Development of Time Gapped Communication Commutator

TAO Xiao-Ping; WANG Gui-Cheng; GAO Yun-Feng; LIANG Xin

Chinese Physics C> 2001, Vol. 25> Issue(11) : 1128-1132

Development of Time Gapped Communication Commutator

National Synchro Tron Radiation Laboratory, University of Science and Technology of China, Hefei 230029, China2 The First Computer Factory of Peking, The First Design Chamber, Beijing 100080, China

Abstract
HTML
Reference
Related

PDF

Abstract：
Time gapped communication commutator is designed for normal communication in strong electromagnetic interference region. There is strong electromagnetic noise in National Synchronization Radiation Lab, which interferences with the normal communication. In order to explore the feasibility of normal communication in strong EMI region, the commutator has been cooperately developed. This article expounds the physics design, the circuit and work process, and spot communication test of the commutator. The spot test result indicates that the communication commutator has the ability of anti interference, and the commutator can normally communicate in the strong EMI region.

References

[1]

. TAO Xiao-Ping,WANG Gui-Cheng.Nuclear Techniques,2001,24(6):491—496(in Chinese)(陶小平,王贵诚.核技术,2001,24(6):491—496)2. Ott. Henry W .Noise Reduction Techniques in Electronic Systems.1976.128—141 3. WANG Zhi-Hua.Electronic Production World,2000,2:49—51(in Chinese)(王志华.电子产品世界,2000,2:49—51) 4. WANG Xing-Zhi.Theory of 80518089 Singlechip and Interface Technique.Beijing: Publishing House of Weapon Industry,1998.157—160(in Chinese)(王幸之.80518098单片机原理及接口技术.北京:兵器工业出版社,1998.157—160)

[1]	ZHENG Shu-Xin , TANG Chuan-Xiang , LIN Yu-Zheng , CHEN Huai-Bi , TONG De-Chun , SHI Jia-Ru , XU Gang , LIU Yao-Hong , LIU Jin-Sheng , HE Yu , GUAN Wei-Qiang , LI Guo-Hua . Development of High Power Irradiating Accelerator. Chinese Physics C, 2008, 32(S1): 226-228.
[2]	XU Wen-Can , WANG Fang , LU Xiang-Yang , ZHU Feng , QUAN Shen-Wen , ZHANG Bao-Cheng , HAO Jian-Kui , ZHAO Kui . Experiment Study of Improved TESLA Style HOM Coupler. Chinese Physics C, 2007, 31(3): 300-302.
[3]	YAN Zhen , FENG Cun-Feng , ZHU Cheng-Guang , SUN Yan-Sheng , ZHANG Nai-Jian , HE Mao . Development of T9 Type Thin Gap Chamber and the Measurement of the Detection Efficiency. Chinese Physics C, 2006, 30(1): 52-56.
[4]	GEN Zhe-Qiao , HOU Mi , PEI Guo-Xi . PAD Design for the Phasing System of BEPCⅡ Linac. Chinese Physics C, 2006, 30(2): 151-154.
[5]	CHU Jian-Hua , ZHAO Zhen-Tang . The Design of C-Band Cavity Type Beam Position Monitor. Chinese Physics C, 2006, 30(4): 344-348.
[6]	WANG Gui-Mei , WU Wen-Zong , LU Xiang-Yang , ZHANG Bao-Cheng , QUAN Sheng-Wen , ZHU Feng , LIN LIN , JIAO Fei , ZHAO Kui . The Improvement study of TESLA style HOM Coupler. Chinese Physics C, 2006, 30(3): 242-245.
[7]	TANG Ze-Bo , LI Xin , AN Shao-Hui , CHEN Hong-Fang , HENG Yue-Kun , LI Cheng , SHAO Ming , SUN Yong-Jie , WANG Yi-Fang , WU Chong , ZENG Hui , ZHAO Li , ZHAO Xiao-Jian . R&D of the TOF Detector for BESⅢ. Chinese Physics C, 2006, 30(5): 445-448.
[8]	YAN Sheng-Quan , GUO An-Qiao , LIAN Gang , LIU Wei-Ping , LI Zhi-Hong , BAI Xi-Xiang , WANG Bao-Xiang , ZENG Sheng , GUO Bing . Development of Multi-Ring Semiconductor Detectors. Chinese Physics C, 2005, 29(7): 677-681.
[9]	TAN Ji-Lian , JIN Gen-Ming , WANG Hong-Wei , DUAN Li-Min , YUAN Xiao-Hua , WANG Xiao-Bing , LI Song-Lin , LU Zi-Wei , XU Hu-Shan , NING Bao-Jun , TIAN Da-Yu , WANG Wei , ZHANG Lu . Development of Si Multi-Strip Detector. Chinese Physics C, 2005, 29(4): 383-386.
[10]	DING Bo-Nan , ZHANG Kai-Zhi , WEN Long , WANG Meng , DAI Zhi-Yong , ZHANG Wen-Wei , LI Hong , WANG Wen-Dou , LI Jin , YANG An-Min , XIE Yu-Tong , CHEN Si-Fu , WANG Hua-Cen , DAI Guang-Sen , SHI Jin-Shui , ZHANG Lin-Wen , DENG Jian-Jun . Development of Dragon-I Injector. Chinese Physics C, 2005, 29(3): 219-223.
[11]	CUI Xiang-Zong , LI Jia-Cai , LIU Zheng-Quan , WU Yuan-Ming , ZHANG Liang-Sheng , ZHOU Bao-Qing , ZHAO Xiao-Jian , ZHANG Shao-Ping , LIU Shi-Xing , ZHENG Lin-Sheng . Cherenkov Counter for Particle Identification Teat Beam. Chinese Physics C, 2004, 28(8): 870-876.
[12]	DAI Chang-Jiang , HE Hui-Lin , YE Zi-Piao , SHENG Xiang-Dong . Development of a New Detector for Solar Neutrino Detection. Chinese Physics C, 2004, 28(5): 526-531.
[13]	Chen Pengfei , Zhang Mingchao , Li Xinmin , Wang Yuhong . Research and Design of Electron Gun of Electrocurtain. Chinese Physics C, 1998, 22(6): 564-569.
[14]	MAO Yu-Fang , GUO Zhao-Qiao , ZHANG Xiu-Feng . The Study of the Silicon Microstrip Detector. Chinese Physics C, 1993, 17(9): 784-789.
[15]	ZHU Yong-Sheng . THE MEASUREMENT OF GAS TIGHTNESS OF GAS DETECTOR WITH FLOW MODE. Chinese Physics C, 1989, 13(1): 1-4.
[16]	LEI Chuan-Heng . A NEW KIND OF POCKET GAMMA-NEUTRON DOSERATE CHIRPER. Chinese Physics C, 1987, 11(5): 609-613.
[17]	WANG Chao-Jun , WANG Dian-Rong , LIN Jian-Feng , JIANG Ying-Yuan , XU Yu-Lin , XI Ji-Wei . THE PERFORMANCE OF A LARGE AREA PLASTIC SCINTILLATION COUNTER FOR TOF MEASUREMENT. Chinese Physics C, 1985, 9(4): 498-501.
[18]	WANG Xiao-Liang , CHEN Yuan-Bo , LIN Jian-Feng , ZHANG Jia-Quan , XU Yu-Lin , HAN Shu-Rong . INDUCED READOUT SELF-QUENCHING STREAMER COUNTER. Chinese Physics C, 1985, 9(4): 493-497.
[19]	LU Chang-Guo . PERFORMANCE OF THE PARALLEL MULTIPLATE AVALANCHE CALORIMETER. Chinese Physics C, 1983, 7(3): 285-293.
[20]	COUNTER GROUP , , , , , , , , , , . 2-METER THRESHOLD GAS CERENKOV DETECTOR. Chinese Physics C, 1982, 6(6): 775-777.

Access

Get Citation

TAO Xiao-Ping, WANG Gui-Cheng, GAO Yun-Feng and LIANG Xin. Development of Time Gapped Communication Commutator[J]. Chinese Physics C, 2001, 25(11): 1128-1132.

TAO Xiao-Ping, WANG Gui-Cheng, GAO Yun-Feng and LIANG Xin. Development of Time Gapped Communication Commutator[J]. Chinese Physics C, 2001, 25(11): 1128-1132. shu

RIS(for EndNote,Reference Manager,ProCite)

BibTex

Txt

Milestone

Received: 2000-12-29
Revised: 1900-01-01

Article Metric

Article Views(3716)
PDF Downloads(529)
Cited by(0)

Policy on re-use

To reuse of subscription content published by CPC, the users need to request permission from CPC, unless the content was published under an Open Access license which automatically permits that type of reuse.

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Development of Time Gapped Communication Commutator

Corresponding author: TAO Xiao-Ping,

National Synchro Tron Radiation Laboratory, University of Science and Technology of China, Hefei 230029, China2 The First Computer Factory of Peking, The First Design Chamber, Beijing 100080, China

Received Date: 2000-12-29
Accepted Date: 1900-01-01
Available Online: 2001-11-05

Abstract: Time gapped communication commutator is designed for normal communication in strong electromagnetic interference region. There is strong electromagnetic noise in National Synchronization Radiation Lab, which interferences with the normal communication. In order to explore the feasibility of normal communication in strong EMI region, the commutator has been cooperately developed. This article expounds the physics design, the circuit and work process, and spot communication test of the commutator. The spot test result indicates that the communication commutator has the ability of anti interference, and the commutator can normally communicate in the strong EMI region.