KR100335467B1 - Apparatus of Transmitting Direct-Current Voltage and Radio Signal - Google Patents

Abstract

The present invention relates to a direct current voltage and wireless signal transmission apparatus suitable for transmitting a direct current voltage and a radio signal to a direct voltage wireless device through one transmission line.

This DC voltage and radio signal transmission device is a vehicle wireless device having a tuner for detecting a radio signal of a band desired by the user and a voltage repeater for supplying a driving voltage to each driving circuit including the tuner, and is separated directly from the vehicle wireless device. DC voltage source for supplying voltage, aerial which is separated from vehicle wireless device and receives radio signal, transmission line connected to input terminal of vehicle wireless device, connected between DC voltage source and transmission line A shock absorber for buffering the DC voltage to be transmitted and blocking the AC component transmitted from the transmission line to the DC voltage source, and a signal to be transmitted from the transmission line to the tuner of the vehicle wireless device connected between the transmission line and the vehicle wireless device. Low frequency component noise included in We are connected to a high-pass filter, and a voltage between the relay of the transmission line and a vehicle radio equipment to remove and a low-pass filter for cutting off a high frequency component that is included in a signal to be transmitted towards the relay unit from the transmission line voltage.

Description

DC voltage and radio signal transmitter {Apparatus of Transmitting Direct-Current Voltage and Radio Signal}

The present invention relates to a direct current voltage source separated from a direct current wireless device using a direct current voltage as a driving voltage, and an apparatus for transmitting a direct current voltage and a radio signal from an aerial to the wireless device.

Wireless devices such as in-vehicle television receiver systems or in-vehicle radios cannot use commercial AC voltages between mobiles, so they have no choice but to use DC voltages as drive voltages. In order to minimize the power consumption of the battery and to secure the driving voltage for a long time, the vehicle wireless device uses a DC voltage from a DC voltage source such as a generator mounted on the vehicle. For this reason, the vehicle wireless device is inevitably manufactured in a state separated from the DC voltage source. In addition, the vehicle wireless device is also separated from the aerial because the aerial can only protrude to the outside of the vehicle in order to receive the wireless signal stably between movements.

An example of such a vehicular wireless device is a television receiver system for direct current voltage as shown in FIG. The television receiver system of FIG. 1 includes a television receiver 10, an aerial line ANT, and a DC voltage source 12, which are produced and installed separately from each other. The aerial line ANT is installed to protrude to the outside of the vehicle and is connected to the tuner 14 included in the television receiver 10 by a separate signal line 11. As the DC voltage source 12, a vehicle generator or a vehicle battery mounted on the vehicle is used. Since the vehicle generator must be driven by the engine, it is installed close to the engine, and the vehicle battery is located around the engine to charge the voltage generated by the vehicle generator and to supply the necessary voltages to the control circuits around the engine. Done. For this reason, the DC voltage source 12 can also be connected to the voltage relay unit 16 in the television receiver 10 by a separate voltage line 13.

In order to drive the television receiver 10 for DC voltage separated from the aerial line ANT and the DC voltage source 12, the user has no choice but to connect two signal lines and two voltage lines to the television receiver 10. As a result, the television receiver system for DC voltage imposes inconvenience on the user. In addition, since the television receiver system for DC voltage requires two signal lines 11 and two voltage lines 13, the cost increases.

Accordingly, an object of the present invention is to provide a DC voltage and a wireless signal transmission apparatus suitable for transmitting a DC voltage and a radio signal through a single transmission line to a DC voltage wireless device.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram schematically showing a DC voltage television receiver system to which a conventional DC voltage and wireless signal transmission device is applied.

2 is a block diagram schematically showing a DC voltage television receiver system to which a DC voltage and a wireless signal transmission device according to an embodiment of the present invention are applied.

3 is a detailed circuit diagram showing details of the signal synthesizer shown in FIG.

4 is a detailed circuit diagram showing details of the signal divider shown in FIG.

<Brief description of symbols for the main parts of the drawings>

10 TV receiver 12 DC voltage source

14: Tuner 16: Voltage relay

20: DC voltage and radio signal repeater 22: signal synthesizer

24: signal divider 30: operational amplifier

40: high pass filter 42: choke coil

ANT: aerial C1 to C3: capacitor

In order to achieve the above object, the DC voltage and wireless signal transmission apparatus according to an embodiment of the present invention is a voltage repeater for supplying a driving voltage to each drive circuit including a tuner and a tuner for detecting a radio signal of a band desired by the user The vehicle has a wireless device, a DC voltage source for supplying a DC voltage separately from the vehicle wireless device, an aerial line for receiving a radio signal separated from the vehicle wireless device, a transmission line connected to an input terminal of the vehicle wireless device, and a DC voltage source Is connected between the transmission line and the transmission line to buffer the DC voltage to be transmitted from the DC voltage source to the transmission line, and to block the AC component transferred from the transmission line to the DC voltage source, and is connected between the transmission line and the tuner of the vehicle wireless device. From the transmission line to the tuner for the vehicle radio A high pass filter which removes the low frequency noise signal included in the signal to be transmitted, and a high frequency filter connected between the transmission line and the voltage repeater of the vehicle wireless device to block the high frequency component included in the signal to be transmitted from the transmission line toward the voltage repeater. And a low pass filter.

Other objects and advantages of the present invention in addition to the above objects will become apparent from the following detailed description with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 2 to 4.

2 is a block diagram schematically illustrating a television receiver system to which a DC voltage and a wireless signal transmitter according to an exemplary embodiment of the present invention are applied. The television receiver system of FIG. 2 has an aerial line ANT and a DC voltage source 12 separated from the television receiver 10. The television receiver 10 includes a tuner 14 for detecting a radio signal of a band desired by a user from a radio signal, and a voltage relay unit 16 for delivering a driving voltage to circuit blocks (not shown) including the tuner 14. It is provided. In addition, the television receiver system includes a direct current voltage and radio signal transmission device for transmitting the radio signal received by the aerial ANT and the direct current voltage from the direct current voltage source 12 to the tuner 14 and the voltage relay unit 16, respectively. 20 is provided. The DC voltage and radio signal transmission device 20 is mounted in a vehicle and is installed in the signal synthesizer 22 connected to the aerial line ANT and the DC voltage source 12 and inside the television receiver 10, and the synchronizer 14 ) And a signal divider 24 connected to the voltage relay 16. The signal synthesizer 22 synthesizes the radio signal from the aerial ANT to the DC voltage from the DC voltage source 12, and combines the synthesized signal loaded with the radio signal to the DC voltage through a transmission line made of a coaxial cable. To). The signal divider 24 inputs the synthesized signal from the transmission line 21 and separates the radio signal and the DC voltage from the synthesized signal. The radio signal and the DC voltage separated by the signal divider 24 are supplied to the tuner 14 and the voltage relay 16, respectively. As such, the signal synthesizer 22 and the signal divider 24 connected to each other by the transmission line 21 such as a coaxial cable connect the aerial line ANT and the DC voltage source 12 to the tuner 14 and the voltage relay unit 16. ), Each signal line is reduced to one. Accordingly, the television receiver 10 can be connected to the aerial line ANT and the DC voltage source 12 by one line connection operation. In addition, the cost of the DC receiver television receiver system is lowered.

3 is a detailed circuit diagram of the signal synthesizer 22 shown in FIG. The signal synthesizer 22 of FIG. 3 is the operational amplifier 30 connected between the first capacitor C1 connected between the aerial line ANT and the transmission line 21 and between the DC voltage source 12 and the transmission line 21. ). The first capacitor C1 transmits a radio signal of an AC component from the aerial line ANT to the transmission line 21 and blocks the DC voltage appearing on the transmission line 21 from being transmitted to the aerial line ANT. . The operational amplifier 30 constitutes a voltage follower by having a feedback loop 31 connecting the transmission line 21 to its inverting terminal (−). In other words, the operational amplifier 30 buffers the DC voltage from the DC voltage source 12 and transmits the DC signal toward the transmission line 21 while the wireless signal of the AC component transmitted from the transmission line 21 is transferred to the DC voltage source 12. Will not be sent to the server. The radio signal via these first capacitors C1 is combined with the DC voltage via the operational amplifier 30 on the transmission line 21.

4 is a detailed circuit diagram of the signal divider 24 shown in FIG. The signal distributor 24 of FIG. 4 includes a second capacitor C2 and a high pass filter 40 connected in series between the transmission line 21 and the tuner 14, the transmission line 21 and the voltage relay unit 16. As shown in FIG. And a third capacitor C3 connected between the input terminal of the voltage relay section 16 and the ground voltage line GNDL. The second capacitor C2 passes only the radio signal of the AC component toward the high pass filter 40 among the synthesized signals from the transmission line 21 and blocks the DC voltage. The high pass filter 40 removes low frequency noise components by high pass filtering the radio signal from the second capacitor C2. The radio signal from which low frequency noise is removed by the high pass filter 40 is supplied to the tuner 14. The choke coil 42 and the third capacitor C3 form a low pass filter to remove only a DC voltage by removing a radio signal of an AC component from the synthesized signal on the transmission line 21. The DC voltage detected by this low pass filter is supplied to the voltage relay unit 16.

As described above, the DC voltage and the wireless signal transmission apparatus according to the present invention is to be transmitted to the wireless device (that is, the TV receiver) through a single transmission line in a state in which the DC voltage and the radio signal are synthesized, and the wireless device ( Namely, on the television receiver) again. Accordingly, the aerial line and the DC voltage source are connected to the wireless device (ie, the television receiver) by one transmission line, so that the DC voltage and radio signal transmission device according to the present invention reduces the connection work of the user. In addition, the DC voltage and radio signal transmission apparatus according to the present invention can reduce the cost of the wireless device (ie, the television receiver system) by reducing one transmission line.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (7)

A wireless device for a vehicle having a tuner for detecting a radio signal of a band desired by a user and a voltage repeater for supplying a driving voltage to each driving circuit including the tuner; A DC voltage source for supplying a DC voltage separately from the vehicle wireless device; An aerial that is separated from the vehicle wireless device and receives a radio signal; A transmission line connected to an input terminal of the vehicle wireless device; A buffer for connecting the DC voltage source and the transmission line to buffer the DC voltage to be transmitted from the DC voltage source to the transmission line and to block an AC component transferred from the transmission line to the DC voltage source; A high pass filter connected between the transmission line and the tuner of the vehicle wireless device to remove a noise signal of a low frequency component included in a signal to be transmitted from the transmission line toward the tuner of the vehicle wireless device; A low-pass filter connected between the transmission line and the voltage repeater of the vehicle wireless device, and configured to block a high frequency component included in a signal to be transmitted from the transmission line toward the voltage repeater. Transmission device. The method of claim 1, And a capacitor connected between the aerial line and the transmission line to transmit a radio signal from the aerial line toward the transmission line and to block a DC component transmitted from the transmission line toward the aerial line. Voltage and wireless signal transmission device. The method of claim 1, And a second capacitor connected between the transmission line and the high pass filter to pass only the AC component from the transmission line toward the high pass filter. The method of claim 1, The low pass filter, A choke coil connected between the transmission line and the voltage repeater of the vehicle wireless device; And a third capacitor connected between the base voltage line supplied with the base voltage and the voltage repeater. The method of claim 1, DC voltage and wireless signal transmission device, characterized in that the transmission line is made of a coaxial cable. delete delete