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IC-BM Datasheet, PDF (5/7 Pages) IC-Haus GmbH – FOUR-CHANNEL FOUR-QUADRANT ANALOG MULTIPLIER
iC-BM FOUR-CHANNEL
FOUR-QUADRANT ANALOG MULTIPLIER
Rev A2, Page 5/7
ELECTRICAL CHARACTERISTICS
Operating Conditions: VCC = 5 V ±0.25 V , VEE = -5 V ±0.25 V, Tj = -40...100 °C, RL = 2 kΩ, if not other specified
Item Symbol Parameter
No.
Conditions
Min. Typ.
General
101 V(VCC) Positive Supply Voltage Range
4.75
5
102 V(VEE) Negative Supply Voltage Range
-5.25 -5
103 I(VCC) Positive Supply Current
104 I(VEE) Negative Supply Current
105 PDISS
Power Dissipation
Multiplier Performance
W1...4 without load resistors
W1...4 without load resistors
PDISS = 5 V × ICC + 5 V × IEE
15
-20 -15
150
201 V(X1...4)os Offset Voltage X1...4
202 V(Y1...4)os Offset Voltage Y1...4
203 V(W1...4)os Output Offset Voltage W1...4
204 TCV()os Output Offset Drift W1...4
205 K
Fix Scale Factor
206 TE(X1...4) Total Error X1...4
V(X1...4) = 0 V, V(Y1...4) = ±2.5 V
V(Y1...4) = 0 V, V(X1...4) = ±2.5 V
V(X1...4) = 0 V, V(Y1...4) = 0 V
V(X1...4) = 0 V, V(Y1...4) = 0 V
V(X1...4) = ±2.5 V, V(Y1...4) = ±2.5 V
-2.5 V ≤ X ≤ 2.5 V, Y = 2.5 V,
measured as % of the ±2.5 V full scale
-50
-50
-50
50
0.38 0.4
-5
±2
207 TE(Y1...4) Total Error Y1...4
-2.5 V ≤ Y ≤ 2.5 V, X = 2.5 V,
measured as % of the ±2.5 V full scale
-5
±2
208 TCE(X1...4) Total Error Drift X1...4
209 TCE(Y1...4) Total Error Drift Y1...4
210 SE()
Total Square Error X1...4, Y1...4
211 LE(X1...4) Linearity Error X1...4
212 LE(Y1...4) Linearity Error Y1...4
Dynamic Performance
V(X1...4) = -2.5 V, V(Y1...4) = 2.5 V
V(Y1...4) = -2.5 V, V(X1...4) = 2.5 V
V(X1) = V(Y1), V(X2) = V(Y2), V(X3) = V(Y3)
and V(X4) = V(Y4)
-2.5 V ≤ X ≤ 2.5 V, Y = 2.5 V
-2.5 V ≤ Y ≤ 2.5 V, X = 2.5 V
0.005
0.005
5
-1 ±0.2
-1 ±0.2
301 BW
Small Signal Bandwidth
V(W1...4) = 0.1 Vrms
3.5
302 SR
Slew Rate
V(W1...4) = ±2.5 V
30
303 tS
Settling Time
V(W1...4) = ∆2.5 V and 1% error band
1
304 FTAC
AC Feedthrough
V(X1...4) = 0 V, V(Y1...4) = 1 Vrms and f = 1 kHz
-65
305 CTAC
Crosstalk
V(X1...4) = V(Y1...4) = 1 Vrms, f = 100 kHz,
-90
applied to adjecent channel
Outputs: W1...4
401 Isc()
Short Circuit Current
±30
402 THD(X1...4) Total Harmonic Distortion X1...4
403 THD(Y1...4) Total Harmonic Distortion Y1...4
404 PSSR() Power Supply Sensitivity Ratio
f = 1 kHz, V(Y1...4) = 2.5 V
f = 1 kHz, V(X1...4) = 2.5 V
V(X1...4) = V(Y1...4) = 0 V, VCC = ∆5% or
VEE = ∆5%
0.1
0.02
405 ENA
Audio Band Noise
BW = 10 Hz to 50 kHz
70
406 ENW
Wide Band Noise
BW = 1.9 MHz
590
407 en
Spot Noise Voltage
Noise at f = 1 kHz
0.3
Inputs: X1...4, Y1...4
501 VR()in
Analog Input Range
502 I()in
Input Current
503 R()in
Input Resistance
V(GND1...4) = 0 V
V(X1...4) = V(Y1...4) = 0 V
-2.5
2.3
1
504 C()in
Input Capacitance
3
Unit
Max.
5.25
V
-4.75 V
20
mA
mA
200 mW
50
mV
50
mV
50
mV
µV/°C
0.42 1/V
5
%
5
%
%/°C
%/°C
%
1
%
1
%
MHz
V/µs
µs
dB
dB
mA
%
%
10 mV/V
µVrms
µV√rms
µV/ Hz
2.5
V
10
µA
MΩ
pF