Sun Gold Power SG48100P Battery System Home Storage User Manual
- June 12, 2024
- SUN GOLD POWER
Table of Contents
- Sun Gold Power SG48100P Battery System Home Storage
- Document description
- Definition of Terms
- Battery system performance parameters
- Outline and Structural Dimensions of Battery System
- Definition of battery system interface
- Functional block diagram
- Battery Management System Specifications
- Product function and performance description
- Using & Maintenance Suggestions
- Packing List
- Storage, maintenance and transportation
- Maintain
- Battery usage precautions
- Product Liability
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
Sun Gold Power SG48100P Battery System Home Storage
Document description
This specification covers the performance indexes, technical requirements and safety issue of the 48V100Ah
Definition of Terms
BMS | Battery Management System |
---|---|
DOD | Depth Of Discharge |
EOL | End Of Life |
OCV | Open Circuit Voltage |
SOC | State Of Charge |
SOH | State Of Health |
EMC | Electro Magnetic Compatibility |
Nominal voltage | Appropriate voltage approximation to identify or identify a |
cell or an electrochemical system.
Capacity| (The amount of power a battery can provide when fully charged under
specified conditions. Usually expressed in Ah.)
Energy| The energy that can be provided by a fully charged battery under
specified conditions. Usually expressed in Wh or kWh.
Unit
| “V” (Volt) ( Voltage unit) “A” (Ampere) (Current unit)
“Ah” (Ampere-Hour) (unit of charge)
“Wh” (Watt-Hour) (electrical energy unit) “Ω” (Ohm) (resistance unit)
“ °C” (degree Celsius) (temperature unit) “mm” (millimetre) (length unit)
“s” (second) (Time unit)
“kg” (kilogram) (Weight unit) “Hz” (Hertz) (Frequency unit)
Battery system performance parameters
No. | Item | Technical parameter | Note |
---|---|---|---|
1 | Battery Type | Lithium iron phosphate battery | / |
2 | Rated capacity | 100Ah | @25℃±2,0.5C,100%DOD |
3 | Nominal voltage | 51.2V | |
4 | Recommended charging voltage | 54.5V | |
5 | Charging Limited Voltage | 42V |
6
| ****
SOC working range
| ****
0~100%
| Recommended range of use: 20%~95%
7| Standard discharge current| 50A|
8| Maximum continuous discharge current| 100A|
---|---|---|---
9| Standard charging current| 50A|
10
| ****
Maximum continuous charge current
| ****
100A
|
11| Maximum cut-off voltage for charging| 57.6V|
12| Charge cut-off current| 5A| 0.05C magnification
13| Disharge cut-off voltage| 43.2V|
14
| ****
PACK cycle life
| ****
≥7000
| 80%DOD
25℃±2℃, 0.5C charge/0.5C discharge
15| Thermal management method| Natural heat dissipation|
16
| ****
IP protection class
| IP31
battery box
|
17| Flammability rating| plastic parts UL94 V-0|
18
| ****
Total system mass
| Around 43KG|
19
| ****
Battery system shell material
| ****
BLACK Q235A
| ****
Color can be customized
20
| ****
Shipping SOC
| ****
SOC45-55%
|
21| Dimension(LWH mm)| R442460133(3U)±1mm|
22| Design life| 15 Year|
23
| ****
Parallel function
| Supports up to 16 batteries in parallel|
24
| ****
Anti-theft function
| sensor
G-sensor anti-theft function
|
25| Display function| English smart display|
26
| ****
Charging current limit function
| ****
Current limit 20A
| Charging current limit can be set according to customer requirements
27
| ****
Communication mode
| ****
RRS232
| ****
Communication mode can be set according to customer requirements
RRS485
RCAN
28
| ****
communication protocol
| ****
Support multiple protocols
| Communication protocol can be set according to customer requirements
29
| ****
Storage ambient temperature
| ****
-10~+45℃
| Recommended storage temperature: 0~+30℃
30
| ****
Working temperature
| Battery charging:0~45℃ Battery discharging:-20~ +60℃|
31
| Relative humidity of working environment| ****
≤95
| Best Use Relative Humidity:≤85%
Outline and Structural Dimensions of Battery System
Definition of battery system interface
Panel Schematic
Module Panel Description
NO
| Function definition| ****
Function Description
| ****
Note
---|---|---|---
1| handle| Carrying handle|
2| SOC| Capacity status light| Six green LED lights to show the current charge
of the lithium battery pack
3
| ****
ALM
| ****
Alert
| Red LED light, normally off under normal conditions, always on under fault
conditions, and a voice prompt
4| RUN| Run| Green light, always on when the product is running
5
| ****
ADD
| ****
DIP switch
| Use 4 bit binary DIP switch (optional) to set address allocation when products are used in parallel,
6
| ****
RS232
| ****
RS232 communication
| Uplink communication port, RS232 communication mode when uploading data, data content includes system parameters, system status and alarm information. The rate of 9600bps is generally used. Note: Wiring
definitions are implemented in accordance with BMS product specifications
7| RS485| RS485 communication| RS485 communication method
8| CAN| CAN communic| CANcommunication method
9
| ****
RESET
| ****
Reset
| When the product is in an abnormal state or in a hibernation state, the
product can be restarted and woken up through the reset button to ensure the
stable operation of the system
10| Main panel| Shell| Sheet metal thickness 1.5mm, galvanized frosted paint,
color: black
11
| ****
Terminals
| Input and output terminals| ****
Battery positive and negative output terminals
12
| Hanging ears| ****
Mounting ears
| ****
The spacing is implemented according to the national standard
13
| ****
dry contact terminal
| ****
Load output port
| example:
definition:
Dry contact 1-PIN1 to PIN2: normally open, closed during fault protection
Dry contacts 2-PIN3 to PIN4: normally open, SOC<5%, closed for low battery alarm.
Functional block diagram
The functional block diagram is shown in the figure below
Battery Management System Specifications
Basic parameter settings
NO.
| ****
Indicator item
| Factory
default parameters
| Is it possible to set| ****
Note
---|---|---|---|---
1
| ****
Cell overcharge protection
| Cell overcharge alarm voltage| 3600mV| Can be set|
Cell overcharge protection voltage| 3650mV| Can be set
Cell overcharge protection delay| 4.0S| Can be set
Single Overvoltage Protection Released| overcharge protection release voltage
Cell| 3380mV| Can be set
Capacity release| SOC<96%| Can be set
Discharge release| > 1A
2
| ****
Cell overdischarge protection
| Cell over-discharge alarm voltage()| 2700mV| Can be set| After 30 seconds of over- discharge
protection, if it still cannot recover, it will enter low
Cell over-discharge protection voltage| 2500mV| Can be set
Monomer over-discharge protection delay| 1.0S| Can be set
Cell over-
discharge
| Cell over-discharge
protection release voltage
| 2800mV| Can be set
| protection released| ****
(Release when charging)
| ****
Plug into the charger to activate
| power
consumption mode
---|---|---|---|---
3
| ****
Overall overcharge protection
| Overall overcharge warning voltage| 57.6V| Can be set|
Overall overcharge protection voltage| 58.4V| Can be set
Overall overcharge protection delay| 1.0S| Can be set
Overall overvoltage protection released| Overall overcharge protection release
voltage| 54.1V| Can be set
Capacity release| SOC<96%| Can be set
Discharge release| > 1A
Discharge current > 1A
4
| ****
Overall overdischarge protection
| Overall over-discharge warning voltage| 43.2V| Can be set| After 30 seconds of over- discharge
protection, if it still cannot recover, it will enter low power
consumption mode
Overall over-discharge protection voltage
| ****
40V
| ****
Can be set
| Overall over-discharge protection delay| 1.0S| Can be set|
Overall over- discharge protection
released
| Overall over-discharge protection release voltage| 44.8V| Can be set
Release when charging| Plug into the charger to activate
Charging current limit function| Charging current limit| 20A|
5
| ****
Charge overcurrent protection
| Charge overcurrent 1 alarm current| 105A| Can be set| Appearing 10 times in a row will lock the status and will no longer
automatically release
Charge overcurrent 1 protection current| 110A| Can be set
Charge overcurrent 1 protection delay| 1.0S| Can be set
Charging overcurrent 1protection
released
| Automatic release)| 1min
Automatically cancel after 1min
Discharge release| > 1A
Discharge current > 1A
|
6
| ****
Discharge overcurrent 1 protection
| Discharge overcurrent 1 alarm current)| 105A| Can be set| Appearing 10 times in a row will lock the status and will no longer
automatically release
Discharge overcurrent 1 protection current)| 110A| Can be set
Discharge overcurrent 1 protection delay| 1.0S| Can be set
Discharge overcurrent 1 protection
released
| Automatic release| 1min
Automatically cancel after 1min
Charge release| > 1A
Charge current > 1A
|
7
| ****
Discharge overcurrent 2
| Discharge overcurrent 2 protection current| ≥120A| Can be set| Appearing 10 times in a row will lock the status and will no longer
automatically
Discharge overcurrent 2 protection delay| 100mS| Can be set
Discharge| Automatic release| 1min
| overcurrent 2 protection released| | Automatically cancel after 1min|
release
---|---|---|---|---
charge release| > 1A
Charge current > 1A
|
8
| ****
Short circuit protection
| Short circuit protection function| (Have)|
Short circuit protection current| ≥350A
Short circuit protection delay| ≤300US
Short circuit protection released
| When there is charging, the short circuit
protection is released
After the load is removed, it will
automatically disarm
9
| ****
MOS high temperature protection
| MOS over temperature alarm temperature)| 90℃| Can be set|
MOS over temperature protection temperature)| 115
℃
| Can be set
MOS protection release temperature)| 85℃| Can be set
10
| ****
Cell temperature protection
| Charging low temperature warning temperature)| 0℃| Can be set|
Charging low temperature protection temperature)| -5℃| Can be set
Charging low temperature protection release temperature| 0℃| Can be set
Charging high temperature alarm temperature| 50℃| Can be set|
Charging high temperature protection temperature)| 55℃| Can be set
Charging high temperature protection release
temperature
| ****
50℃
| Can be set
Discharge low temperature alarm temperature| -15℃| Can be set|
Discharge low temperature protection temperature| -20℃| Can be set
(Discharge low temperature protection release
temperature
| ****
-15℃
| Can be set
Discharge high temperature alarm temperature| 60℃| Can be set
Discharge high temperature protection temperature| 65℃| Can be set
Discharge high temperature protection release
temperature
| ****
55℃
| Can be set
11
| ****
Ambient temperature
alarm
| Ambient low temperature alarm temperature| -15℃| Can be set|
Ambient low temperature protection temperature| -20℃| Can be set
Ambient cryogenic protection release
temperature
| ****
-15℃
| Can be set
Ambient high temperature alarm temperature| 65℃| Can be set
Ambient high temperature protection temperature| 75℃| Can be set
Ambient high temperature protection release| 65℃| Can be set
| | temperature| | |
---|---|---|---|---|---
12
| Current
consumption
| Self-consumption current during operation| ≤45mA((with display)|
≤40mA(without display)
Low power mode current| ≤200μA
13
| Equalization function| Equalization turn-on voltage| 3500mV| Can be set|
Open differential pressure| 30mV| Can be set
14
| ****
Capacity default settings
| ****
Low battery warning
| ****
SOC<5%
| Can be set| (No alarm when
charging)
Full capacity setting| 100AH| Can be set|
15
| ****
Sleep function
| Sleep voltage| 3150mV| Can be set|
Delay| 5min| Can be set|
16| Differential pressure alarm| Overpressure alarm| 800mV|
Overpressure recovery| 500mV|
17
| Cell failure protection| Monomer differential pressure| >1V
Voltage difference>1V
| Charge and
discharge are not allowed
18
| Full charge judgment| Full charge voltage| 56V|
Cut off current| 2A|
Interface
Interface Definition
RS232–Using 6P6C vertical RJ11 socket
RJ11| Definition description
2| NC
3| TX
4| RX
5| GND
RS485 and CAN interface
RS485–Using 8P8C vertical RJ45 socket | RS485–Using 8P8C vertical RJ45 socket |
---|---|
RJ45Pin | Definition description |
1、8 | RS485-B |
2、7 | RS485-A |
3、6 | GND |
4、5 | NC |
Communication description
RS232 communication
The BMS can communicate with the host computer through the RS232 interface, so
as to monitor various information of the battery on the host computer side,
including battery voltage, current, temperature, status, SOC, SOH and battery
production information, etc. The default baud rate is 9600bps.
RS485 communication
With dual RS485 interface, you can view the information of PACK, the default
baud rate is 9600bps. To communicate with the monitoring device through RS485,
the monitoring device is used as the host to poll data according to the
address, and the address setting range is 2~15.
CAN communication
Product function and performance description
Charging performance
- Standard charging current: (25℃): example:0.2C(20A)
- Standard charging voltage: 54V
- Standard charging mode and charging curve:
Discharging performance
Discharge curve at different magnification
Using & Maintenance Suggestions
LED indication description
Table 1 LED working status indication
Table 2 Description of capacity indication
Condition | Charging | Discharging |
---|
Capacity indicator
|
L6●
|
L5●
|
L4●
|
L3●
|
L2●
|
L1●
|
L6●
|
L5●
|
L4●
|
L3●
|
L2●
|
L1●
Electricit y ( % )
|
0~17%
|
black
|
black
|
black
|
black
|
black
|
flash2
|
black
|
black
|
black
|
black
|
black
|
Always bright
17~33%
|
black
|
black
|
black
|
black
|
flash 2
|
Alway s bright
|
black
|
black
|
black
|
black
|
Alway s bright
|
Always bright
33~50%
|
black
|
black
|
black
|
flash 2
|
Alway s bright
|
Alway s bright
|
black
|
black
|
black
|
Alway s bright
|
Alway s bright
|
Always bright
|
50~66%
|
black
|
black
|
flash 2
|
Always bright
|
Alway
s bright
|
Alway s bright
|
black
|
black
|
Alway
s bright
|
Alway
s bright
|
Alway
s bright
|
Always bright
---|---|---|---|---|---|---|---|---|---|---|---|---|---
66-83%
|
black
|
flash 2
| Alway s bright|
Always bright
| Alway s bright|
Alway s bright
|
black
| Alway s bright| Alway s bright| Alway s bright| Alway s bright|
Always bright
83-100%
|
flash 2
|
Alway s
bright
|
Alway s
bright
|
Always bright
|
Alway s
bright
|
Alway s bright
| Alwa ys brigh
t
|
Alway s
bright
|
Alway s
bright
|
Alway s
bright
|
Alway s
bright
|
Always bright
Running lights●
| | |
Always bright
| | |
flash3
Table 3 LED flashing description
Flashing method | Bright | Black |
---|---|---|
flash 1 | 0.25S | 3.75S |
flash 2 | 0.5S | 0.5S |
flash 3 | 0.5S | 1.5S |
Note: The LED indicator alarm can be enabled or disabled through the host computer, and the factory default is enabled.
Buzzer action description
- In case of failure, it will beep for 0.25S every 1S;
- During protection, it will beep for 0.25S every 2S (except for overvoltage protection);
- When alarming, it will beep every 3S for 0.25S (except overvoltage alarm);
- The buzzer function can be enabled or disabled by the host computer, and the factory default is disabled.
Key Description
- When the BMS is in the dormant state, press the button (3~6S) and release it, the protection board will be activated, and the LED indicators will light up in sequence from “RUN” for 0.5 seconds.
- When the BMS is activated, press the button (3~6S) and release it, the protection board is put to sleep, and the LED indicators light up sequentially for 0.5 seconds from the lowest battery light.
- When the BMS is activated, press the button (6~10S) and release it, the protection board will be reset, and all the LED lights will light up at the same time for 1.5 seconds.
After the BMS is reset, it still retains the parameters and functions set by the host computer. If it is necessary to restore the initial parameters, it can be achieved through the “restore default value” of the host computer, but the relevant operation records and stored data remain unchanged (such as power, cycle times, etc.). , protection records, etc.).
Sleep and wake up
hibernate: When any of the following conditions are met, the system
enters a low-power mode:
- The single or overall over-discharge protection has not been released within 30 seconds.
- Release the button after pressing the button for 3 seconds.
- 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, and no current are satisfied).
- The standby time is more than 24 hours (no communication, no charging and discharging, no mains power).
- Forced shutdown through the host computer software.Before entering the sleep mode, make sure that the input terminal is not connected to an external voltage, otherwise it will not be able to enter the low power consumption mode.
wake
When the system is in low-power mode and meets any of the following
conditions, the system will exit the low-power mode and enter the normal
operation mode:
- Connect the charger, the output voltage of the charger must be greater than 48V.
- Press the button for 3S and release the button.
- Connect to the communication line and open the software of the upper computer (it enters the sleep state due to over-discharge protection, this method cannot wake up the protection board).
Remarks:
After the single or overall over-discharge protection, it enters the low-power
mode, wakes up regularly every 4 hours, and turns on the charge and discharge
MOS. If it can be charged, it will exit the dormant state and enter normal
charging; if it cannot be charged after 10 consecutive automatic wake-ups, it
will no longer automatically 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 setting value), and the charging
is forced to resume until the end of charging again.
DIP switch settings
When the battery packs are used in parallel, different PACK can be
distinguished by their hardware addresses, and the hardware address of each
PACK in the entire battery stack is unique. The hardware addresses can be set
in sequence through the DIP switches on the board. Refer to the following for
the definition of the switches. surface.
The routine maintenance of the battery part can be carried out by referring to the table
Period | Item | Treatment measures |
---|---|---|
Per month | (Operating |
environment)
| Keep away from heat sources and avoid direct sunlight
Visual inspection| If the appearance is damaged, leaked or deformed, the
faulty battery pack should be disconnected, photographed and replaced.
Each quarter| Clean
appearance
| Clean the exterior with a cotton cloth. Due to the high voltage of the
battery pack, care should be taken when cleaning.
Connection Status| ****
l Check the bolts at each terminal and retighten them if they are loose.
l If the temperature of the connection line exceeds 40°C (feeling hot), check the cause
Every half year| Voltage detection| l At the end of charging, measure and record the busbar voltage and the positive and negative terminal voltages of the battery pack. The voltages of the two are consistent. Otherwise, check whether the cable at the corresponding connection is faulty.
l In the first year, real-time data collection at the end of discharge was performed at least every six months.
l Beginning in the second year, on-site capacity determination will be conducted every three months. If a certain battery cell is frequently overcharged and over- discharged in the historical alarm information viewed through the RS232 interface, it means that the battery cell has touched the charging protection point and the discharging protection point for a long time. This situation may lead to
insufficient backup time, it is recommended to replace it in time
The final state of charge and discharge can be judged by the capacity light, refer to the definition of LED light capacity status light.
Packing List
NO. | Material name | Specification/Module | Number |
---|---|---|---|
1 | 48100Ah lithium iron phosphate battery | 48100 | 1 set/box |
2 | Positive and negative output lines | 25mm2 flame retardant cable, length | |
0.5m, crimp 25-6 copper noses at both ends, one red and one black. | 1 set/1 |
module
3| RS485 cascade
communication line
|
0.5 meters long, with RJ45 crystal heads at both ends.
| 1root/2 modules
4| RS485 USB RS232 USB| 1.5 meters long, one end is the corresponding crystal
head, and the other end is the USB interface.| 1 set/8 module
5| Product manual| /| 1
6| Certificate| /| 1
7| Hanging ear screw| M6*16(stud 16mm)| 4
8| Dry contact terminal| Matching according to the number of dry nodes of the
BMS| 1
Storage, maintenance and transportation
Storage
- The battery pack is usually stored at a state of charge of 20% to 40% in a clean, dry, ventilated and rain-proof room with an ambient temperature of -5°C to 35°C and a relative humidity of not more than 75%, and should be placed flat. Pad height, not less than 100MM from the ground;
- Batteries cannot be stored with active chemicals or dusting items;
- The battery cannot be subjected to any mechanical shock or heavy pressure;
- The battery should avoid direct sunlight, keep away from the fire source, and the distance from the heat source should not be less than 2M;
- From the date of manufacture, every 3 months of storage should be charged with a current of 0.2~0.5C for 30~60min, and the temperature range is 25℃±5℃.5).
Transportation
The battery pack should be packaged and shipped. During transportation, avoid
severe vibration, shock or extrusion, and avoid sun and rain. Batteries can be
transported by vehicles such as cars, trains, ships, and planes.
Maintain
The battery pack should remain at 40% – 60% of state of charge;
When the battery is not in use for a long time, it is recommended to charge it
with 0.2c current every three months or so.
During the maintenance process, do not install or remove the battery in the
battery pack by yourself, otherwise the battery performance will be reduced;
Any battery in the battery pack shall not be disassembled or replaced without
authorization, and dissection of the battery is strictly prohibited.
Battery usage precautions
Please read the instruction manual and precautions carefully before use. When used correctly according to the product characteristics, the battery will be a safe, reliable and convenient storage battery.
Warn! Improper use of lithium-ion batteries can result in personal injury or fire!
- When charging the battery, pay attention to ensure that the polarity is correct, and do not reverse the charging of the battery;
- Do not expose the battery to adverse environments, such as extreme temperatures, deep cycling, frequent overcharge/overdischarge;
- If you find that the battery is abnormal, please stop using it immediately and report it to a professional for treatment;
- Ensure that batteries and battery management systems are kept away from dangerous goods or dangerous materials;
- It isforbidden to short-circuit the battery;
- It is forbidden to burn or destroy the battery, which may cause the release or burning of harmful gases;
- Do not disassemble, squeeze, pierce or burn.
- Rain is prohibited;
- It is forbidden to be directly exposed to sunlight;
- Prohibit exposure to temperatures above 60°C;
- It is forbidden to discard the battery in the garbage;
- It is forbidden to use other types of batteries in series or in parallel with lithium-ion batteries;
- It is forbidden to use new and old batteries (groups) in series or in parallel.
Product Liability
Consumers must strictly abide by the requirements of this product specification to use this product. Misuse may lead to serious accidents.The company is not responsible for any accidents caused by the operation and use that are not strictly in accordance with this product specification.The company reserves the right to change the contents of this specification without prior notice; the final interpretation right of this information belongs to the company.
- ProductName: 48V100Ah Lithium Battery
- ProductModel: SG48100P
- ProductSpecifications : 51.2V 100Ah
- CompilationDate : 2022-12-12
References
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- Home Solar System Kit,Power Inverter,Solar Inverter,Off Grid Inverter
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