KR0136435B1 - Pager - Google Patents

Abstract

The present invention relates to an impedance matching circuit at the time of duplication of a circuit changer in a pager base station that simplifies the circuit changer configuration by using a voltage follower instead of a plurality of relays and realizes stable impedance matching. Impedance matching circuit has a disadvantage that the impedance matching is well done, but the circuit configuration is complicated because the number of relay elements used is too large, the present invention, in order to solve the conventional problems, many of the conventional input / output stage Eliminates 80 relay elements and simplifies the circuitry of the input stage by using a voltage follower with infinite input impedance, and the output stage controls the analog switch X-pointer and its operation The circuit can be easily configured by using a reset signal. Simplified in-circuit configuration provides productivity and economic benefits.

Description

Impedance Matching Circuit in Redundant Line Switcher in Pager Base Station

1 is a block diagram showing an impedance match in a conventional circuit changer redundancy.

2 is a block diagram showing impedance matching when the circuit changer is redundant according to the present invention.

Explanation of symbols on the main parts of the drawings

11,13: Impedance matching transformer 12: 1st line transfer machine

12-1: First voltage follower 12-2: First X-pointer

14: 2nd line transfer machine 14-1: 2nd voltage follower

14-2: second X-pointer

The present invention relates to an impedance matching circuit for duplexing a circuit changer in a pager base station. A pager base station simplifies the configuration of a circuit switching part by using a voltage follower instead of a plurality of relays and realizes stable impedance matching. The present invention relates to an impedance matching circuit in the circuit changer duplication of a device.

The circuit changer currently used by the pager base station is a device that connects the telephone line of 20 lines carrying the pager data to the desired transmitter. The circuit changer is implemented by redundancy because of its importance. When an error occurs and the operation is disabled, the other side of the spare is operated to perform the work instead.

Referring to the configuration of a conventional circuit switching unit performing such a function, as shown in FIG. 1, an impedance matching transformer (impedance matching transformer) installed at the input / output terminal of the circuit changer to perform impedance matching ( 1,6); The first matching the impedance matching transformer (1) of the input terminal and the first and second circuit changers (3,5) and the on / off depending on the operation of the line switch connected to itself Second relays 2 and 4; First and second circuit changers 3 and 5 for connecting the pager data input through the input terminal to a desired output telephone line among the 20 output telephone lines; Third and fourth relays which are responsible for impedance matching between the line changers 3 and 5 and the output stage impedance matching transformer 6 and are turned on or off depending on whether the line changers connected to the line changers are operated. (2 ', 4').

The operation of the circuit switching unit configured as described above is as follows.

First, assuming that the first circuit changer 3 is in operation, the relay unit is connected to the first and third relay units 2 and 2 ', and in such a state, the phaser is connected through the input stage impedance matching transformer 1. When data is input, the data is input to the first circuit changer 3 via the first relay unit 2.

In this way, the data input to the first circuit changer 3 is connected to a desired output line among the 20 output telephone lines, and is again output through the third relay unit 2 '.

As such, an error may occur in the first circuit changer 3 while the input data is connected to a desired output line. In such a case, the first circuit may be directly used by using the second circuit changer 5. Transfer to the transfer machine (3).

That is, a phaser input through the input stage impedance matching transformer 1 by turning off the relays of the first and third relays 2 and 2 'and immediately turning on the second and fourth relays 4 and 4'. The data is input to the second circuit changer 5, and the following operation is the same as that performed by the first circuit changer 3. FIG.

For reference, each of the line switching devices 3 and 5 has 20 input / output lines, and each of them uses 20 relay elements on the input / output side for impedance matching. In total, 40 relays are used, and as a result, 80 relay elements are used.

The reason why the relay element is used for the redundancy structure and impedance matching of the line changer is that the error occurrence probability of the elements of the line changer is rather high. It is to use the spare circuit changer to do the same work immediately without repair time, and impedance matching is required to have 600 (Ω) impedance of both input signal and output signal (item prescribed in 'CCITT'). As a result, 600: 600 impedance-matching transformers are used at the input and output stages.

This is to prevent the impedance matching due to the influence of the load not to be broken even if one side in operation generates an error to remove the fault.

However, the relay unit, which is conventionally used to satisfy the above conditions, has impedance matching, but the circuit configuration is complicated because the number of relay elements used is too large.

Therefore, the present invention simplifies the circuit of the input stage by using a voltage follower having an input impedance characteristic of infinite to solve the above-described problems, and the output stage is an analog switch X-pointer (X-pointer) The circuit is simply configured by using a reset signal for controlling its operation, and its function is characterized by providing a circuit changer and its impedance matching circuit which perform the same as in the prior art.

That is, each relay unit connected to an input / output terminal of each circuit changer implemented as a redundant structure and connected to an input / output impedance matching transformer, impedance matching between each circuit changer, and a circuit changer in operation; A circuit switching unit and an impedance matching circuit in a pager base station including a circuit changer, comprising: an input / output impedance matching transformer; The first voltage follower responsible for impedance matching between the signal input through the input terminal impedance matching transformer and the first X-pointer, and the signal input through the first voltage follower to a desired telephone line among a plurality of output telephone lines. A first line changer composed of a first X-pointer controlled by a reset signal; The circuit switching part and the impedance matching circuit which comprise the 2nd circuit changer which have the same structure as the said 1st circuit changer are used.

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

2 is a block diagram showing a simplified circuit switching unit structure according to the present invention, comprising: impedance matching transformers 11 and 13 installed at the input / output terminals of the circuit changer to perform impedance matching; A first voltage follower 12-1 that is responsible for impedance matching between the signal inputted through the input terminal impedance matching transformer 11 and the first X-pointer 12-2, and the first voltage follower 12- 1) connects a signal input through 1) to a desired telephone line among a plurality of output telephone lines, the operation of which is performed by a first circuit changer 12 composed of 1 X-pointer 12-2 controlled by a reset signal; ; It is composed of a second line changer 14 having the same structure as the first line changer 12.

The operation of the present invention configured as described above is performed as follows.

First, assuming that the first X-pointer 12-2, which is an analog switch, is in operation, a reset A signal is input to 'low' to activate the state of the first X-pointer 12-2. .

As such, when the value of the reset A signal is input as 'low', the first X-pointer 12-2 is operated, and the pager data input through the impedance matching transformer 11 at the input terminal receives the first voltage follower 12-. The first X-pointer 12-2, which is input to the first X-pointer 12-2 via 1) and receives this data, connects the desired output telephone line.

When the line connection is completed, the final output signal is output through the output impedance matching transformer 13.

At this time, if an error occurs in the first X-pointer 12-2, the reset A signal is applied as 'high' to stop the operation of the first X-pointer 12-2, and the 'high' value so far. The reset B signal that has been applied is changed to a low value and applied.

When the value of each reset signal is changed in this way, the operation of the first X-pointer 12-2 is stopped, and thus the state of the second X-pointer 14-2 is changed to the active state, and thus the first X-pointer ( You will be doing what you did in 12-2).

On the other hand, impedance matching is used by connecting to each voltage follower 12-1, 14-1 using only one of two terminals output from the impedance matching transformer 11 of the input terminal, which is used as a voltage follower 12-. Since the input impedance of 1,14-1) is infinite, the impedance becomes 600 (Ω) regardless of whether or not an error occurred line changer is connected and connected to each X-pointers 12-2 and 14-2. The output stage impedance matching transformer 13 is connected using only one terminal like the input terminal.

This is because only one X-pointer operates under the control of each reset signal, so all unused X-pointers can be cut off by the reset signal, so even if only one wire is connected, there is no load effect. (Z _in , Z _out ) are all matched to 600 (Ω).

As described above, the present invention simply configures the impedance matching circuit of the input stage by using the voltage follower 12-1, 14-1, which is a kind of op amp, and the X-pointers 12-2, 14-2 and By simply configuring the impedance matching circuit of the output stage by using each reset signal to control its operation, the input / output impedance is always 600 regardless of the load of the other circuit switch in the redundant circuit switching structure. (I) remain in compliance with the CCITT Regulations.

For reference, the X-pointer used in the present invention is an analog switch having a metric structure such as 88016 provided by Mitel, and is a semiconductor chip.

As described in detail above, the present invention removes a plurality of relay elements used in the conventional input / output stages, and uses an impedance signal by using a voltage signal and a reset signal for controlling the operation of the X-pointer. By simply configuring the matching circuit, the overall circuit configuration of the circuit switching section is simplified, which leads to productivity and economical advantages.

Claims (1)

Impedance matching and operation between input / output impedance matching transformers (1,6) and each circuit changer (3,5) connected to the input / output terminal of each circuit changer (3,5) implemented in a redundant structure. Each relay unit 2, 2 ', 4, 4' which is in charge of connecting the circuit changer; In the circuit switching unit in the pager base station including the circuit changers (3, 5) and the impedance matching circuit thereof, Input / output impedance matching transformers 11 and 13; A first voltage follower 12-1, which is responsible for impedance matching between the signal input through the input terminal impedance matching transformer 11 and the first X-pointer 12-2, and the first voltage follower 12-1 A first line changer 12 comprising a first X-pointer 12-2 controlled by a reset signal, and the signal inputted through the < RTI ID = 0.0 >; Impedance matching circuit at the time of duplication of the line changer in the pager base station, comprising a second line changer (14) having the same structure as the first line changer (12).