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参数资料
| 型号: | MCZ33291LEGR2 |
| 厂商: | Freescale Semiconductor |
| 文件页数: | 19/26页 |
| 文件大小: | 0K |
| 描述: | IC SWITCH 8X LOSIDE W/SPI 24SOIC |
| 标准包装: | 1 |
| 类型: | 低端 |
| 输入类型: | SPI |
| 输出数: | 8 |
| 导通状态电阻: | 1.1 欧姆 |
| 电流 - 输出 / 通道: | 500mA |
| 电流 - 峰值输出: | 3A |
| 电源电压: | 9 V ~ 26.5 V |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 24-SOIC(0.295",7.50mm 宽) |
| 供应商设备封装: | 24-SOIC W |
| 包装: | 标准包装 |
| 其它名称: | MCZ33291LEGR2DKR |
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�
�FUNCTIONAL� DESCRIPTION�
�current)� condition� is� removed� or� thermal� shutdown� is�
�reached.�
�Grounding� the� SFPD� pin� will� enable� the� short� fault�
�protection� shutdown� circuitry.� Consider� a� load� short� (output�
�short� to� supply)� occurring� on� an� output� before,� during,� and�
�after� output� turn� ON.� When� the� CS� signal� rises� to� the� high�
�logic� state,� the� corresponding� output� is� turned� ON� and� a�
�delay� timer� is� activated.� The� duration� of� the� delay� timer� is�
�70� μ� s� to� 250� μ� s.� If� the� short� circuit� takes� place� before� the�
�output� is� turned� ON,� the� delay� experienced� is� the� entire� 70� μ� s�
�to� 250� μ� s� followed� by� shutdown.� If� the� short� occurs� during� the�
�delay� time,� the� shutdown� still� occurs� after� the� delay� time� has�
�elapsed.� However,� if� the� short� circuit� occurs� after� the� delay�
�time,� shutdown� is� immediate� (within� 20� μ� s� after� sensing).� The�
�purpose� of� the� delay� timer� is� to� prevent� false� faults� from� being�
�reported� when� switching� capacitive� loads.�
�If� the� SFPD� pin� is� at� 5.0� V� (or� V� DD� ),� an� output� will� not� be�
�disabled� when� an� over-current� is� detected.� The� specific�
�output� will,� within� 5.0� μ� s� to� 10� μ� s� of� encountering� the� short�
�circuit,� go� into� an� analog� current� limited� mode.� This� feature� is�
�especially� useful� when� switching� incandescent� lamp� loads,�
�where� high� in-rush� currents� experienced� during� startup� last�
�for� 10� ms� to� 20� ms.�
�Each� output� of� the� 33291L� has� its� own� over-current�
�shutdown� circuitry.� Over-temperature� faults� and� over-voltage�
�faults� are� not� affected� by� the� SFPD� pin’s� state.�
�Both� load� current� sensing� and� output� voltage� sensing� are�
�incorporated� for� Short� Fault� detection� with� actual� detection�
�occurring� slightly� after� the� onset� of� current� limit.� The� current�
�limit� circuitry� incorporates� a� SENSEFET� approach� to�
�measure� the� total� drain� current.� This� calls� for� the� current�
�through� a� small� number� of� cells� in� the� power� MOSFET� to� be�
�measured� and� the� result� multiplied� by� a� constant,� giving� the�
�total� current.� Whereas� an� output� shutdown� circuitry�
�measures� the� drain-to-source� voltage,� shutting� down� the�
�output� if� its� threshold� (V� THRES� )� will� be� exceeded.�
�Short� fault� detection� is� accomplished� by� sensing� the�
�output� voltage� and� comparing� it� to� V� Thres� .� The� lowest� V� Thres�
�requires� a� voltage� of� 2.5� V� to� be� sensed.� For� an� enabled�
�output,� with� V� DD� =� 5.0� ±� 0.5� V,� an� output� voltage� in� excess� of�
�3.5� V� will� be� detected� as� a� short� (over-current� condition),�
�while� voltages� less� than� 2.5� V� will� not� be� detected� as� shorts.�
�OVER-CURRENT� RECOVERY�
�If� the� SFPD� pin� is� in� a� high� logic� state,� the� circuit� returns� to�
�normal� operation� automatically� after� the� short� circuit� is�
�removed� (unless� thermal� shutdown� has� occurred).�
�If� the� SFPD� pin� is� grounded� and� over-current� shutdown�
�occurs,� removing� the� short� circuit� will� result� in� the� output�
�remaining� OFF� until� the� next� write� cycle.� If� the� short� circuit� is�
�not� removed,� the� output� will� turn� ON� for� the� delay� time� (70� μ� s�
�to� 250� μ� s)� and� then� turn� OFF� for� every� write� cycle�
�commanding� a� turn� ON.�
�SFPD� PIN� VOLTAGE� SELECTION�
�Since� the� voltage� condition� of� the� SFPD� pin� controls� the�
�activation� of� the� short� fault� protection� (i.e.,� shutdown)� mode�
�equally� for� all� eight� outputs,� the� load� having� the� longest�
�duration� of� in-rush� current� determines� what� voltage� (state)�
�the� SFPD� pin� should� be.� Usually� if� at� least� one� load� is,� say� an�
�incandescent� lamp,� the� in-rush� current� on� that� input� will� be�
�milliseconds� in� duration.� Therefore,� setting� SFPD� at� 5.0� V� will�
�prevent� shutdown� of� the� output� due� to� the� in-rush� current.�
�The� system� relies� only� on� the� over-temperature� shutdown� to�
�protect� the� outputs� and� the� loads.� The� 33291L� was� designed�
�to� switch� GE194� incandescent� lamps� (or� equivalents)� with�
�the� SFPD� pin� in� a� grounded� state.� Considerably� larger� lamps�
�can� be� switched� with� the� SFPD� pin� held� in� a� high� logic� state.�
�Sometimes� both� a� delay� period� greater� than� 70� μ� s� to�
�250� μ� s� (current� limiting� of� the� output)� followed� by� an�
�immediate� over-current� shutdown� is� necessary.� This� can� be�
�accomplished� by� programming� the� SFPD� pin� to� 5.0� V� for� the�
�extended� delay� period,� allowing� the� outputs� to� remain� ON� in�
�a� current� limited� mode,� then� grounding� it� to� accomplish� the�
�immediate� shutdown� after� a� period� of� time.� Additional�
�external� circuitry� is� required� to� implement� this� type� of�
�function.� An� MCU� parallel� output� port� can� be� devoted� to�
�controlling� the� SFPD� voltage� during� and� after� the� delay�
�period;� this� is� often� a� much� better� method.� In� either� case,�
�care� should� be� taken� to� execute� the� SFPD� start-up� routine�
�every� time� startup� or� reset� occurs.�
�UNDER-VOLTAGE� SHUTDOWN�
�An� under-voltage� V� DD� condition� will� result� in� the� global�
�shutdown� of� all� outputs.� The� under-voltage� threshold� is�
�between� 2.5� V� and� 3.5� V.� When� V� DD� goes� below� the�
�threshold,� all� outputs� are� turned� OFF� and� the� Serial� Output�
�data� register� is� reset� to� indicate� the� same.�
�An� under-voltage� condition� at� the� V� PWR� pin� will� not� cause�
�output� shutdown� and� reset.� When� V� PWR� is� between� 5.5� V�
�and� 9.0� V,� the� outputs� will� operate� per� the� command� word.�
�However,� the� status� as� reported� by� the� SO� pin� may� not� be�
�accurate� below� 9.0� V� V� PWR� .� Proper� operation� at� V� PWR�
�voltages� below� 5.5� V� are� not� be� guaranteed.�
�DECIPHERING� FAULT� TYPE�
�The� 33291L� SO� pin� can� be� used� to� determine� what� kind� of�
�system� fault� has� occurred.� With� eight� outputs� having� open�
�load,� over-current,� over-temperature,� and� over-voltage� faults,�
�a� total� of� 25� different� faults� are� possible.� The� SO� status� word�
�received� by� the� MCU� will� be� compared� with� the� word� sent� to�
�the� 33291L� during� the� previous� write� cycle.� For� a� specific�
�output,� if� the� SO� bit� compares� with� the� corresponding� SI� bit�
�of� the� previous� word,� the� output� is� operating� normal� with� no�
�fault.� Only� when� the� SO� bit� and� previous� word� SI� bit� differ� is�
�there� a� fault� indicated.� If� the� two� words� are� not� the� same,� the�
�MCU� should� be� programmed� to� determine� which� output� or�
�outputs� are� faulted.�
�If� for� a� specific� output� the� initial� SI� command� bit� were� logic�
�high,� the� output� would� be� programmed� to� be� off� ;� if� upon� the�
�next� command� word� being� entered,� a� logic� low� came� back� on�
�33291L�
�Analog� Integrated� Circuit� Device� Data�
�Freescale� Semiconductor�
�19�
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