ltc1669-1cs5 Linear Technology Corporation, ltc1669-1cs5 Datasheet - Page 11

ltc1669-1cs5

Manufacturer Part Number

ltc1669-1cs5

Description

10-bit Rail-to-rail Micropower Dac With I?c Interface

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC1669-1CS5.pdf (16 pages)

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APPLICATIONS INFORMATION

SYNC Address/Quick Command

In addition to the slave address, the LTC1669 has an address

that can be shared by other devices so that they may be

updated synchronously. The address is called to the SYNC

address and uses the quick command protocol.

The SYNC Address is 1111 110

The SY/CLR bit set high only has meaning when the “SY”

bit of the command byte was previously set HIGH. On

the otherhand, the SY/CLR bit set LOW will always clear

the part, independent of the state of the “SY” bit in the

command byte.

Voltage Output

The output ampliﬁ er contained in the LTC1669 can source

or sink up to 5mA. The output stage swings to within a

few millivolts of either supply rail when unloaded and

has an equivalent output resistance of 85Ω when driving

a load to the rails. The output ampliﬁ er is stable driving

capacitive loads up to 1000pF .

A small resistor placed in series with the output can be

used to achieve stability for any load capacitance greater

than 1000pF . For example, a 0.1μF load can be driven

by the LTC1669 if a 110Ω series resistance is used. The

phase margin of the resulting circuit is 45° and increases

monotonically from this point if larger values of resistance,

capacitance or both are substituted for the values given.

SY/CLR

Start

Update output latches on rising edge of SCL during

Acknowledge of SYNC Address

Clear all internal latches on rising edge of SCL during

Acknowledge of SYNC Address

SYNC Address

1111 110

SY/CLR

Ack

Stop

1669 TA05

Rail-to-Rail Output Considerations

As in any rail-to-rail device, the output is limited to volt-

ages within the supply range.

If the DAC offset is negative, the output for the lowest

codes limits at 0V as shown in Figure 1b.

Similarly, limiting can occur near full scale when V

used as the reference. If V

error (FSE) is positive, the output for the highest codes

limits at V

can occur if the internal reference is used.

Offset and linearity are deﬁ ned and tested over the region

of the DAC transfer function where no output limiting can

occur.

Internal Reference

In applications where a predictable output is required

that is independent of supply voltage, the LTC1669 has a

user-selectable internal reference. Selecting the internal

reference will set the full-scale output voltage to 2.5V. This

can be useful in applications where the supply voltage is

poorly regulated.

Using the LT

Power Supply for the LTC1669

In applications where the advantages of using the internal

reference are required but the full-scale range needs to

be greater than 2.5V, an external series reference can be

used. The LT1460 is ideal for use as a power supply for

the LTC1669 and can provide 3V, 3.3V and 5V full-scale

output voltage ranges. The LT1460 provides accuracy, noise

immunity and extended supply range to the LTC1669 when

the LTC1669 is operated ratiometric to V

parts are available in SOT-23 packages, the PC board space

for this application is extremely small. See Figure 2.

as shown in Figure 1c. No full-scale limiting

1460 Micropower Series Reference as a

REF

= V

and the DAC full-scale

LTC1669

. Since both

1669fa

ltc1669-1cs5 Linear Technology Corporation, ltc1669-1cs5 Datasheet - Page 11

ltc1669-1cs5

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