DC to DC Converters offer output voltages up to 10 kV.
August 23, 2013 -
Manufactured using all surface mount construction, Models ECHV and ECHV-H are floating, quasi-regulated power supplies with 1 kV and 10 kV I/O isolation, respectively, while Model ECHV-R is non-isolated, regulated power supply. Units operate from 5 or 12 V input and deliver 1 W output. Output voltage is independent of input voltage and is proportional to programming voltage. Encapsulated in 1.8 x 1.0 x 0.4 in. package, converters are suited for small equipment requiring high voltage biasing.
|Original Press Release |
HVM Technology, Inc.
360 McKenna Avenue
New Braunfels, TX, 78130
An Economical Anwer to Your High Voltage Power Supply Needs
New Braunfels, Texas -- The ECHV, ECHV-H and ECHV-R are high voltage DC to DC converters that are perfectly suited for small, high performance equipment requiring high voltage biasing. The ECHV and ECHV-H are floating, quasi-regulated power supplies. The ECHV is designed with 1kV Input/Output Isolation. The ECHV-H is designed with 10kV Input/Output Isolation. The ECHV-R is a non-isolated, regulated power supply. Each is designed for affordability and reliability. The ECHV Series is manufactured using all surface mount construction and tested using state-of-the-art automatic test equipment.
The ECHV Series includes a range of output voltages up to 10kV. Fully encapsulated in a compact (1.8"L X 1.0"W x 0.4")package, the ECHV Series boasts easy to use features that enable the designer to quickly integrate high voltage into any design. A high impedance programming input makes it easier to use than proportional converters, eliminating the need for a low impedance adjustable power source voltage. HVM's proprietary resonant converter design minimizes quiescent current and operating noise while delivering maximum performance and reliability. A special feature of this power supply is its extremely low input current, making it ideal for battery powered applications.
The ECHV operates directly from a 5 volt or 12 volt input and the power output rating is 1W. Output voltage is independent of input power voltage and is proportional to the programming voltage (0 to 5V produces 0 to full scale output) and features excellent linearity.