160V 12F Super Capacitor Module
Categorize:
720F core module sequence
Introduction
-
The DUCM 16012 E10A type supercapacitor module consists of 60 pieces of 2.7V 720F supercapacitor cores connected in series, and the module casing is made of Q235 material.
The module features low internal resistance, high power, long lifespan, and low-temperature resistance.
The module core is equipped with a voltage balancing circuit and outputs over-voltage and over-temperature signals.
Multiple modules can be combined in series and parallel to achieve higher voltage or energy storage.
Parameters
-
- Performance Parameters
- Service Life
Product Model
DUCM 16012 E10A
Rated Capacity
12F (25℃)
Capacity Deviation
0% ~ +20%
Rated Voltage
160V
Maximum Voltage
171V
Energy Storage
42.6wh
Equivalent DC Internal Resistance
≤260mΩ
Leakage Current
≤ 34mA@160V
Maximum Continuous Current
40A (T=△40℃, <5min)
Peak Current
294A (<1S, not repeated within 24h)
Operating Temperature
-40℃ - 65℃
Storage Temperature
-40℃ - 70℃
-
Charging and discharging process
A) Charge the module to the rated voltage UR with a constant current I
B) Maintain the rated voltage for 5 minutes
C) Discharge the module to <0.2V with a constant current I
D) U1=80%UR, U2=50%UR
1. Capacity calculation method
C=I*(T2-T1)/(U1-U2),
C: Capacity (F)
I: Discharge current (A)
T2-T1: Discharge time (S)
U1-U2: Voltage change (V)
2. DC ESR (Direct Current Equivalent Series Resistance) measurement method
DC ESR = ΔU / I ,
ΔU: Voltage change over 10ms
I: Discharge current (A)
Test Method
-
- Performance Parameters
- Service Life
Product Model
DUCM 16012 E10A
Rated Capacity
12F (25℃)
Capacity Deviation
0% ~ +20%
Rated Voltage
160V
Maximum Voltage
171V
Energy Storage
42.6wh
Equivalent DC Internal Resistance
≤260mΩ
Leakage Current
≤ 34mA@160V
Maximum Continuous Current
40A (T=△40℃, <5min)
Peak Current
294A (<1S, not repeated within 24h)
Operating Temperature
-40℃ - 65℃
Storage Temperature
-40℃ - 70℃
-
Charging and discharging process
A) Charge the module to the rated voltage UR with a constant current I
B) Maintain the rated voltage for 5 minutes
C) Discharge the module to <0.2V with a constant current I
D) U1=80%UR, U2=50%UR
1. Capacity calculation method
C=I*(T2-T1)/(U1-U2),
C: Capacity (F)
I: Discharge current (A)
T2-T1: Discharge time (S)
U1-U2: Voltage change (V)
2. DC ESR (Direct Current Equivalent Series Resistance) measurement method
DC ESR = ΔU / I ,
ΔU: Voltage change over 10ms
I: Discharge current (A)
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