Datasheet AD7853, AD7853L (Analog Devices) - 9

HerstellerAnalog Devices
Beschreibung3 V to 5 V Single Supply, 200 kSPS, 12-Bit, Serial Sampling ADC
Seiten / Seite34 / 9 — AD7853/AD7853L. ON-CHIP REGISTERS. Control register. ADC output data …
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AD7853/AD7853L. ON-CHIP REGISTERS. Control register. ADC output data register. Status register. Test register

AD7853/AD7853L ON-CHIP REGISTERS Control register ADC output data register Status register Test register

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AD7853/AD7853L ON-CHIP REGISTERS
The AD7853/AD7853L powers up with a set of default conditions, and the user need not ever write to the device. In this case the AD7853/AD7853L will operate as a Read-Only ADC. The AD7853/AD7853L still retains the flexibility for performing a full power- down, and a full self-calibration. Note that the DIN pin should be tied to DGND for operating the AD7853/AD7853L as a Read- Only ADC. Extra features and flexibility such as performing different power-down options, different types of calibrations including system cali- bration, and software conversion start can be selected by writing to the part. The AD7853/AD7853L contains a
Control register
,
ADC output data register
,
Status register
,
Test register
and
10 Calibra- tion registers
. The control register is write-only, the ADC output data register and the status register are read-only, and the test and calibration registers are both read/write registers. The test register is used for testing the part and should not be written to.
Addressing the On-Chip Registers Writing
A write operation to the AD7853/AD7853L consists of 16 bits. The two MSBs, ADDR0 and ADDR1, are decoded to determine which register is addressed, and the subsequent 14 bits of data are written to the addressed register. It is not until all 16 bits are writ- ten that the data is latched into the addressed register. Table I shows the decoding of the address bits, while Figure 4 shows the over- all write register hierarchy.
Table I. Write Register Addressing ADDR1 ADDR0 Comment
0 0 This combination does not address any register so the subsequent 14 data bits are ignored. 0 1 This combination addresses the
TEST REGISTER
. The subsequent 14 data bits are written to the test register. 1 0 This combination addresses the
CALIBRATION REGISTERS
. The subsequent 14 data bits are written to the selected calibration register. 1 1 This combination addresses the
CONTROL REGISTER
. The subsequent 14 data bits are written to the control register.
Reading
To read from the various registers the user must first write to Bits 6 and 7 in the Control Register, RDSLT0 and RDSLT1. These bits are decoded to determine which register is addressed during a read operation. Table II shows the decoding of the read address bits while Figure 5 shows the overall read register hierarchy. The power-up status of these bits is 00 so that the default read will be from the ADC output data register. Once the read selection bits are set in the control register all subsequent read operations that follow will be from the selected register until the read selection bits are changed in the control register.
Table II. Read Register Addressing RDSLT1 RDSLT0 Comment
0 0 All successive read operations will be from
ADC OUTPUT DATA REGISTER
. This is the power-up default setting. There will always be four leading zeros when reading from the ADC output data register. 0 1 All successive read operations will be from
TEST REGISTER
. 1 0 All successive read operations will be from
CALIBRATION REGISTERS
. 1 1 All successive read operations will be from
STATUS REGISTER
.
ADDR1, ADDR0 RDSLT1, RDSLT0 DECODE DECODE 01 10 11 00 01 10 11 TEST CALIBRATION CONTROL ADC OUTPUT TEST CALIBRATION STATUS REGISTER REGISTERS REGISTER DATA REGISTER REGISTER REGISTERS REGISTER GAIN(1) GAIN(1) GAIN(1) GAIN(1) OFFSET(1) GAIN(1) OFFSET(1) OFFSET(1) GAIN(1) OFFSET(1) OFFSET(1) OFFSET(1) DAC(8) DAC(8) CALSLT1, CALSLT0 00 01 10 11 CALSLT1, CALSLT0 00 01 10 11 DECODE DECODE
Figure 4. Write Register Hierarchy/Address Decoding Figure 5. Read Register Hierarchy/Address Decoding REV. B –9–