LTC2424CG#TR Linear Technology, LTC2424CG#TR Datasheet - Page 26

LTC2424CG#TR

Manufacturer Part Number

LTC2424CG#TR

Description

IC ADC 20BIT 4CH MICROPWR 28SSOP

Manufacturer

Linear Technology

Datasheet

1.LTC2424CGPBF.pdf (36 pages)

Specifications of LTC2424CG#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

LTC2424/LTC2428

Input Current (V

If complete settling occurs on the input, conversion re-

sults will be unaffected by the dynamic input current. If the

settling is incomplete, it does not degrade the linearity

performance of the device. It simply results in an offset/

full-scale shift, see Figure 19. To simplify the analysis of

input dynamic current, two separate cases are assumed:

large capacitance at V

tance at V

If the total capacitance at V

(< 0.01 F), relatively large external source resistances (up

to 20k for 20pF parasitic capacitance) can be tolerated

without any offset/full-scale error. Figures 21 and 22 show

a family of offset and full-scale error curves for various

small valued input capacitors (C

of input source resistance.

For large input capacitor values (C

spikes are averaged by the capacitor into a DC current. The

gain shift becomes a linear function of input source

resistance independent of input capacitance, see Figures

23 and 24. The equivalent input impedance is 16.6M .

TUE

SOURCE

SIGNAL

INTPUT

REF

Figure 20. An RC Network at CH0 to CH7

= FS

Figure 19. Offset/Full-Scale Shift

SET

< 0.01 F).

)

–ZS

SOURCE

SET

INFORMATION

REF

> 0.01 F) and small capaci-

(see Figure 20) is small

< 0.01 F) as a function

PAR

20pF

> 0.01 F), the input

CH0 TO

CH7

LTC2424/

LTC2428

24248 F20

24248 F19

REF

This results in 150nA of input dynamic current at the

extreme values of V

and full-scale readings for every 10

resistance.

While large capacitance applied to one of the multiplexer

channel inputs may result in offset/full-scale shifts, large

capacitance applied to the MUXOUT/ADCIN results in

linearity errors. The 75 on-resistance of the multiplexer

switch is nonlinear with input voltage. If the capacitance

at node MUXOUT/ADCIN is less than 0.01 F, the linearity

is not degraded. On the other hand, excessive capaci-

tance (>0.01 F) results in incomplete settling as a func-

tion of the multiplexer on-resistance. Hence, the

REF

= 5V). This corresponds to a 0.3ppm shift in offset

Figure 22. Full-Scale Error vs R

–10

–20

–30

–40

–50

Figure 21. Offset vs R

REF

= 25 C

= 5V

= 0V

= 5V

= 1000pF

= 100pF

100

= 0.01 F

100

= 0pF

SOURCE

= 0pF

SOURCE

= 0.01 F

= 0V and V

( )

SOURCE

( )

SOURCE

10k

(Small C)

24248 F22

24248 F21

of input source

(Small C)

100k

= V

REF

, when

LTC2424CG#TR Linear Technology, LTC2424CG#TR Datasheet - Page 26

LTC2424CG#TR

Specifications of LTC2424CG#TR

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