A 0.9-2.6 GHz Broadband RF Front-End Chip-Set with a Direct Conversion Architecture(Special Issue on Software Defined Radio Technology and Its Applications)

スポンサーリンク

概要

• 論文の詳細を見る

• A broadband RF front-end having a direct conversion architecture has been developed. The RF front-end consists of two broadband quadrature mixers, a multi-band local oscillator, and a broadband low-noise variable gain amplifier (LNVGA). The mixer achieve broadband characteristics through the incorporation of an in-phase power divider and a 45-degree power divider. The in-phase power divider achieves broadband characteristics through the addition of a compensation capacitor. The 45-degree power divider achieves broadband phase characteristics through the addition of a compensation capacitor and a compensation resistor. The local oscillator, which is composed of two VCOs, two frequency dividers, and four switches, can cover three systems including one FDD system. The LNVGA achieves its broadband characteristics without the use of reactance elements, such as inductors or capacitors. In a trial demonstration, when the RF frequency was between 900 MHz and 2.5 GHz, the mixer for a demodulator experimentally demonstrated an amplitude balance of less than 1.6 dB and a quadrature phase error of less than 3 degrees. When the RF frequency was between 900 MHz and 2.5 GHz, the mixer for a modulator demonstrated an image ratio of less than -30 dBc. The local oscillator demonstrated multi-band characteristics, which are able to cover the target frequencies for three systems (PDC, PHS, 2.4 GHz WLAN). From 900 MHz to 2.5 GHz, the amplifier shows a noise figure of less than 2.1 dB and a gain of 28 ± 1.6 dB.

• 社団法人電子情報通信学会の論文
• 2002-12-01

著者

• ARAKI Katsuhiko

  NTT Network Innovation Laboratories, NTT Corporation

• NISHIKAWA Kenjiro

  NTT Network Innovation Laboratories, NTT Corporation

• Nakagawa Tadao

  Ntt Network Innovation Laboratories

• KAWASHIMA Munenari

  NTT Network Innovation Laboratories

• HAYASHI Hitoshi

  NTT Network Innovation Laboratories

• Araki Katsuhiro

  Ntt Network Innovation Laboratories

• Nakagawa T

  Ntt Network Innovation Laboratories Ntt Corporation

• Araki Katsuhiko

  Ntt Network Innovation Laboratories Ntt Corporation

• Hayashi Hitoshi

  Ntt Corp. Yokosuka‐shi Jpn

• Nishikawa Kenjiro

  Ntt Network Innovation Laboratories Ntt Corporation

• Nishikawa Kenjiro

  Ntt Network Innovation Laboratories

関連論文

• Spreading Code Assignment for Multicarrier CDMA System over Frequency-Selective Fading Channels(Terrestrial Radio Communications)
• Inter-Code Interference and Optimum Spreading Sequence in Frequency-Selective Rayleigh Fading Channels on Uplink MC-CDMA(Signal Processing for Communications)(Digital Signal Processing)
• A Phase Interpolation Direct Digital Synthesizer with a Symmetrically Structured Delay Generator (Special Issue on Microwave and Millimeter Wave Technology)
• A Fast Frequency Switching Synthesizer with a Digitally Controlled Delay Generator(Special Section on Fundamentals of Multi-dimensional Mobile Information Network)
• B-5-83 Evaluation of Inter-code Interference on Uplink MC-CDMA
• A New Non-Pair Diffusion Based Dopant Pile-up Model for Process Designers and Its Prediction Accuracy(the IEEE International Conference on SISPAD '02)
• TCAD Driven Drain Engineering for Hot Carrier Reduction of 3.3 V I/O PMOSFET(the IEEE International Conference on SISPAD '02)
• A Simplified Dopant Pile-Up Model for Process Simulators(Regular Section)
• A Simplified Process Modeling for Reverse Short Channel Effect of Threshold Voltage of MOSFET
• Systematic Yield Simulation Methodology Applied to Fully-Depleted SOI MOSFET Process (Special lssue on SISPAD'99)
• Series-Fed Beam-Scanning Antenna Employing Multi-Stage Configured Microstrip Antennas with Tunable Reactance Devices(2004 International Symposium on Antennas and Propagation)
• Inverse Modeling and Its Application to MOSFET Channel Profile Extraction (Special Issue on TCAD for Semiconductor Industries)
• Radial Open Stub and Its Application to a Simple Design of a Four-element Planar Butler Matrix
• Design of Broad-Band Four-Way Power Divider with 45-Degree Phase Differences between Output Ports(Special Issue on Signals, Systems and Electronics Technology)
• A Monolithic Microwave-Integrated Circuit Doubler Using a Resonant-Tunneling High-Electron-Mobility Transistor
• An MMIC Resonant-Tunneling HEMT Doubler
• Three-Dimensional MMIC Technology on Silicon : Review and Recent Advances(Special Issue on Silicon RE Device & Integrated Circuit Technologies)
• Quick Development of Multifunctional MMICs by Using Three-Dimensional Masterslice MMIC Technology (Special Issue on High-Frequency/speed Devices in the 21st Century)
• Three-Dimensional Passive Elements for Compact GaAs MMICs (Special Issue on Microwave and Millimeter-Wave Technology for Advanced Functioions and Size-Reductions)
• A High-Efficiency Linear Power Amplifier with a Novel Output Power Control Technique(Special Issue on Microwave and Millimeter-Wave Module Technology)
• A Novel Optical Control Technique Using Tunable Inductance Circuits
• An Analysis of Multi-Layer Inductors for Miniaturizing of GaAs MMIC
• A Novel Adaptive Linearization Technique for a Balanced-Amplifier Array(Microwaves, Millimeter-Waves)
• A Monolithic Linearizer Using an Even-Order-Distortion Controller for an S-Band High Power Amplifier(Special Issue on Low-Distortion, High-Power, High-Efficiency Active Device and Circuit Technology)
• A Miniaturized In-Phase Power Divider with a DC Block Function(Microwaves, Millimeter-Waves)
• Miniaturized Broadband Lumped-Element In-Phase Power Dividers(Analog Circuits and Related SoC Integration Technologies)
• An Active Terminal Circuit and Its Application to a Distributed Amplifier(Analog Circuits and Related SoC Integration Technologies)
• Improved Broadband Operation of Rat-race Hybrid and Balanced Active Doubler: Analysis and Demonstration
• Improved Broadband Operation of Rat-race Hybrid and Balanced Active Doubler : Analysis and Demonstration
• A 0.9-2.6 GHz Broadband RF Front-End Chip-Set with a Direct Conversion Architecture(Special Issue on Software Defined Radio Technology and Its Applications)
• A Novel Distortion Compensation Technique Using an Active Inductor (Special Issue on Low Distortion Technology for Microwave Devices and Circuits)
• Miniaturized Lumped-Element Power Dividers with a Filtering Function
• A Band-Divided Receiver Prototype for Wideband Optical Signals
• Analyses of Antenna Displacement in Short-Range MIMO Transmission over Millimeter-Wave
• Survey of RFID and Its Application to International Ocean/Air Container Tracking
• Effects of weight errors on capacity in simple decoding of short-range MIMO transmission
• Multiband Sector Antenna with the Same Beamwidth Employing Multiple Woodpile Metamaterial Reflectors

もっと見る 閉じる

スポンサーリンク