----- 射频晶体管:原理与实际应用
Understanding RF data sheet parameters DC specifications Functional characteristics for power transistors, low power transistors, linear modules, and power modules RF transistor fundamentals Transistor characteristics in specific applications Bandwidth considerations MOSFETs vs. bipolars FETs and BJTs types of transistors Comparing parameters Circuit configurations Common emitter and common source Common Base and common gate Common collector and common drain Classes of operation Forms of modulation Operating transistors in pulse mode Reliability considerations Construction techniques Types of packages Emitter/source inductance Laying out a circuit board Tips for systematic PC layout design Mounting RF devices RF modules Power amplifier design Single-ended RF amplifier designs Parallel transistor amplifiers MOSFETs Push-pull amplifiers Computer-aided design programs Circuit testing Types of low-pass filters Wideband impedance matching Conventional transformers Twisted wire transformers Transmission line transformers Equal delay transmission line transformers Power splitting and combining Basic types of power combiners In phase and 180 degree combiners 90 degree hybrids Line hybrids Ring hybrids Branch line couplers Wilkinson couplers Frequency compensation and negative feedback LDMOS high power transistors Differences between LDMOS high power transistors and bipolars Differences between LDMOS high power transistors and TMOS FETs Designing high power RF amplifiers using LDMOS Small signal amplifier design Scattering parameters Noise parameters Biasing considerations Power gain Stability Actual steps in low power amplifier design and much more
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