MAX1167_09 Datasheet, PDF(23/30 Page) Maxim Integrated Products – Multichannel, 16-Bit, 200ksps Analog-to-Digital Converters

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MAX1167_09 Datasheet, PDF (23/30 Pages) Maxim Integrated Products – Multichannel, 16-Bit, 200ksps Analog-to-Digital Converters

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Multichannel, 16-Bit, 200ksps Analog-to-Digital

Converters

I/O

SCK

MISO

SPI

VDD

Figure 20a. SPI Connections

SCLK

DOUT

MAX1167

MAX1168

I/O

MICROWIRE

SCLK

DOUT

MAX1167

MAX1168

Figure 20b. MICROWIRE Connections

SCLK

1ST BYTE READ

DOUT*

*WHEN CS IS HIGH, DOUT = HIGH-Z

3RD BYTE READ

2ND BYTE READ

D15 D14 D13 D12 D11 D10 D9

MSB

D8 D7

D7 D6 D5 D4 D3 D2 D1 D0

LSB

HIGH-Z

Figure 20c. SPI/MICROWIRE Interface Timing Sequence (CPOL = CPHA = 0)

The input data latches on the falling edge of SCLK. The

command/configuration/control register starts reading

data in on the falling edge of the first SCLK cycle immedi-

ately following the falling edge of the frame sync pulse

and ends on the falling edge of the 16th SCLK cycle. The

MAX1168 selects the proper channel for conversion on

the falling edge of the 3rd clock cycle and begins acqui-

sition. Acquisition continues until the rising edge of the

15th clock cycle. The MAX1168 samples the input on the

rising edge of the 15th clock cycle. On the rising edge of

the 16th clock cycle, the MAX1168 outputs a frame sync

pulse at DSPX. The frame sync pulse alerts the DSP that

the conversion results are about to be output at DOUT

(MSB first) starting on the rising edge of the 17th clock

pulse. To read the entire conversion result, 16 SCLK

cycles are needed. Extra clock pulses, occurring after the

conversion result has been clocked out and prior to the

next rising edge of DSPR, cause zeros to be clocked out

of DOUT. The MAX1168 external clock, DSP 16-bit-wide

data-transfer mode requires 32 clock cycles to complete.

Begin a new conversion by sending a new frame sync

pulse to DSPR followed by new configuration data.

Send the new DSPR pulse immediately after reading

the conversion result to realize maximum throughput.

Sending a new frame sync pulse in the middle of a con-

version immediately aborts the current conversion and

begins a new one. A rising edge on CS in the middle of

a conversion aborts the current conversion and places

the MAX1168 in shutdown.

Output Coding and Transfer Function

The data output from the MAX1167/MAX1168 is straight

binary. Figure 19 shows the nominal transfer function.

Code transitions occur halfway between successive

integer LSB values (VREF = +4.096V, and 1 LSB =

+62.5ÂµV or 4.096V / 65,536V).

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