Carleton University Department of Electronics
 Antennas, Microwaves, Power, Packaging, Sensors (AMPPS) Group

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Integrated Antennas
Journal Papers

Conference Papers
Passive Microwave Circuits
Journal Papers


Conference Papers
Active Microwave Circuits
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Sensors & Measurements
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Conference Papers
 Journal Papers

1. A. Shamim, L. Roy, et.al., "24 GHz differential integrated antennas in 10ohm-cm bulk silicon", IEEE Transactions on Antennas & Propagation, July 2007 (accepted paper).

2. G. Brzezina, L. Roy, et.al., "Planar Antennas in LTCC Technology with Transceiver Integration Capability for Ultra-Wideband Applications", in Microwave Theory and Techniques, IEEE Transactions on/, /Volume 54, Issue 6, June 2006, Page(s):2830 – 2839.

3. G. Brzezina, L. Roy, et.al., "Development of a Practical Ultra-Wideband Antenna with Planar Circuit Integration Possibilities", in Antennas and Propagation Symposium, IEEE proceedings/, /Volume 3A, 3-8 July 2005, Page(s):504 – 507.

4. G. Brzezina, L. Roy, et.al., "LTCC Ultra-Wideband Antenna with Transceiver Integration Capability", European Microwave Conference/, /Volume 3, Oct. 4-6, 2005 Page(s):2011 – 2014.

 Conference Papers

1. A. Shamim, L. Roy, et.al., "5.2 GHz VCO Transmitter with On-Chip Antenna for Biomedical Sensor Applications ", URSI, Ottawa Canada, Jul 2007.

2. A. Shamim, L. Roy, et.al., "Microwave and Magnetostatic Characterization of Ferrite LTCC for Tunable and Reconfigurable SiP Applications", IEEE MTT-S, Hawaii USA, pp. 691-694, Jun 2007.

3. V. Karam, A. Shamim, et.al., "A 6.3 GHz BFSK Transmitter With On-Chip Antenna for Self Powered Medical Sensor Applications," IEEE RFIC, Hawaii USA, pp. 101-104, Jun 2007.

4. P. Popplewell, A. Shamim, et.al.,"A 5.2 GHz BFSK Receiver with On-Chip Antenna for Self-Powered RFID Tags and Medical Sensors," IEEE RFIC, Hawaii USA, pp. 669-672, Jun 2007.

5. P. Popplewell, A. Shamim, et.al., "An Injection-Locked 5.2 GHz SoC Transceiver with On-Chip Antenna for Self-Powered RFID and Medical Applications," IEEE VLSI, Kyoto Japan, Jun 2007.

6. A. Shamim, L. Roy, et.al., "5.2 GHz Differential LTCC Antenna and Balun for Biomedical System in Package (SiP) Application", IEEE IWAT, Cambridge UK, pp. 443-446, Mar 2007.

7. A. Shamim, L. Roy, et.al., "Evaluation of Ferrite LTCC SiP Technology for Microwave Applications", Microwave Materials and Applications Conference, Oulu Finland, Jun 2006.

8. P. Popplewell, A. Shamim, et.al., "A Self-Powered, 5.2 GHz, Lock and Roll Transceiver using Oscillator Injection-Locking and On-Chip Antennas," IEEE ISCAS, Greece, pp. 5203-5206, Jun 2006.

9. A. Shamim, L. Roy, et.al., "Silicon Differential Antenna/ Inductor for Short Range Wireless Communication Applications", IEEE CCECE, Ottawa Canada, pp. 94-97, May 2006.

10. A. Shamim, L. Roy, et.al., "5.2 GHz On-Chip Antenna/ Inductor for Short Range Wireless Communication Applications", IEEE IWAT, New York USA, pp. 213-216, Mar 2006.

11. G. Brzezina, L. Roy, et.al., "A Broadband Monopole using LTCC Technology for WLAN Applications", Antenna Technology Small Antennas and Novel Metamaterials, 2006 IEEE International Workshop on, March 6-8, 2006
Page(s):285 – 288.

12. A. Shamim, L. Roy, et.al., "Silicon Substrate and Metallization Effects on 24 GHz On-Chip Antennas" Canadian Semiconductor Technology Conference, Ottawa Canada, Aug 2005.

13. A. Shamim, L. Roy, et.al., "24 GHz differential integrated antennas in 10 ohm-cm bulk silicon", IEEE APS, Washington USA, pp. 536-539, Jul 2005 (Best student paper finalist).

14. A. Shamim, L. Roy, et.al., "On-chip antenna measurements: Calibration and De-embedding consideration", IEEE IMTC, Ottawa Canada, pp. 463-466, May 2005.

15. A. Shamim, L. Roy, et.al., "Si monolithic antenna calibration and de-embedding considerations", ANTEM, Ottawa Canada, pp. 97-100, Jul. 2004.

Last Updated: 2007