CA3420 データシートの表示（PDF） - Intersil

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CA3420

0.5MHz, Low Supply Voltage, Low Input Current BiMOS Operational Amplifiers

Intersil 

CA3420, CA3420A

Electrical Specifications For Equipment Design, at VSUPPLY = ±10V, TA = 25oC, Unless Otherwise Specified

PARAMETER

TEST

SYMBOL CONDITIONS

CA3420

MIN

TYP

MAX

CA3420A

MIN

TYP

MAX

UNITS

Input Offset Voltage

Input Offset Current (Note 4)

Input Current (Note 4)

Large Signal Voltage Gain

|VIO|

|IIO|

|II|

AOL

RL = 10kΩ

-

5

10

-

0.03

4

-

0.05

5

10

100

-

80

100

-

-

2

-

0.03

-

0.05

20

100

86

100

5

mV

4

pA

5

pA

-

kV/V

-

dB

Common Mode Rejection Ratio

CMRR

-

100

320

-

100

320

µV/V

70

80

-

70

80

-

dB

Common Mode Input Voltage Range

Power Supply Rejection Ratio

Max Output Voltage

Supply Current

VlCR+

VlCR-

PSRR

∆VIO/∆V

VOM+

VOM-

I+

RL = ∞

8.5

9.3

-

9.0

9.3

-

V

-10

-10.3

-

-10

-10.3

-

V

-

32

320

-

32

320

µV/V

70

90

-

70

90

-

dB

9.7

9.9

-

9.7

9.9

-

V

-9.7

-9.85

-

-9.7

-9.85

-

V

-

450

1000

-

450

1000

µA

Device Dissipation

Input Offset Voltage Temperature Drift

NOTE:

PD

∆VlO/∆T

-

9

14

-

9

14

mW

-

4

-

-

4

-

µV/oC

4. The maximum limit represents the levels obtainable on high speed automatic test equipment. Typical values are obtained under laboratory conditions.

Typical Applications

Picoammeter Circuit

The exceptionally low input current (typically 0.2pA) makes

the CA3420 highly suited for use in a picoammeter circuit.

With only a single 10GΩ resistor, this circuit covers the range

from ±1.5pA. Higher current ranges are possible with suitable

switching techniques and current scaling resistors. Input

transient protection is provided by the 1MΩ resistor in series

with the input. Higher current ranges require that this resistor

be reduced. The 10MΩ resistor connected to pin 2 of the

CA3420 decouples the potentially high input capacitance

often associated with lower current circuits and reduces the

tendency for the circuit to oscillate under these conditions.

High Input Resistance Voltmeter

Advantage is taken of the high input impedance of the CA3420

in a high input resistance DC voltmeter. Only two 1.5V “AA”

type penlite batteries power this exceedingly high-input

resistance (>1,000,000MΩ) DC voltmeter. Full-scale deflection

is ±500mV, ±150mV, and ±15mV. Higher voltage ranges are

easily added with external input voltage attenuator networks.

The meter is placed in series with the gain network, thus

eliminating the meter temperature coefficient error term.

Supply current in the standby position with the meter

undeflected is 300µA. At full-scale deflection this current

rises to 800µA. Carbon-zinc battery life should be in excess

of 1,000 hours.

1MΩ

10GΩ

10MΩ

10pF

+1.5V

2-

7

500-0-500

µA

CA3420

6

M

3+

4

±50pA

5

1

BATTERY

RETURNS ±15pA

10kΩ

1.5kΩ

1.5kΩ, 1%

1kΩ

±5pA

430Ω, 1%

-1.5V

±1.5pA 150Ω, 1%

11kΩ

68Ω

1%

FIGURE 1. PICOAMMETER CIRCUIT

22MΩ

+1.5V

3

10MΩ

+

7

CA3420 6

500-0-500

µA

M

100pF

2

-

4

±500mV

5

1

BATTERY

RETURNS

10kΩ

±150mV

-1.5V

±50mV

±15mV

1.5kΩ

1.5kΩ, 1%

1kΩ

430Ω, 1%

150Ω, 1%

1.1kΩ

68Ω

1%

FIGURE 2. HIGH INPUT RESISTANCE VOLTMETER

3

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