AD534–SPECIFICATIONS
Model
AD534J
Typ
AD534K
Typ
AD534L
Typ
Min
Max
Min
Max
Min
Max
Units
MULTIPLIER PERFORMANCE
Transfer Function
(
X
1
–
X
2
)(
Y
1
–
Y
2
)
10
V
+
Z
2
(
X
1
–
X
2
)(
Y
1
–
Y
2
)
10
V
+
Z
2
(
X
1
–
X
2
)(
Y
1
–
Y
2
)
10
V
+
Z
2
Total Error
1
(–10 V
≤
X, Y
≤
+10 V)
T
= min to max
Total Error vs. Temperature
Scale Factor Error
(SF = 10.000 V Nominal)
2
Temperature-Coefficient of
Scaling Voltage
Supply Rejection (
±
15 V
±
1 V)
Nonlinearity, X (X = 20 V p-p, Y = 10 V)
Nonlinearity, Y (Y = 20 V p-p, X = 10 V)
Feedthrough
3
, X (Y Nulled,
X = 20 V p-p 50 Hz)
Feedthrough
, Y (X Nulled,
Y = 20 V p-p 50 Hz)
Output Offset Voltage
Output Offset Voltage Drift
DYNAMICS
Small Signal BW (V
= 0.1 rms)
1% Amplitude Error (C
LOAD
= 1000 pF)
Slew Rate (V
20 p-p)
Settling Time (to 1%,
V
OUT
= 20 V)
NOISE
Noise Spectral-Density SF = 10 V
6
1.0
6
0.5
6
0.25
%
%
%/
°
C
±
1.5
±
0.022
±
1.0
±
0.015
±
0.5
±
0.008
±
0.25
±
0.1
±
0.1
%
±
0.02
±
0.01
±
0.4
±
0.2
±
0.01
±
0.01
±
0.2
±
0.1
±
0.005
±
0.01
±
0.10
±
0.005
%/
°
C
%
%
%
6
0.3
6
0.1
6
0.12
6
0.1
±
0.3
±
0.15
6
0.3
±
0.05
6
0.12
%
±
0.01
±
5
200
±
0.01
±
2
100
6
0.1
6
15
±
0.003
±
2
100
6
0.1
6
10
%
mV
μ
V/
°
C
6
30
1
50
20
2
1
50
20
2
1
50
20
2
MHz
kHz
V/
μ
s
μ
s
0.8
0.4
1
90
0.8
0.4
1
90
0.8
0.4
1
90
μ
V/
√
Hz
μ
V/
√
Hz
mV/rms
μ
V/rms
SF = 3 V
4
Wideband Noise f = 10 Hz to 5 MHz
Wideband Noise
f = 10 Hz to 10 kHz
OUTPUT
Output Voltage Swing
Output Impedance (f
≤
1 kHz)
Output Short Circuit Current
(R
= 0, T
= min to max)
Amplifier Open Loop Gain (f = 50 Hz)
INPUT AMPLIFIERS (X, Y and Z)
5
Signal Voltage Range (Diff. or CM
Operating Diff.)
Offset Voltage X, Y
Offset Voltage Drift X, Y
Offset Voltage Z
Offset Voltage Drift Z
CMRR
Bias Current
Offset Current
Differential Resistance
DIVIDER PERFORMANCE
Transfer Function (X
1
> X
2
)
6
11
6
11
6
11
V
0.1
0.1
0.1
30
70
30
70
30
70
mA
dB
±
10
±
12
±
5
100
±
5
200
80
0.8
0.1
10
±
10
±
12
±
2
50
±
2
100
90
0.8
0.1
10
±
10
±
12
±
2
50
±
2
100
90
0.8
0.05
10
V
V
mV
μ
V/
°
C
mV
μ
V/
°
C
dB
μ
A
μ
A
M
6
20
6
10
6
10
6
30
6
15
±
10
60
70
70
2.0
2.0
2.0
0.2
10
V
(
Z
2
Z
1
)
(
X
1
X
2
)
+
Y
1
10
V
(
Z
2
Z
1
)
(
X
1
X
2
)
+
Y
1
10
V
(
Z
2
Z
1
)
(
X
1
X
2
)
+
Y
1
Total Error
1
(X = 10 V, –10 V
≤
Z
≤
+10 V)
(X = 1 V, –1 V
≤
Z
≤
+1 V)
(0.1 V
≤
X
≤
10 V, –10 V
≤
Z
≤
10 V)
SQUARE PERFORMANCE
Transfer Function
±
0.75
±
2.0
±
2.5
±
0.35
±
1.0
±
1.0
±
0.2
±
0.8
±
0.8
%
%
%
(
X
1
X
2
)
2
10
V
+
Z
2
(
X
1
X
2
)
2
10
V
+
Z
2
(
X
1
X
2
)
2
10
V
+
Z
2
Total Error (–10 V
≤
X
≤
10 V)
SQUARE-ROOTER PERFORMANCE
Transfer Function (Z
1
≤
Z
2
)
±
0.6
±
0.3
±
0.2
%
10
V
(
Z
2
Z
1
)
+
X
2
±
1.0
10
V
(
Z
2
Z
1
)
+
X
2
±
0.5
10
V
(
Z
2
Z
1
)
+
X
2
±
0.25
Total Error
1
(1 V
≤
Z
≤
10 V)
POWER SUPPLY SPECIFICATIONS
Supply Voltage
Rated Performance
Operating
Supply Current
Quiescent
PACKAGE OPTIONS
TO-100 (H-10A)
TO-116 (D-14)
Chips
%
±
15
±
15
±
15
V
V
±
8
6
18
±
8
6
18
±
8
6
18
4
6
4
6
4
6
mA
AD534JH
AD534JD
AD534KH
AD534KD
AD534K Chips
AD534LH
AD534LD
(@ T
A
= + 25
8
C,
6
V
S
= 15 V, R
≥
2 k
V
)
N
OTES
1
Figures given are percent of full scale,
±
10 V (i.e., 0.01% = 1 mV).
2
May be reduced down to 3 V using external resistor between –V
and SF.
3
Irreducible component due to nonlinearity: excludes effect of offsets.
4
Using external resistor adjusted to give SF = 3 V.
5
See Functional Block Diagram for definition of sections.
Specifications subject to change without notic
e.
Specifications shown in
boldface
are tested on all production units at final electrical
test. Results from those tests are used to calculate outgoing quality levels. All min and
max specifications are guaranteed, although only those shown in boldface are tested
on all production units.
REV. B
–2–