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參數(shù)資料

型號：	LTC2435IGN
廠商：	LINEAR TECHNOLOGY CORP
元件分類：	ADC
英文描述：	20-Bit No Latency ADCs with Differential Input and Differential Reference
中文描述：	1-CH 20-BIT DELTA-SIGMA ADC, SERIAL ACCESS, PDSO16
封裝：	0.150 INCH, PLASTIC, SSOP-16
文件頁數(shù)：	29/40頁
文件大?。?/td>	463K
代理商：	LTC2435IGN

LTC2435/LTC2435-1

29

24351fa

APPLICATIU

W

U

U

Figure 25. INL vs Differential Input Voltage (V

IN

= IN

+

– IN

–

)

and Reference Source Resistance (R

SOURCE

at REF

+

and

REF

–

for Large C

REF

Values (C

REF

≥

1

μ

F)

In addition to this gain error, the converter INL perfor-

mance is degraded by the reference source impedance.

When F

O

= LOW (internal oscillator and 60Hz notch), every

100

of source resistance driving REF

+

or REF

–

translates

into about 0.11ppm additional INL error. For the LTC2435,

when F

O

= HIGH (internal oscillator and 50Hz notch), every

100

of source resistance driving REF

+

or REF

–

translates

into about 0.092ppm additional INL error; and for the

LTC2435-1 operating with simultaneous 50Hz/60Hz re-

jection, every 100

of source resistance leads to an

additional 0.10ppm of additional INL error. When F

O

is

driven by an external oscillator with a frequency f

EOSC

,

every 100

of source resistance driving REF

+

or REF

–

translates into about 0.73 10

–6

f

EOSC

ppm additional INL

error. Figure 25 shows the typical INL error due to the

source resistance driving the REF

+

or REF

–

pins when

large C

REF

values are used. The effect of the source

resistance on the two reference pins is additive with

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

impedance for the REF

+

and REF

–

pins does not help the

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

the combined source impedance driving the REF

+

and

REF

–

pins rather than to try to match it.

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

+

and REF

–

, the expected drift of the dynamic

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.

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

μ

V typical and 0.5

μ

V maxi-

mum full-scale error.

Figure 24. –FS Error vs R

SOURCE

at REF

+

and REF

–

(Large C

REF

)

Figure 23. +FS Error vs R

SOURCE

at REF

+

and REF

–

(Large C

REF

)

R

SOURCE

(

)

0

–10

–20

–30

–40

–50

–60

–70

–80

–90

–100

–

2435 F24

0

400

800

1200

1600

2000

V

= 5V

V

CC

= 5V

V

REF–

= GND

V

IN+

= 1.25V

V

IN–

= 3.75V

F

O

= GND

T

A

= 25

°

C

C

IN

= 1

μ

F, 10

μ

F

C

IN

= 0.01

μ

F

C

IN

= 0.1

μ

F

R

SOURCE

(

)

100

90

80

70

60

50

40

30

20

10

0

+

2435 F23

0

400

800

1200

1600

2000

V

= 5V

V

CC

= 5V

V

REF–

= GND

V

IN+

= 3.75V

V

IN–

= 1.25V

F

O

= GND

T

A

= 25

°

C

C

IN

= 1

μ

F, 10

μ

F

C

IN

= 0.01

μ

F

C

IN

= 0.1

μ

F

V

INDIF

/V

REFDIF

(V)

15

12

9

6

3

0

–3

–6

–9

–12

–15

I

R

)

2435 F25

0

0.1

–0.1

0.2

–0.2

0.3

–0.3

0.4

–0.4

0.5

–0.5

R

SOURCE

= 10k

R

SOURCE

= 5k

R

SOURCE

= 1k

V

INCM

= 0.5 (IN

+

+ IN

–

) = 2.5V

V

= 5V

REF+ = 5V

REF– = GND

F

O

= GND

C

REF

= 10

μ

F

T

A

= 25

°

C

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