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1.5KE100ARL4 PDF预览

1.5KE100ARL4

更新时间: 2024-02-21 18:22:54
品牌 Logo 应用领域
摩托罗拉 - MOTOROLA 局域网二极管电视
页数 文件大小 规格书
6页 62K
描述
1500W, UNIDIRECTIONAL, SILICON, TVS DIODE, PLASTIC, CASE 41A-02, 2 PIN

1.5KE100ARL4 技术参数

是否Rohs认证: 符合生命周期:Obsolete
包装说明:O-PALF-W2针数:2
Reach Compliance Code:not_compliantECCN代码:EAR99
HTS代码:8541.10.00.50风险等级:5.06
其他特性:EXCELLENT CLAMPING CAPABILITY, UL RECOGNIZED, HIGH RELIABILITY, LOW IMPEDANCE最大击穿电压:105 V
最小击穿电压:95 V击穿电压标称值:100 V
外壳连接:ISOLATED最大钳位电压:137 V
配置:SINGLE二极管元件材料:SILICON
二极管类型:TRANS VOLTAGE SUPPRESSOR DIODEJESD-30 代码:O-PALF-W2
JESD-609代码:e3最大非重复峰值反向功率耗散:1500 W
元件数量:1端子数量:2
封装主体材料:PLASTIC/EPOXY封装形状:ROUND
封装形式:LONG FORM峰值回流温度(摄氏度):260
极性:UNIDIRECTIONAL最大功率耗散:5 W
认证状态:Not Qualified最大重复峰值反向电压:85.5 V
子类别:Transient Suppressors表面贴装:NO
技术:ZENER端子面层:Tin (Sn)
端子形式:WIRE端子位置:AXIAL
处于峰值回流温度下的最长时间:40Base Number Matches:1

1.5KE100ARL4 数据手册

 浏览型号1.5KE100ARL4的Datasheet PDF文件第1页浏览型号1.5KE100ARL4的Datasheet PDF文件第2页浏览型号1.5KE100ARL4的Datasheet PDF文件第3页浏览型号1.5KE100ARL4的Datasheet PDF文件第5页浏览型号1.5KE100ARL4的Datasheet PDF文件第6页 
1N6373, ICTE-5, MPTE-5,  
through  
1N6267A/1.5KE6.8A  
through  
1N6389, ICTE-45, C, MPTE-45, C  
1N6303A/1.5KE200A  
1000  
500  
1000  
500  
V
(NOM) = 6.8 to 13 V  
20 V  
V
(NOM) = 6.8 to 13 V  
20 V  
Z
Z
T
P
= 25  
°
C
T
P
= 25  
°C  
L
L
t
= 10  
µ
s
t
= 10  
µs  
43 V  
75 V  
43 V  
24 V  
24 V  
200  
100  
50  
200  
100  
50  
20  
20  
180 V  
120 V  
10  
5
10  
5
2
1
2
1
0.3  
0.5 0.7  
1
2
3
5
7
10  
20 30  
0.3  
0.5 0.7  
V , INSTANTANEOUS INCREASE IN V ABOVE V (NOM) (VOLTS)  
Z
1
2
3
5
7
10  
20 30  
V
, INSTANTANEOUS INCREASE IN V ABOVE V (NOM) (VOLTS)  
Z
Z
Z
Z
Z
Figure 6. Dynamic Impedance  
1
0.7  
0.5  
0.3  
0.2  
PULSE WIDTH  
10 ms  
0.1  
0.07  
0.05  
1 ms  
0.03  
0.02  
100 µs  
10  
µs  
0.01  
0.1  
0.2  
0.5  
1
2
5
10  
20  
50  
100  
D, DUTY CYCLE (%)  
Figure 7. Typical Derating Factor for Duty Cycle  
APPLICATION NOTES  
RESPONSE TIME  
and placing the suppressor device as close as possible to the  
equipment or components to be protected will minimize this  
overshoot.  
In most applications, the transient suppressor device is  
placed in parallel with the equipment or component to be pro-  
tected. In this situation, there is a time delay associated with  
the capacitance of the device and an overshoot condition as-  
sociated with the inductance of the device and the inductance  
of the connection method. The capacitance effect is of minor  
importance in the parallel protection scheme because it only  
produces a time delay in the transition from the operating volt-  
age to the clamp voltage as shown in Figure A.  
The inductive effects in the device are due to actual turn-on  
time (time required for the device to go from zero current to full  
current) and lead inductance. This inductive effect produces  
an overshoot in the voltage across the equipment or  
component being protected as shown in Figure B. Minimizing  
this overshoot is very important in the application, since the  
main purpose for adding a transient suppressor is to clamp  
voltage spikes. These devices have excellent response time,  
typically in the picosecond range and negligible inductance.  
However, external inductive effects could produce unaccept-  
able overshoot. Proper circuit layout, minimum lead lengths  
Some input impedance represented by Z is essential to  
in  
prevent overstress of the protection device. This impedance  
shouldbeashighaspossible, withoutrestrictingthecircuitop-  
eration.  
DUTY CYCLE DERATING  
The data of Figure 1 applies for non-repetitive conditions  
and at a lead temperature of 25°C. If the duty cycle increases,  
the peak power must be reduced as indicated by the curves of  
Figure 7. Average power must be derated as the lead or  
ambient temperature rises above 25°C. The average power  
derating curve normally given on data sheets may be  
normalized and used for this purpose.  
At first glance the derating curves of Figure 7 appear to be in  
error as the 10 ms pulse has a higher derating factor than the  
10 µs pulse. However, when the derating factor for a given  
pulse of Figure 7 is multiplied by the peak power value of  
Figure 1 for the same pulse, the results follow the expected  
trend.  
Motorola TVS/Zener Device Data  
500 Watt Peak Power Data Sheet  
4-4  

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