KR20030064528A - Antenna switch - Google Patents

Abstract

PURPOSE: An antenna switch is provided to use varactor diodes so as to easily regulate frequency bands, and to connect a power supply through resistances having big resistance values so as to prevent an interruption generated between transmission/receiving filters and the power supply. CONSTITUTION: The first and the second resonating unit(61,62) serially connected with each other pass only desired frequency bands of signals among transceived signals. A band decider(63) decides frequency bands of the signals passing the first and the second resonating unit(61,62). In the first resonating unit(61), the second capacitor(C8) and the first diode(D4) serially connected to the first inductor(L1) and the first capacitor(C7) are connected with each other in parallel. In the second resonating unit(62), the fourth capacitor(C9) and the second diode(D5) serially connected to the second inductor(L2) and the third capacitor(C10) are connected with each other in parallel. The band decider(63) supplies power between the second capacitor(C8) and the first diode(D4) and between the third capacitor(C9) and the second diode(D5) through resistances(R4,R5), wherein the first and the second diode(D4,D5) are varactor diodes of which the capacities vary according to volume of the supplied power.

Description

Antenna switch {Antenna switch}

The present invention relates to an antenna switch, and in particular, when filtering a signal of a desired frequency band among signals transmitted and received through an antenna, it is easy to adjust a frequency band passed by using a capacitance change element whose capacity varies according to an external power source. The present invention relates to an antenna switch in which interference with the outside is prevented from occurring.

1 is a block diagram showing the configuration of a general antenna switch.

The antenna switch according to the related art includes a switch unit 20 and a switch unit 20 for selecting a signal having a desired frequency band among signals transmitted and received in the system 10 for transmitting and receiving signals having a plurality of frequency bands. It consists of a transmission and reception filter unit (30, 40) for filtering so that the signal of the frequency band selected by the transmission and reception through the antenna (2).

In this case, the system 10 includes first and second transmitters 11 and 13 and first and second receivers 12 and 14 for transmitting and receiving signals having different frequency bands, respectively. Transmission and reception by the transmission switch unit 21 for selecting a frequency to be transmitted through the transmitters 11 and 13 and the reception switch unit 22 for selecting a frequency to be received through the first and second receivers 12 and 14. The signal of the frequency band to be selected is selected.

In addition, the transmission switch unit 21 and the reception switch unit 22 is provided with operation power stages 21a and 22a through which operating power is input, and the transmission and reception switch units 21 and 22 are replaced by duplexers. Can be.

Meanwhile, the transmission and reception filter units 30 and 40 are formed with transmission and reception power stages 31 and 41 for supplying power to allow the transmission and reception filter units 30 and 40 to perform a filtering operation. do.

In addition, the antenna switch is provided with a transmission and reception determination unit 4 for determining the transmission and reception of the signal when the system 10 transmits and receives a signal with the outside, and the transmission and reception determination unit (4) A power supply terminal 4a to which the operating power of 4) is input is formed.

2 is a circuit diagram showing the configuration of a transmission and reception filter unit according to the prior art.

On the other hand, the transmission and reception filter unit 30, 40 is made of the same configuration, the configuration is, as shown in Figure 2, the first, second and third resonator unit 51, 52, 53 connected in parallel Transmission lines 54 and 55 are formed between the first and second resonators 51 and 52 and between the second and third resonators 52 and 53.

The first resonator 51 may include a second capacitor C2 and a first diode D1 connected in parallel with the first capacitor C1, and the second and third resonators 52 and 53 may be connected in parallel. Like the first resonator 51, the fourth capacitor C4 and the second diode D2 and the sixth capacitor C6 connected in series are connected to the third capacitor C3 and the fifth capacitor C5 in series. And are connected in parallel with the third diode D3.

The first, second, and third diodes D2, D2, and D3 are connected to the second, fourth, and sixth capacitors C2, C4, and C6 so that a cathode faces.

In addition, the transmission and reception filter units 30 and 40 may include the second capacitor C2, the first diode D1, the fourth capacitor C4, the second diode D3, and the sixth capacitor C6. A power supply unit 56 is provided between the third diodes D3 to supply power through the resistors R1, R2, and R3 so that signals of a desired frequency band can be filtered.

At this time, the power supply unit 56 performs the same function as the transmitting and receiving power supply terminals 31 and 41 described in FIG.

Looking at the operation of the transmission and reception filter unit configured as described above are as follows.

First, when the system 10 is in the transmission state, the signal of the frequency band to be transmitted among the signals from the first and second transmission units 11 and 13 is selected by the transmission switch unit 21.

The selected signal is input to the transmission filter unit 30, and the signal of the pass frequency band determined by the power supply unit 56 is transmitted to the outside through the antenna 2 after filtering.

If the system 10 is in a reception state, a signal received through the antenna 2 corresponds to a pass frequency band determined by the power input to the reception filter unit 40 and supplied from the power supply unit 56. The signal passing through is input to the receiving switch unit 22.

The signal input to the reception switch unit 22 is divided into a first receiver 12 and a second receiver 14 according to a frequency band.

However, since the transmission and reception filter units according to the related art can pass only signals according to a predetermined frequency pass band, it is difficult to adjust the frequency pass band to pass signals of other frequency bands. .

The present invention has been made to solve the above-mentioned problems of the prior art, the object of which is to easily adjust the frequency band passed without affecting other devices when transmitting and receiving signals to the outside, to adjust the frequency band It is to provide a filter device of the antenna switch to improve the insulation characteristics from the input external power.

1 is a circuit diagram showing the configuration of a typical antenna switch;

2 is a circuit diagram showing the configuration of a transmission and reception filter unit according to the prior art;

3 is a circuit diagram showing the configuration of a transmission and reception filter unit according to the present invention.

<Explanation of symbols on main parts of the drawings>

61: first resonator L1: first inductor

C7: first capacitor C8: second capacitor

D3: first diode 62: second resonator

L2: second inductor C10: third capacitor

C9: fourth capacitor D4: second diode

L3: third inductor R4, R5: first and second resistors

63: power supply

According to a feature of an antenna switch according to the present invention for solving the above problems, a switch unit for selecting a signal of a desired frequency band among the signals transmitted and received in a system for transmitting and receiving a signal having several frequency bands, and the switch An antenna switch comprising a transmission and reception filter unit for filtering a signal of a frequency band selected by the unit to be transmitted and received through an antenna, wherein the transmission and reception filter unit is a signal of a frequency pass band determined according to the amount of power supplied from the outside. And a band determination unit for supplying power having a magnitude corresponding to the frequency pass band to the first and second resonators.

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

1 is a block diagram showing the configuration of a general antenna switch, Figure 3 is a circuit diagram showing the configuration of the transmission and reception filter unit according to the present invention.

An antenna switch applied to the present invention includes a switch unit 20 for selecting a signal of a desired frequency band among signals transmitted and received in a system 10 for transmitting and receiving signals having a plurality of frequency bands, and a frequency selected by the switch unit 20. It consists of a transmission and reception filter unit 30, 40 for filtering so that the signal of the band can be transmitted and received through the antenna (2).

At this time, the transmission and reception filter unit 30, 40 according to the present invention is configured as shown in Figure 3, the transmission and reception filter unit 30, 40 is formed in the same configuration.

Accordingly, the transmission and reception filter units 30 and 40 may include first and second resonator units 61 and 62 connected in series to allow only signals of a desired frequency band to be transmitted and received, and the first and second filters. And a band determiner 63 for determining a frequency band of the signal passing through the second resonators 61 and 62.

Here, the first resonator 61 is formed by connecting a second capacitor C8 and a first diode D4 connected in series with the first inductor L1 and the first capacitor C7.

On the other hand, the second resonator 62, like the first resonator 61, the fourth capacitor C9 and the second diode (D5) connected in series with the second inductor (L2) and the third capacitor (C10). ) Are connected in parallel.

Here, the second capacitor C8 and the fourth capacitor C9 are connected to face the cathodes of the first and second diodes D4 and D5.

The band determiner 63 supplies power through resistors R4 and R5 between the second capacitor C8 and the first diode D4 and between the third capacitor C9 and the second diode D5. The capacitance of the first and second diodes D4 and D5 is changed according to the size of the power supplied from the band determiner 63.

At this time, the first and second diodes (D4, D5) is used for the varactor (Varactor) diode whose capacity is changed according to the size of the power supplied.

In addition, since the power supplied from the band determiner 63 is supplied through the resistors R4 and R5, the resistance values of the resistors R4 and R5 are increased to increase the first and second resonators 61 and 62. Since it does not affect, sufficient insulation is possible.

Therefore, the total capacitances CA and CB generated in the first and second resonators 61 and 62 are respectively the capacitances of the first capacitor C7 and the second capacitor as shown in Equations 1 and 2, respectively. The sum of the parallel capacitances of (C8) and the first diode (D4) and the capacitance of the third capacitor (C10) and the parallel capacitance of the fourth capacitor (C9) and the second diode (D5).

CA = C7 + C8∥C _d1

CB = C10 + C9∥C _d2

In this case, C _{d1 and} C _{d2 ,} which are not described in Equations 1 and 2, are capacitance components generated by the first and second diodes, respectively.

Looking at the operation of the filter device of the antenna switch according to the present invention configured as described above are as follows.

First, when the system 10 is in a transmission state, a signal of a desired frequency band among the signals generated by the first and second transmitters 11 and 13 is selected by the transmitter switch unit 21.

The signal selected by the transmission switch unit 21 is input to the transmission filter unit 30, filtered, and then transmitted to the outside through the antenna 2 when the transmission state of the signal is determined by the antenna switch unit 4. .

At this time, the signal input to the transmission filter unit 30, the signal of the passband determined according to the power generated by the band determiner 63 is filtered by the first and second resonators 61, 62. .

On the other hand, when the system is in a reception state, the antenna switch unit 4 is switched to a state in which it can be received and transmission of signals is prevented.

Accordingly, the signal received through the antenna 2 is input to the reception filter unit 40, and the input signal is filtered by the reception filter unit 40 and input to the reception switch unit 22.

In this case, the reception switch unit 22 allows the reception unit corresponding to the frequency of the input signal among the first and second reception units 12 and 14 to be selected and thus the input signal can be received.

As a result, the first and second resonators 61 and 62 are formed between the band determiner 63 and the first and second resonators 61 and 62 by forming resistors R4 and R5 having a large resistance value. ) And the transmission and reception filter units 30 and 40 can prevent the characteristic change and the performance degradation due to the power supplied from the band determination unit 63 by improving the insulation characteristics between the band determination unit 63 and In addition, it is easy to adjust the frequency band passed by using a varactor diode whose capacitance varies depending on the size of power supplied to the first and second resonators 61 and 62.

The filter device of the antenna switch of the present invention configured as described above uses a varactor diode, which is a capacitive variable element whose capacitance varies depending on the power supplied to a transmission and reception filter unit for filtering signals transmitted and received from the outside. The frequency band that is passed can be easily adjusted, and the interference caused between the transmission and reception filter unit and the power supply unit can be prevented by connecting the power supply unit supplying power to the transmission and reception filter unit with a large resistance. As a result, the characteristics and performance are not degraded, thereby improving the filtering performance.

Claims (3)

A switch unit for selecting a signal having a desired frequency band among signals transmitted and received in a system for transmitting and receiving a signal having a plurality of frequency bands; An antenna switch comprising a transmission and reception filter unit for filtering a signal of a frequency band selected by the switch unit to be transmitted and received through an antenna, The transmission and reception filter unit may include first and second resonators configured to filter a signal having a frequency pass band determined according to the magnitude of power supplied from the outside; And a band determiner configured to supply power having a magnitude corresponding to the frequency pass band to the first and second resonators. According to claim 1, A coupling inductor is provided so that mutual interference due to a coupling phenomenon can be prevented between the first and second resonators. According to claim 1, And the first and second resonators include an inductor, a capacitor, a capacitor connected in series, and a varactor diode connected in parallel.