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PAS106BCA-323 PAS106BBA-323 PAS106BCA-323 SINGLE-CHIP CMOS CIF COLOR DIGITAL IMAGE SENSOR PAS106BBA-323 SINGLE-CHIP CMOS CIF B&W DIGITAL IMAGE SENSOR General Description The PAS106BCA-323/PAS106BBA-323 is a highly integrated CMOS active-pixel image sensor that has a CIF resolution of 356H x 292V. To have an excellent image quality, the PAS106BCA-323/PAS106BBA-323 outputs 10-bit RGB raw data through a parallel data bus. It is available in color or monochrome in 32-pin LCC package. The PAS106BCA -323/PAS106BBA-323 can be programmed to set the exposure time for different luminance condition via I2CTM serial control bus. By programming the internal register sets, it performs on-chip frame rate adjustment, offset correction DAC and programmable gain control. Features CIF(356 x 292 pixels) resolution, ~1/5" Lens Bayer-RGB color filter array On-chip 10-bit pipelined A/D converter Output format: 10-bit parallel RGB raw data On-chip 6-bit (1 sign bit+ 5 magnitude bit) background compensation DAC On-chip programmable gain amplifier q q Key Specification Supply Voltage Array formate Optical format Pixel Size Frame rate System clock Max. pixel rate Sensitivity PGA gain Color filter Exposure Time Scan Mode S/N Ratio Package 3.3V + 5% 356(H) x 292(V) ~1/5 " 7.25m x 7.25m 30 fps Up to 48 MHz 4 MHz 1.0V/Lux-sec 31.6 dB max. RGB Bayer Pattern ~ Frame time to 1/160000 Progressive >45dB 5-bit color gain amplifier(x4) 5-bit global gain amplifier (x5) Continuous variable frame time(1/2sec~1/30sec) Continuous variable exposure time I2C Interface Digitally programmable registers Single 3.3V supply voltage 100 mW low power dissipation 32-pin LCC All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 1/14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 1. Pin Assignment Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 Name VSSA VRB VRT VCM VDDA VDDA VDDAY1 VDDAY2 VSSAY CSB PXD9 PXD8 PXD7 PXD6 PXD5 PXD4 VDDQ VSSQ PXD3 PXD2 PXD1 PXD0 PXCLK HSYNC VSYNC SYSCLK SCL SDA VDDD VSSD VSSA VLRST Type GND BYPASS BYPASS BYPASS PWR PWR PWR PWR GND IN OUT OUT OUT OUT OUT OUT PWR GND OUT OUT OUT OUT OUT OUT OUT IN IN I/O PWR GND GND BIAS Definition Analog ground Analog voltage reference Analog voltage reference Analog voltage reference Analog VDD, 3.3V Analog VDD, 3.3V Analog VDD, 3.3V Analog VDD, 3.3V Analog ground Chip select (Low, active, chip disable if high) Digital data out Digital data out Digital data out Digital data out Digital data out Digital data out Digital VDD, 3,3V Digital ground Digital data out Digital data out Digital data out Digital data out Pixel clock output Horizontal synchronization signal Vertical synchronization signal Master clock input I2C clock I2C data Digital VDD, 3.3V Digital ground Analog ground Fixed bias input voltage, 1.65V All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 2/ 14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 2. Block Diagram Row Decoders 6-bit +/-1V DAC Sensor Array Color gain B,G1,G2,R Global gain 5-bits 5-bits X4 X5 CDS ckts Col. Decoders cmd I2C Interface Register sets Timing & Digital Control 10-bit pipelined ADC Pxo<9:0> PXCLK Vsync Hsync SDA SCL SysClk All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 3/ 14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 3. Pixel Array And Pixel Color Pattern The output image format of PAS106BCA-323/PAS106BBA -323 is CIF (352x288 pixel array). To provide the co-processor with the extra information it needs for interpolation at the edges of the pixel array, an border of 2 pixels on all 4 sides of the array are available. Fig 3.1. illustrates the pixel array and pixel color pattern. 30 dark pixel 30 dark pixel 20 R pixel 30 dark pixel 30 dark pixel 20 pixel No filter 20 G pixel G 20 B pixel B Dark pixel G2 R G2 R B G1 B G1 G2 R G2 R R Dark pixel G2 R G2 R B G1 B G1 G2 R G2 R Row 293 Row 292 Array: 356(column)x 294(row) 294 row lines B G1 B G1 G2 R G2 R B G1 B G1 Dark pixel R 20 R pixel G 20 G pixel B 20 B pixel 30 dark pixel No filter B G1 B G1 G2 R G2 R B G1 B G1 Dark pixel Row 1 Row 0 20 pixel 30 dark pixel 30 dark pixel 30 dark pixel 356 column lines Fig 3.1. Pixel array and pixel color pattern Note: 1. 2. 3. Pixel color pattern does not apply to monochrome sensor. Pixel read-out proceeds from left to right, and from bottom row to top row. Pixel array not drawn to scale. All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 4/ 14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 4. Output timing: Fixed pixel clock for each line(row), 444pxclk. 4+4 blank pxclk for each line. ( See Fig 4.1. ) 1+1 Dark line for each frame.(See Fig 4.2. ) Dark line output format: Fig 4.3. line time = 80+4+2+352+2+4 = 444 pxclks Hsync. xxx x x x x 2+352+2 pixels outx x x x B GB G 11 Pxclk_a Fig 4.1. Inter-line timing Vsync. Frame time (=294 lines) 80 Pxclks Dark Dark 80 pxclks x x x x 2+352+2 pixels out Note: "x" indicates don't care PXD[9:0] 80 Pxclks Dark B,G1,B,G1... G2,R,G2,R... Valid frame data (292 lines) Fig 4.2. Inter-frame timing 4+356+4=364 pxclks Hsync. Dark Hsync 80 pxclks xxx x R G B Hsync 80 pxclks No xxx x filfter 20 R pixels 20 G pixels 20 B pixels 20 pixels 28 dark pixels30 dark pixels dark pixels dark pixels 30 30 Note: "x" indicates don't care. Fig 4.3. Dark line output format All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 5/ 14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 5. I2C Bus PAS106BCA-323/PAS106BBA-323 supports I2C-bus transfer protocol and is acting as slave device. The 7 bits unique slave address is 1000000 and supports receiving / transmitting speed up to 400kHz. 5.1 I2C bus overview Only two wires SDA (serial data) and SCL (serial clock) carry information between the devices connected to the I2C bus. Normally both SDA and SCL lines are open collector structure and pull high by external pull-up resistors. Only the master can initiates a transfer (start), generates clock signals, and terminates a transfer (stop). Start and stop condition: A high to low transition of the SDA line while SCL is high defines a start condition. A low to high transition of the SDA line while SCL is high defines a stop condition. Please refer to Fig 5.1. Valid data: The data on the SDA line must be stable during the high period of the SCL clock. Within each byte, MSB is always transferred first. Read/write control bit is the LSB of the first byte. Please refer to Fig 5.2. Both the master and slave can transmit and receive data from the bus. Acknowledge: The receiving device should pull down the SDA line during high period of the SCL clock line when a complete byte was transferred by transmitter. In the case of a master received data from a slave, the master does not generate an acknowledgment on the last byte to indicate the end of a master read cycle. SDA SCL S Start Condition P Stop Condition Fig 5.1 Start and Stop Conditions All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 6/ 14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC SDA DATA STABLE DATA CHANGE ALLOWED SCL Fig 5.2 Valid Data 5.2 Data Transfer Format 5.2.1 Master transmits data to slave (write cycle) S : Start A : Acknowledge by slave P : Stop RW : The LSB of 1ST byte to decide whether current cycle is read or write cycle. RW=1 read cycle, RW=0 write cycle. SUBADDRESS : The address values of PAS106BCA-323/PAS106BBA-323 internal control registers register description) 1ST BYTE 2ND BYTE n BYTEs + A (Please refer to PAS106BCA-323/PAS106BBA-323 S SLAVE ID (7 BIT) RW A SUBADDRESS (8 BIT) A DATA A DATA A P MSB LSB=0 During write cycle, the master generates start condition and then places the 1st byte data that are combined slave address (7 bits) with a read/write control bit to SDA line. After slave(PAS106BCA-323/PAS106BBA-323) issues acknowledgment, the master places 2nd byte (sub-address) data on SDA line. Again follow the PAS106BCA-323/PAS106BBA-323 acknowledgment, the master places the 8 bits data on SDA line and transmit to PAS106BCA-323/PAS106BBA-323 control register (address was nd assigned by 2 byte). After PAS106BCA-323/PAS106BBA-323 issue acknowledgment, the master can generate a stop condition to end of this write cycle. In the condition of multi-byte write, the PAS106BCA-323/PAS106BBA-323 sub-address is automatically increment after each DATA byte transferred. All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 7/ 14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC The data and A cycles is repeat until last byte write. Every control registers value inside PAS106BCA-323/PAS106BBA-323 can be programming via this way. (Please refer to Fig 5.3.) 5.2.2 Slave transmits data to master (read cycle) The sub-address was taken from previous write cycle The sub-address is automatically increment after each byte read Am : Acknowledge by master Note there is no acknowledgment from master after last byte read 1ST BYTE SLAVE ADDRESS (7 BITS) 2ND BYTE n BYTE S RW A DATA (8 BIT) Am DATA Am DATA 1 P NO ACK IN LAST BYTE During read cycle, the master generates start condition and then place the 1st byte data that are combined slave address (7 bits) with a read/write control bit to SDA line. After issue acknowledgment, 8 bits DATA was also placed on SDA line by PAS106BCA-323/PAS106BBA-323. The 8 bit data was read from PAS106BCA-323/PAS106BBA-323 internal control register that address was assigned by previous write cycle. Follow the master acknowledgment, the PAS106BCA-323/PAS106BBA-323 place the next 8 bits data (address is increment automatically) on SDA line and then transmit to master serially. The DATA and Am cycles is repeat until the last byte read. After last byte read, Am is no longer generated by master but instead by keep SDA line high. The slave (PAS106BCA-323/PAS106BBA-323) must releases SDA line to master to generate STOP condition. (Please refer to Fig 5.3.) SDA SCL 1-7 S Start Condition Address R/W ACK from Receiver Data ACK from Receiver Data 8 9 1-7 8 9 1-7 8 9 P ACK Stop from Condition Receiver Fig 5.3 Data Transfer Format All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 8/ 14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 5.3 I2C Bus Timing SDA tf tLOWtr SCL S tf tSU;DAT tHD;STA tSP tr tBUF S r tHD;STA tHD;DAT tHIGH tSU;STA tSU;STO P S 5.4 I2C Bus Timing Specification STANDARD-MODE PARAMETER SCL clock frequency Hold time (repeated) START condition. After this period, the first clock pulse is generated. Low period of the SCL clock HIGH period of the SCL clock Set-up time for a repeated START condition Data hold time. For I2C-bus device Data set-up time Rise time of both SDA and SCL signals Fall time of both SDA and SCL signals Set-up time for STOP condition Bus free time between a STOP and START Capacitive load for each bus line Noise margin at the LOW level for each connected device (including hysteresis) Noise margin at the HIGH level for each connected device (including hysteresis) Note1: It depends on the "high" period time of SCL. SYMBOL MIN. MAX. UNIT fscl tHD:STA tLOW tHIGH tSU;STA tHD;DAT tSU;DAT tr tf tSU;STO tBUF Cb VnL VnH 10 4.0 4.7 0.75 4.7 0 250 30 30 4.0 4.7 1 0.1 VDD 0.2 VDD 400 3.45 N.D. N.D. 15 - kHz us us us us us ns ns(note1) ns(note1) us us pF V V All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 9/ 14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 6. Specifications Absolute Maximum Ratings Symbol Vdd Vin Vout Tstg Parameter DC supply voltage DC input voltage DC output voltage Storage temperature Min -0.5 0.5 -0.5 0 Max 3.8 Vdd+0.5 Vdd+0.5 70 Unit V V V J DC Electrical Characteristics (VDD=3.3V5%, Ta=0C~40C ) Symbol Type :PWR VDD Analog and digital operating voltage 3.15 3.3 35 2.0 0 VDD 0.8 10 1.0 Vdd-0.2 0.2 3.45 V mA V V pF uA V V IDD Operating Current Type :IN & I/O Reset and SY SCLK VIH VIL Cin Ilkg VOH VOL Input voltage HIGH Input voltage LOW Input capacitor Input leakage current Output voltage HIGH Output voltage LOW Parameter Min. Typ. Max. Unit Type : OUT & I/O for PXD0:9, PXCLK, H/VSYNC & SDA, load 10pf, 1.2k[ , 3.3 volts AC Operating Condition Symbol fsysclk fpxclk Parameter Master clock frequency Pixel clock output frequency Min. 8 Typ. Max. 48 4 Unit MHz MHz Sensor Characteristics (To be determined) Parameter Photo response non-uniformity Saturation output voltage Dark output voltage Dark signal non-uniformity Sensitivity ( Red channel ) Sensitivity ( Green channel ) Sensitivity ( Blue channel ) Symbol PRNU Vsat. Vdark DSNU R G B Min. Typ. 1.02 1.4 52 1.9 1.2 1.0 0.8 Max. Unit % V mV/sec Lsb V/Lux-sec V/Lux-sec V/Lux-sec Note All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 10/14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 7. Package Information 7.1. Pin Connection Diagram SYSCLK HSYNC PXCLK PXD1 PXD0 VSYNC SCL 27 21 22 23 24 25 26 PXD2 PXD3 VSSQ VDDQ PXD4 PXD5 PXD6 PXD7 SDA 28 20 29 VDDD VSSD VSSA VLRST VSSA VRB VRT VCM 19 18 17 16 30 31 32 1 2 15 14 13 12 11 10 9 8 7 6 5 3 4 VDDAY2 VDDAY1 CSB VDDA -- Bottom View -- VSSAY VDDA PXD8 PXD9 All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 11/ 14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 7.2. Package Outline All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 12/14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 7.3. Sensor center and Die&Package center bias Sensor Center = Package Center Chip Center Logo All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 13/14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 PixArt Imaging Inc. PAS106BCA-323/PAS106BBA-323 CMOS Image Sensor IC 8. Referencing Circuit Schematic VDDD 2 CSB_SW 1 R1 CSB 300k PXD9 PXD8 AGND VDDA C1 8 7 6 5 U2 C2 C3 C4 12 11 10 PXD8 PXD9 CSB VSSAY 9 0.1uF 0.1uF 0.1uF 0.1uF VDDA VDDAY2 PXD7 PXD6 PXD5 PXD4 VDDD DGND C9 0.1uF PXD3 PXD2 13 14 15 16 17 18 19 20 VDDAY1 VDDA PXD7 PXD6 PXD5 PXD4 VDDQ VSSQ PXD3 VCM VRT VRB 4 VDDA 3 2 1 C6 32 31 R3 30 29 VDDD C10 0.1uF 3.3V R4 R5 4.7k 4.7k L1 300k VLRST 1uF 1uF 1uF C7 C8 C5 10uF R2 300k VLRST PAS106BCA-323 PAS106BBA-323 SYSCLK VSSA VLRST VSSA VSSD HSYNC PXD1 PXD0 PXD2 VSYNC PXCLK VDDD SDA 28 SCL 27 21 22 23 24 25 PXD1 PXD0 PXCLK HSYNC 26 PAS106_32 3.3UH VSYNC VDDD SYSCLK C11 SCL 1uF SDA 10uF 10uF 1uF C12 C13 C14 VDDA L2 DGND 3.3UH AGND NOTES on capacitors: 1.The 0.1uF caps for power pins lengths LESS than 5mm. MUST have trace Title PAS106_SENSOR-32PINS.opj Size A4 Date: Document Number Rev V2.1 Wednesday, May 22, 2002 Sheet 1 of 1 2.C5,C7 and C8 for pins 2,3 and 4 MUST have trace lengths LESS than 5mm. All rights strictly reserved any portion in this paper shall not be reproduced, copied or transformed to any other forms without permission. 14/14 PixArt Imaging Inc. E-mail: fae_service@pixart.com.tw V2.0, May 2002 |
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