TY - GEN
T1 - A constant envelope modulation method using orthogonal frequency allocated multi-carrier MSK for broadband wireless system
AU - Ta, Tuan Thanh
AU - Oshima, Shoichi
AU - Oguma, Hiroshi
AU - Kameda, Suguru
AU - Takagi, Tadashi
AU - Tsubouchi, Kazuo
PY - 2010/12/1
Y1 - 2010/12/1
N2 - With progression of scaling technique in silicon complementary metal-oxide semiconductor (Si-CMOS) process, it is available to produce radio frequency (RF) circuits using Si-CMOS for broadband wireless system, to reduce cost and size of devices. But in contrast, Si-CMOS RF circuit is deteriorated from circuits which use compound semiconductors. In order to reduce RF circuit's requirements, we propose a multi-carrier transmission with constant envelope modulation for high speed wireless system. Modulating method for sub-carrier is minimum shift keying. All sub-carriers are processed individually to reduce operating bandwidth requirement of intermediate frequency devices, and to keep envelope of input signal of power amplifier (PA) constant, so that the requirements of PAs can be reduced. Moreover, to reduce overall RF bandwidth, sub-carriers are allocated with overlaps. In the case of using 4 sub-carriers, we can get 375MHz baseband bandwidth and 2250MHz RF bandwidth, for 2Gbps system. Then the spectral efficiency is 0.89bit/s/Hz. The degradation of bit error rate is negligibly small.
AB - With progression of scaling technique in silicon complementary metal-oxide semiconductor (Si-CMOS) process, it is available to produce radio frequency (RF) circuits using Si-CMOS for broadband wireless system, to reduce cost and size of devices. But in contrast, Si-CMOS RF circuit is deteriorated from circuits which use compound semiconductors. In order to reduce RF circuit's requirements, we propose a multi-carrier transmission with constant envelope modulation for high speed wireless system. Modulating method for sub-carrier is minimum shift keying. All sub-carriers are processed individually to reduce operating bandwidth requirement of intermediate frequency devices, and to keep envelope of input signal of power amplifier (PA) constant, so that the requirements of PAs can be reduced. Moreover, to reduce overall RF bandwidth, sub-carriers are allocated with overlaps. In the case of using 4 sub-carriers, we can get 375MHz baseband bandwidth and 2250MHz RF bandwidth, for 2Gbps system. Then the spectral efficiency is 0.89bit/s/Hz. The degradation of bit error rate is negligibly small.
KW - Broadband
KW - MSK
KW - Multi-carrier
KW - Wireless
UR - http://www.scopus.com/inward/record.url?scp=78751519852&partnerID=8YFLogxK
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U2 - 10.1109/ICCE.2010.5670720
DO - 10.1109/ICCE.2010.5670720
M3 - Conference contribution
AN - SCOPUS:78751519852
SN - 9781424470587
T3 - ICCE 2010 - 3rd International Conference on Communications and Electronics
SP - 253
EP - 257
BT - ICCE 2010 - 3rd International Conference on Communications and Electronics
T2 - 3rd International Conference on Communications and Electronics, ICCE 2010
Y2 - 11 August 2010 through 13 August 2010
ER -