Design of Driving Power Supplies for Improvement of Thyratron Jitter Characteristic

Tae Hyun Kim; Shin Kim; Jung Soo Bae; Seong Ho Son; Chang Hyun Kwon; Chan Hun Yu; Hyoung Suk Kim; Sung Roc Jang; Suk Ho Ahn

doi:10.1109/TPS.2023.3303432

Design of Driving Power Supplies for Improvement of Thyratron Jitter Characteristic

Tae Hyun Kim
, Shin Kim
, Jung Soo Bae
, Seong Ho Son
, Chang Hyun Kwon
, Chan Hun Yu
, Hyoung Suk Kim
, Sung Roc Jang
, Suk Ho Ahn

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This article describes designs for power supplies for driving a high-power thyratron switch. To improve the delay time jitter of the thyratron, three driving power supplies (trigger, cathode heater, and reservoir heater) are designed. Based on inductive energy storage (IES) with an opening switch, the trigger power supply (TPS) is designed to generate controllable output pulse voltage (1-10 kV) as well as pulse energy (1-5 mJ) for investigating thyratron switching features. Depending on the specifications of the cathode heater (8 V, 100 A) and reservoir heater (8 V, 25 A) power supply, LCC resonant converters are designed to use their soft-switching properties. Since the output ripples affect the thyratron switching characteristics, the high-frequency operation of the converter allows for reducing ripples with a minimized output filter. Designs of three power supplies were verified from individual rated operations as well as experiments with L4888 thyratron. Switching features of the L4888 thyratron were analyzed based on operating conditions of power supplies and 152 ps of rms delay time jitter was achieved.

Original language	English
Pages (from-to)	2797-2804
Number of pages	8
Journal	IEEE Transactions on Plasma Science
Volume	51
Issue number	10
DOIs	https://doi.org/10.1109/TPS.2023.3303432
State	Published - Oct 1 2023
Externally published	Yes

Funding

This work was supported in part by the KERI Primary Research Program of MSIT/NST under Grant 23A01034 and in part by the Korean Government MSIT (Multipurpose Synchrotron Radiation Construction Project).

Keywords

Pulse generation
pulsed power supplies
resonant converters
thyratron
vacuum switch

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10.1109/TPS.2023.3303432

Cite this

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title = "Design of Driving Power Supplies for Improvement of Thyratron Jitter Characteristic",

abstract = "This article describes designs for power supplies for driving a high-power thyratron switch. To improve the delay time jitter of the thyratron, three driving power supplies (trigger, cathode heater, and reservoir heater) are designed. Based on inductive energy storage (IES) with an opening switch, the trigger power supply (TPS) is designed to generate controllable output pulse voltage (1-10 kV) as well as pulse energy (1-5 mJ) for investigating thyratron switching features. Depending on the specifications of the cathode heater (8 V, 100 A) and reservoir heater (8 V, 25 A) power supply, LCC resonant converters are designed to use their soft-switching properties. Since the output ripples affect the thyratron switching characteristics, the high-frequency operation of the converter allows for reducing ripples with a minimized output filter. Designs of three power supplies were verified from individual rated operations as well as experiments with L4888 thyratron. Switching features of the L4888 thyratron were analyzed based on operating conditions of power supplies and 152 ps of rms delay time jitter was achieved.",

keywords = "Pulse generation, pulsed power supplies, resonant converters, thyratron, vacuum switch",

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AU - Kwon, Chang Hyun

AU - Yu, Chan Hun

AU - Kim, Hyoung Suk

AU - Jang, Sung Roc

AU - Ahn, Suk Ho

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N2 - This article describes designs for power supplies for driving a high-power thyratron switch. To improve the delay time jitter of the thyratron, three driving power supplies (trigger, cathode heater, and reservoir heater) are designed. Based on inductive energy storage (IES) with an opening switch, the trigger power supply (TPS) is designed to generate controllable output pulse voltage (1-10 kV) as well as pulse energy (1-5 mJ) for investigating thyratron switching features. Depending on the specifications of the cathode heater (8 V, 100 A) and reservoir heater (8 V, 25 A) power supply, LCC resonant converters are designed to use their soft-switching properties. Since the output ripples affect the thyratron switching characteristics, the high-frequency operation of the converter allows for reducing ripples with a minimized output filter. Designs of three power supplies were verified from individual rated operations as well as experiments with L4888 thyratron. Switching features of the L4888 thyratron were analyzed based on operating conditions of power supplies and 152 ps of rms delay time jitter was achieved.

AB - This article describes designs for power supplies for driving a high-power thyratron switch. To improve the delay time jitter of the thyratron, three driving power supplies (trigger, cathode heater, and reservoir heater) are designed. Based on inductive energy storage (IES) with an opening switch, the trigger power supply (TPS) is designed to generate controllable output pulse voltage (1-10 kV) as well as pulse energy (1-5 mJ) for investigating thyratron switching features. Depending on the specifications of the cathode heater (8 V, 100 A) and reservoir heater (8 V, 25 A) power supply, LCC resonant converters are designed to use their soft-switching properties. Since the output ripples affect the thyratron switching characteristics, the high-frequency operation of the converter allows for reducing ripples with a minimized output filter. Designs of three power supplies were verified from individual rated operations as well as experiments with L4888 thyratron. Switching features of the L4888 thyratron were analyzed based on operating conditions of power supplies and 152 ps of rms delay time jitter was achieved.

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KW - pulsed power supplies

KW - resonant converters

KW - thyratron

KW - vacuum switch

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Design of Driving Power Supplies for Improvement of Thyratron Jitter Characteristic

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