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Sub-GHz 근거리 무선통신을 위한 0.18 μm CMOS 전력증폭기
임정택(Jeong-Taek Lim),최한웅(Han-Woong Choi),이은규(Eun-Gyu Lee),최선규(Sun-Kyu Choi),송재혁(Jae-Hyeok Song),김상효(Sang-Hyo Kim),이동주(Dongju Lee),김완식(Wansik Kim),김소수(Sosu Kim),서미희(Mihui Seo),정방철(Bang-Chul Jung),김철영(Ch 한국전자파학회 2018 한국전자파학회논문지 Vol.29 No.11
본 논문은 0.18 μm CMOS 공정을 이용한 Sub-GHz 근거리 무선통신을 위한 전력증폭기 설계에 관한 내용이다. 가상 접지 노드를 용이하게 형성하며, 출력전력을 키울 수 있는 차동구조로 설계하였으며, breakdown으로 인한 문제를 최소화하기 위하여 cascode 구조로 설계하였다. 또한 출력전력과 Power Added Efficiency(PAE)가 최대가 되도록 트랜지스터 게이트 폭을 결정하고, matching network으로 인한 손실이 최소화하기 위해 EM simulation을 통하여 balun을 최적화하였다. 제작된 전력증폭기는 크기가 2.14 ㎟이며, 860~960 MHz의 주파수 범위에서 49.5 dB 이상의 이득과 26.7 dBm의 최대출력을 가지며, 최대효율은 20.7 %이다. A power amplifier for subgigahertz short-range wireless communication using 0.18-μm CMOS technology is presented. It is designed as a differential structure to form easily a virtual ground node, to increase output power, and to design a cascode structure to prevent breakdown. The transistor gate width was determined to maximize the output power and power-added efficiency(PAE), and the balun was optimized through electromagnetic simulation to minimize the loss caused by the matching network. This power amplifier had a gain of more than 49.5 dB, a saturation power of 26.7 dBm, a peak PAE of 20.7 % in the frequency range of 860 to 960 MHz, and a chip size of 2.14 ㎟.
Donggu Lee,Kuduck Kwon 대한전자공학회 2022 Journal of semiconductor technology and science Vol.22 No.3
This paper presents a blocker-tolerant broadband balun-low-noise transconductance amplifier (LNTA) with a high-Q dual-band LC notch filter for 5G new radio (NR) sub-6GHz cellular applications. The proposed balun-LNTA employs a noise-cancelling 1:5 CG-CS balun-LNA topology with local feedback gm-boosting and modified currentbleeding techniques to support entire bands of sub-6 GHz 5G NR application with less than 5 dB NF performance and balanced output of balun-LNTA. The dual-band Q-boosted LC notch filter with a bandswitchable differential inductor is also proposed to enhance blocker tolerance of the receiver by removing out-of-band blockers and strong transmitter leakage signals. Simulated in a 65-nm CMOS process, the designed balun-LNTA achieves a minimum noise figure of 2.38 dB, a maximum transconductance gain of 44 mS, an S11 of less than ‒10 dB over the frequency range of 50 MHz-6 GHz, an input-referred third-order intercept point of 1.82 dBm, and blocker rejection ratios of more than 15 dB. It consumes 5.9 mA from a nominal supply voltage of 1 V. Its active die area is 0.55 mm2.
Comparison of the Frequency Bands for the Wireless Sensor Networks in the Building Environment
Eunae Lee,Jeongmin Lee,Dong Sik Kim 한국인터넷방송통신학회 2016 International Journal of Internet, Broadcasting an Vol.8 No.2
In this paper, for the pratical building envoronments, the propagation properties of the electromagnetic waves of the sub-1GHz bands, including the 447MHz, 868MHz, and 715MHz, and the 2.4GHz band are experimentally observed in therms of the received signal strength indicator (RSSI) value. The compasion of the frequency bands can be utilized to efficiently construct the wireless sensor networks (WSN) for the building automation control. In order to measure the RSSI values in the building, an RSSI measurement system is first designed, in which the master part can transmit data packets and measure the corresponding RSSI values, and the slave part can respond the received data packets. Using the measurement system, the RSSI values are then experimentally measured at four types of building enviroments. From the experimental result analysis, we could notice that the sub-1GHz, especially the 447MHz band, showd a good communication performance for the building environment and could provide an efficient WSN construction when the data rate is relatively low.
Comparison of the Frequency Bands for the Wireless Sensor Networks in the Building Environment
이은애,이정민,김동식 한국인터넷방송통신학회 2016 International Journal of Internet, Broadcasting an Vol.8 No.2
In this paper, for the pratical building envoronments, the propagation properties of the electromagnetic waves of the sub-1GHz bands, including the 447MHz, 868MHz, and 715MHz, and the 2.4GHz band are experimentally observed in therms of the received signal strength indicator (RSSI) value. The compasion of the frequency bands can be utilized to efficiently construct the wireless sensor networks (WSN) for the building automation control. In order to measure the RSSI values in the building, an RSSI measurement system is first designed, in which the master part can transmit data packets and measure the corresponding RSSI values, and the slave part can respond the received data packets. Using the measurement system, the RSSI values are then experimentally measured at four types of building enviroments. From the experimental result analysis, we could notice that the sub-1GHz, especially the 447MHz band, showd a good communication performance for the building environment and could provide an efficient WSN construction when the data rate is relatively low.
Comparison of the Frequency Bands for the Wireless Sensor Networks in the Building Environment
Lee, Eunae,Lee, Jeongmin,Kim, Dong Sik The Institute of Internet 2016 International Journal of Internet, Broadcasting an Vol.8 No.2
In this paper, for the pratical building envoronments, the propagation properties of the electromagnetic waves of the sub-1GHz bands, including the 447MHz, 868MHz, and 715MHz, and the 2.4GHz band are experimentally observed in therms of the received signal strength indicator (RSSI) value. The compasion of the frequency bands can be utilized to efficiently construct the wireless sensor networks (WSN) for the building automation control. In order to measure the RSSI values in the building, an RSSI measurement system is first designed, in which the master part can transmit data packets and measure the corresponding RSSI values, and the slave part can respond the received data packets. Using the measurement system, the RSSI values are then experimentally measured at four types of building enviroments. From the experimental result analysis, we could notice that the sub-1GHz, especially the 447MHz band, showd a good communication performance for the building environment and could provide an efficient WSN construction when the data rate is relatively low.
Diversity characteristics of four-element ring slot-based MIMO antenna for sub-6-GHz applications
Vipul Kaushal,Amit Birwal,Kamlesh Patel Electronics and Telecommunications Research Instit 2023 ETRI Journal Vol.45 No.4
This paper proposes four-ring slot resonator-based MIMO antennas of 75×150 mm<sup>2</sup> without and with CSRR structures in the sub-6-GHz range. These orthogonal-fed antennas have shown diverse characteristics with dual polarization. L-shaped parasitic structures have increased the isolation (i.e., >40 dB) in the single-element antenna over the band of 3.4 GHz-3.8 GHz. A set of three CSRR structures in the MIMO antenna reduced the coupling between antenna ports placed in an inline arrangement and enhanced the isolation from 12 dB to 20 dB and the diversity characteristics. The S-parameters of both MIMO antennas are measured and used to evaluate MIMO parameters like ECC, TARC, MEG, and channel capacity loss. The simulation results show the variations in the gain and directivity on exciting linear and dual polarizations. The diversity performance of the reported MIMO antennas is suitable for 5G applications.