LTC1275ACSW Linear Technology, LTC1275ACSW Datasheet - Page 13

LTC1275ACSW

Manufacturer Part Number

LTC1275ACSW

Description

IC A/D CONV 12BIT SAMPLNG 24SOIC

Manufacturer

Linear Technology

Datasheets

1.LTC1273BCSWPBF.pdf (24 pages)

2.LTC1273BCSWPBF.pdf (1 pages)

Specifications of LTC1275ACSW

Number Of Bits

Sampling Rate (per Second)

300k

Data Interface

Parallel

Number Of Converters

Power Dissipation (max)

75mW

Voltage Supply Source

Dual ±

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

24-SOIC (0.300", 7.50mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

LTC1275ACSW

Manufacturer:

Quantity:

20 000

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reference pin. The V

2.45V to prevent conflict with the internal reference. The

reference should be driven to no more than 4.8V to keep

the input span within the ±5V supplies. In the LTC1273/

LT1276, the input spans are 0V to 5V and ±5V respec-

tively with the internal reference. Driving the reference is

not recommended on the LTC1273/LTC1276 since the

input spans will exceed the supplies and codes will be lost

at full scale.

Figure 7 shows a typical reference, the LT1019A-2.5

connected to the LTC1275. This will provide an improved

drift (equal to the maximum 5ppm/°C of the LT1019A-2.5)

and a ±2.582V full scale.

UNIPOLAR/BIPOLAR OPERATION AND ADJUSTMENT

Figure 8 shows the ideal input/output characteristics for

the LTC1273. The code transitions occur midway between

successive integer LSB values (i.e., 1/2LSB, 1 1/2LSBs,

2 1/2LSBs, ... FS – 1 1/2LSBs). The output code is natural

binary with 1LSB = FS/4096 = 5V/4096 = 1.22mV. Figure

9 shows the input/output transfer characteristics for the

LTC1275/LTC1276 in 2’s complement format. As stated in

the figure, 1LSB for LTC1275/LTC1276 are 1.22mV and

2.44mV respectively.

Unipolar Offset and Full Scale Adjustment (LTC1273)

In applications where absolute accuracy is important,

offset and full scale errors can be adjusted to zero. Figure

10a shows the extra components required for full scale

error adjustment. If both offset and full scale adjustments

are needed, the circuit in Figure 10b can be used. Offset

INPUT RANGE

PPLICATI

Figure 7. Supplying a 2.5V Reference Voltage

to the LTC1275 with the LT1019A-2.5

±2.58V

LT1019A-2.5

GND

OUT

REF

pin must be driven to at least

I FOR ATIO

3Ω

10µF

LTC1273/75/76 • F07

AGND

LTC1275

REF

Figure 9. LTC1275/LTC1276 Bipolar Transfer Characteristic

011...111

011...110

000...001

000...000

111...111

111...110

100...001

100...000

Figure 8. LTC1273 Unipolar Transfer Characteristic

111...111

111...110

111...101

111...100

000...011

000...010

000...001

000...000

50Ω

ADDITIONAL PINS OMITTED FOR CLARITY

±20LSB TRIM RANGE

Figure 10a. Full Scale Adjust Circuit

–FS/2

10k

UNIPOLAR

ZERO

1LSB = FS

LSB

10k

4096

INPUT VOLTAGE (V)

–

LTC1275/LTC1276

= 5V

4096

BIPOLAR

LSB

–1

ZERO

FULL SCALE

FS = 5V (LTC1275)

FS = 10V (LTC1276)

1LSB = FS/4096

ADJUST

100Ω

LSB

LTC1273/75/76 • F08

LTC1273/75/76 • F09

FS/2 – 1LSB

FS – 1LSB

LTC1273

LTC1273/75/76 • F10a

AGND

LTC1273

LTC1275

LTC1276

127356fa

LTC1275ACSW Linear Technology, LTC1275ACSW Datasheet - Page 13

LTC1275ACSW

Specifications of LTC1275ACSW

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