DAC8734_091 Datasheet, PDF(26/41 Page) Texas Instruments – Quad, 16-Bit, High-Accuracy, ±16V Output, Serial Input DIGITAL-TO-ANALOG CONVERTER

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DAC8734

SBAS465A â MAY 2009 â REVISED SEPTEMBER 2009 .................................................................................................................................................. www.ti.com

INTERNAL REGISTERS

The DAC8734 internal registers consist of the Command Register, the Monitor Register, the DAC Input Data

Registers, the Zero Registers, and the Gain Registers.

Command Register. Default = 033Ch.

The Command Register determines the actions performed by the DAC8734.

BIT

DB15

DB14

DB13

DB12

DB11

DB10

DB9

DB8

DB7

DB6

DB5

DB4

DB3

DB2

DB1:DB0

NAME

A/B

RST

PD-A

PD-B

Rsvd

GPIO-1

GPIO-0

DSDO

NOP

GAIN-3

GAIN-2

GAIN-1

GAIN-0

Table 4. Command Register

DEFAULT

VALUE

DESCRIPTION

A/B bit.

When A/B = '0', reading DAC-x returns the value in the Input Data Register.

When A/B = '1', reading DAC-x returns the value in the DAC latch.

Synchronously update DACs bit. Functions in the same manner as the LDAC pin.

When LDAC is tied high, set LD = '1' at any time after the write operation and the correction process proceeds to

synchronously update all DAC latches with the content of the corresponding Input Data Register, and sets VOUT to a new

level. The DAC8734 updates the DAC latch only if it has been accessed since the last time LDAC was brought low or the

LD bit was set to '1', thereby eliminating unnecessary glitch. Any DACs that were not accessed are not reloaded. After

updating, the bit returns to '0'. Refer to the Updating Via LDAC section for details.

When the LDAC pin is tied low, the LD bit is ignored.

Software reset bit.

Set the RST bit to '1' to reset the device; functions the same as a hardware reset. After reset completes, the RST bit

returns to '0'.

Power-down bit for Group A.

Setting the PD-A bit to '1' places Group A (DAC-0 and DAC-1) into power-down operation. All output buffers are in Hi-Z

and all analog outputs (VOUT-x) connect to AGND through an internal 10kâ¦ resistor. The interface remains active.

Setting the PD-A bit to '0' returns Group A to normal operation.

Power-down bit for Group B.

Setting the PD-B bit to '1' places Group B (DAC-2 and DAC-3) into power-down operation. All output buffers are in Hi-Z

and all analog outputs (VOUT-x) connect to AGND through an internal 10kâ¦ resistor. The interface remains active.

Setting the PD-B bit to '0' returns Group B to normal operation.

Reserved. Writing to this bit has no effect; reading this bit returns '0'.

GPIO-1 status bit.

Writing a '1' to the GPIO-1 bit puts the GPIO-1 pin into a Hi-Z state (default).

Writing a '0' to the GPIO-1 bit forces the GPIO-1 pin low.

When reading this bit, the digital value on the GPIO-1 pin is acquired.

GPIO-0 status bit.

Writing a '1' to the GPIO-0 bit puts the GPIO-1 pin into a Hi-Z state (default).

Writing a '0' to the GPIO-0 bit forces the GPIO-1 pin low.

When reading this bit, the digital value on the GPIO-0 pin is acquired.

Disable SDO bit.

Set the DSDO bit to '0' to enable the SDO pin (default). The SDO pin works as a normal SPI output.

Set the DSDO bit to '1' to disable the SDO pin. The SDO pin is always in a Hi-Z state regardless of the status of the CS

pin is.

No operation bit.

Writing '0' or '1' to this bit has no effect and the bit returns to '0' at the end of the write operation.

Reading the bit always returns '0'.

DAC-3 gain bit.

Set the GAIN-3 bit to '1' for a gain = 4.

Set the GAIN-3 bit to '0' for a gain = 2.

DAC-2 gain bit.

Set the GAIN-2 bit to '1' for a gain = 4.

Set the GAIN-2 bit to '0' for a gain = 2.

DAC-1 gain bit.

Set the GAIN-1 bit to '1' for a gain = 4.

Set the GAIN-1 bit to '0' for a gain = 2.

DAC-0 gain bit.

Set the GAIN-0 bit to '1' for a gain = 4.

Set the GAIN-0 bit to '0' for a gain = 2.

Reserved. Writing to these bits has no effect; reading these bits returns '0'.

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