MAX1391 Datasheet, PDF(11/18 Page) Maxim Integrated Products – 1.5V to 3.6V, 416ksps, 1-Channel True-Differential/2-Channel Single-Ended, 8-Bit, SAR ADCs

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MAX1391 Datasheet, PDF (11/18 Pages) Maxim Integrated Products – 1.5V to 3.6V, 416ksps, 1-Channel True-Differential/2-Channel Single-Ended, 8-Bit, SAR ADCs

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1.5V to 3.6V, 416ksps, 1-Channel True-Differential/

2-Channel Single-Ended, 8-Bit, SAR ADCs

AutoShutdown Mode

The ADC automatically powers down on the SCLK

falling edge that clocks out the LSB. This is the falling

edge after the 11th SCLK. DOUT goes low when the

LSB has been clocked into the master (ÂµC) on the 16th

rising SCLK edge.

Alternatively, drive OE high to force the MAX1391/

MAX1394 into power-down. Whenever OE goes high,

the ADC powers down and disables DOUT regardless

of CS, SCLK, or the state of the ADC. DOUT enters a

high-impedance state after tDOD.

External Reference

The MAX1391/MAX1394 use an external reference

between 0.6V and (VDD + 50mV). Bypass REF with a

I/O

SCK

MISO

I/O

a) SPI

SCLK MAX1391

MAX1394

DOUT

UNI/BIP

(CH1/CH2)*

SCK

SCLK MAX1391

MAX1394

MISO

I/O

DOUT

UNI/BIP

(CH1/CH2)*

b) QSPI

I/O

SCLK MAX1391

MAX1394

DOUT

I/O

UNI/BIP

(CH1/CH2)*

c) MICROWIRE

*INDICATES THE MAX1394

Figure 7. Common Serial-Interface Connections to the

MAX1391/MAX1394

0.1ÂµF capacitor to GND for best performance (see the

Typical Operating Circuit).

Serial Interface

The MAX1391/MAX1394 serial interface is fully compati-

ble with SPI, QSPI, and MICROWIRE (see Figure 7). If a

serial interface is available, set the ÂµCâs serial interface

in master mode so the ÂµC generates the serial clock.

Choose a clock frequency between 100kHz and 5MHz.

CS and OE can be connected together and driven

simultaneously. OE can also be connected to GND if the

DOUT bus is not shared and driven independently.

SPI and MICROWIRE

When using SPI or MICROWIRE, make the ÂµC the bus

master and set CPOL = 0 and CPHA = 0 or CPOL = 1

and CPHA = 1. (These are the bits in the SPI or

MICROWIRE control register.) Two consecutive 1-byte

reads are required to get the entire 8-bit result from the

ADC. The MAX1391/MAX1394 shut down after clocking

out the LSB. DOUT then becomes high impedance.

DOUT transitions on SCLKâs falling edge and is

clocked into the ÂµC on the SCLKâs rising edge. See

Figure 7 for connections and Figures 8 and 9 for timing

diagrams. The conversion result contains 4 zeros, fol-

lowed by the 8 data bits with the data in MSB-first for-

mat. When using CPOL = 0 and CPHA = 0 or CPOL = 1

and CPHA = 1, the MSB of the data is clocked into the

ÂµC on the SCLKâs fifth rising edge. To be compatible

with SPI and MICROWIRE, connect CS and OE togeth-

er and drive simultaneously.

QSPI

Unlike SPI, which requires two 1-byte reads to acquire

the 8 bits of data from the ADC, QSPI allows the mini-

mum number of clock cycles necessary to clock in the

data. The MAX1391/MAX1394 require a minimum of 12

clock cycles from the ÂµC to clock out the 8 bits of data.

See Figure 7 for connections and Figures 8 and 9 for

timing diagrams. The conversion result contains 4

zeros, followed by the 8 data bits with the data in MSB-

first format. The MAX1391/MAX1394 shut down after

clocking out the LSB. DOUT then becomes high imped-

ance. When using CPOL = 0 and CPHA = 0 or CPOL =

1 and CPHA = 1, the MSB of the data is clocked into

the ÂµC on the SCLKâs fifth rising edge. To be compati-

ble with QSPI, connect CS and OE together and drive

simultaneously.

DSP Interface

Figure 10 shows the timing for DSP operation. Figure

11 shows the connections between the MAX1391/

MAX1394 and several common DSPs.

______________________________________________________________________________________ 11

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