ZHANG Yin-qi,JIA Bo,LI Le-zhong.IDPA Simulation and Optimization Design of 4 G System based on ADS[J].Journal of Chengdu University of Information Technology,2018,(02):137-142.[doi:10.16836/j.cnki.jcuit.2018.02.006]
基于ADS的4 G飞地系统的IDPA仿真与优化设计
- Title:
- IDPA Simulation and Optimization Design of 4 G System based on ADS
- 文章编号:
- 2096-1618(2018)02-0137-06
- 关键词:
- ADS; 4 G系统; 反向Doherty功率放大器; 功率附加效率
- 分类号:
- TP391.9
- 文献标志码:
- A
- 摘要:
- 基站通信中,功率放大器常用的平衡式结构线性度高但效率低,在保证高线性度的前提下为提高效率,设计了一款反向Doherty结构的功率放大器,工作于TD-LTE频段(1880~1920 MHz),可以用于4 G飞地系统中远端机的末级功率放大,有效地提高基站的信号传输。仿真结果显示,在中心频点1900 MHz附近,峰值输出功率(53 dBm)处和回退点(44.5 dBm)处的功率附加效率分别为62.8%和38.5%,相比于平衡式结构效率提高了13.5%,二次谐波和三次谐波均大于37 dBc。最后通过实物调试及测试验证了仿真的有效性,且额定输出功率44.5 dBm时开环ACPR±20 M大于32 dBc,该设计满足基站应用。
- Abstract:
- In base station communication, the balanced structure of the power amplifier is of high linearity but low efficiency. To increase efficiency under the premise of high linearity, an inverted Doherty power amplifier(IDPA), which works on the TD-LTE band(1880-1920 MHz), is designed on the basis of the ADS simulation platform. It can be used for the last stage power amplification of the remote terminal in the 4 G system to effectively improve the signal transmission of the base station. Near the central frequency of 1900 MHz, the power added efficiency at the peak output power(53 dBm)and the back point(44.5 dBm)is 62.8% and 38.5% respectively, and the efficiency of the IDPA structure is about 13.5% higher than that of the balanced structure. The two and three harmonics are more than 37 dBc. At last, the effectiveness of the simulation is verified through the physical debugging and testing. The open loop ACPR±20 M is more than 32 dBc when the rated output power is44.5 dBm. The design meets the application of base station.
参考文献/References:
[1] Doherty W H.A new high efficiency power amplifier for modulated waves[J].Proceedings of the Institute of Radio Engineers,1936,24(9):1163-1182.
[2] Wu Cong Jie,Guan Ya Lin.Design and simulation of driver stage power amplifier[C].Advanced Research and Technology in Industry Applications(WARTIA),2014 IEEE Workshop on.Ottawa:IEEE,2014:1265-1267.
[3] Marbel M N,Simcoe M,Wilson R,et al.A load-pull-based behavioral model for Doherty PA design[C].Wireless and Microwave Technology Conference(WAMICON),2011:1-5.
[4] Nick M,Mortazawi A.Adaptive input-power distribution in Doherty power amplifiers for linearity and efficiency enhancement[J].IEEE Transactions on Microwave Theory and Techniques,2010,58(11):2764-2771.
[5] Lee J,Son J,Kim B.Optimised Doherty power amplifier with auxiliary peaking cell[J].Electronics Letters,2014,50(18):1299-1301.
[6] Bouny J J.A high efficiency 250W LDMOS amplifier for polar transmitter at 940MHz[C].Microwave Symposium Digest(MTT),2011 IEEE MTT-S International.Baltimore,MD:IEEE,2011:1-4.
[7] Darraji R,Ghannouchi F M,Hammi O.A dual-input digitally driven Doherty amplifier architecture for performance enhancement of Doherty transmitters[J].IEEE Transactions on Microwave Theory & Techniques,2011,59(5):1284-1293.
[8] Grebennikov A,Bulja S.High-Efficiency Doherty Power Amplifiers:Historical Aspect and Modern Trends[J].Proceedings of the IEEE,2012,100(12):3190-3219.
[9] Kim J H,Cha J H,Kim I D,et al.Optimum operation of asymmetriacal-cells-based linear Doherty power amplifiers-uneven power drive and power matching[J].IEEE Trans Microwave Theory Tech,2005,53(5):1802-1809.
[10] Srirattana N,Raghavan A,Heo D,Allen PE,et al.Analysis and design of a high efficiency multistage Doherty power amplifier for wireless communications[J].IEEE Transactions on Microwave Theory & Techniques,2005,53(3):852-860.
[11] Kim M S,Cho H,Ahn G H,et al.The efficiency improvement of a compact inverted Doherty amplifier using bias line adjustment[C].Asia-Pacific Microwave Conference,2007.
[12] Ahn G,Kim M S,Park H C,et al.Design of high efficiency and high power inverted Doherty amplifier[J].IEEE Transactions on Microwave Theory & Techniques,2007,55(6):1105-1111.
[13] Cho H,Kim M S,Jeong J,et al,A 30W cartesian feedback transmitter with 40% efficiency incorporating an inverted Doherty amplifier[C].Asia-Pacific Microwave Conference,2007.
[14] 郑璇.高效率双频Doherty功率放大器的研究与设计[D].北京:北京邮电大学,2014.
[15] 张敏翔,汤碧玉,吴晓芳,等.基于ADS平台反向Doherty结构的功率放大器的设计与仿真[J].厦门大学学报,2011,50(4):729-733.
[16] 南敬强,王艳强,方杨.基于双向牵引技术的反向Doherty功率放大器设计[J].激光杂志,2014,35(8):69-73.
[17] http://www.ampleon.com/products/mobile-broadband/2.0-2.2-ghz-transistors/BLP8G21S-160PV.html[EB/OL].
备注/Memo
收稿日期:2017-12-25基金项目:国家自然科学基金青年科学资金资助项目(51502025)