Microchip Technology's HV2201FG-G High-Voltage Analog Switch

The HV2201FG-G is a cutting-edge high-voltage analog switch developed by Microchip Technology, designed to facilitate the control of analog signals above supply rails in a variety of applications. This robust component is a testament to Microchip's dedication to innovation and reliability in the field of semiconductor devices.

The HV2201FG-G operates with a dual supply voltage ranging from ±8V to ±20V or a single supply voltage from 16V to 40V, providing versatility for different circuit designs. This flexibility makes it an excellent choice for systems that require high-voltage switching capabilities, such as medical ultrasound imaging, non-destructive testing (NDT), and other piezoelectric transducer applications.

Key Features:

• High-Voltage Handling: Capable of handling high-voltage signals, the HV2201FG-G is ideal for applications that operate at elevated voltages.
• Low On-Resistance: With an on-resistance as low as 8 ohms typical, this switch ensures minimal signal distortion and power loss, enhancing overall system efficiency.
• Low Charge Injection: The device exhibits low charge injection, which minimizes signal corruption and ensures high signal integrity, especially crucial in precision applications.
• Extended Temperature Range: Designed to perform reliably in a wide temperature range, the HV2201FG-G operates between -40°C to +85°C, making it suitable for various environmental conditions.

The HV2201FG-G is available in a compact 48-lead QFN (7x7 mm) package, which is both space-saving and conducive to efficient PCB layout. Its robust design includes latch-up proof construction, providing additional protection against high-voltage transients and ensuring device stability and longevity.

As a product of Microchip Technology, a leader in microcontroller and analog semiconductors, the HV2201FG-G is backed by a firm commitment to quality and customer support, ensuring that users receive a reliable, high-performance component for their high-voltage switching needs.