Transceiver for zigbee and bluetooth communications
First Claim
1. A transceiver for Zigbee and Bluetooth communications comprising:
- an RF processor for converting an RF signal received via antenna into an IF reception signal under channel selection/frequency hopping control;
a variable bandpass filter for passing the IF reception signal from the RF processor through a first passband or a second passband, which is pre-set under filtering band control;
an FSK modulator/demodulator for FSK-demodulating the IF reception signal from the variable bandpass filter into a baseband reception signal;
a memory storing a first firmware and a reference table for Zigbee operation mode, and a second firmware for Bluetooth operation mode;
a baseband processor for converting the baseband reception signal from the FSK modulator/demodulator into a digital reception signal in response to the memory executing a corresponding one of the firmwares according to a selected operation mode;
a main controller for executing signal transmission/reception control for the selected operation mode including the filtering band control and RF operation control, in response to the memory executing a corresponding one of the firmwares according to the selected operation mode, and processing the digital reception signal from the baseband processor and a digital transmission signal at a higher layer; and
a channel selection/frequency hopping controller for executing channel selection control or frequency hopping control over the RF processor in response to the RF operation control by the main controller, whereby the baseband processor converts the digital transmission signal from the main controller into a baseband transmission signal, the FSK modulator/demodulator converts the baseband transmission signal from the baseband processor into an IF transmission signal, the variable bandpass filter passes the IF transmission signal from the FSK modulator/demodulator through the pre-set passband, and the RF processor converts the IF transmission signal from the variable bandpass filter into an RF transmission signal to output via the antenna.
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Abstract
The invention provides a transceiver for Zigbee and Bluetooth communications integrating a Zigbee transceiver and a Bluetooth transceiver. The transceiver includes an RF processor 110, a variable bandpass filter 120, an FSK modulator/demodulator 130, a memory 140, a baseband processor 150, a main controller 160, and a channel selection/frequency hopping controller 170. The invention integrates the Zigbee transceiver and the Bluetooth transceiver so as to partially make common use of a higher layer application and a physical layer of the Zigbee transceiver and the Bluetooth transceiver. As a result, the invention has the advantage of functioning as a transceiver for Zigbee and Bluetooth communications, without causing a significant increase in size and unit price.
306 Citations
5 Claims
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1. A transceiver for Zigbee and Bluetooth communications comprising:
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an RF processor for converting an RF signal received via antenna into an IF reception signal under channel selection/frequency hopping control;
a variable bandpass filter for passing the IF reception signal from the RF processor through a first passband or a second passband, which is pre-set under filtering band control;
an FSK modulator/demodulator for FSK-demodulating the IF reception signal from the variable bandpass filter into a baseband reception signal;
a memory storing a first firmware and a reference table for Zigbee operation mode, and a second firmware for Bluetooth operation mode;
a baseband processor for converting the baseband reception signal from the FSK modulator/demodulator into a digital reception signal in response to the memory executing a corresponding one of the firmwares according to a selected operation mode;
a main controller for executing signal transmission/reception control for the selected operation mode including the filtering band control and RF operation control, in response to the memory executing a corresponding one of the firmwares according to the selected operation mode, and processing the digital reception signal from the baseband processor and a digital transmission signal at a higher layer; and
a channel selection/frequency hopping controller for executing channel selection control or frequency hopping control over the RF processor in response to the RF operation control by the main controller, whereby the baseband processor converts the digital transmission signal from the main controller into a baseband transmission signal, the FSK modulator/demodulator converts the baseband transmission signal from the baseband processor into an IF transmission signal, the variable bandpass filter passes the IF transmission signal from the FSK modulator/demodulator through the pre-set passband, and the RF processor converts the IF transmission signal from the variable bandpass filter into an RF transmission signal to output via the antenna. - View Dependent Claims (2, 3, 4, 5)
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Specification