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Shenzhen Yukun Technology Co., Ltd

Contact: Mr. Wang

Wob: 13530372041

Tel: 0755-26607151

Email: Jim@sznovelty.cn

Web: en.szsyky.cn

Add: Fudali 302, No. 8, Shuitian Hongxing Road, Bao'an District, Shenzhen

Security equipment capacitor

Security equipment capacitor

  • Cname:Super capacitor
  • Views:Times
  • Release date:2023-02-02 14:50:51
  • Content
  • Features
  • Parameter

Product introduction:

      Security equipment capacitor generally refers to electrical double-layer capacitor, which is a kind of super capacitor and a new type of energy storage device. The double-layer capacitance is between the battery and the capacitance, and its huge capacity can be used as a battery completely. Compared with the battery based on electrochemical principle, the charge and discharge process of the double-layer capacitor does not involve the change of material at all, so it has the characteristics of short charging time, long service life, good temperature characteristics, energy saving and green environmental protection. The distance between the two electric layers of the double-layer capacitor is very small, which makes the withstand voltage very weak, generally not more than 20V, so it is usually used as the energy storage element in low voltage DC or low frequency situations.

Series specification table:

Specification

characteristic

Rated voltage VR

3.0V.DC

surge voltage

3.15V.DC

Capacity range

1F-120F

Operating temperature range

-40℃~+65℃

Product life

Normal temperature cycle life: At 25°C, the capacitor is charged and discharged 1 million times between the specification voltage and the half rated voltage with a constant current. Capacity attenuation ≤30% times, internal resistance change ≤3 times

High temperature endurance life: under the condition of +65℃, the rated voltage is applied for 1000 hours. Capacity attenuation 30%, internal resistance change ≤3 times

Product performance table:

Product number

Rated voltage (V)

Nominal capacity (F)

Product size mm

Internal resistance

Working current (A)∆

T=15℃

Peak current (A)

Leakage

current


(72hrs/µA)

High energy (Wh)

Energy density (Wh/kg)

functional density

(kw/kg)

Outer diameter (ϕD)

Height (L)

ESRA

C(mΩ/1KHz)

YKY3R0S105C01DSZ

3.0

1

6.3

12

250

0.18

0.68

   3

0.0013

1.67

1.20

YKY3R0S105C02DSZ

3.0

1

8

12

180

0.26

0.83

   5

0.0013

1.37

1.48

YKY3R0S205C02DSZ

3.0

2

8

12

130

0.26

1.15

   6 

0.0025

2.75

1.48

YKY3R0S205C03DSZ

3.0

2

8

16

120

0.43

1.74

   8

0.0025

2.27

2.73

YKY3R0S335C04DSZ

3.0

3.3

8

20

95

0.53

2.53

   10

0.0041

2.84

2.57

YKY3R0S505C04DSZ

3.0

5

8

20

80

0.59

3.41

   12

0.0063

4.17

3.00

YKY3R0S505C06DSZ

3.0

5

10

20

70

0.77

3.93

   15

0.0063

2.84

2.73

YKY3R0V705C05DSZ

3.0

7

8

25

80

0.71

4.38

   18

0.0088

4.61

2.84

YKY3R0V705C06DSZ

3.0

7

10

20

60

0.81

4.95

   18

0.0088

3.65

2.81

YKY3R0V106C06DSZ

3.0

10

10

20

50

0.94

6.82

   18

0.0125

5.1

3.67

YKY3R0V106C07DSZ

3.0

10

10

25

40

1.27

8.33

    20

0.0125

4.46

2.84

YKY3R0V106C09DSZ

3.0

10

12.5

20

40

1.35

8.57

    25

0.0125

3.57

4.11

YKY3R0V156C09DSZ

3.0

15

12.5

20

40

1.35

10.59

    30

0.0188

5.07

3.89

YKY3R0V156C10DSZ

3.0

15

12.5

25

35

1.54

10.98

    35

0.0188

4.36

3.59

YKY3R0V206C10DSZ

3.0

20

12.5

25

35

1.66

13.64

    50

0.0250

5.43

3.91

YKY3R0V256C12DSZ

3.0

25

16

20

25

1.9

16.67

    70

0.0313

5.21

3.60

YKY3R0V306C14DSZ

3.0

30

16

30

20

2.53

20.45

    80

0.0375

4.46

3.21

YKY3R0V506C15DSZ

3.0

50

18

40

15

4.34

37.5

    100

0.0625

4.7

4.06

YKY3R0V107C16DSZ

3.0

100

18

60

12

5.85

57.69

    260

0.1250

5.95

3.21

YKY3R0V107C17DSZ

3.0

120

18

60

12

5.85

61.64

    260

0.1500

7.14

3.21

Dimensions (unit: mm)

3.0.jpg


Product display:


安防设备电容器


Product advantages:

Application areas:

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testing method:

   1. Electrostatic capacity test method:

(1) Test principle

    The test of the electrostatic capacity of the supercapacitor is to use the method of constant current discharge of the capacitor, and calculate it according to the formula.

   C=It(U1-U2)

In the formula: C - electrostatic capacity, F;

       I-constant discharge current, A;

      U1, U2 - use voltage, V;

      t-Discharge time required for U1 to U2, S

(2), test procedure

   Charge the capacitor with a current of 100A, charge the capacitor to the working voltage and keep the voltage constant for 10 seconds, then discharge the capacitor with a current of 100A, take U1 as 1.2V and U2 as 1.0V, record the discharge time within this voltage range, and the total cycle Capacitance, take the average value.

2. Stored energy test

  (1) Test principle:

      The test of supercapacitor energy is carried out by the method of discharging the capacitor with constant power to 1/2 of the working voltage with a given voltage range of the capacitor. The output energy W of the capacitor is obtained from the relationship between the constant discharge power P and the discharge time T, namely:

          W=PT

  (2) Test procedure

     Charge the capacitor to the working voltage with a constant current of 100A, and then keep it constant until the charging current drops to the specified current (10A for traction type, 1A for start-up type), after 5 seconds of rest, discharge the capacitor with constant power to 1/2 of the working voltage, record Discharge time and calculate magnitude. Repeat the measurement 3 times and take the average value.

3. Equivalent series resistance test (DC)

  (1) Test principle

    The internal resistance of the capacitor is measured according to the sudden change of the voltage within 10 milliseconds of the capacitor disconnecting the constant current charging circuit. That is: in the formula:

     R - the internal resistance of the capacitor;

     U0 - capacitor cut off the voltage before charging;

     Ui - cut off the voltage within 10ms after charging;

     I - cut off the current before charging.

 (2) Measurement process

    Charge the capacitor with a constant current of 100A, disconnect the charging circuit when the charging working voltage is 80%, use a sampling machine to record the voltage change value within 10 milliseconds after the capacitor is powered off, and calculate the internal resistance, repeat 3 times, and take the average value.

4. Leakage current test

   After charging the capacitor to the rated voltage with a constant current of 100A, charge the capacitor with a constant voltage for 30min at this voltage value, and then leave it open for 72h. During the first three hours, the voltage value was recorded every minute, and during the remaining time, the voltage value was recorded every ten minutes.

  Calculate the self-discharge energy loss, SDLF=1-(V/VW)2, and the calculation time points are: 0.5, 1, 8, 24, 36, 72h.

   Note: The voltage tester must have high input impedance to minimize the impact of discharge.



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