AD7858LARZ Datasheet, PDF(13/32 Page) Analog Devices – 3 V to 5 V Single Supply, 200 kSPS 8-Channel, 12-Bit Sampling ADC

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AD7858LARZ Datasheet, PDF (13/32 Pages) Analog Devices – 3 V to 5 V Single Supply, 200 kSPS 8-Channel, 12-Bit Sampling ADC

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AD7858/AD7858L

CALIBRATION REGISTERS

The AD7858/AD7858L has 10 calibration registers in all, eight for the DAC, one for the offset, and one for gain. Data can be written

to or read from all 10 calibration registers. In self- and system calibration the part automatically modifies the calibration registers; only if the

user needs to modify the calibration registers should an attempt be made to read from and write to the calibration registers.

Addressing the Calibration Registers

The calibration selection bits in the control register CALSLT1 and CALSLT0 determine which of the calibration registers are ad-

dressed (see Table V). The addressing applies to both the read and write operations for the calibration registers. The user should not

attempt to read from and write to the calibration registers at the same time.

CALSLT1 CALSLT0

Table V. Calibration Register Addressing

Comment

This combination addresses the Gain (1), Offset (1) and DAC Registers (8). Ten registers in total.

This combination addresses the Gain (1) and Offset (1) Registers. Two registers in total.

This combination addresses the Offset Register. One register in total.

This combination addresses the Gain Register. One register in total.

Writing to/Reading from the Calibration Registers

For writing to the calibration registers a write to the control

For reading from the calibration registers a write to the control

but also to set the RDSLT1 and RDSLT0 bits to 10 (this ad-

dresses the calibration registers for reading). The calibration

the CALSLT1 and CALSLT0 bits, or upon completion of all

the calibration register write/read operations. When reset it

points to the first calibration register in the selected write/read

sequence. The calibration register pointer will point to the gain

calibration register upon reset in all but one case, this case being

where the offset calibration register is selected on its own

(CALSLT1 = 1, CALSLT0 = 0). Where more than one calibra-

tion register is being accessed the calibration register pointer will

be automatically incremented after each calibration register

write/read operation. The order in which the 10 calibration

registers are arranged is shown in Figure 7. The user may abort

at any time before all the calibration register write/read opera-

tions are completed, and the next control register write opera-

tion will reset the calibration register pointer. The flow chart in

Figure 8 shows the sequence for writing to the calibration regis-

ters and Figure 9 for reading.

CAL REGISTER

ADDRESS POINTER

CALIBRATION REGISTER

ADDRESS POINTER

POSITION IS DETERMINED

BY THE NUMBER OF

CALIBRATION REGISTERS

ADDRESSED AND THE

NUMBER OF READ/WRITE

OPERATIONS

CALIBRATION REGISTERS

GAIN REGISTER

(1)

OFFSET REGISTER

(2)

DAC 1ST MSB REGISTER

(3)

DAC 8TH MSB REGISTER

(10)

Figure 7. Calibration Register Arrangements

When reading from the calibration registers there will always be

two leading zeros for each of the registers. When operating in

Serial Interface Mode 1 the read operations to the calibration

registers cannot be aborted. The full number of read operations

must be completed (see section on Serial Interface Mode 1

Timing for more detail).

START

WRITE TO CONTROL REGISTER SETTING STCAL = 0

AND CALSLT1, CALSLT0 = 00, 01, 10, 11

CAL REGISTER POINTER IS

AUTOMATICALLY RESET

WRITE TO CAL REGISTER

(ADDR1 = 1, ADDR0 = 0)

CAL REGISTER POINTER IS

AUTOMATICALLY INCREMENTED

LAST

WRITE

OPERATION

ABORT

YES

FINISHED

Figure 8. Flowchart for Writing to the Calibration Registers

REV. B

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