AD1671J データシートの表示（PDF） - Analog Devices

部品番号

コンポーネント説明

メーカー

AD1671J

Complete 12-Bit 1.25 MSPS Monolithic A/D Converter

Analog Devices 

AD1671

Table I is a list of grounding and decoupling rules that should

be reviewed before laying out a printed circuit board.

Table I. Grounding and Decoupling Guidelines

Power Supply

Decoupling

Comment

Capacitor Values

Capacitor Locations

0.1 µF (Ceramic) and 1 µF

(Tantalum) Surface Mount Chip

Capacitors Recommended to

Reduce Lead Inductance

Directly at Positive and Negative

Supply Pins to Common Ground

Plane

Reference (REF OUT)

Capacitor Value

1 µF (Tantalum) to ACOM

Grounding

Analog Ground

Ground Plane or Wide Ground

Return Connected to the Analog

Power Supply

Reference Ground

(REF COM)

Critical Common Connections

Should be Star Connected to REF

COM (as Shown in Figure 8)

Digital Ground

Ground Plane or Wide Ground

Return Connected to the Digital

Power Supply

Analog and Digital Ground Connected Together Once at the

AD1671

UNIPOLAR (0 V TO +5 V) CALIBRATION

The AD1671 is factory trimmed to minimize offset, gain and

linearity errors. In some applications the offset and gain errors

of the AD1671 need to be externally adjusted to zero. This is

accomplished by trimming the voltage at AIN2 (Pin 22). The

circuit in Figure 9 is recommended for calibrating offset and

gain errors of the AD1671 when configured in the 0 V to +5 V

input range. If the offset trim resistor R1 is used, it should be

trimmed as follows, although a different offset can be set for a

particular system requirement. This circuit will give approxi-

mately ± 5 mV of offset trim range. Nominally the AD1671 is

intended to have a 1/2 LSB offset so that the exact analog input

for a given code will be in the middle of that code (halfway be-

tween the transitions to the codes above it and below it). Thus,

the first transition (from 0000 0000 0000 to 0000 0000 0001)

will occur for an input level of +1/2 LSB (0.61 mV for 5 V

range).

The gain trim is done by applying a signal 1 1/2 LSBs below the

nominal full scale (4.998 V for a 5 V range). Trim R2 to give

the last transition (1111 1111 1110 to 1111 1111 1111). This

circuit will give approximately ± 0.5% FS of adjustment range.

VIN

0 TO +5V

+5V

OFFSET R1

ADJ 10k

25Ω

50k

AIN1 5k

AIN2 5k

SHA

–5V

R2

GAIN

50Ω

ADJ

SHA OUT

AD1671

BPO/UPO

REF IN

REF OUT

1µF

Figure 9. Unipolar (0 V to +5 V) Calibration

BIPOLAR (؎5 V) CALIBRATION

The connections for the bipolar ± 5 V input range is shown in

Figure 10.

VIN

–5V TO +5V

+5V

OFFSET R1

ADJ 10k

25Ω

50k

AIN1 5k

AIN2 5k

SHA

–5V

GAIN

ADJ

R2

50Ω

SHA OUT

AD1671

BPO/UPO

REF IN

REF OUT

1µF

Figure 10. Bipolar (±5 V) Calibration

Bipolar calibration is similar to unipolar calibration. First, a sig-

nal 1/2 LSB above negative full scale (–4.9988 V) is applied and

R1 is trimmed to give the first transition (0000 0000 0000 to

0000 0000 0001). Then a signal 1 1/2 LSB below positive full

scale (+4.9963 V) is applied and R2 is trimmed to give the last

transition (1111 1111 1110 to 1111 1111 1111).

REV. B

–9–

Share Link: