KR100720379B1 - Hybrid Inpedance Diplexer - Google Patents

Abstract

The present invention relates to a hybrid connector, to prevent the inconvenience and cost of installing a separate high-pass line for the transmission of a high-frequency signal where a low-pass line, such as a separate coaxial line is installed, further installation of the line The high frequency signal can be transmitted where it is restricted.

That is, the present invention equalizes the impedances of the low and high frequency signals into one signal, and blocks the non-identical band signals on each line so that both low and high frequency signals can be transmitted on one line without loss of the signal. It is equipped with.

Therefore, the present invention has a hybrid connector that can transmit two signals having different bands and impedances through one line, and thus can transmit a high frequency signal and a low frequency signal having different impedance characteristics to one impedance line. It is possible to install a receiver such as a portable radio receiver in a place where the extension of the line is limited and the utilization of the line is limited such as an elevator.

Connector

Description

Hybrid Integrator Diplexer

1 is a perspective view showing an embodiment according to the present invention.

2 is a front view showing an embodiment according to the present invention.

3 is another embodiment according to the invention

Front view showing the use of high-pass line for mixing terminal line.

4 is an exemplary view illustrating a use state according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: hybrid connector

110: high terminal 120: low terminal 130: mixing terminal

140: high frequency mixing line

141: low-pass blocking element 142: low-pass earthing element 143: cutoff frequency control unit

150: low-pass mixing line

151: high-pass blocking device 152: high-pass ground device

161: impedance control unit

210: high pass line 220: low pass line

300 receiver

The present invention relates to a hybrid connector, and more particularly, to equalize the impedances of the low frequency signal and the high frequency signal into one signal and to block the non-uniform band signals on each line so that the low and high frequency signals are lost on one line without loss of the signal. Equipped with a hybrid connector that can transmit all the signals, it is possible to transmit a signal having a different impedance to the already existing existing lines to maximize the utilization of the line, receivers of portable radio equipment where the expansion of the line is limited, such as elevators The purpose is to install and use.

Another object of the present invention is to provide a low, high-pass grounding element for grounding a signal of the same band on each line of the hybrid connector, to minimize the influx of noise.

Still another object of the present invention is to provide a cutoff frequency control unit for finely controlling the cutoff frequency of the low pass blocking element provided in the high pass mixing line to precisely block a signal of a minute band to minimize the influx of noise. It is for the purpose.

In general, a low-frequency signal with a frequency of 500 to 600 MHz or less, such as a cable or a surveillance camera, is set so that a low-pass line having an impedance value of 75 Ω can be used, and a high-frequency signal having a frequency of 800 MHz or more such as a portable wireless device has an impedance. It is set to use a high-frequency line with a value of 50 Hz.

On the other hand, as described above, since the 50 GHz high-frequency line is mainly used for the portable wireless device, when a separate receiver is to be installed in the basement or indoors where the reception of the portable wireless device is difficult, the 75 역 low-frequency like the existing coaxial line Since it is not possible to use a line, and a separate 50 고 high-frequency line is required, if a separate installation cost is required, there is a problem that aesthetics is deteriorated due to wiring of various lines.

In addition, when the reception of a portable wireless device such as an elevator is not well received, a separate receiver should be installed, but there is a problem in that it is impossible to install a receiver because it is impossible to extend the line further.

Thus, the present invention is to prevent the inconvenience and cost of installing a separate high-pass line for the transmission of the high-frequency signal where a low-pass line, such as a separate coaxial line is installed as described above, further installation of the line The high frequency signal can be transmitted where it is restricted.

That is, the present invention equalizes the impedances of the low and high frequency signals into one signal, and blocks the non-identical band signals on each line so that both the low and high frequency signals can be transmitted on one line without loss of the signal. It is equipped with.

Another embodiment of the present invention is to provide a low, high-pass grounding element for grounding a signal of the same band on each line of the hybrid connector.

Another embodiment of the present invention is to provide a cutoff frequency control unit for fine-tuning the cutoff frequency of the low-pass blocking element provided in the high-frequency mixing line.

Therefore, the present invention has a hybrid connector that can transmit two signals having different bands and impedances through one line, and thus can transmit a high frequency signal and a low frequency signal having different impedance characteristics to one impedance line. It is possible to install a receiver such as a portable radio receiver in a place where the extension of the line is limited and the utilization of the line is limited such as an elevator.

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention enables the transmission of high and low frequency signals having different impedances through a single line, thereby minimizing the installation of the line and minimizing signal loss in the mixing process of the signal. Chebyshev impedance According to the matching theory, the impedance of high frequency high frequency signal and low frequency low frequency signal transmitted to different lines are equalized, and both signals can be mixed and transmitted through one line without signal loss by non-coherent signal blocking. One hybrid connector 100 is provided.

Here, the hybrid connector 100 is a high frequency terminal 110 to which a high frequency signal is applied, a low frequency terminal 120 to which a low frequency signal is applied, and a mixing signal in which a high frequency signal and a low frequency signal are mixed. A mixing terminal 130, a high frequency mixing line 140 formed between the high frequency terminal and the mixing terminal, a low frequency mixing line 150 formed between the low frequency terminal 120 and the mixing terminal 130, and the An impedance adjusting unit 161 formed on one side of the high-pass mixing line 140 and the low-pass mixing line 150 according to a connection line with the mixing terminal 130 and formed to be equalized according to Chebyshev impedance matching theory; One or more high-frequency blocking elements 151 and one provided in the high-frequency mixing line 140 provided in the low-pass mixing line 150 to be able to minimize the loss of the two signals equalized through the impedance control unit 161 to mix. Composed of the above-described low-pass blocking element 141 to be.

When the impedance adjusting unit 161 is provided in the high frequency mixing line 140 and the impedance is increased, the width of the line is gradually narrowed, and when the impedance is reduced in the low frequency mixing line 150, the impedance is reduced. The width of the line is formed to be adhesively widened.

In addition, the present invention is applied to the high-pass mixing line 140 and the low-pass mixing line 150, the low-pass in the high-pass mixing line 140 to be grounded so that it can be grounded to prevent noise caused by signals of non-identical bands that are not transmitted The grounding element 142 is provided and the low-pass mixing line 150 is provided with a high-pass grounding element.

On the other hand, the high-pass blocking element 151 and the high-frequency ground element 152 is performed using a low-capacitance capacitor that can transmit high-frequency signals of high frequency and low-frequency signals of low frequency, and the low-pass blocking element 141 and the low-pass grounding element 142 can transmit a low frequency signal of low frequency and a high frequency high frequency signal by using a low capacitance coil which is not transmitted.

In addition, another embodiment of the present invention is branched from both ends of the device to maintain a constant interval to finely control the cut-off frequency by the low capacitance capacitor used as the low-pass blocking element 141 provided in the high-frequency mixing line 140 It is provided with a cutoff frequency control unit 143 is disposed to maintain the capacitance.

As described above, the impedances of the high frequency high frequency signal and the low frequency low frequency signal transmitted to different lines according to Chebyshev impedance matching theory are equalized, and the two signals are mixed without signal loss by non-uniform signal blocking. It is provided with a hybrid connector 100 that can be transmitted all over the line, the hybrid connector 100 is a high frequency terminal 110 to which a high frequency signal is applied, and a low frequency terminal 120 to which a low frequency signal is applied. ), A mixing terminal 130 to which a mixing signal mixed with a high frequency signal and a low frequency signal is applied, a high frequency mixing line 140 formed between the high frequency terminal and the mixing terminal, and the low frequency terminal 120 and the mixing terminal. Chevise formed on one side of the high-pass mixing line 140 and the low-pass mixing line 150 in accordance with the low-pass mixing line 150 formed between the 130 and the connection line with the mixing terminal 130. Impedance control unit 161 formed to be equalized according to the impedance matching theory, and the low-pass mixing line 150 to minimize the loss of the two signals equalized through the impedance control unit 161 to mix In the embodiment of the present invention constituted by at least one high pass blocking element 151 and at least one low pass blocking element 141 provided in the high pass mixing line 140, the low pass line 220 having a connection line of the mixing terminal 130 is 75 Ω. In the case of), the high frequency signal received through the receiver 300 and input to the high frequency terminal 110 gradually flows along the impedance adjusting unit 161 formed to narrow the line width, and the impedance value thereof gradually increases. It is increased to have 75Ω.

As described above, in the state where the impedance value of the high frequency signal is 75 동일 and is equalized to the impedance of the low frequency signal, each signal is transmitted to the mixing terminal 130 along each mixing line and is connected to the mixing terminal 130. The two signals along the low pass line 220 will be transmitted simultaneously with the same impedance.

On the other hand, when two signals having the same impedance are transmitted, a mixing state in which a low frequency signal and a high frequency signal are mixed in the process of branching the mixing terminal 130 from each of the high frequency terminal 110 and the low frequency terminal 120. When the signal is applied to the high-frequency mixing line 140, only the high-frequency signal of the mixing signal is transmitted through the low-pass blocking element 141 made of a condenser element, and the low-pass signal cut off does not cause noise. Ground is induced and exhausted through.

In addition, only the low frequency signal of the mixing signal applied to the low frequency mixing line 150 is transmitted through the high frequency blocking element 151 formed of the coil element, and the high frequency signal cut off does not cause noise. Ground is induced and exhausted through).

On the other hand, in the embodiment of the present invention as described above, if the connection line of the mixing terminal 130 is 50 kHz high-pass line 210, as in the other embodiment of the present invention, the impedance adjusting unit ( It can implement by providing 161.

Therefore, in the present invention, a low-frequency signal and a high-frequency signal equalize the impedance to a single signal, and block each non-uniform band signal on each line, so that a hybrid connector can transmit both the low and high frequency signals on one line without loss of the signal. By providing a signal, it is possible to transmit a signal having a different impedance to the already existing existing line to maximize the utilization of the line, and to install and use the receiver of a portable wireless device in places where the extension of the line is limited, such as an elevator .

In addition, by providing a low and high-pass grounding device for grounding signals of non-identical bands on each line of the hybrid connector, the inflow of noise into each line is minimized.

In addition, it is very useful to minimize the influx of noise by precisely blocking the signal of the minute band by providing a cut-off frequency control unit to finely control the cut-off frequency of the low-pass blocking element provided in the high-pass mixing line.

Claims (3)

According to Chebyshev impedance matching theory, the impedance of high frequency and low frequency low frequency signals transmitted to different lines are equalized, and both signals are mixed and transmitted through one line without signal loss by non-coherent signal blocking. Provided with a hybrid connector 100, The hybrid connector 100 has a high frequency terminal 110 to which a high frequency signal is applied, a low frequency terminal 120 to which a low frequency signal is applied, and a mixing terminal to which a mixing signal mixed with a high frequency signal and a low frequency signal is applied. 130, a high frequency mixing line 140 formed between the high frequency terminal and the mixing terminal, a low frequency mixing line 150 formed between the low frequency terminal 120 and the mixing terminal 130, and the mixing terminal. Impedance control unit 161 formed on one side of the high-pass mixing line 140 and the low-pass mixing line 150 in accordance with the connection line 130 and formed to be equalized according to Chebyshev impedance matching theory, and the impedance At least one high pass blocking element 151 provided in the low pass mixing line 150 and at least one low pass provided in the high pass mixing line 140 so as to minimize the loss of the two signals equalized through the adjusting unit 161. Characterized in that it comprises a blocking element 141 Hybrid connector that. The method of claim 1; The low-pass grounding element 142 is connected to the high-pass mixing line 140 and the low-pass mixing line 150 so that it can be grounded so as to prevent noise caused by a signal of a non-coherent band that is not transmitted. And a low pass mixing line (150) having a high pass ground element. The method according to any one of claims 1 to 2; Maintaining capacitance by branching at both ends of the low pass blocking device so as to finely control the cutoff frequency by the low capacitance capacitor used as the low pass blocking device 141 provided in the high pass mixing line 140. Hybrid connector comprising a cut-off frequency control unit 143 to.

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