Osborne’s High Frequency Resonant Transformer
Osborne’s high frequency resonant transformer designs are used to step-up, step-down and isolate voltages. Isolation may be used to help provide a degree of secondary-side immunity from voltage spikes and noise (both common-mode and transverse-mode) present on the primary-side system. The isolation can allow separate grounds on both the input and output sides of the transformer. Osborne also designs with a range of electrostatic shielding to provide several levels of noise immunity.
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High Frequency Resonant Transformer Design Options Table
|Input Voltages:||0 – 15,000 Volts|
|Output Voltages:||0 – 600 Volts|
|Thermal Voltampere Ratings:||0.250 – 5,000 Voltamperes|
|Compensated Voltamp Rating:||0.250 – 5,000 Voltamperes|
|Burden Power Factor:||0 – 100% Lagging or Leading|
|Frequency:||20 – 100,000 Hertz|
|Phase:||Single – Multiple|
|Electrostatic Shielding:||Single – Multiple Shields|
|Terminals:||Wire Leads – Finger Safe|
|Enclosures:||Open Core & Coil – Hazardous Environment|
|Agency Approvals:||UL, CSA, CE and/or TUV|
Why Osborne Transformer?
Every Osborne transformer is designed for extreme durability. Your design begins with extensive electromagnetic and mechanical modeling, then proceeds through a detailed battery of simulations. These simulations are progressively optimized to arrive at the ideal core, conductor, and other critical components. Your application will engage the expertise of a select network of the world’s finest raw material suppliers. The composite parts of your transformer will be built in strict compliance with Osborne’s exacting standards, and rigorous testing procedures.
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