OpticalPapers

Oxford research
http://dept106.eng.ox.ac.uk/wb/pages/research/optical-wireless-communications-research/past-projects/integrated-ow-transceivers.php

8]D. M. Holburn, R. J. Mears, R. J. Samsudin, V. M. Joyner, and V. A. Lalithambika, "CMOS 155-Mb/s optical wireless transmitter for indoor networks," Proceedings of the SPIE The International Society for Optical Engineering, vol. 4214, pp. 124-32, 2001.

journals
AUDEH, 1995] M. D. AUDEH, J. M. KAHN, “Performance evaluation of baseband OOK for wireless indoor infrared LAN’s operating at 100 Mb/s”, IEEE Trans. Commun. Vol. 43, no. 6, 2085-2094, June 1995

MARSH, 1994] G. W. MARSH, J. M. KAHN, “50 Mb/s diffuse infrared free space link using On-Off Keying with decision feedback equalization”, IEEE Photonics Tech. Letters, Vol. 6, no. 10, 1268-1270, 1994.

McCULLAGH, 1994] M. J. McCULLAGH, D. R. WISELEY, “155 Mb/s optical wireless link using a bootstrapped silicon APD receiver”, Electron. Lett., Vol. 30, no. 5, 430-432, 1994.

NICHOLLS, 1996] P. J. NICHOLLS, S. D. GREAVES, R. T. UNWIN, IEE Colloquium Optical Free Space Communication Links, Vol. 4, no. 1, 1996

PRUNNOT, 2003] J.-C. PRUNNOT, A. MIHAESCU, C. BOISROBERT, G. NORMAND, P BESNARD, P. PELLAT-FINET, P. GUIGNARD, F de FORNEL, F. BOURGARD, “INDEED: high bit rate infrared communications in the indoor context”, in Communicating with smart objects, edited by Kintzig C. et al., Kogan Page Science (London), 2003.

RAMINEZ-INIGUEZ, 1999] R. RAMINEZ-INIGUEZ, R. J. GREEN, Indoor optical wireless communications, IEE, Savoy Place, LONDON WC2R 0BL, UK, 1999.

SMYTH, 1993] P. P. SMYTH, M. McCULLAGH, D. WISELEY, D. WOOD, S. RITCHIE, P. EARDLEY, S. CASSIDY, “Optical wireless local area networks – enabling technologies”, BT Technol., J., Vol. 11, no. 2, 56-64, April 1993.

SMYTH, 1995] P. P. SMYTH, P. L. EARDLEY, K. T. DALTON, D. R. WISELEY, P. McKEE, D. WOOD, “Optical wireless: a prognosis”, SPIE Proc. on Wireless Data Transmission, Vol. 2601, Philadelphia, PA, 212-215, October 1995.

STREET, 1997] A. M. STREET, P. N. STAVRINOU, D. C. O’BRIEN, D. J. EDWARDS, “Indoor optical wireless systems – a review”, Optical and Quantum electronics 29. 349- 378, 1997.

SZAJOWSKI, 1998] P. F. SZAJOWSKI, G. NYKOLAK, J. J. AUBORN, H. M. PRESBY, G. E. TOURGEE, E. KOREVAAR, J. SCHUSTER, I. I. KIM, “2.4 km free-space optical communication 1550 nm transmission link operating at 2.5 Gbits/s – Experimental results” SPIE conference on optical wireless communications, Boston, Massachusetts, Vol. 3532, 1998

WONG, 2000] K. K. WONG, T. O’FARRELL, M. KIATWEERASAKUL, “Infrared wireless communication using spread spectrum techniques”, IEE Proc. Optoelectron., Vol. 147, no.4, August 2000.

YANG, 2000] H. YANG, C. LU, “Infrared wireless LAN using multiple optical sources”, IEE Proc. Optoelectron. Vol. 147, no.4, August 2000.

favorite chips
http://fab.cba.mit.edu/classes/MIT/863.03/topics/electronics/comm/favchips.html

Infra-red : Don't rebuild IrDA unless you are doing something really simple

Simple solution: just hook an IR transceiver to a USART

Complex (or at least not simple): MAX3120 - Single chip IRDA modulator: hook one end to USART and the other end to IR transceiver, 115 kbps @ 1 meter

4meg IRDA
Use the LT1328CMS8 4meg IrDa chip for data reception. Do Mpeg4Compression down to 4meg on a CctvCameras stream transmit 500m to a central node via RonjaChips IR transmitter. Main advantage of the 4meg Linear chip is the low cost of $3 and no spectrum pollution.

115kbit/s IR transceiver
http://www.1stcallelectronics.com Stock for vishay

http://www.vishay.com/ir-transceivers/list/product-82633/

http://electronicdesign.com/Articles/Index.cfm?AD=1&ArticleID=7346

Measuring 1.9 mm high, 3.1 mm deep, and 6 mm long, the TFBS4711 transceiver is designed for short-range wireless applications using infrared connectivity. It features a data rate of 115 kbits/s. The device will find homes in cell phones, PDAs, digital cameras, Point and Pay applications, or in any other situation where designers must find space for connectors, buttons, antennas, or displays required of other wireless technologies. Engineering samples are available now.

Book with links to links: Optical wireless communication: - See OpticalPapers for links from this book http://books.google.co.za/books?id=pHPuEGZcv-YC&pg=PA303&lpg=PA303&dq=sona+optical+wireless&source=bl&ots=tbIi5gAnbk&sig=RGhYM_eifq6_0V7TJdYAGeRS6J4&hl=en&ei=hmVoSr_QEoa5jAeftoG2Cw&sa=X&oi=book_result&ct=result&resnum=3

short-range in infrared wireless transceiver

T. Fuji and Y. Kikkawa, 'Optical Space Transmission Module,' Net% .... works and transmission systems, indoor LANs using free-space optical com- ...

Fuji and Y. Kikkawa, "Optical Space Transmission Module," Nat'l Tech. Report,

irda
IRMS6452 IRDA 4meg/s

Use the RonjaChips IR transmitter circuit and IrDa as the receiver.

IrDa

http://www.digchip.com/datasheets/parts/ir/parts_ir30.php

http://www.digchip.com/datasheets/parts/datasheet/513/IRM5000D.php microline

IRM7001 SIR serial infra red

links
FreeSpaceOptics