CA3140AM Intersil, CA3140AM Datasheet - Page 17
CA3140AM
Manufacturer Part Number
CA3140AM
Description
IC OP AMP 4.5MHZ BIMOS 8-SOIC
Manufacturer
Intersil
Datasheet
1.CA3140AEZ.pdf
(23 pages)
Specifications of CA3140AM
Amplifier Type
General Purpose
Number Of Circuits
1
Slew Rate
9 V/µs
Gain Bandwidth Product
4.5MHz
Current - Input Bias
10pA
Voltage - Input Offset
2000µV
Current - Supply
4mA
Current - Output / Channel
40mA
Voltage - Supply, Single/dual (±)
4 V ~ 36 V, ±2 V ~ 18 V
Operating Temperature
-55°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Output Type
-
-3db Bandwidth
-
Available stocks
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Part Number
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Quantity
Price
Company:
Part Number:
CA3140AM96
Manufacturer:
INTERSIL
Quantity:
14 096
Part Number:
CA3140AMZ
Manufacturer:
INTERSIL
Quantity:
20 000
Company:
Part Number:
CA3140AMZ96
Manufacturer:
DDC
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CA3140AMZ96
Manufacturer:
INTERSIL
Quantity:
20 000
Pulse “droop” during the hold interval is 170pA/200pF which is
0.85µV/µs; (i.e., 170pA/200pF). In this case, 170pA represents
the typical leakage current of the CA3080A when strobed off. If
C
decrease to 0.085µV/µs, but the slew rate would decrease to
0.25V/µs. The parallel diode network connected between
Terminal 3 of the CA3080A and Terminal 6 of the CA3140
prevents large input signal feedthrough across the input
terminals of the CA3080A to the 200pF storage capacitor when
the CA3080A is strobed off. Figure 24 shows dynamic
characteristic waveforms of this sample-and-hold system.
Center Trace: Difference of Input and Output Signals through
1
FIGURE 24. SAMPLE AND HOLD SYSTEM DYNAMIC
Bottom Trace: Input Signal; 5V/Div., 2µs/Div.
were increased to 2000pF, the “hold-droop” rate will
Top Trace: Output Signal; 5V/Div, 2µs/Div.
LARGE SIGNAL RESPONSE AND SETTLING TIME
Bottom Trace: Input; 50mV/Div., 200ns/Div.
Bottom Trace: Input; 20V/Div., 500ns/Div.
Top Trace: Output; 50mV/Div., 200ns/Div.
Top Trace: Output; 100mV/Div., 500ns/Div.
CHARACTERISTICS WAVEFORMS
Tektronix Amplifier 7A13; 5mV/Div., 2µs/Div.
SAMPLING RESPONSE
17
CA3140, CA3140A
Current Amplifier
The low input terminal current needed to drive the CA3140
makes it ideal for use in current amplifier applications such
as the one shown in Figure 25 (see Note 14). In this circuit,
low current is supplied at the input potential as the power
supply to load resistor R
the multiplication factor R
monitored by the power supply meter M. Thus, if the load
current is 100nA, with values shown, the load current
presented to the supply will be 100µA; a much easier current
to measure in many systems.
Note that the input and output voltages are transferred at the
same potential and only the output current is multiplied by
the scale factor.
The dotted components show a method of decoupling the
circuit from the effects of high output load capacitance and
the potential oscillation in this situation. Essentially, the
necessary high frequency feedback is provided by the
capacitor with the dotted series resistor providing load
decoupling.
Full Wave Rectifier
Figure 26 shows a single supply, absolute value, ideal full-
wave rectifier with associated waveforms. During positive
excursions, the input signal is fed through the feedback
network directly to the output. Simultaneously, the positive
excursion of the input signal also drives the output terminal
(No. 6) of the inverting amplifier in a negative going
excursion such that the 1N914 diode effectively disconnects
the amplifier from the signal path. During a negative going
excursion of the input signal, the CA3140 functions as a
normal inverting amplifier with a gain equal to -R
the equality of the two equations shown in Figure 26 is
satisfied, the full wave output is symmetrical.
NOTE:
14. “Operational Amplifiers Design and Applications”, J. G. Graeme,
FIGURE 25. BASIC CURRENT AMPLIFIER FOR LOW CURRENT
SUPPLY
POWER
McGraw-Hill Book Company, page 308, “Negative Immittance
Converter Circuits”.
M
I
L
x
R
R
2
1
MEASUREMENT SYSTEMS
3
2
100kΩ
10kΩ
R
CA3140
+
1
-
5
4.3kΩ
L
1
. This load current is increased by
2
+15V
-15V
/R
7
4
1
, when the load current is
0.1µF
6
0.1µF
10MΩ
R
2
2
/R
July 11, 2005
1
. When
FN957.10
I
R
L
L
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