconnect
1 (option)
Low Voltage Load Disconnect
1 (option)
MONITORING Monitoring Unit1 Flatpack MCU RS 232 serial port 1 Local operation Menu driven software via
Keypads and LCD Remote operation Winpower via modems
NMS via SNMP-agent Alarm relays 6 relays are standard
5 extra relays are optional Visual indications Green LED – Power ON
Red LED – Active alarm(s) LCD – system status and interrogation via keypads
Digital inputs 4 (can be used to monitor external equipment)
Current measurements
- Battery current - Rectifier current - Load current
(calculated) Load fuse alarm Yes Battery fuse alarm Yes Low voltage battery disconnect alarm
Yes
Low voltage load disconnect alarm
Yes
Low output voltage alarms
2 (individual alarm levels)
High output voltage alarms
2 (individual alarm levels)
CONNECTIONS Battery connections
Battery cable, M6
Load MCB connections
Negative, directly in the breakers Positive, common positive buss bars
Alarm connections
Plug-in wire connectors located in the rear of the MCU (front access optional)
OTHER SPECIFICATIONS Complies to the following standards
Electrical safety: EN 60950 EMC: EN 300 386 V.1.3.1 (Class B) EN 61000-6-3 (emission, light industry) EN 61000-6-2 (immunity, industry) Environment: ETS 300 019
Isolation 3.0 KVAC – input and output 1.5 KVAC – input earth 1.0 KVDC – output earth
Operating Temp -10 to +70°C / 14 to +158°F Storage Temp -40 to +85°C / -40 to +185°F Humidity Operating:
5% to 95% RH non-condensing Storage: 0% to 99% RH non-condensing
Dimensions W:300mm D:600mm H:1800mm W:11.81” D:23.62” H:70.87”
Weight Max. 65kg (143lbs) excl. MCU
See Flatpack MCU datasheet for detailed information regarding monitoring & control
7 Specification Flatpack Power Tower
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8 Figures
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8 Figures Figure 1 Block Schematic, Flatpack Power Tower ................................................................................................. 32 Figure 2 Schematic, 1Ph (230Vac) .......................................................................................................................... 34 Figure 3 Schematic, 3Ph (230Vac) ......................................................................................................................... 36 Figure 4 Schematic Power Tower, 3Ph +N (400Vac) ............................................................................................. 38 Figure 5 Label for Power Tower 230Vac 1Ph ......................................................................................................... 40 Figure 6 Label for Power Tower 230Vac 3Ph ......................................................................................................... 42 Figure 7 Label for Power Tower 400Vac 3Ph+N.................................................................................................... 44 Figure 8 General Assembly Drawing....................................................................................................................... 46
8 Figures
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Figure 1 Block Schematic, Flatpack Power Tower
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Figure 2 Schematic, 1Ph (230Vac)
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Figure 3 Schematic, 3Ph (230Vac)
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Figure 4 Schematic Power Tower, 3Ph +N (400Vac)
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Figure 5 Label for Power Tower 230Vac 1Ph
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Figure 6 Label for Power Tower 230Vac 3Ph
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Figure 7 Label for Power Tower 400Vac 3Ph+N
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Figure 8 General Assembly Drawing
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ELTEK Energy P-O- BOX 2340 StØmsØ N-3003 DRAMMEN NORWAY Phone: +4732203200 Telefax: +47 32203210 Internet: http://www.eltekenergy.com e-mail: [email protected]