XRD98L61_01 Datasheet, PDF(20/38 Page) Exar Corporation – CCD Image Digitizers with CDS, PGA and 12-Bit A/D

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XRD98L61_01 Datasheet, PDF (20/38 Pages) Exar Corporation – CCD Image Digitizers with CDS, PGA and 12-Bit A/D

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XRD98L61

ANALOG TO DIGITAL CONVERTER (ADC)

The analog-to-digital converter is based on pipeline

architecture with a built in track & hold input stage. The

track & hold and ADC conversion are controlled by the

externally supplied ADCLK.

The polarity of the ADCLK is programmable. If ADCpol

= low, the track & hold circuit tracks the PGA output

while ADCLK is high and holds while ADCLK is low. If

ADCpol = high, the track & hold circuit tracks the PGA

output while ADCLK is low and holds while ADCLK is

high. ADCLK should be a 50% duty cycle clock, and

should be synchronized with SBLK such that ADC

tracking ends at the same time as the CDS sample

black ends. (See Figure 13).

The ADC reference levels, CapP & CapN, are gener-

ated from an internal voltage reference. To minimize

noise, these pins should have high frequency bypass

capacitors to AGND. The value of these bypass ca-

pacitors will affect the time required for the reference

to charge up and settle after power down mode.

The ADC output bus, DB[11:0] & OVER, has 3-state

capability that is controlled by the OE bit of the Control

high. The outputs are high impedance when the OE bit

is low.

Direct ADC Input Mode

The ADC inputs can be accessed directly via the

ADCinP & ADCinN pins. To enable the Direct ADC

Input mode, write a â1â to the ADCtest bit of the Control

the ADCinP & ADCinN pins directly to the ADC. The

ADC data is valid 6.5 clock cycles after the sampling

edge of ADCLK (default is falling edge).

POWER DOWN

The Power Down mode can be activated by forcing the

PD pin high, or by writing a â1â to the PwrDwn bit in the

Control register. For normal operation, the PD pin

must be low and the PwrDwn bit must be â0â. In the

Power Down mode, all analog circuits are turned off,

the calibration is placed in the Hold mode, and the

output bus, (DB[11:0] and OVER) is put in the high

impedance mode. All the digital registers retain their

values, so the PGA gain, offset, and calibration will

return to their previous states. The serial interface pins

remain active in the Power Down mode. The PD pin

and the PwrDwn bit do not reset any internal registers.

In addition to the PwrDwn bit, there are 4 other power

down bits which only turn off portions of the chip.

DAC1pd and DAC0pd control the two 8 bit utility

DACs. AFEpd controls the CDS & PGA circuits.

ADCpd controls the ADC. AFEpd & ADCpd are in-

cluded for factory test and characterization purposes;

they are not intended for use in digital camera applica-

tions.

DIGITAL OUTPUT ENABLE CONTROL

The digital output bus, DB[11:0] and OVER, has 3-

state capability. When the OE bit in the control register

is high, and the OE Pin (#24) is high, the digital output

drivers are enabled and active. When the OE bit is low,

or the OE Pin is low, the digital output drivers are

disabled and the bus is in the high impedance state.

The OE bit and OE Pin only control the digital output

drivers; all other circuits on the chip will remain active.

The black level calibration can still run properly when

the outputs are in the high impedance state.

CHIP RESET

The chip includes a Power-On-Reset function (POR),

so when the power supplies are turned on, the chip will

always power up with default values in all registers.

There are two methods to force a chip reset. The first

is to write a â1â to the RESET bit in the reset register.

This will reset the chip, and after a delay of about 10 ns,

the reset bit will automatically clear itself. The second

reset method is to force the RESET pin high. This will

reset the chip until the RESET pin goes low again. The

RESET pin has an internal pull down.

Rev. 2.00

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