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参数资料
| 型号: | NOIL1SM0300A-WWC |
| 厂商: | ON Semiconductor |
| 文件页数: | 14/30页 |
| 文件大小: | 0K |
| 描述: | IC IMAGE SENSOR LUPA300 48LLC |
| 标准包装: | 1 |
| 系列: | LUPA300 |
| 象素大小: | 9.9µm x 9.9µm |
| 有源象素阵列: | 640H x 480V |
| 每秒帧数: | 250 |
| 电源电压: | 2.5 V,3.3 V |
| 类型: | CMOS 成像 |
| 封装/外壳: | 48-LCC |
| 供应商设备封装: | 48-LCC(14.22x14.22) |
| 包装: | 托盘 |
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�NOIL1SM0300A�
�Res2_enable� (1bit)�
�This� bit� enables/disables� the� dual� slope� mode� of� the�
�device.�
�1:� Dual� slope� is� enabled� (configured� according� to� the�
�RES2_TIMER� register)�
�0:� Dual� slope� is� disabled� (RES2_timer� register� is� ignored)�
�-� default�
�Res3_enable� (1bit)�
�This� bit� enables/disables� the� triple� slope� mode� of� the�
�device.�
�1:� triple� slope� is� enabled� (configured� according� to� the�
�RES3_TIMER� register)�
�0:� triple� slope� is� disabled� (RES3_timer� register� is� ignored)�
�-� default�
�Reverse_X� (1bit)�
�The� readout� direction� in� X� can� be� reversed� by� setting� this�
�bit� through� the� SPI.�
�1:� Read� direction� is� reversed� (from� right� to� left)�
�0:� normal� read� direction� (from� left� to� right)� -� default�
�Reverse_Y� (1bit)�
�The� readout� direction� in� Y� can� be� reversed� by� setting� this�
�bit� through� the� SPI.�
�1:� Read� direction� is� reversed� (from� bottom� to� top)�
�0:� normal� read� direction� (from� top� to� bottom)� -� default�
�Ndr� (1� bit)�
�This� bit� enables� the� non� destructive� readout� mode� if�
�desired.�
�1:� ndr� enables�
�0:� ndr� disables� (default)�
�Start_X� Register� <7:0>�
�This� register� sets� the� start� position� of� the� readout� in� X�
�direction.� In� this� direction,� there� are� 80� (from� 0� to� 79)�
�possible� start� positions� (8� pixels� are� addressed� at� the� same�
�time� in� one� clock� cycle).� Remember� that� if� you� put� Start_X�
�to� 0,� pixel� 0� is� being� read� out.� Example:�
�If� you� set� 23� in� the� Start_X� register� readout� only� starts�
�from� pixel� 184� (8x23).�
�Start_Y� Register� <8:0>�
�This� register� sets� the� start� position� of� the� readout� in� Y�
�direction.� In� this� direction,� there� are� 480� (from� 0� to� 479)�
�possible� start� positions.� This� means� that� the� start� position� in�
�Y� direction� can� be� set� on� a� line� by� line� basis.�
�Nb_pix� <7:0>�
�This� register� sets� the� number� of� pixels� to� read� out.� The�
�number� of� pixels� to� be� read� out� is� expressed� as� a� number� of�
�kernels� in� this� register� (4� pixels� per� kernel).� This� means� that�
�there� are� 160� possible� values� for� the� register� (from� 1� to� 160).�
�Example:�
�Res1_length� <11:0>�
�This� register� sets� the� length� of� the� reset� pulse� (how� long�
�it� remains� high).� This� length� is� expressed� as� a� number� of�
�lines� (res1_length� -� 1).� The� minimum� and� default� value� of�
�this� register� is� 2.�
�The� actual� time� the� reset� is� high� is� calculated� with� the�
�following� formula:�
�Reset� high� =� (Res1_length-1)� *� (ROT� +� Nr.� Pixels� *� clock�
�period)�
�Res2_timer� <11:0>�
�This� register� defines� the� position� of� the� additional� reset�
�pulse� to� enable� the� dual� slope� capability.� This� is� also� defined�
�as� a� number� of� lines-1.�
�The� actual� time� on� which� the� additional� reset� is� given� is�
�calculated� with� the� following� formula:�
�DS� high� =� (Res2_timer-1)� *� (ROT� +� Nr.� Pixels� *� clock�
�period)�
�Res3_timer� <11:0>�
�This� register� defines� the� position� of� the� additional� reset�
�pulse� to� enable� the� triple� slope� capability.� This� is� also�
�defined� as� a� number� of� lines� -� 1.�
�The� actual� time� on� which� the� additional� reset� is� given� is�
�calculated� with� the� following� formula:�
�TS� high� =� (Res3_timer-1)� *� (ROT� +� Nr.� Pixels� *� clock�
�period)�
�Ft_timer� <11:0>�
�This� register� sets� the� position� of� the� frame� transfer� to� the�
�storage� node� in� the� pixel.� This� means� that� it� also� defines� the�
�end� of� the� integration� time.� It� is� also� expressed� as� a� the�
�number� of� lines� -� 1.�
�The� actual� time� on� which� the� frame� transfer� takes� place� is�
�calculated� with� the� following� formula:�
�FT� time� =� (ft_timer-1)� *� (ROT� +� Nr.� Pixels� *� clock� period)�
�Vcal� <7:0>�
�This� register� is� the� input� for� the� on-chip� DAC� which�
�generates� the� Vcal� supply� used� by� the� PGA.�
�When� the� register� is� ”00000000”� it� sets� a� Vcal� of� 2.5V.�
�When� the� register� is� 11111111� then� it� sets� a� Vcal� of� 0V.� This�
�means� that� the� minimum� step� you� can� take� with� the� Vcal�
�register� is� 9.8� mV/bit� (2.5V/256bits).�
�Vblack� <7:0>�
�This� register� is� the� input� for� the� on-chip� DAC� which�
�generates� the� Vblack� supply� used� by� the� PGA.� When� the�
�register� is� ”00000000”� it� sets� a� Vblack� of� 2.5V.� When� the�
�register� is� 11111111� then� it� sets� a� Vblack� of� 0V.� This� means�
�that� the� minimum� step� you� can� take� with� the� Vblack� register�
�is� 9.8� mV/bit� (2.5V/256bits).�
�If� you� set� 37� in� the� nb_pix� register,� 148� (37� x� 4)� pixels� are�
�read� out.�
�http://onsemi.com�
�14�
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