LTC2654 Linear Technology, LTC2654 Datasheet - Page 17

LTC2654

Manufacturer Part Number

LTC2654

Description

Quad 16-/12-Bit Rail-to-Rail DACs

Manufacturer

Linear Technology

Datasheet

1.LTC2654.pdf (24 pages)

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OPERATION

Serial Interface

The CS/LD input is level triggered. When this input is taken

low, it acts as a chip-select signal, powering on the SDI

and SCK buffers and enabling the input shift register. Data

(SDI input) is transferred at the next 24 rising SCK edges.

The 4-bit command, C3-C0, is loaded ﬁ rst; followed by

the 4-bit DAC address, A3-A0; and ﬁ nally the 16-bit data

word. For the LTC2654-16 the data word comprises the

16-bit input code, ordered MSB-to-LSB. For the LTC2654-

12 the data word comprises the 12-bit input code, ordered

MSB-to-LSB followed by four don’t-care bits. Data can

only be transferred to the LTC2654 when the CS/LD signal

is low. The rising edge of CS/LD ends the data transfer

and causes the device to carry out the action speciﬁ ed in

the 24-bit input word. The complete sequence is shown

in Figure 2a.

The command (C3-C0) and address (A3-A0) assignments

are shown in Table 1. The ﬁ rst four commands in the table

consist of write and update operations. A write operation

loads a 16-bit data word from the 32-bit shift register

into the input register of the selected DAC, n . An update

operation copies the data word from the input register to

the DAC register. Once copied into the DAC register, the

data word becomes the active 16- or 12-bit input code,

and is converted to an analog voltage at the DAC output.

The update operation also powers up the selected DAC

if it had been in power-down mode. The data path and

registers are shown in the block diagram.

While the minimum input word is 24 bits, it may option-

ally be extended to 32 bits. To use the 32-bit word width,

8 don’t-care bits are transferred to the device ﬁ rst, followed

by the 24-bit word as just described. Figure 2b shows the

32-bit sequence. The 32-bit word is required for daisy

chain operation, and is also available to accommodate

microprocessors that have a minimum word width of

16 bits (2 bytes). The 16-bit data word is ignored for all

commands that do not include a write operation.

Daisy-Chain Operation

The serial output of the shift register appears at the SDO

pin. Data transferred to the device from the SDI input is

delayed 32 SCK rising edges before being output at the

next SCK falling edge. The SDO pin is continuously driven

and does not go high impedance when CS/LD is taken

active high.

The SDO output can be used to facilitate control of multiple

serial devices from a single 3-wire serial port (i.e., SCK,

SDI and CS/LD). Such a daisy-chain series is conﬁ gured

by connecting SDO of each up-stream device to SDI of the

next device in the chain. The shift registers of the devices

are thus connected in series, effectively forming a single

input shift register which extends through the entire chain.

Because of this, the devices can be addressed and con-

trolled individually by simply concatenating their input

words; the ﬁ rst instruction addresses the last device in

the chain and so forth. The SCK and CS/LD signals are

common to all devices in the series.

In use, CS/LD is ﬁ rst taken low. Then the concatenated

input data is transferred to the chain, using SDI of the

ﬁ rst device as the data input. When the data transfer is

complete, CS/LD is taken high, completing the instruction

sequence for all devices simultaneously. A single device

can be controlled by using the no-operation command

(1111b) for the other devices in the chain.

Power-Down Mode

For power-constrained applications, power-down mode

can be used to reduce the supply current whenever less

than four DAC outputs are needed. When in power-down,

the buffer ampliﬁ ers, bias circuits and integrated reference

circuits are disabled, and draw essentially zero current.

The DAC outputs are put into a high-impedance state, and

the output pins are passively pulled to ground through

individual 80k resistors. Input- and DAC-register contents

are not disturbed during power-down.

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LTC2654 Linear Technology, LTC2654 Datasheet - Page 17

LTC2654

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