China Lithium ion battery manufacturer | Lithtech Energy
User Manual for LITHTECH models including: TW6000-PRO Energy Storage System, TW6000-PRO, Energy Storage System, Storage System
Cerbo plus Litech TW6000 pro - Victron Community
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DocumentDocumentEnergy Storage System TW6000-PRO Manual
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Manual for Energy Storage SystemTW6000(6000P)
Legal Notices
The copyright of this product belongs to Shenzhen Lithtech Energy Co., Ltd. Without the written permission of the copyright party, no unit or individual may extract, reproduce or translate in any way.
Infringement must be investigated.
This product complies with the design requirements for environmental protection and personal safety. The storage, use and disposal of the product should be in accordance with the requirements of the product manual, relevant contract or corresponding national laws and regulations.
When there is a product update or a technical change, you can inquire related information through the technical support website of Shenzhen Lithtech Energy Co., Ltd. Website:http://www.ltc-energy.com/ If this product is improved or technically changed without notice.
Version 1.0
Date 2021.02.25
Content Initial Release
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Manual for Energy Storage SystemTW6000(6000P)
Precautions
Warning
1.It is strictly forbidden to place the battery in water or fire, so as to avoid explosion or other dangers, endangering personal safety.
2. Please connect the cables properly during installation, do not reverse the positive and negative poles; do not directly connect the positive and negative poles of the battery with a conductor (such as a wire) to avoid short-circuiting the battery.
3.Do not strike the battery with a needle, hit it with a hammer, step on it hard, or otherwise.
4.During use, when the system needs to be moved or rewired, the power must be completely cut off and the system must be completely shut down, otherwise there will be danger of electric shock.
5.In case of fire, please use dry powder fire extinguisher to extinguish the fire. Using liquid fire extinguisher may cause secondary danger.
6.Under no circumstances, please do not disassemble any part of the system without our company or technical personnel authorized by our company, in order to prevent danger or injury to your personal safety, and the equipment failure caused by this is not covered by the warranty.
Remind
1.The product has been strictly inspected before shipment. If you find that the purchased product has abnormal phenomena such as obvious deformation and odor, please contact us in time.
2.In order to ensure the normal use and safety of the product, the equipment must be reliably grounded before use.
3.In order not to affect the normal use, please ensure that the electrical parameters of the related equipment are compatible and compatible with each other before use.
4.Do not mix batteries from different manufacturers, different types, different models, and old and new batteries.
5.The use environment and storage methods have a certain impact on the service life and reliability of this product, so environmental factors must be fully considered before installation and use to ensure that the system is used in a suitable environment.
6.For long-term storage, the battery needs to be recharged once every 6 months, and the recharged power should exceed the rated capacity by 80%.
7.After the battery is discharged to over-discharge protection, it should be recharged within 24 hours. The theoretical battery discharge time is: t = C / I (t is the discharge time, C is the battery capacity, and I is the total load current.)
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Manual for Energy Storage SystemTW6000(6000P)
Foreword
Manual Description
TW6000(6000P) lithium iron phosphate battery storage system can provide power storage function for photovoltaic power generation users through parallel combination. During the day, the excess power of solar energy can be stored in the battery, and at night or when needed, the stored energy is used to power electrical equipment, which can improve the efficiency of solar energy, peak shaving, and emergency power backup.
This user manual system introduces the basic structure, parameters, installation, operation and maintenance of the equipment in detail.
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Manual for Energy Storage SystemTW6000(6000P)
Contents
1.Introduction.................................................................................................................................................1 1.1 Introduction................................................................................................................................................1 1.2 Product Features........................................................................................................................................ 1 Product Identification Definition................................................................................................................. 2 2 Specifications...............................................................................................................................................3 2.1 Size & weight............................................................................................................................................ 3 2.2 Performance parameter..............................................................................................................................3 2.3 Interface Definition....................................................................................................................................3
2.3.1 Definition and description of DIP switch.........................................................................................4 2.3.2 Indicator definition and description.................................................................................................5 2.3.3 Buzzer action description.................................................................................................................. 6 2.3.4 Button description..............................................................................................................................6 2.3.5 Sleep and wake................................................................................................................................... 6 2.3.6 RS232 communication....................................................................................................................... 7 2.3.7 CAN communication......................................................................................................................... 7 2.3.8 RS485 communication....................................................................................................................... 7 2.4 Battery Management SystemBMS.................................................................................................... 8 2.4.1 Low Voltage Protection..................................................................................................................... 8 2.4.2 Current Protection.............................................................................................................................8 2.4.3 Temperature Protection.................................................................................................................... 8 2.4.4 Other Protection.................................................................................................................................9 3 Installation and configuration................................................................................................................... 9 3.1 Installation&Prepration..............................................................................................................................9 3.1.1 Environment Requirement............................................................................................................... 9 3.1.2 Tools.................................................................................................................................................. 10 3.1.3 Technical preparations.................................................................................................................... 10 3.1.4 Unpacking inspection.......................................................................................................................10 3.1.5 Engineering coordination................................................................................................................ 12 3.2 Equipment installation............................................................................................................................. 12 3.2.1 Preparation for installation.............................................................................................................12 3.2.2 Mechanical installation....................................................................................................................13 3.2.3 Electrical installation....................................................................................................................... 14 4. Using, maintenance and troubleshooting.............................................................................................. 16 4.1 battery system use and operation instructions......................................................................................... 16 4.2 Alarm Description and Solution.............................................................................................................. 17 4.3 Analysis and solution of common faults................................................................................................. 17
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Manual for Energy Storage SystemTW6000(6000P)
1.Introduction
1.1 Introduction
The TW6000(6000P) lithium iron phosphate battery system is a standard battery system unit. Customers can choose a certain quantity of TW6000(6000P) according to their needs, and form a larger capacity battery pack in parallel to meet users' long-term power supply needs. The product is especially suitable for applications with high operating temperature, limited installation space and long service life.
1.2 Product Features
The TW6000(6000P) battery system uses lithium iron phosphate as the battery anode material and is equipped with a high-performance BMS to effectively manage the battery cells. The system has the following characteristics: Meet European ROHS regulations, pass SGS certification, use the best non-toxic and
pollution-free battery; The battery anode is made of lithium iron phosphate (LiFePO4) material, which has good
safety performance and long cycle life; Adopt high-performance BMS battery management mode, with over-discharge, over-charge,
over-current, temperature and other protection functions; With charge and discharge automatic management and single cell balance function; Fully intelligent design, equipped with a centralized monitoring module, with three remote
(telemetry, remote signaling and remote control) functions; Flexible configuration, multiple system units connected in parallel can extend the power
supply time of the system; Self-cooling method, the whole system has extremely low noise; The battery has less self-discharge, and it can be recharged for up to 10 months during
storage; no memory effect, shallow charging and discharging; Wide temperature working range, -20 ~ + 55 , good cycle life and discharge
performance at normal temperature;
Small battery size and light weight.
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Manual for Energy Storage SystemTW6000(6000P)
Product Identification Definition
Voltage of battery is higher than safety voltage, it's dangerous to touch Operate carefully. Read manual before operation Default battery can't be thrown to trash can. Please recycle the battery after serving CE standards are met.
The DANGER label is attached.
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Manual for Energy Storage SystemTW6000(6000P)
2 Specifications
2.1 Size & weight
Table 2-1 TW6000(6000P) Standard sizes Product Series Rated Voltage Rated Capacity
Dimensions
TW6000(6000P) 48V(51.2V)DC
210Ah
780*556*199mm
Weight 84kg
2.2 Performance parameter
Table 2-2 Performance parameter table Nominal Voltage
Working voltage range Nominal Capacity Nominal Energy Standard power Max power 3S peak power 3S peak current Charging current Discharging current
48V(51.2V) 42~54V(44.8~57.6V)
210Ah(0.5C) 10000(10750)Wh
2.4(2.56)kw 4.8(5.12)kw 7.2(7.68)kw
150A 50A 50A
2.3 Interface Definition
TW6000(6000P) Product panel interface configuration and functions. This section details the functions of each interface on the front panel of the device.
Fig. 2-3 Interface diagram
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Manual for Energy Storage SystemTW6000(6000P)
Item
Name
Definition
1
Ground point
2
Positive socket
Battery output positive or parallel positive cable
3
Negative socket
Battery output negative or parallel negative cable
4
ADD
DIP switch
5
SWWake on battery /
When the "OFF / ON" key is ON, press and hold this key for 3 seconds.Put the battery into the
Sleep switch)
power-on or hibernation state.
6
SOC
The number of green lights shows the remaining battery power, as shown in Table 2-3.
7
ALM
Red light, flashing when alarm. Protection is always on. Conditions that trigger protection Normally recover automatically after lifting
8
RUN
Green light, flashing during standby, flashing during charging, and always on when discharging
9
RS232
10
CAN/RS485
11
COM0COM1
12
DRY CONTACT
Debug communication port, support RS232 communication Host external communication port, support CAN and RS485 communication Slave internal parallel communication port, support RS485 communication
Dry contact
13
Switch
OFF/ONMust be "ON" when used
2.3.1 Definition and description of DIP switch
When PACK is used in parallel, you can use the DIP switch on the BMS to
set the address to distinguish different PACKs. Avoid setting the same address. The definition of the BMS DIP switch is shown in the table below.
Table 2-3 Dip switch dial definition
Address
#1
DIP switch position
#2
#3
#4
Description
0
OFF
OFF
OFF
OFF Set to Pack0
1
ON
OFF
OFF
OFF Set to Pack1 (host)
2
OFF
ON
OFF
OFF Set to Pack2
3
ON
ON
OFF
OFF Set to Pack 3
4
OFF
OFF
ON
OFF Set to Pack 4
5
ON
OFF
ON
OFF Set to Pack5
6
OFF
ON
ON
OFF Set to Pack6
7
ON
ON
ON
OFF Set to Pack7
8
OFF
OFF
OFF
ON Set to Pack8
9
ON
OFF
OFF
ON Set to Pack9
10
OFF
ON
OFF
ON Set to Pack10
11
ON
ON
OFF
ON Set to Pac11
12
OFF
OFF
ON
ON Set to Pac12
13
ON
OFF
ON
ON Set to Pack13
14
OFF
ON
ON
ON Set to Pack14
15
ON
ON
ON
ON Set to Pack15
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Manual for Energy Storage SystemTW6000(6000P)
2.3.2 Indicator definition and description
Table 2-4 LED working status indication
Status
Normal/ Alarm /
RUN ALM
Battery indicator LED
Protection
Shutdown Dormant
off off off off off off
Description All off
Standby
Normal Alert
F1 off According to battery standby mode
F1
F3 indicator
Module low voltage
Charge
Normal
on
Alert
on
Over
charge
on
protection
Temperature, overcurrent, off Fail-safe
off F3
According to battery indicator (Battery indicator flashes up to 2 LEDs)
Highest power LED blinks (blink 2), ALM does not blink during overcharge alarm
If there is no utility
off
on
on
on
on
power, the indicator light
Go to standby.
on off off off off Stop charging
Normal Alert
F3 off According to battery
F3
F3 indicator
Under
voltage
off off off off off off Stop discharging
Discharge protection Temperature,
over current,
Short circuit, Reverse
off
on off off off off Stop discharging
connection,
Fail-safe
Lapse
off
on
off
off
off
off
Stop charging& discharging
Remarks:Flash 1 is short for F1;Flash 2 is short for F2;Flash 3 is short for F3.
Table 2-5 Capacity instructions
Status
charging
Discharging
Capacity indicator
RU AL L4 L3 L2 L1 RU AL L4 L3 L2 L1
NM
NM
SOC0%
on F3 off off off off off off off off off off
0<SOC25% on off off off off F2 F3 off off off off on
Battery 25<SOC50% on off off off F2 on F3 off off off on on % 50<SOC75% on off off F2 on on F3 off off on on on
75<SOC<100% on off F2 on on on F3 off on on on on
SOC100% on off on on on on F3 F3 on on on on
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Manual for Energy Storage SystemTW6000(6000P)
Running lights
on
F3
Table 2-6 Flash description
Flashing way
Flashing 1 Flashing 2
on
0.25S 0.5S
off
3.75S 0.5S
Remarks
F1 F2
Flashing 3
0.5S
1.5S
F3
Remarks:Flash 1 is short for F1;Flash 2 is short for F2;Flash 3 is short for F3. Notes: The alarm can be enabled or disabled through the host computer. The factory default is enabled.
2.3.3 Buzzer action description When the fault occurs, every 1S will beep 0.25S;
When protecting, every 2S will beep 0.25S (except for overvoltage protection):
When the alarm occurs, every 3S will beep 0.25S (except for overvoltage alarm);
The buzzer function can be enabled or disabled by the host computer. The factory default is disabled.
2.3.4 Button description When the BMS is in the dormant state, press the button (3 ~ 6S) and release it, the protection board is activated, and the LED indicator lights up sequentially for 0.5 seconds from "RUN". When the BMS is in the activated state, press the button (3 ~ 6S) and release it, the protection board will be dormant, and the LED indicator will turn on for 0.5 seconds starting from the lowest battery. When BMS is activated, press the button (6 ~ 10S) and release, the protection board is reset, and the LED lights are all the same Lights for 1.5 seconds.
After the BMS is reset, the parameters and functions set by the host computer are still retained. If the original parameters need to be restored, they can be implemented by the "restore default values" of the host computer, but the related operation records and stored data remain unchanged (such as power, cycle times, Protect records, etc.).
2.3.5 Sleep and wake 2.3.5.1 Sleep When any of the following conditions are met, the system enters the low-power mode: 1) Single or overall over-discharge protection has not been released within 60 seconds. 2) Press the button (3 ~ 6S), and release the button. 3) The minimum cell voltage is lower than the sleep voltage, and the duration reaches the sleep delay time (at the same time, no communication, no protection, no balance, no current). 4) Standby time exceeds 24 hours (no communication, no charge and discharge, no mains). 5) Force shutdown by PC software. Before entering hibernation, make sure that the input terminal is not connected to external voltage, otherwise it will not be able to enter the low power consumption mode.
2.3.5.2 Wake When the system is in the low power consumption mode and meets any of the following conditions, the system will exit the low power consumption mode and enter the normal operation mode:
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Manual for Energy Storage SystemTW6000(6000P)
Connect the charger. The output voltage of the charger must be greater than 4851.2V. Press the button (3 ~ 6S), and release the button. Note: After single or overall over-discharge protection, it enters low power consumption mode, and wakes up at regular intervals every 4 hours to turn on charge and discharge MOS. Such as Can be charged, it will exit hibernation and enter normal chrging; if it cannot be charged after 10 consecutive automatic wake-ups, it will no longer To wake up.
When the system is defined as the end of charging, the recovery voltage is not reached after 2 days of standby (standby time set value), and the charging is forcibly resumed until the end of recharging.
2.3.6 RS232 communication The BMS can communicate with the host computer through the RS232 interface, so that it can monitor various battery information, including battery voltage, current, temperature, status, and battery production information. The default baud rate is 9600bps.
Table 2-7 RS232 interface definition
RS232--using 6P4C vertical RJ11 socket
RJ12 pin
Definition description
note
1
NC
empty
2
GND
3
TXD
4
RXD
RS232 communication interface
5
GND
6
NC
empty
2.3.7 CAN communication CAN communication, the default communication rate is 500K.
2.3.8 RS485 communication With dual RS485 interface, you can check the information of PACK. The default baud rate is 9600bps. If you need to communicate with the monitoring equipment through RS485, the monitoring equipment acts as the host and polls data according to the address.The address setting range is 2 ~ 15.
Table2-8 CAN / RS485 interface definition
CAN / RS485 communication interface
CAN / RS485--using 8P8C vertical RJ45 socket
RJ45 pin
Definition description
note
1
RS485-B1
2
RS485-A1
3
GND
485 and CAN common ground
4
CANH
5
CANL
6
GND
485 and CAN common ground
7
RS485-A1
8
RS485-B1
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Manual for Energy Storage SystemTW6000(6000P)
Table 2-9 COM0 / COM1 interface definition
COM0--using 8P8C vertical RJ45 socket
RJ45 pin
Definition description
18
RS485-B
27
RS485-A
36
GND
45
NC
COM1--Using 8P8C vertical RJ45 socket
RJ45 pin
Definition description
916
RS485-B
1015
RS485-A
1114
GND
1213
NC
COM0
COM1
2.4 Battery Management SystemBMS
2.4.1 Low Voltage Protection
Discharge low voltage protection : When discharging, the voltage of any single cell is lower than the protection value, the over discharge protection will be started, the battery buzzer alarm. When the voltage of all cells is recovered to the range of released value, the protection is removed.
Charging Over Voltage Protection: During charging, when the total voltage of battery pack or the voltage of any single cell reaches the protection value, the system stops charging. When the total voltage and the single voltage return to the released value range, the protection will be released.
2.4.2 Current Protection Charging Over Current Protecion: When the charging current is more than the protection value, the battery buzzer will alarm and the system will stop charging. The protection will release after the system delays the rated time.
Discharging Over Current Protection:
When the discharge current is more than the protection value, the battery buzzer will alarm and the system will stop discharging. The protection will release after the system delays the rated time.
Note: The buzzer alarm setting can be manually closed on the computer, and it is opened by default
2.4.3 Temperature Protection
Charge low/high temperature protection: During charging, when the battery temperature exceeds the range of - 0 ~ + 55 , the system starts the charging temperature protection, stops charging, recovering to the rated return value, and then the protection is released.
Discharge low/high temperature protection: During charging, when the battery temperature exceeds the range of -20~+55, the system starts the charging temperature protection, stops charging, recovering to the rated return value, and then the protection is released.
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Manual for Energy Storage SystemTW6000(6000P)
2.4.4 Other Protection Short circuit protection: When the battery is activated from the off state, if there is a short circuit, the system will start the short circuit protection for 30 seconds
Shut down automatically: When the equipment has no external load and power supply for 10 hours, it will automatically shut down.
Note:The max.discharge current of battery should be bigger than max.working current required for load.
3 Installation and configuration
3.1 Installation&Prepration
Safety Regulation Only the personnel who have received the electrical system training and fully mastered the electrical knowledge can install this system. Always follow the safety regulations listed below and local safety regulations during installation All circuits with external voltage less than 48V connected to the power system must meet
SELV requirements defined in IEC60950 If operating inside the cabinet, make sure that the power system is not active. The battery
shall also be shut down The cables shall be arranged reasonably and protected to avoid touching these cables when
operating the power equipment It is recommended to wear the following safety gear when dealing with the battery pack.
Insulated gloves Safety shoes
3.1.1 Environment Requirement
Safety goggles
Working Temperature -20+55 Storage Temperature-10+35 Relative Humidity5%85%RH Altitude< 4000m Working environment: there is no conductive dust and corrosive gas, and the following conditions are met: The installation site shall be far away from the sea to avoid salt water and high humidity
environment The ground is flat and level There are no inflammables and explosives in the accessories of the installation point
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Manual for Energy Storage SystemTW6000(6000P)
The ideal ambient temperature is 15 ~ 30 Keep away from dust and dirty areas 3.1.2 Tools The tools and meters that may be used in Table 3-1:
Table 3-1 Tools Name
screwdriver Slotted screwdriver Phillips screwdriver Torque wrench
Diagonal pliers Needle-nose pliers
Wire cutter
Wire stripping pliers
Electric drill
multimeter
Clamp meter Insulation tape thermometer Anti-static bracelet
Tie Tape measure
3.1.3 Technical preparations
Electrical interface check Devices connected directly to the battery can be user equipment, power supplies, or other power devices. Confirming whether the user's photovoltaic power generation equipment, power supply or
other power supply equipment has a direct current output interface, and measuring whether the output voltage of the direct current interface meets the voltage range requirements in 2.2 performance parameter table. Confirming that the maximum discharge current capacity of the DC interface of the user's photovoltaic power generation equipment, power supply or other power equipment should be greater than the maximum charging current of the product used in the performance parameter table. For the maximum charging current of the product used, the DC interface of the user's photovoltaic power generation equipment should have a current limiting function to ensure the normal operation of the user equipment first. Make sure that the maximum operating current of the battery-powered user equipment (inverter DC input) should be less than 2.2 The maximum discharge current of the product used in the performance parameter table. Security check It is strictly prohibited to place flammable, explosive and other dangerous materials next to the battery. Fire equipment should be available near the equipment, such as portable dry powder fire extinguishers. Where necessary, an automatic fire protection system should be provided.
3.1.4 Unpacking inspection
When the equipment arrives at the installation site, it must be loaded and unloaded in accordance with regulations to prevent sunlight and rain. Before unpacking, check the total number of pieces according to the shipping list attached to each packing box, and check whether the appearance of the packing box is intact;
Handle with care during unpacking to protect the surface coating of objects;
When opening the packaging box, the installer should first read the technical documents and check the list, and check whether the items are complete and intact according to the configuration table and packing list. If the internal packaging is damaged, it must be checked
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Manual for Energy Storage SystemTW6000(6000P)
and recorded. The packing list is as follows:
Part name
Specification
Quantity
Battery module
4851.2V210Ah
1
780×556×199mm
Positive parallel line Optional
Red /25mm²/L700mm
1
Negative parallel line Optional
Black /25mm²/L700mm
1
Positive power line Optional
Red /25mm²/L2050mm
1
Negative power line Optional
Black /25mm²/L2050mm
1
Slave parallel
Communication line Optional
Black/700mm / Double RJ45 plug
1
Host and inverter Communication line
Black/L2000mm / Double RJ45 plug
1
Picture
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Manual for Energy Storage SystemTW6000(6000P)
3.1.5 Engineering coordination
Note the following before construction: Power cord specifications Power cord specifications should meet the maximum discharge current requirements of each product Installation space and load Ensure that the battery has sufficient installation space, and that the case and bracket where the battery is installed have sufficient load-bearing capacity. wiring Make sure the power and ground wires are routed properly. Not easy to short circuit, water and corrosion.
3.2 Equipment installation
Table 3-2 Table 3-2 Installation steps
Step1 Step2 Step3
Step4 Step5
Preparation for installation Mechanical installation
Mechanical installation
Battery system self-test
Connect the inverter
1.Ensure the ON / OFF switch on the chassis is"OFF" state to ensure no-power operation.
1. Determine the location of the cabinet 2.Top harness pre-installed 3.Battery module installation 1.Ground cable installation 2.Battery module parallel cable installation 3.Battery Module Header Cable Installation 4.Battery module total negative cable installation 5.communication interface connection 1.Press the ON / OFF switch to the "ON" state 2.BMS system power-up activation 3.Check system output voltage 4.Shut down the system 1.Install battery system total positive and negative cables to the inverter 2.Connect the external CAN communication cable to the inverter
3.2.1 Preparation for installation
Equipment and tools ready for installation Check the chassis to make sure that the ON / OFF switch is in the "OFF" state toensure
no-power operation.
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Manual for Energy Storage SystemTW6000(6000P)
3.2.2 Mechanical installation Method 1: Pendant bracket installation 1. Put the hanger bracket close to the wall, and mark the wall according to the spaceThen use a percussion drill according to the vacancy of the pendant, drill 8 holes with a depth of 100mm
2. Install the expansion screw on the wall so that the expansion iron pipe and the wall parallel.
3. Install the pendant bracket on the expansion screw, and then tighten the nut
Method 2: battery installation 1.Lift the TW6000 (6000P) battery pack and hang it on the bracket
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Manual for Energy Storage SystemTW6000(6000P)
2.Use 4 M5-20mm screws to lock the bracket and battery pack;
3.2.3 Electrical installation Before connecting the power supply and ground wire, it is recommended to use a multimeter to measure the on-off and short circuit of the cable, confirm the positive and negative poles, and label the cable. Measuring method:
Cable on/off: select the buzzer of the multimeter, and use the probe to measure the two ends of the same color cable . If the buzzer sounds, it means the cable is available.
Short circuit judgment:select the resistance gear of the multimeter and measure the positive and negative poles at the same end with the probe. If the resistance shows infinite, it means the cable is available.
Positive and negative poles: after the power line is connected visually, the positive and negative poles of the battery shall be respectively connected to the positive and negative poles of the opposite equipment. Selection requirements with air switch: VoltageU>60VDC Current:I= Inverter power/45V
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Manual for Energy Storage SystemTW6000(6000P)
Air switch
Positive power line
Inverter
Negative power line
Negative parallel wire
Positive parallel wire
Communication line between host and inverter
Slave Parallel communication line
PNG1
PNG2
15
PNG3
Manual for Energy Storage SystemTW6000(6000P)
Remark 1When the four sets are used in parallel, the dialing mode is as follows:
the host dials the code according to the PNG1, the slave1 dials the code according to the PNG2,
2When it is used independently, the dial switch does not need to be turned, as shown in PNG3.
4. Using, maintenance and troubleshooting
4.1 battery system use and operation instructions
After completing the electrical installation, turn on the battery system as follows: 1. Refer to the description of dial switch in 2.3.1, make preparations before starting the battery pack, and then press to "ON", press SW key for 3 seconds, run light and SOC light will be on after self inspection.
Pay attention
After pressing the power key, if it is found that the battery status indicator on the front panel is on red continuously; please check"4.2 alarm description". If the fault cannot be eliminated, please contact the dealer in time.
1. Use a voltmeter to measure whether the two voltages at the battery access end of the circuit breaker are over 40V, and check whether the voltage polarity is consistent with the inverter input polarity; if the voltage output at the battery access end of the circuit breaker is over 40V, then the battery has started to work normally;
2. After confirming that the output voltage and polarity of the battery are correct, turn on the inverter; turn off the Circuit breaker switch.
3. Check the status of the indicator light (communication indicator light and battery access status indicator light) between the inverter and the battery. if it is normal, the connection between the battery and the inverter is completed. If the indicator light is different Often, please refer to the inverter manual to find out the reason or contact the dealer.
Table 4-1 Battery and inverter power matching table
Hybrid inverter
Off grid inverter
TW6000(6000P)
EPS(Backup port)
AC output power
AC output power
Min. parallel connections
Total energy (kWh)
Combination box Specification
Total Energy (kWh)
2.5kW
1
10.0 Combination box T-10.0
10.0
5.0 kW
2
20.0 Combination box T-20.0
20.0
10.0 kW
4
40.0 2 * Combination box T-20.0 40.0
15.0 kW
6
60.0 3 * Combination box T-20.0 60.0
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Manual for Energy Storage SystemTW6000(6000P)
20.0 kW
8
25.0 kW
10
80.0 100.0
4 * Combination box T-20.0 80.0 5 * Combination box T-20.0 100.0
Using requirements
a. Charge b.
c. Discharge d.
Continuous charging current0.5C If the battery capacity indication is empty, please charge within 48 hours after the power is discharged.
Continuous charging current0.5C It is recommended that the maximum discharge depth (DOD) of the pack should not exceed 80%
4.2 Alarm Description and Solution
In case of protection action or fault of the system, the alarm signal will be given through the working status indicator light of the front panel, and the specific alarm category can be queried through the network management system. If there are any abnormal faults affecting the output, such as voltage over-voltage, charging over-current, under voltage protection, temperature protection, etc., please handle according to Table 4-2. Table 4-2 Main alarm and protection
State
Alarm category Alarm indication
Solution
Charging state
Discharging state
Cell overvoltage
Charge overcurrent
Charging temperature alarm Discharge overcurrent alarm Discharging temperature alarm Total voltage undervoltage alarm Cell Voltage Under-voltage alarm
ALM Red light is always on
ALM Red light is always on ALM Red light is always on ALM Red light is always on ALM Red light is always on ALM Red light is always on ALM Red light is always on
Stop charging and find out the cause of the fault
Stop charging and find out the cause of the fault Stop charging Stop discharging and find out the cause of the fault Stop discharging
Charge
Charge
4.3 Analysis and solution of common faults
Common faults and solutions are shown in table 4-3: Table 4-3 Common faults and solutions
No.
Fault
Causal analysis
Solutions
1
No response of indicator light after power on
Power switch is broken
Power switch
2
No DC output red light on
Battery data status is abnormal
Network management connect with background reading battery information
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Manual for Energy Storage SystemTW6000(6000P)
3
DC power supply time is too short
Reduced battery capacity
Replace a battery
4
Battery cannot be fully charged
Charging voltage is too low
Adjust charging voltage to 54V
The power cord port
5
sparked at the moment of power on, and the red light
Short circuit in power supply wiring
Turn off the battery, check the cause of the short circuit and solve it
was on
In case of special technical difficulties or questions, please contact the seller in time.
SHENZHEN LITHTECH ENERGY CO.,LTD Room 711, Building A, Zhihui Innovation Center, Xixiang Street, Bao'an District, Shenzhen Postal code: 518101 E-mail: info@lith-tec.com Website:http://www.ltc-energy.com/
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