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參數(shù)資料

型號(hào)：	LTC1594LCS
廠商：	LINEAR TECHNOLOGY CORP
元件分類：	ADC
英文描述：	4- and 8-Channel, 3V Micropower Sampling 12-Bit Serial I/O A/D Converters
中文描述：	4-CH 12-BIT SUCCESSIVE APPROXIMATION ADC, SERIAL ACCESS, PDSO16
封裝：	0.150 INCH, PLASTIC, SO-16
文件頁數(shù)：	17/24頁
文件大小：	278K
代理商：	LTC1594LCS

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LTC1594L/LTC1598L

Input Leakage Current

Input leakage currents can also create errors if the source

resistance gets too large. For instance, the maximum

input leakage specification of 200nA (at 85

C) flowing

through a source resistance of 600

will cause a voltage

drop of 120

V or 0.2LSB. This error will be much

reduced at lower temperatures because leakage drops

rapidly (see typical curve Input Channel Leakage Current

vs Temperature).

REFERENCE INPUTS

The reference input of the LTC1594L/LTC1598L is effec-

tively a 50k resistor from the time CS goes low to the end

of the conversion. The reference input becomes a high

impedance node at any other time (see Figure 9). Since

the voltage on the reference input defines the voltage

span of the A/D converter, the reference input should be

driven by a reference with low R

OUT

(ex. LT1004, LT1019

and LT1021) or a voltage source with low R

OUT

Reduced Reference Operation

The effective resolution of the LTC1594L/LTC1598L can

be increased by reducing the input span of the convert-

ers. The LTC1594L/LTC1598L exhibit good linearity and

gain over a wide range of reference voltages (see typical

curves Change in Linearity vs Reference Voltage and

Change in Gain vs Reference Voltage). However, care

must be taken when operating at low values of V

REF

because of the reduced LSB step size and the resulting

higher accuracy requirement placed on the converters.

The following factors must be considered when operat-

ing at low V

REF

values:

1. Offset

2. Noise

3. Conversion speed (CLK frequency)

Offset with Reduced V

REF

The offset of the LTC1594L/LTC1598L has a larger effect

on the output code when the ADCs are operated with

reduced reference voltage. The offset (which is typically

a fixed voltage) becomes a larger fraction of an LSB as the

size of the LSB is reduced. The typical curve of Change in

Offset vs Reference Voltage shows how offset in LSBs is

related to reference voltage for a typical value of V

. For

example, a V

of 122

V which is 0.2LSB with a 2.5V

reference becomes 0.5LSB with a 1V reference and

2.5LSBs with a 0.2V reference. If this offset is unaccept-

able, it can be corrected digitally by the receiving system

or by offsetting the “COM” input of the LTC1594L/

LTC1598L.

Noise with Reduced V

REF

The total input referred noise of the LTC1594L/LTC1598L

can be reduced to approximately 400

V peak-to-peak

using a ground plane, good bypassing, good layout

techniques and minimizing noise on the reference inputs.

This noise is insignificant with a 5V reference but will

become a larger fraction of an LSB as the size of the LSB

is reduced.

For operation with a 2.5V reference, the 400

V noise is

only 0.66LSB peak-to-peak. In this case, the LTC1594L/

LTC1598L noise will contribute virtually no uncertainty to

the output code. However, for reduced references the

noise may become a significant fraction of an LSB and

cause undesirable jitter in the output code. For example,

with a 1.25V reference this same 400

V noise is 1.32LSB

peak-to-peak. This will reduce the range of input voltages

over which a stable output code can be achieved by 1LSB.

If the reference is further reduced to 1V, the 400

V noise

becomes equal to 1.65LSBs and a stable code may be

difficult to achieve. In this case, averaging multiple

readings may be necessary.

This noise data was taken in a very clean setup. Any setup

induced noise (noise or ripple on V

, V

REF

or V

) will

add to the internal noise. The lower the reference voltage

to be used the more critical it becomes to have a clean,

noise free setup.

LTC1594L

LTC1598L

REF

OUT

REF

GND

1594L/98L F09

Figure 9. Reference Input Equivalent Circuit

APPLICATIO

S I

FOR

ATIO

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