MAX1032_11 Datasheet, PDF(19/32 Page) Maxim Integrated Products – 8- and 4-Channel, ±3 x VREF Multirange Inputs, Serial 14-Bit ADCs

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MAX1032_11 Datasheet, PDF (19/32 Pages) Maxim Integrated Products – 8- and 4-Channel, ±3 x VREF Multirange Inputs, Serial 14-Bit ADCs

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8- and 4-Channel, Â±3 x VREF

Multirange Inputs, Serial 14-Bit ADCs

+3 x VREF

+6 x VREF

+3 x VREF

-3 x VREF

+3 x VREF

-3 x VREF

INPUT RANGE SELECTION BITS, R[2:0]

EACH INPUT IS FAULT TOLERANT TO Â±16.5V.

VREF = 4.096V.

Figure 7. Single-Ended Input Voltage Ranges

-6 x VREF

INPUT RANGE SELECTION BITS, R[2:0]

EACH INPUT IS FAULT TOLERANT TO Â±16.5V.

VREF = 4.096V.

Figure 8. Differential Input Voltage Ranges

Digital Interface

The MAX1032/MAX1033 feature a serial interface that is

compatible with SPI/QSPI and MICROWIRE devices.

DIN, DOUT, SCLK, CS, and SSTRB facilitate bidirec-

tional communication between the MAX1032/MAX1033

and the master at SCLK rates up to 10MHz (internal

clock mode, mode 2), 3.67MHz (external clock mode,

mode 0), or 4.39MHz (external acquisition mode, mode

1). The master, typically a microcontroller, should use

the CPOL = 0, CPHA = 0, SPI transfer format, as shown

in the timing diagrams of Figures 2, 3, and 4.

The digital interface is used to:

â¢ Select single-ended or true-differential input channel

configurations

â¢ Select the unipolar or bipolar input range

â¢ Select the mode of operation:

External clock (mode 0)

External acquisition (mode 1)

Internal clock (mode 2)

Reset (mode 4)

Partial power-down (mode 6)

Full power-down (mode 7)

â¢ Initiate conversions and read results

Data Input (DIN)

DIN configures the conversion start byte, analog input

configuration byte and mode-control byte. See Figures

2â4 and Tables 3â8. In each conversion mode, the DIN

bits must be driven low after the first byte.

Chip Select (CS)

CS enables communication with the MAX1032/MAX1033.

When CS is low, data is clocked into the device from DIN

on the rising edge of SCLK and data is clocked out of

DOUT on the falling edge of SCLK. When CS is high,

activity on SCLK and DIN is ignored and DOUT is high

impedance allowing DOUT to be shared with other

peripherals. SSTRB is never high impedance and there-

fore cannot be shared with other peripherals.

Serial-Strobe Output (SSTRB)

As shown in Figures 3 and 4, the SSTRB transitions high

to indicate that the ADC has completed a conversion

and results are ready to be read by the master. SSTRB

remains low in the external clock mode (Figure 2) and

consequently may be left unconnected. SSTRB is dri-

ven high or low regardless of the state of CS, therefore

SSTRB cannot be shared with other peripherals.

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