LTC2424IG Linear Technology, LTC2424IG Datasheet - Page 34

LTC2424IG

Manufacturer Part Number

LTC2424IG

Description

IC ADC 20BIT 4CH MICROPWR 28SSOP

Manufacturer

Linear Technology

Datasheet

1.LTC2424CGPBF.pdf (36 pages)

Specifications of LTC2424IG

Number Of Bits

Sampling Rate (per Second)

7.5

Data Interface

MICROWIRE™, Serial, SPI™

Number Of Converters

Power Dissipation (max)

1mW

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-SSOP (0.200", 5.30mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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APPLICATIONS

LTC2424/LTC2428

could be used to measure the case temperature of the

RTD-based thermal power measurement scheme described

previously. In general, thermistors yield very good resolu-

tion over a limited temperature range. For the half-bridge

arrangement shown, the LTC2428 can measure tempera-

ture changes over nearly 5 orders of magnitude.

Connected to the LTC2428’s CH6 input, an infrared ther-

mocouple (Omega Engineering OS36-1) can be used in

limited range, noncontact temperature measurement ap-

plications or applications where high levels of infrared

light must be measured. Given the LTC2428’s 1.2ppm

noise performance, measurement resolution using infra-

red thermocouples is approximately 0.25 C—equivalent

to the resolution of a conventional Type J thermocouple.

These infrared thermocouples are self-contained: 1) they

do not require external cold junction compensation; 2)

they cannot use conventional open thermocouple detec-

tion schemes; and 3) their output impedances are high,

approximately 3k . Alternatively, conventional thermo-

couples can be connected directly to the LTC2428 (not

shown) and cold junction compensation can be provided

by an external temperature sensor connected to a different

INFORMATION

RMS

channel (see the thermistor circuit on CH5) or by using the

LT1025, a monolithic cold-junction compensator IC.

The components connected to CH7 are used to sense

daylight or photodiode current with a resolution of 300pA.

In the figure, the photodiode is biased in photoconduc-

tive mode; however, the LTC2428 can accommodate

either photovoltaic or photoconductive configurations.

The photodiode chosen (Hammatsu S1336-5BK) pro-

duces an output of 500mA per watt of optical illumination.

The output of the photodiode is dependent on two factors:

active detector area (2.4mm • 2.4mm) and illumination

intensity. With the 5k resistor, optical intensities up to

368W/m

1000W/m

resolution of 1nA, the optical dynamic range covers 5

orders of magnitude.

The application circuits shown connected to the LTC2428

demonstrate the mix-and-match capabilities of this multi-

plexed-input, high resolution

signals and high level signals can be accommodated with

a minimum of additional circuitry.

at 960nM (direct sunlight is approximately

) can be measured by the LTC2428. With a

ADC. Very low level

LTC2424IG Linear Technology, LTC2424IG Datasheet - Page 34

LTC2424IG

Specifications of LTC2424IG

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