No. | Partie # | Fabricant | Description | Fiche Technique |
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Maxim Integrated Products |
(ICL7650x / ICL7653x) Chopper-Stabilized Op Amps o ICL7650/53 are Improved Second Sources to ICL7650B/53B o Lower Supply Current: 2mA o Low Offset Voltage: 1µV o No Offset Voltage Trimming Needed o High-Gain CMRR and PSRR: 120dB min o Lower Offset Drift with Time and Temperature o Extended Common-M |
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Maxim Integrated Products |
Single/Dual/Triple/Quad Operational Amplifiers o Pin-for-Pin Second Source o 1pA Typical Bias Current—4nA (max) at +125°C o ±1V to ±8V Wide Supply Voltage Range o Industry-Standard Pinouts o Programmable Quiescent Currents of 10µA, 100µA, and 1000µA o Monolithic, Low-Power CMOS Design ICL76XX O |
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Maxim Integrated Products |
Programmable Positive Voltage Regulator |
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Maxim Integrated Products |
Low-Voltage Reference excellent stability, freedom from oscillation. Features ♦ Temperature Coefficient Guaranteed to 10ppm/°C max ♦ Low Bias Current: 50µA min ♦ Low Dynamic Impedance ♦ Low Reverse Voltage ♦ Low Cost ICL8069 Applications Analog-to-Digital Converters Di |
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Maxim Integrated Products |
Microprocessor Voltage Monitor µP Over/Undervoltage Warning Improved Second Source Dual Comparator with Precision Internal Reference 3µA Operating Current 2% Threshold Accuracy (ICL7665A) 1.6V to 16V Supply Voltage Range On-Board Hysteresis Outputs Externally Programmable Trip Poi |
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Maxim Integrated Products |
Chopper Stabilized Operatlonal Amplifier |
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Maxim Integrated |
Digit A/D Converter of these converters. The dual-slope conversion technique auto matically rejects interference signals common in industrial environments. The true differential input is particularly useful when making ratiometric measurements (ohms or bridge transduce |
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Maxim Integrated Products |
CMOS VOLTAGE CONVERTERS |
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Maxim Integrated Products |
Chopper-Stabilized Op Amps o ICL7650/53 are Improved Second Sources to ICL7650B/53B o Lower Supply Current: 2mA o Low Offset Voltage: 1µV o No Offset Voltage Trimming Needed o High-Gain CMRR and PSRR: 120dB min o Lower Offset Drift with Time and Temperature o Extended Common-M |
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Maxim Integrated Products |
(ICL7650x / ICL7653x) Chopper-Stabilized Op Amps o ICL7650/53 are Improved Second Sources to ICL7650B/53B o Lower Supply Current: 2mA o Low Offset Voltage: 1µV o No Offset Voltage Trimming Needed o High-Gain CMRR and PSRR: 120dB min o Lower Offset Drift with Time and Temperature o Extended Common-M |
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Maxim Integrated Products |
(ICL7650x / ICL7653x) Chopper-Stabilized Op Amps o ICL7650/53 are Improved Second Sources to ICL7650B/53B o Lower Supply Current: 2mA o Low Offset Voltage: 1µV o No Offset Voltage Trimming Needed o High-Gain CMRR and PSRR: 120dB min o Lower Offset Drift with Time and Temperature o Extended Common-M |
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Maxim Integrated Products |
Single/Dual/Triple/Quad Operational Amplifiers o Pin-for-Pin Second Source o 1pA Typical Bias Current—4nA (max) at +125°C o ±1V to ±8V Wide Supply Voltage Range o Industry-Standard Pinouts o Programmable Quiescent Currents of 10µA, 100µA, and 1000µA o Monolithic, Low-Power CMOS Design ICL76XX O |
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Maxim Integrated Products |
Programmerble Negative Voltage Regulator |
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Maxim Integrated Products |
Single/Dual/Triple/Quad Operational Amplifiers o Pin-for-Pin Second Source o 1pA Typical Bias Current—4nA (max) at +125°C o ±1V to ±8V Wide Supply Voltage Range o Industry-Standard Pinouts o Programmable Quiescent Currents of 10µA, 100µA, and 1000µA o Monolithic, Low-Power CMOS Design ICL76XX O |
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Maxim Integrated Products |
Single/Dual/Triple/Quad Operational Amplifiers o Pin-for-Pin Second Source o 1pA Typical Bias Current—4nA (max) at +125°C o ±1V to ±8V Wide Supply Voltage Range o Industry-Standard Pinouts o Programmable Quiescent Currents of 10µA, 100µA, and 1000µA o Monolithic, Low-Power CMOS Design ICL76XX O |
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Maxim Integrated Products |
Single/Dual/Triple/Quad Operational Amplifiers o Pin-for-Pin Second Source o 1pA Typical Bias Current—4nA (max) at +125°C o ±1V to ±8V Wide Supply Voltage Range o Industry-Standard Pinouts o Programmable Quiescent Currents of 10µA, 100µA, and 1000µA o Monolithic, Low-Power CMOS Design ICL76XX O |
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Maxim Integrated Products |
Chopper Stabilized Operatlonal Amplifier |
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Maxim Integrated Products |
Single/Dual/Triple/Quad Operational Amplifiers o Pin-for-Pin Second Source o 1pA Typical Bias Current—4nA (max) at +125°C o ±1V to ±8V Wide Supply Voltage Range o Industry-Standard Pinouts o Programmable Quiescent Currents of 10µA, 100µA, and 1000µA o Monolithic, Low-Power CMOS Design ICL76XX O |
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Maxim Integrated Products |
Single/Dual/Triple/Quad Operational Amplifiers o Pin-for-Pin Second Source o 1pA Typical Bias Current—4nA (max) at +125°C o ±1V to ±8V Wide Supply Voltage Range o Industry-Standard Pinouts o Programmable Quiescent Currents of 10µA, 100µA, and 1000µA o Monolithic, Low-Power CMOS Design ICL76XX O |
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Maxim Integrated Products |
Single/Dual/Triple/Quad Operational Amplifiers o Pin-for-Pin Second Source o 1pA Typical Bias Current—4nA (max) at +125°C o ±1V to ±8V Wide Supply Voltage Range o Industry-Standard Pinouts o Programmable Quiescent Currents of 10µA, 100µA, and 1000µA o Monolithic, Low-Power CMOS Design ICL76XX O |
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