ICL7611DCPA Intersil, ICL7611DCPA Datasheet - Page 6

ICL7611DCPA

Manufacturer Part Number

ICL7611DCPA

Description

IC OPAMP 1.4MHZ CMOS LP 8-DIP

Manufacturer

Intersil

Datasheets

1.ICL7611DCPAZ.pdf (13 pages)

2.ICL7611DCPA.pdf (6 pages)

Specifications of ICL7611DCPA

Amplifier Type

General Purpose

Number Of Circuits

Slew Rate

1.6 V/µs

Gain Bandwidth Product

1.4MHz

Current - Input Bias

1pA

Voltage - Input Offset

15000µV

Current - Supply

1mA

Current - Output / Channel

40mA

Voltage - Supply, Single/dual (±)

2 V ~ 16 V, ±1 V ~ 8 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Through Hole

Package / Case

8-DIP (0.300", 7.62mm)

Bandwidth

1.4 MHz

Channel Separation

120

Common Mode Rejection Ratio

Current, Input Bias

400 pA

Current, Input Offset

300 pA

Current, Output

40 mA

Current, Supply

0.01 mA

Number Of Amplifiers

Single

Package Type

PDIP-8

Resistance, Input

10^12 Ohms

Temperature, Operating, Range

0 to +70 °C

Time, Rise

2 μs

Voltage, Gain

75 dB

Voltage, Input

-4.7 to 5.3 V

Voltage, Noise

100 nV/sqrt Hz

Voltage, Offset

20 mV

Voltage, Output, High

+4.8 V

Voltage, Output, Low

-4.8 V

Voltage, Supply

18 V

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Output Type

-3db Bandwidth

Other names

ICL7611DCPAIS

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Application Information

Static Protection

All devices are static protected by the use of input diodes.

However, strong static fields should be avoided, as it is

possible for the strong fields to cause degraded diode

junction characteristics, which may result in increased input

leakage currents.

Latchup Avoidance

Junction-isolated CMOS circuits employ configurations which

produce a parasitic 4-layer (PNPN) structure. The 4-layer

structure has characteristics similar to an SCR, and under

certain circumstances may be triggered into a low impedance

state resulting in excessive supply current. To avoid this

condition, no voltage greater than 0.3V beyond the supply

rails may be applied to any pin. In general, the op amp

supplies must be established simultaneously with, or before

any input signals are applied. If this is not possible, the drive

circuits must limit input current flow to 2mA to prevent latchup.

Choosing the Proper I

The ICL7611 and ICL7612 have a similar I

which allows the amplifier to be set to nominal quiescent

currents of 10μA, 100μA or 1mA. These current settings

change only very slightly over the entire supply voltage

range. The ICL7611 and ICL7612 have an external I

control terminal, permitting user selection of quiescent

current. To set the I

voltage from V+ - 0.8 to V- +0.8 can be used.

NOTE: The output current available is a function of the quiescent

current setting. For maximum peak-to-peak output voltage swings

into low impedance loads, IQ of 1mA should be selected.

Output Stage and Load Driving Considerations

Each amplifiers’ quiescent current flows primarily in the

output stage. This is approximately 70% of the I

This allows output swings to almost the supply rails for

output loads of 1MΩ, 100kΩ, and 10kΩ, using the output

stage in a highly linear class A mode. In this mode,

crossover distortion is avoided and the voltage gain is

maximized. However, the output stage can also be operated

in Class AB for higher output currents. (See graphs under

Typical Operating Characteristics). During the transition from

Class A to Class B operation, the output transfer

characteristic is non-linear and the voltage gain decreases.

Input Offset Nulling

Offset nulling may be achieved by connecting a 25k pot

between the BAL terminals with the wiper connected to V+.

At quiescent currents of 1mA and 100μA the nulling range

provided is adequate for all V

= 10μA - I

= 100μA - I

= 1mA - I

pin to V-

pin to V+

pin to ground. If this is not possible, any

connect the I

selections; however with

terminal as follows:

set-up scheme,

settings.

ICL7611, ICL7612

of V

Frequency Compensation

The ICL7611 and ICL7612 are internally compensated, and

are stable for closed loop gains as low as unity with

capacitive loads up to 100pF.

Extended Common Mode Input Range

The ICL7612 incorporates additional processing which

allows the input CMVR to exceed each power supply rail by

0.1V for applications where V

applications where V

in the positive direction, but may exceed the negative supply

rail by 0.1V in the negative direction (e.g., for V

the input CMVR would be +0.6V to -1.1V).

Operation At V

Operation at V

A and B grades only.

Output swings to within a few millivolts of the supply rails are

achievable for R

minimum and typically +0.9V to -0.7V at V

applications where greater common mode range is

desirable, refer to the description of ICL7612 above.

Typical Applications

The user is cautioned that, due to extremely high input

impedances, care must be exercised in layout, construction,

board cleanliness, and supply filtering to avoid hum and

noise pickup.

Note that in no case is I

chosen by the designer with regard to frequency response

and power dissipation.

NOTE:

4. By using the ICL7612 in this application, the circuit will follow rail

= 10μA, nulling may not be possible with higher values

to rail inputs.

100k

FIGURE 1. SIMPLE FOLLOWER (NOTE 4)

FIGURE 2. LEVEL DETECTOR (NOTE 4)

SUPPLY

≥ 1MΩ. Guaranteed input CMVR is ±0.6V

SUPP

ICL7612

= ±1V is guaranteed at I

ICL7612

shown. The value of I

≤ ±1.5V the input CMVR is limited

= ±1V

SUPP

≥ ±1.5V. For those

SUPPLY

≥10k

TO CMOS OR

LPTTL LOGIC

OUT

= 10μA for

must be

= ±1V. For

April 26, 2007

OUT

FN2919.9

= ±1V,

ICL7611DCPA Intersil, ICL7611DCPA Datasheet - Page 6

ICL7611DCPA

Specifications of ICL7611DCPA

Available stocks

Related parts for ICL7611DCPA