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LTC1427-50

Micropower, 10-Bit Current Output DAC with SMBus Serial Interface

Linear Technology 

LTC1427-50

APPLICATIONS INFORMATION

mand code and data byte are defined with the following

format:

Command Byte

Data Byte

7 6 54 3 2 1 0 7 6 5 4 3 2 1 0

SHDN X X X X X D9 D8 D7 D6 D5 D4 D3 D2 D1 D0

SHDN: 0 for Normal Operation, 1 for Shutdown

D9 to D0: DAC Data Bits, D9 is the Most Significant Bit

START and STOP Conditions

At the beginning of any SMBus communication, the mas-

ter must transmit a START condition by switching the SDA

from high to low while SCL is high. When a master has

finished communicating with a slave device, a STOP

condition is issued by switching the SDA from low to

high while SCL is high. The SMBus is then free for

communication with another SMBus slave device.

Early STOP Conditions

The LTC1427-50 recognizes a STOP condition at any point

in the SMBus communication sequence. If the STOP

occurs prematurely before the data byte is acknowledged

in the Write Byte protocol, the DAC output current value is

not updated; otherwise internal register C is updated with

the new data and the DAC output current changes

correspondingly.

The Slave Address

The LTC1427-50 can respond to one of four 7-bit

addresses. The first five bits have been factory pro-

grammed to 01011. The two address bits, AD1 and AD0,

are programmed by the user (see Function Table).

10-Bit Current Output DAC

The 10-Bit current output DAC is guaranteed monotonic

and is digitally adjustable in 1023 equal steps. On power-

up, if AD1 and AD0 are both connected to VCC, the 10-bit

internal register C (see Block Diagram) resets to

1000000000B and the DAC output is set to midrange. If

either AD1 or AD0 is connected to ground, register C

resets to 0000000000B on power-up and the DAC output

is set to zero. For the LTC1427-50, the source current

output (IOUT) can be biased from – 15V to (VCC – 1.3V).

Full-scale current is trimmed to ±1.5% at room tempera-

ture and ±2.5% over the commercial temperature range.

Shutdown

There are two ways to shut down the LTC1427-50 (see

Block Diagram). The LTC1427-50 will enter shutdown

mode whenever it sees a logic low at the SHDN pin or

whenever it receives a logic high at bit 7 of the command

byte through the SMBus interface. In shutdown mode, the

digital data is retained internally and the supply current

drops to only 10µA typically.

TYPICAL APPLICATIONS

LTC1427-50 Used to Null Op Amp’s Offset Voltage

RF

RIN

VIN

–

LT1006

+

VOUT

R2

R1

100Ω

600k

V–

R1 =

V– 

(0.5)(IFULL SCALE)

TRIM RANGE = ±(0.5)(IFULL SCALE)(R2)

VCC

SHDN

1

SHDN

2

AD1

3

AD0

4

GND

8

VCC

7

IOUT

6

SCL

5

SDA

LTC1427-50

TO

SMBUS

HOST

1427 TA03

Information furnished by Linear Technology Corporation is believed to be accurate and reliable.

However, no responsibility is assumed for its use. Linear Technology Corporation makes no represen-

tation that the interconnection of its circuits as described herein will not infringe on existing patent rights.

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