ICL7642:Single/Dual/Triple/Quad Operational Amplifiers

The ICL761X–ICL764X family of monolithic CMOS op amps combine ultra-low input current with low-power operation over a wide supply voltage range. With pinselectable quiescent currents of 10µA, 100µA, or 1000µA per amplifier, these op amps will operate from ±1V to ±8V power supplies, or from single supplies from 2V to 16V. The CMOS outputs swing to within millivolts of the supply voltages. The ultra-low bias current of 1pA makes this family of op amps ideal for long time constant integrators, picoammeters, low droop rate sample/hold amplifiers and other applications where input bias and offset currents are critical. A low noise current of 0.01pA and an input impedance of 1012Ω ensure optimum performance with very high source impedances in such applications as pH meters and photodiode amplifiers.

Key Features
  • Pin-for-Pin Second Source
  • 1pA Typical Bias Current—4nA (max) at +125°C
  • ±1V to ±8V Wide Supply Voltage Range
  • Industry-Standard Pinouts
  • Programmable Quiescent Currents of 10µA, 100µA, and 1000µA
  • Monolithic, Low-Power CMOS Design
ICL761X, ICL762X, ICL763X, ICL764X: Typical Operating Circuit
ICL761X, ICL762X, ICL763X, ICL764X: Typical Operating Circuit
Applications/Uses
  • Battery-Powered Instruments
  • Hearing Aids and Microphone Amplifiers
  • Long-Time Constant Integrators
  • Low Droop Rate Sample/Hold Amplifiers
  • Low-Frequency Active Filters
  • Low-Leakage Amplifiers
  • Picoammeters
DataSheet
titleDownload file
ICL7611-ICL764X Data SheetICL7611-ICL764X.pdf
Parametrics
Part NumberAmps.Rail to RailVSUPPLY (Total)
(V)
VSUPPLY (Total)
(V)
ICC per Amp.
(µA)
VOS
(µV)
CMRR @DC
(dB)
PSRR @DC
(dB)
Low Input Bias CMOS InputsInput IBIAS
(nA)
Unity Gain BW
(MHz)
Slew Rate
(V/µs)
en
(nV/√Hz)
Package/PinsBudgetary
Price
minmaxtypmaxtyptypmaxtyptyp<See Notes
ICL76111Output Only216620008080Yes0.050.0440.016100PDIP(N)/8
SOIC(N)/8
TO99/8
$2.32 @1k
ICL76121Output OnlyPDIP(N)/8
SOIC(N)/8
TO99/8
$2.43 @1k
ICL76212Output OnlyPDIP(N)/8
SOIC(N)/8
TO99/8
$1.71 @1k
ICL76222Output OnlyPDIP(N)/14$10.80 @1k
ICL76313Output OnlyCDIP(N)/16
PDIP(N)/16
SOIC(N)/16
$2.21 @500
ICL76414-CDIP(N)/14
PDIP(N)/14
SOIC(W)/16
$2.20 @1k
ICL76424Output OnlyCDIP(N)/14
PDIP(N)/14
SOIC(W)/16
$7.83 @1k
Ordering Information
Part NumberStatusRecommended ReplacementPackageTempRoHS
ICL7642BCPDNo Longer AvailableICL7642BCPD+PDIP(N),;14 pin;158.4 mm²0°C to +70°CNo
ICL7642BCPD+ActivePDIP(N),;14 pin;158.4 mm²0°C to +70°CLead Free
ICL7642BCWENo Longer AvailableICL7642BCWE+SOIC(W),;16 pin;111.8 mm²0°C to +70°CNo
ICL7642BCWE+ActiveSOIC(W),;16 pin;111.8 mm²0°C to +70°CLead Free
ICL7642BCWE+TNo Longer AvailableW.SO;0°C to +70°CSee data sheet
ICL7642BCWE-TNo Longer AvailableSOIC(W),;16 pin;111.8 mm²0°C to +70°CNo
ICL7642BEWENo Longer AvailableSOIC(W),;16 pin;111.8 mm²-40°C to +85°CNo
ICL7642BEWE-TNo Longer AvailableW.SO;16 pin-40°C to +85°CSee data sheet
ICL7642BMJDActiveCDIP(N),;14 pin;162.1 mm²-55°C to +125°CNo
ICL7642BMJD/HRNo Longer AvailableCDIP(N),;14 pin;162.1 mm²-55°C to +125°CNo
Part NumberStatusRecommended ReplacementPackageTempRoHS
ICL7642CC/DNo Longer AvailableDICE SALES,;NA pin;DICE;0°C to +70°CSee data sheet
ICL7642CCPDNo Longer AvailableICL7642CCPD+PDIP(N),;14 pin;158.4 mm²0°C to +70°CNo
ICL7642CCPD+ActivePDIP(N),;14 pin;158.4 mm²0°C to +70°CLead Free
ICL7642CCWENo Longer AvailableSOIC(W),;16 pin;111.8 mm²0°C to +70°CNo
ICL7642CCWE-TNo Longer AvailableW.SO;0°C to +70°CSee data sheet
ICL7642CMJDNo Longer AvailableICL7642BMJDCDIP(N),;14 pin;162.1 mm²-55°C to +125°CNo
ICL7642EC/DNRNDDICE SALES,;NA pin;DICE S;0°C to +70°CSee data sheet
ICL7642ECJDNo Longer AvailableCDIP(N),;14 pin;162.1 mm²0°C to +70°CNo
ICL7642ECPDNo Longer AvailableICL7642ECPD+PDIP(N),;14 pin;158.4 mm²0°C to +70°CNo
ICL7642ECPD+ActivePDIP(N),;14 pin;158.4 mm²0°C to +70°CLead Free
Part NumberStatusRecommended ReplacementPackageTempRoHS
ICL7642ECWENo Longer AvailableSOIC(W),;16 pin;111.8 mm²0°C to +70°CNo
ICL7642ECWE-TNo Longer AvailableW.SO;16 pin0°C to +70°CSee data sheet
ICL7611-ICL764X.pdf ICL7642
ICL7611-ICL764X.pdf ICL7642