max5230beeet Maxim Integrated Products, Inc., max5230beeet Datasheet - Page 13

max5230beeet

Manufacturer Part Number

max5230beeet

Description

3v/5v, 12-bit, Serial Voltage-output Dual Dacs With Internal Reference

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX5230BEEET.pdf (18 pages)

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Table 3. P1 Shutdown Modes

As described in Tables 2 and 3, several serial interface

commands put one or both of the DACs into shutdown

mode. Shutdown modes are completely independent

for each DAC. In shutdown, the amplifier output be-

comes high impedance, and OUT_ terminates to OS_

through the 200kΩ (typ) gain resistors. Optionally (see

Tables 2 and 3), OUT_ can have an additional termina-

tion of 1kΩ to AGND.

Full power-down mode shuts down the main bias gene-

rator, reference, and both DACs. The shutdown impe-

dance of the DAC outputs can still be controlled

independently, as described in Tables 2 and 3.

A serial interface command exits shutdown mode and

updates a DAC register. Each DAC can exit shutdown

at the same time or independently (see Tables 2 and

3). For example, if both DACs are shut down, updating

the DAC A register causes DAC A to power up, while

DAC B remains shut down. In full power-down mode,

powering up either DAC also powers up the main bias

generator and reference. To change from full power-

down to both DACs shutdown requires the waking of at

least one DAC between states.

When powering up the MAX5230/MAX5231 (powering

exiting full power-down mode, also allow 400µs (max) for

the output to stabilize. When exiting DAC shutdown

mode, allow 160µs (max) for the output to stabilize.

Driving CLR low asynchronously forces both DAC out-

puts and all the internal registers (input registers and

DAC registers) for both DACs to either zero or midscale,

depending on the level at RSTV. RSTV = DGND sets the

zero value, and RSTV, = V

The internal power-on reset circuit sets the DAC out-

puts and internal registers to either zero or midscale

when power is first applied to the device, depending on

the level at RSTV as described in the preceding para-

graph. The DAC outputs are enabled after power is first

applied. In order to obtain the midscale value on

power-up (RSTV = V

simultaneously with the V

P1 (A/B)

3V/5V, 12-Bit, Serial Voltage-Output Dual DACs

), allow 400µs (max) for the output to stabilize. When

Power-Down and Shutdown Modes

Shut down with internal 1kΩ load to GND

Shut down with internal 200kΩ load to GND

______________________________________________________________________________________

), the voltage on RSTV must rise

Reset Value (RSTV) and

SHUTDOWN MODE

supply.

sets the midscale value.

Clear ( CLR ) Inputs

with Internal Reference

Asserting LDAC asynchronously loads the DAC registers

from their corresponding input registers (DACs that are

shut down remain shut down). The LDAC input is totally

asynchronous and does not require any activity on CS,

SCLK, or DIN in order to take effect. If LDAC is asserted

coincident with a rising edge of CS, which executes a

serial command modifying the value of either DAC input

30ns following the CS rising edge. This requirement

applies only for serial commands that modify the value of

the DAC input registers.

Driving PDL low disables shutdown of either DAC. When

PDL is low, serial commands to shut down either DAC are

ignored. When either DAC is in shutdown mode, a high-

to-low transition on PDL brings the DACs and the refer-

ence out of shutdown with DAC outputs set to the state

prior to shutdown.

Figure 4. SPI/QSPI Interface Connections

Figure 5. Connections for MICROWIRE

MAX5230

MAX5231

MAX5230

MAX5231

Power-Down Lockout Input ( PDL )

SCLK

DIN

SCLK

DIN

Load DAC Input ( LDAC )

SCK

MOSI

I/O

SPI/QSPI

MICROWIRE

PORT

max5230beeet Maxim Integrated Products, Inc., max5230beeet Datasheet - Page 13

max5230beeet

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