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Marx High Voltage Pulse Generator, Pulsed Energy Systems

Orchid Technologies Engineering and Consulting, Inc.

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The generation of high voltage pulses for use in pulsed energy systems requires attention to design detail. The safe delivery of precision high voltage pulses is made possible by the combination of OTEC’s high current, bipolar Marx generation stack coupled with OTEC’s custom FPGA based timing generation technology. Optically coupled high speed IGBT Drivers and low inductance conduction paths with safety feedback and automatic load control make precision high voltage pulse generation both possible and medically safe.

Precision pulse control of 6 Kilovolt, 30 Amp bipolar high voltage pulses is made possible by OTEC’s unique FPGA precision pattern timing generation control logic. Sub-microsecond complex waveforms may be automatically generated upon command from a single trigger.

Designed originally for the bipolar output of six kilovolts into fifty ohms, OTEC’s generator and precision control circuitry can accommodate almost any voltage, current and o...

The generation of high voltage pulses for use in pulsed energy systems requires attention to design detail. The safe delivery of precision high voltage pulses is made possible by the combination of OTEC’s high current, bipolar Marx generation stack coupled with OTEC’s custom FPGA based timing generation technology. Optically coupled high speed IGBT Drivers and low inductance conduction paths with safety feedback and automatic load control make precision high voltage pulse generation both possible and medically safe.

Precision pulse control of 6 Kilovolt, 30 Amp bipolar high voltage pulses is made possible by OTEC’s unique FPGA precision pattern timing generation control logic. Sub-microsecond complex waveforms may be automatically generated upon command from a single trigger.

Designed originally for the bipolar output of six kilovolts into fifty ohms, OTEC’s generator and precision control circuitry can accommodate almost any voltage, current and output timing required. Applications such as Laser Optics, Plasma Generation and more can greatly benefit from OTEC’s unique design approach.

Key Features

Offering Brief

Offering Brief

Device Family Arria® 10 SX FPGA, Cyclone® IV GX FPGA, Agilex™ 5 FPGA E-Series, MAX® 10 FPGA, Cyclone® V SX FPGA, Arria® V GZ FPGA, Agilex™ 9 FPGA Direct RF-Series, MAX® V CPLD, Agilex™ 7 FPGA I-Series, Arria® V SX FPGA, Stratix® 10 DX FPGA, Stratix® 10 SX FPGA, Agilex™ 7 FPGA M-Series, Cyclone® V GT FPGA, Arria® 10 GT FPGA, Arria® V ST FPGA, Arria® 10 GX FPGA, Stratix® 10 TX FPGA, Cyclone® V SE FPGA, Stratix® IV E FPGA, Stratix® IV GX FPGA, Arria® V GX FPGA, Cyclone® V E FPGA, Agilex™ 3 FPGA C-Series, Cyclone® V GX FPGA, Stratix® V GS FPGA, Stratix® V GX FPGA, Cyclone® V ST FPGA, Agilex™ 5 FPGA D-Series, Stratix® 10 GX FPGA, Arria® V GT FPGA, Cyclone® 10 LP FPGA, Agilex™ 7 FPGA F-Series, Cyclone® 10 GX FPGA, Stratix® 10 AX FPGA, Cyclone® IV E FPGA, Stratix® III FPGA
Offering Status Production

Design Note #130

Documentation & Resources

Market Segment and Sub-Segments