ltc1654cgn-trpbf Linear Technology Corporation, ltc1654cgn-trpbf Datasheet - Page 8

ltc1654cgn-trpbf

Manufacturer Part Number

ltc1654cgn-trpbf

Description

Ltc1654 - Dual 14-bit Rail-to-rail Dac In 16-lead Ssop Package

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC1654CGN-TRPBF.pdf (16 pages)

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OPERATIO

LTC1654

Serial Interface

The data on the SDI input is loaded into the shift register

on the rising edge of SCK. The MSB is loaded first. The

Clock is disabled internally when CS/LD is high. Note: SCK

must be low before CS/LD is pulled low to avoid an extra

internal clock pulse.

If no daisy-chaining is required, the input word can be

24-bit wide, as shown in the timing diagrams. The 8 MSBs,

which are loaded first, are the control and address bits

followed by a 16-bit data word. The last two LSBs in the

data word are don’t cares. The input word can be a stream

of three 8-bit wide segments as shown in the “24-Bit

Update” timing diagram.

If daisy-chaining is required or if the input needs to be

written in two 16-bit wide segments, then the input word

can be 32 bits wide and the top 8 bits (MSBs) are don’t

cares. The remaining 24 bits are control/address and data.

This is also shown in the timing diagrams. The buffered

output of the internal 32-bit shift register is available on

the SDO pin, which swings from GND to V

Multiple LTC1654s may be daisy-chained together by

connecting the SDO pin to the SDI pin of the next IC. The

SCK and CS/LD signals remain common to all ICs in the

daisy-chain. The serial data is clocked to all of the chips,

then the CS/LD signal is pulled high to update all DACs

simultaneously.

Table 1 shows the truth table for the control/address bits.

When the supplies are first applied, the LTC1654 uses

SLOW mode, the outputs are set at 0V, and zeros are

loaded into the 32-bit input shift register. About 300ns

after power-up, the outputs are released from 0V (AGND)

and will go to the voltage on the REFLO pin.

When CLR goes active, zeros are loaded into the input and

DAC latch and the outputs are forced to AGND. After CLR

is forced high, the ouputs will go to the voltage on the

REFLO pin.

Three examples are given to illustrate the DAC’s opera-

tion:

1. Load and update DAC A in FAST mode. Leave DAC B

2. Load and update DAC A in SLOW mode. Power down

3. Power down both DACs at the same time. Perform the

unchanged. Perform the following sequence for the

control, address and DATA bits:

Step 1: Set DAC A in FAST mode

CS/LD

Step 2: Load and update DAC A with DATA

CS/LD

DAC B. Perform the following sequence for the con-

trol, address and DATA bits:

Step 1: Set DAC A in SLOW mode

CS/LD

XXXXXXXX;

CS/LD

Step 2: Load and update DAC A with DATA

CS/LD

Step 3: Power down DAC B

CS/LD

XXXXXXXX;

CS/LD

following sequence for the control, address and DATA

bits:

Step 1: Power down both DACs simultaneously

CS/LD

XXXXXXXX;

CS/LD

clock in 0101 0000 XXXXXXXX XXXXXXXX;

clock in 0110 0000 XXXXXXXX

clock in 0100 0001 XXXXXXXX

clock in 0100 1111 XXXXXXXX

clock in 0011 0000 + DATA; CS/LD

1654fb

ltc1654cgn-trpbf Linear Technology Corporation, ltc1654cgn-trpbf Datasheet - Page 8

ltc1654cgn-trpbf

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