Applications information – Rainbow Electronics MAX5811 User Manual

MAX5811

10-Bit Low Power 2-Wire Interface Serial,

Voltage-Output DAC

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11

data flow reverses following the address acknowledge
by the MAX5811. The device transmits the first byte of
data, waits for the master to acknowledge, then trans-
mits the second byte. Figure 7 shows an example read
data sequence.

I

2

C Compatibility

The MAX5811 is compatible with existing I

2

C systems.

SCL and SDA are high-impedance inputs; SDA has an
open drain that pulls the data line low during the ninth
clock pulse. The Typical Operating Circuit shows a typ-
ical I

2

C application. The communication protocol sup-

ports the standard I

2

C 8-bit communications. The

general call address is ignored. The MAX5811 address
is compatible with the 7-bit I

2

C addressing protocol

only. No 10-bit address formats are supported.

Digital Feedthrough Suppression

When the MAX5811 detects an address mismatch, the
serial interface disconnects the SCL signal from the
core circuitry. This minimizes digital feedthrough
caused by the SCL signal on a static output. The serial
interface reconnects the SCL signal once a valid
START condition is detected.

Applications Information

Powering the Device from an

External Reference

The MAX5811 uses the V

DD

as the DAC voltage refer-

ence. Any power-supply noise is directly coupled to the
device output. The circuit in Figure 8 uses a precision
voltage reference to power the MAX5811, isolating the
device from any power-supply noise. Powering the
MAX5811 in such a manner greatly improves overall
performance, especially in noisy systems. The
MAX6030 (3V, 75ppm/°C) or the MAX6050 (5V,
75ppm/°C) precision voltage references are ideal
choices due to the low power requirements of the
MAX5811.

Digital Inputs and Interface Logic

The MAX5811 2-wire digital interface is I

2

C and SMBus

compatible. The two digital inputs (SCL and SDA) load
the digital input serially into the DAC. Schmitt-trigger
buffered inputs allow slow-transition interfaces such as

S

A6

A5

A4

A3

A2

A1

A0

C3

C2

X

X

X

X

X

X

Sr

A6

A5

A4

A3

A2

A1

A0

MSB

LSB

MSB

LSB

LSB

MSB

ACK

ACK

ACK

D5

D4

D3

D2

D1

D0

X

X

MSB

LSB

ACK

ACK

P

R/W

= 1

X

X

PD1

PD0

D9

D8

D7

D6

MSB

LSB

DATA BYTES GENERATED BY MASTER DEVICE

DATA BYTES GENERATED BY MAX5811

ACK GENERATED BY

MASTER DEVICE

R/W

= 0

Figure 7. Read Word Data Sequence

V

DD

IN

GND

GND

OUT

OUT

MAX5811

MAX6030/

MAX6050

Figure 8. Powering the MAX5811 from an External Reference