Dual-band transmitters using digitally predistorted frequency multipliers for reconfigurable radios

Two methods for reconfigurable transmitters using frequency multipliers in conjunction with digital predistortion linearizers are developed. One method utilizes a circuit topology that can be switched between a fundamental-mode in-phase combined amplifier, and a push-push frequency doubler using inp...

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Veröffentlicht in:	IEEE transactions on microwave theory and techniques 2005-01, Vol.53 (1), p.115-122
Hauptverfasser:	Youngcheol Park, Melville, R., Frye, R.C., Chen, Min, Kenney, J.S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Amplification Amplifiers Applied sciences Circuits Code division multiple access Devices Dual band Exact sciences and technology Frequency frequency multiplier Frequency multipliers Linearization Multiaccess communication Operational amplifiers power amplifier (PA) Power amplifiers Predistortion predistortion linearization Radio transmitters Radiocommunications Radiofrequency amplifiers reconfigurable radio Software radio software-defined radio Switches Telecommunications Telecommunications and information theory Transmitters Transmitters. Receivers
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creator	Youngcheol Park Melville, R. Frye, R.C. Chen, Min Kenney, J.S.
description	Two methods for reconfigurable transmitters using frequency multipliers in conjunction with digital predistortion linearizers are developed. One method utilizes a circuit topology that can be switched between a fundamental-mode in-phase combined amplifier, and a push-push frequency doubler using input phasing. Investigation to maximize output harmonics out of regular power amplifiers (PAs) was performed, and the implementation of the device was successful for the amplifier- and doubler-mode operation. To satisfy optimal load-line conditions for the operation in both modes, a bi-tuned output-combining technique is introduced as well. Measurement results indicate that the circuit is able to transmit 28 dBm of output power at 900 MHz in the amplifier mode, and 22 dBm at 1800 MHz in the doubler mode. In combination with predistortion linearization, the reconfigurable transmitter was shown to be capable of amplifying IS-95B code-division multiple-access (CDMA) signals with an adjacent-channel power ratio (ACPR) up to -58dBc/30kHz. The second suggested method utilizes a fundamental-frequency PA followed by a varactor multiplier that can be bypassed with an RF switch. A varactor-diode doubler with a saturated conversion loss of 1.3 dB was built and tested. Using predistortion linearization techniques on both the PA and doubler, an ACPR of -53dBc/30kHz at 885-kHz offset was achieved for a CDMA signal transmitted at 1850 MHz.
doi_str_mv	10.1109/TMTT.2004.839897
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One method utilizes a circuit topology that can be switched between a fundamental-mode in-phase combined amplifier, and a push-push frequency doubler using input phasing. Investigation to maximize output harmonics out of regular power amplifiers (PAs) was performed, and the implementation of the device was successful for the amplifier- and doubler-mode operation. To satisfy optimal load-line conditions for the operation in both modes, a bi-tuned output-combining technique is introduced as well. Measurement results indicate that the circuit is able to transmit 28 dBm of output power at 900 MHz in the amplifier mode, and 22 dBm at 1800 MHz in the doubler mode. In combination with predistortion linearization, the reconfigurable transmitter was shown to be capable of amplifying IS-95B code-division multiple-access (CDMA) signals with an adjacent-channel power ratio (ACPR) up to -58dBc/30kHz. The second suggested method utilizes a fundamental-frequency PA followed by a varactor multiplier that can be bypassed with an RF switch. A varactor-diode doubler with a saturated conversion loss of 1.3 dB was built and tested. Using predistortion linearization techniques on both the PA and doubler, an ACPR of -53dBc/30kHz at 885-kHz offset was achieved for a CDMA signal transmitted at 1850 MHz.</description><identifier>ISSN: 0018-9480</identifier><identifier>EISSN: 1557-9670</identifier><identifier>DOI: 10.1109/TMTT.2004.839897</identifier><identifier>CODEN: IETMAB</identifier><language>eng</language><publisher>New York, NY: IEEE</publisher><subject>Amplification ; Amplifiers ; Applied sciences ; Circuits ; Code division multiple access ; Devices ; Dual band ; Exact sciences and technology ; Frequency ; frequency multiplier ; Frequency multipliers ; Linearization ; Multiaccess communication ; Operational amplifiers ; power amplifier (PA) ; Power amplifiers ; Predistortion ; predistortion linearization ; Radio transmitters ; Radiocommunications ; Radiofrequency amplifiers ; reconfigurable radio ; Software radio ; software-defined radio ; Switches ; Telecommunications ; Telecommunications and information theory ; Transmitters ; Transmitters. 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One method utilizes a circuit topology that can be switched between a fundamental-mode in-phase combined amplifier, and a push-push frequency doubler using input phasing. Investigation to maximize output harmonics out of regular power amplifiers (PAs) was performed, and the implementation of the device was successful for the amplifier- and doubler-mode operation. To satisfy optimal load-line conditions for the operation in both modes, a bi-tuned output-combining technique is introduced as well. Measurement results indicate that the circuit is able to transmit 28 dBm of output power at 900 MHz in the amplifier mode, and 22 dBm at 1800 MHz in the doubler mode. In combination with predistortion linearization, the reconfigurable transmitter was shown to be capable of amplifying IS-95B code-division multiple-access (CDMA) signals with an adjacent-channel power ratio (ACPR) up to -58dBc/30kHz. The second suggested method utilizes a fundamental-frequency PA followed by a varactor multiplier that can be bypassed with an RF switch. A varactor-diode doubler with a saturated conversion loss of 1.3 dB was built and tested. Using predistortion linearization techniques on both the PA and doubler, an ACPR of -53dBc/30kHz at 885-kHz offset was achieved for a CDMA signal transmitted at 1850 MHz.</description><subject>Amplification</subject><subject>Amplifiers</subject><subject>Applied sciences</subject><subject>Circuits</subject><subject>Code division multiple access</subject><subject>Devices</subject><subject>Dual band</subject><subject>Exact sciences and technology</subject><subject>Frequency</subject><subject>frequency multiplier</subject><subject>Frequency multipliers</subject><subject>Linearization</subject><subject>Multiaccess communication</subject><subject>Operational amplifiers</subject><subject>power amplifier (PA)</subject><subject>Power amplifiers</subject><subject>Predistortion</subject><subject>predistortion linearization</subject><subject>Radio transmitters</subject><subject>Radiocommunications</subject><subject>Radiofrequency amplifiers</subject><subject>reconfigurable radio</subject><subject>Software radio</subject><subject>software-defined radio</subject><subject>Switches</subject><subject>Telecommunications</subject><subject>Telecommunications and information theory</subject><subject>Transmitters</subject><subject>Transmitters. 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One method utilizes a circuit topology that can be switched between a fundamental-mode in-phase combined amplifier, and a push-push frequency doubler using input phasing. Investigation to maximize output harmonics out of regular power amplifiers (PAs) was performed, and the implementation of the device was successful for the amplifier- and doubler-mode operation. To satisfy optimal load-line conditions for the operation in both modes, a bi-tuned output-combining technique is introduced as well. Measurement results indicate that the circuit is able to transmit 28 dBm of output power at 900 MHz in the amplifier mode, and 22 dBm at 1800 MHz in the doubler mode. In combination with predistortion linearization, the reconfigurable transmitter was shown to be capable of amplifying IS-95B code-division multiple-access (CDMA) signals with an adjacent-channel power ratio (ACPR) up to -58dBc/30kHz. The second suggested method utilizes a fundamental-frequency PA followed by a varactor multiplier that can be bypassed with an RF switch. A varactor-diode doubler with a saturated conversion loss of 1.3 dB was built and tested. Using predistortion linearization techniques on both the PA and doubler, an ACPR of -53dBc/30kHz at 885-kHz offset was achieved for a CDMA signal transmitted at 1850 MHz.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TMTT.2004.839897</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Amplification Amplifiers Applied sciences Circuits Code division multiple access Devices Dual band Exact sciences and technology Frequency frequency multiplier Frequency multipliers Linearization Multiaccess communication Operational amplifiers power amplifier (PA) Power amplifiers Predistortion predistortion linearization Radio transmitters Radiocommunications Radiofrequency amplifiers reconfigurable radio Software radio software-defined radio Switches Telecommunications Telecommunications and information theory Transmitters Transmitters. Receivers
title	Dual-band transmitters using digitally predistorted frequency multipliers for reconfigurable radios
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