Vertiv HPL User manual
Vertiv™ HPLLithium-Ion Energy Storage System
Operation Guide
Vertiv™ | Vertiv™ HPLLithium-Ion Energy Storage System Operation Guide
Technical Support Site
If you encounter any installation or operational issues with your product, check the pertinent section of this
manual to see if the issue can be resolved by following outlined procedures.
Visit https://www.vertiv.com/en-us/support/ for additional assistance.
The information contained in this document is subject to change without notice
and may not be suitable for all applications. While every precaution has been
taken to ensure the accuracy and completeness of this document, Vertiv
assumes no responsibility and disclaims all liability for damages resulting from
use of this information or for any errors or omissions. Refer to other local
practices or building codes as applicable for the correct methods, tools, and
materials to be used in performing procedures not specifically described in this
document.
The products covered by this instruction manual are manufactured and/or sold
by Vertiv. This document is the property of Vertiv and contains confidential
and proprietary information owned by Vertiv. Any copying, use or disclosure of
it without the written permission of Vertiv is strictly prohibited.
Names of companies and products are trademarks or registered trademarks of
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should be directed to the original manufacturer.
TABLE OF CONTENTS
Important Safety Instructions 1
1 Overview 1
1.1 Module Numbering Scheme 1
2 Equipment Handling 3
2.1 Door Sensor 3
2.2 Power Chassis Assembly 3
2.3 Local Interface 4
2.3.1 Liquid Crystal Display 5
2.3.2 Enable and Stop buttons 6
3 Operation 7
3.1 Startup 7
3.2 Shutdown 7
3.3 LEDs 8
3.3.1 DC Bus Connection/Disconnection Logic 8
4 Modbus Communication 9
4.1 Transmission Format 9
4.2 Transaction Format 9
4.2.1 Device IP address 9
4.2.2 Function code 9
4.2.3 Reference number 10
4.2.4 Word Count 10
4.2.5 Example 10
4.3 Modbus Register Mapping 10
4.3.1 Common Data 10
4.3.2 System Data 11
Appendices 27
Appendix A: Technical Specifications 27
Appendix B: Warnings and Faults 29
Appendix C: Cabinet Terminal Block 32
Vertiv | Vertiv™ HPLLithium-Ion Energy Storage System Operation Guide | i
Vertiv | Vertiv™ HPLLithium-Ion Energy Storage System Operation Guide | ii
IMPORTANT SAFETY INSTRUCTIONS
Read and follow these instructions!
The following precautions are intended to ensure your safety and prevent property damage. Before installing this product,
be sure to read all safety instructions in this document for proper installation.
Failure to comply with the instructions with this symbol may result in a serious accident, causing death or a severe injury.
WARNING! Failure to comply with the instructions with this symbol may result in a serious accident, causing
severe injury or death.
CAUTION: Failure to comply with the instructions with this symbol may result in minor or moderate injury.
NOTE: Provides information considered important but not hazard-related. The information relates to property
damage.
IMPORTANT! Indicates valuable tips for optimal installation and operation of the product.
1
DANGER
Indicates a hazardous condition that will result in serious injury or death if not avoided.
WARNING
Indicates a hazardous condition that could result in serious injury or death if not avoided.
CAUTION
Indicates a hazardous condition that could result in minor or moderate injury if not avoided.
DANGER
Indicates a hazardous condition that will result in property damage if not avoided.
ENERGY STORAGE DEVICE
Avoid burns or electric shock:
•Service by properly trained and qualified personnel only.
•Disconnect charger and verify no voltage present before maintenance.
•Turn Off the battery system and lock-out/tag-out before maintenance.
ELECTRIC SHOCK HAZARD
Do not remove cover or disassemble.
SHIELD EYES
Wear safety goggles at all times during installation, maintenance or removal. Observe personal
protective equipment (PPE)rules at all times.
ELECTROLYTE HAZARD
Avoid contact with skin, eyes or clothing. If contact happens, immediately flush with water and seek
medical attention immediately.
DO NOT DISPOSE IN TRASH
Transport legally and follow the manufacturer's instructions for disposal. Please recycle your lithium-ion
battery - do not discard.
GROUND
This symbol indicates a ground point. Ground wires must be connected to a point with this symbol.
Table 1.1 Safety Symbols
Vertiv™ | Vertiv™ HPLLithium-Ion Energy Storage System Operation Guide
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1 OVERVIEW
The Vertiv™ HPLLithium-Ion Energy Storage System is a high-power DCbattery system for use with Vertiv Uninterruptible
Power Supply (UPS) units, including the Liebert® EXL S1, Liebert® NXL, Liebert® EXM 480V, Liebert® NX and Liebert®
Series 610 products. This guide provides information necessary to operate the Vertiv HPL correctly.
This guide is for use with Vertiv HPL's that have been installed by Vertiv service personnel.
For technical specifications, see Appendices on page 27.
WARNING! Failure to follow safety procedures during use of this product may result in hazardous operation
resulting in death, serious injury or property damage.
WARNING! High Voltage - Electric Shock Hazard. The Vertiv HPL contains high-voltage electric shock
sources. Do NOTopen any cover of the Vertiv HPL enclosure, other than the front door.
1.1 Module Numbering Scheme
The following image shows the module numbering scheme and location of the cabinet terminal block (CTB).
Figure 1.1 Module Numbering Overview
1 Overview 1
ITEM DESCRIPTION ITEM DESCRIPTION
1 Module 1 5 Module 5
2 Module 2 6 Module 6
3 Module 3 7 Power Chassis Assembly (PCA)
4 Module 4 8 Cabinet Terminal Block (CTB)
Table 1.1 Module Descriptions
Refer to Vertiv™ submittal drawings for signal wiring requirements and interconnection assignments, based on UPS type.
The following table lists which drawings to refer to for each UPS.
UPSTYPE SUBMITTAL DRAWING
Liebert® EXL S1
Liebert® NXL
Liebert® NX 225-600
HPL-19-S001
HPL-19-S005
HPL-19-S006
Liebert® EXM 480V
HPL-19-S002
HPL-19-S004
HPL-19-S005
Liebert® Series 610
With Module Battery Disconnect
HPL-19-S005
HPL-19-S011
HPL-19-S012
Liebert Series 610
No Module Battery Disconnect
HPL-19-S005
HPL-19-S009
HPL-19-S010
Table 1.2 UPS Submittal Drawings
APPLICABLE EQUIPMENT SUBMITTAL DRAWING
Cabinet with Conduit Box HPL-05-S001
Cabinet without Conduit Box HPL-05-S002
Technical Information HPL-03-S001
Seismic Anchoring HPL-17-S001
Product Handling HPL-24-S001
Table 1.3 Other Submittal Drawings
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2 EQUIPMENT HANDLING
2.1 Door Sensor
Inside the enclosure at the upper right is a door sensor to indicate when the door is open or closed. If the door is open for
more than 60 seconds, a fault is indicated and the enclosure is disconnected from the DC bus.
2.2 Power Chassis Assembly
The power chassis assembly (PCA)is a 4Uenclosed section that controls the connection of the battery enclosure to the
DCbus. The PCAmonitors each battery module's voltage and temperature to ensure operation within the manufacturer's
specified limits throughout the life of the product.
IMPORTANT! Operation of the Vertiv™ HPLLithium-Ion Energy Storage System outside its recommended
environmental or power limits may void the warranty.
Figure 1.2 Power Chassis Assembly
ITEM NAME DESCRIPTION
1S1 maintenance disconnect with lock-out,
tag-out feature
Used to isolate the battery rack from the DC bus.
Warning!:Do not operate when the CTL PWRBREAKER is closed, except as specifically directed
when logged in to the service console.
2Service power input jack (120VAC
50/60Hz)
For use by Vertiv™ service personnel only. Provides control power for servicing the unit when battery
power is unavailable.
3 RUN/SERVICE key switch For use by Vertiv service personnel under guidance from tech support only.
4Control power breaker (CTLPWR) and
shunt trip Interrupts control power from the battery.
5 Battery (BATT)interface Communications connection to battery modules.
6 100BT interface Ethernet interface for Modbus/TCP.
Table 1.4 Power Chassis Assembly Descriptions
2 Equipment Handling 3
ITEM NAME DESCRIPTION
7 USBinterface Connection for retrieving data logs and commissioning information.
8 CONSOLE interface RS-232 interface for Vertiv service personnel use only.
9 SD card interface Contains the BMS firmware and data logs.
Important:Never remove the SDcard from the SDslot on the PCA during operation.
Table 1.4 Power Chassis Assembly Descriptions (continued)
NOTICE! Risk of improper equipment operation. Can cause serious damage to the Vertiv HPL. The S1 maintenance
disconnect is a static isolation and lockout device only and should not be operated while the Vertiv HPL is online.
Doing so will damage the equipment. To open the disconnect you must follow the procedure below.
To open the S1 maintenance disconnect:
1. Verify that the RUN/SERVICE key switch is in the RUN position.
2. Press and hold the STOPbutton for 5 to 10 seconds or until the STOP and ENABLELED's turn red.
3. After 45 seconds, the CTLPWR BREAKER opens, indicating it is safe to open the S1.
To close the S1 maintenance disconnect:
1. Verify the CTLPWRBREAKERis open.
2. Verify the RUN/SERVICEkey switch is in the RUNposition.
3. Close the S1.
4. Close the CTLPWRBREAKER.
2.3 Local Interface
A liquid crystal display and push buttons on the front door of the Vertiv™ HPLLithium-Ion Energy Storage System provide
information on the status of the energy storage system.
Figure 1.3 Local Interface
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ITEM DESCRIPTION
1 LCD
2ENABLE button
3STOP RESET button
Table 1.5 Local Interface Descriptions
Along with the Modbus/TCP interface, the local interface is the primary means of interacting with the Vertiv HPL.
For more information about the Modbus interface, see Modbus Communication on page 9.
2.3.1 Liquid Crystal Display
Figure 1.4 LCDLayout
ITEM NAME DESCRIPTION
1Rack status
(ENABLED/DISABLED) ENABLED means the rack is connected to the DC bus. DISABLED means the rack is not connected to the DC bus.
2 Rack mode Displays the mode of the rack - ONLINE, SHUTDOWN, FAULT, SERVICE or WAITING.
3 Battery status Displays whether the battery is charging, discharging or floating at the top of a charge.
4 Seconds Remaining Displays the number of seconds remaining until the battery is exhausted. When not discharging, this is an estimate
based on the last observed discharge.
5 kW Displays the actual power charge/discharge in kilowatts. This reading is always positive.
6 Fault/Warning display Rotates between displaying faults and warnings.
7 Voltage and Current Displays actual battery voltage and actual current charge/discharge. This reading is always positive.
8 State of Charge (SOC) Displays the percentage charge of the battery.
9 Rack number Displays the number of the rack in the system.
Table 1.6 LCD Layout Descriptions
For warning and fault descriptions, see Warnings and Faults on page 29.
2 Equipment Handling 5
2.3.2 Enable and Stop buttons
The ENABLE button is at the right of the local interface. This button enables the Vertiv™ HPLLithium-Ion Energy Storage
System to join the DC bus when conditions are right. Until that time, the rack will be in WAITING mode, as evidenced by the
flashing LED (color dependent on the rack status) around the ENABLE button.
The STOP RESET button is at left of the local interface. This push button disconnects the rack from the DC bus when it is
online or, if a fault exists, resets the fault indication.
NOTE: If a fault still exists after pressing the button, pressing RESET a second time resets the fault indication if the
condition has cleared.
For more information on the ENABLE and STOP buttons, see LEDs on page 8.
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3 OPERATION
The following section will help you startup and operate your Vertiv™ HPLLithium-Ion Energy Storage System.
3.1 Startup
For the Vertiv™ HPLLithium-Ion Energy Storage System to operate properly, the maintenance disconnect and key status
settings must be configured correctly.
WARNING! If the UPSis powered Off but the battery does not display UPS
NOT READY, do not operate the
Vertiv HPL until verifying the correct BIBconfiguration.
NOTICE! Risk of improper equipment operation. Can cause serious damage to the Vertiv HPL. The S1 maintenance
disconnect is a static isolation and lockout device only and should not be operated while the Vertiv HPL is online.
Doing so will damage the equipment.
NOTE: On initial startup, the STOPbutton illuminates solid red, indicating no faults and disconnected from the DC
bus.
To start the system:
1. Ensure the UPSand charger are both On.
2. Perform the following, in order:
a. Turn the maintenance disconnect (S1)On(Closed).
b. Turn the CTLPWRcircuit breaker On(Closed).
c. Put the Key status in the RUN position on all racks.
3. Ensure all doors to enclosures are closed on all racks.
4. Working from Rack 1, press the Enable button twice. If the DC bus is not present or is too high or too low, the
green or blue LEDon the Enable button will flash slowly to indicate the rack is waiting to join the DC bus.
NOTE: Racks join the bus automatically in sequence. This process may take several minutes.
5. Observe that all rack LEDs indicate ONLINE (solid green or blue).
NOTE: To disconnect a rack, press and release the Stop button. Confirm by pressing and releasing the Stop button a
second time.
WARNING! Do not remove power from the rack without following the power-Off sequence.
3.2 Shutdown
To power Off the Vertiv™ HPLLithium-Ion Energy Storage System:
Press and hold the STOP button for 8 seconds. The battery circuit breaker trips after approximately 45 seconds, which
indicates the rack is powered down.
NOTE: While the rack is powering Off, the display shows POWEROFF REQUEST.
NOTE: When the UPSis powered Off, the display shows UPS NOT READY.
7
3.3 LEDs
Each push button on the local interface has corresponding LEDindicators to provide feedback on the status of the Vertiv™
HPLLithium-Ion Energy Storage System. LED Descriptions on page 8 describes the rack LEDs.
WARNING! Both LEDs being solid red indicates the BMSsoftware is not running. When the BMSsoftware is
not running, the rack is disconnected from the DC bus.
LED DESCRIPTION
Stop Button
Off Indicates the Enable LEDis in use. May also indicate the whole system is powered Off.
Solid Red The rack is disabled and disconnected.
Flashing Red Fault detected and the rack is disconnected from the DC bus. See the local display for the cause of the fault.
Enable Button
Off Indicates the Stop LEDis in use. May also indicate the whole system is powered Off.
Solid Red The BMSsoftware is not running. Contact Vertiv™ Technical Support.
Solid Yellow The DC busis connected. Awarning exists, but the system is operational.
Solid Blue The DC busis connected, but the battery is not fully charged.
Solid Green The DC busis connected, and the battery is fully charged.
Flashing White Service mode is activated. This is for Vertiv™ service personnel only.
Flashing The rack is waiting to connect to the DC bus. Flashing any color indicating status.
Table 2.1 LED Descriptions
3.3.1 DC Bus Connection/Disconnection Logic
The Vertiv™ HPLLithium-Ion Energy Storage System enclosure has several means to ensure that it is not exposed to
overcurrent conditions, especially when joining the DC bus. Reasons for overcurrent include high voltage difference between
the battery rack and the DC bus and/or mismatch in state of charge (SOC) between batteries on the DC busand those
attempting to connect.
In single-rack systems, the BMS generally joins the DC buswhen enabled without waiting unless:
•The UPSis not ready.
•The DC voltage is greater than 550VDC.
•The DC voltage is less than 410VDC.
For multi-rack systems (in addition to the reasons shown previously):
•The system waits until all non-faulted racks in the system are enabled.
•Thereafter, the rack with the lowest SOC joins the DC busfirst. Other racks wait until the DC bus(with the low
SOC rack) voltage falls within a window of a few volts, which minimizes inrush currents and reduces stress on
the batteries. Depending on the charge rate of the UPS charger and the SOC of the batteries, this may take
minutes or up to an hour.
•In extreme cases the UPS charger voltage might need to be lowered to minimize inrush current for extremely
low SOC battery racks.
Vertiv™ | Vertiv™ HPLLithium-Ion Energy Storage System Operation Guide
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4 MODBUS COMMUNICATION
The Modbus protocol provides data acquisition, through query and response, between master and slave devices. This
protocol comprises the rules for communication, controlling the message format between devices, how master and slave
devices initiate communications, as well as unit identification, message-handling and error-checking.
4.1 Transmission Format
The Vertiv™ HPL BMS interface supports Modbus TCP/IP transmission mode. The BMS will act as a slave device on the
TCP Ethernet network.
•Transmission mode: TCP/IP
•TCP port number: 502
•50 maximum client connections
4.2 Transaction Format
Each Modbus transaction consists of the following data:
•Device IP Address
•Function Code
•Reference Number (offset)
•Word (16-bit) Count
4.2.1 Device IP address
The BMS (slave) address should consist of a standard, unique IPv4 address. Only the addressed slave will respond to a
query that contains its IP address.
4.2.2 Function code
The function code field tells the addressed slaves what function to perform. Function codes are designed to invoke a specific
action by the slave device. The function code ranges from 1 to 127. The Vertiv™ HPL Modbus server supports the following
Modbus function codes, yet the initial release will only include Input Registers for read-only. For all function codes, the
requester specifies the starting address and the number of coils, discretes or registers. For each function type of register, the
starting register is listed along with the end range value.
CODE FUNCTION DESCRIPTION
01 Read Coils
Read from 1 to 2000 contiguous status of coils managed by the server. The response message packs the coil status one per bit
of a byte, 1=On, 0=Off. If the requested number of coil statuses are not a multiple of 8, then zeros are padded in the final byte.
Starting Register: 1 (9999)
02
Read
Discrete
Inputs
(Status)
Read from 1 to 2000 contiguous input statuses managed by the server. The response message packs the discretes as one per bit
of a byte, 1=On, 0=Off. If the requested number of inputs are not a multiple of 8, then zeros are padded in the final byte. Starting
Register: 10001 (19999)
03
Read
Holding
Registers
Read from 1 to 125 contiguous holding registers. Register data in the response message are packed as two bytes per register, with
the first byte containing the high order bits. Starting Register: 40001 (49999)
Table 3.1 Function Code Descriptions
9
CODE FUNCTION DESCRIPTION
04 Read Input
Registers
Read from 1 to 125 contiguous input registers. Register data in the response message are packed as two bytes per register, with
the first byte containing the high order bits. Starting Register: 30001 (39999)
05 Write Single
Coil Write a single output to either On (1) or Off (0) of the status of a mapped coil register.
06 Write Single
Register Write a two-byte value to a single holding register.
15
Write
Multiple
Coils
Used to force each coil, in a sequence of coils, to either On (1) or Off (0).
16
Write
Multiple
Registers
Write values to a block of registers ranging from 1 to 120.
Table 3.1 Function Code Descriptions (continued)
4.2.3 Reference number
The reference number field provides the slave BMS with the offset register value for the given function code designated
register start point. This field value will be added to the function code starting address for the actual register value.
4.2.4 Word Count
The word count field represents the number of 16-bit registers requested to be read or written.
4.2.5 Example
A Modbus client requests a BMS at the IP address of 126.4.91.4 to read 125 Input registers starting at register 36001.
•Device IP Address: 126.4.91.4
•Function Code: 04
•Reference Number: 6000
•Word Count: 125
4.3 Modbus Register Mapping
4.3.1 Common Data
DATA DESCRIPTION INPUT
REGISTER REFERENCE # # OF
REG SCALE UNITS NOTES
Common Data
BMS Protocol
Major/Minor 30001 0 (0x0h) 1
Major –
upper 8 bits
Minor –
lower 8 bits
Enclosure Position 30002 1 (0x1h) 1 Range: 1 - 32
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4.3.2 System Data
DATA DESCRIPTION INPUT REGISTER REFERENCE # # OF REG SCALE UNITS NOTES
BMS Enclosure Count 30101 100 (0x64h) 1 1 Range: 1 - 32
System Status Flags 30201 200 (0xC8h) 1 1
System Warning
LED Sync
Unable To Carry Load
Faulted Racks
Mains Fail
System Target SOC 30202 201 (0xC9h) 1 10 % Range: 0 - 1000
System Average SOC 30203 202 (0xCAh) 1 10 % Range: 0 - 1000
System Runtime Remaining 30204 203 (0xCBh) 1 1 sec Range: 0 - 1800
System Enclosure Online Count 30205 204 (0xCCh) 1 1 Range: 0 - 32
System Enclosure Fault Count 30206 205 (0xCDh) 1 1 Range: 0 - 32
System Enclosure Enabled Count 30207 206 (0xCEh) 1 1 Range: 0 - 32
System Enclosure Communications Fault Count 30208 207 (0xCFh) 1 1 Range: 0 - 32
System DC Bus Voltage 30209 208 (0xD0h) 1 1 VDC Range: 380 - 600
System Current 30210 209 (0xD1h) 1 1 A Range: -32768 - 32768
System DC Power 30211 210 (0xD2h) 1 1 kW Range: -32768 - 32768
Table 3.2 System Data Descriptions
DATA
DESCRIPTION
INPUT
REGISTER REFERENCE#
#
OF
REG
SCALE UNITS NOTES
Enclosure 1
Enclosure 1
Battery Count 31001 1000 (0x3E8h) 1 1 Range: 1 – 32
Enclosure 1
Enabled 31002 1001 (0x3E9h) 1 1
Enclosure 1
Status 1 31003 1002 (0x3EAh) 2 1
Cell Over Voltage (0), Cell Under Temp, Cell Over Temp, High SOC,
CAN0 Error, CAN1 Error, CAN Not Running, PEER Not Running, IOD Not
Running, Low Battery, End Of Discharge, Module Comms Error,
Balancing Active, Data Valid, Warning Status, FAULT Mode, Rack
Enabled, Rack Online, Check Main Contactor, Door Open, Service Mode,
C1 Closed, C2 Closed, Rack At Target SOC, IOB Override, Under Voltage,
Over Voltage, WD Fault, Over Temp, Discharge Over Current, Charge
Over Current, Cell Under Voltage (31)
Table 3.3 Enclosure Data Descriptions
4 Modbus Communication 11
DATA
DESCRIPTION
INPUT
REGISTER REFERENCE#
#
OF
REG
SCALE UNITS NOTES
Enclosure 1
Status 2 31005 1004 (0x3ECh) 2 1
Disconnect Open (0), Stop Btn Depressed, Enable Btn Depressed, Serv
Mode - Close C1, Serv Mode - Close C2, Configure Error, High DC Bus
Voltage, Temp Above - Dischrg, Float Current, Discharging, Pwr Supp
Redund Loss, Auto Join, BMS Low Memory, Replace Main Contactor,
Overload Possible, MBB Board Overtemp, UPS Ready, Module Fault,
Stop Request, Start Request, MBB Volt/Temp Delta, Simulated IOB Fault,
IOB Frame Error, Low Bus Voltage, High Delta Voltage, Reset Fault
Required, Mains Fail, Confirmation Required, RED P/S Fuse Blown, POS
BATT Fuse Blown, DVT Mode, Busbar Over Temp (31)
Enclosure 1
Status 3 31007 1006 (0x3EEh) 2 1
Disconnect Requested (0), Check Contractor (16), Temperature Fault,
Battery Voltage Fault, Calibration Reqd, Charge Voltage Low, DCBus
Voltage Fault, Current Fault, Power Off Request, Reboot Request,
Loopback Fault, UPSNot Talking, MBBTemp Fault, MBBVoltage Fault,
IOBReg PSFailure. Force CIBOverride, Polarity Fault (31).
Enclosure 1
Target SOC 31018 1017 (0x3F9h) 1 10 % Range: 0 – 1000
Enclosure 1
Percent
Charged
31019 1018 (0x3FAh) 1 10 % Range: 0 – 1000
Enclosure 1
Runtime
Remaining
31020 1019 (0x3FBh) 1 1 sec Range: 0 – 1800
Enclosure 1 DC
Bus Voltage 31021 1020 (0x3FCh) 1 1 VDC Range: 380 - 600
Enclosure 1 DC
Power 31022 1021 (0x3FDh) 1 1 kW Range: -32768 - 32768
Enclosure 1
Battery
Voltage
31023 1022 (0x3FEh) 1 10 VDC Range: 0 - 65535
Enclosure 1
Battery
Current
31024 1023 (0x3FFh) 1 10 A Range: -32768 - 32768
Enclosure 1
Battery
Temperature
Min
31025 1024 (0x400h) 1 10 °C Range: -3000 - 3000
Enclosure 1
Battery
Temperature
Max
31026 1025 (0x401h) 1 10 °C Range: -3000 - 3000
Enclosure 1
Battery Cell
Voltage Min
31027 1026 (0x402h) 1 1000 VDC Range: 0 – 6000
Table 3.3 Enclosure Data Descriptions (continued)
Vertiv™ | Vertiv™ HPLLithium-Ion Energy Storage System Operation Guide
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DATA
DESCRIPTION
INPUT
REGISTER REFERENCE#
#
OF
REG
SCALE UNITS NOTES
Enclosure 1
Battery Cell
Voltage Max
31028 1027 (0x403h) 1 1000 VDC Range: 0 – 6000
Enclosure 1
Temperature
Values per
Battery
35001 5000
(0x1388h) 1 1 Range: 1 – 10
Enclosure 1
Battery Temp
1
35002 5001
(0x1389h) 1 10 °C Range: -3000 - 3000
Enclosure 1
Battery Temp
2
35003 5002
(0x138Ah) 1 10 °C Range: -3000 - 3000
::: ::: ::: ::: ::: ::: :::
Enclosure 1
Battery Temp
12
35013 5012
(0x1394h) 1 10 °C Range: -3000 - 3000
Enclosure 1
Cell Voltages
Per Battery
36001 6000
(0x1770h) 1 1 Range: 1 – 32
Enclosure 1
Cell Voltage 1 36002 6001
(0x1771h) 1 1000 VDC Range: 0 – 6000
Enclosure 1
Cell Voltage 2 36003 6002
(0x1772h) 1 1000 VDC Range: 0 – 6000
::: ::: ::: ::: ::: ::: :::
Enclosure 1
Cell Voltage
132
36133 6132
(0x17F4h) 1 VDC Range: 0 - 6000
Enclosure 2
Enclosure 2
Battery Count 31101 1100 (0x44Ch) 1 1 Range: 1 - 32
Enclosure 2
Enabled 31102 1101 (0x44Dh) 1 1
Enclosure 2
Status 1 31103 1102 (0x44Eh) 2 1 See Enclosure 1 Status 1.
Enclosure 2
Status 2 31105 1104 (0x450h) 2 1 See Enclosure 1 Status 2.
Enclosure 2
Status 3 31107 1106 (0x452h) 2 1 See Enclosure 1 Status 3.
Enclosure 2
Target SOC 31118 1117 (0x45Dh) 1 10 % Range: 0 - 1000
Table 3.3 Enclosure Data Descriptions (continued)
4 Modbus Communication 13
DATA
DESCRIPTION
INPUT
REGISTER REFERENCE#
#
OF
REG
SCALE UNITS NOTES
Enclosure 2
Percent
Charged
31119 1118 (0x45Eh) 1 10 % Range: 0 - 1000
Enclosure 2
Runtime
Remaining
31120 1119 (0x45Fh) 1 1 sec Range: 0 - 1800
Enclosure 2 DC
Bus Voltage 31121 1120 (0x460h) 1 1 VDC Range: 380 - 600
Enclosure 2 DC
Power 31122 1121 (0x461h) 1 1 kW Range: -32768 - 32768
Enclosure 2
Battery
Voltage
31123 1122 (0x462h) 1 10 VDC Range: 0 - 65535
Enclosure 2
Battery
Current
31124 1123 (0x463h) 1 10 A Range: -32768 - 32768
Enclosure 2
Battery
Temperature
Min
31125 1124 (0x464h) 1 10 °C Range: -3000 - 3000
Enclosure 2
Battery
Temperature
Max
31126 1125 (0x465h) 1 10 °C Range: -3000 - 3000
Enclosure 2
Battery Cell
Voltage Min
31127 1126 (0x466h) 1 1000 VDC Range: 0 – 6000
Enclosure 2
Battery Cell
Voltage Max
31128 1127 (0x467h) 1 1000 VDC Range: 0 – 6000
Enclosure 2
Temperature
Values per
Battery
35051 5050
(0x13BAh) 1 1 Range: 1 - 10
Enclosure 2
Battery Temp
1
35052 5051
(0x13BBh) 1 10 °C Range: -3000 - 3000
Enclosure 2
Battery Temp
2
35053 5052
(0x13BCh) 1 10 °C Range: -3000 - 3000
::: ::: ::: ::: ::: ::: :::
Enclosure 2
Battery Temp
12
35063 5062
(0x13C6h) 1 10 °C Range: -3000 - 3000
Table 3.3 Enclosure Data Descriptions (continued)
Vertiv™ | Vertiv™ HPLLithium-Ion Energy Storage System Operation Guide
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