LTC2408CG#TR Linear Technology, LTC2408CG#TR Datasheet - Page 26

LTC2408CG#TR

Manufacturer Part Number

LTC2408CG#TR

Description

IC ADC 24BIT 8CH MICROPWR 28SSOP

Manufacturer

Linear Technology

Datasheet

1.LTC2408CGPBF.pdf (36 pages)

Specifications of LTC2408CG#TR

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

0°C ~ 70°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

LTC2404/LTC2408

ANTIALIASING

One of the advantages delta-sigma ADCs offer over con-

ventional ADCs is on-chip digital filtering. Combined with

a large oversampling ratio, the LTC2404/LTC2408 signifi-

cantly simplify antialiasing filter requirements.

The digital filter provides very high rejection except at

integer multiples of the modulator sampling frequency

256 • F

or 60Hz). The bandwidth of signals not rejected by the

digital filter is narrow ( 0.2%) compared to the bandwidth

of the frequencies rejected.

As a result of the oversampling ratio (256) and the digital

filter, minimal (if any) antialias filtering is required in front

of the LTC2404/LTC2408. If passive RC components are

placed in front of the LTC2404/LTC2408, the input dy-

namic current should be considered (see Input Current

section). In cases where large effective RC time constants

are used, an external buffer amplifier may be required to

minimize the effects of input dynamic current.

The modulator contained within the LTC2404/LTC2408

can handle large-signal level perturbations without satu-

rating. Signal levels up to 40% of V

analog modulator. These signals are limited by the input

ESD protection to 300mV below ground and 300mV above

), see Figure 23. The modulator sampling frequency is

, where F

–100

–140

–120

–20

–40

–60

–80

Figure 23. Sinc

is the notch frequency (typically 50Hz

INPUT FREQUENCY

INFORMATION

Filter Rejection

REF

do not saturate the

24048 F23

The LTC2408’s Resolution and Accuracy Allows You

to Measure Points in a Ladder of Sensors

In many industrial processes, for example, cracking tow-

ers in petroleum refineries, a group of temperature mea-

surements must be related to one another. A series of

platinum RTDs that sense slow changing temperatures

can be configured into a resistive ladder, using the LTC2408

to sense each node. This approach allows a single excita-

tion current passed through the entire ladder, reducing

total supply current consumption. In addition, this ap-

proach requires only one high precision resistor, thereby

reducing cost. A group of up to seven temperatures can be

measured as a group by a single LTC2408 in a loop-pow-

ered remote acquisition unit. In the example shown in

Figure 24, the excitation current is 240 A at 0 C. The

LTC2408 requires 300 A, leaving nearly 3.5mA for the

remainder of the remote transmitter.

The resistance of any of the RTDs (PT1 to PT7) is deter-

mined from the voltage across it, as compared to the

voltage drop across the reference resistor (R1). This is a

ratiometric implementation where the voltage drop across

R1 is given by V

the voltage on a representative length of wire. If the same

type and length of wire is used for all connections, then

errors associated with the voltage drops across all wiring

can be removed in software. The contribution of wiring

drop can be scaled if wire lengths are not equal.

Gain can be added to this circuit as the total voltage drop

across all the RTDs is small compared to ADC full-scale

range. The maximum recommended gain is 40, as limited

by both amplifier noise contribution, as well as the maxi-

mum voltage developed at CH0 when all sensors are at the

maximum temperature specified for platinum RTDs.

Adding gain requires that one of the resistors (PT1 to PT7)

be a precision resistor in order to eliminate the error asso-

ciated with the gain setting resistors R2 and R3. Note, that

if a precision (100 to 400 ) resistor is used in place of

one of the RTDs (PT7 recommended), R1 does not need

to be a high precision resistor. Although the substitution

of a precision reference resistor for an RTD to determine

gain may suggest that R2 and R3 (and R1) need not be

precise, temperature fluctuations due to airflow may ap-

pear as noise that cannot be removed in firmware. Conse-

REF

– V

CH1

. Channel 7 is used to measure

LTC2408CG#TR Linear Technology, LTC2408CG#TR Datasheet - Page 26

LTC2408CG#TR

Specifications of LTC2408CG#TR

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