Abstract: A push-pull power amplifier (PA) includes a pair of P-type transistors, a pair of N-type transistors, and a splitter, wherein source terminals of the pair of P-type transistors are coupled to a first reference voltage, source terminals of the pair of N-type transistors are coupled to a second reference voltage, and drain terminals of the pair of P-type transistors and drain terminals of the pair of N-type transistors are coupled to an output port of the push-pull PA. The splitter is arranged to receive a common-mode input pair, and provide two differential output pairs to the pair of P-type transistors and the pair of N-type transistors, wherein one of the two differential output pairs is provided to gate terminals of the pair of P-type transistors, and the other of the two differential output pairs is provided to gate terminals of the pair of N-type transistors.

Abstract: A method of wake-up signal transmission for an access point (AP) in a wireless communication system is disclosed. The method comprises transmitting a beacon for notification of a Wi-Fi device in the wireless communication system, and transmitting a wake-up signal to the Wi-Fi device, wherein the wake-up signal is a binary signal for indicating the Wi-Fi device to receive or not to receive a data from the AP.

Abstract: A method for controlling an antenna network quality factor of an NFC device includes: determining whether a first data rate or a second data rate should be used for data communication during different time intervals, respectively; and when it is determined that the first data rate should be used during a first time interval of the time intervals, controlling a set of internal resistors positioned within a chip of the NFC device to have a first configuration during the first time interval, in order to adjust the antenna network quality factor. More particularly, the method further includes: when it is determined that the second data rate should be used during a second time interval of the time intervals, controlling the set of internal resistors to have a second configuration during the second time interval, in order to adjust the antenna network quality factor. An associated apparatus is also provided.

Abstract: A short-distance contactless communication apparatus includes a chip. The chip includes: a signal receiving port capable of receiving a modulation signal from the outside of the chip; a first receiver capable of operating under a proximity coupling device mode and/or a proximity inductively coupled card mode; and an adjusting device separate from the first receiver for tracking an envelope of the modulation signal on the signal receiving port of the chip and scaling the modulation signal on the signal receiving port of the chip proportionally during data communication phase of the short-distance contactless communication apparatus. The scaled modulation signal on the signal receiving port of the chip is received by the first receiver, and a peak voltage level of the scaled modulation signal on the signal receiving port of the chip falls within a predetermined voltage range.

Abstract: A short-distance contactless communication apparatus includes: a receiver configured to operate under at least a first receiving mode and a second receiving mode, wherein the receiver receives a modulation signal with a first modulation scheme when the receiver is configured to operate under the first receiving mode, and the receiver receives a modulation signal with a second modulation scheme when the receiver is configured to operate under the second receiving mode, and wherein the receiver utilizes an oscillation signal to receive the modulation signal, and the oscillation signal utilized by the receiver is derived from the modulation signal or derived from a reference clock of a local source based on the receiving mode of the receiver.

Abstract: A method for controlling an antenna network quality factor of an NFC device includes: determining whether a first data rate or a second data rate should be used for data communication during different time intervals, respectively; and when it is determined that the first data rate should be used during a first time interval of the time intervals, controlling a set of internal resistors positioned within a chip of the NFC device to have a first configuration during the first time interval, in order to adjust the antenna network quality factor. More particularly, the method further includes: when it is determined that the second data rate should be used during a second time interval of the time intervals, controlling the set of internal resistors to have a second configuration during the second time interval, in order to adjust the antenna network quality factor. An associated apparatus is also provided.

Abstract: A method of tuning a receiver includes: providing a tunable Low Noise Amplifier (LNA) having a plurality of LNAs and a plurality of LC loads coupled to the plurality of LNAs; selecting a desired LNA and a LC load corresponding to the desired LNA; isolating the desired LNA from the selected LC load; generating a local oscillation (LO) signal; routing the LO signal to the output of the tunable LNA to generate a filtered LO signal; determining a first signal power level of the filtered LO signal; changing the capacitance in the selected LC load and determining a second signal power level of the filtered LO signal; comparing the first filtered signal power level to the second filtered signal power level; and according to the comparison result, determining whether or not to adjust the capacitance in the selected LC load.

Abstract: A method of tuning a receiver includes: providing a tunable Low Noise Amplifier (LNA) having a plurality of LNAs and a plurality of LC loads coupled to the plurality of LNAs; selecting a desired LNA and a LC load corresponding to the desired LNA; isolating the desired LNA from the selected LC load; generating a local oscillation (LO) signal; routing the LO signal to the output of the tunable LNA to generate a filtered LO signal; determining a first signal power level of the filtered LO signal; changing the capacitance in the selected LC load and determining a second signal power level of the filtered LO signal; comparing the first filtered signal power level to the second filtered signal power level; and according to the comparison result, determining whether or not to adjust the capacitance in the selected LC load.

Abstract: A receiver is disclosed. The receiver includes: a tunable low noise amplifier (LNA), the tunable LNA comprising: a plurality of LNAs for receiving and amplifying a plurality of frequency bands respectively; a plurality of first switches respectively coupled to the plurality of LNAs; a plurality of LC loads, respectively coupled to the plurality of first switches; a plurality of buffers, respectively coupled to the plurality of first switches; and a plurality of second switches, respectively coupled to the plurality of LC loads and an LO signal; a power detecting circuit for determining a signal power level corresponding to the LO signal; a first switch unit; and a controller, for isolating the output of the plurality of LNAs, selectively decoupling at least one of the LC loads according to the signal power level of the LO signal, and routing the LO signal to the second switches during calibration mode.

Abstract: A receiver is disclosed. The receiver includes: a tunable low noise amplifier (LNA), the tunable LNA comprising: a plurality of LNAs for receiving and amplifying a plurality of frequency bands respectively; a plurality of first switches respectively coupled to the plurality of LNAs; a plurality of LC loads, respectively coupled to the plurality of first switches; a plurality of buffers, respectively coupled to the plurality of first switches; and a plurality of second switches, respectively coupled to the plurality of LC loads and an LO signal; a power detecting circuit for determining a signal power level corresponding to the LO signal; a first switch unit; and a controller, for isolating the output of the plurality of LNAs, selectively decoupling at least one of the LC loads according to the signal power level of the LO signal, and routing the LO signal to the second switches during calibration mode.