New thermal optimization scheme of power module in solid-state amplifier

Lie Peng Sun; Zhen Yu Yuan; Cheng Zhang; Xian Bo Xu; Jun Gang Miao; Jian Hua Zhang; Long Bo Shi; Yuan He

doi:10.1007/s41365-019-0585-3

New thermal optimization scheme of power module in solid-state amplifier

Lie Peng Sun^*
, Zhen Yu Yuan
, Cheng Zhang
, Xian Bo Xu
, Jun Gang Miao
, Jian Hua Zhang
, Long Bo Shi
, Yuan He

^*Corresponding author for this work

School of Electronic and Information Engineering

Beijing Bbef Science Technology Co. Ltd
Chinese Academy of Sciences

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

9 Scopus citations

Abstract

The new 1 kW power module for ADS project needs the optimization of cooling design including water flow and tunnel layout, and the water flow of three tons per hour was chosen to be a goal for a 20 kW power source. According to analysis from the insertion and integrated loss, about 24 modules were integrated into the rated power. Thus, every module has a cooling flow of 2.1 L/min for RF heat load and power supply loss, which is very hard to achieve if no special consideration and techniques. A new thermal simulation method was introduced for thermal analysis of cooling plate through CST multi-physics suite, especially for temperature of power LDMOS transistor. Some specific measures carried out for the higher heat transfer were also presented in this paper.

Original language	English
Article number	68
Pages (from-to)	1-7
Number of pages	7
Journal	Nuclear Science and Techniques
Volume	30
Issue number	4
DOIs	https://doi.org/10.1007/s41365-019-0585-3
State	Published - Apr 2019

Keywords

Heat transfer coefficient
Power module
RF system
Solid-state amplifier

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10.1007/s41365-019-0585-3

Cite this

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title = "New thermal optimization scheme of power module in solid-state amplifier",

abstract = "The new 1 kW power module for ADS project needs the optimization of cooling design including water flow and tunnel layout, and the water flow of three tons per hour was chosen to be a goal for a 20 kW power source. According to analysis from the insertion and integrated loss, about 24 modules were integrated into the rated power. Thus, every module has a cooling flow of 2.1 L/min for RF heat load and power supply loss, which is very hard to achieve if no special consideration and techniques. A new thermal simulation method was introduced for thermal analysis of cooling plate through CST multi-physics suite, especially for temperature of power LDMOS transistor. Some specific measures carried out for the higher heat transfer were also presented in this paper.",

keywords = "Heat transfer coefficient, Power module, RF system, Solid-state amplifier",

author = "Sun, \{Lie Peng\} and Yuan, \{Zhen Yu\} and Cheng Zhang and Xu, \{Xian Bo\} and Miao, \{Jun Gang\} and Zhang, \{Jian Hua\} and Shi, \{Long Bo\} and Yuan He",

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doi = "10.1007/s41365-019-0585-3",

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TY - JOUR

T1 - New thermal optimization scheme of power module in solid-state amplifier

AU - Sun, Lie Peng

AU - Yuan, Zhen Yu

AU - Zhang, Cheng

AU - Xu, Xian Bo

AU - Miao, Jun Gang

AU - Zhang, Jian Hua

AU - Shi, Long Bo

AU - He, Yuan

N1 - Publisher Copyright: © China Science Publishing & Media Ltd.

PY - 2019/4

Y1 - 2019/4

N2 - The new 1 kW power module for ADS project needs the optimization of cooling design including water flow and tunnel layout, and the water flow of three tons per hour was chosen to be a goal for a 20 kW power source. According to analysis from the insertion and integrated loss, about 24 modules were integrated into the rated power. Thus, every module has a cooling flow of 2.1 L/min for RF heat load and power supply loss, which is very hard to achieve if no special consideration and techniques. A new thermal simulation method was introduced for thermal analysis of cooling plate through CST multi-physics suite, especially for temperature of power LDMOS transistor. Some specific measures carried out for the higher heat transfer were also presented in this paper.

AB - The new 1 kW power module for ADS project needs the optimization of cooling design including water flow and tunnel layout, and the water flow of three tons per hour was chosen to be a goal for a 20 kW power source. According to analysis from the insertion and integrated loss, about 24 modules were integrated into the rated power. Thus, every module has a cooling flow of 2.1 L/min for RF heat load and power supply loss, which is very hard to achieve if no special consideration and techniques. A new thermal simulation method was introduced for thermal analysis of cooling plate through CST multi-physics suite, especially for temperature of power LDMOS transistor. Some specific measures carried out for the higher heat transfer were also presented in this paper.

KW - Heat transfer coefficient

KW - Power module

KW - RF system

KW - Solid-state amplifier

UR - https://www.scopus.com/pages/publications/85093866567

U2 - 10.1007/s41365-019-0585-3

DO - 10.1007/s41365-019-0585-3

M3 - 文章

AN - SCOPUS:85093866567

SN - 1001-8042

VL - 30

SP - 1

EP - 7

JO - Nuclear Science and Techniques

JF - Nuclear Science and Techniques

IS - 4

M1 - 68

ER -

New thermal optimization scheme of power module in solid-state amplifier

Abstract

Keywords

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