IBIS4-1300_09 Datasheet, PDF(18/37 Page) Cypress Semiconductor – 1.3 MPxl Rolling Shutter CMOS Image Sensor

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IBIS4-1300_09 Datasheet, PDF (18/37 Pages) Cypress Semiconductor – 1.3 MPxl Rolling Shutter CMOS Image Sensor

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IBIS4-1300

ADC timing

The ADC converts on the falling edge of the CLK_ADC clock.

The input signal should be stable during a time Ts before the

falling clock edge. The digital output is available Td after the

falling clock edge (Figure 13., Ts = 100 ns, Td = 50 ns). These

values are the delays to obtain a stable LSB after a half-scale

swing of the input signal. For the MSB to become stable, Ts=20

ns is sufficient. For a full scale input swing (which normally

doesn't appear with image sensors), Ts is 140 ns for the LSB

and 20 ns for the MSB.

Figure 13. ADC timing

CLK_ADC

IN_ADC

D0â¦D9

100 ns

TRI_ADC can be used to put the output bits in a tristate mode

(e.g. for bi-directional busses). If this is used, the output signal

becomes valid 50 ns after the falling edge on TRI_ADC.

BITINVERT can be used to invert the output word, if necessary

(one's complement).

When NONLINEAR is high, the ADC conversion is non-linear.

The contrast will be higher in dark image regions, and lower in

bright areas, similar to gamma correction.

Table 7. pins of the ADC

Name

No.

Description

Analog signals

IN_ADC

Input, connect to sensor's output (pin 13)

Input range is between 2 & 4 V (VLOW_ADC & VHIGH_ADC)

Digital Controls

CLK_ADC

ADC Clock

ADC converts on falling edge

TRI_ADC

Tristate control of ADC digital outputs

1 = tristate; 0 = output

NONLINEAR

1 = non-linear analog-digital conversion

0 = linear analog-digital conversion

BITINVERT

1 = invert output bits

0 = no inversion of output bits

Digital output

DOâ¦ D9

51â¦42

Output bits

D0 = LSB, D9 = MSB

Reference voltages

Document Number: 38-05707 Rev. *B

Page 18 of 37

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