MAX1277 Datasheet, PDF(10/18 Page) Maxim Integrated Products – 1.5Msps, Single-Supply, Low-Power, True-Differential, 12-Bit ADCs with Internal Reference

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MAX1277 Datasheet, PDF (10/18 Pages) Maxim Integrated Products – 1.5Msps, Single-Supply, Low-Power, True-Differential, 12-Bit ADCs with Internal Reference

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1.5Msps, Single-Supply, Low-Power, True-

Differential, 12-Bit ADCs with Internal Reference

True-Differential Analog Input T/H

The equivalent circuit of Figure 4 shows the input archi-

tecture of the MAX1277/MAX1279, which is composed

of a T/H, a comparator, and a switched-capacitor digi-

tal-to-analog converter (DAC). The T/H enters its track-

ing mode on the 14th SCLK rising edge of the previous

conversion. Upon power-up, the T/H enters its tracking

mode immediately. The positive input capacitor is con-

nected to AIN+. The negative input capacitor is con-

nected to AIN-. The T/H enters its hold mode on the

falling edge of CNVST and the difference between the

sampled positive and negative input voltages is convert-

ed. The time required for the T/H to acquire an input sig-

nal is determined by how quickly its input capacitance is

charged. If the input signalâs source impedance is high,

the acquisition time lengthens. The acquisition time,

tACQ, is the minimum time needed for the signal to be

acquired. It is calculated by the following equation:

tACQ â¥ 9 Ã (RS + RIN) Ã 16pF

where RIN = 200â¦, and RS is the source impedance of

the input signal.

Note: tACQ is never less than 125ns and any source

impedance below 12â¦ does not significantly affect the

ADCâs AC performance.

Input Bandwidth

The ADCâs input-tracking circuitry has a 15MHz small-

signal bandwidth, making it possible to digitize high-

speed transient events and measure periodic

signals with bandwidths exceeding the ADCâs sampling

rate by using undersampling techniques. To avoid

high-frequency signals being aliased into the frequency

band of interest, anti-alias filtering is recommended.

Analog Input Protection

Internal protection diodes that clamp the analog input

to VDD and GND allow the analog input pins to swing

from GND - 0.3V to VDD + 0.3V without damage. Both

inputs must not exceed VDD or be lower than GND for

accurate conversions.

Serial Interface

Initialization After Power-Up

and Starting a Conversion

Upon initial power-up, the MAX1277/MAX1279 require a

complete conversion cycle to initialize the internal cali-

bration. Following this initial conversion, the part is ready

for normal operation. This initialization is only required

after a hardware power-up sequence and is not required

after exiting partial or full power-down mode.

To start a conversion, pull CNVST low. At CNVSTâs

falling edge, the T/H enters its hold mode and a conver-

sion is initiated. SCLK runs the conversion and the data

can then be shifted out serially on DOUT.

CNVST

SCLK

tSETUP

POWER-MODE SELECTION WINDOW

tACQUIRE

CONTINUOUS-CONVERSION

SELECTION WINDOW

HIGH IMPEDANCE

DOUT

Figure 5. Interface-Timing Sequence

D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0

CNVST

ONE 8-BIT TRANSFER

CONVST MUST GO HIGH AFTER THE 3RD BUT BEFORE THE 14TH SCLK RISING EDGE

SCLK

DOUT

1ST SCLK RISING EDGE

DOUT GOES HIGH IMPEDANCE ONCE CNVST GOES HIGH

0 D11 D10 D9 D8 D7

MODE

REF

NORMAL

PPD

ENABLED (2.048V)

Figure 6. SPI InterfaceâPartial Power-Down Mode

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