Abstract: A loading-adjustable RF switch matrix circuit includes a first output unit for selectively outputting at least one RF signal, at least one signal switching module, and a detecting module coupled to the first output unit and the signal switching module. The signal switching module includes a first loading unit for adjusting the loading of the RF switch matrix circuit; a first switch unit coupled to the RF signal, the first loading unit and the first output unit for controlling the RF signal coupled to the first loading unit or the first output unit. If the detecting module detects that the first output unit is not coupled to a first external device, the first switch unit couples the RF signal to the first loading unit.
Abstract: A gyrator includes a gyrator core and at least one common mode feedback circuit. The gyrator core includes four inverters mutually connected in a loop configuration between a pair of input ends and a pair of output ends. The common mode feedback circuit is provided between the pair of input ends and/or the pair of output ends and includes a forward-reverse connection inverter set and a backward-reverse connection inverter set. The forward-reverse connection inverter set has a first inverter, a second inverter connected in reverse series with the first inverter, and a first feedback resistor connected in parallel with the second inverter. The backward-reverse connection inverter set has a third inverter, a fourth inverter connected in reverse series with the third inverter, and a second feedback resistor connected in parallel with the fourth inverter.
Abstract: A voltage-controlled capacitor circuit and related circuitry. The voltage-controlled capacitor circuit includes a metal-oxide semiconductor (MOS) varactor, a diode varactor, and/or a capacitor with fixed capacitance. The MOS varactor, the diode varactor and the capacitor are electrically connected in parallel or in series to form a capacitor with a preferred characteristic of voltage-controlled capacitance.