Netsure 501
-
Upload
mario-pongrac -
Category
Documents
-
view
1.325 -
download
34
Transcript of Netsure 501
EMERSON Network Power
Benamnlng - Title
USER'S MANUAL Parmnr-ftTeno
EN/LZB 135 050/1
Documents for Power Supply System NetSure™ 501, BZA108 35
Document r\r - Document no
00 152-BZA 108 35/101 Uen Datum - Date
2006-12-18 Uppgjord - Prepared
TBE
Blad - Sheet
KD Korr - Rev
B Godkand - Approved
EES/SE
GENERAL Safety Rules 1550-1004 Uen
1 DESCRIPTION, OPERATION AND MAINTENANCE
Directions for use 1553-BZA 108 35 Uen
Rectifier data EN/LZT 145 280 RA
2 STANDARD CONTROL UNIT (SCU)
Directions for use
Table of set values
5/1553-BMP903 051 Uen
3/1532-BMP903 051 Uen
3 ADVANCED CONTROL UNIT (ACU) Directions for use Table of set values
5/1553-BMP 903 050 Uen
3/1532-BMP903 050Uen
4 INSTALLATION INSTRUCTIONS
Installation instructions 1531-BZA108 35Uen
5 TEST INSTRUCTIONS
Test instructions 1532-BZA108 35 Uen
6 DIAGRAMS
Terminal Diagram Circuit Diagram
11FU7996QU A 11WE4578CT-A
7
8
9
10
EMERSON Network Power RULES
SAFETY RULES For work with Power, Climate and Energy-Supervision Equipment
This document substitutes document K 1539-102 Ue
© Emerson Energy Systems AB 2003 - All rights reserved -Word-
1550-1004 Uen Rev G 2003-01-10
1(9)
EMERSON R l II F ^ Network Power
The contents of this document are subject to revision without notice due to continued progress in methodology, design, and manufacturing.
Emerson Energy Systems AB SE-141 82 Stockholm
Sweden
Tel. +46 8 721 6000 Fax. +46 8 721 7177 www.emersonenergy.com
1550-1004 Uen Rev G 2003-01-10
2(9) . .
4 EMERSON
Network Power
Contents 1. Introduction 4
2. Warning Levels 4
3, Authorization 5
4. Basic Guidelines 5
5. High Energy and High Voltage 6
6. Thunderstorms 7
7. Explosive Gases 7
8. Acid 7
9. Poisonous Material 8
10. Driiiing 8
11. Handling of Heavy Goods 8
12. The Use of Ladders 9
13. Radio Frequency Radiation 9
14. Electrostatic Discharge 9
1550-1004 Uen Rev G 2003-01-10
3(9)
EMERSON R l l i P ^ Network Power
5. High Energy and High Voltage DANGER
High energy and high voltage up to 480 V AC are used in the operation of power and cooling equipment. This high voltage poses a significant risk of shock or electrocution. Batteries can store large amounts of energy. Direct contact with battery terminals or any indirect contact via cables or damp items can result in dangerously rapid discharge of this energy, resulting in fires or personal injury.
• The work shall be performed and supervised only by personnel knowledgeable about the risks involved, and trained in the safety measures that must be followed.
• Metal objects such as rings, watches, bracelets, etc. that may cause short circuits in the equipment, must not be worn when working on or around any live equipment.
• The tools that are used on live equipment shall be factory insulated to IEC 900 standards for insulated hand tools. (Tools insulated with insulating tape are not acceptable under any circumstances.) The tools shall be inspected for damage prior to the start of each shift. Do not try to repair a faulty tool yourself.
• All battery cables shall have both ends marked to prevent unintentional short circuits.
• It must be possible to disconnect the load, the AC- and the DC-supplies from the power supply/cooling system, should this be necessary. The AC-disconnectors must be designed so that all the phases can be cut off with one manipulation. Local rules must be adhered to.
• The unit in question shall if possible, be de-energized before the work starts applying established procedures. Note that there might be more than one feeding to the unit and that filters of the unit may be charged even if the supply voltage is disconnected.
• Charged cells in a battery have a short circuit effect. A short circuit between the poles may cause dangerous burns and a spark formation may cause bursting of cells. Therefore, do not place any units of unmstalled metal in the vicinity of the batteries and protect the battery terminals from physical contact.
• Switch off the power supply if the equipment is damp inside.
• Prevent moisture from entering the equipment
• Before the power supply to the equipment is switched on. (before testing or after repair) all tools and other objects not associated with the equipment must be removed.
• To avoid static build-up while working on batteries, maintenance personnel should periodically have contact with ground.
1550-1004 Uen Rev G 2003-01-10
6(9)
EMERSON. NetworkPower R l II F ^
6. Thunderstorms
DANGER
Avoid working with electrical installations or being close to towers during thunderstorms.
• Thunderstorms generate strong electric fields that may result in lightning strokes. It is essential that equipment and facilities be properly earthed to minimize the risks of personal injury and equipment damage.
7. Explosive Gases DANGER
The batteries contain potentially explosive gases, which may be released during charging or on abnormal operating conditions, such as rectifier malfunction or high temperature.
• Fire in any form, spark formation, or smoking is not allowed in battery rooms or in the vicinity of batteries.
• The battery manufacturer's safety recommendations shall be followed.
8. Acid WARNING
The batteries contain sulphuric acid, which is very corrosive and can cause severe bums. Impact can cause the battery case to rupture.
• Protect eyes and skin from splash (ventilated cells) with protective goggles and protective clothing. In case of skin contact with electrolyte, remove contaminated clothing and flush affected areas thoroughly with water. If eye contact has occurred, flush for a minimum of
15 minutes with large amounts of running water and seek immediate medical attention.
• Keep batteries of ventilated type upright.
• The battery manufacturer's safety recommendations shall be followed.
1550-1004 Uen Rev G 2003-01-10
7(9)
EMERSON. Network Power DIRECTIONS FOR USE
POWER SUPPLY SYSTEM NetSure™ 501, BZA 108 35, -48 V DC
> Emerson Network Power Energy Systems AB 2007 - All rights reserved
1553-BZA 108 35 Uen Rev B 2007-01-19
1(27)
DIRECTIONS FOR USE - BZA 108 35
1 Introduction The NetSure™ 501 -48 V DC power system consists of a stand-alone cabinet, DC-distribution unit, maximum 12 rectifiers of 1700 W, battery connections and a supervision unit.
2 Function For the protection of the batteries during a power outage, the load is disconnected at a preset voltage or after a predetermined delay.
To prolong the service of some loads at a long power outage, the DC distribution is divided into two branches. One is for normal load and one for priority load, so the disconnection can be made in two steps.
AC Mains
DU, normal load Priority Load
t M | M
Figure 1. Example of system topology.
1553-BZA108 35UenRev 2007-01-19 4(27)
DIRECTIONS FOR USE - BZA 108 35
3 Configurations The cabinets can be configured with different numbers of rectifiers, battery-and distribution- circuit-breakers. They are built for overhead cabling.
• ■
a" ' » * ■ * Extension
distribution unit m ^ ^ ^ ^ ^ ^ ■ ^ ^ ■ ^ ^ ^ H ■ Extension distribution unit
■ I MFU and Control unit
. ■ ■ ■ ■ ■ ■ ■ ■ I ^^*nMm*^^^M§m^^M^
mm~ * m ■ m m m m . '
P| / ' - * 3» m <* ■ «* *■ ; *
1 mmaatmMmmn^S£ m '
Rectifier subrack
Rectifier subrack
AC distribution unit (optional)
Figure 2. Example of configuration with overhead cabling.
1553-BZA108 35UenRev 2007-01-19
5(27)
DIRECTIONS FOR USE - BZA 108 35
The Figure 3 and Figure 4 give examples of standard configurations.
Figure 3. Configuration with single rectifier subrack. — I l I I i
Cover panel 2 U AC teminals (if no ACP)
Cover panel 2 U
Figure 4. Configuration with doub/e rectifier subracks.
1553-BZA108 35UenRev 2007-01-19
6(27)
DIRECTIONS FOR USE - BZA 108 35
Basic configuration: • Cabinet for overhead cabling • Maximum 12 rectifiers 1700 W • One or two rectifier subracks for maximum 6 rectifiers each • MFU including maximum four battery CBs, distribution CBs, LVD contac
tors, a standard control unit (SCU) and a battery shunt • AC terminal unit for maximum 12 rectifiers
• Battery temperature sensor KET 103 06/1
Options:
• Advanced control unit (ACU) • Cables for battery, distribution, earthing and signalling • Cabling materials (lugs, tie wraps, markings) • Internal AC distribution unit for maximum 12 rectifiers • External AC distribution units • Mains cable • Lifting eye bolts SAR 201 080/03 • Cabinet anchoring material BMY 107 125/1 • AC inlet pull-relief clamps • Room temperature sensor KET 103 06/1 • Spare parts
1553-BZA 108 35 Uen Rev 2007-01-19 7(27)
DIRECTIONS FOR USE - BZA 108 35
4 Units in the system
4.1 Rectifier The rectifier is voltage regulated of a constant power limitation type (1700 W) and designed to meet the most stringent electrical requirements as well as demands for high power density (fan cooling). It can work independently of the control unit, and can share the load actively and control the system voltage.
Figure 5. Rectifier.
4.1.1 LEDs The front panel has three indicator LEDs. The functions of the LEDs are listed in the table below.
LED Normal Abnormal Cause of Abnormality
Power indicator (green) ON
OFF No AC Mains Supply Power indicator (green) ON
Flashing Rectifier is under control by SCU/ACU
Protection indicator (yellow) OFF
ON AC input over/undervoltage, PFC over/undervoltage and over-temperature Protection indica
tor (yellow) OFF
Flashing Communication with SCU/ACU failure
Alarm indicator (red) OFF
ON Output overvoltage Alarm indicator (red) OFF
Flashing Fan Failure
1553-BZA108 35UenRev 2007-01-19 8(27)
DIRECTIONS FOR USE - BZA 108 35
4.1.2 Features • Hot swappable. The rectifier is plug-and-play to live inputs and outputs.
• Active load sharing. The rectifier uses advanced digital active [oad sharing technology for minimum load difference between units.
• Power derating bv input voltage. The rectifier will go into power derated mode if the input AC voltage is too low or too high.
• Power derating bv output load. The rectifier will limit its output power constant when the load exceeds the nominal output power.
• Power derating bv temperature. For high temperatures the output load will be gradually reduced. See technical data.
• Current limiting function. The rectifier has a current limiting function. The current limit can be set from an SCU/ACU.
• Foldback current limiting function. If a short circuit occurs on the rectifier output terminals, the rectifier will keep its output current at a constant value. When the short circuit fault is cleared, the rectifier will automatically restore to normal operation.
• Adjustable output voltage. The voltage can be set from an SCU/ACU.
• Current walk-in. The rectifier can be set from an SCU/ACU to take load gradually in order to reduce the stress on generators, fuses etc.
• Fan control. The fan's speed is controlled according to the rectifier internal temperature. The fan is stopped completely at low temperature and at very low or high input voltage.
4.1.3 Digital Signal Processor (DSP) The rectifier has a built-in advanced DSP that monitors and controls the operation of the rectifier. The DSP also communicates with an SCU/ACU through a CAN bus.
• The rectifier can receive commands such as turning on/off, current walk-in on/off signal and high voltage alarm reset signal from an SCU/ACU.
• An SCU/ACU can adjust the output voltage, overvoltage alarm point, current walk-in time and the current limit of the rectifier.
• The rectifier reports its output voltage, output current, temperature, current limit setpoint, overvoltage setpoint, on/off status and alarm information to an SCU/ACU in real time.
• By querying the DSP, an SCU/ACU can get the following data from the rectifier: Input voltage, output voltage, output current, current limit setpoint, temperature of rectifier, and overvoltage setpoint.
1553-BZA 108 35 Uen Rev 2007-01-19
9(27)
DIRECTIONS FOR USE - BZA 108 35
4.5 AC distribution
L1 L2 L3 N PE Input terminal
Figure 8. AC distribution unit seen from front.
For cabinets with double rectifier subracks, an AC distribution unit is available. It includes separate circuit breakers for each rectifier.
4.6 AC connection terminals
Figure 9. Mains terminals.
A unit with maximum four terminal blocks can be delivered for the connection of totally 12 rectifiers.
1553-BZA 108 35 Uen Rev 2007-01-19 12(27)
DIRECTIONS FOR USE - BZA 108 35
Technical data
5.1
5.2
System Nominal DC voltage -48 V
Maximum output current @ 48 V 212 A (with one rectifier subrack) or 425 A (with two rectifier subracks)
Operational temperature
Storage temperature
Relative humidity
Cabinet Building practice
Height (incl. top cover and feet)
Footprint (with x depth)
Weight (fully equipped, without batteries)
-5 to +45 9C (with hydraulic magnetic circuit-breakers)
-5 to +30 °C (with thermal/electro magnetic circuit-breakers)
-40 to +75 °C
5 to 90%
23"
1250, 1650, 1850,2050 mm 400 or 600 x 600 mm
maximum 150 kg
5.3 Rectifier See data sheet EN/LZT 145 280 RA
1553-BZA108 35UenRev 2007-01-19
13(27)
DIRECTIONS FOR USE - BZA 108 35
6 Installation See INSTALLATION INSTRUCTIONS 1531-BZA 108 35 Uen.
7 Start-up and installation test See TEST INSTRUCTIONS 1532-BZA 108 35 Uen.
8 Maintenance Adequate knowledge of the power supply system is required. Refer to item 1 to 5 of this document.
8.1 Safety The document SAFETY RULES 1550-1004 and local safety rules shall be followed when doing maintenance work in the power supply equipment. Measures that require work inside the cabinets or intervention in a unit shall always be carried out by adequately trained personnel with adequate knowledge of the power supply system. When in doubt about an action or how to carry it out, always call for adequately trained personnel.
In case it is necessary to work on a live power supply system, the approval for this type of work must be given, based on local regulations governing for example the following areas:
• General rules for work on live equipment
• Certification of operatives conducted by certified supervisor
• Approved tools
• Customer approval
8.2 Scheduled maintenance • Use a vacuum cleaner to remove dust from the air inlets of the cabinets.
• Check and test the batteries according to the recommendations of the battery supplier.
• A scheduled performance test according to the following table shall be performed at least every two years according to item "Test of signals and supervision" in the document TEST INSTRUCTIONS 1532-BZA 108 35 Uen. Settings according to the document TABLE OF SET VALUES, shall be verified in this test.
A copy of the test result shall be kept in the logbook of the plant.
1553-BZA108 35UenRev 2007-01-19 14(27)
DIRECTIONS FOR USE - BZA 108 35
8.3 Alarms 8.3.1 Alarm categories
The different alarm categories used in the power supply system are Critical, Major, Observation and No Alarm.
An alarm of category Critical requires immediate action, whatever the time of day or night.
An alarm of category Major requires immediate action if it occurs during working-hours, otherwise as soon as the working-hours commence.
An alarm of category Observation is an alarm that indicates a temporary state of operation and does not normally require any action, However, if the alarm persists for more than 20 hours, it must be investigated.
If an alarm has category No Alarm it means that the alarm is deactivated and will not be shown in the display of the SCU/ACU.
8.3.2 Procedure in case of alarm Enter in the logbook of the power supply system all observations made at the moment of failure, such as date, time, system voltage and rectifier load. Enter also what alarm(s) are shown and any external disturbance such as thunderstorm or mains failure.
Trace activated alarms by means of the alarm survey of the respective unit and the item, which describes what actions to take on the respective alarm.
8.4 Fault symptoms and trouble shooting
8.4.1 System alarms For system alarms, see USER'S GUIDE 1553-BMP 903 051 Uen for the SCU and 1553-BMP 903 050 Uen for the ACU.
Alarm on the SCU display
Alarm on the ACU display
Cause Suggestion
Alarms Blocked
Alarm Blocked
The outgoing alarms are blocked from the SCU/ACU.
Check why before reconnecting the alarms.
Load Fuse Alarm
Fuse Alarm One or more distribution circuit-breakers for the load have tripped.
Find out and eliminate the reason for the tripped circuit breaker before resetting it.
Rect Not Respond
CAN Comm Fault
There CAN communication is broken.
Check the connectors and cables for the CAN loop.
Rect Not Respond
CAN Comm Fault
There CAN communication is broken.
Exchange the rectifier that does not respond.
Rect Not Respond
CAN Comm Fault
There CAN communication is broken.
Exchange the SCU/ACU.
1553-BZA 108 35 Uen Rev 2007-01-19 15(27)
DIRECTIONS FOR USE - BZA 108 35
Alarm on the SCU display
Alarm on the ACU display
Cause Suggestion
LVD1 LVD 1 Disconnected
The contactor for the normal load is open because the battery is too deep discharged. The batteries are disconnected at a preset level, in order to protect them from over-discharging.
If there is a mains failure, check that it is not caused by broken supply fuses.
LVD1 LVD 1 Disconnected
The contactor for the normal load is open because the battery is too deep discharged. The batteries are disconnected at a preset level, in order to protect them from over-discharging.
If the rectifiers are working, the problem may be that the system load is higher than the rectifier capacity, causing the batteries to discharge. If this is the reason, install more rectifiers.
LVD 2 LVD 2 Disconnected
The contactor for the prioritised load is open because the battery is too deep discharged.
See LVD 1
LVD 1/ LVD 2 Open
Contactor Fault
An LVD contactor is in a wrong state.
Check the contactor functions.
Batt Curr High
Abnorm Bat Curr
The boost charging current exceeds the set max. value.
Check the settings.
Batt Fuse Alarm
Fuse Alarm Indicates that one or more battery fuses/circuit breakers have blown/tripped or been removed.
If a battery fuse/circuit breaker has been removed/tripped manually, check with the person that removed/tripped it before reinserting/resetting it. Ensure that there is no fault before doing that. The battery fuse shall be reinserted by adequately trained personnel.
Batt Fuse Alarm
Fuse Alarm
If the battery fuse/circuit breaker is blown/tripped, the reason for the failure probably is overload or short circuit.
Find out and eliminate the reason for the blown/tripped fuse/circuit breaker before swapping/resetting it
Self-detect Err
ACU fault SCU/ACU failure. Exchange the SCU/ACU.
Manual Mode
Manual Mode
The battery monitoring has been set to "Manual mode" in the SCU/ACU.
Check why before resetting it to automatic.
Non-Float Status
The system is not in Float Charge mode because of:
Non-Float Status
The boost charge is active.
The boost charge will stop automatically.
Non-Float Status
The battery test is active. The discharge test will stop automatically.
Batt Discharge
The battery test is active. The discharge test will stop automatically. Batt Discharge There is a mains failure. Check that it is not caused by broken supply
fuses.
Batt Discharge
The system load is higher than the rectifier capacity, causing the batteries to discharge.
Install more rectifiers.
1553-BZA108 35UenRev 2007-01-19 16(27)
DIRECTIONS FOR USE - BZA 108 35
Alarm on the SCU display
Alarm on the ACU display
Cause Suggestion
Curr Discrepancy
DisCurr Im The currents from two groups of batteries are not equal. Note: There must be two
battery shunts in the system to activate this function.
Check the batteries.
Short Test Fail
The short time battery test has failed.
Check the batteries.
Batt Test Fail
Test Failure The battery test has failed. Check the float charging level. Batt Test Fail
Test Failure The battery test has failed.
Check that the load is lower than the capacity of the rectifiers.
Batt Test Fail
Test Failure The battery test has failed.
Check the battery according to the recommendations of the supplier.
Volt Discrepancy
Rect Over Volt
Rectifier overvoltage See item 8.4.2
Mains Failure
Mains Failure
All rectifiers have stopped. Check if there is a general mains failure. Check that it is not caused by broken supply fuses.
Multi-Rect Alarm
Multi-rect fail Two or more rectifiers have stopped.
See item 8.4.2
Maintain Alarm
Maintenance Alrm
The maintenance timer gives alarm
Check the settings of the Maintenance Time Delay
Rectifier Lost
Rectifier Lost
The SCU/ACU has detected a reduction in the number of running rectifiers.
See item 8.4.2 If the lost rectifier is to be removed permanently, the alarm must be reset from the SCU/ACU.
Load share Alarm
The output current of a rectifier is outside the average value for all rectifiers.
Check the rectifiers.
Rect HVSD A rectifier output voltage was higher than the rectifier HVSD setting and has shut down.
Check the rectifier HVSD setting. Rect HVSD A rectifier output voltage was higher than the rectifier HVSD setting and has shut down. Replace the rectifier.
Rect AC Fail Rect AC Failure
AC input voltage outside the normal range.
See item 8.4.2
Rect Over Temp
Rectifier overtemperature protection.
See item 8.4.2
Rect Failure Rectifier Failure
Rectifier failure See item 8.4.2
Rect Protect Rect Protected
Rectifier protection See item 8.4.2
1553-BZA 108 35 Uen Rev 2007-01-19 17(27)
DIRECTIONS FOR USE - BZA 108 35
111
Alarm on the ACU display
Cause Suggestion
Rect Fan Fails
Rect Fan Fail
Rectifier fan failure. See item 8.4.2.
Rect Derated
Rect Curr limit
Rectifier overload. The load is higher than the rectifier capacity.
If the batteries are being recharged, the alarm will cease by itself when the battery voltage has increased to the charging level.
Rect Derated
Rect Curr limit
Rectifier overload. The load is higher than the rectifier capacity.
If the system load is higher than the rectifier capacity, the batteries will discharge. If this is the reason, install more rectifiers.
Rect Derated
Rect Curr limit
Rectifier overload. The load is higher than the rectifier capacity.
If one or more of the rectifiers are out of order, exchange the faulty rectifiers.
DC Volt Low#1
Under Vol The distribution voltage has dropped below the preset alarm level, usually initiated because of mains failure.
If there is a mains failure, check if some load could be switched off in order to prolong the operating time of the plant.
DC Volt Low#1
Under Vol The distribution voltage has dropped below the preset alarm level, usually initiated because of mains failure. If there is a rectifier failure, see item 8.4.2.
DC Volt Low#1
Under Vol The distribution voltage has dropped below the preset alarm level, usually initiated because of mains failure.
If the system load is too high related to the rectifier capacity, install more rectifiers.
DC Volt Low#1
Under Vol The distribution voltage has dropped below the preset alarm level, usually initiated because of mains failure.
If the batteries are being recharged, the alarm will cease by itself when the battery voltage has increased to the charging level.
DC Volt Low#2
Very Under Vol
The distribution voltage has dropped below the preset alarm level, usually initiated because of mains failure.
See DC Volt Low#1/DC Under Voltage
DC Volt High#1
Over Voltage
The system voltage exceeds the preset level.
Check the set float-, battery- and the over-voltage; if the limits are incorrect, find out why they have changed and correct them.
DC Volt High#2
The system voltage exceeds the preset level.
Check the set float-, battery- and the over-voltage; if the limits are incorrect, find out why they have changed and correct them.
AC Voltage Low#2
The mains voltage is too low.
Check the mains voltage. AC Voltage Low#2
The mains voltage is too low. Check the settings of the SCU.
AC Voltage Low#1
The mains voltage is too low. See AC Voltage Low#2
AC Voltage High
The mains voltage is too high.
Check the mains voltage. AC Voltage High
The mains voltage is too high. Check the settings of the SCU.
Temp Alarm Low Temp /Low Amb Temp
The temperature on a temperature sensor exceeds the set value.
Check the temperature.
Temp Alarm Low Temp /Low Amb Temp
The temperature on a temperature sensor exceeds the set value.
Check the settings of the SCU/ACU. Temp Alarm Low Temp /Low Amb Temp
The temperature on a temperature sensor exceeds the set value. If the temperature is OK, exchange the tem
perature sensor.
1553-BZA 108 35 Uen Rav 2007-01-19 18(27)
DIRECTIONS FOR USE - BZA 108 35
Alarm on the SCU display
Alarm on the ACU display
Cause Suggestion
Temp High Alarm High Temp
The temperature on a battery temperature sensor exceeds the set value.
Check the battery temperature. Temp High Alarm High Temp
The temperature on a battery temperature sensor exceeds the set value.
Check the settings of the SCU/ACU. Temp High Alarm High Temp
The temperature on a battery temperature sensor exceeds the set value. If the temperature is OK, exchange the tem
perature sensor.
Very hi-Temp
The temperature on a battery temperature sensor exceeds the set value.
See High Temp alarm.
High Amb Temp
The temperature on a room temperature sensor exceeds the set value.
Check the room temperature. High Amb Temp
The temperature on a room temperature sensor exceeds the set value.
Check the settings of the ACU. High Amb Temp
The temperature on a room temperature sensor exceeds the set value. If the temperature is OK, exchange the tem
perature sensor.
No Temp Sensor 1 or 2
T Sensor Fault
The temperature sensor has a fault.
Check the cable and the connector of the temperature sensor.
No Temp Sensor 1 or 2
T Sensor Fault
The temperature sensor has a fault.
Exchange the temperature sensor.
Plan BT Planned battery test in progress. Wait for the test to stop automatically.
AC failure BT Mains failure. See Mains Failure alarm.
Manual BT Manual battery test in progress. Wait for the test to stop automatically.
Short Test Short battery test in progress. Wait for the test to stop automatically.
Cyclic BC Cyclic boost charge in progress.
Wait for the boost charge to stop automatically.
Auto BC Automatic boost charge in progress.
Wait for the boost charge to stop automatically.
Manual BC Manual boost charge in progress.
Wait for the boost charge to stop automatically, or stop it manually.
Charge Prohibit
The boost charge function is blocked.
The boost charge will be blocked by abnormal conditions in the system.
Power Major Indicates "Promt" alarm (red LED)
Power Minor Indicates "Main fail" alarm (yellow LED)
High Load Ab load curr The system load is higher than the set level. Check the settings.
Over Power
Digital 1 {to 6) Dl 1 to Dl 6 Indicate alarms on the
digital inputs 1-6. Check the equipment connected to the corresponding input.
1553-BZA108 35UenRev 2007-01-19
19(27)
DIRECTIONS FOR USE - BZA 108 35
8.4.2 Rectifier The usual fault symptoms of the rectifier include: power indicator (green) off, protection indicator (yellow) on, protection indicator (yeJIow) flashing, alarm indicator (red) on, and alarm indicator (red) flashing.
Symptom Cause Suggestion
Power indicator (green) off
No input voltage Make sure there is input AC voltage
Power indicator (green) off
Input fuse/circuit-breaker fault Replace the fuse with a new one of the same model or switch on the circuit-breaker.
Protection indicator (yellow) on
AC input voltage outside the normal range
Check that the AC input voltage is within normal range
Protection indicator (yellow) on
PFC overvoltage Replace the rectifier
Protection indicator (yellow) on
Current sharing function is disabled Replace the rectifier
Protection indicator (yellow) on
Rectifier overtemperature protection, which is caused by: Protection indicator (yellow) on Fan blocked Remove the obstacle that block
the fan
Protection indicator (yellow) on
Ventilation blocked: the inlet or outlet blocked
Remove the objects that blocks the inlet or outlet
Protection indicator (yellow) on
Ambient temperature too high or rectifier inlet too close to a heater
Remove the heater, lower the ambient temperature
Protection indicator (yellow) on
Rectifier not completely inserted into the slot Insert the rectifier properly
Protection indicator (yellow) flashing
Rectifier communication failure Exchange the rectifier for a new one.
Alarm indicator (red) on Rectifier overvoltage
Remove the rectifier from the DC power system and then reinsert it- Exchange the rectifier for a new one if the alarm continues.
Alarm indicator (red) flashing
Fan not running Replace the fan
When multiple rectifiers are in parallel connection and the unbalance of current sharing among them is higher than 3 %, check if the communication cables are correctly connected.
If the current sharing is still unsuccessful after the correction, replace the rectifier of which the current sharing is out of range.
1553-BZA 108 35 Uen Rev 2007-01-19 20(27)
DIRECTIONS FOR USE - BZA 108 35
9 Exchange of units and parts To order spare parts, contact Emerson Network Power Energy Systems AB.
9.1 Exchange of rectifiers 1. Loosen the fixing screw of the handle of the faulty rectifier. The handle will
pop out and release the latch locking the rectifier to the subrack.
Figure 10. Rectifier handle.
2. Pull out the rectifier unit and remove it.
3. Make sure the handle of the new rectifier unit is locked in its socket with the fixing screw.
Latch
Figure 11. Locking latch.
A. Insert the new rectifier unit. Push it into its slot until the latch blocks the way. The latch is set to block the way with the purpose of charging the rectifier output filter slowly via a charging circuit, as the DC terminals may get damaged by a spark at a direct connection.
1553-BZA 108 35 Uen Rev 2007-01-19
21(27)
DIRECTIONS FOR USE - BZA 108 35
5. Loosen the fixing screw of the handle, lift the handle, and the latch will withdraw into the rectifier.
6. Continue to push the rectifier into the slot completely.
7. Push the handle into its socket and fasten the fixing screw to lock the rectifier. Now the rectifier is fixed to the slot by the latch. The green LED emits light and the fan will start.
9.2 Rectifier fan replacement If the fan does not work because it is faulty, exchange it for a new one.
1. Remove the rectifier according to item 9.1.
^ ^ j F a n cable plug § j f
Fixing s c r e w j I n ^ ^ ^ B ^ ^ ^ ^ ^ H fan holder K ^ ^ ^ ^ 9 N ^ H | ^ f l
ifijSIP^j^H^^B
H r « > ^ ^ ^ E F a n l H H
Ir^-, ' Front cover j * 1 ^Fixing screws J
Figur& 12. Fan replacement.
2. Loosen the three screws fixing the front cover to the chassis.
3. Lift out the front cover from the chassis and observe the orientation of the fan and its wires.
4. Unplug the power cable of the fan and remove the front cover with the fan.
5. Remove the fan from the front cover by removing its two fixing screws and holders.
6. Replace the fan and fix it to the front cover with the two screws and holders.
7. Plug the fan power cable back into the corresponding socket.
8. Mount the front cover and fix it with the three screws.
9. Reconnect the rectifier according to item 9.1.
1553-BZA108 35UenRev 2007-01-19 22(27)
DIRECTIONS FOR USE - BZA 108 35
9.3 Exchange of distribution circuit-breaker 1. Open the distribution unit front.
2. Disconnect the distribution cable from the CB.
3. Loosen the CB fixing screw. See Figure 13.
4. Pull the locking device at the bottom of the faulty CB to release it from the DIN-rail.
5. Lift the CB to release it from the connecting fork. See Figure 13.
—r r^i
n l \ r f =>l I nl u
al CB fixing □ r — i
i iff screw
1 n liJi=f=M i iff
X/2~
Figure 13. Releasing a distribution circuit-breaker.
6. Remove the CB according to Figure 14.
Figure 14. Removing a distribution circuit-breaker.
1553-BZA 108 35 Uen Rev 2007-01-19
23(27)
DIRECTIONS FOR USE - BZA 108 35
7. Mount a new CB in the reverse order.
8. Lock the new CB to the DIN-rail and switch It off.
9. Connect the distribution cabte to the CB.
10. Mount the front to the distribution unit and fix it with the captive screws.
9.4 Exchange of contactor Note: The system has no backup during this work.
Figure 15. Exchange of contactor.
1. Take off metallic bracelets, rings or similar that may cause short circuits in the equipment. Use insulated tools. Insulate the metal parts close to the contactor with plastic and tape.
2. Open the connector for the signalling cables connected to the contactor.
3. Remove the plastic cover and two rectifiers placed below the contactor.
4. Use an insulated 13 mm U-socket key to loosen the four fixing nuts of the contactor.
5. Hold the contactor and remove the four fixing nuts.
6. Pull the contactor straight down and remove it through the space in the rectifier subrack.
7. Insert the new contactor and fix it with four nuts.
8. Connect the signalling cables to the contactor. If the voltage is OK it should pull up.
9. Fit the plastic cover and two rectifiers below the contactor.
1553-BZA 108 35 Uen Rev 2007-01-19 24(27)
DIRECTIONS FOR USE - BZA 108 35
9.5 Exchange of SCU/ACU Note: An LVD contactor is in it's OFF- position will reconnect when the
SCU/ACU is removed from a live system.
1. Unlock the contra! unit by pressing the handle so it pops out and pull out the control unit from the subrack. See Error! Reference source not found..
2. Insert the new control unit into the subrack, push it in completely and lock it by pushing the handle into its socket.
9.6 Exchange of connector board
Connectors
Fixing screw
Figure 16. Connector board.
1. Remove the fixing screw, and then pull out the connector board from the subrack to access the cable connectors. See Error! Reference source not found..
Note: Be careful not to damage the surface mounted components at the back of the board when pulling it out.
2. Disconnect, insulate and mark the signalling cables connected to the terminals of the connector board.
3. Exchange the connector board for a new one.
4. Connect the signalling cables to the terminals of the new board.
Note: An LVD contactor is in it's OFF- position will reconnect when the connector board is reconnected to a live system.
5. Insert the connector board into the subrack, push it in completely and fix it with a screw.
1553-BZA 108 35 Uen Rev 2007-01-19
25(27)
DIRECTIONS FOR USE - BZA 108 35
9.7 Exchange of SCU/ACU supply fuses There are two fuses at the back-plane board of the SCU/ACU. See Figure 17.
If the display of the SCU/ACU is "dead", the upper fuse (2 A) might have blown. The lower fuse (4 A) protects the supplies of the contactor coils.
2 A for SCU/ACU
4 A for contactors
Figure 17. Fuses for internal supplies.
1553-BZA 108 35 Uen Rev 2007-01-19 26(27)
DIRECTIONS FOR USE - BZA 108 35
10 Abbreviations used in this document AC Alternating Current ACD AC Distribution ACU Advanced Supervision Unit BC Battery Charge BT Battery Test CAN Controller Area Network CB Circuit Breaker CENELEC European Committee for Electrotechnical Standardization DC Direct Current Dl Digital Input DSP Digital Signal Processor DU Distribution Unit EEM Emerson EnergyMaster™
ENERGYMASTER Is a registered trademark of Emerson Network Power Energy Systems AB
EN European Norm ESD Electrostatic Discharge HVSD High Voltage Switch Down ICU Interconnection Unit LAN Local Area Network LCD Liquid Crystal Display LED Light Emitting Diode LVD Low Voltage Disconnect MFU Multi Function Unit PE Protective Earth PFC Power Factor Controller R Rectifier SCU Standard Supervision Unit SELV Safety Extra Low Voltage SM Supervision Module
1553-BZA 108 35 Uen Rev 2007-01-19 27(27)
-4SVDC, 1700W
)( T'O'A'i '! Nil
KMtuses and benefits ■ Optimized depth reduced footprint
allows installation in short-depth racksand cabinets.
■ DSP (Digital Signaling Processor) means fewer components, optimized operation and active load haring for increased reliability.
■ Compliant with global standards delivers quality, performance and reliability no matter what the application or location demands.
■ High efficiency, up to 91% reduces power consumption for lower operating costs.
■ Hot pluggable facilitates future extensions.
■ Wide input voltage range operates in the most demanding environments where input voltage changes.
■ Wide temperature operating range (-40*C to +80°C) - meets the harshest climatic environment requirements.
■ AC input current limitation is possible on the rectifier. This function enables the user to employ 10 A AC breakers, or smaller. If desired.
The R48-1800 rectifier converts standard AC supply voltages into
stable nominal-48 V DC voltage adjustable to the needs of the
application. The R48-1800 is a constant power rectifier designed
with the latest patented switch-mode technology using DSP (Digital
Signal Processor) functionality for efficient ope ration. Fora higher
load capacity, rectifiers can be connected in parallel and intelligent
control can be added with the help of a separate controller.
EMERSON
-48VDC, 1700W
IX l-'nwt'i I or h)iisinpss-( ntif.il C ontinifity
Technics S o * : 1 K . C a t
Input voltage, nominal Input voltage, permitted variation Line frequency Maxinputcurrent Power factor THD, Total harmonic distortion
Output voltage, adjustment range Output power Output power, derated forlnput voltage Output current Output current limit set point Efficiency Psophometric noise (system)
Temperature derating
Rectifier alarm and signaling
V is u a Indications
Temperature range, operating Temperature range, storage Relative humidity Altitude EMC Safety
200to250VAC*20% 85to300VAC*10% 45 to 65 Hz 12A 0.99 <5% from 50 to 1 DOS of rated load
-42to58VDC 1700W@VoLit>48VOC See diagram 35.4A 0 to 35.4 A 91% <1 mVat5to100% of rated foad <32dBrncati)to 100% of rated load See diagram
Alarm and status reported via CAN bus to system Controller Green LED -Normal operation; Yellow LED = Alarm; Red LED = Faifgre; Flashing red LED -Fan failure
-40°Cto *70*C. see derating curve -40'Cto+85-C 0to95£ 2000 m. 6560 ft at full power EN 300 386:2001 class B IEC 60950, EN 60950, UL60950
Emerson Network Power Energy Systems AB SE-141 82 Stockholm, Sweden Phone:+468721 6000 Fax:+468721 71 77
Emerson Network Power Energy Systems, North America 1122 "F" Street, Lorain,OH44052 Phone:440-246-6999 Fax:440-246-4876 w ww.em ersonnetwork power, com/ en ergysys terns/
Emerson Network Power Co Ltd., China No. 1 Kefa Rd., Science & Industry Park Nanshan District 518057, Shenzhen, China Phone:86-755-860108 08 w ww.em erson n etwork powe r. com .en
Dimensions (HxWxD) Weight
86x84.5x272 mm 2.4 kg
Controller units See separate ACU and SCU datasheets
Rectifier R48-1800 Product name
For global contact, visit: www.emersonenergy.com
EN/LZT145 280RA ® Emerson Network Power Energy Systems 200fi
120 100
. BO 60 40 20
Output power vs. Temperature at Uin>176 VAC
45 55 65 75 i ; . i
--- -; * 1
\ -40
120
100
- 30 a. a 60
4 40
I 20
-20 20 40 Temperature (C)
SO 100
Output power vs. input voltage atTamb<4!j°C
S5 176 290
; i i
■ K j ■
/ i / '
1 1 _j
/ ' ! ! i !
^ ^ ! | 4——i 50 100 150 200
Input voltage (VAC) 250 300 350
Emerson Network Power. The global leader in enabling Business-Critical Continuity™.
H AC Power H Connectivity HI DC Power HI Embedded Computing H Embedded Power HI Monitoring ■ Outside Plant H Power Protection SH Precision Cooling & Controls H Racks & Integrated Solutions I I Services H Surge Protection
Emerson NetworkPower.com
Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. ©200 6 Erne rson Electric: Co.
EMERSON. Network Power DIRECTIONS FOR USE
SCU for ACTURA® 48701 and 48201 POWER SUPPLY SYSTEMS
' ■ !
^f&iS&l I '*jSvS
< ' d H iiP^522 ^-MsBaEst
IVNW!1.-. wiffeff^iffiffl "^ "^ "B l in tWnTI ' r i 'i
■ JlBi ■ ■ ^ ^ H P | ^ t
■^HT^LjyiagMtifllWHfl
I
' Emerson Network Power Energy Systems AB 2005 - All rights reserved
5/1553-BMP 903 051 Uen Rev A 2005-07-05
1(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
The contents of this document are subject to revision without notice due to continued progress In methodology, design, and manufacturing.
Emerson Network Power Energy Systems AB SE-141 82 Stockholm
Sweden
Tel. +46 8 721 6000 ■ Fax. +46 8 721 7177 www.emersonenergy.com
5/1553-BMP 903 051 Uen Rev A 2005-07-05
2(19)
DIRECTIONS FOR USE-SCU for ACTURA® 48701 and 48201
Contents 1 General 4
1.1 Communication 4
2 Software functions 7
2.1 Control functions 7
2.2 Supervision functions 10
2.3 Alarm management 11
2.4 Site status 11
3 Handling the SCU 12
3.1 Operation panel 12
3.2 Menu tree structure 14
4 Abbreviations used in this document 19
5/1553-BMP903 051 Uen Rev A 2005-07-05 3(19)
DIRECTIONS FOR USE - SCU for ACTURA© 48701 and 48201
1 General SCU is a standard control unit used in power supply system ACTURA® 48701 and 48201. It communicates with the other units of the power supply system and manages alarm handling, data processing, voltage control, etc.
1.1 Communication
Figure 1. SCU with connection board.
1.1.1 Internal The control- and the rectifier-units are equipped with LEDs that provide relevant information regarding system- and unit-status, and guide the service technician to the right unit in case of trouble.
The display is graphical. It provides extensive information regarding system status and allows system parameters and setting to be checked and adjusted.
The alarm events are classified into different alarm categories. Different alarm categories have different visual/audible alarm and alarm-call back activities.
5/1553-BMP 903 051 Uen Rev A 2005-07-05 4(19)
DIRECTIONS FOR U S E - S C U f o r ACTURA® 48701 and4&201
Alarm Category Red LED Yellow LED
Alarm Buzzer
Alarm Call-back
Remark
Critical Alarm ON ON Yes Call-back function enabled
Major Alarm ON ON Yes Call-back function enabled
Observation Alarm
ON OFF No
No Alarm OFF OFF OFF No
Table 1. SCU alarm categories.
The audible alarm is silenced if the user presses any key on SCU, if the fault that triggers the alarm is cleared or after 10 min (settable). The audible alarm can be disabled from a menu in the LCD display.
The alarm LED stops emitting light if all the faults that trigger the alarm are cleared.
1.1.2 Input/output terminals Eight configurable digital inputs are provided on the connector board placed above the SCU. The connections to the connector board are described in the INSTALLATION INSTRUCTIONS for the respective system.
Eight potential free relay outputs are provided on the connector board. There are both closing and opening contacts on each output.
Three of the relays are default configured and mapped to alarms of the following alarm severity:
Relay 1 Opened: normal operation Closed: critical alarm (Critical) indicating that the power system's continued operation may be at risk and that the supply of the priority loads is, or might soon be affected. Immediate action is required.
Relay 2 Opened: normal operation Closed: alarm (Major) indicating a failure that requires action when convenient from the point of view of workload.
-j Relay 3 Opened: normal operation Closed: alarm (Observation), signalling that the power system does not perform to its maximum but that the loads are not affected. No action is required.
Each relay is individually configurable, using the graphical display. Any alarm signal available in the system can be connected to a relay output.
5/1553-BMP 903 051 Uen Rev A 2005-07-05
5(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
1.1.3 Remote communication
PSMS
DC Power !HI£ HHE ^J™
SCU
WS^M ^^M i ^ n ^ ^ 1 m urn
Figure 2. Remote communication.
The system supports the EEM protocol. This protocol supports active alarm management, that is to say that the system reports alarms automatically on occurrence.
For communication with the EEM system an RS232 terminal is provided at the connector board front for direct connection or via a PSTN modem. See Figure 1.
5/1553-BMP903 051 Uen Rev A 2005-07-05 6(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
2 Software functions
2.1 Control functions
2.1.1 System voltage The set voltage of the rectifiers is configurable from the SCU.
In case temperature compensated battery charge is activated the voltage will be adjusted in accordance with the battery temperature.
2.1.2 Temperature compensated battery voltage To compensate for some of the negative effects on batteries caused by high ambient temperatures, this function can be used. However, it requires connection of a temperature sensor.
The function adds a correction term related to the temperature of the batteries to the nominal value of the system voltage. The degree of regulation can be set.
The maximum influence, • U of the function, is ±2 V from the nominal system voltage.
The temperature compensation is disabled if there is a rectifier communication failure, DC over/undervoltage or a low voltage disconnection.
U(V) (
" * ^ \ \ 1 ' Temp camp coeff
(mWC/string)
I I ^ ^ A Um„ ±2 V
■Jnom ^ _ A Um„ ±2 V
\ \ ' - ^ 1 ' .. 50 y ^ \
\ \
Urn, . .--. \
! „ Batt.
Tlmwr Tnom Tupo.r Temp CO
Figure 3. Temperature compensated voltage control.
• Unom: Nominal voltage (value at nominal temperature).
• Uhigt,: Upper voltage level where compensation ends, 56.0 V.
• U|OW: Lower voltage level where compensation ends, 47.2 V.
5/1553-BMP 903 051 Uen Rev A 2005-07-05 7(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
• Tnom: Nominal temperature +20 °C (no compensation is done at this temperature).
• Tupper: Upper temperature where compensation ends, +40°C.
• Ticker: Lower temperature where compensation ends, 0°C.
2.1.3 Battery boost charging Boost charging voltage is used to reduce the charging time after a mains failure and to equalise the charge level of the batteries. The charging function can be initiated cyclically, automatically or manually. The battery manufacturer's instructions for boost charging shall be observed.
Start of charging When the battery charge current exceeds a preset value for 3 minutes or if the calculated battery capacity has decreased to a preset value (after a mains failure, for example), the charging function of the SCU is activated. A charging signal is sent from the SCU to the rectifiers to increase the voltage up to the battery charging level U3.
Battery current limitation
After a mains failure or when some battery cells are permanently damaged, the current to the batteries can be quite extensive. To avoid overheating or further damages to the battery, the SCU will limit the battery current to a preset level by limiting the charging voltage of the rectifiers. Should the battery current still exceed a higher preset value an alarm will be issued.
Stop of charging When the charging current drops below a preset value a defined prolonged charging time is started before the charging is stopped and the voltage of the rectifiers returns to the float charging level (U-i). For security there is a boost charging limit time that stops the charging after a preset time.
Voltage/Current
U2 '
Stop of boost charqjna
Boost limit time
I . h I?
"Time
Start of fixed time duration
Mains failure
Us= Charging voltage Ui= Battery float voltage U= Charging current alarm li= Fixed charging current h = Start of fixed boost charging duration li = Aut. boost start current
Figure 4. Voltage course on mains failure and automatic boost charging.
5/1553-BMP 903 051 Uen Rev A 2005-07-05
8(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
2.1.4 Very high battery temperature handling If the battery temperature exceeds the very high battery temperature alarm level, the system voltage will be reduced to the defined voltage for this function.
2.1.5 Battery test The battery test has three modes, short time test (requires two battery shunts), time test and stable current test.
Battery tests can be started either manually or automatically at scheduled times for regular test of battery status.
For manual battery tests as well as for cyclic battery tests the following parameters must be set: End voltage, Test time and Battery capacity discharge limit.
Unorn
Uend
Utvolt)
Test start Unorn
Uend
\ - - . x /Test OK!
\ . ^Tr - t MnT HK hnri h.irrrni
Unorn
Uend
Unorn
Uend
Test time
Time (Houts)
Figure 5. Battery test diagram.
The battery tests follow the procedure described below:
• In time test mode, the output voltage of the rectifiers is reduced so that only the batteries power the load. If the batteries fail, the rectifiers will power the load.
• In stable current test mode, the output voltage of the rectifiers is reduced so that the batteries give the preset test current to the load.
• This test will continue until one of the following three situations occurs:
• The preset test time, see Figure 5, expires. The battery has passed the test.
• The battery voltage drops below the preset end voltage level (U8nd) (Figure 5). The battery has not passed the test and the test is interrupted.
• The battery capacity drops below the preset Test end battery capacity. The battery has not passed the test and the test is interrupted.
• An alarm is issued in the system.
5/1553-BMP 903 051 Uen Rev A 2005-07-05
9(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
• After the test, the output voltage of the rectifiers will increase again so that the rectifiers feed the plant and charge the batteries.
2.1.6 Backup control To prevent serious damage to the batteries during a long mains failure the loads can be disconnected by voltage-, or time-control, if LVD contactors are included. The software supports load disconnection in to two steps. Load disconnection can be activated at AC mains failure only.
Load reconnection is made automatically on the return of AC mains.
2.1.6.1 Voltage controlled disconnection
When the set voltage level is reached the backup batteries are disconnected from the selected loads.
2.1.6.2 Time controlled disconnection
When the set time has elapsed the backup batteries are disconnected from the selected loads.
2.2 Supervision functions
2.2.1 Fuse (circuit breaker) alarms If a distribution or battery fuse (circuit breaker) that has a load connected has released due to overcurrent or short-circuit or has been removed/manually released, alarms are initiated.
2.2.2 Voltage alarms One overvoJtage and two undervoltage levels are supervised.
2.2.3 Battery temperature supervision The battery temperature can be supervised by the means of a temperature sensor mounted on one battery cell.
Alarms are provided in two steps in case of high temperature.
There Is also an alarm at low battery temperature.
2.2.4 Ambient temperature supervision
Alarms are provided in case of high or low ambient temperature.
2.2.5 Mains supervision In case of mains failure from all rectifiers, the SCU detects it as a general mains failure.
2.2.6 Rectifier supervision In case of mains or rectifier failure, alarms are sent to the SCU.
5/1553-BMP 903 051 Uen Rev A 2005-07-05 10(19)
DIRECTIONS FOR USE - SOU for ACTURA® 48701 and 48201
2.3 Alarm managementAlarm severity The severity of all predefined alarms can be set.
2.3.2 Incoming alarms The digital alarm inputs can be configured regarding name, severity and polarity.
2.3.3 Outgoing alarms The output alarm terminals can be configured by selecting the alarms with combinations in between them.
2.3.4 PLC alarms Note: Can be configured with the optional software "Power kit" only.
By using the boolan expressions "AND" and "OR" alarms can be configured to influent an outgoing alarm relay.
2.3.5 Security All settings of the SCU can be password protected. There are three different levels of passwords that can be set and enabled/disabled via the LCD display.
Password Level
Authority User Default Password
User Set the parameters, control and operate the DC Power System
For common user
1
Engineer All the common user's authorities, reset the system parameters, re-set the password and change the system type.
Engineer 2
Administrator All the engineer's authorities, change the password, control the audible alarm volume, and browse the system parameters set through MC.
Administrator 640275
2.4 Site status The software presents detailed information on measured data, alarms, alarm history, equipment data and site inventory.
5/1553-BMP 903 051 Uen Rev A 2005-07-05
11{19)
DIRECTIONS FOR U S E - SCU for ACTURA® 48701 and 48201
Handling the SCU Only a person who is adequately trained and Is authorized may change the values set in the SCU. The value settings can be made by using the keys and the display of the SCU.
3.1 Operation panel The SCU has an LCD screen with backlight, function keys and indicator LEDs. For fixing the unit to the cabinet slot there is a handle with a locking latch.
Li
^ ^ ^
—357 _
^ &y
E3C A W &■ ECT
M=c:-.1C
Opera t i on ind ica tor
Pro tec t ion ind ica tor
Alarm ind icator
L C D
F untion keys
Hand le with latch
Figure 6. SCU front panel.
LEDs
LED Normal Status
Abnormal Status Cause
Operation Indicator (Green) ON OFF No Power Supply
Protection Indicator (Yellow) OFF ON DC Power has an ob
servation alarm
Alarm Indicator (Red) OFF ON DC Power has a major
alarm or critical alarm.
Table 2.
5/1553-BMP903 051 Uen Rev A 2005-07-05 12(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
3.1.2 Function keys
The keys are used to move through the display menus.
Key Name of Key Functions
ESC Return Key
Press this key to back to last menu.
Press ESC and ENT together to reset SCU
ENT Enter key
Press this key to go to next menu or validate the change made to a parameter setting.
Press ESC and ENT together to reset SCU
M. Up Press •*■ or ▼ t o scroll through the menus or change the value of a parameter.
These four arrow keys can be used to change the value of a parameter: Press 4 or ►to move the cursor to the parameter to be changed and press -^ or ▼ t o change the value of a parameter.
▼ Down
Press •*■ or ▼ t o scroll through the menus or change the value of a parameter.
These four arrow keys can be used to change the value of a parameter: Press 4 or ►to move the cursor to the parameter to be changed and press -^ or ▼ t o change the value of a parameter.
4 Left Press 4 or ►to move the cursor in the screen. In Initial Screen, press 4 or ►to adjust the contrast of LCD.
These four arrow keys can be used to change the value of a parameter: Press 4 or ►to move the cursor to the parameter to be changed and press -^ or ▼ t o change the value of a parameter. ► Right
Press 4 or ►to move the cursor in the screen. In Initial Screen, press 4 or ►to adjust the contrast of LCD.
These four arrow keys can be used to change the value of a parameter: Press 4 or ►to move the cursor to the parameter to be changed and press -^ or ▼ t o change the value of a parameter.
5/1553-BMP 903 051 Uen Rev A 2005-07-05
13(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
3.2 Menu tree structure
3.2.1 SCU initialising screen After the SCU starts up, its LCD displays the following screen requiring the user to select language:
After the user selects the language, the LCD displays "Waiting" requiring the user to wait while SCU is initialising.
When ready, SCU displays Initial Screen with System Information:
2005-02-20 ▲
53.5 V 50 A No Alarm
Auto Float ▼
j^im ^
Press for SCU info
Press for scrolling
ENT
J
More info after scrolling:
Press for entering the main menu
Batt1:0A Remain: 100% Batl2: None
A
RectACVolt:
Used capacity: Naxt Cyc Boost
Max Volt Mln Volt
235 V 225 V
% h
Cyc BC after: h Bat. Temp: 'C ▼
aasiE ENT
Figure 7. Initial screen.
The system information is displayed in several screens that are reached by scrolling by the ▼ key.
If no key of the SCU has been pressed for 8 minutes, the LCD will automatically display the initial screen with the system information and turn off its LCD
5/1553-BMP903 051 Uen Rev A 2005-07-05 14(19)
DIRECTIONS FOR USE - SOU for ACTURA® 48701 and 48201
backlight to protect the LCD screen. Pressing any key will turn on the LCD backlight.
3.2.2 Main menu screen In any System Information Screen, press "ENT" key to enter Main Menu Screen.
Main Menu Screen has 3 sub-menus that are "Status", "Maintenance" and "Settings" respectively.
2005-02-20 ▲
53.5 V 50 A No Alarm
Auto Float ▼ Requires password
Press for SCU info
Press for scrolling
MAIN MENU
^ Status Maintenance
Settings —
Escl ENT
MAINTENANCE ▲ • Start: FC/BCfTEST Bstt: RaConnsct/DlsConnect Load: ReConnact/DlsConnect Rect Trim: V Rect Limit: Rect No.: Rect ID
%
ESC 4 LE ENT
Requires password
STATUS
^ Rectifiers Active Alarm
Alarm History
ESC 4
:f Up one menu
Press for selecting/ scrolling
SETTINGS
. Alarm Settings Batt Settings AC Settings DC Settings Rect Settings Sys Settings
ESC 4 ENT
ENT
-™r Press for entering the selected menu
Figure 8. Main menu tree.
To reach the "Maintenance" or "Settings" menu a password is required.
Note: If the text "Need Manual Mode" is indicated when entering the password, the system must be set to Mode: Manual in the menu Set-tings/Batt. Settings/Batt. Selection.
5/1553-BMP 903 051 Uen Rev A 2005-07-05
15(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
3.2.3 Status menu In this menu information on the rectifier status, active alarms and alarm history can be selected.
The SCU can display 50 active alarm information screens and up to 200 history alarms. The oldest history alarm will be deleted automatically if the total number of history alarms exceeds 200.
3.2.4 Maintenance menu Note: The system control function is only enabled when the battery man
agement function is set to manual control mode.
After entering any level of password the user can control the battery charge/test and load disconnect functions manually. Each individual rectifier can also be controlled regarding its voltage/current and start/stop.
Mote; Se careful when using the low voltage disconnect function that may interrupt the operation of load!
5/1553-BMP 903 051 Uen Rev A 2005-07-05 16(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
3.2.5 Settings menu
S E T T I N G S
. Alarm Settings Batt Settings AC Settings DC Settings Rect Settings ■ Sys Settings -
ESC HI ENT 'rassjpr scroll! 09 . 5
A L A R M SETTINGS
■►Alarm Severn Alarm Mods Alarm Control
Alarm Name: Level: Output Relay:
BATT SETTINGS Batt Selection LVD Setting -Charge Battery Test -Temp. Comp -
Press for entering tha selected menu
i LVD ENABLED
■+LVD1:(Y/N) LVD 2: (Y/N) Mode: {Voltage/Time LVD VOLTAGE LVD1: V LVD 2: V LVD TIME LVD 1: mln LVD 2 : mln
DIGITAL MODE Digital No:
^Ac t i va t ion : High/Low Name Digital: Name Alarm Level
A L A R M C O N T R O L
■» Audible: Clear History: Block Alarm:
k Over Volt: V Low Volt: V Under Volt: V
AC Input: (1-PH/3-PH/None)
DC V O L T A L A R M ■* Over: V
Low: V Under: V AMB. TEMP ALARM High: X Low: °C Shunt Enable: N/Y
+ ■•♦Bat. Mode: (Man/Auto)
Capacity: Ah Type: {1-1U Batt Name: Bat. Strings: Batt Shunt 1 (Y/None Batt Shunt 2 (Y/Hone
i RECT DEFAULT
HVSD: V ^ T l m e :
Float: V Walk-In Enable: Walk-In Time: s Fan Spaed: (Maximal/Adaptive HVSD Time: s Interval: s AC OverVolt:
■ Float: 54.5 V Boost: 56.4 V Limit: 0.100 C10 Over: 0.300 C10 START BOOST Automatic: (Y/N) Cyclic: (Y/N) AUTOMATIC BOOS Cum (0.080 C10) Capacity: 80%)
STOP BOOST Curr: 0.010 C10 Duration: mln CYCLIC BOOST Interval: h Duration: min BOOST LIMIT Time: mln
STOP BATT. TEST
■# Volt: V Time: mln Cap: 0.700 C10 Planned Test Enabled: (Y/N) Planned Test 1: MM-DD-HH:MM Planned Test 2: MM-DD-HH:MM SHORT TEST Enable: (Y/N) Alarm Current: A Cycle: h Duration: min STABLE TEST: Enable: (Y/N) Current: A
> Adress: Text: (English) Com: Baud Rate: Call back: Set Date; YYYY-MM-DD Set Time: HH:MM:SS
■■•Temp. 1: (Battery/Am blent/None) Temp. 2: (Battery/Am bient/Non e) Center Temp: °C Temp Comp Coeff: mW'C/str BATT. TEMP ALARM Bat. Over: °C Bat High: °C Bat. Low: °C
Figure 9. Settings menu.
For configuring the SCU, see the document TABLE OF SET VALUES 3/1532-BMP903 051 Uen.
5/1553-BMP 903 051 Uen Rev A 2005-07-05
17(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
Alarm settings
From these menus it Is possible to configure alarm type and level for the output alarm relays and to activate the digital signal inputs. Furthermore the audible alarm can be blocked and the alarm history can be cleared.
Battery settings
From these menus all the battery management configurations are set.
When setting the battery capacity it must be observed that the SCU regards an individual battery as the battery string(s) connected to one measuring shunt. As there normally is only one shunt in the system, it means that the value of the total battery capacity in the system should be used when configuring the battery settings.
Note: The function "Short test" should be set to N (no), as it cannot be implemented in systems with a single battery shunt.
3.2.5.3 AC settings
From these menus the AC voltage alarm levels are set.
Note: This function is not supported.
3.2.5.4 DC settings
From these menus the DC voltage and ambient temperature alarm levels are set.
3.2.5.5 Rectifier default settings
Individual rectifier output voltage and current limitation can be set from these menus. The individual values are used if the communication with the SCU fails. The walk-in (soft start), the fan speed and the high voltage shut down functions can also be configured from these menus.
3.2.5.6 System settings
System parameters like language, date, time, modem communication speed, password and system type are set in these menus.
3.2.5.1
3.2.5.2
5/1553-BMP 903 051 Uen Rev A 2005-07-05 18(19)
DIRECTIONS FOR USE - SCU for ACTURA® 48701 and 48201
4 Abbreviations used in this document AC Alternating Current DC Direct Current EEM Emerson EnergyMaster™
ENERGYMASTER is a registered trademark of Emerson Network Power Energy Systems AB
EMAS EnergyMaster™ Management Application Software, Unix based software for monitoring of Emerson Network Power power equipment
EXMG EnergyMaster™ exchangeManager, Windows based software for monitoring of Emerson Network Power power equipment
GSM Global System for Mobile communication LC Local Computer LCD Liquid Crystal Display LED Light Emitting Diode LVD Low Voltage Disconnect PSMS Power Supply and environment Monitoring System PSTN Public Switched Telephony Network PSU Power Supply Unit (AC/DC converter, rectifier) SCU Standard Control Unit
5/1553-BMP 903 051 Uen Rev A 2005-07-05 19(19)
E M E R S O N Network Power TABLE OF SET VALUES
Systems with SCU type BMP 903 051 Contents 1 Tables of set values 2
2 Settings 2
2.1 Alarm Settings 2
2.2 Battery settings 5
2.3 AC settings 9
2.4 DC settings 9
2.5 Rectifier settings 10
2.6 System settings 11
The contents of this document are subject to revision without notice due to continued progress in methodology, design, and manufacturing.
i Emerson Network Power Energy Systems AB 2006 -Al l rights reserved
Emerson Network Power Energy Systems AB SE-141 82 Stockholm
Sweden
Tel. +46 8 721 6000 Fax. +46 8 721 7177 www.emersonenergy.com
3/1532-BMP 903 051 Uen Rev B 2006-05-31
1(11)
TABLE OF SET VALUES - BMP 903 051
1 Tables of set values These tables are based on software revision 1.20, forACTURA<EU8 201 and ACTURA® 48 701,-48 V.
All settings and choices affect the functions of the power supply system. The values shall therefore not be changed without a consequence analysis.
If a default value is adjusted, the new value shall be entered in the column "Plant-specific settings". The default settings listed are the factory default settings.
2 Settings
2.1 Alarm Settings
2.1.1 Alarm Severity
Alarm Name Level (Critical/Major/
Observation/No Alarm)
Output Relay (Not Connected, 1 to 8)
Remark Sign. date
Alarm Name
Default setting
Plant-specific setting
Default setting
Plant-specific setting
Remark Sign. date
Load Fuse Alarm Critical 1
LVD1 Critical 1
LVD 2 Critical 1
Batt Curr High Observation
3
Batt Fuse Alarm Major 2
Non-Float Status Observation
3
Batt Discharge Observation
3
Curr Discrepancy No Alarm NC
Short Test Fail Observation
3
Batt Test Fail Observation
3
3/1532-BMP 903 051 Uen Rev B 2006-05-31
2(11)
TABLE OF SET VALUES - BMP 903 051
Alarm Name Level (Critical/Major/
Observation/No Alarm)
Output Relay (Not Connected, 1 to 8)
Remark Sign. date
Alarm Name
Default setting
Plant-specific setting
Default setting
Plant-specific setting
Remark Sign. date
Volt Discrepancy No Alarm NC
DC Volt Low#2 Critical 1
DC Volt Low#1 Major 2
DC Volt High#1 Critical 1
DC Volt High#2 Critical 1
Mains Failure Major 2
AC Voltage Low#2 No Alarm NC
AC Voltage Low#1 No Alarm NC
AC Voltage High No Alarm NC
Alarms Blocked Observation
NC
Maintain Alarm Observation
3
Self-detect Err No Alarm NC
Manual Mode Observation
3
High Load Observation
3
Power Major No Alarm NC
Power Minor No Alarm NC
Rectifier Lost Major 2
Multi-Rect Alarm Critical 1
Load share Alarm No Alarm NC
Red Not Respond Major 2
Reel AC Fail Major 2
3/1532-BMP 903 051 Uen Rev B 2006-05-31
3<11)
TABLE OF SET VALUES - BMP 903 051
Alarm Name Level (Critical/Major/
Observation/No Alarm)
Output Relay (Not Conneded, 1 to 8)
Remark Sign. date
Alarm Name
Default setting
Plant-specific setting
Default setting
Plant-specific setting
Remark Sign. date
Red HVSD Observation
3
Red Failure Critical 2
Rect Protect No Alarm NC
Red Fan Fails Major 2
Red Derated Observation
3
Temp Alarm Major 2
Temp High Alarm Major 2
DM (Digital 1) No Alarm 1
DI2 (Digital 2) No Alarm NC
DI3 (Digital 3) No Alarm NC
DI4 (Digital 4) No Alarm NC
Dl5 (Digital 5) No Alarm NC
DI6 (Digital 6) No Alarm NC
LVD 1 Fault Critical 1
LVD 2 Fault Critical 1
3/1532-BMP 903 051 Uen Rev B 2006-05-31 4(11)
TABLE OF SET VALUES - BMP 903 051
2.1.2 Alarm (Digital) Mode Digital No Activation
(High or Low) Name Digital (Text without
spaces)
Name Alarm Level (No Alarm/Observ/
Major/Critical
Sign. date
1
2
3
4
5
6
7
8
2.1.3 Alarm control Selection Factory setting
(default) Settings range Remark Plant-
specific setting
Sign. date
Audible 10min On/Off/3 min/10 min/1 Hour/4 Hours
Buzzer setting
Clear History N(No) Y/N
Block Alarm N(No) Y/N Blocking of outgoing alarms
2.2 Battery settings 2.2.1 Batt selection Strings 1 0 t o 4 Number of installed
battery strings
Capacity 1600 Ah 50 to 5000 Ah If only one battery shunt is included, the total battery capacity shall be
entered here
Select Type 1 1 to 11
3/1532-BMP 903 051 Uen Rev B 2006-05-31
5(11)
TABLE OF SET VALUES - BMP 903 051
Selection Factory setting (default)
Settings range Remark Plant-specific setting
Sign. date
Name Default B Powersaf/ EB4/TeliorV
Oerlikon/Battery 6 to 9/Battery 1
Bat. Strings 0 0 t o 4 Number of installed battery strings
Bat. Shunt 1 Y(Yes) Y/None
Bat. Shunt 2 None Y/None
Shunt Coeff 500 A, 75 mV 0 to 2000 A, 1 to 500 mV
The shunt coefficient can be set if no system is selected in the sys
tems settings menu
2.2.2 LVD setting LVD ENABLED
LVD1 Y (Yes) N/Y Non priority load contactor
LVD 2 Y (Yes) N/Y Priority load contactor
Mode Voltage Voltage/ Time
Valid for both contactors
LVD VOLTAGE
LVD1 42.0 V 40 to 60 V Must be > LVD 2
LVD 2 42.0 V 40 to 60 V Must be < LVD 1
LVD TIME
LVD1 1&0min 3 lo 1000 min Must be < LVD 2 time
LVD 2 600 min 3 to 1000 min Must be > LVD 1 time
3/1532-BMP 903 051 Uen Rev B 2006-05-31 6(11)
TABLE OF SET VALUES - BMP 903 051
2.2.3 Charge Selection Factory setting
(default) Settings range Remark Plant-
specific setting
Sign. date
Float 54.5 V 42 to 58 V
Boost 56.4 V 42 to 58 V Must be higher than the float volt
age
Limit 0.100 c t o 0.100 to 0.250 C10 Boost charging limiting setpoint
Over 0.300 C10 0.300 to 1.000 C10 Alarm setting for boost charging over
current
START BOOST
Automatic N(NO) Y/N
Cyclic N(N0) Y/N
AUTOMATIC BOOST
Curr >0.060C10 0.050 to 0.080 C10 Start condition (1) for boost charging
Capacity <80.0% 10 to 95% Start condition (2) for boost charging
STOP BOOST
Curr <0.010C10 0.002 to 0.020 C10 When the boost charging current
has dropped to this level the charging
will stop
Duration >180min 30 to 1440 min Time controlled charging
CYC LIC, BOOST
Interval 4320 h 48 to 8760 h
Duration 300 min 30 to 2880 min
BOOST LIMIT
Time 2880 min 60 to 2880 min
3/1532-BMP 903 051 Uen Rev B 2006-05-31 7(11)
TABLE OF SET VALUES - BMP 903 051
2.2.4 Battery test Selection Factory setting
(default) Settings range Remark Plant-
specific setting
Sign. date
STOP BATT. TEST
Volt 46.4 V 43.1 to 57.9 V
Rectifier voltage at battery test
Time 300 min 5 to 600 min
Cap 0.700 C10 0to1.OC1O
TIME TEST
Enabled N(No) N/Y To enable automatic battery test
Planned Test 1 MM-DD HH:SS
Planned Test 2 MM-DD HHtSS
Planned Test 3 MM-DD HH:SS
Planned Test 4 MM-DD HH:SS
SHORT TEST (Note: requires two battery shunts in the system)
Enable N(No) N/Y To enable automatic battery short
test
Alarm Current 10A Max. current difference between
batteries
SHORT TEST
Cycle 720 h 24 to 8760 h
Duration 5 min 1 to 60 min
CONSTCURR TEST
Enable N (No) N/Y To enable battery test at a stable
current
Current 9999 A 0 to 9999 A To set a fixed test current
3/1532-BMP 903 051 Uen Rev B 2006-05-31 8(11)
TABLE OF SET VALUES - BMP 903 051
2.2.5 Temperature compensation Selection Factory setting
(default) Settings range Remark Plant-
specific setting
Sign. date
Config Temp 1 Battery Battery/ Ambient/
None
Requires a connected temp sensor
Config Temp 2 None Battery/ Ambient/
None
Requires a second connected temp
sensor
Center Temp 20°C 10to40°C The nominal temp
Temp Comp Coeff 96 mVfC/str 0 to 500 mV/0C/str
BATT. TEMP ALARM
Bat, Hi#2 55°C 25to100°C
Bat. Hi#1 40°C 10 to 50 °C
Bat, Low 0°C -40 to 10 °C
2.3 AC settings Over Volt 280 V 50 to 300 V
Low Volt 180 V 50 to 300 V
Under Volt 80 V 50 to 300 V
AC Input None None/ 1-phase/ 3-phase
2.4 DC settings DC VOLT ALARM
DC Hi#2 58.5 V 40 to 60 V
DC Hi#1 58.5 V 40 to 60 V
DCLo#1 48.5 V 40 to 60 V
DCLo#2 43.5 V 40 to 60 V
3/1532-BMP 903 051 Uen Rev B 2006-05-31
9(11)
TABLE OF SET VALUES - BMP 903 051
Selection Factory setting (default)
Settings range Remark Plant-specific setting
Sign. date
AMB. TEMP ALARM
High 40°C - 5 to 100"C
Low -5°C -40 to 10°C
Shunt Enable None Y/None
Coefficient 500 A, 75 mV 0 to 2000 A, 1 to 500 mV
2.5 Rectifier setti ngs RECT DEFAULT
HVSD 59.0 V 56 to 59 V High voltage limit
HVSD Time 300 sec 50 to 300 sec The blocking time after a high voltage
stop
Float 54.5 V 48 to 58 V
RECT WALK-IN
Enabled N(No) N/Y
Time 8 sec 8 to 128 sec
RECT START
Fan Adaptive Adaptive/ Maximal
In adaptive mode the fan speed will
depend on the input air tem-
peratue
Interv. Os 0 to 10 s.
AC OverVolt N (No) Y/N
3/1532-BMP 903 051 Uen Rev 8 2006-05-31 10(11)
TABLE OF SET VALUES - BMP 903 051
2.6 System settings Selection Factory setting
(default) Settings range Remark Plant-
specific setting
Sign. date
Adress 1 1 to 254 The SCU identification number
Text English English/ Spanish/
Portuguese/ German/ Italian/ French
Display language
Com RS232 EEM RS232EEM R/ MODEM SOC/
MODEM SOC R/ RS232 SOC/
RS232 SOC R/ MODEM S-T/
MODEM S-T R/ RS232 S-T/
RS232 S-T R/ RS232 YDN/
MODEM YDN/ MODEM EEM/
MODEM EEM R/ RS232 EEM
Baud Rate 9600 1200/2400/ 4800/9600
CALLBACK
Time 3 1 to 10 s.
CallBack Set:
Pho-ne 1 Call back 1 ph. number
Phone 2 Call back 2 ph. number
Phone 3 Call back 3 ph. number
Set Date YYYY-MM-DD
Set Time HH-MM-SS
hit PWD N(No) N/Y Reset the passwords
I nit Param. N(No) N/Y Do NOT change
System Type 48V/50/SET/ NONE
Do NOT change
3/1532-BMP 903 051 Uen Rev B 2006-05-31
11(11)
EMERSON Network Power DESCRIPTION - USER'S GUIDE
ACU for NetSure™ 201, 501, 701 and 801 Power Supply Systems
i Emerson Network Power Energy Systems AB 2007 -All rights reserved
5/1553-BMP 903 050 Uen Rev D 2007-07-05
1(37)
USER'S GUIDE - ACU for NetSure™ 201, 501 , 701 and 801
The contents of this document are subject to revision without notice due to continued progress in methodology, design, and manufacturing.
Emerson Network Power Energy Systems AB SE-141 82 Stockholm
Sweden
Tel. +46 8 721 6000 Fax. +46 8 721 7177 www.emersonenergy.com
5/1553-BMP 903 050 Uen Rev D 2007-07-05 2(37)
USER'S GUIDE-ACU for NetSure™ 201, 501, 701 and 801
Contents 1 General 1.1 Alarms 4 1.2 Input/output terminals 5 2 Software functions 7 2.1 Control functions 7 2.2 Supervision functions 11 2.3 Alarm management 12 2.4 Site status 13 3 Handling the ACU from the LCD screen 13 3.1 Operation panel 13 3.2 Menu tree structure 15 4 Handling the ACU through the Web interface 20 4.1 Web interface requirements 20 4.2 Connection to ACU web server 21 4.3 Login 26 4.4 Homepage introduction 27 4.5 Device explore 28 4.6 Alarms 29 4.7 Settings 30 4.8 Maintenance 32 4.9 Site map 36 5 Abbreviations used in this document 37
5/1553-BMP 903 050 Uen Rev D 2007-07-05
3{37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
1 General ACU is an advanced control unit used in DC power supply systems NetSure™ 201,501, 701 and 801. Itcommunicateswith the other units of the power supply system like rectifiers, LC and SM modules (SM IO, SM BAT and SM AC) and manages alarm handling, data processing, voltage control, etc.
The ACU can monitor the power system locally and from a remote management system.
1.1 Alarms The control- and the rectifier-units are equipped with LEDs that provide relevant information regarding system- and unit-status, and guide the service technician to the right unit in case of trouble.
The alarm events are classified into different alarm categories. Different alarm categories have different visual/audible alarms and alarm callback activities.
Alarm Category Red LED Yellow LED
Alarm Buzzer
Alarm Callback
Remark
Critical Alarm ON ON Yes Callback function enabled
Major Alarm ON ON Yes Callback function enabled
Observation Alarm
ON OFF No
No Alarm OFF OFF OFF No Table 1. ACU alarm categories.
The audible alarm is silenced if the user presses any key on ACU, if the fault that triggers the alarm is cleared or after 10 min (settable). The audible alarm can be disabled from a menu in the LCD display.
The alarm LED stops emitting light if all the faults that trigger the alarm are cleared.
5/1553-BMP 903 060 Uen Rev D 2007-07-05 4(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
1.2 Input/output terminals
RS 232 (console port)
n put/output terminals
RS 485 Port
RS 232 Port (for EEM)
Ethernet Port
Figure 1. ACU with connection board.
Eight configurable digital inputs are provided on the connector board placed above or beside the ACU. The connections to the connector board are described in the INSTALLATION INSTRUCTIONS for the respective system.
Eight potential free relay outputs are provided on the connector board. There are both closing and opening contacts on each output.
Note: When either the ACU or the connection board is disconnected from the back plane board the output terminals have no connection to the re/ays.
Three of the relays are default configured and mapped to alarms of the following alarm severity:
Relay 1 Opened: critical alarm (Critical) indicating that the power system's continued operation may be at risk and that the supply of the priority loads is, or might soon be affected. Immediate action is required. Closed: normal operation.
Relay 2 Opened: normal operation Closed: alarm (Major) indicating a failure that requires action when convenient from the point of view of workload.
Relay 3 Opened: normal operation Closed: alarm (Observation), signalling that the power system does not perform to its maximum but that the loads are not affected. No action is required.
5/1553-BMP 903 050 Uen Rev D 2007-07-05 5(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
1.2.1 Communication with SM modules The ACU acquires data from SM modules (SM IO, SM BAT and SM AC) through an RS485 port on the connection board. See Figure 1.
1.2.2 Web communication The Ethernet port of ACU is used for Web communication via LAN or Internet. It can also be used for direct connection to a PC.
1.2.3 Remote communication with management systems
Figure 2. Remote communication to the ACU.
The ACU supports the EEM, RSOC and SOC/TPE protocols. These protocols are used to communicate with a power management system.
For the communication, an RS232 port is provided at the connector board for direct connection or via a PSTN modem. This port has two DB9 contacts, one at the front of and one inside the unit. See Figure 1. Default setting of the port: 38400 bps, 8 data bits, 1 stop bit, no parity and no data flow control-As an alternative, the Ethernet port can be used for direct or LAN connection.
1.2.4 SNMP communication SNMP communication can be established via LAN.
1.2.5 Console port The RS232 console port is for factory use only.
6/1553-BMP 903 050 Uen Rev D 2007-07-05 6(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
2 Software functions
2.1 Control functions
2.1.1 System voltage The set voltage of the rectifiers is configurable from the ACU.
In case temperature compensated battery voltage control is activated, the voltage will be adjusted in accordance with the battery temperature.
2.1.2 Temperature compensated battery voltage
To compensate for some of the negative effects on batteries caused by high ambient temperatures, this function can be used. However, it requires connection of a temperature sensor.
The function adds a correction term related to the temperature of the batteries to the nominal value of the system voltage. The degree of regulation can be set.
The maximum influence, "delta" U of the function, is ±2 V from the nominal system voltage.
The temperature compensation is disabled if there is a rectifier communication failure, DC over/undervoltage or a low voltage disconnection.
U M j
U n ^ i ■
! j j
U n ^ i ■ h ^ . \ \ ! j ' Tempcomp coeff (mWC/string)
I \ * l i Unom
^ i ~ ~ 0 A U™, ±2 V
1 ! x \ " - J < ' _ _ so ; \ \ ! | \ \ \
\ i ■ ■ IOO
i 1 \ i ! ; \ ■
i
i \ i u.<» .
' i ' ■ • B a t t -
Temp (°C)
u.<» .
Tinu*r Tnnnn Tupptr
■ • B a t t -
Temp (°C)
Figure 3. Temperature compensated voltage control.
• Unom: Nominal voltage (value at nominal temperature).
• Uhigf,: Upper voltage level where compensation ends, 56.0 V.
• U|0W: Lower voltage level where compensation ends, 47.2 V.
• Tnom: Nominal temperature -t-20 CC (no compensation is done at this temperature).
5/1553-BMP 903 050 Uen Rsv D 2007-07-05
7(37)
USER'S G U I D E - A C U for NetSure™ 201, 501, 701 and 801
• Tupper: Upper temperature where compensation ends, +40X.
• Tiows,.: Lower temperature where compensation ends, 0°C.
2.1.3 Battery boost charging Boost charging voltage is used to reduce the charging time after a mains failure and to equalise the charge level of the batteries. The charging function can be initiated cyclically, automatically or manually. The battery manufacturer's instructions for boost charging shall be observed.
Start of charging When the battery charge current exceeds a preset value for 3 minutes or if the calculated battery capacity has decreased to a preset value (after a mains failure, for example), the charging function of the ACU is activated. A charging signal is sent from the ACU to the rectifiers to increase the voltage up to the battery charging level U2.
Battery current limitation
After a mains failure or when some battery cells are permanently damaged, the current to the batteries can be quite extensive. To avoid overheating or further damages to the battery, the ACU will limit the battery current to a preset level by limiting the charging voltage of the rectifiers. Should the battery current still exceed a higher preset value, an alarm will be issued.
Stop of charging When the charging current drops below a preset value, a defined prolonged charging time will start before the charging is stopped and the voltage of the rectifiers returns to the float charging level (Ui). For security, there is a boost charging limit time that stops the charging after a preset time.
Stop of boost Boost limit Tuwrge charging time
Fixed time duration
' ' ^~Time
Ui= Charging voltage — ' '■—— time duration Ui = Battery float voltage
Mains failure u= Charging current alarm h- Fixed charging current h = Start of fixed boost charging duration li = Aut. boost start current
Figure 4. Voltage course on mains failure and automatic boost charging.
VoUage/Current
""— Start nf fiv
5/1553-BMP 903 050 Uen Rev D 2007-07-05
8(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
2.1.4 Very high battery temperature handling
If the battery temperature exceeds the very high battery temperature alarm level, the system voltage will be reduced to the defined voltage for this function.
2.1.5 Battery test The battery test has four modes, short test (requires two battery shunts), AC fail test (at mains failure), planned time test and stable current test.
Battery tests can be started either manually or automatically at scheduled intervals for regular test of battery status.
For manual battery tests as well as for AC fail tests and cyclic battery tests, the following parameters must be set: End voltage, Test time and Battery capacity discharge limit.
Unom
Uend Utest
U(volt]
Test start
/Test OK!
\ " " , ■'
V^Test HOT OK -bad batteiy-— J Rect. Set voltage at test
Test time
Time (Hours]
Figure 5. Battery test diagram.
The battery tests follow the procedure described below:
• In time test mode, the output voltage of the rectifiers is reduced to the test voltage so that only the batteries power the load. If the batteries fail, the rectifiers will power the load.
• In stable current test mode, the output voltage of the rectifiers is reduced so that the batteries give the preset test current to the load.
• This test will continue until one of the following four situations occurs:
V The preset test time, see Figure 5, expires. The battery has passed the test.
V The battery voltage drops below the preset end voltage level (U6nci) (Figure 5). The battery has not passed the test and the test is interrupted. An alarm "Bad battery" is issued in the system.
V The battery capacity drops below the preset Test end battery capacity. The battery has not passed the test and the test is interrupted. An alarm "Bad battery" is issued in the system.
• After the test, the output voltage of the rectifiers will increase again so that the rectifiers feed the plant and charge the batteries.
5/1553-BMP 903 050 Uen Rev D 2007-07-05 . 9(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
• The ACU will record the battery test start/end time, battery test voltage and battery remaining capacity in the battery test log. 10 groups of battery test data can be recorded. The user can query the test log from the ACU through the Web interface or via EEM.
• If the "AC Fail Test" is enabled, the test log will also be issued at a mains failure. The set values for test time, end voltage and end capacity will be the same as for "Planned test". Should any of these values be exceeded during the mains failure the alarm "Bad battery" is issued in the system.
2.1.6 Backup control To prevent serious damage to the batteries during a long mains failure the loads can be disconnected by voltage-, or time-control, if LVD contactors are included. The software supports load disconnection in to two steps. Both LVD contactors can be set individually to voltage or time disconnect. Load disconnection can be activated at AC mains failure only.
Load reconnection is made automatically on the return of AC mains.
2.1.6.1 Voltage controlled disconnection
When the set voltage level is reached, the backup batteries are disconnected from the selected loads.
2.1.6.2 Time controlled disconnection
When the set time has elapsed, the backup batteries are disconnected from the selected loads.
2.1.7 Energy management Energy management is an advanced function, which can save money for customers. It includes:
2.1.7.1 Energy saving
• Reduces the mains energy consumption during high tariff periods,
• Can make the power consumption rate lower than a given limit.
2.1.7.2 Rectifier redundancy
• Switches ON/OFF the redundant rectifiers according to maximum and minimum redundancy percent.
• Rectifier cycling will regulate the total work time of each individual rectifier to the average work time of all rectifiers.
2.1.8 Power Split The power system with the ACU can act as a slave system to share load (split output) with an existing master system that needs extension. The ACU does not need to communicate with the master system control unit. See separate document.
5/1553-BMP 903 050 Uen Rev D 2007-07-05
10(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
2.1.9 Diesel management via SM-AC
The Diesel Management function includes manual and automatic diesel test and gives a record of diesel test result when SM-AC is connected. See documents for the SM-AC unit.
2.1.10 Management via SM-IO The ACU can control and supervise different objects like switches, fans, cooling equipment, fire and burglar alarms via the SM-IO unit. See documents for the SM-IO unit
2.2 Supervision funct ions
2.2.1 Fuse (circuit breaker) alarms If a distribution or battery fuse (circuit breaker) that has a load connected has blown (tripped) due to overcurrent or short-circuit or has been removed (manually tripped), alarm is initiated.
2.2.2 Voltage alarms
One overvoltage and two undervoltage levels are supervised.
2.2.3 Battery temperature supervision
The battery temperature can be supervised by means of a temperature sensor mounted on one battery cell.
Alarms are provided in two steps in case of high temperature.
There is also an alarm at low battery temperature.
2.2.4 Extended battery supervision via SM-BAT By implementing SM-BAT units, individual cell/block voltages, battery currents and temperatures can be supervised. See documents for the SM-BAT unit.
2.2.5 Ambient temperature supervision Alarms are provided in case of high or low ambient temperature.
2.2.6 Mains supervision
In case of mains failure from all rectifiers, the ACU interprets it as a general mains failure.
2.2.7 Extended mains supervision via SM-AC
Detailed supervision of AC supplies from mains and diesel generator can be implemented with SM-AC units. See documents for the SM-AC unit.
5/1553-BMP 903 050 Uen Rev D 2007-07-05
11(37)
USER'S G U I D E - A C U for NetSure™ 201, 501, 701 and 801
2.2.8 Rectifier supervision In case of mains or rectifier failure, alarms are sent to the ACU.
2.2.9 Periodic maintenance The ACU can be configured to give alarm at a preset interval to indicate the need for system maintenance.
2.3 A la rm management
2.3.1 Alarm severity The severity of all predefined alarms can be set.
2.3.2 Incoming alarms The digital alarm inputs can be configured as to name, severity and polarity.
2.3.3 Outgoing alarms The output alarm terminals can be configured by selecting the alarms with combinations in between them.
2.3.4 Security All settings of the ACU can be password protected. There are four different levels of passwords that can be entered via the LCD display and the Web interface.
New users with their individual authority level can be created by the administrator via the Web interface. The ACU has a default administratorwith user ID "admin" (not changeable) and the password " 1 " (changeable via the Web interface).
Privilege level
User group User authority
Level A Browser All users can browse power information without any writing permission.
Level B Common user
Set the parameters, control and operate the DC Power System
Level C Engineer Browsing, control, modifying parameter, downloading configuration file, but except updating application an OS and modifying, adding, deleting user information (user name, user level, password).
Level D Administrator Full access that include updating application an OS and modifying, adding, deleting user information (user name, user level, password)
5/1553-BMP 903 050 Uen Rev D 2007-07-05 12(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
2.4 Site status The software presents detailed information on measured data, alarms, alarm history, equipment data and site inventory.
3 Handling the ACU from the LCD screen The display is graphical. It provides extensive information regarding system status and allows system parameters and settings to be checked and adjusted,
Only a person who is adequately trained and is authorized may change the values set in the ACU. The value settings can be made by using the keys and the display of the ACU.
3.1 Operation panel The ACU has an LCD screen with backlight, function keys and indicator LEDs. For fixing the unit to the cabinet slot there is a handle with a locking latch.
rr ■MtlRSON,
Esr.
^ WEIMC
A II 7 III > li E ^ H— -i Funt ion keys
O p e r a t i o n ind ica to r
Pro tec t ion ind ica to r
Alarm ind ica to r
L C D
Hand le w i th latch
Figure 6. ACU front panel.
5/1553-BMP 903 050 Uen Rev D 2007-07-05
13(37)
USER'S G U I D E - A C U for NetSure™ 201, 501, 701 and 801
3.1.1 LEDs
LED Normal Status
Abnormal Status Cause
Operation Indicator (Green) ON OFF No Power Supply
Protection Indicator (Yellow) OFF ON DC Power has an ob
servation alarm
Alarm Indicator (Red) OFF ON DC Power has a major
alarm or critical alarm.
3.1.2 Function keys The keys are used to move through the display menus.
Key Name of Key Functions
ESC Return Key
Press this key to back to previous menu or cancel a setting of a parameter.
Press ESC and ENT together to reset ACU
ENT Enter key
Press this key to go to next menu, highlight editable area for parameter setting or validate the change made to a parameter setting.
Press ESC and ENT together to reset ACU
▲ Up Press ^ or ▼toscroll through the menus.
These four arrow keys can be used to change the value of a parameter: Press A or ▼ to move the cursor to the parameter to be changed and press 4 or ► to change the value of a
parameter.
w Down
Press ^ or ▼toscroll through the menus.
These four arrow keys can be used to change the value of a parameter: Press A or ▼ to move the cursor to the parameter to be changed and press 4 or ► to change the value of a
parameter.
4 Left Press 4 or ►to change the value of a parameter. In Initial Screen, press 4 or ►to adjust the contrast of LCD.
These four arrow keys can be used to change the value of a parameter: Press A or ▼ to move the cursor to the parameter to be changed and press 4 or ► to change the value of a
parameter. ► Right
Press 4 or ►to change the value of a parameter. In Initial Screen, press 4 or ►to adjust the contrast of LCD.
These four arrow keys can be used to change the value of a parameter: Press A or ▼ to move the cursor to the parameter to be changed and press 4 or ► to change the value of a
parameter.
Note: The keypad sound can be set on/off from the display menu Parameter Set/System Param/Keypad Sound.
5/1553-BMP 903 050 Uen Rev D 2007-07-05 14<37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
3.2 Menu tree structure 3.2.1 ACU initialising screen
After the ACU starts up its LCD display, the following screen will offer the user to select language. The user can select between English and a local language in the screen by pressing ■*■ and ▼ .
English Svenska
When pressing ENT the default main screen will appear.
Note: If no key has been pressed for 30 seconds, the default screen will appear automatically.
3.2.2 Default main screen
2005-08-20 A
53.5 V 23 A Auto No Alarm
Float Charge ▼
ESC | | 4 I | A || ▼ | | ► 11 ENT
The screen alters between date and time:
15:18:25 ▲
53.5 V 23 A Auto No Alarm
Float Charge T
l iJDGD L~±~ILx] I"F"HEWTI
Figure 7. Default main screen.
The information is dependent on the configuration information such as the equipment Type, signal ID and display location.
• Press ■*■ or-*- to scroll.
• Press -^and -* - and ESC together to log out (The password will be invalid).
• Press i or ► to change the contrast of the LCD.
5/1553-BMP 903 050 Uen Rev D 2007-07-05
15(37)
USER'S G U I D E - A C U for NetSure™ 201, 501, 701 and 801
• Press ENT and ESC together to reset the ACU.
• Press ENT to enter the main menu.
• Press ESC once to see the ACU serial number and software revision.
• Press first ESC and then ENT twice to see the configuration revision. (For example EMEA_2_R2A)
3.2.3 Main Menu screen
Main Menu A
^ Running Info Maintain Parameter Set
ESIIGL] fAirrimriN? Press for Press for scrolling entering the
selected menu
Figure 8. Main menu screen.
The system information is displayed in several screens that are reached by scrolling with the T key.
If no key of the ACU has been pressed for 8 minutes, the LCD will automatically display the initial screen with the system information and turn off its LCD backlight to protect the LCD screen. Pressing any key will turn on the LCD backlight.
In any System Information Screen, press "ENT" key to enter Main Menu Screen.
The Main Menu Screen has 3 sub-menus: "Running info", "Maintain" and "Parameter Set".
5/1553-BMP 903 050 Uen Rev D 2007-07-05 16(37)
USER'S G U I D E - A C U for NetSure™ 201 , 501, 701 and 801
2005-02-20
53.5 V 50 A
Auto No Alarm
Float Charge
ESC ENT
Press for SCU info
Press for scrolling
K Press for entering the selected menu
Main Menu
™» Running Info
Maintain
Parameter Set
ESC ENT
I
Requires password
Requires password
Running Info a t ACU System
Rect Group Rectifier Batt Group Battery 1 DC Active Alarm History Alarm Sits Inv
ESC
T Up one menu
Press for selecting/ scrolling
Press for entering the selected menu
Parameter Set ► ACU System
Ract Group Batt Group LVD1 LVD 2 Alarm Param System Param
ESC \\ 4 ENT
Select User
Enter Password *
ESC 11 < || A !!▼[!► || ENT |
Figure 9. Main menu tree.
To reach the "Maintain" or "Parameter Set" menu, a password is required.
3.2.4 Running Info menu In this menu, equipment status information, active alarms and alarm history can be selected.
The following information can be selected:
• Under sub-menu "ACU System": System Voltage/System Load/Total Run Time/Mtn Time Run/System Status/Internal Status/Config Type
5/1553-BMP 903 050 Uen Rev D 2007-07-05
17(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
• Under sub-menu "Rect Group": Rect Number/Comm Rect NumA/alid Rectifiers/Average Voltage/Total Current/Used Capacity/Max Used Cap/Min Used Cap
• Under sub-menu "Rectifier" the following information can be selected for each rectifier: Rect SN (serial number)/Rect Voltage/Rect Current/AC Status/DC Status/Rect AC Voltage/Current Limit/Derate by AC/Derate by Temp/Rect Temp/Used Capacity/Running Time/Walk-in
• Under sub-menu "Battery Group": Batt Current/Batt Temp/Exp Curr Lmt/Shallow Cyc Time/Deep Cyc Time/Deep Disch Time/Shal Cyc Times/DeepCyc Times/Deep Disch Times/Temp Comp Activ/Bat Curr Lmtd/Pre Disch Time/BM State
• Under sub-menu "DC: Voltage
• Under sub-menu "Active Alarm": 50 active alarm information screens can be displayed
• Under sub-menu "History Alarm": 400 history alarms can be displayed. The oldest history alarm will be deleted automatically if the total number of history alarms exceeds 400.
• Under sub-menu "Site Inv" the Site Inventory page displays information about the units connected to the ACU. The page is automatically updated when units are exchanged or when new units are connected to the system.
Note: In the site inventory the rectifiers are numbered (1,2,3..,.) according to their order of serial numbers. By moving a rectifier to another place in the subrack its position and order number can be made equal.
3.2.5 Maintenance menu After entering a password of level B, or higher (see item 2.3.4), the user can control the following functions manually:
Note: Some settings can only be reached after setting the ACU System to "Man state" (Parameter Set/ACU System/Auto-Man State).
• Under sub-menu "ACU System": Clr (Clear) run time
• Under sub-menu "Rect Group": Voltage Trim/Current Limit/DC OnOff Ctl/AC OnOff Ctl/Rect LCD Ctl/Fan Speed Ctl/AC Overvoltage
• Under sub-menu "Rectifier" the following control functions can be selected for each rectifier: Rect DC Ctl/Rect AC Ctl/Rect Reset/Reset Rect lost
• Under sub-menu "Battery Group": BC/FC Control/Reset Capac-ity(alarm)/Reset AbCur aim/Reset ImCur Aim/Start Batt Test/Stop Batt Test/Reset Bad Baft
• Under sub-menu "LVD 1": LVD Ctrl
• Under sub-menu "LVD 2": LVD Ctrl
Note: Be careful when using the low voltage disconnect control function (LVD Ctrl) that may disconnect the load!
5/1553-BMP 903 050 Uen Rev D 2007-07-05 18{37)
USER'S G U I D E - A C U for NetSure™ 201, 501, 701 and 801
3.2.6 Parameter Set menu After entering a password of level B, or higher (see item 2.3.4), the user can set parameters according to the document TABLE OF SET VALUES 3/1532-BMP903 050Uen.
3.2.6.1 Alarm Param
From these menus it is possible to configure alarm type and level for the output alarm relays and to activate the digital signal inputs. Furthermore the audible alarm can be blocked and the alarm history can be cleared.
3.2.6.2 System settings
System parameters like language, date, time, IP address, subnet mask, default gateway, Reload Config (reset to default) and Keypad Sound are set in these menus.
5/1553-BMP 903 050 Uen Rev D 2007-07-05 19(37)
USER'S G U I D E - A C U for NetSure™ 201, 501, 701 and 801
4 Handling the ACU through the Web interface The ACU is equipped with a web server with a default IP address 192.168.0.1. The ACU web server can be connected to a PC:
• directly by using a crossed type network cable
• through a LAN
• through a WAN (For safety reasons, it is not recommended to connect through the Internet)
The ACU is accessed through the Ethernet port at the front of the connecting unit. See Figure 10.
Figure 10. Remote communication to the ACU.
4.1 Web interface requirements
4.1.1 Hardware • Computer/processor: 486DX/66 MHz or higher processor.
• Network card.
• Ethernet network cable
• Crossed Ethernet network cable (necessary only when direct connection is used).
5/1553-BMP 903 050 Uen Rev D 2007-07-05 20(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
4.1.2 Software
• Web browser Internet Explorer version 5.0 or later. If you have an earlier-version web browser installed, download the latest version from http://www.microsoft.com and follow the instructions to install the new browser.
For information about available-memory requirements and hard-drive space requirements, see system requirements for the chosen web browser.
4.2 Connection to ACU web server Note: PC settings may differ depending of operative system. The examples
below are from Windows 2000.
4.2.1 Direct connection
This procedure is highly recommended for installation.
Connect the computer to the ACU directly if they are placed maximum 15 metres from each other. Follow the steps described below to connect them:
1. Check that your computer is equipped with a network card.
2. Connect the computer to the ACU by using a crossed type network cable. Connect one cable connector to the network card on your computer. Connect the other cable connector to the Ethernet port placed at the front of the connecting board,
3. Check the IP address and the subnet mask of the ACU web server in the display menu Parameter set/System param/IP Address.
Default settings: IP address: 192.168.0.1 Subnet mask: 255.255.255.0
4. Open the Control Panel/ Network and Dial-up Connections of you r computer.
Note; In order to return to the original configuration, note down the parameter settings before modifying them.
5/1553-BMP 903 050 Uen Rev D 2007-07-05
21(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
5. Select the network connection and open its Properties under File in the toolbar to pop up the following screen:
Local Area Connect ion Propert ies
\>.
JLT* -i'zsiri « ~J£I '»£■» - —- ■i
ITT > e | i< I™ |H I
•* S Client for Microsoft Networks "* JSFile and Printer Sharing for Microsoft Networks
Internet FFIJI.UI.-HI ft LhV'IP'l
» F ■I
^^wzara*,.-*,**;,.
i i LJ
6. Select the "Internet Protocol (TCP/IP) and click "Properties".
5/1553-BMP 903 050 Uen Rev D 2007-07-05
22(37)
USER'S GUIDE - A C U for NetSure™ 201, 501, 701 and 801
Internet Protocol (TCP/IP) Properties
r » w J | * " * i j ^ ' *! " - V *i "
'"cutdiz-liF se*<xj.p*sy a- **w -i c&tljt »T**f^--■**«•
I * r * r
r rim**'***-. i ^ ^ ^
C J i f »*■* '=/--AS : _ M. a"-9i ad= S H -
r M m r f t j H S h . * t
*-*P-pt £j V I = " t
7. Click the circle "Use the following IP address:
8. Set an IP address of the PC. It should be one number higher or lower than the ACU web server's IP address. The subnet mask should be the same as the ACU.
Example:
ACU: IP address is: 192.168.0.1 subnet mask is: 225.225.225.0
The PC should be set to: IP address: 192.168.0.2 subnet mask: 225.225.225.0
It is possible to check and change the ACU web server's IP address and subnet mask in the display menu Parameter set/System param/IP Address.
9. Click "OK" in this and the next screen.
10. Click "Back" in the screen Network and Up-up Connections to return to the Control Panel
5/1553-BMP 903 050 Uen Rev D 2007-07-05
23(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
11. Open Internet Options in the Control Panel.
12. Select the tab "Connections" and click the circle "Never dial a connection".
13. Clickthe burton "LAN Settings".
Internet Options ? x! I General £ $ecuritj>J[_Privac^ [ Content Connections [Programs | Advanced
To set up an Internet connection, click Setup.
D ial-up and Virtual Private Network settings
Satip....
beUings... , Choose Settings if you need to configure a proxy server for a connection.
* New? dW a connection Bis! whenever ■v neJw* eonrwfen i* rwr psts<.s?rt Always da! rrjs ddauit uMirie-chon
•i'j'i'ent None | setOefauiS ;
L«:alAreaN8twori<[LANlseUings - - -LAN 5etttngs do not apply to dial-up connections. jl_AN Settings. * | - - i -Choose Settings above for dial-up settings. '" "■'" ' "*
OK Cancel *wv
Click here
5/1553-BMP 903 050 Uen Rev D 2007-07-05
24(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
14. Uncheck the box "Use a proxy server for your LAN" and click OK to finish the LAN setting.
Local Area Notwmk (LAN) Set tine*- ? | X
Uncheck here
, Automatic configuration — - - - - -< Automatic configuration may override manual settings. To ensure the ! use of manual settings, disable automatic configuration,
[ @ Automatically. detect settings
] O ■** sotomatk configuration script
A<rti°5?
•-Pcoxy sarvar -
— J *D Use a proxy sawtrfar your uwfrhese dial-up or VPN-connections),
to
! Arivanresd.,,
8'f j ^po-v^s ivc r h-rlcoladfJteise.;
OK Cancel
4.2.2 Connecting via LAN or WAN Nofe: For safety reasons, it is not recommended to connect to the ACU web
server through the Internet (although it is possible).
1. Connect a standard network cable between the Ethernet port placed at the front of the connecting board and a LAN outlet.
2. Check that your computer is equipped with a network card and is connected to your LAN and/or WAN (via a standard network cable).
3. Check that your services, protocols and adapters are correctly installed and configured. If you are not sure how your computer is to be installed and configured, contact your network administrator for advice. The network connection to be used is an ordinary TCP/IP (Internet) connection.
4. Connect to the ACU web server by entering the Web server's IP address or domain name. Use the settings that were made in the installation.
5. It is possible to change the web server's IP address in display menu Parameter set/System param/IP Address.
5/1553-BMP 903 050 Uen Rev D 2007-07-05
25(37)
USER'S G U I D E - A C U for NetSure™ 201, 501, 701 and 801
4.3 Login Note: The ACU software needs Internet Explorer version 5.0, or later.
1. To log in the ACU, double-click the icon of Internet Explorer to run the software.
2. Type the IP address of the ACU and press ENT. The following Web interface will pop up for ACU information (including software and configuration version), selecting the homepage language and login.
'Jim
Passworo
PFMIUS ̂ umbtr [MECCO] ACU Swat j2102311393K6TOK3Q]
Hw*.»«Ve™n|1ri j SaBt™iYMH<m|1«J
Cer8iau'aIiitfV«Sion|£VIEAJ_R3A]
configuration version
Figure 11. Login page.
3. Enter the username (default: admin) and password (default: 1) to log in to the ACU, and the following homepage screen will show.
5/1553-BMP 903 050 Uen Rev D 2007-07-05 26(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
4.4 Homepage introduction
Figure 12. ACU Home page.
In the Homepage screen, the left part displays the NetSure™ type number, the menus of "Device explore", "Alarms", "Settings", "Maintenance", "Query", "Site map" and at the bottom date, and time.
The top right part displays (by default) the system status. Three buttons for "Sample", "Control" and "Setting" are used to open different sub-pages.
The alarm survey is displayed in the middle of the screen. It can be hidden by clicking the arrow on top of it and set for automatic popup at an alarm by checking the "Auto popup" square.
A status bar is displayed at the bottom of the screen.
5/1553-BMP 903 050 Uen Rev D 2007-07-05
27(37)
USER'S GUIDE - A C U for NetSure™ 201, 501, 701 and 801
When data for a sub menu is transferred from the ACU, the following screen is displayed:
Figure 13. Loading data indication.
If the screen is empty and the text "Loading data..." does not appear, there is no data to display from the selected menu.
4.5 Device explore As shown in Figure 12, the menu "Device explore" has the sub-menus of equipment groups such as "RectifierGroup", "BatteryGroup", "DC Distribution", "Battery Fuse Group", "LVD Group" and "SM 101". A user can check the sample data of the equipment, set the equipment parameters and control the equipment by operating these sub-menus.
Note: The equipment groups displayed depend on the equipment connected to the system.
5/1553-BMP 903 050 Uen Rev D 2007-07-05 28{37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
4.5.1 Device parameter settings When browsing the control- and setting-values of the system devices, some settings are blocked (the set button is grey). The reason is that the setting depends on another setting or that the user authority level does not approve a change of the setting.
Figure 14. Example of blocked setting.
4.6 Alarms
In any screen, click the icon " H " located in the middle bottom part of the screen to pop up the alarm screen. See Figure 13.
Figure 15. Alarm screen.
By clicking the buttons "Observation", "Major" or "Critical" the respective alarm category will be displayed separately.
5/1553-BMP 903 050 Uen Rev D 2007-07-05
29(37)
USER'S GUIDE -ACU for NetSure™ 201, 501, 701 and 801
4.6.1 Alarms history To view the alarms history, click the submenu "History" of "Alarms", history alarm query screen pops up.
• In the screen, first select device ("All device", for example).
• Enter the start time and end time of the desired alarms history,
• Click "Query".
The alarms history recorded for the desired period will be displayed.
Figure 16. Alarms history.
By clicking "Download" the list can be stored to the PC as a text file.
4.7 Settings From the sub menu "SETTINGS" a number of system- and communication-settings can be made.
4.7.1 Network configuration
On this page, the IP address, the subnet mask and the default gateway for communication over the Ethernet interface are to be set.
Note: After modifying the IP address, be sure to re-iog in the ACU with the new IP address, since the communication will be broken when changing the IP address.
4.7.2 NMS configure
On this page, the trap addresses for Simple Network Management Protocol are to be set.
5/1553-BMP 903 050 Uen Rev D 2007-07-05 30(37)
USER'S G U I D E - A C U for NetSure™ 201 , 501, 701 and 801
Description of SNMP
SNMP is a technology used for network management. The technology is based on implementing an information base called MIB (Managed Information Base). This MIB contains parameters that are interesting from a management perspective. All LAN connected equipment that support SNMP shall also support a default MIB called MIB-II.
The SNMP Agent responds to requests received via the SNMP protocol and also actively sends traps to a specified manager when certain MIB values change state. This is used to actively inform a manager when an alarm situation is recognised.
The PCU supports MIB-II and Emerson's powerMIB, rev B. Contact Emerson Energy Systems for more information.
e-i m |jS*JMPv2-SMI E j - 1 SNMPv2-TC Ea - 1 SNMPv2-C0NF
e- § EES-POWER-MIB S-*VB iso
B » ^ org E l - * ^ dod
B •*« internet E"*i^ private
3-»m entetprises B » i ^ ees
S"">* global B"«m powerMIB
$ - * e ident ;■ -a identManufacturei
j ;•—□ identModel ;-- -o identConlrollerFirmwareVersion 1 -o identName
0'**e s i ' s t e r r i
\-—a syslemStatus ; —o systemVollage :-~n systemCuftent ;-.._n systemUsedCapacHy
:. -a al-armLastTrapNo Eh El al-armTiapTable ; 0 | alarmTrapEntry
: " H alarmTtapNo | I & alarmTirne
!■ J alarmStatusChange I X alarmS everity :-■■ H a larmD ascription 1 |£ alarmType
H-«H pcweiEvents a-»io
!- -a alarmTrap
Figure 17. Emerson powerMIB layout
5/1553-BMP 903 050 Uen Rev D 2007-07-05 31(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
4.7.3 ESR Configure The EEM protocol is used for communication between the Main Computer and the ACU. The Main Computer is the computer superior to the ACU (the client of the ACU). On this page, all parameters needed for communication with a main EEM computer are to be set.
4.7.4 User information conf On this page, users, their authority and password are configured. For authority levels, see item 2.3.4.
4.7.5 PLC Config By combining the equipment analog signals, parameters and alarms new alarms can be configured from the Programmable Logic Controllers menu. An alarm can then be related to a digital (relay) output of the ACU.
For information on programming, refer to the home page Edit PLC Config.
4.7.6 Time synchronization On this page, the system time and date are to be set. Automatic time synchronization from time servers can also be configured.
4.8 Maintenance From the maintenance pages, configurations and software can be up- or down-loaded from/to the ACU, some resets can be made and signal names can be configured.
4.8.1 Upload/download The following files can be downloaded to the ACU:
• Configuration package file, includes the settings of the system
• Application program package file, includes the functions of the system
• Language package file The postfix of this file package to be downloaded must be ".tar" or ".tar.gz". (For example: acu_EMEA_6_R2A_all_es.tar.gz)
• Files with the filename of "Monitoring So I ution.cfg". This file specifies the site equipment.
• Parameter settings with the filename "SettingParam.run" from another ACU. See item 4.8.5.
The following files can be uploaded from the ACU:
• Configuration package file
• Language package file
5/1553-BMP 903 050 Uen Rev D 2007-07-05 32(37)
USER'S G U I D E - A C U for NetSure™ 201, 501, 701 and 801
The uploaded files will be placed in a specified directory of the PC, used for the operation. The files can be used for the settings of other ACUs.
Procedure of upload/download:
Note.* As the communication with the ACU will be broken during the procedure, it is not recommended to do these operations remotely. If the communication with the ACU stops, the ACU can be rebooted by pulling it out from the system and then connecting it again.
4. Click Upload/Download
Emerson ErtergyMasfer™
NetSur? 701
ll.](ti;ry*'i"isi:i|i iJf Di>!iilnniiMf H.iKtjiyf u>.f iirtuiji
tS- ALARMS > SHTIHSS > WINIEfUWi
St
Upload/Download needs lo Hop ACU. Do you want to Etop ACU?
Slop ACU
5. Stop the ACU. The system will operate on default values, but no control functions wiEl work. The ACU will indicate, "ACU exited!"
After some delay the following screen pops up:
Efnef son EnergyMaBtar™
C4i3tio<v Only Configure Package and language! Package Oijft format odar. Lar.gz) w SattingP-atsm run wd the galtf^n fila (MDrtloiflgSoiutiQfi cfgl can be cWnipadsi Ihhs dc-«p|03il*rf Els is HOT c*ract,Thefi£'J «tilvM ab^oimjlly flip ACU musihG teBialBt) mamis% sSer dowvilMdiMotoail1
Seise! %
Fils-'.ACU
Brows...
For downloading: Click "Browse" to find the file folder where the file to be downloaded is located, select the file to be downloaded and click "Open". Then click the button "Download" to download the file to the ACU. The system will reply, "Are you sure to download?" Click OK.
5/1553-BMP 903 050 (Jen Rev D 2007-07-05
33(37)
USER'S GUIDE - A C U for NetSure™ 201, 501, 701 and 801
After some minutes the system will reply: Microsoft In ternet !
Successfully to start ACLJi
OK
For uploading: Select Config package file or language package file and click "Upload". A box then shows up asking what you want to do with the file. Click "Save" and then specify the directory where the uploaded file should be placed. Select directory and click "Save". After some minutes the system will reply:
Download complete *JJ3U£t
Download Complete
Saved: adi_tfg.tat from 172.17.182 29
D owrsloadect 442 K8 in 3 *ec Download to1 C'\Documents and Setlin...\aeu_efg.tar Tiartsfef rata: 147KlWSac
fipen QpanEcdder Ctes*
Click "Close".
7. When the Upload/Download is ready, click the button "Start ACU". The system will reply: "Are you sure to start ACU? Click "OK". The system will reply:
■ Microsoft Internet Explore!! • , Nvv i - ' rffciJ
N/A / t \ ACU will rebootlWait minutes to connect! N/A
CSZ3
N/A N/A
Click "OK". The contact with the ACU will break.
8. Try to reconnect when the ACU has started.
5/1553-BMP 903 050 Uen Rev D 2007-07-05 34(37)
USER'S G U I D E - A C U for NetSure™ 201, 501, 701 and 801
4.8.2 Clear data On this page, the system logs can be cleared.
4.8.3 Restore default
When clicking the button "Restore default" on this page, ail adjustable parameters will be restored to default settings (the values the system had at delivery, or that were stored by the user in a configuration file).
When clicking the button "Reboot ACU" the ACU program restarts but no settings are changed. Some settings demand a restart to become active.
4.8.4 Site inventory The Site inventory page displays information about the units connected to the ACU. The page is automatically updated when units are exchanged or when new units are connected to the system
4.8.5 Get setting parameter
Through this function, current parameter settings can be retrived from the ACU. They can then be downloaded to another ACU via the download homepage.
Note: Both ACUs must have the same software and configuration versions for correct function after transferring parameter settings.
4.8.6 Modify configure online Site specifications, device names, signal names and alarm cathegories can be modified from these pages.
5/1553-BMP 903 050 Uen Rev D 2007-07-05
35(37)
USER'S GUIDE - ACU for NetSure™ 201, 501, 701 and 801
4.9 Site map
Site map : SETTINGS ACU System s [""Network configuration
P DEVICE EXPLORE !""NMS configuration
! r ACU System i MC configuration
!'"" RectifierGroup "'"User info mat ion configuration !"~ Rectified i 5" Edit PLC config
""" Rectified ! '-"Edit GC PawerSplit
i Rectified Time synchronization
'"" BatteryGroup i MAINTENANCE
! ; : Battery! ; ■ ""Upload/Downlead
i DC Distribution ; "Clear data
I r DC Fuse r'Get Parameter Settings
, Modify configure online i Battery Fuse Group i i"" Modify site information
i s >. Battery Fuse I ■"'" Modify dev.ice information 1 r LVD Group i Modify alarm information ! S u L V D 1 hQUERY ! i LVD2 i "'"'History data r ALARMS i T'Log data
.'"Active ! i Battery teat data : '"'"Hist cry '""" Site map '""" Site map
This page displays the headings and underlying pages of the web interface. Click on the hypertext links to go to the page in question. Some pages are dependent on which units are connected to the ACU.
5/1553-BMP 903 050 Uen Rev D 2007-07-05 36(37)
USER'S GUIDE - ACU for NetSure™ 201 , 501, 701 and 801
5 Abbreviations used in this document AC Alternating Current ACU Advanced Control Unit DC Direct Current EEM Emerson EnergyMaster™
ENERGYMASTER is a registered trademark of Emerson Network Power Energy Systems AB
ENT Enter ESC Escape ESR Energy Supervision Report GSM Global System for Mobile communication IO Input Output IP Internet Protocol LAN Local Area Network LC Local Computer LCD Liquid Crystal Display LED Light Emitting Diode LVD Low Voltage Disconnect MIB Managed Information Base NMS Network Management System OS Operating System PC Personal Computer PLC Programmable Logic Controllers PSTN Public Switched Telephony Network SM Supervision Module SNMP Simple Network Management Protocol WAN Wide Area Network
5/1553-BMP 903 050 Uen Rev D 2007-07-05
37(37)
TABLE OF SET VALUES - BMP 903 050
The contents of this document are subject to revision without notice due to continued progress in methodology, design, and manufacturing.
' Emerson Network Power Energy Systems AB 2007 - All rights reserved
Emerson Network Power Energy Systems AB S E - 1 4 1 82 Stockholm
Sweden
Tel. +46 8 721 6000 Fax. +46 8 721 7177 www.emersonenergy.com
3/1532-BMP 903 050 Uen Rev C 2007-07-04 2(26)
TABLE OF SET VALUES - BMP 903 050
1 Tables of set values These tables are based on the ACU software revision 1.40, for NetSure™ 201, NetSure™ 501 , NetSure™ 701 and NetSure™ 801, -48 V.
All settings and choices affect the functions of the power supply system. The values shall therefore not be changed without a consequence analysis.
If a default value Is adjusted, the new value shall be entered In the column "Plant-specific setting". The default settings listed are the factory default settings.
Wofe; The appearance of some settings will depend on what configuration package file has been downloaded to the ACU.
2 Device Explore Note: When browsing the control and settings of the system devices, some settings
will be blocked (the set button is grey). The reason is that the setting depends on another setting or that the user authority level does not approve a change of the setting.
2.1 ACU System/Setting Index
Signal name Value (default)
Settings range
Remark Plant-specific setting
Sign. date
1 Auto/Man State Auto Auto/Man
2 Outgoing Alarm Blocked Normal Normal/Off
3 Nominal Voltage 53.5 V 40.0-60.0 V {System voltage) Must be set
> Undervoltage 1 and < Boost
Charge Voltage
4 Under-voltage 1 Level 48.50 V 40.0-60.0 V Must be set £ UV 2 and < U nom.
5 Under-voltage 2 Level 43.50 V 40.0-60.0 V Must be set £ UV 1
6 Maintenance Time Delay 30 Day 0 - 8760 Days Alarm activation time
7 Maintenance Time Limit 360 Day 10-7200 Days Alarm periodicity
8 High Ambient Temperature Limit
35.00 deg.C
0 - 1 0 0 deg.C Must be set > Low amb. temp.
9 Low Ambient Temperature Limit
5.00 deg.C -40 to +50 deg. C
Must be set< High amb. temp.
10 Temp Sensor Enabled Disabled Disabled/ Enabled
Ambient sensor
3/1532-BMP 903 050 Uen Rev C 2007-07-04
3(28)
TABLE OF SET VALUES - BMP 903 050
Index
Signal name Value (default)
Settings range Remark Plant-specific setting
Sign. date
11 Over-voltage 1 Level 57.0 V 40.0 - 60.0 V Must be set < OV2 and > U nom
plus 2 V
12 Over-voltage 2 Level 58.5 V 40.0 - 60.O V Must be set > Over-voltage 1 Level and > U boost charge
13 PowerSplit Contactor Mode
Master Controlled
Master Controlled/Slave Con
trolled
14 Slave Current Limit 60.0% 1 0 - 9 0 %
15 Slave Delta Voltage 0.5 V 0.1-2.0 V
16 LCD Alarm Sound Off On/Off/3 min/10 min/1 hour/4 hour
17 Load Shunt Full Current 500.0 A 50 - 5000 A Depends on system
18 Load Shunt Full Voltage 75.0 mV 1 -150mV
19 Bat 1 Shunt Full Current 500.0 A 50 - 5O00 A Depends on system
20 Bat 1 Shunt Full Voltage 75.0 mV 1 -150mV
21 Bat 2 Shunt Full Current 500.0 A 50-5000 A Depends on system
22 Bat 2 Shunt Full Voltage 75.0 mV 1 -150mV
23 D11 Activation Level 48 V 4 8 V / 0 V
24 Dl 2 Activation Level 48 V 4 8 V / 0 V
25 Dl 3 Activation Level 48 V 48 V / 0 V
26 Dl 4 Activation Level 48 V 4 8 V / 0 V
27 Dl 5 Activation Level 48 V 4 8 V / 0 V
28 Dl 6 Activation Level 48 V 4 8 V / 0 V
3/1532-BMP 903 050 Uen Rev C 2007-07-04
4(28)
TABLE OF SET VALUES - BMP 903 050
2.2 Rect Group/Setting Index
Signal name Value (default)
Settings range
Remark Plant-specific setting
Sign. date
1 High Voltage limit 59.0 V 5 5 - 6 5 V Must be set 0.5 V > U boost charge
2 Low voltage limit 40.0 V 35 - 45 V
3 Over-vol restart time 300 s 0 - 3 0 0 s
4 Soft-Startup with load time
8 s 8 - 1 2 8 s
5 WALK-ln enabled Disabled Disabled/ Enabled
6 Redundancy Enabled Disabled Disabled/ Enabled
7 Pre-Currlmt for Redund Enb
Disabled Disabled/ Enabled
8 Min Redundancy 100% 1 -4800% Min. accepted redundancy. (Must be sets Max. red.
-110%)
9 Max Redundancy 300 % 1-4800% Max. prefered redundancy. (Must besets Min. red.
+110%)
10 Switch-off Delay 5 min 1 - 60 min
11 Cycle Activation Hour 1 CLK 1 - 23 CLK The time (0-23 o'clock) for cycling
12 Cycling Period 30 Day 1 - 500 Day
13 Rect Start Sequentially Elapse
0 s 0 - 1 0 s
14 Rectifier Power Type Double supply
Double supply/Single Supply/Small supply
The rect. LC feeding
15 AC phases Single phase
Single phase/Three
phases
3/1532-BMP 903 050 Uen Rev C 2007-07-04
5(28)
TABLE OF SET VALUES - BMP 903 050
2.3 Batt Group/Setting Index
Signal name Value (default)
Settings range
Remark Plant-specific setting
Sign. date
1 Battery Type No. 1 1 -10
2 Temp Compensation Center
20.0 deg.C 0 - +40 deg.C
3 Compensation Coefficient
96.0 mV/deg.C
0 - 2500 mV/deg. C
4 Very High Temperature limit
+55.00 deg.C
-50 to+100 deg.C Must be set > High Temp limit
5 High Temperature limit +40.00 deg.C
-50 to +1O0 deg.C Must be set < Very High Temp limit and > Low
temp, limit
6 Low temperature limit 0.00 deg.C -50 to+100 deg.C Must be set < High Temp limit
7 Temp Sensor Enabled Enabled Disabled/ Enabled
Battery sensor
6 Number of battery blocks
24 4 -25
9 Planned Test Enabled Disable Disable/Enable
10 AC Fail Test Enabled Disable Disable/Enable
11 Test Voltage Level 45.00 V 43 - 50 V R e d Voltage (Must be set <
Test End Voltage -0.2 V)
12 Test End Time 60min 10 -1440 min
13 Test End Voltage 46.40 V 43.2 - 50.2 V Must be set > Test Voltage
Level +0.2 V
14 Test End Capacity 30.00 % 3 0 - 1 0 0 % Remaining batt. capacity
15 Pre-BC Enabled Disable Disable/Enable
16 Constant current test Disable Disable/Enable
17 Constant current test current
10000.0 A 10-10000 A
18 Number of schedule Test per year
0 0 -12 Opens indexes 19 to 30
3/1532-BMP 903 050 Uen Rev C 2007-07-04
6(26)
TABLE OF SET VALUES - BMP 903 050
Index
Signal name Value (default)
Settings range
Remark Plant-specific setting
Sign. date
19 Planned Testl - MM-DD HH
20 Planned Test2 - MM-DD HH
21 Planned Test3 ~ MM-DD HH
22 Planned Test4 - MM-DD HH
23 Planned Test5 „ MM-DD HH
24 Planned Test6 ~ MM-DD HH
25 Planned Test7 - MM-DD HH
26 Planned Test8 - MM-DD HH
27 Planned Test9 - MM-DD HH
28 Planned TestIO - MM-DD HH
29 Planned Testl 1 - MM-DD HH
30 Planned Test12 - MM-DD HH
31 Record threshold 0.050 V
32 Short Test Disable Disable/Enable Requires &2 battery shunts
33 Short Test Cycle 30 days 1 - 365 days
34 Max Diff Current For Short Test
0.05 C10 0 - 1 . 0 C10
35 Short Test Duration 5 min 1 - 30 min
36 Boost Charge Voltage 56.4 V 4 0 - 6 0 V Must be set > U nom. and < U overvoltage 2
37 Maximum Boost Charge Time
5h 1 - 100 h
38 Stable BC Current 0.010 C10 0.005-0 05 C10 Limitation of BC current
39 Stable BC Delay 60 min 0 - 600 min Fixed time for prolonged BC
40 Automatic Boost Charge Enabled
no No/Yes
41 FC to BC Current 0.060 C10 0.050-0.080 C10
BC start condition
42 FC to BC Capacity 80.0 % 0 - 1 0 0 % BC start condition
43 Cyclic BC Enabled No No/Yes
3/1532-BMP 903 050 Uen Rev C 2007-07-04
7(28)
TABLE OF SET VALUES - BMP 903 050
Index
Signal name Value (default)
Settings range
Remark Plant-specific setting
Sign. date
44 Cyclic BC Interval 180 days 2 to 365 days
45 Cyclic BC Duration 300 min 180-1440 min
46 Rated Capacity 1000.0 Ah 50-50000 Ah Total battery capacity connected to each battery
shunt
47 Battery Current Limit 0.70 C10 0.10-1.0 C10 Max. batt. current {Must be set < Over Current
Setpoint)
48 Over current Setpoint 1.00 C10 0 - 1 . 0 C10 Alarm level. (Must be set > Battery Current
Limit)
49 Capacity Coefficient 96.0 % 1 0 - 1 0 0 % Charging efficiency for
calculating battery capacity
50 Low Capacity setting 75% 2 5 - 1 0 0 % Low Capacity alarm level
51 Very High Temp Vol Setpoint
49.0 V 45 - 55 V The system voltage at very high
temperature. Must be > U undervolt-
age 1
2.4 LVD 1/Setting Index
Signal name Value (default)
Settings range
Remark Plant-specific setting
Sign. date
1 LVD Enabled Enabled Disable/Enable
2 LVD Mode By voltage By Voltage/By Time
3 LVD Voltaae 42.00 V 4 0 - 6 0 V Must be set ^ Reconnect
Voltage
4 LVD Time 300 min 30-1000 min
5 LVD reconnect voltage
50.00 V 4 0 - 6 0 V Must be set 2 LVD Voltage
6 LVD reconnect delay 2 min 1 - 30 min
7 LVD dependency None None/LVD1/LVD2
3/1532-BMP 903 050 Uen Rev C 2007-07-04
8(28)
TABLE OF SET VALU ES - BMP 903 050
2.5 LVD 2/Setting In
dex Signal name Value
(default) Settings
range Remark Plant-specific
setting Sign. date
1 LVD Enabled Enabled Disable/Enable
2 LVD Mode By voltage By Voltage/By Time
3 LVD Voltage 42.00 V 40-60 V Must be set s Reconnect
Voltage
4 LVD Time 300 min 30- 1000 min
5 LVD reconnect voltage
50.00 V 40 - 60 V Must be set £ LVD Voltage
6 LVD reconnect delay 2 min 1 - 30 min
7 LVD dependency LVD1 None/LVD1/LVD2
3/1532-BMP 903 050 Uen Rev C 2007-07-04
9(28)
TABLE OF SET VALUES - BMP 903 050
3 Settings
3.1 Network configuration Selection Value
(default) Remark Plant-specific
setting Sign, date
ACU IP: 192.168.0.1 TheACUIPadress
Mask:
Gateway:
3.2 NMS configuration NUSIP Public commu
nity Private commu
nity Accept trap level Sign, date
3.3 MC configuration Selection Plant-specific setting Sign, date
Protocol Type
Protocol Media
TCP/IP port number
Callback In use
Report in use
CCID (Range from 1-255)
S O C I D (Range from 1-20479)
Max alarm report attempts (Range from 0-255)
Call elapse time [s] (Range from 0-600)
Main report phone number
3/1532-BMP 903 050 Uen Rev C 2007-07-04 10(28)
TABLE OF SET VALUES - BMP 903 050
Selection Plant-specific setting Sign, date
Second report phone number
Callback phone number
Main report IP
Second report IP
Security connection IP 1
Security connection IP 2
Safety level
3.4 User information configuration User name Authority
(Browser, Operator, Engineer, Administrator)
Password Sign, date
3.5 PLC Config Operator Inputl Input2 Paraml Param2 Output Operator
Equip Name/ Register
Signal Type
Signal Name
Equip Name/ Register
Signal Type
Signal Name
Paraml Param2
Equip Name/ Register
Signal Type
Signal Name
GT ACU System
Sampling Total CA
Njm
P(0) P{1) R(30)
NOT R(30) - - - - - - ■ ACU System
Control D01
GT ACU System
Sampling Total MA
Num
P(0) P{1) ACU System
Control D02
GT ACU System
Sampling Total OA
Num
P(0) P(1) ACU System
Control □03
3/1532-BMP 903 050 Uen Rev C 2007-07-04
11(28)
TABLE OF SET VALUES - BMP 903 050
3.6 PowerS pi it Configuration PowerSplit Mode (Master/Slave):
Signal Name Equip Name Signal Type Signal Name (Input) Signal Name
Default Plant-specific setting
Default Plant-specific setting
Default Plant-specific setting
LVD1 ACU System
Alarm Digital Input 1
LVD 2 ACU System
Alarm Digital Input 2
LVD 3 MA NA NA
BATTERY_TEST ACU System
Alarm Digital Input 3
BOOST_CHARGE ACU System
Alarm Digital Input 4
3.7 Time synchronization Selection Plant-specific setting Sign, date
Local zone
Get time automatically from the following time servers: (Yes/No)
Primary server:
Secondary server:
Interval to adjust time: (Minutes)
Specify time (Yes/No)
Date:
Time:
3/1532-BMP 903 050 Uen Rev C 2007-07-04
12(28)
TABLE OF SET VALUES - BMP 903 050
4 Maintenance/Modify configure online Note: The modifications will affect the indications on the display and home pages.
4.1 Modify ACU Signal Name Setting Value Sign, date
Site SiteName
Site Site Location
Site Site Description
4.2 Modify device Index Default Device
Name (On home page)
Default Device abbr name (On
display)
New Full Device Name New abbr De
vice Name Sign. date
1 ACU System ACU System
2 RectiflerGroup Rect Group
3 RectifieM RectifieM
4 Rectified Rectified
5 Rectified Rectified
6 Rectified Rectified
7 Rectifiers Rectifiers
8 Rectifier6 Rectified
9 BatteryGroup Batt Group
10 Batteryl Batteryl
11 DC Distribution DC
12 DC Fuse DC Fuse
13 Battery Fuse Group Batt Fuse Grp
14 Battery Fuse Battery Fuse
15 LVD Group LVD Group
16 LVD1 LVD1
17 LVD2 LVD2
3/1532-BMP 903 050 Uen Rev C 2007-07-04
13(28)
TABLE OF SET VALUES - BMP 903 050
4.3 Modi fy s igna l
4.3.1 ACU System/Sample signal
Index Default Signal full name (On
home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 System Voltage System Voltage
2 System Load System Load
3 System Power System Power
4 Total System Power Consumption
Power Consump
5 Power Peak In 24 Hours
Power Peak
8 Average Power in 24 Hours
Avg power
7 Total RunTime Total Run Time
8 Maintenance Time Run
Mtn Time Run
9 System Status Signal
System Status
10 ACU Internal Status Internal Status
11 Running Config Type
Config Type
4.3.2 ACU System/Control signal
Index Default Signal full name <on
home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 Clear run time Clr run time
3/1532-BMP 903 050 Uen Rev C 2007-07-04 14(28)
TABLE OF SET VALUES - BMP 903 050
4.3.3 ACU System/Setting signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 Auto/Man State Auto/Man State
2 Outgoing Alarm Blocked
Alarm Blocked
3 Nominal Voltage Nom Voltage
4 Under-voltage 1 Level
Low Voltage
5 Under-voltage 2 Level
Under Voltage
6 Maintenance Time Delay
Mtn Time Delay
7 Maintenance Time Limit
Mtn Time Limit
8 High Ambient Temperature Limit
High Amb Temp
9 Low Ambient Temperature Limit
Low Amb Temp
10 Over-voltage1 Level Over Voltage 1
11 Over-voltage2 Level Over Voltage 2
12 PowerSplit Contactor Mode
PSContactorMode
13 Slave Current Limit Slave Cur Lmt
14 Slave Delta Voltage Slave Delta vol
15 LCD Alarm Sound LCD Alarm Sound
16 Load Shunt Full Current
Load Shunt Curr
17 Load Shunt Full Voltage
Load Shunt Volt
18 Bat 1 Shunt Full Current
Bat1 Shunt Cur
19 Bat 1 Shunt Full Voltage
Bat 1 Shunt Vol
20 Bat 2 Shunt Full Current
Bat 2 Shunt Cur
21 Bat 2 Shunt Full Voltage
Bat 2 Shunt Vot
3/1532-BMP 903 050 Uen Rev C 2007-07-04
15(28)
TABLE OF SET VALUES - BMP 903 050
Index Default Signal full name (On
home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
22 Dl 1 Activation Level Dl 1 Act Lvl
23 Dl 2 Activation Level Dl 2 Act Lvl
24 Dl 3 Activation Level Dl 3 Act Lvl
25 Dl 4 Activation Level Dl 4 Act Lvl
26 Dl 5 Activation Level Dl 5 Act Lvl
27 Dl 6 Activation Level Dl 6 Act Lvl
4.3.4 ACU System/Alarm signal In
dex Default
Signal full name
(On home page)
Default Signal abbr
name (On display)
New Signal full Name
New Signal abbr Name
Default alarm level
New alarm level
Sign. date
1 Supervision Unit Internal Fault
ACU Fault CA
2 CAN communication failure
CAN Comm Fault
CA
3 Mains Failure Mains Failure OA
4 Under-voltage Under Vol MA
5 Very Under-voltage
Very Under Vol CA
6 Over-voltage Over Voltage CA
7 High Ambient Temperature
High Amb Temp NA
8 Low Ambient Temperature
Low Amb Temp NA
9 Ambient Temperature Sensor
Fault
T Sensor Fault NA
10 Outgoing Alarms Blocked
Alarm Blocked OA
11 Maintenance Time Limit Alarm
Mainte-nanceAlrm
OA
12 Over Maximum Power Alarm
Over Power OA
13 Config Er-ror(from backup
config)
Config Error 1 OA
3/1532-BMP 903 050 Uen Rev C 2007-07-04
16(28)
TABLE OF SET VALUES - BMP 903 050
Index
Default Signal full
name (On home page)
Default Signal abbr
name (On display)
New Signal full Name
New Signal abbr Name
Default alarm level
New alarm level
Sign. date
14 Config Er-rorffrom default
config
Config Error 2 OA
15 Abnormal load current
Ab load curr CA
16 SPD Fault SPD Fault NA
17 Very Over-voltage
Very Over Volt CA
18 Digital Input 1 DM MA
19 Digital Input 2 DI2 MA
20 Digital Input 3 DI3 MA
21 Digital Input 4 DI4 MA
22 Digital Input 5 DI5 MA
23 Digital Input 6 DI6 MA
24 Manual Mode Manual Mode OA
4.3.5 Rectifier Group/Sample signal
Index Default Signal full name (On
home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 Number of rectifiers Rect Number
2 Communicating Rectifiers
Comm Rect Num
3 Valid Rectifers Valid Rectifers
4 Average voltage Average Voltage
5 Total current Total Current
6 Used capacity Used Capacity
7 Max used capacity Max Used Cap
8 Min used capacity Min Used cap
3/1532-BMP 903 050 Uen Rev C 2007-07-04
17(28)
TABLE OF SET VALUES - BMP 903 050
4.3.6 Rectifier Group/Control signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 Voltage Trim Voltage Trim
2 Rectifer Current Limit
Current Limit
3 DC On/Off Control DC On/Off Ctl
4 AC On/Off Control AC On/Off Ctl
5 All LED control Reel LED Ctl
6 Fan speed control Fan Speed Ctl
7 Rectifier On at AC Over Voltage
ACOverVoltON
8 Reset Rectifier lost alarm
Reset Rect lost
4.3.7 Rectifier Group/Setting signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 High Voltage limit Rect Over Volt
2 Low voltage limit Rect Low Volt
3 Over-vol restart time Over Volt Start
4 Soft-Startup with load time
WALKIn Time
5 WALK-ln enabled WALKIn Enable
6 Redundancy Enabled
Redundancy Enb
7 Pre-CurrlmtforRe-dund Enb
PCLfor Redund
S Min Redundancy Min Rdncy
9 Max Redundancy Max Rdncy
10 Switch-off Delay Switch-offDelay
11 Cycle Activation Time
Cyc Act Time
12 Cycle Period Cyc Period
13 Rect Start Sequentially Elapse
Rect Start Seq
3/1532-BMP 903 050 Uen Rev C 2007-07-04 18(28)
TABLE OF SET VALUES - BMP 903 050
Index Default Signal full name (On
home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
14 Rectifier Power type Rect Power type
15 AC phases AC phases
16 Input current limit Input Curr Llmi
4.3.8 Rectifier Group/ Alarm signal Index
Default Signal full
name (On home page)
Default Signal abbr
name (On display)
New Signal full Name
New Signal abbr Name
Default alarm level
New alarm level
Sign. date
1 Rectifier AC Failure
Rect AC Fail CA
2 Multi-rectifiers failure
MultF-rect fail CA
3 Rectifier lost Rectifier lost MA
4.3.9 Rectifier/Sample signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name
New Signal abbr Name
Sign. date
1 Rectifier SN RectSN
2 Voltage Rect Voltage
3 Current Value Rect Current
4 AC Status AC Status
5 DC Status DC Status
6 Input AC voltage Rect AC Voltage
7 Current limit Current Limit
8 Derate by AC Derate by AC
9 Derate by Temp Derate by Temp
10 Temperature Rect Temp
11 Used capacity Used Capacity
12 Total Running Time Running Time
13 WALK-ln enabled status
Walk-in Enable
3/1532-BMP 903 050 Uen Rev C 2007-07-04
19(28)
TABLE OF SET VALUES - BMP 903 050
4.3.10 Rectifier/Control signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 DC On/Off Control Rect DC Ctl
2 AC On/Off Control Rect AC Ctl
3 Rectifier Reset Rect Reset
4.3.11 Rectifier/Alarm signal
Index
Default Signal full
name (On home page)
Default Signal abbr
name (On display)
New Signal full Name
New Signal abbr Name
Default alarm level
!SI
Sign. date
1 AC failure Rect AC Failure OA
2 Over temperature
Rect Over Temp OA
3 Rectifier Failure Rectifier Failure MA
4 Over-voltage Rect Over Volt MA
5 Rectifier protected
Rect Protected OA
6 Fan failure Rect Fan Fail MA
7 Rectifier current limit alarm
Rect Curr limit OA
8 EEPROM failure EEPROM failure OA
9 Rectifier not response
Rect not respon OA
10 Power limited for rect
Power Lmt-Rect OA
11 Rectifier sharing current alarm
Rect Shar Curr OA
4.3.12 Battery Group/Sample signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 Battery Current Batt Current
2 Battery Temperature Batt Temp
3 Expected Current Limitation
ExpCurrLmt
4 Total Time of Shallow Cycles
Shallow CycTime
3/1532-BMP 903 050 Uen Rev C 2007-07-04
20(28)
TABLE OF SET VALUES - BMP 903 050
Index Default Signal full name (On
home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
5 Total Time of Deep Cycles
Deep Cyc Time
6 Total Time of Deep Discharge
Deep Disch Time
7 Total times of Shallow Cycles
Shal Cyc Times
8 Total times of Deep Cycles
Deep Cyc Times
9 Total times of Deep Discharge
Deep DischTimes
10 Temperature Compensation Active
Temp Comp Activ
11 Battery Current Limit Active
Bat Curr Lmtd
12 Predict discharge time
Pre Disch Time
13 Battery management state
BM State
4.3.13 Battery Group/Control signal
Index Default Signal full name (On
home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 Reset Battery Capacity
Reset Capacity
2 Reset abnormal batt curr alarm
Reset AbCur aim
3 Reset discharge curr imbalance
Reset ImCur aim
4 Start Boost Charge Start Boost
5 Stop Boost Charge Stop Boost
6 Start Battery test Start Batt Test
7 Stop battery test Stop Batt Test
8 Reset Bad Battery Alarm
Reset Bad Batt
3/1532-BMP 903 050 Uen Rev C 2007-07-04
21(28)
TABLE OF SET VALUES - BMP 903 050
4.3.14 Battery Group/Setting signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name
New Signal abbr Name
Sign. date
9 Battery Type No. Batt Type No.
10 Temp Compensation Center
TempComp Center
11 Compensation Coefficient
TempComp Coeff
12 Very High Temperature limit
Very high Temp
13 High Temperature limit
High Temp Limit
14 Low temperature limit
Low Temp Limit
15 Number of battery blocks
Battery Blocks
16 Planned Test Enabled
Bat Test plan
17 AC Fail Test Enabled
AC Fail Test
18 Test Voltage Level Test Volt
19 Test End Time Test End Time
20 Test End Voltage Test End Volt
21 Test End Capacity Test End Cap
22 Pre-BC Enabled Pre-BC Enabled
23 Constant current test ConstCurrTest
24 Constant current test current
ConstCurrTCurr
25 Number of schedule Test per year
No Of PI Tests
26 Planned Testl Planned Testl
27 Planned Test2 Planned Test2
28 Planned Test3 Planned Test3
29 Planned Test4 Planned Test4
30 Planned Test5 Planned Test5
31 Planned Test6 Planned Test6
32 Planned Test7 Planned Test7
3/1532-BMP 903 050 Uen Rev C 2007-07-04
22(28)
TABLE OF SET VALUES - BMP 903 050
Index Default Signal full name (On
home page)
Default Signal abbr name {On
display)
New Signal full Name New Signal
abbr Name Sign. date
33 Planned Tests Planned Tests
34 Planned Tests Planned Tests
35 Planned TestIO Planned TestIO
36 Planned Testl 1 Planned Testl 1
37 Planned Testl 2 Planned Testl 2
38 Record threshold RecordThreshold
39 Short Test Short Test
40 Short Test Cycle ShortTest Cycle
41 Max Diff Current For Short Test
Max Diff Curr
42 Short Test Duration ShortTest Time
43 Boost Charge Voltage
BC Voltage
44 Maximum Boost Charge Time
BC Protect Time
45 Stable BC Current Stable BC Curr
46 Stable GO Delay Stable BC Delay
47 Automatic Boost Charge Enabled
Auto BC Enabled
48 FC to BC Current To BC Current
49 FC to BC Capacity To BC Capacity
50 Cyclic BC Enabled CycBC Enabled
51 Cyclic BC Interval CyclBC Interval
52 Cyclic BC Duration CyclBC Duration
53 Rated Capacity Rated Capacity
54 Battery Current Limit Batt Curr Lmt
55 Over current Set-point
Over Current
56 Capacity Coefficient Capacity Coef
57 Low Capacity setting Low Cap setting
58 Very High Temp Vol Setpoint
Hi-Hi Temp Vol
3/1532-BMP 903 050 Uen Rev C 2007-07-04
23(28)
TABLE OF SET VALUES - BMP 903 050
4.3.15 Battery Group/Alarm signal Index
Default Signal full
name (On home page)
Default Signal abbr
name (On display)
New Signal full Name
New Signal abbr Name
Default alarm level
New alarm level
Sign. date
1 Temperature sensor failure
Temp sensor fai OA
2 High Temperature
High Temp OA
3 Very high temperature
Very hi-Temp OA
4 Low Temperature
Low Temp OA
5 Plan Battery test in progress
Plan BT OA
6 AC failure Batt test in Progress
AC failure BT OA
7 Manual Battery test in progress
Manual BT OA
8 Short Test in progress
Short Test OA
9 Discharge Current Imbalance
Dis Curr Im OA
10 Cyclic Boost Charge
Cyclic BC OA
11 Automatic Boost Charge
Auto BC OA
12 Manual Boost Charge
Manual BC OA
13 Abnormal Battery Current
Abnorm Bat Curr OA
14 Temperature Compensation
Active
Temp Comp Activ
NA
15 Battery Current Limit Active
Batt Curr Lmt NA
16 Battery Charge Prohibited Alarm
Charge Prohibit OA
17 Boost charge for test alarm
Pre-BC Alarm OA
18 Master Battery Test in progress
Master BT OA
3/1532-BMP 903 050 Uen Rev C 2007-07-04 24(2S)
TABLE OF SET VALUES - BMP 903 050
Index
Default Signal full
name . (On home page)
Default Signal abbr
name (On display)
N e w Signal full Name
New Signal abbr Name
Default alarm level
N e w alarm level
Sign. date
19 Master Boost Charge in pro
gress
Master BC OA
20 Bad Battery Bad Batt OA
21 Battery Test Failure
Test Failure OA
4.3.16 Battery/Sample signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 Battery Current Batt Current
2 Battery Capacity (Ah)
Batt Cap (Ah)
3 Battery Capacity (%) Batt Cap (%)
4.3.17 Battery/Alarm signal Inde
X Default
Signal full name
(On home page)
Default Signal abbr
name (On display)
New Signal full Name
New Signal abbr Name
Default alarm level
New alarm level
Sign. date
1 Exceed Current Limit
Exceed Curr Lmt OA
2 Over Battery current
Over Current NA
3 Low capacity Low capacity OA
4.3.18 Battery Fuse Unit/Alarm signal Inde
X Default
Signal full name
(On home page)
Default Signal abbr
name (On display)
New Signal full Name
New Signal abbr Name
Default alarm level
New alarm level
Sign. date
1 Fuse alarm Fuse Alarm CA
2 Fuse 1 alarm Fuse 1 Alarm CA
3 Fuse 2 alarm Fuse 2 Alarm CA
4 Fuse 3 alarm Fuse 3 Alarm CA
3/1532-BMP 903 050 Uen Rev C 2007-07-04
25(28)
TABLE OF SET VALUES - BMP 903 050
4.3.19 DC Distribution/Sample signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 DC Voltage DC Voltage
4.3.20 DC Fuse Unit/Alarm signal
Index
Default Signal full
name (On home page)
Default Signal abbr
name (On display)
New Signal full Name
New Signal abbr Name
Default alarm level
New alarm level
Sign. date
1 Fuse 1 alarm Fuse 1 alarm CA
2 Fuse 2 alarm Fuse 2 alarm CA
3 Fuse 3 alarm Fuse 3 alarm CA
4 Fuse 4 alarm Fuse 4 alarm CA
5 Fuse 5 alarm Fuse 5 alarm CA
6 Fuse 6 alarm Fuse 6 alarm CA
7 Fuse 7 alarm Fuse 7 alarm CA
8 Fuse 8 alarm Fuse S alarm CA
9 Fuse 9 alarm Fuse 9 alarm CA
10 Aux Load alarm AuxLoad alarm CA
4.3.21 LVD Group/Setting signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 Battery LVD Batt LVD
4.3.22 LVD unit/Control signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
2 LVD Control LVD Ctrl
3/1532-BMP 903 050 Uen Rev C 2007-07-04 26(28)
TABLE OF SET VALUES - BMP 903 050
4.3.23 LVD unit/Setting signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 LVD Enabled LVD Enabled
2 LVD Mode LVD Mode
3 LVD Voltage LVD Voltage
4 LVD Time LVD Time
5 LVD reconnect voltage
LVD Recon Volt
6 LVD reconnect delay LVD Recon Delay
7 LVD dependency LVD depend
4.3.24 LVD Unit/Alarm signal
Index
Default Signal full
name (On home page)
Default Signal abbr
name (On display)
New Signal full Name
New Signal abbr Name
Default alarm level
New alarm level
Sign. date
1 Disconnected Disconnected OA
2 Contactor Fault Contactor Fault CA
4.3.25 LVD 2 unit/Control signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 LVD Control LVD Ctrl
4.3.26 LVD 2 unit/Setting signal Index Default Signal
full name (On home page)
Default Signal abbr name (On
display)
New Signal full Name New Signal
abbr Name Sign. date
1 LVD Enabled LVD Enabled
2 LVD Mode LVD Mode
3 LVD Voltage LVD Voltage
4 LVD Time LVD Time
5 LVD reconnect voltage
LVD Recon Volt
6 LVD reconnect delay LVD Recon Delay
7 LVD dependency LVD depend
3/1532-BMP 903 050 Uen Rev C 2007-07-04 27(28)
TABLE OF SET VALUES - BMP 903 050
4.3.27 LVD 2 Unit/Alarm signal Index
Default Signal full
name (On home page)
Default Signal abbr
name {On display)
New Signal full Name
New Signal abbr Name
Default alarm level
New alarm level
Sign. date
1 Disconnected Disconnected OA
2 Contactor Fault Contactor Fautt CA
3/1532-BMP 903 050 Uen Rev C 2007-07-04 28(28)
EMERSON. Network Power INSTALLATION INSTRUCTIONS
POWER SUPPLY SYSTEM NetSure™ 501, BZA 108 35,-48 V DC
I* 1 I* 1 '^^^H
■ * w m* U
I f fl
m* m
I* ■ 1= 1 8 * M
Wm 7^I%^TTT7
Wm 7^I%^TTT7 -jh - H I
■jf'B
^ ^ ■ ^ ^ ^ ^ ^ ^ ° ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ w ^ P * ^ i p g j j !
i Emerson Network Power Energy Systems AB 2007 - All rights reserved
1531-BZA108 51 Uen Rev B 2007-01-19
1(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
The contents of this document are subject to revision without notice due to continued progress in methodology, design, and manufacturing.
Emerson Network Power Energy Systems AB SE-141 82 Stockholm
Sweden
Tel. +46 8 721 6000 Fax. +46 8 721 7177 www.emersonenergy.com
1531-BZA 108 35 Uen Rev B 2007-01-19
2(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
Contents 1 General 4 1.1 Tools 4 1.2 Safety Rules 4 1.3 Approved disconnector 5
2 Installation 6 2.1 Unpacking 6 2.2 Anchoring the cabinet 6 2.3 Installation of battery 8 2.4 Cabling 10 2.5 Mains connection 11 2.6 Earthing 16 2.7 Battery connection 17 2.8 Signalling cables 18 2.9 Distribution cables 22 2.10 Rectifiers 23 3 Extensions 24 3.1 Rectifier 24 3.2 Distribution circuit-breaker 24 3.3 Upgrading from SCU to ACU 24 4 Start-up and installation test 25
5 Abbreviations used in this document 26
1531-BZA108 35Uen Rev B 2007-01-19
3(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
1 General The NetSure™ 501 -48 V DC power system consists of cabinet, DC-distribution unit, maximum 12 rectifiers, battery connections and a supervision unit.
The cabinet is delivered with its internal equipment and cables pre-assembled. Depending on configuration, the rectifiers are delivered separately or factory mounted in the cabinet.
1.1 Tools The following tools are recommended for installations:
• Socket wrench set • Insulated socket keys and U-wrenches7, 10, 13, 16, 18 and 24 mm • Screwdriver for bits • Bits set for slotted-, Phillips-, Pozidrive and Torx-screws (TX10, TX20 and
TX30) • Side cutter • Side cutting pliers • Wire stripping pliers • Adjustable wrench • Knife • Electrical tape • A torque wrench (for battery connection) • Press tool for cable lugs, including press pliers suitable for the used cable
lugs • A multimeter
1.2 Safety Rules The equipment in these directions for use is designed for integration in larger systems. It includes electronic devices operating with dangerous levels of voltage and current. For this reason, the following instructions must be followed at all times.
• Installation may be undertaken only by adequately trained personnel with satisfactory knowledge of the power supply system. The most recent revision of the safety rules RULES 1550-1004 Uen, and safety rules in force locally shall be adhered to during the installation.
• All external circuits to be connected to the power supply system must comply with SELV, as defined in EN 60950-1.
• When work is being done in a power cabinet, it is recommended that the power supply system is de-energized. The mains supply and, if any, the battery voltage should be disconnected.
1531-BZA 108 35 Uen Rev B 2007-01-19 4(26)
A
INSTALLATION INSTRUCTIONS - BZA 108 35
• The power cabinets shall normally be kept locked, or be placed in a locked room, and the key be kept by the person who is responsible for the power supply system.
• The distribution cables shall be arranged and protected in such a way that no involuntary contact with them can occur during work with the equipment connected to voltage.
• The feeding mains fuses shall be marked so that it is clear to what load each of them is connected, for instance R1, R2 and R3 for the rectifiers of the system.
• Take off metallic bracelets, rings or similar that may cause short circuits in the equipment.
• When working with batteries or live equipment the tools used shall have an insulating cover. Always use an ESD wrist strap connected to the chassis or to earth when working with printed board assemblies and components.
1.3 Approved disconnector • The power supply system shall be provided with an approved disconnec
tor to make it possible to disconnect the mains supply and, where applicable, the battery voltage from the system. The mains disconnector must be designed so that all the phases can be cut off with one manipulation. Local rules must be adhered to.
• If more than one mains distribution unit are connected to the system, they shall be placed next to each other.
• The mains distribution units in question and the battery disconnectors, if any, shall be placed in close vicinity of the power cabinets and within sight of them.
1531-BZA 108 35 Uen Rev B 2007-01-19
5{26)
INSTALLATION INSTRUCTIONS - BZA 108 35
2 Installation Carry out the installation following the order of these installation instructions.
2.1 Unpacking When the equipment arrives, make sure that all the boxes included in the shipping specification are delivered and that they have their correct numbers.
To facilitate the rising and lifting of the cabinet, two lifting eyebolts SAR 201 080/03 (optional) can be fixed in the front holes at the top of the cabinet. See Figure 1.
Note: For security reasons a cabinet including batteries should never be lifted.
Figure 1. Cabinet top cover.
Leave the final unpacking of each unit until the installation is to begin, thus avoiding the loss of loose details such as set of parts delivered with the units.
When handling printed board assemblies, suitable ESD-protection shall be used.
• Check the tightening of all cable connections in the cabinet. They might have come loose during the transport.
2.2 Anchoring the cabinet The cabinet can be anchored to the floor by screws through its feet. As an alternative the cabinet can be fixed to the wall with suitable screws through the holes at the back of its top cover. The materials (not included) should be chosen to fit the floor/wall material.
1531-BZA 108 35 Uen Rev B 2007-01-19
6(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
Optional anchoring material:
• Set of parts BMY 107 125/1; tip protection material for floor and wall.
Note: The standard cabinet is not earthquake proof.
Anchoring to wall
Anchoring to floor
Pos Description 1 2 3 4
Screw Plug Washer Washer 35 mm
Hole in wall
Floor hole templates
523 mm
445.5 mm
323 mm
445.5 mm
Figure 2. Anchoring the cabinet.
2.2.1 Floor fixing
1. Drill holes in the floor and insert suitable plugs in the holes.
2. Place the cabinet in its position.
3. Level the cabinet by adjusting its feet from the inside of the cabinet with a suitable tool.
4. Fix the cabinet with four screws through its feet. See Figure 2.
1531-BZA 108 35 Uen Rev B 2007-01-19 7(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
2.2.2 Wall fixing 1. Place the cabinet in its position.
2. Level the cabinet by adjusting its feet from the inside of the cabinet with a suitable tool.
3. Drill two holes in the wall and insert suitable plugs in the holes. See Figure 2.
4. Fix the cabinet to the wall with two screws.
2.3 Installation of battery There can be up to four battery shelves in the power cabinet. Depending of the number of shelves and dept of the cabinet, different numbers and types of batteries can be installed. The cabinet is normally pre-cabled from factory for the selected batteries.
1. Put the battery blocks in position on the first (bottom) shelf.
2. Install the interconnections between each block with the torque shown in the battery documents.
Note: For safety reasons, leave out one of the inter-cell connectors until the appropriate stage in the commissioning of the power supply plant
3. If the batteries need fixing, mount a belt clip in-between the poles (centred) for one of the battery blocks per shelf according to Figure 1 and Figure 2.
Note; Make sure that the belts do not get stuck between the poles and the inter-connectors.
1531-BZA 108 35 Uen Rev B 2007-01-19 8(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
Figure 1. Fixing of battery block with battery belt.
Figure 2. Mounting of battery belt in clip.
4. Tighten the belt clips. (The belt may be slightly out of the vertical and still be OK.) Make sure that the clips do not get in contact with the intercon-nectors.
1531-BZA 108 35 Uen Rev B 2007-01-19
9(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
2.4 Cabling The cabinets are built for cabling from the top only.
The following cabling order is recommended:
1. Mains cables
2. Earthing cables
3. Battery cables
4. Signalling cables
5. Distribution cables
All cables shall be labelled in both ends for easy identification.
The cables enter the top of the cabinet. There are two (400 mm deep cabinet) or three (600 mm deep cabinet) flexible cable inlets for DC cables and one flexible cable inlet for AC cables in the top cover.
Note: AC and DC cables must enter different inlets.
Flexible cable inlets for DC cables with tie-wrap holders Flexible cable inlet
AC cables
Figure 3. Cable inlets in a 600 mm deep cabinet.
The DC cables should enter the flexible cable inlets and be fixed with tie wraps to the holders in the cable inlets.
1531-BZA 108 35 Uen Rev B 2007-01-19 10(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
Figure 4. Fitting points for AC inlet puii-reiief clamps.
• Fit suitable AC inlet pull-relief clamps into the inlet plate. After installation of the mains cables, the pull-relief clamps shall be tightened. One NSV 354 36 is included in the cabinet. BMY 107 145/1 is a set of six cable clamps that can be ordered separately.
• To avoid the risk of objects falling into the cabinet, close all the flexible inlets and tighten their screws after the installation.
2.5 Mains connection Note: The connection of mains cables must be performed only by personnel locally ap
proved to do this work. The material used must fulfil the local regulations. External mains distribution fuses and cables for supplying the cabinet are optional.
2.5.1 Connection to AC terminal
Figure 5. Mains terminals.
There are four mains terminals for the supply of three rectifiers each. See Figure 5. The cables should be supplied from an external mains distribution unit (optional).
1. Run the mains cables through the flexible AC cable inlet in the top cover. See Figure 3.
1531-B2A108 35 Uen Rev B 2007-01-19
11(28)
INSTALLATION INSTRUCTIONS - BZA 108 35
2. Fix the cables to the pull-relief clamps according to Figure 4.
3. Connect the mains cables according to one of the following examples (one of the terminals is shown only).
3W+N+PE (Delivered standard)
Figure 6. Standard connection.
The supply cable (3W+N+PE) should be protected with a 16 A slow acting fuse/circuit breaker per phase at 3x400 V AC mains voltage. Recommended cable: minimum 4x2.5+2.5 mm2 type S05W-U or A05W-R, according to CENELEC.
3W+3N+PE or 3x(L+N)+PE (Recommended connection)
Figure 7. Mains terminal (The delivered contact clip between terminals 4-5-6 must be removed).
1531-BZA 108 35 Uen Rev B 2007-01-19 12(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
The supply cable, 3W+3N+PE or 3x(L+N)+PE, should be protected with a 25 A slow actfng fuse/circuit breaker per phase at 3x400 V AC mains voltage (or 230 V AC single phase supply). Recommended cable: minimum 6x2.5+2.5 mm2 type S05W-U or A05W-R, according to CENELEC.
L+N+PE individual supply cables to each rectifier
Figure 8. Mains terminal (The delivered contact clip between terminals 4-5-6 must be removed).
The supply cables, W+N+PE, should be protected with a 16 A slow acting fuse/circuit breaker per cable at 230 V AC single phase supply. Recommended cable: minimum 2x2.5+2.5 mm2 type S05W-U or A05W-R, according to CENELEC.
3W+PE
Figure 9. Mains terminal (The delivered contact clip between terminals 4-5-6 must be removed).
1531-BZA 108 35 Uen Rev B 2007-01-19
13(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
The supply cable, 3W+PE should be protected with a 25 A slow acting fuse/circuit breaker per conductor at 3x220 V AC mains voltage. Recommended cable: minimum 3x4+4 mm2 type S05W-U or A05W-R, according to CENELEC.
L1+L2+L3+PE individual supply to each rectifier
PE U L2 L2 L3 L3 L1
1. i I 1. 1.1
®
o o
©
o o
C2>
o o
KKB
o o
o o
o o
o o o o
o o ©
Figure 10. Mains terminal (The delivered contact clip between terminals 4-5-6 must be removed).
The supply cable, 6W+PE should be protected with a 16 A slow acting fuse/circuit breaker per conductor at 3x220 V AC mains voltage. Recommended cable: minimum 6x2.5+2.5 mm2 type S05W-U or A05W-R, according to CENELEC.
L1+L2+L3+PE individual supply cables to each rectifier
PE L1 L2 L2 L3PEL3 L1 PE
Figure 11. Mains terminal (The delivered contact clip between terminals 4-5-6 must be removed).
1531-BZA 108 35 Uen Rev B 2007-01-19 14(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
The supply cables, 2W+PE should be protected with a two-pole 16 A slow acting fuse/circuit breaker at 220 V phase-to-phase AC voltage. Recommended cable: minimum 2x2.5+2.5 mm2 type S05W-U or A05W-R, according to CENELEC
2.5.2 Connection to AC distr ibut ion unit
Blue Black Green-Yellow, to rectifier shelves
R12 L1 L2 L3 N PE Input terminal
Figure 12. AC distribution unit seen from front.
Depending on system configuration and mains voltage, there are a number of AC distribution units available. They are factory mounted in the cabinet.
3W+N+PE
One supply cable (3W+N+PE) protected with one 50 A slow acting fuse/circuit breaker per phase at 3x400 V AC mains voltage should be used. Recommended cable: minimum 4x16+16 mm2 type S05W-U or A05W-R, according to CENELEC.
3W+PE
For this application an external AC distribution unit with two-pole circuit breakers and connections according to Figure 10 or Figure 11 is recommended.
1531-BZA 108 35 Uen Rev B 2007-01-19
15(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
2.6 Earthing
Power cabinet Telecom rack
Figure 13. Earthing principle of the /VefSure™ 501
AC mains protective earth
The rectifier subracks have internal multipoint earthing. The mains PE and the rectifier enclosures are interconnected to the subrack mechanical structure.
DC system earth
A 25 mm2 cable links the mechanical structure of the cabinet to the system 0 V bar. This link is essential if a DC short-circuit occurs between live pole (negative) of the system and the cabinet mechanical structure as it will protect the mains PE conductors from overload.
Bonding to the main earth terminal
1. Check that there is an insulated 25 mm2 cable connected between the 0 V (+) terminal of the power supply system and the earth terminal inside the top of the cabinet.
2. Connect an insulated cable, minimum 25 mm2, between the 0 V (+) terminal of the power supply system, or the earth terminal on the top of the cabinet, and the earth collector bar (MET). See Figure 13.
1531 -BZA 108 35 Uen Rev B 2007-01 -19
16(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
Telecom earth
The telecommunication equipment should be connected to the MET according to its specific requirement. The cabinets can be earthed via the power cabinets or directly to the MET.
2.7 Battery connection Note: Great energy hazard when working with batteries. Short-circuit current >1000 A.
Note: For safety reasons, leave out one of the inter-cell connectors until the appropriate stage in the commissioning of the power supply plant. If internal Emerson batteries are to be used, the cabinet is normally equipped with suitable battery circuit-breakers and pre-cabled from factory for the selected batteries.
1. Check that the battery CBs are switched-off.
2. Connect the battery cables to the battery terminals (-) and (+).
At external batteries, the cables should enter the flexible cable inlets at the cabinet top and be fixed with tie wraps to the holders in the cable inlets. To avoid the risk of objects falling into the cabinet, close the flexible inlets and tighten their screws after the installation. See Figure 3.
Battery cables should be selected according to local regulations concerning voltage drop, operational temperature and type of installation (open, covered, number of layers, parallel connection etc). What cable dimension to choose depends on the battery CB size, the tolerated cable voltage drop and the distance between the power system and the battery.
Figure 14. Connections to MFU.
1531-BZA 108 35 Uen Rev B 2007-01-19
17(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
1. Check that the battery CBs are switched-off.
2. Connect suitable battery cables with lugs to the connection points of the positive (+) busbar. The connection screws are of size M8.
3. Connect the cable to the corresponding battery terminal.
4. Connect suitable battery cables to the battery CBs and to the corresponding battery terminals. For higher capacities, the battery CBs are normally interconnected with two- or three-slot interconnectors including an M8 screw for cable lug connection.
2.8 Signalling cables 2.8.1 External signalling cables to control unit
The external input and output signals are connected to the connector board placed above the control unit.
External connectors
BLVD and LLVD plugs
Fixing screw
Figure 15. Connector board.
5. Remove the fixing screw, pull out the connector board and unplug the BLVD and LLVD plugs.
Note: Be careful not to damage the surface mounted components at the back of the board when pulling it out.
6. Remove the connector board from the subrack.
7. Run signalling cables into the space for the connector board from the top. See Figure 15. The cables must be long enough for connection to the connector board when it is outside the subrack.
1531-B2A 108 35 Uen Rev B 2007-01-19 18(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
J_ l _ ^ l _ , V J :
t-W ._ * ^ ^ | | l A Y OUTPUT J
Internal console communication connectorffor factory use only)
Relay outputs 1-4
■Digital inputs 1-8
■Relay outputs 5-8
-RS485
Dl power (48 V)
Temp sensor 1 input
Temp sensor 2 input
-BLVD
-LLVD
RS232 ports
LAN port
Figure 16. Connector board.
1531-BZA 108 35 Uen Rev B 2007-01-19
19(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
Terminal No. 3 2 1 3 2 1
Outgoing closing contact at alarm*
(DXDdD
4
D) QXXD
® © < Q )
CD)©©
2 4
Not to be used
Digital input 1 -6, level 15 to 60 V
n •y
Alarm contact in external equipment
CO
<N
CO
CD
©I ©I
© I
©I ©1 ©I ¥7 ©i ©i
© © ©
© © © ©
© ©
CO
-I *£
n n
m 3-3
i t
Figure 17. External connections to the connector board. Note: * In the ACU the outgoing terminal No. 1 has breaking contacts at alarm for the
indicated connection.
2.8.2 Connections to alarm relay outputs
1. Connect outgoing alarm cables to the alarm terminals 1 to 8 of the connector board according to Figure 17 and the silkscreen print on the board. The connection in Figure 17 illustrates a connection to outlet 1 to make contact at an alarm.
Wore: The relay contacts can be loaded with maximum 60W.2A 1 A® 60 V DC.
30 V DC or
1531-BZA 108 35 Uen Rev B 2007-01-19
20(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
2.8.3 Connections of digital inputs Six digital inputs are available. A signal of 15 to 60 V DC is used to activate the input. The digital input functions are configured through the SCU display interface.
1, Connect the signalling cables to the terminals of the connector board according to Figure 17 and the silkscreen print on the board. The connection tn Figure 17 illustrates a connection to input 1.
Note: Digital inputs 7 and 8 are used internally and must NOT be used.
The 48 V signal voltage is taken from a distribution circuit breaker or is available on the terminal "Dl POWER'. A cable with connector RPM 628 385/1 is included for connection to this terminal.
2.8.4 Connection of temperature sensors Two temperature sensors KET 103 06/1 can be connected. Their functions are configured through the SCU/ACU display interface.
1. Battery: Mount the temperature sensor as close as possible to the centre of a battery cell or block at the top shelf of the battery cabinet. Do not mount it where it will be affected by airflow from fans etc. Clean thoroughly the surface where the sensor is to be placed. Remove the grey paper laminate from the sensor and stick the sensor on the battery.
2. Room: Mount the temperature sensor on a wall about 1.5 m above the floor. Do not mount it where it is affected by airflow from fans or by sunlight. Clean thoroughly the surface where the sensor is to be placed. Remove the grey paper laminate from the sensor and stick the sensor to the wall.
3. Wind up the excessive cable and fix it with tie wraps on a suitable place. If the cable is too short, it can be extended by means of 0.82 mm2
(AWG18) standard copper conductors and connecting terminals.
4. Connect the temperature sensor plug(s) to the terminal(s) on the connector board. See Figure 16.
2.8.5 Reconnection of the connector board 1. Plug in the BLVD and LLVD plugs into the terminals on the connector
board. See Figure 16.
2. Arrange the signalling cables so they do not get stuck when the connector board is inserted into the subrack.
3. Push in the connector board into the subrack and fix it with a screw.
Note: Be careful not to damage the surface-mounted components at the back of the board when inserting it.
1531-BZA 108 35 Uen Rev B 2007-01-19
21(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
2.9 Distribution cables Distribution cables should be selected according to local regulations concerning voltage drop, operational temperature and type of installation (open, covered, number of layers, parallel connection etc). What cable dimension to choose depends on the circuit breaker size, the tolerated cable voltage drop and the distance between the power system and the load.
There are CB's of hydraul magnetic (13 mm with) and thermal/electromagnetic (18 mm with) type of different make and capacity available. For high capacity outputs CB's are connected in parallel! with two- or three-slots interconnect s . The circuit breakers can take a maximum cable area of 25 mm2. Adaptors for the connection of cable areas up to 70 mm2 are available. Please, contact Emerson Network Power Energy System for more information.
Figure 18. Connection of distribution cables.
1531-BZA 108 35 Uen Rav B 2007-01-19 22(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
1. Run suitable distribution cables through the flexible cable inlets at the cabinet top and fix them with tie wraps to the holders in the cable inlets.
2. Check that the distribution CBs are switched-off.
3. Connect the positive distnbution cables with lugs to the connection points of the positive (+) busbars. The connection screws are of size M6. Connection material is optional.
Note: To avoid overload, the cables must be distributed evenly on the positive bus bar. A. Connect the negative {-) distribution cables and the alarm detection cable
to the distribution circuit breakers.
5. If an alarm detection cable is not to be connected, its connector must be insulated to avoid false alarms.
Figure 19. Example of distribution cable connections.
2.10 Rectifiers The rectifiers may be delivered in separate boxes or factory mounted.
1. If they are delivered separately, unpack them and place them in the subrack(s), but do not connect them.
2. Install front covers in all empty rectifier slots.
3-slots interconnector
1531-BZA 108 35 Uen Rev B 2007-01-19 23(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
3 Extensions
3.1 Rectifier 1. Remove the front cover from the rectifier slot where the rectifier is to be
installed.
2. Unpack the rectifier, place it in the subrack and push it in. It will start automatically.
3. Lock the rectifier to the subrack by its locking latch and fix it with the screw.
3.2 Distribution circuit-breaker
© ■ i
^ r
i ®
r i
locking 1 device 1
® m r i
locking 1 device 1 D connec :ting fc )rk(-)
Figure 20. Distribution CB.
1. Open the distribution unit front.
2. Pull the locking device at the bottom of the new CB.
3. Place the CB on the DIN-rail and the connecting fork.
4. Press in the locking device to the DIN-rail and fix the bottom screw of the CB to the connecting fork.
3.3 Upgrading from SCU to ACU The SCU can be exchanged for an ACU without any major modifications.
Note that the Critical alarm relay will have the opposite making/breaking function with the ACU installed.
1531-BZA 108 35 Uen Rev B 2007-01-19 24(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
4 Start-up and installation test For the start-up of a system, go to document TEST INSTRUCTIONS 1532-BZA108 35Uen.
1531-BZA 106 35 Uen Rev B 2007-01-19 25(26)
INSTALLATION INSTRUCTIONS - BZA 108 35
5 Abbreviations used in this document AC Alternating Current ACU Advanced Supervision Unit BLVD Battery Low Voltage Disconnect CAN Controller Area Network CB Circuit Breaker CENELEC European Committee for Electrotechnical Standardization DC Direct Current EN European Norm ESD Electrostatic Discharge LAN Local Area Network LCD Liquid Crystal Display LED Light Emitting Diode LVD Low Voltage Disconnect LLVD Load Low Voltage Disconnect MET Main Earth Terminal MFU Multi-Function Unit PE Protective Earth R Rectifier SCU Standard Supervision Unit SELV Safety Extra Low Voltage
1531-BZA 108 35 Uen Rev B 2007-01-19 26(26)
E M E R S O N Network Power TEST INSTRUCTIONS
Test Instructions for Power Supply System NetSure™ 501 with SCU/ACU
Contents 1 General 2
1.1 Preliminaries 2
1.2 Safety Rules 2
2 Installation check 3
3 Start-up preparations 4
4 Start-up and installation test 5
5 Test of signals and supervision 7
6 Final steps 9
Abbreviations used in this document:
AC Alternating Current ACU Advanced Supervision Unit CB Circuit Breaker DC Direct Current FV Freely Ventilated LED Light Emitting Diode SCU Standard Supervision Unit
The contents of this document are subject to revision without notice due to continued progress in methodology, design, and manufacturing.
i Emerson Network Power Energy Systems AB 2006 - All rights reserved
1532-BZA 108 35 Uen Rev A 2006-12-11
1(10)
TEST INSTRUCTIONS - BZA 108 35
1 General These test instructions apply to power supply system NetSure™ 501 with standard control unit BMP 903 051/1 or advanced control unit BMP 903 050/1.
Performance test is to be made in the following cases:
• As a final test or an acceptance test of a new plant.
• As a final test or an acceptance test when a plant has been extended.
• As a scheduled performance test (item 5).
Read through the whole of these test instructions before starting the test.
1.1 Preliminaries The person responsible for the power supply system shall have been informed that tests are to be made and that alarm will be sent out to the central alarm unit.
1.1.1 Documents The following documents are necessary for the test:
• The power manual, which includes this document.
• Battery documents from the battery supplier.
1.1.2 Test Equipment
• Test load 10 A.
• Multimeter.
1.2 Safety Rules Note: Tests may be undertaken only by adequately trained personnel with satisfactory
knowledge about the power supply system. The most recent revision of the safety rules RULES 1550-1004 Uen, and safety rules in force locally shall be adhered to during the test.
1532-BZA 108 35 Uen Rev A 2006-12-11
2(10)
TEST INSTRUCTIONS - BZA 108 35
2 Installation check These checks refer to the INSTALLATION INSTRUCTIONS 1531-BZA 108 35 Uen.
Item Action Comments (V means OK)
Inspection of cabinets
1. Inspect the equipment and accessories for compliance with the offer, delivery note and installation instructions.
2 Check Hie floor fixing of the cabinet.
3. Check the connections between the power supply system and the system earth.
4. Check that the earthing of the cabinet conform to the installation instructions and local regulations.
Inspection of mains connections
5. Check the electrical connections on the mains-power side for compliance with the installation instructions, drawings and local regulations.
6. Check that AC power protective measures conform to the installation instructions and local regulations.
Inspection of cabling
7. Check that the battery circuit-breakers and cables are correctly dimensioned (cable area in relation to circuit-breaker size).
8. Check the cable connections to the battery connection units (tightening, short-circuit protection, marking).
9. Check that the distribution circuit-breakers and cables are correctly dimensioned (cable area in relation to circuit-breaker size).
10. Check the cable connections to the distribution units (tightening, short-circuit protection, marking).
11. Check that communication and alarm cables are connected according to INSTALLATION INSTRUCTIONS 1531-BZA 108 35 Uen.
12. Check the fixing of all cables connected to the cabinet and that tie wraps are correctly cut (no sharp edges).
1532-BZA 108 35 Uen Rev A 2006-12-11
3(10)
TEST INSTRUCTIONS - BZA 108 35
Item Action Comments (V means OK)
13. Check the markings of all cables connected to the cabinet. It must be possible to trace the connections of all cables.
Batteries
14. Check that the correct number of cells is installed.
15. Check that the middle inter-cell connectors of the batteries are not connected.
16. Check that the battery cells face the right way by measuring their polarity with a voltmeter.
17. Check that the inter-cell connectors are correctly installed and tightened to the correct torque.
18. Check that the ceil voltage equalizers, if any, are correctly connected across the cells.
Initial charging
Nottt: For freslv ventilated (FV) drv charaed batteries onlv.
19. If freely ventilated (FV) dry charged batteries are used, they shall be charged initially according to the battery supplier's instructions.
3 Start-up preparations Item Action Result Comments
(V means OK)
1. Check all battery- and distribution- circuit breakers of the system.
They should be switched off.
2. Check the mains supply fuses/circuit breakers.
They should be re-rnoved/switched off.
3. Disconnect the rectifiers from the subrack(s). See the INSTALLATION INSTRUCTIONS.
4. Disconnect the control unit from the subrack. See the INSTALLATION INSTRUCTIONS.
5. Check with an ohmmeter between the positive and negative system terminals.
There must be no short-circuit (>50 ohms).
1532-BZA 108 35 Uen Rev A 2006-12-11 4(10)
TEST INSTRUCTIONS - BZA 108 35
Item Action Result Comments (V means OK)
6. Check with an ohmmeter between the negative system terminal and the cabinet chassis.
There must be no short-circuit (>50ohms).
7. Check the battery block voltages and the total battery voltages.
The voltages shall correspond to values given by the battery manufacturer.
8. Check the mains phase voltage. The rectifiers are designed for the nominal mains voltage range 200 to 250 V AC, 50/60 Hz. Voltage tolerance 85 to 290 V AC.
9. Reconnect the rectifiers and the control unit to the subrack(s).
4 Start-up and installation test Item Action Result Comments
(V means OK)
1. Connect/switch on the mains supply fuses/circuit breakers to the cabinet. If there is an AC distribution unit in the cabinet, switch on the mains circuit-breakers to the rectifiers.
The green LEDs on the rectifiers and the SCU/ACU will emit light
1. Connect/switch on the mains supply fuses/circuit breakers to the cabinet. If there is an AC distribution unit in the cabinet, switch on the mains circuit-breakers to the rectifiers.
The rectifier fans will start.
1. Connect/switch on the mains supply fuses/circuit breakers to the cabinet. If there is an AC distribution unit in the cabinet, switch on the mains circuit-breakers to the rectifiers. If the LVD contactors were off,
they will operate.
1. Connect/switch on the mains supply fuses/circuit breakers to the cabinet. If there is an AC distribution unit in the cabinet, switch on the mains circuit-breakers to the rectifiers.
Alarms "Batt Fuse Alarm" will be issued and an alarm LED of the SCU/ACU will emit Eight. The audible alarm will sound. (Press any button on the SCU/ACU to silence it.)
2. Check the DC voltage on the display of the SCU/ACU.
The voltage should be close to what is been set in the SCU/ACU. If temperature compensated charging is activated, the difference may be ±2 V from the set value.
1532-BZA 108 35 Uen Rev A 2006-12-11
5(10)
TEST INSTRUCTIONS - BZA 108 35
Item Action Result Comments (V means OK)
3. If temperature compensated charging is activated, warm the sensor on the battery with your hand and observe the system voltage.
The voltage should start to drop.
4. Install the last inter-cell connector on one of the battery banks.
The battery voltage should read 2.0 to 2.1 V/cellor48to 51 V/battery for a lead acid battery that consists of 24 cells. If a cell reads a lower voltage than 2.0 V, it needs recharging or might be faulty.
5. Switch on the battery CB for the same battery.
The battery voltage will increase and reach the system voltage. (Might take hours, depending on the charging state of the battery.)
6. Connect the other batteries in the same way.
The alarm "Batt Fuse Alarm" ceases.
6. Connect the other batteries in the same way.
The corresponding battery will increase its voltage and reach the system voltage.
7. Switch on the distribution CBs. The loads will get DC supply. 7. Switch on the distribution CBs.
The alarms on the SCU/ACU cease.
8. Check all the LEDs of the system.
Only the green LEDs "On" should emit light. No LED must flash.
1532-BZA 108 35 Uen Rev A 2006-12-11 6(10)
TEST INSTRUCTIONS - BZA 108 35
5 Test of signals and supervision This item can be used as a scheduled performance test.
The alarms are checked on the display and on the alarm relay outputs. Note: The LED indications and alarm category may differ depending on the SCU/ACU
settings. The indications in the tables below are the default settings. For configuration of the SCU, refer to the USER'S GUIDE 5/1553-BMP 903 051 Uen and TABLES OF SET VALUES 3/1532-BMP 903 051 Uen.
For configuration of theACU, refer to the USER'S GUIDE 5/1553-BMP 903 050 Uen and TABLES OF SET VALUES 3/1532-BMP 903 050 Uen.
• The equipment shall be in normal operation, all the rectifiers shall be in operation and the batteries connected.
Item Action Result Comments (V means OK)
1. Check that all rectifiers connected to the system are recognized on the Status/Rectifier pages of the SCU {Running Info/ Rectifier pages of the ACU).
When the data is displayed the green LED on the corresponding rectifier will flash.
2. Pull out one rectifier. Alarm "RectX Not Respond" appears in the Active Alarm page of the SCU display ("Rect Lost" in the Active Alarm page of the ACU display.
2. Pull out one rectifier.
The green and the red LEDs on the SCU/ACU emit light.
3. Insert the rectifier. The rectifier starts and the alarm ceases.
4. Repeat item 2 and 0 for all rectifiers in the system.
5. Disconnect the incoming mains to the rectifiers.
Alarm "Mains Fault" (Mains Failure) appears in the Active Alarm page of the SCU/ACU display.
5. Disconnect the incoming mains to the rectifiers.
The green and the red LEDs on the SCU/ACU emit light. The green and the yellow LEDs on the rectifiers emit light.
6. Restore the incoming mains to the rectifiers.
The alarm ceases.
1532-BZA 108 35 Uen Rev A 2006-12-11
7(10)
TEST INSTRUCTIONS - BZA 108 35
Item Action Result Comments (V means OK)
7. If possible, disconnect the AC mains supply for one rectifier.
Alarms "Rect AC Fault", "AC Voltage Low", "Rect Protect" and "Rect Derated" appear in the Active Alarm page of the SCU display. (Alarms "Rect AC Failure", "Power Lmt-Rect" and "Rect Protected" appear in the Active Alarm page of the ACU display.)
7. If possible, disconnect the AC mains supply for one rectifier.
The green and the yellow LEDs on the SCU/ACU and the rectifier emit light.
8. Restore the AC mains supply to the rectifier.
The alarms cease.
9. Repeat item 7 and 8 for all rectifiers in the system.
10. Switch off one battery circuit-breaker.
Alarm "Batt Fuse Alarm" appears in the Active Alarm page of the SCU display.
10. Switch off one battery circuit-breaker.
An alarm LED on the SCU/ACU and a red LED on the battery CB alarm board emit light.
11. Switch on the battery CB. The alarms cease.
12. Repeat item 10 and 11 for all battery CBs of the system.
13. Switch off one free (not used) distribution CB and connect a small load to it.
Alarm "Load Fuse Alarm" (DC Fuse) appears in the Active Alarm page of the SCU/ACU display.
13. Switch off one free (not used) distribution CB and connect a small load to it.
An alarm LED on the SCU/ACU emits light.
14. Remove the load from the distribution CB.
The alarm ceases.
15. Check that all the values are correctly set. See document TABLES OF SET VALUES 3/1532-BMP903 051 Uen for the SCU and 3/1532-BMP 903 050 Uen for the ACU.
1532-BZA 108 35 Uen Rev A 2006-12-11 8(10)
TEST INSTRUCTIONS - BZA 108 35
6 Final steps
Item Action Comments (V means OK)
1. Disconnect any test equipment that has been connected to the system and make sure that materials not belonging to the equipment have been removed.
2. Restore the equipment to its original condition.
3. Check and hand over the customer documents to the client.
4. Check and hand over contracted spare parts, if any.
5. Make sure that all the actions taken have been noted in the logbook, stating at what time and the name of the person who took the actions.
If a deficiency remains in the equipment, personnel responsible for the contract shall be informed.
If a unit shall be sent for repair, contact Emerson Network Power Energy Systems AB.
1532-BZA 108 35 Uen Rev A 2006-12-11
9(10)
TEST INSTRUCTIONS - BZA 108 35
Plant:
Date:.
Emerson representative:
Customer representative:
Emerson Network Power Energy Systems AB SE-141 82 Stockholm
Sweden
Tel. +46 8 721 6000 Fax. +46 8 721 7177 www.emersonenergy.com
1532-BZA 108 35 Uen Rev A 2006-12-11 10(10)