A method for demodulating a multiplexed stereophonic signal, the signal including a signal called the sum signal, a signal called the difference signal, and a pilot signal, the method including the following steps: removing the pilot frequency from the multiplexed stereophonic signal, the resulting signal being called the pilotless signal, and subtracting the sum signal from the pilotless signal.

A method for demodulating a multiplexed stereophonic signal, the signal including a signal called the sum signal, a signal called the difference signal, and a pilot signal, the method including the following steps: removing the pilot frequency from the multiplexed stereophonic signal, the resulting signal being called the pilotless signal, and subtracting the sum signal from the pilotless signal.

An electronic device with a Frequency Modulation (FM) antenna includes an earphone jack, an FM chip, a switching unit, and a processing unit. The earphone jack includes a left channel pin, a right channel pin, and a ground pin. The FM chip receives an FM signal and outputs a Receive Signal Strength Indicator (RSSI) value of the FM signal to the processing unit. The processing unit receives the RSSI value, compares the RSSI value with a predetermined value, and controls the switching unit to select the left and right channel pins as a signal receiving point of the FM antenna or select the ground pin as the signal receiving point of the FM antenna according to a result of the comparison.

An electronic device with a Frequency Modulation (FM) antenna includes an earphone jack, an FM chip, a switching unit, and a processing unit. The earphone jack includes a left channel pin, a right channel pin, and a ground pin. The FM chip receives an FM signal and outputs a Receive Signal Strength Indicator (RSSI) value of the FM signal to the processing unit. The processing unit receives the RSSI value, compares the RSSI value with a predetermined value, and controls the switching unit to select the left and right channel pins as a signal receiving point of the FM antenna or select the ground pin as the signal receiving point of the FM antenna according to a result of the comparison.

One example discloses a communications device, including: a bio-antenna conducting surface configured to receive a set of bio-antenna modulated broadcast signals; wherein the conducting surface is configured to receive the set of bio-antenna modulated broadcast signals through a capacitively coupling; a broadcast receiver coupled to the conducting surface; and wherein the conducting surface is configured to pass the broadcast signals to the broadcast receiver.

One example discloses a communications device, including: a bio-antenna conducting surface configured to receive a set of bio-antenna modulated broadcast signals; wherein the conducting surface is configured to receive the set of bio-antenna modulated broadcast signals through a capacitively coupling; a broadcast receiver coupled to the conducting surface; and wherein the conducting surface is configured to pass the broadcast signals to the broadcast receiver.

A method for demodulating a multiplexed stereophonic signal, the signal including a signal called the sum signal, a signal called the difference signal, and a pilot signal, the method including the following steps: removing the pilot frequency from the multiplexed stereophonic signal, the resulting signal being called the pilotless signal, and subtracting the sum signal from the pilotless signal.

A method for demodulating a multiplexed stereophonic signal, the signal including a signal called the sum signal, a signal called the difference signal, and a pilot signal, the method including the following steps: removing the pilot frequency from the multiplexed stereophonic signal, the resulting signal being called the pilotless signal, and subtracting the sum signal from the pilotless signal.

A reception device includes a first electronic component and a second electronic component. The first electronic component includes a first signal processor and a first control circuit controlling the first signal processor. The second electronic component includes a second signal processor and a second control circuit controlling the second signal processor. The first control circuit controls the first signal processor such that transmission of a reception signal from a first transmitter of the first signal processor to the second electronic component and transmission of an analog sound signal from a second transmitter of the first signal processor to the second electronic component are simultaneously started.

A reception device includes a first electronic component and a second electronic component. The first electronic component includes a first signal processor and a first control circuit controlling the first signal processor. The second electronic component includes a second signal processor and a second control circuit controlling the second signal processor. The first control circuit controls the first signal processor such that transmission of a reception signal from a first transmitter of the first signal processor to the second electronic component and transmission of an analog sound signal from a second transmitter of the first signal processor to the second electronic component are simultaneously started.