KR950004417B1 - Wireless pbx system repeater - Google Patents

Abstract

The repeater for PBX system, when system and terminal are placed in the distance, provides reliable signal transmission. This repeater is supplied with power directly by the system without a power supplier for the repeater. The repeater consists of a transformer supplied with power, a power separating circuit, a power receiver/supplier, DNIC that re-transmits communication signal, a timing control circuit and a power supplying circuit.

Description

Repeater for Wireless PBX System

1 is a schematic configuration diagram of a general wireless PBX system having a conventional two-wire transmission method.

2 is a schematic configuration diagram of a conventional wireless PBX system in which a LE (Loop Extender) unit is added to the configuration of FIG.

3 is a block circuit diagram showing the configuration of the LE portion in FIG.

4 is a schematic configuration diagram of a wireless PBX system employing a repeater of the present invention.

5 is a diagram schematically illustrating a connection configuration in which a plurality of repeaters according to the present invention are installed.

6 is a block circuit diagram showing a configuration of a repeater according to the present invention.

FIG. 7 is a circuit diagram showing the detailed circuit configuration of the repeater shown in FIG.

8 is a schematic circuit diagram of a connecting device interface unit according to the present invention.

9 is a waveform diagram of a signal conversion by the DNIC and a synchronization signal and a clock signal accordingly.

10 is a schematic circuit diagram of a conventional general connection interface unit

* Explanation of symbols for main parts of the drawings

DNIC: Digital Network Interface Controller LE: Loop Extender

T1 to T6: transformer DA1 to DA3: diode array

TC: Timing control circuit D1 to D3: Diode

FI: FixedSet Interface.

The present invention relates to a repeater for transmitting a communication signal between the main body of the wireless PBX system and its terminal device and the operating power required for driving the terminal device. In particular, the present invention can directly supply power from a system without installing a separate relay driving power supply. The present invention relates to a wireless PBX cyster repeater.

In general, the main body and the terminal device of the wireless PBX system are connected by a two-wire connection, wherein the signal to be transmitted and the power supply for the terminal device driving are superimposed by the transformer and transmitted together. FIG. 1 is a circuit diagram showing a schematic configuration of a general wireless PBX system having such a transmission method. The DNIC (Digital Network Interface Controller) converts a communication signal as shown in FIG. And a transformer for superimposing the converted communication signal with the power supply for the terminal device and matching the impedance of the connection line, installed in both the system main body and the terminal device. The maximum signal transmission distance of about 2km.

Also, in order to further extend the signal transmission distance, it may be configured as shown in FIG. 2. The wireless PBX system shown in FIG. 2 has a loop extender (LE) unit for amplifying a signal converted by the DNIC. And an additional configuration between the DNIC and the transformer in the terminal device, which allows the LE unit to amplify the input / output signals analogally so as to enable a signal transmission at a longer distance, as shown in FIG. The signal can be transmitted over a distance of about 1km further.

Here, as schematically shown in FIG. 3, the LE unit includes a transmitter configured to filter a signal input from the DNIC, an amplifier and a line terminator resistor to amplify the filtered signal, and a signal input from a transformer. The receiver consists of an amplifier to amplify and a noise and echo canceller.

Meanwhile, the signal transmission of the conventional wireless PBX system will be described in more detail with reference to FIGS. 1 and 2 as follows.

That is, in the configuration of the general wireless PBX system shown in FIG. 1, when a data signal is input to the DNIC from a CPU (not shown) in the interface unit unit installed on the system main body side, the DNIC is suitable for transmitting the data signal. Convert it to a signal and output it to a transformer. On the other hand, the power supply of the system is input to the other input terminal of the transformer so that current flows in the direction of the arrow shown in FIG. 1, so that the converted signal inputted from the DNIC to the transformer is overlapped with the supply power in the transformer for communication. Pass the track. In this case, as the length of the communication line increases, the resistance of the line itself increases, thereby attenuating the signal and power transmitted in the overlapped manner.

However, this attenuation due to the resistance of the track body is inevitable. Therefore, a method of increasing the level of a signal to be transmitted at the transmitting end and amplifying the signal at the receiving end, removing noise, and so on, can transmit the signal as far as possible. The proposed method is a signal transmission method using a loop extender (LE) shown in FIG. In the signal transmission method of FIG. 2, the level of the signal output from the DNIC is increased by the filter and the amplifier of the transmitting end, and then the signal is transmitted to the communication line, and the receiving end amplifies the attenuated signal while passing through the communication line again. By removing the noise and echo and inputting the same to the DNIC, a signal can be transmitted to a farther distance (about 3 km) than the method of FIG. However, even in the scheme of FIG. 2, since the loss of a signal due to the resistance of the communication line itself cannot be avoided, the signal transmission distance is limited. In addition, according to the configuration of FIG. 2, since the LE portion must be provided in both the system main body and the terminal device, the configuration of the entire system becomes complicated and expensive. In addition, if the terminal device is installed in a position close to the system main body, since the configuration of FIG. 1 is sufficient, it will be inefficient to use the device configured as shown in FIG.

As described above, the signal transmission method of the conventional wireless PBX system has a problem that the signal transmission distance is limited due to signal loss caused by the resistance of the communication line body.

In addition, a repeater is provided between the system main body and the terminal apparatus, that is, between the interface unit interface unit and the terminal apparatus in the system main body, so that the communication signal between the system main body and the terminal apparatus and the power for driving the terminal apparatus are retransmitted by the repeater. You can also consider the method. However, according to the signal transmission method using the repeater as described above, the signal transmission distance, that is, the distance between the system main body and the terminal device is twice as long as in the case of FIG. 1, but the power supply is attenuated because the repeater itself consumes power. It becomes more severe and needs to deal with it. Therefore, a separate power supply device for driving the repeater must be installed, which increases the size of the entire system, complicates the configuration, and increases the manufacturing cost.

The present invention has been invented in view of the above points, and even though the system main body and the terminal device are installed at a distant location from each other, a reliable signal transmission is possible and a separate relay driving power supply is not required directly from the system. Its purpose is to provide a repeater for a wireless PBX system that is to be powered.

In order to achieve the above object, a repeater for a wireless PBX system according to the present invention uses a transformer for receiving a communication signal inputted with overlapping power and a terminal device driving power, and a power supply for terminal device driving from a signal in which the communication signal and power are overlapped. Power separation circuit for separating, receiving power directly input from the system and supplying it as a repeater driving power, power receiving / supply unit for supplying power to the repeater in the next stage, DNIC for receiving and retransmitting the communication signal, operation of this DNIC A timing control circuit for controlling the power supply; a power supply circuit for supplying power for driving the terminal device; and a transformer for superimposing and transmitting the communication signal and power for driving the terminal device; and installed at a position where the system main body and the terminal device are far from each other. Even if it is, it is possible to transmit signals with high reliability The present invention provides a repeater for a wireless PBX system, characterized in that power is supplied directly from the system without the need for a relay driving power supply.

In the present invention configured as described above, the communication signal between the system main body and the terminal device and the power supply for driving the terminal device while being installed between the main body of the wireless PBX system and the terminal device, that is, between the interface unit and the terminal device in the system main body. I am using a repeater that retransmits. At this time, the repeater according to the present invention is directly supplied with the driving power from the system without the need of a separate power supply for supplying the driving power required for itself, and the source can be supplied to the repeater of the rear end, the repeater itself consumes Even considering the power supply, the power supply can be supplied to a considerable distance.

Therefore, when a plurality of repeaters according to the present invention are provided, it is possible to transmit a communication signal and a power supply for driving the terminal device to the terminal device installed at a considerable distance from the system main body.

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

First, with reference to FIG. 8 and FIG. 10, the connection interface unit of the wireless PBX system according to the present invention will be described. FIG. 8 is a schematic circuit diagram of a connection device interface unit according to the present invention, and FIG. 10 is a schematic circuit diagram of a conventional general connection device interface unit.

As shown in FIG. 10, the conventional configuration supplies signals and power to a pair of transformers, whereas the configuration of FIG. 8 provides signals and power to two pairs of transformers. That is, in the configuration shown in FIG. 8, the power supply potential (-48V) and the ground potential (GND9) are transmitted through four lines, and the power supply potential (-48V) and the ground potential (GND) are supplied to the transformer T5 by four lines. The power supply potential (-48) is supplied to the transformer T5 so that the communication signal and the power are overlapped by the transformer T5, and the current flows in the direction of the arrow in the transformer T6. ) To the transformer T5.

6 is a block diagram schematically showing the circuit configuration of the repeater according to the present invention. As shown in FIG. 6, the repeater of the present invention includes a transformer for receiving a communication signal and a power supply for driving a terminal device; Power separation circuit for separating the terminal device driving power from the signal overlapping the communication signal and the power, the power receiving / supply unit for receiving the power input directly from the system and supply it as a relay drive power supply and power to the repeater of the next stage A DNIC for receiving and retransmitting the communication signal, a timing control circuit for controlling the DNIC operation, a power supply circuit for supplying power for driving a terminal device, and a transformer for overlapping and transmitting the communication signal and power for driving a terminal device; It is comprised.

FIG. 7 is a diagram showing a detailed circuit diagram of the repeater shown in FIG. 6. Hereinafter, the operation of the relay according to the present invention will be described with reference to FIG.

First, the superimposed communication signal and power input from the terminals c and d are separated by the transformer T2, and then the communication signal is input to the DNIC 2 while the power is input to the diode array DA1. The diode array DA1 is connected to the input terminal i of the diode D1 and transformer T3 so that the relay is not affected even if the polarity of the power supply of the superimposed power supplied from the system is changed. It is transmitted to the repeater (or terminal device) of the next stage.

At this time, the current flows from the terminals C and d via the transformer T2 to the terminals a and b via the diode array DA1 and the transformer T1, and the opposite side passes through the transformer T4. It is supplied to the repeater or the terminal of the rear stage.

On the other hand, the power potential (-48V) and ground potential (GND) transmitted directly from the system through the terminals (e, f) are input to the diode (D2) via the diode array (DA2), the terminals (g, h) The power supply potential and the ground potential transmitted directly from the system through the input via the diode array DA3 to the diode D3.

At this time, each of the diodes (D1, D2, D3) of the power potential supplied through the transformer (T2) and power directly supplied from the system, the power of the side that is supplied more current from the system DC-DC converter It is configured to be input to (CONV). For example, if the power supplied through the terminals g and h is greater than the power supplied through the terminals a, b, c, d, e and f, the diode D3 is turned on while the diode D1, D2) is turned off so that current flows from the diode D3 to the DC-DC converter CONV, whereby the DC-DC converter CONV supplies power to the DNIC and the timing control circuit TC. In addition, at this time, the power input to the (e, f, g, h) is transmitted to the repeater of the next stage again through the terminals (e ', f': g ', h').

As described above, the repeater according to the present invention consumes power at the time of operation, but consumes only the largest power among the supplied power divided into three parts, and moreover, only the DNIC and the timing control circuit consume power. This is very small, and therefore, the power supplied to the repeater can be continuously transmitted to the repeater at a later stage, so that if a plurality of repeaters are additionally connected as shown in FIG. In this case, when connecting too many repeaters, a separate power supply device for repeaters should be installed. Since there are few cases in which 10 or more repeaters are installed in a wireless PBX system, there is no problem in practical use of the repeaters according to the present invention.

On the other hand, the communication signal input to the DNIC (2) of the receiving end via the transformer (T2) is converted into a digital signal by the DNIC (2) as shown in Figure 9 and then the reference clock signal and the synchronization signal of the signal Is extracted. Thereafter, the extracted reference clock signal and the synchronization signal are input again to the DNIC 4 of the transmitting end by the timing control circuit TC. At this time, the timing control circuit TC is installed to more securely transmit the signal between the DNIC 2 and the DNIC 4. The timing control circuit TC eliminates the dimming control circuit TC and directly connects the DNICs to the reference clock. There is no problem even if the signal and the synchronization signal are transmitted.

In addition, the DNIC does not amplify the signal input through the communication line analogously, but converts the communication signal into a digital signal and then outputs the signal to the communication line without fail. To resend. At this time, the transmission signal from the terminal ST (Signal Transmit) of the DNIC 2 of the receiving end is inputted to the terminal SR (Signal Receive) of the DNIC 4 of the transmitting end and extracted by the DNIC 2 of the receiving end. The reference clock signal and the synchronization signal are inputted to the DNIC 4 of the transmitting end, and the DNIC 4 of the transmitting end converts the signal inputted to the terminal SR and outputs it to the transformer T4 to retransmit the signal through the communication line. Done.

As described above, according to the present invention, even if the distance between the main body and the terminal device of the wireless PBX system can reliably transmit power and signals, and the power supply for the repeater directly from the system without the need for a separate power supply for the repeater It can be supplied, which not only simplifies the configuration of the whole system but also reduces the manufacturing cost.

Claims (3)

Receives a transformer receiving the input communication signal and the terminal device driving power superimposed, a power separation circuit for separating the terminal device driving power from the signal overlapping the communication signal and the power, and receives the power input directly from the system A power receiving / supply unit for supplying power to a repeater at the same time as a relay driving power source, a DNIC for receiving and retransmitting the communication signal, a timing control circuit for controlling the operation of the DNIC, and a power supply for driving a terminal device And a transformer for superimposing and transmitting the communication signal and the power supply for driving the terminal device, and enabling reliable signal transmission even when the system main body and the terminal device are installed at a remote location. Power directly from the system without the need for a separate relay driving power supply Repeater for PBV system, characterized in that the to be fed. 2. The repeater for a wireless PBX system according to claim 1, wherein the power receiving / supply section is composed of a plurality of diodes and selects the largest power supply and supplies the power as a relay driving power supply. The repeater for a wireless PBX system according to claim 1, wherein a signal in which a communication signal and a terminal device driving power are superimposed is supplied to two pairs of transformers.