DAC8564 Datasheet, PDF(29/46 Page) Texas Instruments – 16-Bit, Quad Channel, Ultra-Low Glitch, Voltage Output DIGITAL-TO-ANALOG CONVERTER with 2.5V, 2ppm/°C Internal Reference

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DAC8564 Datasheet, PDF (29/46 Pages) Texas Instruments – 16-Bit, Quad Channel, Ultra-Low Glitch, Voltage Output DIGITAL-TO-ANALOG CONVERTER with 2.5V, 2ppm/°C Internal Reference

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DAC8564

www.ti.com

SYNC INTERRUPT

In a normal write sequence, the SYNC line stays low

for at least 24 falling edges of SCLK and the

addressed DAC register updates on the 24th falling

edge. However, if SYNC is brought high before the

24th falling edge, it acts as an interrupt to the write

sequence; the shift register resets and the write

sequence is discarded. Neither an update of the data

buffer contents, DAC register contents, nor a change

in the operating mode occurs (as shown in

Figure 95).

POWER-ON RESET TO ZERO-SCALE

The DAC8564 contains a power-on reset circuit that

controls the output voltage during power-up. On

power-up, the DAC registers are filled with zeros and

the output voltages are set to zero-scale; they remain

that way until a valid write sequence and load

command are made to the respective DAC channel.

The power-on reset is useful in applications where it

is important to know the state of the output of each

DAC while the device is in the process of powering

up. No device pin should be brought high before

power is applied to the device. The internal reference

is powered on by default and remains that way until a

valid reference-change command is executed.

SBAS403A â JUNE 2007 â REVISED NOVEMBER 2007

LDAC FUNCTIONALITY

The DAC8564 offers both a software and hardware

simultaneous update function. The DAC

double-buffered architecture has been designed so

that new data can be entered for each DAC without

disturbing the analog outputs.

DAC8564 data updates are synchronized with the

falling edge of the 24th SCLK cycle, which follows a

falling edge of SYNC. For such synchronous updates,

the LDAC pin is not required and it must be

connected to GND permanently. The LDAC pin is

used as a positive edge triggered timing signal for

asynchronous DAC updates. To do an LDAC

operation, single-channel store(s) should be done

(loading DAC buffers) by setting LD0 and LD1 to '0'.

Multiple single-channel updates can be done in order

to set different channel buffers to desired values and

then make a rising edge on LDAC. Data buffers of all

channels must be loaded with desired data before an

LDAC rising edge. After a low-to-high LDAC

transition, all DACs are simultaneously updated with

the contents of the corresponding data buffers. If the

contents of a data buffer are not changed by the

serial interface, the corresponding DAC output

remains unchanged after the LDAC trigger.

CLK

SYNC

24th Falling Edge

DIN

DB23

DB0

Invalid/Interrupted Write Sequence:

Output/Mode Does Not Update on the 24th Falling Edge

DB23

DB0

Valid Write Sequence:

Output/Mode Updates on the 24th Falling Edge

Figure 95. SYNC Interrupt Facility

Product Folder Link(s): DAC8564

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