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参数资料
| 型号: | MCZ33811EG |
| 厂商: | Freescale Semiconductor |
| 文件页数: | 14/18页 |
| 文件大小: | 0K |
| 描述: | IC SOLENOID MON 5-CH 16-SOIC |
| 标准包装: | 47 |
| 应用: | 螺線管监控器 |
| 电流 - 电源: | 1mA |
| 电源电压: | 7 V ~ 17 V |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SOIC(0.295",7.50mm 宽) |
| 供应商设备封装: | 16-SOIC W |
| 包装: | 管件 |
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�FUNCTIONAL� DEVICE� OPERATION�
�OPERATIONAL� MODES�
�3)� Step� 3� demonstrates� an� 8� bit� SPI� transfer.� The� same�
�exchange� is� performed,� however,� only� 8� SCLK� pulses� are�
�issued� and� only� 8� bits� of� data� are� exchanged.�
�4)� When� the� transfer� is� complete,� only� the� eight� bits� of�
�solenoid� status� has� been� transferred� to� the� MCU.� The� data� in�
�the� 33811’s� SPI� register� lower� 8� bits� has� been� overwritten�
�5)� Step� 5� shows� the� same� scenario� as� step� 3� however,�
�before� the� transfer,� the� RESET� pin� is� brought� to� a� logic� 1.�
�This� causes� all� data� out� of� the� SO� pin� to� be� a� logical� 1.�
�6)� This� step� shows� the� contents� of� the� MCU� SPI� register�
�after� the� transfer.� All� bits� are� logical� 1� because� the� RESET�
�pin� was� held� high� for� the� duration� of� the� transfer�
�with� the� data� from� the� MCU’s� SPI� register.�
�WAVEFORM� DETECTION� ALGORITHM�
�Three� Stage� Current� Waveform�
�An� operational� solenoid,� once� activated,� produces� a�
�current� waveform� that� consists� of� three� distinct� regions.� The�
�three� regions� are� categorized� by� their� relationship� to� a� “dip”�
�in� the� current� that� occurs� when� the� solenoid� armature� moves�
�within� the� coil.� The� regions� are� labeled� the� “Pre-Dip”,� “Dip”,�
�and� “Post-Dip”� regions.� At� this� point,� it� should� be� noted� that�
�the� 33811� does� not� monitor� this� current� directly.� It� monitors�
�the� voltage� across� the� low-side� MOSFET� driver.� When� the�
�MOSFET� is� turned� on,� it� can� be� thought� of,� to� a� first�
�approximation,� as� a� resistor� with� value� R� DS� .� Hence,� any�
�current� variation� through� the� solenoid,� appears� on� the�
�MOSFET� drain,� as� a� voltage� variation,� as� is� predicted� by�
�Ohm’s� law.� The� 33811� is� designed� to� monitor� the� voltage�
�across� the� MOSFET� and� determine� if� the� solenoid� is�
�operational� or� faulty� based� on� the� voltage� waveform� that� is�
�produced.�
�Activation� of� the� Solenoid�
�If� the� solenoid� is� not� activated,� the� low� side� MOSFET�
�driver� is� turned� off,� so� almost� the� entire� supply� voltage�
�appears� across� the� MOSFET.� When� the� MOSFET� is�
�activated,� the� voltage� across� it� drops� from� the� supply� voltage�
�to� a� voltage� that� depends� on� the� instantaneous� current� flow�
�through� the� solenoid� and� the� R� DS� of� the� MOSFET.� This�
�dramatic� voltage� swing� from� the� supply� voltage,� to� near�
�ground,� triggers� a� timer� in� the� 33811� IC.� The� time� value� of� this�
�timer� is� labeled� T� BEGIN� and� is� 400� to� 600� μ� s� in� duration.� If� the�
�voltage� is� still� close� to� ground� after� T� BEGIN� ,� then� the� solenoid�
�is� deemed� to� be� activated� and� the� waveform� detection�
�algorithm� is� started.�
�The� PRE-DIP� Region�
�After� dropping� to� near� ground,� the� voltage� across� the�
�MOSFET� starts� to� increase� as� the� current� through� the�
�solenoid� begins� to� increase.� The� “Pre-Dip”� region� consists� of�
�a� positive� slope� region,� leading� to� a� voltage� maxima� or� peak,�
�followed� by� a� negative� slope� region.� The� 33811� monitors� this�
�voltage� ramp� up� by� sampling� the� voltage� every� 72� μ� s� and�
�comparing� it� to� the� previous� sample.� If� the� new� sample�
�exceeds� the� previous� sample� by� 0.5mV� or� more,� the�
�sampling� comparator’s� output� is� auto-zeroed� to� the� new�
�voltage� level� by� adjusting� the� reference� voltage� to� the� input�
�voltage� and� the� sampling� continues.� At� some� point� the�
�voltage� will� reach� a� peak� and� the� slope� of� the� voltage� curve�
�will� turn� from� positive� to� negative.� The� 33811� will� continue�
�sampling� the� voltage� as� it� begins� to� descend� but� will� not� auto-�
�zero� the� comparator� until� at� least� three� consecutive� samples�
�of� 3mV� in� magnitude� have� been� detected.�
�The� DIP� Region�
�Once� the� three� descending� samples� have� been� detected,�
�sampling� and� auto-zeroing� will� continue� to� try� to� determine�
�the� next� inflection� point.� This� next� inflection� point� will� be� the�
�Dip� which� is� caused� by� the� successful� travel� of� the� solenoid’s�
�armature.� If� a� Dip� is� not� discovered� within� the� total� time�
�window� of� 56� mS.� then� the� solenoid� will� be� said� to� be� faulty�
�and� the� appropriate� SPI� register� fault� bit� will� be� set� to� a� logic�
�1.� If� the� inflection� point� is� discovered� then� sampling� will�
�continue.�
�The� Post-DIP� Region�
�After� the� Dip� has� occurred� the� waveform� detection�
�algorithm� will� continue� sampling� the� voltage� for� the� remainder�
�of� the� 56mS.� time� window.� If� the� voltage� is� still� increasing�
�after� three� sample� times,� then� the� solenoid� is� deemed� to� be�
�operational� and� the� appropriate� SPI� register� fault� bit� is�
�cleared� to� a� logic� 0.� The� waveform� detection� logic� is� then�
�reset� back� to� a� state� where� it� look� for� the� next� solenoid�
�activation� event.�
�33811�
�Analog� Integrated� Circuit� Device� Data�
�14�
�Freescale� Semiconductor�
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