MAX111ACPE+ Maxim Integrated, MAX111ACPE+ Datasheet - Page 9

MAX111ACPE+

Manufacturer Part Number

MAX111ACPE+

Description

Analog to Digital Converters - ADC

Manufacturer

Maxim Integrated

Datasheet

1.MAX111AEAP-T.pdf (24 pages)

Specifications of MAX111ACPE+

Number Of Channels

Architecture

Sigma-Delta

Conversion Rate

0.05 KSPs

Resolution

14 bit

Input Type

Single-Ended/Differential

Snr

Interface Type

Microwire, QSPI, Serial, SPI

Operating Supply Voltage

5 V

Maximum Operating Temperature

+ 70 C

Mounting Style

Through Hole

Package / Case

PDIP-16

Maximum Power Dissipation

842 mW

Minimum Operating Temperature

0 C

Number Of Converters

Voltage Reference

External

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The MAX110/MAX111 ADC converts low-frequency

analog signals to a 16-bit serial digital output (14 data

bits, a sign bit, and an overrange bit) using a first-order

sigma-delta loop (Figure 1). The differential input volt-

age is internally connected to a precision voltage-to-

current converter. The resulting current is integrated

and applied to a comparator. The comparator output

then drives an up/down counter and a 1-bit DAC. When

the DAC output is fed back to the integrator input, the

sigma-delta loop is completed.

During a conversion, the comparator output is a V

to V

the magnitude of the differential input voltage applied

_______________Detailed Description

______________________________________________________________Pin Description

DIP/SO

REF+

—

square wave; its duty cycle is proportional to

4, 5, 14, 15

SSOP

Low-Cost, 2-Channel, ±14-Bit Serial ADCs

_______________________________________________________________________________________

RCSEL

NAME

AGND

DOUT

XCLK

SCLK

BUSY

REF+

IN1+

REF-

GND

IN2+

N.C.

IN2-

IN1-

DIN

Channel 1 Positive Analog Input

Negative Reference Input

Positive Reference Input

Positive Power-Supply Input—connect to +5V

RC Select Input. Connect to GND to select external clock mode. Connect to V

select RC OSC mode. XCLK must be connected to V

(1MΩ or less) when RC OSC mode is selected.

Clock Input / RC Oscillator Output. TTL/CMOS-compatible oversampling clock input

when RCSEL = GND. Connects to the internal RC oscillator when RCSEL = V

must be connected to V

mode is selected.

Serial Clock Input. TTL/CMOS-compatible clock input for serial-interface data I/O.

Busy Output. Goes low at conversion start, and returns high at end of conversion.

Chip-Select Input. Pull this input low to perform a control-word-write/data-read opera-

tion. A conversion begins when CS returns high, provided NO-OP is a 1. See the sec-

tion Using the MAX110/MAX111 with SPI, QSPI, and MICROWIRE Serial Interfaces.

Serial Data Output. High-impedance when CS is high.

Serial Data Input. See Control Register section.

Digital Ground

MAX110 Negative Power-Supply Input—connect to -5V

MAX111 Analog Ground

Channel 2 Negative Analog Input

Channel 2 Positive Analog Input

Channel 1 Negative Analog Input

No Connect—there is no internal connection to this pin

REF-

to the ADC. The up/down counter clocks data in from

the comparator at the oversampling clock rate and

averages the pulse-width-modulated (PWM) square

wave to produce the conversion result. A 16-bit static

shift register stores the result at the end of the conver-

sion. Figure 2 shows the ADC waveforms for a differen-

tial analog input equal to 1/2 (V

resulting comparator and 1-bit DAC outputs are high

for seven cycles and low for three cycles of the over-

sampling clock.

Since the analog input signal is integrated over many

clock cycles, much of the signal and quantization noise

is attenuated. The more clock cycles allowed during

each conversion, the greater the noise attenuation (see

Programming Conversion Time ).

or GND through a resistor (1MΩ or less) when RC OSC

FUNCTION

or GND through a resistor

REF+

- V

REF-

. XCLK

). The

MAX111ACPE+ Maxim Integrated, MAX111ACPE+ Datasheet - Page 9

MAX111ACPE+

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