JPH0224063B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a power supply system for a network control device connected to a subscriber telephone line (hereinafter simply referred to as a line or telephone line) and controlling connection of a plurality of data terminal devices to the line. Regarding.

FIG. 1 is a conceptual diagram showing a data transmission system using such a network control device.

In the figure, 1 is a telephone exchange or switching network;
2 is a network control device; 3 is a data terminal device; the terminal device 3 is connected to the telephone switching network 1 under the control of the network control device 2;
connected to. In such a system,
The power supply on the telephone exchange side 1 (station power supply) closes the loop,
Conventionally, the power for the network control device 2, which is used only to send a selection signal or create a loop opening signal, and performs network control, has been supplied from a commercial power supply PS. For example, when the network control device 2 requests communication with the exchange side 1, it is necessary to send a selection signal, that is, a dial pulse (hereinafter also simply referred to as DP), but this DP is sent as follows. It was being done.

FIG. 2 is a circuit diagram showing a conventional dial pulse sending circuit.

In the figure, 11 is a power supply circuit that takes commercial power as input and generates the power necessary for various circuits, 12 is a dial pulse generation circuit that generates make signals, break signals, and minimum pauses, L is a dial pulse sending relay, and l is a circuit. 13 is a spark extinguishing circuit that protects the relay contact L; 14 is a resistor that limits the line current; 1
5 is a spark killer. Note that as the dial pulse generation circuit, for example, the one described in Japanese Patent Application Laid-open No. 18310/1983 can be used.
It is also possible to use a commercially available IC.

A dial pulse generating circuit 12 operates a relay L, and a dial pulse is transmitted by turning on and off its contact l.

Therefore, since commercial power is required as the operating power source, 1) telephone calls will not be possible during a commercial power outage;

2) In systems where terminal equipment does not use commercial power and operates on batteries, etc., it is necessary to install a commercial power supply as a network control device.

There is a drawback.

The present invention was made in view of the above points, and an object of the present invention is to provide a network control device that does not require commercial power, so that it can be applied to systems where commercial power is not easily available. shall be.

Simply put, the feature of the present invention is that the power necessary for the network control device is supplied from the exchange side. Extensively speaking, a rectifier circuit that rectifies the voltage supplied from the exchange side, a first circuit consisting of a series circuit of a constant current circuit and a constant voltage power supply circuit and connected in parallel with the rectifier circuit; A second circuit consisting of a constant current circuit or a series circuit of an impedance element and a switch is connected in parallel with the rectifier circuit, and is supplied with power from the constant voltage power supply circuit and turns the switch on and off to generate dial pulses. A dial pulse generating circuit is provided, and the current level of the first and second circuits is not useful to the exchanger alone, but becomes useful only when combined. It is.

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 3 is a block diagram showing an embodiment of the present invention, particularly an example of a DP sending circuit which sends out DP in response to supply of local power, and FIG. 4 is a waveform diagram for explaining its operation.

In Figure 3, 31 is a rectifier circuit for rectifying the power sent through the line TL (the voltage supplied from the exchange is direct current, but the polarity may be reversed, so this is 32 is a constant current circuit that makes the current necessary for various circuits, 33 is a constant voltage circuit that makes the voltage necessary for various circuits, 12' is a make signal, a break signal, and a minimum pause. A dial pulse generating circuit similar to 12 in FIG. It is a switch that creates Note that the dial pulse generation circuit used here operates at a predetermined current level _L1 , and can be easily constructed using a known electronic circuit. Although the switch 35 is illustrated as an NPN transistor, it goes without saying that it can be replaced with a known switch circuit.

In addition, the current I ₁ in FIGS. 3 and 4 is
Below the holding current of the relay in the DP receiving circuit on the exchange side,
Further, the constant current circuits 32 and 34 are designed so that I ₁ +I ₂ is greater than or equal to the current of the relay in the DP receiving circuit on the exchange side.

Therefore, as shown in FIG. 4, the DP make signal and minimum pause signal are generated by the current I ₁ flowing through the constant current circuit 32 to the constant voltage circuit 3, and the current I 2 flowing through the constant current circuit 34 and the switch _35.
The DP break signal is created by the above-mentioned current _I1 .

Sending out the DP is made possible by turning on and off the switch 35 by a dial pulse generation circuit which receives power from the constant voltage power supply circuit 33.

By doing so, dial pulses can be sent out simply by receiving power supply from the exchange side without requiring commercial power supply.

In this case, a current is also required at the time of a break, but this current level is kept below the holding current of the relay in the DP receiving circuit on the exchange side, so this does not interfere with the operation of the exchange side.

Note that the currents I ₁ and I ₂ are connected to constant current circuits 32 and 34.
The reason for the constant current is that the current varies due to differences in line resistance of the telephone line depending on the installation location of the network control equipment.
This is to prevent I ₁ and I ₂ from changing. Therefore, when line resistance is not a problem, the constant current circuit 34 can be replaced with a suitable impedance element, for example.

As the constant current circuit, a well-known circuit including a constant current element such as a constant current diode can be used, and as the constant voltage circuit, a well-known circuit including a constant voltage element such as a Zener diode can be used. The same is true.

The above has described the case where the present invention is applied to the function of a network control device sending out dial pulses, but other functions of the network control device, such as call collision monitoring during call origination, network recovery guaranteed time monitoring, etc. It is also possible to apply this function effectively.

The call collision monitoring operation of the network control device refers to a series of operations for preventing collisions between calls originating from the network control device and incoming calls from the exchange. In other words, by operating the call collision monitoring circuit at a current lower than the current of the call monitoring relay on the exchange side, the exchange side considers the loop open, and the network controller performs a series of operations to prevent call collisions. I can do it.

The guaranteed network recovery time is the time it takes for the exchange to complete a series of operations for network recovery after the network control equipment opens the loop, and the network control equipment will call again until this operation is completed. I can't do that.

By operating the guaranteed network recovery time monitoring circuit of the network control device at a current lower than the holding current of the call monitoring relay on the exchange side, the exchange side determines that the loop is open and performs a series of operations for network recovery. At the same time, the network control device can perform a guaranteed network recovery time monitoring operation.

In the application example of the present invention described above, I ₁ is set to below the sensitivity current or below the holding current of the call monitoring relay on the exchange side in FIG. 3, and the DP creation circuit 1
This can be easily realized by replacing 2' with a call collision monitoring circuit or a guaranteed network recovery time monitoring circuit, and replacing the constant current circuit 34 and switch 35 with circuits necessary for their respective operations.

As described above, according to the present invention, since the network control device can be operated only with the station power supply, there is no need for an external power supply, and the cost can be reduced accordingly. Therefore, it can be used in any place, and is therefore not subject to restrictions on the place of use.

The present invention can be widely applied not only to the network control device described above, but also as a power supply system for devices in general that use a switched network.

[Brief explanation of drawings]

Fig. 1 is a schematic diagram showing a data transmission system using a network control device, Fig. 2 is a circuit diagram showing a dial pulse sending circuit used in a conventional network control device, and Fig. 3 is an embodiment of the present invention. FIG. 4 is a waveform diagram for explaining the operation of FIG. 3. Code explanation 1...Switchboard or telephone switching network, 2
...Network control device, 3...Data terminal device, 11...
...power supply circuit, 12,12'...dial pulse creation circuit, L...dial pulse sending relay, l...
...Contact of sending relay L, 13...Spark elimination circuit,
14... Current limiting resistor, 15... Spark killer, 31... Rectifier circuit, 32, 34... Constant current circuit, 33... Constant voltage power supply circuit, 35... Switch.

Claims (1)

[Scope of Claims] 1. A network control device that is connected between a telephone line and a data terminal device and controls the connection of the terminal device to the line, and is configured to supply power from the exchange side. A power supply system comprising: a rectifier circuit for rectifying the power source; a first circuit comprising a series circuit of a constant current circuit and a constant voltage power supply circuit and connected in parallel with the rectifier circuit; and a constant current circuit or A second circuit consisting of a series circuit of an impedance element and a switch and connected in parallel with the rectifier circuit.
and a dial pulse generating circuit that is supplied with power from the constant voltage power supply circuit and generates dial pulses by turning on and off the switch, and independently controls the current level of the first and second circuits. A power supply system for a network control device is characterized in that the power supply system is not useful for the exchanges, but becomes useful only when combined.