ISL26134AVZ-T7A Intersil, ISL26134AVZ-T7A Datasheet - Page 19

ISL26134AVZ-T7A

Manufacturer Part Number

ISL26134AVZ-T7A

Description

Analog to Digital Converters - ADC ISL26134AVZ LW-NOISE 24BIT DELTASIGMA ADC

Manufacturer

Intersil

Datasheet

1.ISL26134AVZ-T7A.pdf (23 pages)

Specifications of ISL26134AVZ-T7A

Product Category

Analog to Digital Converters - ADC

Rohs

yes

Number Of Channels

Architecture

Sigma-Delta

Conversion Rate

80 sps

Resolution

24 bit

Input Type

Differential

Snr

Interface Type

Serial (2-Wire)

Operating Supply Voltage

5 V

Maximum Operating Temperature

+ 105 C

Package / Case

TSSOP-28

Maximum Power Dissipation

68 mW

Minimum Operating Temperature

- 40 C

Number Of Converters

Voltage Reference

External

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Applications Information

Power-up Sequence – Initialization and

Configuration

The sequence to properly power-up and initialize the device are

as follows. For details on individual functions, refer to their

descriptions.

OPTIONAL ACTIONS

• Perform Offset Calibration

• Place device in Standby

• Return device from Standby

• Read on-chip Temperature (applicable to ISL26132 only)

Application Examples

WEIGH SCALE SYSTEM

Figure 38 illustrates the ISL26132 connected to a load cell. The

A/D converter is configured for a gain of 128x and a sample rate

of 10Sps. If a load cell with 2mV/V sensitivity is used, the full

1. A

2. Apply External Clock

3. Pull PDWN High to initiate Reset

4. Device begins conversion

5. SDO/RDY goes low at end of first conversion

VDD

, D

VDD

ramp to specified levels

0.1µF

ISL26132, ISL26134

FIGURE 38. WEIGH SCALE APPLICATION

0.1µF

VREF+

CAP

AIN+1

AIN-1

AIN+2

AIN-2

VREF-

AVDD

AGND

ISL26132

XTALIN/CLOCK

XTALOUT

SDO/RDY

scale output from the load cell will be 10mV. On a gain of 128x

and sample rate of 10Sps, the converter noise is 67nV

converter will achieve 10mV/67nV

counts across its 10mV input signal. This equates to 14,925

counts per mV of input signal. If five output words are averaged

together this can be improved by √5 to yield √5*14925

counts = 33,370 counts per mV of input signal with an effective

update rate of 2 readings per second.

THERMOCOUPLE MEASUREMENT

Figure 39 illustrates the ISL26132 in a thermocouple

application. As shown, the 4.096V reference combined with the

PGA gain set to 128x sets the input span of the converter to

±16mV. This supports the K type thermocouple measurement for

temperatures from -270°C at -6.485mV to +380°C at about

16mV.

If a higher temperature is preferred, the PGA can be set to 64x to

provide a converter span of ±32mV. The will allow the converter

to support temperature measurement with the K type

thermocouple up to about +765°C.

In the circuit shown, the thermocouple is referenced to a voltage

dictated by the resistor divider from the +5V supply to ground.

These set the common mode voltage at about 2.5V. The 5M

resistors provide a means for detection of an open thermocouple.

If the thermocouple fails open or is not connected, the bias

through the 5M resistors will cause the input to the PGA to go to

full scale.

DVDD

DGND

SPEED

GAIN1

GAIN0

PDWN

SCLK

TEMP

2, 5, 6

GAIN = 128

CONTROLLER

MICRO

VDD

GND

P-P

= 149,250 noise free

September 9, 2011

P-P

FN6954.1

. The

ISL26134AVZ-T7A Intersil, ISL26134AVZ-T7A Datasheet - Page 19

ISL26134AVZ-T7A

Specifications of ISL26134AVZ-T7A

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