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KK33197AD 参数 Datasheet PDF下载

KK33197AD图片预览
型号: KK33197AD
PDF下载: 下载PDF文件 查看货源
内容描述: 汽车雨刮洗涤定时器 [Automotive Wash Wiper Timer]
分类和应用:
文件页数/大小: 7 页 / 215 K
品牌: KODENSHI [ KODENSHI KOREA CORP. ]
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KK33197A  
Figure 4. Switching Waveform W/W and INT Active  
T1 Debounce Timing  
The criteria for an input signal to be detected is that it should be active at two successive negative internal clock edges.  
The inputs are sampled on the negative edge of the internal clock. If two consecutive samples are the same, the input is  
detected as being in that state. Hence the time T1 from a signal becoming active to the time that the circuit responds can  
be anytime from 4 x tb1 to 2 x 4 x tb1 (due to synchronizing the input to the oscillator period) when the oscillator is  
oscillating with a time base of tb1 and 4 x tb2 to 2 x 4 x tb2, when the oscillator is oscillating with a time base of tb2.  
The following table summarizes all T1 debounce timings:  
Condition  
Debounce Time  
INT Active  
INT Inactive  
W/W Active When INT Inactive  
W/W Active When INT Active During T3  
W/W Active When INT Active During T4  
4 x tb1 to 2 x 4 x tb1  
4 x tb1 to 2 x 4 x tb1  
4 x tb1 to 2 x 4 x tb1  
4 x tb1 to 2 x 4 x tb1  
4 x tb1 to 2 x 4 x tb2  
Two KK33197A Devices Using One Decoupling Resistor and Capacitor  
Two devices may be connected to the power source using a common R1 resistor for protection against overvoltages. If  
this is done it should be noted that the current flowing through R1 is increased and hence the voltage drop across  
R1 is increased.  
Overvoltage Protection  
In reference to the Block Diagram and Typical Application, all of the foregoing operational cases require:  
R1 100 , C147 µF  
R31.0 k, R44.7 k, R54.7 kΩ  
The circuit will not operate during the transient conditions. By using the above component values, the circuit will  
be able to sustain the following overvoltages on Vbb without permanent damage:  
1. +28 V for 5 minutes  
2. –15 V for 5 minutes  
3. –16 V cycled off for 1.0 minute  
4. +80 V pulse decaying exponentially to 8.0 V in 400 ms repeated 3 times at 1.0 minute intervals.  
5. ±300 V pulse decaying exponentially to 30 V in 300 ms with a maximum energy of 1.0 Joule.  
6. ±100 V pulse decaying exponentially to 10 V in 2 ms.  
5