KR100647063B1 - A Signal Transferring Device for Mobile Communication - Google Patents

Abstract

The present invention relates to a signal transmission / reception device for mobile communication, wherein the power supply unit supplies power of different polarity according to the transmission / reception state of the system, and the short / opening is possible to transmit and receive signals to the system according to the power supply of the power supply unit. A mode determining unit, a transmitting unit and a receiving unit which are turned on / off according to the state of the determining unit, and transmit and receive an external signal through an antenna, and are respectively installed in the transmitting unit and the receiving unit to perform a parallel resonance operation to prevent attenuation of signals. Consists of a capacitor

By simply installing a parallel resonant capacitor in the transceiver, it prevents signal insertion loss, improves the attenuation characteristics of the harmonic band, and provides the effect of circuit optimization.

Power supply, transmitter, receiver, capacitor, resonant action

Description

Signal Transmitter for Mobile Communication {A Signal Transferring Device for Mobile Communication}             

1 is a circuit diagram showing the configuration of a first signal transmission and reception apparatus according to the prior art;

2 is a circuit diagram showing the configuration of a second signal transmission and reception apparatus according to the prior art;

3 is a circuit diagram showing the configuration of a signal transmission and reception apparatus according to the present invention;

4 is a graph simulating a signal transmission and reception device according to the present invention in a transmission state,

5 is a graph simulating a signal transmission and reception apparatus according to the present invention in a reception state.

<Explanation of symbols on main parts of the drawings>

50: power supply unit 60: transmission unit

65: receiver

62,67: PIN Transmit and Receive Diode

C62, C68: second transmit and receive capacitor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication device, and more particularly, to a mobile communication signal transmission / reception device including a capacitor unit having a parallel resonant action to improve insertion loss and improve attenuation characteristics of a harmonic band when a signal is transmitted to or received from the outside. It is about.

In general, an RF diode switch is used for a mobile communication signal transmitting / receiving device, and the RF diode switch is connected to a signal transmitting / receiving terminal of a mobile communication device such as a terminal to transmit and receive a signal between the terminal and the outside.

According to the related art, the first signal transmission / reception device including an equivalent circuit of a single pole double throw (SPDT) type RF diode switch is a power supply unit for supplying power to transmit and receive signals to and from the system as shown in FIG. 10) and a transmitter 20 receiving power from the power supply unit and transmitting a signal from the system to the outside, and a receiver 25 receiving power from the power supply unit and receiving a signal from the outside to the system.

In particular, the power supply unit 10 includes a power supply terminal 11 for supplying power of different polarities according to a transmission / reception state, a capacitor C12 connected in parallel with the power supply terminal 11, and the power supply terminal 11. It consists of a power transmission stage 13 which is a transmission line connected in series.

In addition, the transmitting unit 20 is a transmission capacitor (C21) to prevent the input of the DC component, and the PIN transmission diode on / off in accordance with the power of the power supply unit 10 so that a signal is transmitted through the transmission capacitor (C21). And the receiving unit 25 is turned on / off according to the power of the power supply unit 10 so that a signal is received through the receiving capacitor C26 and the receiving capacitor C26 which prevents the input of the DC component. The PIN receiving diode 27 to be turned off, and the frequency determining unit 28 for determining the frequency of the external received signal transmitted to the system through the receiving capacitor (C26) in accordance with the PIN receiving diode (27).

Referring to the operation of the conventional first signal transmission and reception device configured as described above are as follows.

First, powers of different polarities are supplied to the transmitter 20 and the receiver 25 according to the transmission / reception status of the system.

If the system is in a transmission state, the PIN transmission / reception diodes 22 and 27 of the transmitter 20 and the receiver 25 to which the forward bias is applied from the power supply unit 10 are shorted. As a result, the impedance of the transmitter 20 approaches '0' and the impedance of the receiver 25 becomes infinite so that the first signal transmission and reception apparatus transmits a signal to the outside.

On the other hand, when the system is in the receiving state, the transmitter 20 and the PIN transmitter / receiver diodes 22 and 27 to which the reverse bias is applied from the power supply line 10 are turned off. As a result, the impedance of the receiver 20 approaches '0' and the impedance of the transmitter 20 becomes infinite, and the signal of the frequency determined by the frequency determiner 28 of the receiver 25 passes through the antenna from the outside. Received to the system via a capacitor (15).                         

However, in the case of the conventional first signal transmission and reception apparatus, insertion loss of a signal occurs in a transceiver and attenuation of harmonics occurs due to limitations of PIN diode device characteristics.

In the case of the second signal transmission / reception apparatus according to the related art developed to solve the above problem, as shown in FIG. 2, the power stage 11 ′ and the power capacitor 12 ′ are similar to the first signal transmission and reception apparatus. And a first power supply unit 10` consisting of a power transmission terminal 13`, a transmitter 20` consisting of a transmitting capacitor C21`, a PIN transmitting diode 22`, a receiving capacitor C26`, a PIN. Receiving section 25` consisting of a receiving diode 27`, a frequency determining section 28`, and first and second capacitors 15`, 16` for passing a signal to and from the outside through an antenna, ,

A first resonant circuit 30 connected in parallel to the PIN transmitting diode 22 ′ of the transmitter 20 ′ and a second resonant circuit connected in series and parallel to the PIN receiving diode 27 ′ for resonating action. 35, and a second power supply 39 for supplying power to the receiver 25 '.

Here, the first resonant circuit 30 includes a transmission path end 31 which is a transmission line, a capacitor C32 connected in series with the transmission path end 31, and a transmission path end 31 and a capacitor connected in series. And a resistor R33 connected in parallel to C32, and the second resonant circuit 35 includes a capacitor C36 connected in series with the PIN receiving diode 27 'and a parallel connection with the PIN receiving diode 27'. One resistor R37 and a second resistor R38 connected in parallel with the capacitor C36 are included.                         

However, in the case of the second signal transmission / reception apparatus configured as described above, the complexity of the first and second resonant circuits 30 and 35 is difficult to implement and thus there is a problem in productivity. In addition, there is also a problem of deterioration of characteristics due to impedance mis-matching due to control difficulties of components constituting the second signal transmission and reception apparatus.

The present invention has been made to solve the above problems of the prior art, the object of the movement is to install a capacitor so that the transceiver for transmitting and receiving the signal to the outside and to prevent the insertion loss of the signal and improve the attenuation characteristics of the harmonic band It is to provide a signal transmission and reception device for communication.

According to a feature of the mobile communication signal transmission and reception device according to the present invention for solving the above problems, the power supply unit for supplying power of different polarity according to the transmission / reception state of the system, and the signal to the system according to the power supply of the power supply unit A mode decision unit which is shorted / opened to enable transmission and reception, a transmitter and a receiver which are turned on and off depending on the state of the decision unit, and which transmit and receive an external signal through an antenna, and are respectively provided in the transmitter and the receiver to attenuate the signal. In order to prevent the parallel resonant action is composed of a capacitor unit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The signal transmission and reception device for mobile communication according to the present invention, as shown in Figure 3, the power supply unit 50 for supplying power so that the system transmits and receives a signal with the outside, and the transmission signal of the system in accordance with the power supply of the power supply unit 50 Is transmitted to the antenna so that the transmission to the outside, and receiving unit 65 for receiving an external signal through the antenna according to the power supply of the power supply unit 50 and transmits to the system.

Here, the power supply unit 50 supplies power corresponding to the forward bias when the system is in the transmission state, and a power stage 51 supplying power corresponding to zero or reverse bias when the system is in the reception state, and A resistor R51 having one end connected in series to the power supply terminal 51 and passing the supply power, a capacitor C52 connected in parallel with the other end of the resistor R51 to level the supply power, and a resistor of the resistor R51. It is composed of an inductor (L53) connected in series with the other end and transferring the power supply to the signal transmission and reception device for mobile communication.

In addition, the transmitter 60 is shorted when a power suitable for the transmission state is supplied from the power supply unit 50, the PIN transmitter diode acts as a mode determination unit by operating the transmitter 60 to be in an ON state. A first transmission capacitor C61 connected in series between one end of the PIN transmission diode 62 and the system to prevent unnecessary DC component input from the system transmission signal, and the PIN transmission diode 62. The second transmission capacitor C62 is connected in parallel with the other end to compensate the impedance due to the series inductance of the PIN transmission diode 62 and prevent the insertion loss of the signal.

In addition, the receiver 65 is parallel to a first receiving capacitor C66 connected in series with the system and one end of the first receiving capacitor C66 such that an external received signal is applied to the system while preventing unnecessary input of a DC component. PIN receiving diode 67 which is connected when the power suitable for the reception state is supplied from the power supply unit 50 and is operated so that the receiving unit 65 is in an ON state, and serves as a mode determination unit. When the receiving unit 60 receives a signal from the outside through the antenna via the antenna resistor R55 and the antenna capacitor C55 due to the receiving diode 67, the frequency determining unit determining the frequency of the signal to receive ( consisting of 68), a second receiving capacitor (C68) to improve the attenuation characteristics of the harmonic band of the received signal (2f _0, 3f ₀₎ by the frequency determination portion 68 is connected in parallel with the resonance action .

Looking at the operation of the present invention configured as described above are as follows.

First, in the first step, the mobile communication signal transmission and reception device supplies power having different polarities according to whether a signal is transmitted or received.

If the signal is transmitted in the first step, the power supply unit 50 supplies a forward bias, and the PIN transmitting and receiving diodes 62 and 67 are shorted accordingly. As a result, the impedance of the transmitter 60 approaches '0' so that the signal of the system is transmitted to the outside through the antenna capacitor 55 connected to the transmitter 60 through the first transmitter capacitor C61. In addition, since the impedance of the receiver 65 approaches infinity, the receiver 65 is turned off.

Here, the second transmitting capacitor C62 connected in parallel with the PIN transmitting diode 62 compensates the impedance caused by the series inductance through the resonance action, thereby preventing the insertion loss of the signal.

On the other hand, when the signal is received in the first step, the power supply unit 50 supplies a reverse bias, thereby opening the PIN transmission and reception diodes 62 and 67. As a result, the impedance of the receiver 65 approaches '0' so that an external signal is received by the system via the antenna capacitor 55 through the first receiver capacitor C66 of the receiver 65. In addition, since the impedance of the transmitter 60 approaches infinity, the transmitter 60 is turned off.

Here, the frequency determiner 68 of the receiver 65 determines the frequency of the signal to be received from the outside, and the second receiving capacitor C68 connected in parallel with the frequency determiner 68 receives the received signal through a resonance action. The attenuation characteristics of the harmonic bands 2f ₀ and 3f ₀ are improved.

4 and 5 are graphs showing simulation results of a signal transmission / reception device for mobile communication in a global system for mobile communication (GSM) band.

4 shows simulation results of the signal transmission and reception apparatus in the transmission state. L1 illustrates the insertion loss characteristic of the signal transmitted from the antenna to the transmitter 60 connected to the system. L2 shows the insertion loss characteristic of the signal transmitted from the receiver 65 connected to the system to the antenna. L3 shows the insertion loss characteristic of the signal transmitted from the transmitter 60 to the receiver 65.

In addition, m1 indicates a portion of the L1 phase having a value of -0.113 dB at a frequency of 881.0 MHz. m2 refers to a portion of L1 phase with a value of -0.148 dB at a frequency of 916.0 MHz. m3 indicates a portion of L1 phase with a value of -16.928 dB at a frequency of 2.636 Hz.

In addition, Fig. 5 shows simulation results of the signal transmission and reception apparatus in the reception state. L4 illustrates an insertion loss characteristic of the signal transmitted from the receiver 65 to the antenna. L5 shows the insertion loss characteristic of the signal transmitted from the antenna to the transmitter 50.

In addition, m4 refers to a portion of the L4 phase having a value of -0.234 dB at a frequency of 926.0 MHz. m5 indicates a portion of L4 phase with a value of -0.226 dB at a frequency of 971.0 MHz.

In other words, it can be seen that the insertion loss values of the transmitter and the receiver of the signal transmission and reception apparatus are clearly different in the transmission state and the reception state.

The mobile communication signal transmission and reception device of the present invention configured as described above has an effect of preventing signal insertion loss and improving attenuation characteristics of harmonic bands by simply installing a capacitor having a parallel resonant action in the transceiver.

Claims (3)

A power supply unit for supplying power of different polarities according to a transmission / reception state of the system; A mode determination unit which is shorted / opened to enable signal transmission and reception to a system according to the power supply of the power supply unit; A transmitter and a receiver configured to transmit / receive an external signal through an antenna by being turned on / off according to the state of the decision unit; And a capacitor unit installed in each of the transmitting unit and the receiving unit and configured to have a parallel resonant action to prevent attenuation of signals. The method of claim 1, And the mode determining unit comprises a transmitting diode unit provided in a transmitting unit for transmitting and a receiving diode unit provided in the receiving unit for receiving. The method according to claim 1 or 2, The capacitor part is a transmission capacitor part connected in parallel with the transmitting diode part on the output terminal side of the transmitting part and a receiving capacitor part connected in parallel with the frequency determining part determining the frequency of a signal received from the outside according to the state of the receiving diode part near the input terminal of the receiving part. Signal transmission and reception device for mobile communication, characterized in that configured.

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