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参数资料
| 型号: | ISL29015IROZ-EVALZ |
| 厂商: | Intersil |
| 文件页数: | 8/13页 |
| 文件大小: | 0K |
| 描述: | EVALUATION BOARD FOR ISL29015 |
| 标准包装: | 1 |
| 传感器类型: | 灯光,数字式输出 |
| 传感范围: | 65535Lux |
| 接口: | I²C,SM 总线 |
| 灵敏度: | 540nm |
| 电源电压: | 2.25 V ~ 3.3 V |
| 嵌入式: | 否 |
| 已供物品: | 板 |
| 已用 IC / 零件: | ISL29015 |
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�
�ISL29015�
�during� the� entire� operation� cycle� that� includes� ALS,� IR�
�DATA� IR� =� β� ×� E� IR�
�(EQ.� 7)�
�sensing� and� Proximity� sensing� three� different� serial� phases,�
�Here,� E� IR� is� the� received� IR� intensity.� The� constant� β�
�changes� with� the� spectrum� of� background� IR� noise� like�
�sunlight� and� incandescent� light.� The� β� also� changes� with� the�
�ADC’s� range� and� resolution� selections.�
�ADC� Output� in� Proximity� Sensing�
�In� the� proximity� sensing,� the� ADC� output� codes,� DATA,� are�
�directly� proportional� to� the� total� IR� intensity� from� the�
�background� IR� noise� and� from� the� IR� LED� driven� by� the�
�ISL29015.�
�the� detection� occurs� once� every� 30ms,� the� average� current�
�consumption� including� external� IR� LED� drive� current� can� be�
�calculated� from� Equation� 9:�
�[� (� 0.05mA� +� 0.05mA� +� 1mA� +� (50mA� ?� 50%))� ?� 0.4ms� )� ]� /30ms� =� 0.35mA�
�(EQ.� 9)�
�If� at� a� 12-bit� ADC� resolution� where� the� integration� time� for�
�each� serial� phase� becomes� 7ms� and� the� total� detection� time�
�becomes� 100ms,� the� average� current� can� be� calculated� from�
�Equation� 10:�
�DATA� PROX� =� β� ×� E� IR� +� γ� ×� E� LED�
�(EQ.� 8)�
�[� (� 0.05mA� +� 0.05mA� +� 1mA� +� (50mA� ?� 50%))� ?� 7� ms� )� ]� /100ms� =� 1.83mA�
�(EQ.� 10)�
�β� and� E� IR� in� Equation� 8� have� the� same� meanings� as� in�
�Equation� 7.� The� constant� γ� depends� on� the� spectrum� of� the�
�used� IR� LED� and� the� ADC’s� range� and� resolution� selections.�
�E� LED� is� the� IR� intensity� which� is� emitted� from� the� IR� LED�
�and� reflected� by� a� specific� objector� to� the� ISL29015.� E� LED�
�depends� on� the� current� to� the� IR� LED� and� the� surface� of� the�
�object.� E� LED� decreases� with� the� square� of� the� distance�
�between� the� object� and� the� sensor.�
�If� background� IR� noise� is� small,� i.e.,� E� IR� can� be� neglected,�
�the� ADC� output� directly� decreases� with� the� distance.� If� there�
�is� significant� background� IR� noise,� the� sequence� of� the�
�proximity� sensing� followed� by� the� IR� sensing� can� be�
�implemented.� The� differential� reading� of� ADC� outputs� from�
�the� proximity� and� IR� sensing� has� no� effect� of� background�
�IR� noise� and� directly� decreases� with� the� distance� between�
�the� object� and� the� sensor.� Please� refer� to� “Typical�
�Performance� Curves”� on� page� 10� for� ADC� output� vs�
�distance.� Figure� 9� shows� ISL29015� configured� at� 12-bit� ADC�
�resolution,� 12.5mA� external� LED� current� at� 327.7KHz�
�modulation� frequency,� detects� three� different� sensing�
�objects:� 92%� brightness� paper,� 18%� gray� card� and� ESD�
�black� foam.� Figure� 10� shows� ISL29015� configured� at� 12-bit�
�ADC� resolution,� programmed� external� LED� at� 327.7KHz�
�modulation� frequency,� detects� the� same� sensing� object:� 18%�
�gray� card� under� four� different� external� LED� current:� 12.5mA,�
�25mA,� 50mA� and� 100mA� to� compare� the� proximity� readout�
�versus� distance.�
�Current� Consumption� Estimation�
�The� low� power� operation� is� achieved� through� sequential�
�readout� in� the� serial� fashion,� as� shown� in� Figure� 3,� the�
�device� requires� three� different� phases� in� serial� during� the�
�entire� detection� cycle� to� do� ambient� light� sensing,� infrared�
�sensing� and� proximity� sensing.� The� external� IR� LED� will� only�
�be� turned� on� during� the� proximity� sensing� phase� under� user�
�program� controlled� current� at� modulated� frequency� depends�
�on� user� selections.� Figure� 3� also� shows� the� current�
�consumption� during� each� ALS,� IR� sensing� and� Proximity�
�sensing� phase.� For� example,� at� 8-bit� ADC� resolution� the�
�integration� time� is� 0.4ms.� If� user� programed� 50mA� current� to�
�supply� external� IR� LED� at� 327.7kHz� modulated� frequency,�
�8�
�Suggested� PCB� Footprint�
�It� is� important� that� the� users� check� the� “Surface� Mount�
�Assembly� Guidelines� for� Optical� Dual� FlatPack� No� Lead�
�(ODFN)� Package”� before� starting� ODFN� product� board�
�mounting.�
��Layout� Considerations�
�The� ISL29015� is� relatively� insensitive� to� layout.� Like� other�
�I� 2� C� devices,� it� is� intended� to� provide� excellent� performance�
�even� in� significantly� noisy� environments.� There� are� only� a�
�few� considerations� that� will� ensure� best� performance.�
�Route� the� supply� and� I� 2� C� traces� as� far� as� possible� from� all�
�sources� of� noise.� Use� two� power-supply� decoupling�
�capacitors,� 1μF� and� 0.1μF,� placed� close� to� the� device.�
�Typical� Circuit�
�A� typical� application� for� the� ISL29015� is� shown� in� Figure� 4.�
�The� ISL29015’s� I� 2� C� address� is� internally� hardwired� as�
�1000100.� The� device� can� be� tied� onto� a� system’s� I� 2� C� bus�
�together� with� other� I� 2� C� compliant� devices.�
�Soldering� Considerations�
�Convection� heating� is� recommended� for� reflow� soldering;�
�direct-infrared� heating� is� not� recommended.� The� plastic�
�ODFN� package� does� not� require� a� custom� reflow� soldering�
�profile,� and� is� qualified� to� +260°C.� A� standard� reflow�
�soldering� profile� with� a� +260°C� maximum� is� recommended.�
�FN6522.0�
�October� 31,� 2008�
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