AD827 (9)
The AD827 is available from Analog Devices at Xecor. Designed for high-speed, low-power dual operational amplifier applications, the AD827 offers excellent performance with features such as 50 MHz unity-gain bandwidth, 300 V/µs slew rate, and low power consumption of only 10 mA total supply current. Available in multiple package options, including 8-CDIP (0.300 inch, 7.62mm), it is ideal for precision amplification in industries such as telecommunications, automotive, and industrial automation. Whether used in video signal processing, data acquisition systems, or high-speed instrumentation, this series ensures reliable performance, scalability, and efficiency for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the AD827 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| AD827SQ | Differential OpAmps | CDIP-8 | 4,258 | |
| AD827JN | Operational Amplifier, 2 Func, 6000uV Offset-Max, PDIP8 | PDIP-8 | 7,562 | |
| AD827AQ | CDIP-8 Differential OpAmps ROHS AD827AQ | CDIP-8 | 7,642 | |
| AD827JNZ | Op Amp Dual High Speed Amplifier ±18V 8-Pin PDIP N Tube | PDIP-8 | 6,959 | |
| AD827SQ/883B | Discover the power and precision of the AD827SQ/883B with our product description demo | CDIP-8 | 9,979 | |
| 5962-9211701M2A | Compact LCC-20 package with low power consumption | 20 ld LCC | 4,629 | |
| AD827JCHIPS | High-performance dual op amp for precision amplification needs | SOIC-16 | 4,891 | |
| AD827SCHIPS | Experience reliable amplification with AD827SCHIPS Dual Op Amp | SOIC-16 | 7,259 | |
| 5962-9211701MPA | High-quality 8-pin ceramic package for reliability | CDIP-8 | 2,829 |
Key Featrues
High-Speed Performance: The AD827 offers a 50 MHz unity-gain bandwidth and a 300 V/µs slew rate, making it ideal for high-speed signal processing applications such as video amplification and fast data acquisition systems. This ensures minimal signal distortion and rapid response times.
Low Power Consumption: With a total supply current of only 10 mA for both amplifiers, the AD827 is highly efficient, making it suitable for battery-powered devices and applications where power efficiency is critical.
Excellent DC Performance: The amplifier features a maximum input offset voltage of 2 mV and a low input offset voltage drift of 15 mV/°C, ensuring accurate signal amplification in precision measurement and control systems.
Robust Video Performance: The AD827 delivers exceptional video performance with 0.04% differential gain and 0.198% differential phase at 4.4 MHz, making it well-suited for high-quality video signal processing and broadcasting applications.
Wide Operating Voltage Range: The AD827 operates with a supply voltage range of ±4.5 V to ±18 V, providing flexibility for use in various industrial, automotive, and consumer electronics applications that require different voltage levels.
Low Power Consumption: With a total supply current of only 10 mA for both amplifiers, the AD827 is highly efficient, making it suitable for battery-powered devices and applications where power efficiency is critical.
Excellent DC Performance: The amplifier features a maximum input offset voltage of 2 mV and a low input offset voltage drift of 15 mV/°C, ensuring accurate signal amplification in precision measurement and control systems.
Robust Video Performance: The AD827 delivers exceptional video performance with 0.04% differential gain and 0.198% differential phase at 4.4 MHz, making it well-suited for high-quality video signal processing and broadcasting applications.
Wide Operating Voltage Range: The AD827 operates with a supply voltage range of ±4.5 V to ±18 V, providing flexibility for use in various industrial, automotive, and consumer electronics applications that require different voltage levels.
Applications
High-Speed Signal Conditioning: The AD827 is perfect for high-speed signal conditioning in data acquisition systems. Its 50 MHz unity-gain bandwidth and 300 V/µs slew rate enable precise amplification of fast-changing signals, making it ideal for applications such as radar systems, medical imaging, and high-frequency communication equipment.
Video Signal Processing: With its excellent video performance, the AD827 is well-suited for video signal processing applications. Its low differential gain (0.04%) and phase (0.198%) at 4.4 MHz ensure high-quality video amplification, making it ideal for use in broadcast equipment, video surveillance systems, and professional video editing tools.
Precision Instrumentation Amplifier: The AD827's low input offset voltage (2 mV max) and low power consumption (10 mA total supply current) make it an excellent choice for precision instrumentation amplifiers. It can be used in applications such as strain gauge amplifiers, thermocouple signal conditioning, and other high-accuracy measurement systems in industrial and scientific environments.
Low-Power Portable Devices: The AD827's low power consumption and ability to operate from ±5 V to ±15 V supplies make it ideal for low-power portable devices. It can be used in battery-powered applications such as portable medical devices, handheld test equipment, and remote sensing systems, where power efficiency and high performance are critical.
Video Signal Processing: With its excellent video performance, the AD827 is well-suited for video signal processing applications. Its low differential gain (0.04%) and phase (0.198%) at 4.4 MHz ensure high-quality video amplification, making it ideal for use in broadcast equipment, video surveillance systems, and professional video editing tools.
Precision Instrumentation Amplifier: The AD827's low input offset voltage (2 mV max) and low power consumption (10 mA total supply current) make it an excellent choice for precision instrumentation amplifiers. It can be used in applications such as strain gauge amplifiers, thermocouple signal conditioning, and other high-accuracy measurement systems in industrial and scientific environments.
Low-Power Portable Devices: The AD827's low power consumption and ability to operate from ±5 V to ±15 V supplies make it ideal for low-power portable devices. It can be used in battery-powered applications such as portable medical devices, handheld test equipment, and remote sensing systems, where power efficiency and high performance are critical.
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