MAX1220 Datasheet, PDF(33/47 Page) Maxim Integrated Products – 12-Bit, Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports

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MAX1220 Datasheet, PDF (33/47 Pages) Maxim Integrated Products – 12-Bit, Multichannel ADCs/DACs with FIFO, Temperature Sensing, and GPIO Ports

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12-Bit, Multichannel ADCs/DACs with FIFO,

Temperature Sensing, and GPIO Ports

Table 21. DAC Power-Up and Power-Down Commands

CONTROL

BITS

C3 C2 C1 C0

DATA BITS

DESCRIPTION

D3 D2 D1 D0

FUNCTION

1 1 1 1 ââââââââ 0 0 1 X

Power-Up

Power up individual DAC buffers indicated by data

in DAC0 through DAC7. A one indicates the DAC

output is connected and active. A zero does not

affect the DACâs present state.

Power down individual DAC buffers indicated by

1 1 1 1 â â â â â â â â 0 1 0 X Power-Down 1 data in DAC0 through DAC7. A one indicates the

DAC output is disconnected and high impedance.

A zero does not affect the DACâs present state.

Power down individual DAC buffers indicated by

data in DAC0 through DAC7. A one indicates the

1 1 1 1 â â â â â â â â 1 0 0 X Power-Down 2 DAC output is disconnected and pulled to AGND

with a 1kâ¦ resistor. A zero does not affect the DACâs

present state.

Power down individual DAC buffers indicated by

data in DAC0 through DAC7. A one indicates the

1 1 1 1 â â â â â â â â 0 0 0 X Power-Down 3 DAC output is disconnected and pulled to AGND

with a 100kâ¦ resistor. A zero does not affect the

DACâs present state.

Power down individual DAC buffers indicated by

data in DAC0 through DAC7. A one indicates the

1 1 1 1 â â â â â â â â 1 1 1 X Power-Down 4 DAC output is disconnected and pulled to REF1 with

a 100kâ¦ resistor. A zero does not affect the DACâs

present state.

Output-Data Format

Figures 6â9 illustrate the conversion timing for the

MAX1220/MAX1257/MAX1258. All 12-bit conversion

results are output in 2-byte format, MSB first, with four

leading zeros. Data appears on DOUT on the falling

edges of SCLK. Data is binary for unipolar mode and

twoâs complement for bipolar mode and temperature

results. See Figures 3, 4, and 5 for input/output and

temperature-transfer functions.

ADC Transfer Functions

Figure 3 shows the unipolar transfer function for single-

ended or differential inputs. Figure 4 shows the bipolar

transfer function for differential inputs. Code transitions

occur halfway between successive-integer LSB values.

Output coding is binary, with 1 LSB = VREF1 / 4096

(MAX1257) and 1 LSB = VREF1 / 4096

(MAX1220/MAX1258) for unipolar and bipolar opera-

tion, and 1 LSB = +0.125Â°C for temperature measure-

ments. Bipolar true-differential results and

temperature-sensor results are available in twoâs com-

plement format, while all others are in binary. See

Tables 6, 7, and 8 for details on which setting (unipolar

or bipolar) takes precedence.

In unipolar mode, AIN+ can exceed AIN- by up to

VREF1. In bipolar mode, either input can exceed the

other by up to VREF1 / 2.

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