CYIL2SC1300AA-GZDC Cypress Semiconductor Corp, CYIL2SC1300AA-GZDC Datasheet - Page 18
CYIL2SC1300AA-GZDC
Manufacturer Part Number
CYIL2SC1300AA-GZDC
Description
IMAGE SENSOR CMOS LUPA-1300-2
Manufacturer
Cypress Semiconductor Corp
Type
CMOS Imagingr
Datasheet
1.CYIL2SM1300-EVAL.pdf
(41 pages)
Specifications of CYIL2SC1300AA-GZDC
Pixel Size
14µm x 14µm
Active Pixel Array
1280H x 1024V
Frames Per Second
500
Voltage - Supply
2.5V, 3.3V
Package / Case
168-PGA
Package
168CuPGA
Image Size
1280x1024 Pixels
Color Sensing
Color
Operating Temperature
0 to 70 °C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Image Sensor Timing and Readout
The timing of the sensor consists of two parts. The first part is
related to the exposure time and the control of the pixel. The
second part is related to the read out of the image sensor.
Integration and readout are in parallel or triggered. In the first
case, the integration time of frame I is ongoing during the readout
of frame I-1.
The readout of every frame starts with a FOT, during which the
analog value on the pixel diode is transferred to the pixel memory
element. After this FOT, the sensor is read out line by line. The
read out of every line starts with a ROT, during which the pixel
value is put on the column lines. Then the pixels are selected in
Pipelined Shutter
Integration and readout occur in parallel and are continuous. You only need to start and stop the batch of image captures.
Integration of frame N is always ongoing during readout of frame N-1. The readout of every frame starts with a FOT, during which the
analog value on the pixel diode is transferred to the pixel memory element. After this FOT, the sensor is read out line by line. The
readout of every line starts with a ROT, during which the pixel value is put on the column lines. Then the pixels are muxed in the correct
ADCs, processed, and then sent to the LVDS output block.
You have two options in the pipelined shutter mode. The first option is to program the reset and integration through the configuration
interface and let the sequencer handle integration time automatically. This mode is called master mode. The second option is to drive
the integration time through an external pin. This mode is called slave mode.
Document Number: 001-24599 Rev. *C
Figure 11
shows this parallel timing structure.
FOT
ROT
Int. Time
Handling
Readout
Handling
Integration frame I+1
Readout frame I
Figure 12. Integration and Readout for Pipelined Shutter
L1
K1
FOT
Figure 11. Global Readout Timing (Parallel)
ROT
Line Readout
L2
K2
Reset N Exposure Time N
Readout Pixels
Readout N-1
Readout Lines
...
...
groups of 24 (12 on rising edge, and 12 on the falling edge of the
internal clock). So in total, 54 kernels of 24 pixels are read out
every line. The internal timing is generated by the sequencer.
The sequencer can operate in two modes: master mode and
slave mode. In master mode, all internal timing is controlled by
the sequencer, based on the SPI settings. In slave mode, the
integration timing is directly controlled by over three pins, and the
readout timing is still controlled by the sequencer. The
seqmode1[1] register of the SPI selects between the master and
slave modes.
FOT
Integration frame I+2
Reset
Readout frame I+1
L1024
N+1
K54
Readout N
Exposure Time
CYIL2SM1300AA
Page 18 of 41
[+] Feedback
Related parts for CYIL2SC1300AA-GZDC
Image
Part Number
Description
Manufacturer
Datasheet
Request
R
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet:
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet:
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet:
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet:
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet: