Consulting phone:
135-3037-2041
(Mr.Wang)
Consulting phone:
135-3037-2041
(Mr.Wang)
Contact: Mr. Wang
Wob: 13530372041
Tel: 0755-26607151
Email: Jim@sznovelty.cn
Web: en.szsyky.cn
Address: 1466, Building B, Qinghu Science and Technology Park, Longhua District, Shenzhen
Product introduction:
Shenzhen supercapacitor module is to connect several supercapacitors in series and cooperate with the voltage equalization and discharge voltage stabilization system. Heat dissipation plate and insulating heat conduction sheet; The heat dissipation plate is arranged on the top of the positive pole and negative pole of each supercapacitor monomer; The insulating heat conducting fin matched with the heat sink is located between the positive pole and the negative pole and the heat sink. One side is close to the heat sink, and the other side is against the top of the positive pole and the negative pole It can not only dissipate heat inside the single capacitor, but also give consideration to the external heat dissipation of the single capacitor. It has excellent heat dissipation performance, low cost, simple process and high production efficiency.
Product specification:
Project | characteristic |
working temperature | -40℃+65℃@2.7V |
| -40℃+85℃@2.3V | |
Storage temperature | -40℃+70℃ |
capacity | 15-18F |
| tolerance | 0+30% |
| Rated voltage | 53V |
| Surge voltage | 54V |
temperature characteristic | Capacity change from - 40 ℃ to 65 ℃: 20% of the initial measured value of △ c ∠ @ 25 ℃ Internal resistance change: 100% of the nominal value of △ ESR ∠ |
High temperature load life | Capacity change of 1500h load under operating temperature and rated voltage: 20% of △ c ∠ initial measured value @ 25 ℃ internal resistance change: 100% of △ ESR ∠ nominal value |
Normal temperature load life | 10 year capacity change of load under 25 ℃ and rated voltage: 20% of the initial measured value of △ c ∠ @ 25 ℃ internal resistance change: 100% of the nominal value of △ ESR ∠ |
Normal temperature cycle life | Capacity change after 500000 charge discharge cycles (from rated voltage to 1/2 rated voltage) at 25 ℃: 20% of the initial measured value of △ c ∠ @ 25 ℃ Internal resistance change: 100% of the nominal value of △ ESR ∠ |
| Storage life | It shall be placed under no load for two years at 25 ℃ to meet the requirements of high temperature load life |
| Steady state temperature | At 40 ℃, 90% RH and rated voltage, the load is 240h, meeting the requirements for high temperature load life |
main features
◎ Long life, hundreds of thousands of times of charging;
◎ Fast charging speed Charging only takes 0.3s-15min;
◎ High charging and discharging efficiency Charging and discharging efficiency can reach 98%;
◎ High power density 10kW/kg
◎ Wide temperature range Super capacitor can be used in the temperature range of - 40 ℃~+65 ℃;
◎ Good ultra-low temperature characteristics, can work in the environment of minus 40 ℃;
◎ Completely maintenance free;
◎ No environmental pollution, green environmental protection;
Application areas:
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Usage:
Supercapacitors cannot be used in the following states:
1) Temperatures above the nominal temperature
When the capacitor temperature exceeds the nominal temperature, the electrolyte will be decomposed, and the capacitor will heat up and the capacity will decrease.
In addition, the internal resistance increases and the service life is shortened.
2) more than Rated voltage voltage
When the capacitor voltage exceeds the nominal voltage, the electrolyte will be decomposed, and the capacitor will heat up and the capacity will decrease.
In addition, the internal resistance increases and the service life is shortened. Therefore, reducing the operating voltage can improve the service life.
3) Loading of reverse voltage or AC voltage
1. The effect of ambient temperature on supercapacitors
The service life of supercapacitors is affected by the operating temperature. Generally, if the operating temperature is increased by 10°C, the service life of the supercapacitor will be shortened by half. Please try to use it in a low temperature environment lower than the operating temperature. If it is used beyond the operating temperature, it may cause rapid deterioration of characteristics and damage.
The use temperature of supercapacitors should not only confirm the surrounding temperature and internal temperature of the device, but also the radiation heat from the heating element (power transistor, resistor, etc.) in the device, and the self-heating temperature caused by the ripple current. Also, do not install the heating element near the supercapacitor.
2. Please use the capacitor according to the positive and negative signs of the capacitor.
3. Please avoid using super capacitors in the following environments.
a) An environment that is directly splashed with water, salt water and oil, or an environment that is in a dew-condensed state and is full of gaseous oil or salt.
b) An environment full of harmful gases (hydrogen sulfide, sulfurous acid, chlorine, ammonia, bromine, methyl bromide, etc.).
c) Environment splashed with acidic and alkaline solvents.
d) Direct sunlight or dusty environment.
e) Environments subject to excessive vibration and shock.
4. Avoid overheating the capacitor during the soldering process (1.6mm printed circuit board should be 260°C during soldering, and the time should not exceed 5s).
5. Please avoid circuit wiring between the supercapacitor leads or between the solder joints of the connection board.
6. When using over-voltage or exceeding the operating temperature range beyond the rated conditions, it may cause the pressure valve to act, and the electrolyte will be ejected. Therefore, use a design approach that takes into account the possibility of this anomaly.
7. When charging and discharging rapidly, a voltage drop (also called IR drop) caused by internal impedance occurs at the beginning of charging and at the beginning of discharge. Therefore, please adopt a design method that takes into account the range of voltage variation.
8. Power-type large-capacity products (products above 10F) if the terminals are short-circuited in the charging state, there will be hundreds of amps of current flowing, which is dangerous. Please do not install or remove it while charging.
9. Do not put the capacitor into the dissolved solder, only stick the solder on the lead pins of the capacitor. Do not allow the welding rod to touch the capacitor heat shrink tube.
10. After installation, do not forcibly twist or tilt the capacitor.
11. When the supercapacitors are used in series, there is a problem of voltage balance between the cells.
