KR19990002723A - Interface device and method between baseband module and RF module of mobile communication system - Google Patents

Abstract

In the interface device of the mobile communication system consisting of a baseband module and an RF module, the baseband module and the RF module has an infrared transmission port and a receiving port, respectively, in the transmission mode of the infrared transmission port and the RF module of the baseband module A wireless link is formed between the infrared receiving ports, and in the receiving mode, a wireless link is formed between the infrared transmitting port of the RF module and the infrared receiving port of the baseband module.

Description

Interface device and method between baseband module and RF module of mobile communication system

The present invention relates to an apparatus and method for interfacing a baseband module and an RF module of a mobile communication system, and more particularly, to an apparatus and a method for interfacing the baseband module and an RF module with wireless communication.

In general, a mobile communication system such as a mobile phone (mobile phone), etc. are connected using a cable (cable) and a connector (connector) between the baseband module and the RF module. Here, the base band module includes a logic unit for controlling the overall operation of the mobile communication system and an audio circuit for processing transmission / reception audio signals. An RF module includes a radio transmission / reception unit and an antenna. It will be provided. Therefore, such a mobile communication system should be provided with a coaxial cable and a connector for connecting the baseband module and the RF module. That is, a conventional mobile communication system such as a vehicle wireless telephone has a configuration in which the terminal and the RF module are wired.

In the conventional mobile communication system as described above, a connector for connecting two modules by wire is required to be elaborate, and the cable and the connector may be corroded and damaged. In addition, by connecting the two modules by a wire, there is a problem such as electrical insulation to prevent electrical shock, such as discharge and lightning.

Accordingly, an object of the present invention is to provide an apparatus and method for interfacing a baseband module and an RF module of a mobile communication system by wireless communication.

Another object of the present invention is to provide an apparatus and method for electrically separating a baseband module and an RF module of a vehicle wireless telephone using the baseband module from the outside of the vehicle.

According to an aspect of the present invention, there is provided an interface device of a mobile communication system including a baseband module and an RF module, wherein the baseband module and the RF module each have an infrared transmission port and a reception port. A wireless link is formed between the infrared transmitting port of the baseband module and the infrared receiving port of the RF module, and in the receiving mode, a wireless link is formed between the infrared transmitting port of the RF module and the infrared receiving port of the baseband module.

1 is a view for explaining a radio communication method between a baseband module and an RF module of a mobile communication system according to an embodiment of the present invention.

FIG. 2 is a diagram illustrating a configuration of a baseband module of the mobile communication system of FIG. 1.

FIG. 3 is a diagram illustrating a configuration of an RF module of the mobile communication system of FIG. 1.

The mobile communication system according to an embodiment of the present invention refers to a system in which an RF module and a baseband module are independently configured, such as a vehicle wireless telephone. In the case of the vehicular radiotelephone, as shown in FIG. 1, the RF module 200 and the baseband module 100 are separated from each other. It is located near the driver's seat for easy grip while driving.

In an embodiment of the present invention, the baseband module 100 of a mobile communication system installed in a vehicle may communicate with an RF module 200 equipped with an infrared data association (IrDA) using infrared rays. At this time, the battery can be charged by removing the RF module 200 and the battery in the baseband module 100 itself while being used inside the vehicle, and the RF module 200 and the battery can be inserted and used again outside the vehicle.

1 is a diagram illustrating a configuration of a mobile communication system according to an embodiment of the present invention, in which an infrared port 350 is connected to the RF module 200, and the infrared port 350 may be positioned to face the baseband module 100. Install it where it is. In addition, the baseband module 100 has a built-in infrared port 310, the infrared port 310 transmits and receives an infrared signal with the infrared port 350.

FIG. 2 is a diagram illustrating a configuration of the baseband module 100 in FIG. 1, wherein the baseband module 100 connects a microphone 111, a voice input / output device, and a speaker 113, and an infrared transmission port 352 for infrared communication with the RF module 200. And an infrared receiver port 351. The configuration as described above is configured in one piece, can be mounted on a vehicle, and can be configured in a form that can be easily removable.

FIG. 3 is a diagram illustrating a configuration of the RF module 200 in FIG. 1, wherein a mixer 211, a TX band pass filter 213, a transmission amplifier 215, and the like correspond to a transmitter of the RF module 200. The transmitting unit mixes a transmission signal and a local oscillation signal generated from an oscillator, frequency up conversions, generates an RF signal, and transmits the RF signal through the antenna 219. In addition, the receiving amplifier 225, mixer 233 and IF filter (LPF) 221 corresponds to the receiving unit of the RF module 200. The receiver performs a function of converting a signal received through the antenna 219 and the local oscillation signal to a frequency down conversion to convert the frequency into an intermediate frequency band.

In the configuration of the RF module 200 as described above, the infrared receiving port 311 is connected to the input of the transmitter and the infrared transmitting port 312 is connected to the output of the receiver. The transmission signal input to the infrared reception port 311 is a signal of an intermediate frequency band, and the reception signal output from the infrared transmission port 312 is also a signal of an intermediate frequency band.

Looking at the communication operation of the mobile communication system according to the embodiment of the present invention based on the configuration of Figures 1 to 3 described above, as shown in Figure 2 the baseband module 200 is a microphone 111 and a speaker 113, and a modem, audio A circuit, a control part, etc. are provided. The RF module 200 includes a wireless transmission and reception unit and an antenna. At this time, the baseband module 100 and the RF module 200 should have an infrared receiving port and a transmitting port for performing a wireless communication function between the modules, and a controller capable of driving the baseband module 100 and the RF module 200 should be built in. In addition, the baseband module 100, including the RF module 200, to carry and carry the removable RF module 200 when you want to communicate independently when carrying.

As described above, the RF module 200 and the baseband module 100 may communicate voice and data using infrared rays. The voice signal input from the baseband module 100 through the microphone 111 is converted into an intermediate frequency through the modem of the baseband module 100 and converted into an infrared signal through the infrared transmission port 352. Then, the infrared receiving port 311 of the RF module 200 photoelectrically converts the received infrared signal and outputs it as an intermediate frequency signal, and the mixer 211 mixes the output of the oscillator 227 and the transmitting intermediate frequency signal, and the transmit band filter 213 is the mixed signal. Filter out the up-converted RF signal. The transmission amplifier 215 amplifies the transmission RF signal and propagates to the air through a circulator and an antenna 219.

In addition, the RF signal received through the antenna 219 is applied to the receiving amplifier 225 through the circulator 217, and the receiving amplifier 225 amplifies and outputs the received RF signal. The mixer 223 mixes the received RF signal and the output of the oscillator 227, and the intermediate frequency filter 221 filters and outputs the intermediate frequency down-converted from the mixed signal. The infrared transmission port 312 then converts the down-converted intermediate frequency into an infrared signal and outputs the infrared signal. In this case, the infrared signal transmitted from the RF module 200 is input to the infrared receiving port 351 of the baseband module 100 and converted into full light, and the baseband module 100 demodulates the intermediate frequency received from the infrared receiving port 351. In this case, when the demodulated signal is a voice signal, the demodulated signal is transmitted to the speaker 113 through an audio circuit and reproduced.

When the baseband module 100 operating as described above is to be carried independently from the outside of the vehicle, the baseband module 100 so as to mount a small RF module 200 and a battery detachably manufactured to fit the size of the baseband module 100. Configure In the case of using in the vehicle, the RF module and the battery may be removed, and the baseband module 100 may communicate with the base station module 100 through the RF module 200 installed in the vehicle and charge the battery.

In the mobile communication system consisting of a baseband module and an RF module as described above, the two modules can perform a wireless communication interface using infrared rays, thereby eliminating the inconvenience of connecting by wire. This eliminates corrosion and damage caused by wires and connectors, while also eliminating electrical insulation problems. In addition, a baseband module RF module and a battery can be mounted on the baseband module for easy use outside of the vehicle, and can be removed from the inside of the vehicle to charge the battery while communicating with the RF module installed in the vehicle.

Claims (4)

In the interface device of the mobile communication system consisting of a baseband module and an RF module, The baseband module and the RF module are each provided with an infrared transmission port and a receiving port, a wireless link is formed between the infrared transmission port of the baseband module and the infrared reception port of the RF module in the transmission mode, the RF module in the reception mode Infrared transmission port and baseband module Interface device between the baseband module and the RF module, characterized in that the wireless link is formed between the infrared receiving port. And the data transmitted between the infrared transmission port and the reception port in the wireless link is a transmission and reception intermediate frequency signal. In the interface method of the mobile communication system consisting of a baseband module and an RF module each having an infrared transmission port and a receiving port, In the transmission mode, a wireless link is formed between the baseband module and the infrared reception port of the RF module. In the reception mode, a wireless link is formed between the infrared transmission port of the RF module and the infrared reception port of the baseband module. And the RF module performs a wireless communication interface, respectively. In the interface device of the mobile communication system consisting of a baseband module and a fixed RF module each having an infrared transmission port and a receiving port, In the vehicle, a wireless link is formed between the infrared transmission port of the baseband module and the infrared reception port of the RF module in a transmission mode, and a wireless link is established between the infrared transmission port of the RF module and the infrared reception port of the baseband module in a reception mode. It is formed, the method of the interface between the baseband module and the F module, characterized in that can be used as a mobile phone by attaching the RF module and the battery when detachable when used in the outside of the vehicle.