Máy kiểm tra ngắn mạch ắc quy

1、 Product Overview:
1. The temperature controlled battery short circuit testing machine is designed to meet the requirements of various battery short circuit testing standards, and is short circuited according to the standard requirements
The internal resistance of the circuit device is used to obtain the maximum short-circuit current required for the test; In addition, the circuit design of the short-circuit device must also be able to withstand the impact of high current. Therefore, we have selected industrial grade DC electromagnetic contactors, all copper terminals, and internal copper plates for guidance. The wide and thick copper plates effectively improve the heat dissipation effect, making the high current short-circuit device safer, effectively reducing the loss of testing equipment, and ensuring the accuracy of test data.
2. The short circuit testing machine adopts PLC automatic control to simulate external short circuits of batteries, meeting UL1642, UN38.3
IEC62133, GB/T18287, GB/T 31241-2014 and other standards. Record changes in battery voltage, current, and surface temperature. The short-circuit testing machine must have a resistance of 80 ± 20m Ω for the entire circuit (including circuit breakers, wires, and connecting devices), and each circuit must be able to withstand a peak short-circuit current of up to 1000A. Short circuit stop mode can be selected: 1. Short circuit time; 2. Surface temperature of the battery.
2、 Meet the standards:
GB 31241-2022 “Safety Requirements for Lithium ion Batteries and Battery Packs for Portable Electronic Products”
MT/T 1051-2007 “Lithium ion batteries for mining lamps”
SJ/T 11169-1998 (UL1642:1995) “Safety Standard for Household and Commercial Batteries”
YD 1268-2003 “Safety Requirements and Test Methods for Lithium Batteries and Chargers in Mobile Communication Handheld Devices”
GB/T 19521.11-2005 “Safety Specification for Inspection of Dangerous Characteristics of Lithium Battery Pack Dangerous Goods”
GB/T 18287-2013 General specification for lithium-ion batteries for cellular phones
SJ/T 11170-1998 (UL2054:1997) “Safety Standard for Household and Commercial Batteries”
UN 38.3 Recommendations on the Transport of Dangerous Goods – Manual of Tests and Criteria, Part III, Section 38.3
UL 1642 “Lithium Battery Standard” 2054 “Household and Commercial Battery Pack”
IEC62133-2012 “Storage batteries and battery packs containing alkaline or non acidic electrolytes – Safety requirements for sealed batteries and battery packs for portable devices”
GB/T 8897.4-2008 (IEC 60086-4:2007) “Primary batteries – Part 4: Safety requirements for lithium batteries”
YDB 032-2009 “Backup Lithium ion Battery Pack for Communication”
YD/T 2344.1-2011 “Lithium iron phosphate battery pack for communication – Part 1: Integrated battery pack”
GB/T 21966-2008 (IEC 62281:2004) “Safety Requirements for Lithium Primary and Secondary Batteries during Transport”
GB38031-2020 “Yêu cầu an toàn đối với pin điện cho xe điện”
Yêu cầu tiêu chuẩn thử nghiệm:
1) External short circuit at room temperature: (Control the ambient temperature to reach 20 ℃± 5 ℃)
After fully charging the battery according to the prescribed test method, place it in an environment of 20 ℃+5 ℃. After the surface temperature of the battery reaches 20 ℃+5 ℃, place it for another 30 minutes. Then connect the positive and negative terminals of the battery with wires and ensure that the total external resistance is 80m Ω ± 20m Ω. During the experiment, monitor the temperature changes of the battery. If one of the following two situations occurs, the experiment will be terminated:
a) The battery temperature drops to 20% below the peak value;
b) The short circuit time reaches 24 hours.
The battery should not ignite or explode, and the maximum temperature should not exceed 150 ℃.
2) High temperature external short circuit:
After fully charging the battery according to the prescribed test method, place it in an environment of 55 ℃± 5 ℃, wait for the battery temperature to reach 55 ℃± 5 ℃, and then place it for another 30 minutes. Then connect the positive and negative terminals of the battery with wires and ensure that the total external resistance is 80m Ω± 20m Ω. During the experiment, monitor the temperature changes of the battery. If one of the following two situations occurs, the experiment will be terminated.
a) The battery temperature drops to 20% below the peak value;
b) The short circuit time reaches 24 hours.
Test results: The battery should not ignite or explode, and the maximum temperature should not exceed 150 ℃
Note: The temperature coefficient of electrical resistivity of the wire is less than 5×10 ℃, such as copper wire.