LTC6088 (5)
The LTC6088 is available from Analog Devices at Xecor. Designed for low noise, low offset, and rail-to-rail input/output amplification, the LTC6088 offers exceptional performance with a 14MHz gain bandwidth, 7.2V/µs slew rate, and low input bias current of 1pA. Available in multiple package options, including 16-Lead DFN, it is ideal for portable test equipment, medical devices, audio systems, and data acquisition applications. Whether used in high-impedance transducer amplifiers or precision signal processing, this series ensures reliable performance, low power consumption, and scalability for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the LTC6088 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| LTC6088CDHC#PBF | The LTC6088CDHC#PBF is designed with four R2R CMOS amplifiers, each boasting a frequency response of up to 14MHz for high-speed applications | DFN-16 | 7,905 | |
| LTC6088CGN#PBF | Op Amp Quad Low Noise Amplifier R-R I/O 5.5V 16-Pin SSOP N Tube | SSOP-16 | 6,905 | |
| LTC6088HDHC#PBF | 088HDHC#PBF operational amplifier: | DFN-16 | 3,434 | |
| LTC6088HDHC#TRPBF | Op Amp Quad Low Noise Amplifier R-R I/O 5.5V 16-Pin DFN EP T/R | DFN-16 | 5,750 | |
| LTC6088CDHC#TRPBF | High-performance operational amplifier ideal for precision applications | DFN-16 | 2,029 |
Key Featrues
Low Offset Voltage (750µV Maximum): This feature ensures minimal error in signal amplification, making the amplifier highly accurate for precision applications such as medical equipment and data acquisition systems. The low offset voltage enhances the overall performance by reducing signal distortion and improving measurement reliability.
Rail-to-Rail Inputs and Outputs: This capability allows the amplifier to handle signals that span the entire supply voltage range, maximizing dynamic range and flexibility in low-voltage applications. It is particularly beneficial in portable and battery-powered devices where power efficiency and signal integrity are critical.
Gain Bandwidth Product (14MHz): The high gain bandwidth product enables the amplifier to process high-frequency signals effectively, making it suitable for audio applications and high-speed data acquisition. This feature ensures that the amplifier can maintain signal fidelity across a wide range of frequencies.
Low Input Bias Current (1pA Typical at 25°C): The extremely low input bias current minimizes loading effects on high-impedance sources, which is crucial for applications involving sensors and transducers. This feature enhances the amplifier's ability to accurately amplify weak signals without introducing significant errors.
Low Power Consumption (1.05mA per Amp): The low supply current makes the amplifier ideal for power-sensitive applications such as portable test equipment and battery-operated devices. This feature extends battery life and reduces thermal dissipation, contributing to overall system efficiency.
Rail-to-Rail Inputs and Outputs: This capability allows the amplifier to handle signals that span the entire supply voltage range, maximizing dynamic range and flexibility in low-voltage applications. It is particularly beneficial in portable and battery-powered devices where power efficiency and signal integrity are critical.
Gain Bandwidth Product (14MHz): The high gain bandwidth product enables the amplifier to process high-frequency signals effectively, making it suitable for audio applications and high-speed data acquisition. This feature ensures that the amplifier can maintain signal fidelity across a wide range of frequencies.
Low Input Bias Current (1pA Typical at 25°C): The extremely low input bias current minimizes loading effects on high-impedance sources, which is crucial for applications involving sensors and transducers. This feature enhances the amplifier's ability to accurately amplify weak signals without introducing significant errors.
Low Power Consumption (1.05mA per Amp): The low supply current makes the amplifier ideal for power-sensitive applications such as portable test equipment and battery-operated devices. This feature extends battery life and reduces thermal dissipation, contributing to overall system efficiency.
Applications
Portable Medical Monitoring Devices: The LTC6088 is ideal for amplifying signals from high-impedance sensors in portable medical devices, such as ECG monitors or blood glucose meters. Its rail-to-rail input/output capability and low noise performance ensure accurate signal amplification, making it suitable for critical healthcare applications where precision and reliability are paramount.
Industrial Data Acquisition Systems: The LTC6088 is well-suited for amplifying signals from sensors in industrial data acquisition systems, such as pressure transducers or temperature sensors. Its low offset voltage and high gain bandwidth product enable precise signal conditioning, ensuring accurate data collection in harsh industrial environments.
Audio Signal Processing: The LTC6088 is perfect for audio signal processing applications, such as preamplifiers or active filters in portable audio devices. Its rail-to-rail operation and low noise characteristics ensure high-fidelity audio reproduction, making it ideal for consumer electronics and professional audio equipment.
High-Impedance Transducer Amplifiers: The LTC6088 excels in amplifying signals from high-impedance transducers, such as piezoelectric sensors or photodiodes. Its low input bias current and high common-mode rejection ratio ensure accurate amplification of weak signals, making it suitable for scientific instrumentation and precision measurement systems.
Industrial Data Acquisition Systems: The LTC6088 is well-suited for amplifying signals from sensors in industrial data acquisition systems, such as pressure transducers or temperature sensors. Its low offset voltage and high gain bandwidth product enable precise signal conditioning, ensuring accurate data collection in harsh industrial environments.
Audio Signal Processing: The LTC6088 is perfect for audio signal processing applications, such as preamplifiers or active filters in portable audio devices. Its rail-to-rail operation and low noise characteristics ensure high-fidelity audio reproduction, making it ideal for consumer electronics and professional audio equipment.
High-Impedance Transducer Amplifiers: The LTC6088 excels in amplifying signals from high-impedance transducers, such as piezoelectric sensors or photodiodes. Its low input bias current and high common-mode rejection ratio ensure accurate amplification of weak signals, making it suitable for scientific instrumentation and precision measurement systems.
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