Читать книгу Antenna-in-Package Technology and Applications - Duixian Liu - Страница 23

References

Оглавление

1 1 B. Song, CMOS RF circuits for data communications applications. IEEE Journal of Solid‐State Circuits, vol. SC‐21, pp. 310–317, February 1986.

2 2 A. Abidi, A. Rofougaran, G. Chang et al., The future of CMOS wireless transceivers. In ISSCC Digest of Technical Papers, IEEE, February 1997.

3 3 F. Eynde, J.‐J. Schmit, V. Charlier et al., A fully integrated single‐chip SoC for Bluetooth. In ISSCC Digest of Technical Papers, IEEE, February 2001.

4 4 S.K. Reynolds, B.A. Floyd, U.R. Pfiffer et al., A silicon 60‐GHz receiver and transmitter chipset for broadband communications. In ISSCC Digest of Technical Papers, IEEE, February 2001.

5 5 D. Liu, U. Pfeiffer, J. Grzyb, and B. Gaucher (eds.), Advanced Millimeter‐wave Technologies: Antennas, Packaging and Circuits. Wiley, 2009.

6 6 Y.P. Zhang, Antenna‐in‐package technology: Its early development. IEEE Antennas Propagation Magazine, vol. 61, no. 3, pp. June 2019.

7 7 K.K. O, K. Kim, B.A. Floyd et al., On‐chip antennas in silicon ICs and their applications. IEEE Transactions on Electron Devices, vol. 52, no. 7, pp. 1312–1323, July 2005.

8 8 Y. Hirachi, H. Nakano, and A. Kato, A cost‐effective RF‐module with built‐in patch antenna for millimeter‐wave wireless systems. In Proceedings of the European Microwave Conference, Munich, Germany, 5–7 October 1999.

9 9 https://www.anokiwave.com/ .

10 10 Y.X. Qian and T. Itoh, Progress in active integrated antennas and their applications. IEEE Transactions on Microwave Theory and Techniques, vol. 46, no. 11, pp. 1891–1900, November 1998.

11 11 R.E. Munson, Conformal microstrip arrays and microstrip phased arrays. IEEE Transactions on Antennas and Propagation, vol. 22, no. 1, pp. 74–78, February 1974.

12 12 W. Lin, Integrated Circuit Package Antenna, M.Sc. thesis, School of Electrical and Electronic Engineering, Nanyang Technical University, Singapore, 2003.

13 13 C.T.P. Song, P.S. Hall, H. Ghafouri‐Shiraz et al., Packaging technique for gain enhancement of electrically small antenna designed on gallium arsenide. Electronics Letters, vol. 36, no. 18, pp. 1524–1525, 2000.

14 14 C.T.P. Song, P.S. Hall, and H. Ghafouri‐Shiraz, Novel RF front end antenna package. IEE Proceedings – Microwaves, Antennas and Propagation, vol. 150, no. 4, pp. 290–294, August 2003.

15 15 K.T. Lim, A. Obatoyinbo, A. Sutono et al., A highly integrated transceiver module for 5.8 GHz OFDM communication system using multi‐layer packaging technology. In IEEE International Microwave Symposium Digest, Denver, CO, USA, 8–13 June 2001.

16 16 D.J. Mathews, R.J. Hill, M.P. Gaynor et al., Multi‐chip semiconductor package with integral shield and antenna. US Patent 6686649B1.

17 17 J. Ryckaert, S. Brebels, B. Come et al., Single‐package 5 GHz WLAN RF module with embedded patch antenna and 20 dBm power amplifier. In IEEE Microwave Symposium Digest, Philadelphia, PA, USA, 8–13 June 2003.

18 18 A.P. Popov and M.D. Rotaru, A novel integrated dielectric resonator antenna for circular polarization. In Proceedings of the IEEE Electronic Components and Technology Conference New Orleans, LA, USA, 27–30 May 2003.

19 19 K.W. Leung, The hollow DRA and its novel application as a packaging cover. Hong Kong Research Grants Council, 2004.

20 20 J.S. Castany, C. Puente, and J. Mumbruforn, Antenna‐in‐package with reduced electromagnetic interaction with on chip elements. US Patent 8330259B2.

21 21 G. Brzezina, L. Roy, and L. MacEachen, Planar antennas in LTCC technology with transceiver integration capability for ultra‐wideband application. IEEE Transactions on Microwave Theory and Techniques, vol. 54, no.6, pp. 2830–2839, June 2006.

22 22 M. Sun, Y.P. Zhang, and Y.L. Lu, Ultra‐wideband integrated circuit package antenna in LTCC. In Proceedings of the Asia Pacific Microwave Conference, Yokohama, Japan, 12–15 December 2006.

23 23 S.H. Wi, J.‐S. Kim, N.‐K. Kang et al., Package‐level integrated LTCC antenna for RF package application. IEEE Transactions on Advanced Packaging, vol. 30, no. 1, pp. 132–141, February 2007.

24 24 U.R. Pfeiffer, J. Grzyb, D. Liu et al., A chip‐scale packaging technology for 60‐GHz wireless chipsets. IEEE Transactions on Microwave Theory and Techniques, vol. 54, no. 8, pp. 3387–3397, August 2006.

25 25 N. Shino, H. Uchimura, and K. Miyazato, 77GHz band antenna array substrate for short range car radar. In Proceedings of the IEEE International Microwave Symposium Digest, Long Beach, CA, USA, 12–17 June 2005.

26 26 Y.P. Zhang, Antenna‐in‐package (AiP) technology for modern radio systems. In Proceedings of the IEEE International Workshop on Antenna Technology, New York, USA, 6–8 March 2006.

27 27 Y.P. Zhang, M. Sun, K.M. Chua et al., Antenna‐in‐package in LTCC for 60‐GHz radio. In Proceedings of the IEEE International Workshop on Antenna Technology, Cambridge, UK, 21–23 March, 2007.

28 28 http://www.sibeam.com/

29 29 Y.P. Zhang, Integrated circuit package antenna: An elegant antenna solution for single‐chip RF transceiver. In Proceedings of the Antenna Systems and Short‐Range Wireless Conference, Santa Clara, CA, USA, 22–23 September 2005.

30 30 https://www.cadence.com/

31 31 A. Panther, A. Petos, M.G. Stubbs et al., A wideband array of stacked patch antennas using embedded air cavities in LTCC. IEEE Microwave and Wireless Components Letters, vol. 15, no. 12, pp. 916–918, December 2005.

32 32 Y.P. Zhang and M. Sun, Grid array antennas and an integration structure, US Patent 8842054B2.

33 33 https://www.ieeeaps.org/about-the-transactions/best-paper-awards .

34 34 T. Tajima, H.J. Song, M. Yaita et al., 300‐GHz LTCC horn antennas based on antenna‐in‐package technology. In Proceedings of the European Microwave Conference, Durenberger, Germany, 6–11 October 2013.

35 35 W.B. Hong, K.H. Baek, and A. Goudelev, Multilayer antenna package for IEEE 802.11ad employing ultralow‐cost FR4. IEEE Transactions on Antennas and Propagations, vol. 60, no. 12, pp. 5932–5938, December 2012.

36 36 T. Kamgaing, A.A. Elsherbini, S.N. Oster et al., Low‐profile fully integrated 60 GHz 18 element phased array on multilayer liquid crystal polymer flip chip package. In Proceedings of the IEEE Electronic Components Technology Conference, San Diego, CA, USA, 26–29 May 2015.

37 37 M. Wojnowski, R. Lachner, J. Böck et al., Embedded wafer level ball grid array (eWLB) technology for millimeter‐wave applications. In Proceedings of the IEEE Electronics Packaging Technology Conference, Singapore, 7–9 December 2011.

38 38 https://www.tsmc.com/english/default.htm .

39 39 http://ase.aseglobal.com/ .

40 40 T. Zwick, C. Baks, U.R. Pfeiffer et al., Probe based MMW antenna measurement setup. In Proceedings of the IEEE Antennas and Propagation Symposium, Monterey, CA, USA, 20–25 June 2004.

41 41 T. Ito, Y. Tsutsumi, S. Obayashi et al., Radiation pattern measurement system for millimeter‐wave antenna fed by contact probe. In Proceedings of the European Microwave Conference, Rome, Italy, 29 September–1 October 2009.

42 42 K. Mohammadpour‐Aghdam, S. Brebels, A. Enayati et al., RF probe influence study in millimeter‐wave antenna pattern measurements. International Journal of Radio Frequency and Microwave Computer‐Aided Engineering, vol. 21, no. 4, July 2011.

43 43 D. Titz, F. Ferrero, and C. Luxey, Development of a millimeter‐wave measurement setup and dedicated techniques to characterize the matching and radiation performance of probe‐fed antennas. IEEE Antennas and Propagation Magazine, vol. 54, no. 4, pp.188–203, August 2012.

44 44 A.C.F. Reniers, A.R.V. Dommele, A.B. Smolders et al., The influence of the probe connection on mm‐wave antenna measurements. IEEE Transactions on Antennas and Propagation, vol. 63, no. 9, pp. 3819–3825, September 2015.

45 45 https://xcerra.com/multitest .

46 46 J.G. Lu, Synthetic Aperture Radar Design and Technology. National Defence Industry Press, Beijing, 2016.

Antenna-in-Package Technology and Applications

Подняться наверх