MAX194BEWE+ Maxim Integrated Products, MAX194BEWE+ Datasheet - Page 5

MAX194BEWE+

Manufacturer Part Number

MAX194BEWE+

Description

IC ADC 14BIT 85KSPS 16-SOIC

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX194BEWE.pdf (24 pages)

Specifications of MAX194BEWE+

Number Of Bits

Sampling Rate (per Second)

85k

Data Interface

QSPI™, Serial, SPI™

Number Of Converters

Power Dissipation (max)

80mW

Voltage Supply Source

Analog and Digital, Dual ±

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-SOIC (0.300", 7.50mm Width)

Conversion Rate

85 KSPs

Resolution

14 bit

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Input Voltage

5 V

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The MAX194 uses a successive-approximation register

(SAR) to convert an analog input to a 14-bit digital

code, which outputs as a serial data stream. The data

bits can be read either during the conversion, at the

CLK clock rate, or between conversions asynchronous

with CLK, at the SCLK rate (up to 5Mbps).

The MAX194 includes a capacitive digital-to-analog

converter (DAC) that provides an inherent track/hold

input. The interface and control logic are designed for

easy connection to most microprocessors (µPs), limiting

the need for external components. In addition to the

SAR and DAC, the MAX194 includes a serial interface, a

sampling comparator used by the SAR, ten calibration

DACs, and control logic for calibration and conversion.

The DAC consists of an array of capacitors with binary

weighted values plus one “dummy sub-LSB” capacitor

(Figure 1). During input acquisition in unipolar mode,

the array’s common terminal is connected to AGND

and all free terminals are connected to the input signal

(AIN). After acquisition, the common terminal is discon-

nected from AGND and the free terminals are discon-

______________________________________________________________Pin Description

_______________Detailed Description

BP/UP/SHDN

NAME

DGND

RESET

CONV

AGND

VDDD

DOUT

VDDA

SCLK

VSSD

VSSA

EOC

CLK

REF

AIN

14-Bit, 85ksps ADC with 10µA Shutdown

_______________________________________________________________________________________

Bipolar/Unipolar/Shutdown Input. Three-state input selects bipolar or unipolar input range, or shutdown.

0V = shutdown, +5V = unipolar, floating = bipolar.

Conversion Clock Input

Serial Clock Input is used to shift data out between conversions. May be asynchronous to CLK.

+5V Digital Power Supply

Serial Data Output, MSB first

Digital Ground

End-of-Conversion/Calibration Output—normally low. Rises at beginning of conversion or calibration and

falls at the end of either. May be used as an output framing signal.

Chip-Select Input—active low. Enables the serial interface and the three-state data output (DOUT).

Convert-Start Input—active low. Conversion begins on the falling edge after CONV goes low if input signal

has been acquired; otherwise, on the falling clock edge after acquisition.

Reset Input. Pulling RESET low places ADC in inactive state. Rising edge resets control logic and begins

calibration.

-5V Digital Power Supply

Reference Input, 0 to 5V

Analog Input, 0 to V

Analog Ground

-5V Analog Power Supply

+5V Analog Power Supply

REF

unipolar or ±V

REF

bipolar range

nected from AIN, trapping a charge proportional to the

input voltage on the capacitor array.

The free terminal of the MSB (largest) capacitor is con-

nected to the reference (REF), which pulls the common

terminal (connected to the comparator) positive.

Simultaneously, the free terminals of all other capaci-

tors in the array are connected to AGND, which drives

the comparator input negative. If the analog input is

near V

only pulls the comparator input slightly positive.

However, connecting the remaining capacitor’s free ter-

minals to ground drives the comparator input well

below ground, so that the comparator input is negative,

the comparator output is low, and the MSB is set high.

If the analog input is near ground, the comparator out-

put is high and the MSB is low.

Following this, the next largest capacitor is disconnect-

ed from AGND and connected to REF, and the com-

parator determines the next bit. This continues until all

bits have been determined. For a bipolar input range,

the MSB capacitor is connected to REF rather than AIN

during input acquisition, which results in an input range

of V

REF

FUNCTION

REF

to -V

, connecting the MSB’s free terminal to REF

REF

MAX194BEWE+ Maxim Integrated Products, MAX194BEWE+ Datasheet - Page 5

MAX194BEWE+

Specifications of MAX194BEWE+

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