50 MW速调管用分数比脉冲调制器

李运海; 郭翔; 杨荣; 阮征; 童义; 谢晓峰

doi:10.11884/HPLPB202133.210220

50 MW速调管用分数比脉冲调制器

doi: 10.11884/HPLPB202133.210220

李运海^1,,
郭翔²,
杨荣¹,
阮征²,
童义¹,
谢晓峰¹

1.
合肥雷科电子科技有限公司，合肥 230094
2.
合肥华耀电子工业有限公司，合肥 230088

详细信息

作者简介:
李运海，liyunhai1315@126.com

中图分类号: TN787
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- 被引次数: 0
出版历程
- 收稿日期: 2021-06-03
- 修回日期: 2021-08-03
- 网络出版日期: 2021-08-17
- 刊出日期: 2021-09-15

Fractional-turn ratio solid-state modulator for 50 MW klystron

1.
Hefei LeiKe Electronics Technology Co, Ltd, Hefei 230094, China
2.
ECU Electronics Industrial Co, Ltd, Hefei 230088, China

摘要

摘要: 研制了一套S波段50 MW速调管用分数比脉冲调制器，具有脉冲变压器变比1∶300、初级电源电压1.25 kV、输出峰值功率113 MW等特点。分数比脉冲调制器属于加法器式固态调制器的类型，其原理为分开铁心使其磁场感应叠加，再高变比脉冲变压器升压。利用1∶60的高变比升压脉冲变压器技术，实现了初级单元电路为较低工作电压、各组件模块化、放电单元接地等优点，同时实现了脉冲变压器初级低漏感值、次级绕组低分布电容值、放电单元及传输回路低电感值。工程样机测试结果为输出脉冲电压大于312 kV、脉冲电流大于360 A、脉冲前后沿小于1.4 μs的高功率全固态脉冲调制器，为国内工业辐照加速器、自由电子激光加速器等需要高稳定射频功率源的应用提供一种解决方案。分数比脉冲调制器具有输出脉冲宽度可较大范围调节，可以适应负载阻抗的较大范围变化，无线性调制器中使用的氢闸流管的寿命限制，较低工作电压的高运行可靠性等优点。
- 脉冲调制器 /
- 分数比脉冲变压器 /
- 50 MW速调管 /
- 放电回路 /
- 脉冲前沿
Abstract: This paper introduces The fractional ratio pulse modulator for S-band 50 MW klystron, which has the characteristics of pulse transformer ratio of 1∶300, primary voltage of 1.25 kV and output peak power of 113 MW. The selection of five sub cores, the design of transformation ratio, the calculation of primary voltage and current, and the calculation of average output power are carried out. It is analyzed that the total inductance of single discharge circuit which affects the output front of solid-state modulator should be less than 0.4 μH. The loop inductance is distributed in the discharge module, the discharge cable, the internal wiring of the pulse transformer and the primary leakage inductance. The low inductance design of the internal loop of the discharge module, the low leakage inductance design of the pulse transformer and the modeling and simulation results are mainly analyzed. The results show that the high-power all solid-state pulse modulator with 312 kV output pulse voltage, 360 A pulse current and less than 1.4 μs front and back edges can be realized. It has promising applications in the fields of accelerator driving RF power source, high-power radar transmitter and so on, which need high-voltage pulse modulator.
- pulse modulator /
- fractional-turn ratio pulse transformer /
- 50 MW klystron /
- discharge circuit /
- pulse front

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图 1 脉冲调制器系统组成原理图

Figure 1. Schematic diagram of solid state modulator system

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图 2 放电模块实物照片及测试波形

Figure 2. Photo and test waveforms of discharge module

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图 3 分数比脉冲变压器结构原理及模型

Figure 3. Structure principle and model diagram of fractional-turn ratio pulse transformer

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图 4 调制器输出仿真波形

Figure 4. Simulation waveform of modulator output voltage

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图 5 脉冲变压器电场仿真

Figure 5. Electric field simulation of pulse transformer

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图 6 脉冲变压器磁场仿真

Figure 6. Magnetic field simulation of pulse transformer

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图 7 脉冲变压器实物照片

Figure 7. Photos of pulse transformer

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图 8 工程样机测试现场照片

Figure 8. Photo of engineering prototype test site

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图 9 工程样机测试波形

Figure 9. Test waveforms of engineering prototype

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表 1 速调管参数表

Table 1. Klystron parameters

type	beam voltage/kV	beam current/A	frequency/GHz	peak power/MW	average power/kW	gain/dB	efficiency/%	duty/%
E3730A	312	360	2.856	51	10.5	51	45	0.020
VKX-8311A	410	310	11.994	50	5	48	40	0.009

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表 2 脉冲调制器设计参数

Table 2. Design parameters of pulse modulator

pulse voltage/kV	pulse current/A	repetition rate/Hz	flat top pulse duration/μs	charge power voltage/kV	pulse flatness/%	pulse-pulse regulation/%	rise time （10%～90%）/μs	fall time （90%～10%）/μs
≥312	≥360	50	4	≤1.25	1（p-p）	0.1（p-p）	≤1.5	≤1.5

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表 3 放电回路电感分配表

Table 3. Inductance distribution table of discharge circuit

item	inductance/μH
discharge unit	＜0.05
discharge cable	＜0.05
pulse transformer connection	＜0.1
pulse transformer leakage inductance （after three coils in parallel）	＜0.2

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表 4 工程样机测试数据

Table 4. Test data of engineering prototype

parameter	pulse voltage/kV	pulse curren/A	repetition rate/Hz	flat top pulse duration/μs	rise time （10%～90%）/μs	fall time （90%～10%）/μs	pulse top fluctuation/%	pulse top down/%	charge power voltage/kV	discharge pulse current/A
0.80 kΩ resistance load	313	394	50	4.0	1.46	1.39	0.16	2.67	1150	2070
1.23 kΩ resistance load	315	257	10	2.5	0.95	1.01	−	1.8	1100	1380
0.77 kΩ water load	301	393	50	4.3	1.38	1.27	0.48	2.6	1080	2130

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表 5 测试数据对比

Table 5. Test data comparison

reference No.	pulse voltage/kV	pulse curren/A	load impedance/kΩ	peak power/MW	repetition rate/Hz	flat top pulse duration/μs	rise time （10%～90%）/μs	fall time （90%～10%）/μs	charge power voltage/kV	principle
11	325	400	0.81	130	10	2	1.0	1.8	50.0	PFN
12	450	600	0.75	270	50	2.5	1.1	1.7	26.5	PFN
13	450	400	1.13	180	100	2～10	0.5	－	4.5	solid state
14	350	414	0.85	145	120	3.5	1.5	1.0	3.0	solid state
15	80	2000	0.04	160	50	2	0.6	2.0	2.0	solid state
this article	301	393	0.77	118	50	4.3	1.38	1.27	1.25	solid state

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