MAX126CCAX Maxim Integrated, MAX126CCAX Datasheet - Page 9

MAX126CCAX

Manufacturer Part Number

MAX126CCAX

Description

Analog to Digital Converters - ADC

Manufacturer

Maxim Integrated

Datasheet

1.MAX125CCAX.pdf (15 pages)

Specifications of MAX126CCAX

Number Of Channels

Architecture

SAR

Conversion Rate

250 KSPs

Resolution

14 bit

Input Type

Single-Ended

Snr

75 dB

Interface Type

Parallel

Operating Supply Voltage

+/- 2.5 V

Maximum Operating Temperature

+ 70 C

Package / Case

SSOP-36

Maximum Power Dissipation

941 mW

Minimum Operating Temperature

0 C

Number Of Converters

Voltage Reference

2.5 V

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Figure 4. Timing Diagram

Between conversions, the buffer input is connected to

channel 1 of the selected track/hold bank. When a

channel is not selected, switches S1, S2, and S3 are

placed in hold mode to improve channel-to-channel

isolation.

Input data (A0–A3) and output data (D0–D13) are multi-

plexed on a three-state bidirectional interface. This par-

allel I/O can easily be interfaced with a microprocessor

(µP) or DSP. CS, WR, and RD control the write and read

operations. CS is the standard chip-select signal, which

enables the controller to address the MAX125/MAX126

as an I/O port. When CS is high, it disables the WR and

Figure 5. Programming a Four-Channel Conversion, Input Mux A

CONVST

DATA

INT

(LSB)

CWS

DATA IN

CWH

_______________________________________________________________________________________

CSD

2x4-Channel, Simultaneous-Sampling

Digital Interface

CONV

CRS

CH1

RD inputs and forces the interface into a high-Z state.

Figure 4 details the interface timing.

The MAX125/MAX126 have eight conversion modes

plus power-down, which are programmed through a

bidirectional parallel interface. At power-up, the devices

default to the mode Input Mux A/Single-Channel

Conversion. The user can select between two banks

(mux inputs A or mux inputs B) of four simultaneous-

sampled input channels, as illustrated in Figure 2. An

internal microsequencer can be programmed to convert

one, two, three, or four channels of the selected bank

per sample. For a single-channel conversion, CH1 is

digitized, and then INT goes low to indicate completion

of the conversion. For multichannel conversions, INT

goes low after the last channel has been digitized.

To input data into the MAX125/MAX126, pull CS low,

program the bidirectional pins A0–A3 (Table 1), and

pulse WR low. Data is latched into the devices on the

WR or CS rising edge. The ADC is now ready to convert.

Once programmed, the ADCs continue operating in the

same mode until they are reprogrammed or until power

is removed. Figure 5 shows an example of program-

ming a four-channel conversion using Input Mux A.

After programming the MAX125/MAX126 as outlined in

the Programming Modes section, pulse CONVST low to

initiate a conversion sequence. The analog inputs are

sampled at the CONVST rising edge. Do not start a

new conversion while the conversion is in progress.

Monitor the INT output. A falling edge indicates the end

of a conversion sequence.

CRH

CH2

ACQ

CH3

Programming Modes

14-Bit DAS

CH4

Starting a Conversion

MAX126CCAX Maxim Integrated, MAX126CCAX Datasheet - Page 9

MAX126CCAX

Specifications of MAX126CCAX

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