RF and Microwave Circuit Design for Wireless CommunicationsRF and Microwave Circuit Design for Wireless Communications addresses the complicated modulation schemes and higher frequencies required of today's wireless communications circuits. Covering cutting-edge developments in mixer circuits, frequency synthesizers, amplifier design, noise, and the future of wireless communication, it helps you design applications for digital cellular telephony, wireless LANs, PCS, GaAs and high-speed silicon bipolar IC technology, and low-power RF circuit technology. |
Contents
References | 15 |
LowPower Radio Frequency ICs for Portable | 43 |
6 | 62 |
Copyright | |
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Common terms and phrases
achieve active amplifier amplitude analog applications approach balanced band bandwidth baseband bipolar block BPSK capacitance carrier causes cellular channel characteristics chip circuit communications components demodulator desired developed device diagram diode distortion drain effect efficiency Electronics equal error example filter frequency function GaAs gain gate given higher hybrid IEEE impedance implementation increase input integrated limited linear load loop lower matching Microwave mixer Mobile modulation multiplier noise operation oscillator output pair performance phase port power amplifier practical QPSK quadrature radio range receiver reduce reference reject resistance resonator response result shown in Figure shows signal silicon single spectral spectrum spurious stage standards switch symbol techniques telephone transceiver transformer transistor transmitted typically usually voltage waveform wireless wireless communications