The nominal thickness of the electrode for this model is 248um, double sided composite electrode with a width of 250mm, Series A017
This model electrode is a high-cycle dry electrode with advanced materials and optimized formulations to achieve high conductivity and minimal performance degradation. Supports a variety of supercapacitor designs, widely used in different application field
Electrode sheet model | TY-248D-250-A017 |
Electrode sheet type | double-sided |
Electrode sheet thickness | 248±10 μm |
Compaction density of the electrode sheet | ≥0.66g/cm3 |
Moisture content of the electrode sheet | ≤3% |
Total width of the electrode sheet | 250±1mm |
Width of the coated part of the electrode sheet and its tolerance | 224±2.0mm |
Width of the single-sided blank area | 13mm±1 |
Thickness of the foil and its tolerance | 20±2um |
Reference for capacitance performance in capacitors | 3680F/㎡ |
Meet the environmental protection requirements such as RoHS. | |
1. Simple and Efficient, Cost Reduction
Dry electrodes do not require solvents or high-temperature sintering, which simplifies the production process and reduces production costs. It helps enterprises improve their economic benefits and reduce resource consumption.
2. High Stability, Durable
Because of the electrodes' solid structure and smooth surface, performance degradation can be successfully avoided, an ultra-long cycle life can be guaranteed, and they can adapt to a variety of severe situations.
3. Rapid Response, Efficiency Improvement
The electrodes possess a high-rate discharge capability and a fast response speed. They can provide powerful power within a short period and are widely used in scenarios with high power requirements.
The TY-248D-250-A017 dry electrode, by its excellent characteristics, applies to the application of supercapacitor cells with a voltage range of 2.7 - 3.0V. These supercapacitor cells have quite outstanding reliability and demonstrate remarkable effectiveness in several important fields. In the automotive field, it provides strong support for the start-stop systems of vehicles. When vehicles frequently switch between starting and stopping operations, they can release or store energy in a timely and relatively stable manner, helping to reduce fuel consumption and exhaust emissions. Meanwhile, it performs well in the energy recovery process, efficiently converting the kinetic energy generated during vehicle braking into electrical energy for storage and improving energy utilization efficiency. In the face of low-temperature environments, these cells also have certain advantages, helping vehicles overcome difficulties in starting at low temperatures and reducing the impact of performance degradation caused by low temperatures. In the area of power grid frequency modulation, relying on the characteristics endowed by the TY-248D-250-A017 dry electrode, the supercapacitor cells can relatively sensitively detect fluctuations in the power grid frequency, respond quickly, and adjust the power output reasonably, contributing to maintaining the stability of the power grid frequency, ensuring the safety and stability of the power system operation, and promoting the development of the power system towards higher efficiency.
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