Detailed description, Pin description (continued) – Rainbow Electronics MAX1189 User Manual

Detailed Description

Converter Operation

The MAX1179/MAX1187/MAX1189 use a successive-
approximation (SAR) conversion technique with an
inherent track-and-hold (T/H) stage to convert an ana-
log input into a 16-bit digital output. Parallel outputs
provide a high-speed interface to microprocessors
(µPs). The Functional Diagram at the end of the data
sheet shows a simplified internal architecture of the
MAX1179/MAX1187/MAX1189. Figure 3 shows a typical
application circuit for the MAX1179/MAX1187/MAX1189.

Analog Input

Input Scaler

The MAX1179/MAX1187/MAX1189 have an input scaler
which allows conversion of true bipolar input voltages
and input voltages greater than the power supply, while
operating from a single +5V analog supply. The input
scaler attenuates and shifts the analog input to match
the input range of the internal DAC. The MAX1179 input
voltage range is ±5V, while the MAX1189 input voltage

range is ±10V. The MAX1187 has a unipolar input volt-
age range of 0 to +10V. Figure 4 shows the equivalent
input circuit of the MAX1179/MAX1187/MAX1189. This
circuit limits the current going into or out of AIN to less
than 1.8mA.

MAX1179/MAX1187/MAX1189

16-Bit, 135ksps, Single-Supply ADCs with

Bipolar Analog Input Range

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7

Pin Description (continued)

PIN

NAME

FUNCTION

15

REFADJ

Reference Buffer Output. Bypass REFADJ with a 0.1µF capacitor to AGND for internal reference
mode. Connect REFADJ to AV

DD

to select external reference mode.

16

REF

Reference Input/Output. Bypass REF with a 10µF capacitor to AGND. REF is the external reference
input when in external reference mode.

17

RESET

Reset Input. Logic high resets the device.

18

CS

Convert Start. The first falling edge of CS powers up the device and enables acquisition when R/C
is low. The second falling edge of CS starts conversion. The third falling edge of CS loads the result
onto the bus when R/C is high.

19

DGND

Digital Ground

20

DV

DD

Digital Supply Voltage. Bypass with a 0.1µF capacitor to DGND.

21

D0

Three-State Digital Data Output (LSB)

22

D1

Three-State Digital Data Output

23

D2

Three-State Digital Data Output

24

D3

Three-State Digital Data Output

25

D4

Three-State Digital Data Output

26

D5

Three-State Digital Data Output

27

D6

Three-State Digital Data Output

28

D7

Three-State Digital Data Output

Figure 1. Load Circuits

1mA

DGND

HIGH-Z TO V

OH

,

V

OL

TO V

OH

, AND

V

OH

TO HIGH-Z

C

LOAD

= 20pF

D0–D15

A)

1mA

DV

DD

DGND

HIGH-Z TO V

OL

,

V

OH

TO V

OL

, AND

V

OL

TO HIGH-Z

C

LOAD

= 20pF

D0–D15

B)