MAX157 Datasheet, PDF(7/16 Page) Maxim Integrated Products – Dual-Channel CardBus and PCMCIA VCC/VPP Power-Switching Networks

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MAX157 Datasheet, PDF (7/16 Pages) Maxim Integrated Products – Dual-Channel CardBus and PCMCIA VCC/VPP Power-Switching Networks

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+2.7V, Low-Power, 2-Channel,

108ksps, Serial 10-Bit ADCs in 8-Pin ÂµMAX

Pin Description

NAME

FUNCTION

VDD

Positive Supply Voltage, +2.7V to +5.25V

CH0 (CH+) Analog Input, MAX157: Single-Ended (CH0); MAX159: Differential (CH+).

CH1 (CH-) Analog Input, MAX157: Single-Ended (CH1); MAX159: Differential (CH-).

GND

Analog and Digital Ground

REF

External Reference Voltage Input. Sets analog voltage range. Bypass with a 100nF capacitor close to the

part.

CS/SHDN

Active-Low Chip-Select Input, Active-High Shutdown Input. Pulling CS/SHDN high puts chip into

shutdown with a maximum current of 5ÂµA.

DOUT

Serial Data Output. Data changes state at SCLKâs falling edge. High impedance when CS/SHDN is high.

SCLK

Serial Clock Input. DOUT changes on the falling edge of SCLK.

DOUT

GND

a) HIGH-Z TO V0H, V0L TO V0H, AND VOH TO HIGH-Z

VDD

DOUT

GND

b) HIGH-Z TO V0L, V0H TO V0L, AND VOL TO HIGH-Z

Figure 1. Load Circuits for Enable and Disable Time

Detailed Description

The MAX157/MAX159 analog-to-digital converters

(ADCs) use a successive-approximation conversion

(SAR) technique and on-chip track/hold (T/H) structure

to convert an analog signal to a serial, 10-bit digital out-

put data stream.

This flexible serial interface provides easy interface to

microprocessors (ÂµPs). Figure 2 shows a simplified

functional diagram of the internal architecture for both

the MAX157 (2 channels, single-ended) and the

MAX159 (1 channel, pseudo-differential).

Single-Ended (MAX157) and Pseudo-

Differential (MAX159) Analog Inputs

The sampling architecture of the ADCâs analog com-

parator is illustrated in the equivalent input circuit in

Figure 3. In single-ended mode (MAX157), both chan-

nels CH0 and CH1 are referred to GND and can be

connected to two different signal sources. Following the

power-on reset, the ADC is set to convert CH0. After

CH0 has been converted, CH1 will be converted, and

the conversions will continue to alternate between

channels. Channel switching is performed by toggling

the CS/SHDN pin. Conversions can be performed on

the same channel by toggling CS/SHDN twice between

conversions. If only one channel is required, CH0 and

CH1 may be connected together; however the output

data will still contain the channel identification bit

(before the MSB).

For the MAX159, the input channels form a single differ-

ential channel pair (CH+, CH-). This configuration is

pseudo-differential to the effect that only the signal at

IN+ is sampled. The return side IN- must remain stable

within Â±0.5LSB (Â±0.1LSB for optimum results) with

respect to GND during a conversion. To accomplish

this, connect a 0.1ÂµF capacitor from IN- to GND.

During the acquisition interval, the channel selected as

the positive input (IN+) charges capacitor CHOLD. The

acquisition interval spans from when CS/SHDN falls to

the falling edge of the second clock cycle (external

clock mode) or from when CS/SHDN falls to the first

falling edge of SCLK (internal clock mode). At the end

of the acquisition interval, the T/H switch opens, retain-

ing charge on CHOLD as a sample of the signal at IN+.

The conversion interval begins with the input multiplex-

er switching CHOLD from the positive input (IN+) to the

negative input (IN-). This unbalances node ZERO at the

comparatorâs positive input.

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