LT1114 (9)
The LT1114 is available from Analog Devices at Xecor. Designed for low power precision applications, the LT1114 offers exceptional performance with features such as low offset voltage (20 µV max), low input bias current (70 pA), and a wide supply voltage range (2V to 40V). Available in 14-PDIP packaging, it is ideal for precision instrumentation, battery-powered systems, and low-frequency active filters. Whether used in thermocouple amplifiers, photo current amplifiers, or general-purpose signal conditioning, this series ensures high accuracy, reliability, and efficiency for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the LT1114 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| LT1114S | Specifications: ±20V, 16-pin SOIC package | SOIC-16 | 5,848 | |
| LT1114S#PBF | Featuring a bipolar design, the LT1114S#PBF offers reliable performance and robustness | SOIC-16 | 9,919 | |
| LT1114CN | The temperature range for LT1114CN is 0°C to 70°C | PDIP-14 | 4,013 | |
| LT1114S#TRPBF | High-performance precision amplifiers for low power applications | SOIC-16 | 3,792 | |
| LT1114IS#TRPBF | Amplify signals with precision using LT1114IS#TRPBF Op Amps | SOIC-16 | 6,939 | |
| LT1114IS#PBF | Versatile 16-pin SO package offers easy integration into circuits | SOIC-16 | 7,630 | |
| LT1114IN#PBF | Reliable ±V op-amp for a range of industrial and commercial us | PDIP-14 | 3,466 | |
| LT1114CN#PBF | Op Amp Quad Low Power Amplifier ±20V 14-Pin PDIP N Tube | PDIP-14 | 7,294 | |
| LT1114ACN#PBF | High-quality quad amplifier module featuring ultra-wide input range and excellent stability | PDIP-14 | 5,306 |
Key Featrues
Low Offset Voltage (60µV Max) - The LT1112 and LT1114 op amps feature an exceptionally low offset voltage, ensuring high precision in signal amplification. This minimizes errors in sensitive applications like thermocouple and bridge amplifiers, enhancing overall system accuracy.
Ultra-Low Input Bias Current (250pA Max) - With input bias currents as low as 250pA, these op amps are ideal for applications requiring minimal current draw, such as picoampere instrumentation and photocurrent amplifiers, ensuring minimal signal distortion and improved efficiency.
Low Noise Performance (0.3µVP-P) - The 0.1Hz to 10Hz noise level of 0.3µVP-P makes these op amps suitable for low-frequency active filters and other noise-sensitive applications, delivering clean and reliable signal processing.
Wide Supply Voltage Range (2V to 40V) - The ability to operate across a broad supply voltage range (2V to 40V) makes these op amps versatile for both low-power battery-powered systems and high-voltage industrial applications, offering flexibility in design.
Low Power Consumption (350µA per Channel) - With a supply current of just 350µA per channel, these op amps are energy-efficient, making them ideal for portable and battery-powered devices, extending battery life and reducing operational costs.
Ultra-Low Input Bias Current (250pA Max) - With input bias currents as low as 250pA, these op amps are ideal for applications requiring minimal current draw, such as picoampere instrumentation and photocurrent amplifiers, ensuring minimal signal distortion and improved efficiency.
Low Noise Performance (0.3µVP-P) - The 0.1Hz to 10Hz noise level of 0.3µVP-P makes these op amps suitable for low-frequency active filters and other noise-sensitive applications, delivering clean and reliable signal processing.
Wide Supply Voltage Range (2V to 40V) - The ability to operate across a broad supply voltage range (2V to 40V) makes these op amps versatile for both low-power battery-powered systems and high-voltage industrial applications, offering flexibility in design.
Low Power Consumption (350µA per Channel) - With a supply current of just 350µA per channel, these op amps are energy-efficient, making them ideal for portable and battery-powered devices, extending battery life and reducing operational costs.
Applications
Picoampere/Microvolt Instrumentation: The LT1112 and LT1114 op amps are ideal for applications requiring precise amplification of extremely low current and voltage signals, such as in picoampere and microvolt instrumentation. Their low input bias current and high precision make them suitable for sensitive measurement systems in scientific research and medical diagnostics.
Thermocouple and Bridge Amplifiers: These op amps excel in amplifying signals from thermocouples and bridge sensors, providing accurate and stable amplification for temperature and strain measurements. Their low offset voltage and drift ensure reliable performance in industrial and automotive applications.
Low Frequency Active Filters: The LT1112 and LT1114 are well-suited for designing low-frequency active filters, such as those used in audio processing and signal conditioning. Their low noise and high precision make them ideal for applications requiring clean and accurate filtering in communication and instrumentation systems.
Battery-Powered Systems: With their low power consumption and high precision, the LT1112 and LT1114 are perfect for battery-powered systems, such as portable medical devices and remote sensors. Their ability to operate efficiently at low supply voltages ensures long battery life without compromising performance.
Thermocouple and Bridge Amplifiers: These op amps excel in amplifying signals from thermocouples and bridge sensors, providing accurate and stable amplification for temperature and strain measurements. Their low offset voltage and drift ensure reliable performance in industrial and automotive applications.
Low Frequency Active Filters: The LT1112 and LT1114 are well-suited for designing low-frequency active filters, such as those used in audio processing and signal conditioning. Their low noise and high precision make them ideal for applications requiring clean and accurate filtering in communication and instrumentation systems.
Battery-Powered Systems: With their low power consumption and high precision, the LT1112 and LT1114 are perfect for battery-powered systems, such as portable medical devices and remote sensors. Their ability to operate efficiently at low supply voltages ensures long battery life without compromising performance.
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