Analog Devices Inc. Presents the LTC6102HVHMS8 High Voltage, High-Side Current Sense Amplifier

The LTC6102HVHMS8 is a versatile and precise high-side current sense amplifier designed by Analog Devices Inc., a leader in high-performance analog technology. This precision current sense amplifier is particularly suitable for monitoring current in high voltage systems, offering a wide input common-mode voltage range, high accuracy, and a compact package.

Key Features

• Wide Input Voltage Range: The LTC6102HVHMS8 can handle a common-mode voltage range of 4V to 100V, making it suitable for a variety of applications including industrial, automotive, and communication systems where high input voltages are common.
• High-Side Monitoring: As a high-side current sense amplifier, it measures the current flowing through a shunt resistor placed in the supply line. This allows for the detection of load current without interfering with the ground path of the load.
• Precision: The device offers excellent accuracy and a minimal input offset voltage, ensuring precise current measurement across a wide range of operating conditions.
• Low Quiescent Current: The LTC6102HVHMS8 is optimized for power-sensitive applications, with a low quiescent current that helps to minimize power loss.
• Versatile Gain Configuration: Gain can be set with a single external resistor, providing flexibility and ease of use for various applications.
• Robust Package: Housed in an MSOP-8 package, the LTC6102HVHMS8 is designed for robust performance in challenging environments.

Applications

The LTC6102HVHMS8 is ideal for a wide array of applications where precise current monitoring is essential. Its high voltage capability is perfect for:

• Power management systems
• Battery monitoring
• Automotive and hybrid electric vehicles
• Solar power inverters
• Telecommunications infrastructure

With its combination of high voltage operation, precision, and versatility, the LTC6102HVHMS8 from Analog Devices Inc. is a top choice for engineers and designers looking to enhance the reliability and efficiency of their power monitoring systems.