LT1795 (5)

The LT1795 is available from Analog Devices at Xecor. Designed for high-output current and high-frequency applications, the LT1795 offers 500mA output drive current, 50MHz bandwidth, and a 900V/µs slew rate, making it ideal for demanding signal amplification tasks. Available in 20-TSSOP-EP packages, it is perfect for ADSL/HDSL2 drivers, test equipment amplifiers, video amplifiers, and cable drivers. Whether used in telecommunications, industrial test equipment, or video systems, this series ensures high performance, low distortion, and stability with large capacitive loads for even the most challenging applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the LT1795 series below.

Part Number Description Package Inventory Add To Bom
LT1795IFE#TR Unlock new possibilities with this robust and flexible solutio TSSOP-20 6,770
LT1795IFE#PBF Dual -Pin TSSOP ADSL driver for fast and efficient data transmission, ideal for industrial applications TSSOP-20 8,084
LT1795IFE#TRPBF ADSL Driver Dual 20-Pin TSSOP EP T/R TSSOP-20 9,278
LT1795CFE#TRPBF High-speed ADSL driver for efficient data transmission TSSOP-20 5,401
LT1795CFE#PBF ADSL Driver Dual 20-Pin TSSOP EP Tube TSSOP-20 6,571

Key Featrues

High Output Drive Current (500mA): The LT1795's ability to deliver up to 500mA of output drive current ensures robust performance in applications requiring high power delivery, such as driving capacitive loads or powering downstream ADSL systems. This feature enhances the amplifier's capability to handle demanding loads without compromising signal integrity.
Wide Bandwidth (50MHz): With a bandwidth of 50MHz at a gain of 2 and a 25Ω load, the LT1795 is well-suited for high-frequency applications like video amplifiers and test equipment. This wide bandwidth ensures accurate signal amplification and minimal distortion, making it ideal for precision applications.
High Slew Rate (900V/µs): The amplifier's high slew rate of 900V/µs enables it to respond quickly to rapid changes in input signals, which is critical for maintaining signal fidelity in high-speed applications such as cable drivers and ADSL systems. This feature reduces signal distortion and improves overall system performance.
Low Distortion (-75dBc at 1MHz): The LT1795 offers low distortion levels of -75dBc at 1MHz, making it suitable for high-fidelity audio and video applications. This low distortion ensures clean signal amplification, which is essential for maintaining the quality of the output signal in sensitive applications.
Adjustable Supply Current for Power Savings: The LT1795 includes a feature that allows the supply current to be adjusted using a single external resistor. This enables power savings in lower bandwidth applications, reducing overall power consumption and improving energy efficiency without sacrificing performance. This is particularly beneficial in battery-powered or energy-sensitive systems.

Applications

ADSL/HDSL2 Line Driver: The LT1795 is ideal for driving high-speed data lines in ADSL and HDSL2 applications. Its 500mA output drive current and 50MHz bandwidth ensure reliable signal integrity over long distances, making it suitable for telecommunications infrastructure and broadband communication systems.
Video Signal Amplification: The LT1795 is well-suited for video signal amplification in broadcast and professional video equipment. Its high slew rate of 900V/µs and low distortion of -75dBc at 1MHz ensure high-quality video signal transmission, making it ideal for applications requiring precise signal fidelity.
Test Equipment Amplification: The LT1795 is perfect for use in test and measurement equipment, where high output current and wide bandwidth are critical. Its ability to handle large capacitive loads and maintain stability makes it suitable for driving signals in oscilloscopes, signal generators, and other precision test instruments.
Cable Signal Driver: The LT1795 is ideal for driving signals in long cable runs, such as in industrial automation or professional audio systems. Its high input impedance and wide supply range ensure robust performance in environments with varying signal levels, making it suitable for applications requiring reliable signal transmission over extended distances.