AD736JR-REEL-7 View Datasheet(PDF) - Analog Devices
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Description
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AD736JR-REEL-7 Datasheet PDF : 8 Pages
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AD737–SPECIFICATIONS (@ +25؇C, ؎5 V supplies, ac coupled with 1 kHz sine-wave input applied unless
otherwise noted.)
Model
Conditions
AD737J/A
Min
Typ
Max
AD737K/B
Min
Typ
Max
Units
TRANSFER FUNCTION
CONVERSION ACCURACY 1 kHz Sine Wave
Total Error, Internal Trim1
All Grades
ac Coupled Using CC
0–200 mV rms
200 mV–1 V rms
TMIN-TMAX
A&B Grades
@ 200 mV rms
J&K Grades
@ 200 mV rms
vs. Supply Voltage
@ 200 mV rms Input
@ 200 mV rms Input
VS = ±5 V to ± 16.5 V
VS = ±5 V to ± 3 V
dc Reversal Error, dc Coupled @ 600 mV dc
Nonlinearity2, 0–200 mV
@ 100 mV rms
Total Error, External Trim 0–200 mV rms
ERROR vs. CREST FACTOR3
Crest Factor 1 to 3
Crest Factor = 5
CAV, CF = 100 µF
CAV, CF = 100 µF
INPUT CHARACTERISTICS
High Impedance Input (Pin 2)
Signal Range
Continuous rms Level
Continuous rms Level
Peak Transient Input
Peak Transient Input
Peak Transient Input
Input Resistance
Input Bias Current
VS = +2.8 V, –3.2 V
VS = ±5 V to ± 16.5 V
VS = +2.8 V, –3.2 V
VS = ±5 V
VS = ±16.5 V
VS = ±5 V
Low Impedance Input (Pin 1)
Signal Range
Continuous rms Level
Continuous rms Level
Peak Transient Input
Peak Transient Input
Peak Transient Input
Input Resistance
VS = +2.8 V, –3.2 V
VS = ±5 V to ± 16.5 V
VS = +2.8 V, –3.2 V
VS = ±5 V
VS = ±16.5 V
Maximum Continuous
Nondestructive Input
Input Offset Voltage4
All Supply Voltages
ac Coupled
J&K Grades
A&B Grades
vs. Temperature
vs. Supply
vs. Supply
VS = ±5 V to ± 16.5 V
VS = ±5 V to ± 3 V
OUTPUT CHARACTERISTICS
Output Voltage Swing
No Load
No Load
No Load
Output Resistance
VS = +2.8 V, –3.2 V
VS = ±5 V
VS = ±16.5 V
@ dc
FREQUENCY RESPONSE
High Impedance Input (Pin 2)
For 1% Additional Error Sine-Wave Input
VIN = 1 mV rms
VIN = 10 mV rms
VIN = 100 mV rms
VIN = 200 mV rms
± 3 dB Bandwidth
Sine-Wave Input
VIN = 1 mV rms
VIN = 10 mV rms
VIN = 100 mV rms
VIN = 200 mV rms
VOUT = Avg .(V IN 2 )
0.2/0.3 0.4/0.5
–1.2 ؎2.0
0.5/0.7
0.007
0
+0.06 +0.1
0
–0.18 –0.3
1.3
2.5
0
+0.25 +0.35
0.1/0.2
0.7
2.5
؎0.9
؎4.0
200
1
± 2.7
1012
1
25
300
l
± 1.7
± 3.8
± 11
6.4
8
9.6
± 12
؎3
؎3
8
30
50
150
80
0 to –1.6 –1.7
0 to –3.3 –3.4
0 to –4 –5
6.4
8
9.6
1
6
37
33
5
55
170
190
VOUT = Avg .(V IN 2 )
0.2/0.2 0.2/0.3
–1.2 ؎2.0
0.3/0.5
0.007
0
+0.06 +0.1
0
–0.18 –0.3
1.3
2.5
0
+0.25 +0.35
0.1/0.2
0.7
2.5
؎0.9
؎4.0
200
1
± 2.7
1012
1
25
300
l
± 1.7
± 3.8
± 11
6.4
8
9.6
± 12
؎3
؎3
8
30
50
150
80
0 to –1.6 –1.7
0 to –3.3 –3.4
0 to –4 –5
6.4
8
9.6
1
6
37
33
5
55
170
190
± mV/± % of Reading
% of Reading
± mV/± % of Reading
± % of Reading/°C
%/V
%/V
% of Reading
% of Reading
± mV/± % of Reading
% Additional Error
% Additional Error
mV rms
V rms
V
V
V
Ω
pA
mV rms
V rms
V
V
V
kΩ
V p-p
mV
mV
µV/°C
µV/V
µV/V
V
V
V
kΩ
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
–2–
REV. C
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