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参数资料
| 型号: | NOIH2SM1000S-HHC |
| 厂商: | ON Semiconductor |
| 文件页数: | 44/67页 |
| 文件大小: | 0K |
| 描述: | IC SPACE IMAGE SENSOR 84-JLCC |
| 标准包装: | 1 |
| 系列: | HAS2 |
| 象素大小: | 18µm x 18µm |
| 有源象素阵列: | 1024H x 1024V |
| 电源电压: | 3.3V |
| 类型: | CMOS 成像 |
| 封装/外壳: | * |
| 供应商设备封装: | * |
| 包装: | * |
| 其它名称: | CYIH1SM1000AA-HHCS CYIH1SM1000AA-HHCS-ND |
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�NOIH2SM1000A�
�The� combination� of� column� amplifiers� and� PGA� can�
�perform� Double� Sampling:� in� this� case� a� pixel’s� signal� level�
�is� read� into� the� structures,� then� the� pixel� is� reset,� then� the�
�reset� level� is� read� into� the� structures� and� subtracted� from� the�
�previously-stored� signal� level,� cancelling� fixed� pattern�
�noise.�
�In� Correlated� Double� Sampling� mode� the� column�
�amplifiers� are� used� in� bypass� mode,� and� the� raw� signal� level�
�(which� can� be� either� a� dark� reset� level� or� a� post-illumination�
�signal� level)� is� sent� to� the� output� amplifier,� and� then� to� the�
�output� for� storage� and� correlated� subtraction� off-chip.� This�
�cancels� fixed� pattern� noise� as� well� as� temporal� KTC� noise.�
�Input� Signal� Multiplexer�
�An� analog� signal� multiplexer� with� six� inputs� connects� a�
�number� of� sources� to� the� output� buffer.�
�One� input� always� is� connected� to� the� pixel-serial� output� of�
�the� pixel� array.�
�Four� inputs� are� connected� to� analog� input� pins� and� are�
�intended� for� monitoring� voltages� in� the� neighborhood� of� the�
�sensor.�
�The� last� multiplexer� input� is� connected� to� the� on-chip�
�temperature� sensor.�
�The� multiplexer� is� controlled� by� an� internal� register,�
�written� through� the� parallel� sensor� programming� interface.�
�Programmable� Gain� Amplifier� (PGA)�
�A� voltage� amplifier� conditions� the� output� signal� of� the�
�multiplexer� for� conversion� by� the� ADC.� Signal� gain� and�
�offset� can� be� controlled� by� a� register� written� through� the�
�parallel� sensor� programming� interface.�
�When� connected� to� the� pixel� array,� the� PGA� also� subtracts�
�pixel� black� level� from� pixel� signal� level� when� in� DS/DR�
�mode.�
�Parallel� Sensor� Programming� Interface�
�The� sensor� is� controlled� via� a� number� of� on-chip� settings�
�registers� for� X� and� Y� addressing,� PGA� gain� and� offset,�
�one-off� calibration� of� the� column� amplifiers.�
�These� registers� are� written� by� the� user� through� a� parallel�
�bus.�
�12� ?� bit� Analog� to� Digital� Convertor� (ADC)�
�The� on-chip� ADC� is� a� 12� bit� pipelined� convertor.� It� has� a�
�latency� of� 6.5� pixel� clock� cycles,� i.e.� it� samples� the� input� on�
�a� rising� clock� edge,� and� outputs� the� converted� signal� 6� pixel�
�clock� periods� afterwards� on� the� falling� edge.�
�The� ADC� contains� its� own� SPI� serial� interface� for� the�
�optional� upload� of� calibration� settings,� enhancing� its�
�performance.�
�The� ADC� is� electrically� isolated� from� the� actual� sensor�
�core:� when� unused� it� can� be� left� non-powered� for� lower�
�dissipation,� and� without� risk� for� latch-up.�
�When� used,� the� input� voltage� range� of� the� ADC� is� set� with�
�a� two-node� voltage� divider� connected� to� pins� VLOW_ADC�
�and� VHIGH_ADC.�
�The� ADC� has� an� accuracy� of� 10� bit� at� 5� MHz� operation�
�speed.�
�Temperature� Sensor�
�A� PN-junction� type� temperature� sensor� is� integrated� on�
�the� chip.� The� temperature-proportional� voltage� at� its� output�
�can� be� routed� to� the� ADC� through� one� of� the� six� analog�
�inputs� of� the� multiplexer.�
�The� temperature� sensor� must� be� calibrated� on� a�
�device-to-device� base.� Its� nominal� response� is�
�–4.64� mV/� °� C.�
�Image� Sensor� Operation�
�The� following� section� describes� the� HAS2� readout�
�mechanisms� and� gives� the� detailed� timing� and� control�
�diagrams� to� implement� these� mechanisms.�
�Double� Sampling� ?� Destructive� Readout�
�In� double� sampling� or� destructive� readout� (DS/DR)� mode�
�the� YRST� pointer� runs� over� the� frame,� top� to� bottom,� each�
�time� resetting� the� line� it� addresses.� Lagging� behind� this� runs�
�the� YRD� pointer,� each� time� reading� out� the� line� it� addresses.�
�The� distance� between� the� YRD� pointer� and� the� YRD� pointer�
�is� then� proportional� to� the� exposure� time,� hence� the�
�electronic� shutter� operation.�
�At� line� readout� the� signal� levels� of� the� pixels� in� the�
�addressed� line� are� copied� onto� the� column� amplifiers’� signal�
�sample� nodes.� Immediately� after� this� the� line� of� pixels� is�
�reset,� and� the� pixels’� black� levels� are� copied� onto� the� column�
�amplifiers’� reset� sample� nodes.� This� is� destructive� readout.�
�The� column� amplifiers/PGA� then� subtract� the� black� levels�
�from� the� signal� levels� during� sequential� pixel� out.� This� is�
�un-correlated� double� sampling,� eliminating� any� static�
�pixel-to-pixel� offsets� of� the� sensor� array.�
�http://onsemi.com�
�44�
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