Wireless remote controller using time division protocol and satellite radio receiver including the same
First Claim
1. A wireless remote controller using a time division protocol to remotely control a satellite radio adapted to perform an audio processing operation for time division multiplexing (TDM) and orthogonal frequency division multiplexing (OFDM) signals respectively transmitted from satellites and a terrestrial repeater by demodulating and digitally processing the TDM and OFDM signals, the remote controller comprising:
- a transceiver for performing a bi-directional communication through a single channel in such a manner that transmission and reception sides are sync with each other in accordance with a time division duplexing scheme, the transceiver wirelessly transmitting a command from a user, and executing a response received thereto.
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Accused Products
Abstract
Disclosed is a wireless remote controller using a time division protocol. A satellite radio equipped with the wireless remote controller is also disclosed which performs an audio processing operation for time division multiplexing (TDM) and orthogonal frequency division multiplexing (OFDM) signals respectively transmitted from satellites and a terrestrial repeater by demodulating and digitally processing the TDM and OFDM signals. The remote controller includes a transceiver for performing a bi-directional communication through a single channel in such a manner that transmission and reception sides are sync with each other in accordance with a time division duplexing scheme, the transceiver wirelessly transmitting a command from a user, and executing a response received thereto. A Bluetooth radio modem and a commercially available inexpensive protocol can be used, so that it is possible to inexpensively provide, to the driver, the same convenience and advantages as the conventional system. Also, the time division duplexing (TDD) wireless remote controller consumes reduced power. The wireless remote controller also allows the driver to manipulate the satellite radio for listening to music of high quality and displaying diverse information while minimizing reduction of his attention to driving the motor vehicle to maintain safe driving of the motor vehicle.
38 Citations
7 Claims
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1. A wireless remote controller using a time division protocol to remotely control a satellite radio adapted to perform an audio processing operation for time division multiplexing (TDM) and orthogonal frequency division multiplexing (OFDM) signals respectively transmitted from satellites and a terrestrial repeater by demodulating and digitally processing the TDM and OFDM signals, the remote controller comprising:
a transceiver for performing a bi-directional communication through a single channel in such a manner that transmission and reception sides are sync with each other in accordance with a time division duplexing scheme, the transceiver wirelessly transmitting a command from a user, and executing a response received thereto. - View Dependent Claims (2, 3)
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4. A satellite radio equipped with a wireless remote controller using a time division protocol, the satellite radio comprising:
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a display control unit for supporting operations of a user while performing a display operation corresponding to a command from the user;
a display control unit-side transceiver for performing a bi-directional communication through a single channel in such a manner that transmission and reception sides are sync with each other in accordance with a time division duplexing scheme, the transceiver wirelessly transmitting a command from the display control unit, and executing a response received from a downlink processor;
a downlink processor-side transceiver for performing a bi-directional communication through a single channel in such a manner that transmission and reception sides are sync with each other in accordance with a time division duplexing scheme, the transceiver transmitting the command received from the display control unit-side transceiver, and transmitting a response of the downlink processor to the command from the display control unit; and
the downlink processor for executing the command transmitted from the display control unit, and generating a response corresponding to the command execution, the downlink processor performing an audio processing operation for time division multiplexing (TDM) and orthogonal frequency division multiplexing (OFDM) signals respectively transmitted from satellites and a terrestrial repeater by demodulating and digitally processing the TDM and OFDM signals. - View Dependent Claims (6, 7)
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5. A satellite radio equipped with a wireless remote controller using a time division protocol, the satellite radio comprising:
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a display control unit including a key input unit for supporting operations of a user, a display unit for performing a display operation corresponding to an operation of the key input unit, and a micro controller for controlling for processing a key input signal from the key input unit, a display signal, and input and output audio signals, the micro controller including a general purpose I/O (GPIO) for outputting a GPIO signal adapted to select a signal outputted from a display control unit-side transceiver;
a display control unit-side transceiver for performing a bi-directional communication through a single channel in such a manner that transmission and reception sides are sync with each other in accordance with a time division duplexing scheme, the transceiver wirelessly transmitting a command from the display control unit, and executing a response received from a downlink processor;
a downlink processor-side transceiver for performing a bi-directional communication through a single channel in such a manner that transmission and reception sides are sync with each other in accordance with a time division duplexing scheme, the transceiver transmitting the command received from the display control unit-side transceiver, and transmitting a response of the downlink processor to the command from the display control unit; and
the downlink processor including a receiver for receiving time division multiplexing (TDM) and orthogonal frequency division multiplexing (OFDM) signals, an analog/digital (A/D) converter for converting an analog signal received from the receiver into a digital signal, a demodulator for demodulating the digital signal received from the A/D converter, a TDM selector for selecting a signal having a highest SNR from TDM signals outputted from the demodulator, an OFDM selector for selecting a signal having a highest SNR from OFDM signals outputted from the demodulator, a memory for providing comparative SNR data to the TDM and OFDM selectors, a signal mixer for mixing signals outputted from the TDM and OFDM selectors, a digital/analog (D/A) processor for processing a signal outputted from the signal mixer, thereby outputting an analog signal, and an audio D/A converter for outputting an audio signal and a stereo audio signal to the D/A processor.
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Specification