Electrical Requirements电解电容器规格书:
1 | Capacitance Tolerance 容量偏差 | ±20% at 120Hz,20℃ | ||||||||||||||||||||||||||||||||||||||
2 | Operation Temperature Range 工作温度 | 6.3V~100V -40℃~+105℃ | 160V~400V -25℃~+105℃ | |||||||||||||||||||||||||||||||||||||
3 | Rated Working Voltage And Surge Voltage 额定电压与 浪涌电压 | |||||||||||||||||||||||||||||||||||||||
W.V. | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | 100 | 160 | 200 | 250 | 350 | 400 | |||||||||||||||||||||||||||
S.V. | 7.3 | 11.5 | 18.4 | 29 | 40 | 58 | 73 | 115 | 184 | 230 | 287 | 400 | 460 | |||||||||||||||||||||||||||
4 | Leakage Current 漏电流 | After DC Voltage is applied to capacitor through the series protective resistance(1KΩ),and then terminal voltage may reach the rated working voltage. The leakage current when measured after 2 minutes (6.3-400V)shall be below the value of the following equation. 串联(1KΩ)保护电阻后,对产品施加额定直流工作电压(6.3~400V)两分钟后,漏电流值不大于下列规定值。 | ||||||||||||||||||||||||||||||||||||||
6.3~100V I≤0.01CV or 3μA(取较大值) Whichever is greater | 160~400V I≤0.03CV +10(μA) | |||||||||||||||||||||||||||||||||||||||
Where I=Leakage Current(μA) C=Capacitance(μF) V=Rated DC Working Voltage(V) | ||||||||||||||||||||||||||||||||||||||||
5 | Dissipation Factor 损耗角正切值 (at 120Hz,20℃) | |||||||||||||||||||||||||||||||||||||||
Rated Voltage | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | 100 | 160 | 200 | 250 | 300 | 400 | 450 | ||||||||||||||||||||||||||
Tanδ(max) | 0.24 | 0.20 | 0.16 | 0.14 | 0.12 | 0.10 | 0.09 | 0.08 | 0.12 | 0.12 | 0.15 | 0.15 | 0.23 | 0.23 | ||||||||||||||||||||||||||
标称容量大于1000μF时,每增加1000μF,损耗角正切值增加0.02。 | ||||||||||||||||||||||||||||||||||||||||
Endurance characteristic特性检测:
No | Item测试项目 | Conditions测试条件 | Specification特性要求 | |||||
1 | Rotational Temperature Test 温度快速变化 | Capacitor is place in an oven whose temperatures follow specific regulation to change. The specific regulation is “+20℃(3 min)→-40℃(30 min)→+20℃(3 min)→+105℃(30 min)→+20℃(3 min)”,and it is called a cycle. The test totals 5 cycles. And then the capacitor shall be subjected to standard atmospheric Conditions for 16 hours, after which measurement shall be made. 电容器在规定的温度范围内循环如下:“+20℃(3 min)→-40℃(30 min)→ +20℃(3 min)→+105℃(30 min)→+20℃(3 min)”,以上循环运行5次后,将电容器放置于标准气候中恢复16小时测量其值满足特性要求。 | Physical外观 | No broken and undamaged 无可见损伤及泄漏 | ||||
2 | High Temperature Load Life Test 耐久性 | Capacitors shall be placed in oven with application of ripple current and rated voltage for 1000hrs at 105℃. 在 105℃条件下,对电容器施加带有额定纹波电流的额定工作电压1000小时后,在标准气候下恢复16小时测量。 | Capacitance Change 容量变化 | Within±20% of the initial value 初始值的±20%以内 | ||||
TANδ 损耗角正切 | Less than 200% of specified value 不大于规定值的200% | |||||||
Leakage Current 漏电流 | Within specified value 不大于规定值 | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
3 | High Temperature Unload Life Test 高温储存特性 | After 500 hrs test at 105℃ without rated working voltage. And then the capacitor shall be subjected to standard atmospheric conditions for 16 hours, after which measurements shall be made. 将电容器无负载放置于105℃条件,500小时后取出,放置于标准气候下恢复16小时测量. | Capacitance Change 容量变化 | Within±20% of the initial value 初始值的±20%以内 | ||||
TANδ 损耗角正切 | Lessthan200% of specified value 不大于规定值的200% | |||||||
Leakage Current 漏电流 | Less than 200% of specified value 不大于规定值的200% | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
4 | Humidity Test 稳态湿热 | Capacitors shall be exposed for 500±6 hrs in an atmosphere of 90~95% R.H. at 40℃. And then the capacitor shall be subjected to standard atmospheric conditions for 16 hours, after which measurements shall be made. 电容器放置于湿度90~95% R.H.,温度40℃的大气中500±6小时.取出后在标准气候下恢复16小时测量. | Capacitance Change 容量变化 | Within±10% of the initial value 初始值的±10%以内 | ||||
TANδ 损耗角正切 | Lessthan200% of specified value 不大于规定值的200% | |||||||
Leakage Current 漏电流 | Within specified value 不大于规定值 | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
5 | Vibration Test 振动测试 | 1.Fix it at the point 4mm or less form body. For ones of 12.5mm or more in diameter or 25mm or more length, use separate fixture. 2.Direction and during of vibration: 3 orthogonal directions Mutually each for 2hrs total 6hrs. 3.Frequency:10to 55Hz reciprocation for1 min. 4. Total amplitude: 0.75mm. 1.安装点距产品4mm以上。 2.在三个互相垂直轴的每一方向各振动2小时,共6小时。 3.频率:10到55Hz 每分钟互换。 4.振幅: 0.75mm. | Capacitance Change 容量变化 | Within±10% of the initial value 初始值的±10%以内 | ||||
TANδ 损耗角正切 | Within specified value 不大于规定值 | |||||||
Leakage Current 漏电流 | Within specified value 不大于规定值 | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
6 | Solder Heat-Resistance Test 耐焊接热 | The section of lead below 4mm form the body of capacitor must be immersed in 260℃±5℃ liquid tin 10±1 seconds. Then. after removing the following specifications shall be satisfied when capacitor terminal is restored to 20℃ within two hours or over an hour. 距电容器本体4mm以下浸入 260℃±5℃ 的液体中10±1 秒. 取出后放入标准气候下恢复1~2小时测量。 | Capacitance Change 容量变化 | Within±5% of the initial value 初始值的±5%以内 | ||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
7 | Surge Voltage Test 浪涌电压 | After surge voltage applied at a cycling rate of 30 seconds charge and 5.5 minutes discharge 1000 successive test cycle. 加1.15倍额定电压充电30秒后放电5分30秒,连续循环1000次后测量。 | Capacitance Change 容量变化 | Within±15% of the initial value 初始值的±15%以内 | ||||
TANδ 损耗角正切 | Within specified value 不大于规定值 | |||||||
Leakage Current 漏电流 | Within specified value 不大于规定值 | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
8 | Solderability Test 可焊性 | After the lead wire fully immersed in the solder for 2±0.1secs at a temperature of 235±2℃,the solder coating must be more than 95% 引线浸入235±2℃的焊料中,持续 2±0.1秒,拔出后引线表面被焊料覆盖的面积不少于浸入面积的95%。 | ||||||
9 | Mechanical Characteristics Test 引出端的强度 | 1.The test is about lead tabs strength. 1.本测试主要测试引出端的强度. 2.Tension Test: The lead tabs shall not be broken or any malformed condition after fixing capacitor vertically and pressing the following weight on the lead tabs of capacitor for 10±1 secs. 2.拉力测试:垂直固定电容器后,在引出端施加以下重量10±1秒钟,引出端不允许出现任何损伤和变形。 | ||||||
Lead tabs diameter 引出端直径(mm) | Weight重量(Kg) | |||||||
0.5 | 0.5 | |||||||
0.6、0.8 | 0.8 | |||||||
3.Bending Test: The capacitor is held in vertical position. Attach a weight to the lead tabs, slowly rotate the capacitor 90℃ to a same way in the opposite direction. Repeat it again(5secs per cycle). The lead tabs shall not be broken or cracked. 3.弯曲测试:竖直放置电容器,在其引出端悬挂下表重量的重物,转动电容器90度,恢复后,向相反方向转动90度,再恢复为一个周期,重复1次(每个循环5秒钟)。引线不会损伤破损。 | ||||||||
Lead tabs diameter 引出端直径(mm) | Weight重量(Kg) | |||||||
0.5 | 0.5 | |||||||
0.6、0.8 | 0.8 | |||||||
10 | Standards 引用标准 | Satisfies Characteristic of GB2693,IEC383、IEC384 | ||||||
11.Diagram of Dimensions尺寸图:
(mm)
D | ±0.5 | ±1.0 | ||||||||||||||||||
5 | 6or6.3 | 8 | 10 | 13 | 16 | 19 | ||||||||||||||
F±0.5 | 2.0 | 2.5 | 3.5 | 5.0 | 5.0 | 7.5 | 7.5 | |||||||||||||
L±2.0(max) | 11 | 11 | 12 | 13,16,20 | 20,25 | 25,31 | 35,40 | |||||||||||||
d±0.05 | 0.5 | 0.5 | 0.5or0.6 | 0.6 | 0.8 | |||||||||||||||
12. Case Size and Ripple Current尺寸和纹波电流
D×L(mm) wv mA μF | 6.3 ( 0J ) | 10 ( 1A ) | 16 ( 1C ) | 25 ( 1E ) | 35 ( 1V ) | 50 ( 1H ) | 63 ( 1J ) | |||||||
ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | |
0.1 ( 0R1) | 5×11 | 3 | ||||||||||||
0.22 ( R22) | 5×11 | 4 | ||||||||||||
0.33 ( R33) | 5×11 | 5 | ||||||||||||
0.47 ( R47) | 5×11 | 6 | ||||||||||||
1.0 ( 010) | 5×11 | 9 | ||||||||||||
2.2 ( 2R2) | 5×11 | 11 | ||||||||||||
3.3 ( 3R3) | 5×11 | 15 | ||||||||||||
4.7 ( 4R7) | 5×11 | 18 | 5×11 | 20 | ||||||||||
10 (100) | 5×11 | 20 | 5×11 | 25 | 5×11 | 25 | 5×11 | 25 | 5×11 | 30 | ||||
22 (220) | 5×11 | 30 | 5×11 | 35 | 5×11 | 35 | 5×11 | 40 | 6.3×11 | 50 | ||||
33 (330) | 5×11 | 40 | 5×11 | 40 | 5×11 | 50 | 6.3×11 | 60 | 8×12 | 60 | ||||
47 (470) | 5×11 | 45 | 5×11 | 50 | 5×11 | 50 | 6.3×11 | 65 | 6.3×11 | 73 | 8×12 | 90 | ||
100 (101) | 5×11 | 60 | 5×11 | 80 | 6.3×11 | 80 | 6.3×11 | 90 | 8×12 | 110 | 8×12 | 120 | 10×12 | 150 |
220 (221) | 6.3×11 | 100 | 6.3×11 | 110 | 8×12 | 140 | 8×12 | 150 | 10×13 | 190 | 10×16 | 240 | 10×20 | 270 |
330 (331) | 8×12 | 120 | 8×12 | 160 | 13×21 | 302 | 10×13 | 220 | 10×16 | 260 | 10×20 | 320 | 13×20 | 380 |
470 (471) | 8×12 | 170 | 8×12 | 190 | 10×13 | 250 | 10×16 | 290 | 10×20 | 350 | 13×20 | 430 | 13×25 | 500 |
1000 (102) | 10×13 | 300 | 10×16 | 360 | 10×20 | 440 | 13×20 | 540 | 13×25 | 620 | 16×25 | 790 | 16×31 | 900 |
2200 (222) | 13×20 | 580 | 13×20 | 620 | 13×25 | 700 | 13×21 | 725 | 16×31 | 1030 | 19×35 | 1230 | 19×40 | 1310 |
3300 (332) | 13×20 | 670 | 13×25 | 800 | 16×25 | 970 | 16×31 | 1120 | 19×35 | 1320 | 19×40 | 1400 | ||
4700 (472) | 16×25 | 1000 | 16×25 | 1050 | 16×31 | 1240 | 19×35 | 1440 | ||||||
6800 (682) | 16×25 | 1120 | 16×31 | 1300 | 19×35 | 1530 | 19×40 | 1630 | ||||||
10000 (103) | 19×35 | 1320 | 19×35 | 1620 | 19×40 | 1730 | ||||||||
D×L(mm) wv mA μF | 100 ( 2A ) | 160 ( 2C ) | 200 ( 2D ) | 250 ( 2E ) | 350 ( 2V ) | 400 ( 2G ) | 450 (2W) | |||||||
ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | |
0.47 ( R47) | 5×11 | 6 | 5×11 | 8 | 8×12 | 6 | 8×12 | 6 | ||||||
1.0 ( 010) | 5×11 | 9 | 5×11 | 12 | 8×12 | 9 | 8×12 | 9 | 8×12 | 12 | 10×16 | 15 | ||
2.2 ( 2R2) | 5×11 | 15 | 6.3×11 | 15 | 8×12 | 15 | 8×12 | 15 | 10×12 | 18 | 10×16 | 20 | 10×16 | 29 |
3.3 ( 3R3) | 5×11 | 18 | 8×12 | 20 | 8×12 | 20 | 10×13 | 20 | 10×16 | 23 | 10×16 10×20 | 25 | 10×20 | 35 |
4.7 ( 4R7) | 5×11 | 20 | 8×12 | 25 | 10×13 | 30 | 10×13 | 30 | 10×16 | 35 | 13×20 13×25 | 40 | 13×20 | 50 |
10 (100) | 6.3×11 | 35 | 10×13 | 40 | 10×16 | 45 | 10×20 | 45 | 13×20 | 50 | 13×25 16×25 | 70 | 13×25 | 75 |
22 (220) | 8×12 | 65 | 10×20 | 70 | 10×20 | 70 | 13×25 | 80 | 13×25 | 80 | 16×31 | 110 | 16×31 | 110 |
33 (330) | 10×13 | 95 | 13×20 | 110 | 13×25 | 110 | 13×25 | 100 | 16×32 | 140 | 16×21 | 131 | 19×35 | 150 |
47 (470) | 10×16 | 120 | 13×25 | 140 | 13×25 | 140 | 16×25 | 140 | 18×36 | 360 | ||||
100 (101) | 13×20 | 220 | 16×25 | 240 | 16×31 | 250 | 19×35 | 260 | ||||||
220 (221) | 16×25 | 420 | 19×35 | 430 | ||||||||||
330 (331) | 16×31 | 510 | ||||||||||||
470 (471) | 19×35 | 680 | ||||||||||||
1000 (102) | 19×40 | 1230 |
I~額定紋波電流Rated ripple current:(mA,105℃,120Hz)
A. Marking:
Capacitor shall be marked with Capacitance, Rated Working Voltage, Max Operating Temperature and Polarity. All marking shall be legible and permanent.
B. Remark:
Customers’ specification will be accorded on request.
Electrical Requirements电解电容器规格书:
1 | Capacitance Tolerance 容量偏差 | ±20% at 120Hz,20℃ | ||||||||||||||||||||||||||||||||||||||
2 | Operation Temperature Range 工作温度 | 6.3V~100V -40℃~+105℃ | 160V~400V -25℃~+105℃ | |||||||||||||||||||||||||||||||||||||
3 | Rated Working Voltage And Surge Voltage 额定电压与 浪涌电压 | |||||||||||||||||||||||||||||||||||||||
W.V. | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | 100 | 160 | 200 | 250 | 350 | 400 | |||||||||||||||||||||||||||
S.V. | 7.3 | 11.5 | 18.4 | 29 | 40 | 58 | 73 | 115 | 184 | 230 | 287 | 400 | 460 | |||||||||||||||||||||||||||
4 | Leakage Current 漏电流 | After DC Voltage is applied to capacitor through the series protective resistance(1KΩ),and then terminal voltage may reach the rated working voltage. The leakage current when measured after 2 minutes (6.3-400V)shall be below the value of the following equation. 串联(1KΩ)保护电阻后,对产品施加额定直流工作电压(6.3~400V)两分钟后,漏电流值不大于下列规定值。 | ||||||||||||||||||||||||||||||||||||||
6.3~100V I≤0.01CV or 3μA(取较大值) Whichever is greater | 160~400V I≤0.03CV +10(μA) | |||||||||||||||||||||||||||||||||||||||
Where I=Leakage Current(μA) C=Capacitance(μF) V=Rated DC Working Voltage(V) | ||||||||||||||||||||||||||||||||||||||||
5 | Dissipation Factor 损耗角正切值 (at 120Hz,20℃) | |||||||||||||||||||||||||||||||||||||||
Rated Voltage | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | 100 | 160 | 200 | 250 | 300 | 400 | 450 | ||||||||||||||||||||||||||
Tanδ(max) | 0.24 | 0.20 | 0.16 | 0.14 | 0.12 | 0.10 | 0.09 | 0.08 | 0.12 | 0.12 | 0.15 | 0.15 | 0.23 | 0.23 | ||||||||||||||||||||||||||
标称容量大于1000μF时,每增加1000μF,损耗角正切值增加0.02。 | ||||||||||||||||||||||||||||||||||||||||
Endurance characteristic特性检测:
No | Item测试项目 | Conditions测试条件 | Specification特性要求 | |||||
1 | Rotational Temperature Test 温度快速变化 | Capacitor is place in an oven whose temperatures follow specific regulation to change. The specific regulation is “+20℃(3 min)→-40℃(30 min)→+20℃(3 min)→+105℃(30 min)→+20℃(3 min)”,and it is called a cycle. The test totals 5 cycles. And then the capacitor shall be subjected to standard atmospheric Conditions for 16 hours, after which measurement shall be made. 电容器在规定的温度范围内循环如下:“+20℃(3 min)→-40℃(30 min)→ +20℃(3 min)→+105℃(30 min)→+20℃(3 min)”,以上循环运行5次后,将电容器放置于标准气候中恢复16小时测量其值满足特性要求。 | Physical外观 | No broken and undamaged 无可见损伤及泄漏 | ||||
2 | High Temperature Load Life Test 耐久性 | Capacitors shall be placed in oven with application of ripple current and rated voltage for 1000hrs at 105℃. 在 105℃条件下,对电容器施加带有额定纹波电流的额定工作电压1000小时后,在标准气候下恢复16小时测量。 | Capacitance Change 容量变化 | Within±20% of the initial value 初始值的±20%以内 | ||||
TANδ 损耗角正切 | Less than 200% of specified value 不大于规定值的200% | |||||||
Leakage Current 漏电流 | Within specified value 不大于规定值 | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
3 | High Temperature Unload Life Test 高温储存特性 | After 500 hrs test at 105℃ without rated working voltage. And then the capacitor shall be subjected to standard atmospheric conditions for 16 hours, after which measurements shall be made. 将电容器无负载放置于105℃条件,500小时后取出,放置于标准气候下恢复16小时测量. | Capacitance Change 容量变化 | Within±20% of the initial value 初始值的±20%以内 | ||||
TANδ 损耗角正切 | Lessthan200% of specified value 不大于规定值的200% | |||||||
Leakage Current 漏电流 | Less than 200% of specified value 不大于规定值的200% | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
4 | Humidity Test 稳态湿热 | Capacitors shall be exposed for 500±6 hrs in an atmosphere of 90~95% R.H. at 40℃. And then the capacitor shall be subjected to standard atmospheric conditions for 16 hours, after which measurements shall be made. 电容器放置于湿度90~95% R.H.,温度40℃的大气中500±6小时.取出后在标准气候下恢复16小时测量. | Capacitance Change 容量变化 | Within±10% of the initial value 初始值的±10%以内 | ||||
TANδ 损耗角正切 | Lessthan200% of specified value 不大于规定值的200% | |||||||
Leakage Current 漏电流 | Within specified value 不大于规定值 | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
5 | Vibration Test 振动测试 | 1.Fix it at the point 4mm or less form body. For ones of 12.5mm or more in diameter or 25mm or more length, use separate fixture. 2.Direction and during of vibration: 3 orthogonal directions Mutually each for 2hrs total 6hrs. 3.Frequency:10to 55Hz reciprocation for1 min. 4. Total amplitude: 0.75mm. 1.安装点距产品4mm以上。 2.在三个互相垂直轴的每一方向各振动2小时,共6小时。 3.频率:10到55Hz 每分钟互换。 4.振幅: 0.75mm. | Capacitance Change 容量变化 | Within±10% of the initial value 初始值的±10%以内 | ||||
TANδ 损耗角正切 | Within specified value 不大于规定值 | |||||||
Leakage Current 漏电流 | Within specified value 不大于规定值 | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
6 | Solder Heat-Resistance Test 耐焊接热 | The section of lead below 4mm form the body of capacitor must be immersed in 260℃±5℃ liquid tin 10±1 seconds. Then. after removing the following specifications shall be satisfied when capacitor terminal is restored to 20℃ within two hours or over an hour. 距电容器本体4mm以下浸入 260℃±5℃ 的液体中10±1 秒. 取出后放入标准气候下恢复1~2小时测量。 | Capacitance Change 容量变化 | Within±5% of the initial value 初始值的±5%以内 | ||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
7 | Surge Voltage Test 浪涌电压 | After surge voltage applied at a cycling rate of 30 seconds charge and 5.5 minutes discharge 1000 successive test cycle. 加1.15倍额定电压充电30秒后放电5分30秒,连续循环1000次后测量。 | Capacitance Change 容量变化 | Within±15% of the initial value 初始值的±15%以内 | ||||
TANδ 损耗角正切 | Within specified value 不大于规定值 | |||||||
Leakage Current 漏电流 | Within specified value 不大于规定值 | |||||||
Physical外观 | No broken and undamaged 无可见损伤及泄漏 | |||||||
8 | Solderability Test 可焊性 | After the lead wire fully immersed in the solder for 2±0.1secs at a temperature of 235±2℃,the solder coating must be more than 95% 引线浸入235±2℃的焊料中,持续 2±0.1秒,拔出后引线表面被焊料覆盖的面积不少于浸入面积的95%。 | ||||||
9 | Mechanical Characteristics Test 引出端的强度 | 1.The test is about lead tabs strength. 1.本测试主要测试引出端的强度. 2.Tension Test: The lead tabs shall not be broken or any malformed condition after fixing capacitor vertically and pressing the following weight on the lead tabs of capacitor for 10±1 secs. 2.拉力测试:垂直固定电容器后,在引出端施加以下重量10±1秒钟,引出端不允许出现任何损伤和变形。 | ||||||
Lead tabs diameter 引出端直径(mm) | Weight重量(Kg) | |||||||
0.5 | 0.5 | |||||||
0.6、0.8 | 0.8 | |||||||
3.Bending Test: The capacitor is held in vertical position. Attach a weight to the lead tabs, slowly rotate the capacitor 90℃ to a same way in the opposite direction. Repeat it again(5secs per cycle). The lead tabs shall not be broken or cracked. 3.弯曲测试:竖直放置电容器,在其引出端悬挂下表重量的重物,转动电容器90度,恢复后,向相反方向转动90度,再恢复为一个周期,重复1次(每个循环5秒钟)。引线不会损伤破损。 | ||||||||
Lead tabs diameter 引出端直径(mm) | Weight重量(Kg) | |||||||
0.5 | 0.5 | |||||||
0.6、0.8 | 0.8 | |||||||
10 | Standards 引用标准 | Satisfies Characteristic of GB2693,IEC383、IEC384 | ||||||
11.Diagram of Dimensions尺寸图:
(mm)
D | ±0.5 | ±1.0 | ||||||||||||||||||
5 | 6or6.3 | 8 | 10 | 13 | 16 | 19 | ||||||||||||||
F±0.5 | 2.0 | 2.5 | 3.5 | 5.0 | 5.0 | 7.5 | 7.5 | |||||||||||||
L±2.0(max) | 11 | 11 | 12 | 13,16,20 | 20,25 | 25,31 | 35,40 | |||||||||||||
d±0.05 | 0.5 | 0.5 | 0.5or0.6 | 0.6 | 0.8 | |||||||||||||||
12. Case Size and Ripple Current尺寸和纹波电流
D×L(mm) wv mA μF | 6.3 ( 0J ) | 10 ( 1A ) | 16 ( 1C ) | 25 ( 1E ) | 35 ( 1V ) | 50 ( 1H ) | 63 ( 1J ) | |||||||
ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | |
0.1 ( 0R1) | 5×11 | 3 | ||||||||||||
0.22 ( R22) | 5×11 | 4 | ||||||||||||
0.33 ( R33) | 5×11 | 5 | ||||||||||||
0.47 ( R47) | 5×11 | 6 | ||||||||||||
1.0 ( 010) | 5×11 | 9 | ||||||||||||
2.2 ( 2R2) | 5×11 | 11 | ||||||||||||
3.3 ( 3R3) | 5×11 | 15 | ||||||||||||
4.7 ( 4R7) | 5×11 | 18 | 5×11 | 20 | ||||||||||
10 (100) | 5×11 | 20 | 5×11 | 25 | 5×11 | 25 | 5×11 | 25 | 5×11 | 30 | ||||
22 (220) | 5×11 | 30 | 5×11 | 35 | 5×11 | 35 | 5×11 | 40 | 6.3×11 | 50 | ||||
33 (330) | 5×11 | 40 | 5×11 | 40 | 5×11 | 50 | 6.3×11 | 60 | 8×12 | 60 | ||||
47 (470) | 5×11 | 45 | 5×11 | 50 | 5×11 | 50 | 6.3×11 | 65 | 6.3×11 | 73 | 8×12 | 90 | ||
100 (101) | 5×11 | 60 | 5×11 | 80 | 6.3×11 | 80 | 6.3×11 | 90 | 8×12 | 110 | 8×12 | 120 | 10×12 | 150 |
220 (221) | 6.3×11 | 100 | 6.3×11 | 110 | 8×12 | 140 | 8×12 | 150 | 10×13 | 190 | 10×16 | 240 | 10×20 | 270 |
330 (331) | 8×12 | 120 | 8×12 | 160 | 13×21 | 302 | 10×13 | 220 | 10×16 | 260 | 10×20 | 320 | 13×20 | 380 |
470 (471) | 8×12 | 170 | 8×12 | 190 | 10×13 | 250 | 10×16 | 290 | 10×20 | 350 | 13×20 | 430 | 13×25 | 500 |
1000 (102) | 10×13 | 300 | 10×16 | 360 | 10×20 | 440 | 13×20 | 540 | 13×25 | 620 | 16×25 | 790 | 16×31 | 900 |
2200 (222) | 13×20 | 580 | 13×20 | 620 | 13×25 | 700 | 13×21 | 725 | 16×31 | 1030 | 19×35 | 1230 | 19×40 | 1310 |
3300 (332) | 13×20 | 670 | 13×25 | 800 | 16×25 | 970 | 16×31 | 1120 | 19×35 | 1320 | 19×40 | 1400 | ||
4700 (472) | 16×25 | 1000 | 16×25 | 1050 | 16×31 | 1240 | 19×35 | 1440 | ||||||
6800 (682) | 16×25 | 1120 | 16×31 | 1300 | 19×35 | 1530 | 19×40 | 1630 | ||||||
10000 (103) | 19×35 | 1320 | 19×35 | 1620 | 19×40 | 1730 | ||||||||
D×L(mm) wv mA μF | 100 ( 2A ) | 160 ( 2C ) | 200 ( 2D ) | 250 ( 2E ) | 350 ( 2V ) | 400 ( 2G ) | 450 (2W) | |||||||
ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | ΦD×L | mA | |
0.47 ( R47) | 5×11 | 6 | 5×11 | 8 | 8×12 | 6 | 8×12 | 6 | ||||||
1.0 ( 010) | 5×11 | 9 | 5×11 | 12 | 8×12 | 9 | 8×12 | 9 | 8×12 | 12 | 10×16 | 15 | ||
2.2 ( 2R2) | 5×11 | 15 | 6.3×11 | 15 | 8×12 | 15 | 8×12 | 15 | 10×12 | 18 | 10×16 | 20 | 10×16 | 29 |
3.3 ( 3R3) | 5×11 | 18 | 8×12 | 20 | 8×12 | 20 | 10×13 | 20 | 10×16 | 23 | 10×16 10×20 | 25 | 10×20 | 35 |
4.7 ( 4R7) | 5×11 | 20 | 8×12 | 25 | 10×13 | 30 | 10×13 | 30 | 10×16 | 35 | 13×20 13×25 | 40 | 13×20 | 50 |
10 (100) | 6.3×11 | 35 | 10×13 | 40 | 10×16 | 45 | 10×20 | 45 | 13×20 | 50 | 13×25 16×25 | 70 | 13×25 | 75 |
22 (220) | 8×12 | 65 | 10×20 | 70 | 10×20 | 70 | 13×25 | 80 | 13×25 | 80 | 16×31 | 110 | 16×31 | 110 |
33 (330) | 10×13 | 95 | 13×20 | 110 | 13×25 | 110 | 13×25 | 100 | 16×32 | 140 | 16×21 | 131 | 19×35 | 150 |
47 (470) | 10×16 | 120 | 13×25 | 140 | 13×25 | 140 | 16×25 | 140 | 18×36 | 360 | ||||
100 (101) | 13×20 | 220 | 16×25 | 240 | 16×31 | 250 | 19×35 | 260 | ||||||
220 (221) | 16×25 | 420 | 19×35 | 430 | ||||||||||
330 (331) | 16×31 | 510 | ||||||||||||
470 (471) | 19×35 | 680 | ||||||||||||
1000 (102) | 19×40 | 1230 |
I~額定紋波電流Rated ripple current:(mA,105℃,120Hz)
A. Marking:
Capacitor shall be marked with Capacitance, Rated Working Voltage, Max Operating Temperature and Polarity. All marking shall be legible and permanent.
B. Remark:
Customers’ specification will be accorded on request.
capsun牌电容作为中国特种大型高压铝电解电容器的制造商,透过X技术的应用让您品质上使用更无忧。
固态电容全称为:固态铝质电解电容。它与普通电容(即液态铝质电解电容)X大差别在于采用了不同的介电材料,液态铝电容介电材料为电解液,而固态电容的介电材料则为导电性高分子。
对于经常去网吧或者长时间使用电脑的朋友,一定有过或者听过由于板卡电容导致电脑不稳定,甚至于电容爆裂的事情!那就是因为一方面板卡在长时间使用中,过热导致电解液受热膨胀,导致电容失去作用甚至由于X过沸点导致膨胀爆裂!另一方面是,如果板卡在长期不通电的情形下,电解液容易与氧化铝形成化学反应,造成开机或通电时形成爆炸的现象。但是如果采用固态电容,就完全没有这样的隐患和危险了!
由于固态电容采用导电性高分子产品作为介电材料,该材料不会与氧化铝产生作用,通电后不致于发生爆炸的现象;同时它为固态产品,自然也就不存在由于受热膨胀导致爆裂的情况了。
固态电容具备环保、低阻抗、高低温稳定、耐高纹波及高X度等X越特性,是目前电解电容产品中X高阶的产品。由于固态电容特性远X于液态铝电容,固态电容耐温达260度,且导电性、频率特性及寿命均佳,适用于低电压、高电流的应用,主要应用于数字产品如薄型DVD、投影机及工业计算机等,近年来也被电脑板卡产品广泛使用。
其实贴片电容本质上与上面介绍的电解电容并无分别,它们之间的差别仅仅在封装或者说是焊接工艺上面,
无论是插件还是贴片式的安装工艺,电容本身都是直立于PCB的,根本的区别方式是SMT贴片工艺安装的电容,有黑色的橡胶底座。SMT的好处主要在于生产方面,其自动化程度高,精度也高,在运输途中不像插件式那样容易受损。但是SMT贴片工艺安装,需要波峰焊工艺处理,电容经过高温之后可能会影响性能,尤其是阴极采用电解液的电容,经过高温后电解液可能会干枯。插件工艺的安装成本低,因此在同样成本下,电容本身的性能可以更好一些。由于欧美工厂的机械成本低而人工比较贵,所以大部分倾向于SMT贴片制造。而国内工厂的人工较便宜,所以厂商更愿意使用插件式安装。
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在下游整合方面,有部份铝电解电容器厂商尝试一些系统产品的前段加工。至于产品的水平整合方面,主要是着眼于产品组合多样化及满足客户一次购足的需求,包括一些塑料薄膜电容器及积层陶瓷电容器厂商分别以策略联盟或是购并的方式进入铝电解电容器市场,另由于单层陶瓷电容器与积层陶瓷电容器所使用的原材料很相似,辅以下游系统产品逐渐趋向于轻薄短小,故也有部份单层陶瓷电容器厂商同时提供积层陶瓷电容器产品,而且在这方面产品的比重上,也随着单层陶瓷电容器产品市场逐渐萎缩,有逐渐提高的趋势。事实上,这样的一个整合策略,主要是因为各类电容器彼此间的产品替代性不高,但因下游系统产品多半会同时使用数种不同类别之电容器,如能提供多样化的产品组合,除了能掌握既有之客源,尚能开发一些新客户,特别是一些采策略联盟方式的厂商,也可以分享彼此既有之销售通路,扩大各自的市场。
东莞荣誉电子有限公司
東莞荣誉電子有限公司是一家集研發、生產、銷售及服務為一體的、高科技電容器生產企業,專項致力於為客戶提供專業的電容器產品解決方案,產品廣泛應用於LED顯示幕系統集成、汽車電子,安防領域.消費電子,通信設備.工業控制,等行業. 荣誉電子專注於電容器相關領域,目前所經營的業務主要有鋁電解電容.薄膜電容.陶瓷電容.X級電容器的加工製造開發與生產等。公司自成立以來,在全體員工的共同努力下,產品及服務已逐步銷售到了國內各級市場並逐……
国产型号/规格:RVE RVT 系列 品牌/商标:荣誉电子 全系列体积4X5.4 5*5.4 6.3*7.7 8*6.5 8*10.5 10*10.5 环保类别:无铅环保型 安装方式:贴片式 包装方式:卷带编带包装 产品主要用途:家用电器 引出线类型:贴片 特征:圆柱体型 标称容量范围:0.47-1500uf 额定电压范围:6.3-100V 温度系数范围:105℃品牌: 长期X国产贴片铝电解电容全系列,价格特X.
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