AD9776A Analog Devices, AD9776A Datasheet - Page 26

AD9776A

Manufacturer Part Number

AD9776A

Description

Dual 12-Bit, 1 GSPS, Digital-to-Analog Converter

Manufacturer

Analog Devices

Datasheet

1.AD9776A.pdf (56 pages)

Specifications of AD9776A

Resolution (bits)

12bit

Dac Update Rate

1GSPS

Dac Settling Time

n/a

Max Pos Supply (v)

+3.47V

Single-supply

Dac Type

Current Out

Dac Input Format

Par

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AD9776A/AD9778A/AD9779A

3-WIRE INTERFACE

The 3-wire port is a flexible, synchronous serial communications

port allowing easy interface to many industry-standard micro-

controllers and microprocessors. The port is compatible with

most synchronous transfer formats, including both the

Motorola SPI and Intel® SSR protocols.

The interface allows read and write access to all registers

that configure the AD9776A/AD9778A/AD9779A. Single-

or multiple-byte transfers are supported, as well as MSB-first

or LSB-first transfer formats. Serial data input/output can be

accomplished through a single bidirectional pin (SDIO) or

through two unidirectional pins (SDIO/SDO).

The serial port configuration is controlled by Register 0x00,

Bits[7:6]. It is important to note that any change made to the

serial port configuration occurs immediately upon writing to

the last bit of this byte. Therefore, it is possible with a multibyte

transfer to write to this register and change the configuration in

the middle of a communication cycle. Care must be taken to

compensate for the new configuration within the remaining

bytes of the current communication cycle.

Use of a single-byte transfer when changing the serial port

configuration is recommended to prevent unexpected device

behavior.

As described in this section, all serial port data is transferred

to/from the device in synchronization with the SCLK pin. If

synchronization is lost, the device has the ability to asynchro-

nously terminate an I/O operation, putting the serial port

controller into a known state and, thereby, regaining synchro-

nization.

GENERAL OPERATION OF THE SERIAL INTERFACE

There are two phases of a communication cycle with the

AD9776A/AD9778A/AD9779A. Phase 1 is the instruction cycle

(the writing of an instruction byte into the device), coinciding with

the first eight SCLK rising edges. The instruction byte provides

the serial port controller with information regarding the data

transfer cycle, which is Phase 2 of the communication cycle. The

Phase 1 instruction byte defines whether the upcoming data

transfer is a read or write, the number of bytes in the data transfer,

and the starting register address for the first byte of the data

transfer. The first eight SCLK rising edges of each communication

cycle are used to write the instruction byte into the device.

Figure 52. 3-Wire Interface Port

SCLK

SDIO

SDO

CSB

PORT

SPI

Rev. B | Page 26 of 56

A logic high on the CSB pin followed by a logic low resets the

3-wire interface port timing to the initial state of the instruction

cycle. From this state, the next eight rising SCLK edges represent

the instruction bits of the current I/O operation, regardless of

the state of the internal registers or the other signal levels at the

inputs to the 3-wire interface port. If the 3-wire interface port is

in an instruction cycle or a data transfer cycle, none of the present

data is written.

The remaining SCLK edges are for Phase 2 of the communica-

tion cycle. Phase 2 is the actual data transfer between the device

and the system controller. Phase 2 of the communication cycle

is a transfer of one, two, three, or four data bytes, as determined

by the instruction byte. Using one multibyte transfer is preferred.

Single-byte data transfers are useful in reducing CPU overhead

when register access requires only one byte. Registers change

immediately upon writing to the last bit of each transfer byte.

INSTRUCTION BYTE

See Table 11 for information contained in the instruction byte.

Table 11. 3-Wire Interface Instruction Byte

MSB

R/W

R/ W , Bit 7 of the instruction byte, determines whether a read

or a write data transfer occurs after the instruction byte write.

Logic 1 indicates a read operation. Logic 0 indicates a write

operation.

N1 and N0, Bit 6 and Bit 5 of the instruction byte, determine

the number of bytes to be transferred during the data transfer

cycle. The translation for the number of bytes to be transferred

is listed in Table 12.

A4, A3, A2, A1, and A0—Bit 4, Bit 3, Bit 2, Bit 1, and Bit 0,

respectively, of the instruction byte—determine the register that

is accessed during the data transfer portion of the communication

cycle. For multibyte transfers, this address is the starting byte

address. The remaining register addresses are generated by the

device, based on the LSB-first bit (Register 0x00, Bit 6).

Table 12. Byte Transfer Count

Description

Transfer one byte

Transfer two bytes

Transfer three bytes

Transfer four bytes

LSB

AD9776A Analog Devices, AD9776A Datasheet - Page 26

AD9776A

Specifications of AD9776A

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