This machine is designed according with the requirements of various battery short-circuit test standards. According to the standard, the short-circuit device must meet the internal resistance of 80 ± ...
The battery short-circuit test equipment is meticulously engineered to align with the stringent requirements of various battery short-circuit test standards. This equipment is pivotal in the field of battery safety testing, ensuring that batteries meet the necessary performance and safety benchmarks before they are deployed in applications such as electric vehicles, energy storage systems, and consumer electronics.
Designed with precision and safety in mind, this equipment is tailored to achieve the optimal short-circuit current as stipulated by the test standards. The device is calibrated to maintain an internal resistance of 80 ± 20mΩ, which is critical for obtaining the maximum short-circuit current required for the tests .
To handle the substantial current impacts, the circuitry is crafted with industrial-grade components. We have selected robust DC electromagnetic contactors known for their reliability and durability under high current conditions. These contactors are paired with all-copper terminals and internal copper plates to efficiently channel the flow of electricity. The use of broad and substantial copper plates is not merely a design choice but a strategic one, as it significantly enhances heat dissipation. This feature is crucial for maintaining the safety of the high-current short-circuit device, reducing the risk of overheating and potential damage. It also minimizes the loss of test equipment and ensures the accuracy of the test data, providing a reliable basis for evaluating battery performance and safety .
1.Control Modes: Offers remote PC, touchscreen, and remote control options.
2.Monitoring Capabilities: Records current, voltage, and temperature; generates data and curves.
3.Efficient Design: Features low-power high-current switch with safety and rust protection.
4.Remote Operation: Controls and data acquisition from over 30m away.
GB31241, GB/T31485, GB/T314673, IEC62660-2018.
| Item | DR-D201 |
| Internal Dimension | 500*500*500mm(W*D*H) |
| External Dimension | 700*800*1530mm(W*D*H) |
| Internal Material | SUS201 stainless steel plate, 1.2mm thick and affixed with Teflon; |
| External Material | Paint treatment of cold-rolled steel sheet |
| Observe Window | 250*250mm |
| Two layers of tempered glass | |
| Transparent window with stainless steel mesh | |
| Exhaust port | Diameter 100mm |
| Pressure relief port | 200*200mm |
| Door | Single door design, the door is equipped with a safety limit switch The side is equipped with an explosion-proof chain Only close the door to operate the device to ensure the safety of personnel |
| Testing Hole | There are two testing hole diameter 50mm, for cable connect. |
| Control Mode | Key Type |
| Temperature collection range | RT-1000℃ |
| Temperature Acquisition Channel | Channel 1 |
| Temperature Display Accuracy | ±0.5℃ |
| Voltage collection range | 0-100V |
| Voltage Acquisition Channel | Channel 1 |
| Voltage Display Accuracy | ±0.5% |
| Maximum Short-circuit Current | 1000A |
| Current Acquisition Channel | Channel 1 |
| Current Display Accuracy | ±0.5% |
| Internal Resistance of Device Loop | 80±20mΩ |
| Voltage | Single Phase 220V |
| Power | 200W |
| Machine Weight | 85kg |
