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参数资料
| 型号: | ISL29027IROZ-T7 |
| 厂商: | Intersil |
| 文件页数: | 8/13页 |
| 文件大小: | 0K |
| 描述: | IC SENSOR LIGHT-PROXIMITY 8ODFN |
| 标准包装: | 3,000 |
| 主体材料: | * |
| 电源电压: | 2.25 V ~ 3.63 V |
| 输出类型: | I²C? |
| 端子类型: | PC 引脚 |
| 封装/外壳: | 8-DFN |
��
�
�ISL29027�
�fixed� 110mA� current� pulse.� If� this� bit� is� high,� the� load� on� IRDR�
�will� see� a� fixed� 220mA� current� pulse� as� seen� in� Figure� 5.�
�220mA�
�(PROX_DR� =� 1)�
�Interrupt� persistency� is� another� useful� option� available� for�
�proximity� measurements.� Persistency� requires� X-in-a-row�
�interrupt� flags� before� the� INT� pin� is� driven� low.� Prox� have� their�
�own� independent� interrupt� persistency� options.� See� PROX_PRST�
�bits� in� Register� 2.�
�VDD� Power-up� and� Power� Supply�
�110mA�
�(PROX_DR� =� 0)�
�PIN� 8� -� IRDR�
�Considerations�
�Upon� power-up,� please� ensure� a� VDD� slew� rate� of� 0.5V/ms� or�
�greater.� After� power-up,� or� if� the� user’s� power� supply� temporarily�
�(IRDR� IS� HI-Z� WHEN�
�NOT� DRIVING)�
�FIGURE� 5.� CURRENT� DRIVE� MODE� OPTIONS�
�When� the� IR� from� the� LED� reaches� an� object� and� gets� reflected�
�back� into� the� ISL29027,� the� reflected� IR� light� is� converted� into�
�current� as� per� the� IR� spectral� response� shown� in� Figure� 7.� One�
�entire� proximity� measurement� takes� 0.54ms� for� one� conversion�
�(which� includes� 0.1ms� spent� driving� the� LED),� and� the� period�
�between� proximity� measurements� is� decided� by� PROX_SLP�
�(sleep� time)� in� (Register� 1� Bits� 6:4).�
�Average� LED� driving� current� consumption� is� given� by� Equation� 1.�
�deviates� from� our� specification� (2.25V� to� 3.63V),� Intersil�
�recommends� the� user� write� the� following:� write� 0x00� to� register�
�0x01,� write� 0x29� to� register� 0x0F,� write� 0x00� to� register� 0x0E,�
�and� write� 0x00� to� register� 0x0F.� The� user� should� then� wait� ~1ms�
�or� more� and� then� rewrite� all� registers� to� the� desired� values.� If� the�
�user� prefers� a� hardware� reset� method� instead� of� writing� to� test�
�registers:� set� VDD� =� 0V� for� 1� second� or� more,� power� back� up� at�
�the� required� slew� rate,� and� write� registers� to� the� desired� values.�
�Power-Down�
�To� put� the� ISL29027� into� a� power-down� state,� the� user� can� set�
�PROX_EN� bits� to� 0� in� Register� 1.� Or� more� simply,� set� all� of�
�Register� 1� to� 0x00.�
�I� lRDR� ;� AVE� =� -----------------------------------------------------�
�I� lRDR� ;� PEAK� ×� 100� μ� s�
�T� SLEEP�
�(EQ.� 1)�
�Noise� Rejection�
�Charge� balancing� ADC’s� have� excellent� noise-rejection�
�A� typical� IRDR� scheme� is� 220mA� amplitude� pulses� every� 800ms,�
�which� yields� 28� μ� A� DC.�
�Total� Current� Consumption�
�Total� current� consumption� is� the� sum� of� IDD� and� IIRDR.� The� IRDR�
�pin� sinks� current� (as� shown� in� Figure� 5)� and� the� average� IRDR�
�current� can� be� calculated� using� Equation� 1.� IDD� depends� on�
�voltage� and� the� mode-of-operation,� as� seen� in� Figure� 9.�
�Interrupt� Function�
�The� ISL29027� has� an� intelligent� interrupt� scheme� designed� to�
�shift� some� logic� processing� away� from� intensive� microcontroller�
�I� 2� C� polling� routines� (which� consume� power)� and� towards� a� more�
�independent� light� sensor,� which� can� instruct� a� system� to� “wake�
�up”� or� “go� to� sleep”.�
�A� proximity� interrupt� event� (PROX_FLAG)� is� governed� by� the� high�
�and� low� thresholds� in� registers� 3� and� 4� (PROX_LT� and� PROX_HT).�
�PROX_FLAG� is� set� when� the� measured� proximity� data� is� more�
�than� the� higher� threshold� X-times-in-a-row� (X� is� set� by� user;� see�
�next� paragraph).� The� proximity� interrupt� flag� is� cleared� when� the�
�prox� data� is� lower� than� the� low� proximity� threshold�
�X-times-in-a-row,� or� when� the� user� writes� “0”� to� PROX_FLAG.�
�8�
�characteristics� for� periodic� noise� sources� whose� frequency� is� an�
�integer� multiple� of� the� conversion� rate.� For� instance,� a� 60Hz� AC�
�unwanted� signal’s� sum� from� 0ms� to� k*16.66ms� (k� =� 1,2...ki)� is� zero.�
�Similarly,� setting� the� device’s� integration� time� to� be� an� integer�
�multiple� of� the� periodic� noise� signal� greatly� improves� the� light�
�sensor� output� signal� in� the� presence� of� noise.� Since� wall� sockets�
�may� output� at� 60Hz� or� 50Hz,� our� integration� time� is� 0.54ms:� the�
�lowest� common� integer� number� of� cycles� for� both� frequencies.�
�Proximity� Detection� of� Various� Objects�
�Proximity� sensing� relies� on� the� amount� of� IR� reflected� back� from�
�objects.� A� perfectly� black� object� would� absorb� all� light� and� reflect�
�no� photons.� The� ISL29027� is� sensitive� enough� to� detect� black� ESD�
�foam� which� reflects� only� 1%� of� IR.� For� biological� objects,� blonde�
�hair� reflects� more� than� brown� hair� and� customers� may� notice� that�
�skin� tissue� is� much� more� reflective� than� hair.� IR� penetrates� into�
�the� skin� and� is� reflected� or� scattered� back� from� within.� As� a� result,�
�the� proximity� count� peaks� at� contact� and� monotonically� decreases�
�as� skin� moves� away.� The� reflective� characteristics� of� skin� are� very�
�different� from� that� of� paper.�
�FN7815.1�
�February� 2,� 2012�
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