论文信息 - Three dimensional polarization controllable electromagnetic cell

Three dimensional polarization controllable electromagnetic cell

We demonstrate an electromagnetic (EM) cell that can generate uniform electric field with three dimensional (3D) polarization dynamic control for the EM compatibility/interference (EMC/EMI) testing. 3D orthogonal slotline structures are designed and utilized to build the walls of the EM cell. By feeding the slotlines in phase and terminating them with matching loads, the uniform electric field similar to a standing wave is produced by two slotline modes propagating in opposite directions inside the cell. Microwave switches are integrated into the slotlines so that we can choose the operating slotline dynamically and change its orientation in a 3D manner by adjusting the ON/OFF state of the appropriate switches. As a result, the polarization of the EM field generated by the operating slotline will be changed orthogonally in 3D. Both simulation and experiment show that a polarization controllable uniform electric field can be achieved in the center region of the EM cell from DC frequency to its first EM resonance frequency, enabling EMC/EMI testing more flexibly without rotating the device under test.

[1] C. Leat,et al. Targeted Resonance Control in a TEM Cell , 2008, IEEE Transactions on Electromagnetic Compatibility.

[2] C. Leat,et al. Control of the TE$_{\bf 111}$ Resonance inan Asymmetric TEM Cell , 2008, IEEE Transactions on Electromagnetic Compatibility.

[3] Hyuckjae Lee,et al. Straight coupled transmission-line cell for generating standard electromagnetic fields , 2002 .

[4] Jean-Pierre Ghys,et al. On the use of 3-D TEM cells for total radiated power measurements , 2002 .

[5] A new transmission-line device with double-polarization capability for use in radiated EMC tests , 2001 .

[6] Jongdae Kim,et al. Performance of coupled transmission line cell for generating standard EM fields , 1998 .

[7] Hyuck-Jae Lee,et al. Design and analysis of six port-TEM cell for generating standard electromagnetic fields , 1996 .

[8] Comparison of analysis of a WTEM cell with standard TEM cells for generating EM fields , 1993 .

[9] Hills Da,et al. Resonance suppression in a TEM cell , 1983 .

[10] D. Hill,et al. Resonance suppression in a TEM cell. , 1983, The Journal of microwave power.

[11] K. Gupta,et al. Microstrip Lines and Slotlines , 1979 .

[12] Myron Crawford,et al. Expanding the Bandwidth of TEM Cells for EMC Measurements , 1978, IEEE Transactions on Electromagnetic Compatibility.

[13] Myron L. Crawford,et al. Generation of Standard EM Fields Using TEM Transmission Cells , 1974 .