LTC2436-1IGN Linear Technology, LTC2436-1IGN Datasheet - Page 24

LTC2436-1IGN

Manufacturer Part Number

LTC2436-1IGN

Description

IC CONV A/D 16B 2CH DIFF 16SSOP

Manufacturer

Linear Technology

Datasheet

1.LTC2436-1CGN.pdf (28 pages)

Specifications of LTC2436-1IGN

Number Of Bits

Sampling Rate (per Second)

6.8

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

16-SSOP (0.150", 3.90mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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APPLICATIO S I FOR ATIO

LTC2436-1

translates into about 5.5 • 10

error. Figure 23 shows the typical INL error due to the

source resistance driving the REF

large C

resistance on the two reference pins is additive with

respect to this INL error. In general, matching of source

impedance for the REF

gain or the INL error. The user is thus advised to minimize

the combined source impedance driving the REF

REF

The magnitude of the dynamic reference current depends

upon the size of the very stable internal sampling capaci-

tors and upon the accuracy of the converter sampling

clock. The accuracy of the internal clock over the entire

temperature and power supply range is typical better than

0.5%. Such a specification can also be easily achieved by

an external clock. When relatively stable resistors

(50ppm/ C) are used for the external source impedance

seen by REF

current gain error will be insignificant (about 1% of its

value over the entire temperature and voltage range). Even

for the most stringent applications a one-time calibration

operation may be sufficient.

Figure 23. INL vs Differential Input Voltage (V

and Reference Source Resistance (R

for Large C

–

pins rather than to try to match it.

REF

–1

REF

–0.5 –0.4–0.3–0.2–0.1 0 0.1 0.2 0.3 0.4 0.5

REF+ = 5V

REF– = GND

values are used. The effect of the source

INCM

Values (C

and REF

= 5V

= 0.5 • (IN

REF

–

INDIF

, the expected drift of the dynamic

+ IN

and REF

–

1 F)

REFDIF

) = 2.5V

–7

SOURCE

• f

SOURCE

–

EOSC

REF

pins does not help the

= 1000

= GND

= 25 C

= 10 F

or REF

24361 F23

LSB additional INL

at REF

= IN

–

and REF

pins when

– IN

–

)

–

and

In addition to the reference sampling charge, the reference

pins ESD protection diodes have a temperature dependent

leakage current. This leakage current, nominally 1nA

( 10nA max), results in a small gain error. A 100 source

resistance will create a 0.05 V typical and 0.5 V maxi-

mum full-scale error.

Output Data Rate

When using its internal oscillator, the LTC2436-1 can

produce up to 6.8 readings per second. The actual output

data rate will depend upon the length of the sleep and data

output phases which are controlled by the user and which

can be made insignificantly short. When operated with an

external conversion clock (F

oscillator), the LTC2436-1 output data rate can be in-

creased as desired. The duration of the conversion phase

is 20510/f

haves as if the internal oscillator is used with simultaneous

50Hz/60Hz. There is no significant difference in the

LTC2436-1 performance between these two operation

modes.

An increase in f

translate into a proportional increase in the maximum

output data rate. This substantial advantage is neverthe-

less accompanied by three potential effects, which must

be carefully considered.

First, a change in f

in the internal notch position and in a reduction of the

converter differential mode rejection at the power line

frequency. In many applications, the subsequent perfor-

mance degradation can be substantially reduced by rely-

ing upon the LTC2436-1’s exceptional common mode

rejection and by carefully eliminating common mode to

differential mode conversion sources in the input circuit.

The user should avoid single-ended input filters and

should maintain a very high degree of matching and

symmetry in the circuits driving the IN

Second, the increase in clock frequency will increase

proportionally the amount of sampling charge transferred

through the input and the reference pins. If large external

EOSC

. If f

EOSC

over the nominal 139,800Hz will

will result in a proportional change

= 139,800Hz, the converter be-

connected to an external

and IN

–

pins.

24361f

LTC2436-1IGN Linear Technology, LTC2436-1IGN Datasheet - Page 24

LTC2436-1IGN

Specifications of LTC2436-1IGN

Available stocks

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