HU198361B - Apparatus for the examination of telex machines and model testing of telex exchange - Google Patents

Abstract

According to the invention, the interface control unit is a circuit for converting serial information and converting information from the central control unit (10) into a start-stop serial information to the central control unit (10), to the information of the central control unit (10), the interface logic circuit ( 17) a combination network for physical and logical matching between the two / four-wire center-side line connector (20) and the interface control unit (Figure 1). -1-

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for testing telex machines and modeling a telex center, which enables full functional testing of telexes without being connected to a live telex network, and all functions of a true telex center while fully examining and evaluating standard protocols.

The device of the present invention is capable of handling both type A and type B subscriber signaling systems in both dual-wire and quad-wire mode. Its center simulator - modeling capability - can be used for educational and demonstration purposes. The device is suitable for near and far end examinations.

Modern telex machines are basically microprocessor-based central control unit, memory connected to the central control unit, keypad - dial. They consist of a printer and a serial / parallel converter and line connector. In case of malfunctioning, it is a common problem to detect and isolate errors in the control panel, lines or telex. There are currently two methods for testing telegraphists. One method is to test and verify in practice the functions of the telex machine through a live telex line. The disadvantage of this method is that it is time consuming and uses a live telex line, thus allocating center capacity.

The other method consists in attaching to the telex machine a characterization and / or distortion measuring device which can be used to carry out transmission measurements. Thus, by means of such devices, only the transmission and reception of characters, the signaling system, can be controlled from the functions of the telex; timings and other functions cannot be examined.

A device for full functional testing of telex machines is unknown.

It is an object of the present invention to provide a solution that enables full functional testing of telex machines without being connected to a live telex network. The challenge, therefore, is to design a system that can model all the functions of a telex center and enable telex machines to be examined as if they were operating on a live telex network without using a live telex line.

In order to solve this problem, we have developed a device which, via a system bus, has a working memory containing a keyboard, a display unit, a program containing programs necessary for the operation of the central control unit, measurement results, characters of the telex machine, name and selection information. and a library for storing CCITT-defined texts, error messages, and instructions for implementing CCITT-defined service signals used in the examined or modeled system, and a programmable signal generator for generating and forwarding telegraphic sequences required for CCITT-defined telegraph measurements; a timing comparator and a start-stop distortion measuring circuit, wherein a the central control unit is physically connected to the telex machine via an interface system, which physical connection may be a near-end or a far-end connection, depending on the particular task.

According to the present invention, the interface system is comprised of a dual / quad-wire center-line interface connector connected to a telex machine, an interface unit connected to a system bus, and an interface logic circuit connected between the dual / quad-wire central line connector and interface control unit, a circuit for converting and processing serial information into parallel information for the central control unit and converting the parallel information from the central control unit into start-stop serial information and control signals, and an interface logic circuit between a dual / quad wire central line connector and an interface control unit a combination network that provides an interface.

The interface control unit has a parallel input and output of a serial / parallel and a parallel / serial converter connected to the system bus, connected to its serial input by a character receiving and sampling circuit, connected by a serial input to a character input circuit and a character receiving and sampling circuit. connected to the output of a mode setting circuit connected to a system bus, and the status outputs of the character receiving and sampling circuits and the character generating circuit a. are connected to one of the inputs of the status monitor connected to the system bus.

The mode setting circuit, the status monitoring circuit, the serial / parallel and parallel / serial converters, the character receiving and sampling circuits, and the character generating circuit are known per se.

The gas mode setting circuit determines, based on instructions from the central control unit, whether the interface control unit is operating in star-stop (asynchronous) or sampling mode. Regardless of the input information, it enables or disables the outputs of the character receiving and sampling circuits and the character encoding circuits, and, when disabled, determines the output level of the character encoding circuits. Specifies the stop bit length for the character encoder in start-stop mode. Specifies the number of samples to be taken in the sampler mode.

The serial / parallel and parallel / serial converter converts the 8-bit parallel information from the central control unit to serial information for the character transmitting circuit and the serial information from the character receiving and sampling circuits to the corresponding parallel information for the central control unit.

Preferably, the status monitor circuit is an 8-bit register that buffers the "end of character" and "end of character" of the character receiving and sampling circuits and the character transmitting circuit until the central control unit is read.

The character receiving and sampling circuit transmits the serial information from the interface logic circuit to the serial / parallel converter while separating the start and stop bits. When the transmission of information is completed, it sends a signal to the status monitoring circuit.

The character generating circuit schedules the transmission of information from the parallel / serial converter at a rate determined by the mode setting circuit. The received information is supplemented with start and stop bits and thus transmitted by the interface lo-23

198 361 towards the gical circuit. When the transmission of information is completed, it gives a signal to the status monitoring circuit.

The interface logic circuitry consists of a level conversion circuitry that produces a TTL level signal and a logic circuit that prohibits signal combinations that are not allowed for the dual / quad wire center line connector. The level conversion circuit input is connected to the output of the dual / quad wire center line connector and is output to the character input and sampling circuit signal input, the logic circuit input is connected to the character output circuit output and its output to the dual / quad wire center input terminal.

The circuit design of the level converting circuit and the logic circuit that prohibits signal combinations is known per se.

The device of the present invention is capable of performing a full functional examination of known telegraphists, in particular "distorted text", "normal call", "automatic caller", "text transducer" · dial dial measurement, "infobox", "start-stop distortion measurement", "international call" ”,“ Busy pulse ”, etc. and modeling a signaling system for a telegraph center. The "automatic calling" mode is particularly suitable for ramp inspections. Its telecentre modeling capability can also be used as an educational and demonstration tool.

Preferably, the choice between the various examinations available is initiated using the dial or keypad of the telex machine under investigation. The device communicates with the keypad via the display unit.

Physical communication between the telex machine under investigation and the device may be achieved directly at the telex machine site or via a telex line disconnected from the exchange.

The advantageous effect of the invention, in accordance with the object of the invention, is that it enables complete functional testing of telegraphists without having to be connected to a machine-based telex network, so that it does not allocate center capacity during use. Software can easily be adapted to any signaling system. When used as an educational aid, it frees up centralized capacity for educational purposes and removes the locality of education. For telex operator training or demonstration purposes, you only need one telex machine.

The invention will now be further described with reference to the drawing, wherein

Figure 1 is a block diagram of an exemplary embodiment of the device of the invention.

As illustrated, the device of the present invention has a programmable signal generator 1, a timing comparator 2, a distortion measuring circuit 3, a text library 12, a library 12, a working memory 13, a display unit 15, a keypad 15 and a mode storage and signaling unit 10 connected. All libraries and libraries 12 are non-volatile memories such as EPROM or PROM. The program library 12 stores the program necessary for the operation of the central control unit 10. All texts contain test texts, error messages and service signals used in the domestic telex network, also recommended by CCITT, for test or modeling measurements. Preferably, the All-directory circuit unit 12 is the library part 2. The working memory 13 stores the variables required for operation, the measurement results, the characters, the name of the telex machine and the selection information.

The display unit 14 includes a status display and an error message display.

The device according to the invention has a dual / quad wire 20 center line connector through which the device can be connected to a telex machine. The control panel line connector 20 is connected to the system bus via an interface logic circuit 17 and an interface control unit.

The two-to-four-wire center-line line connector 20 is preferably a regular telegraph interface with a current generator drive that provides a nominal current up to 3 kOhm. In an exemplary embodiment of the center-line line connector 20, the current monitoring units 18, 19 and 21, connected in series with current generators 23, are connected to the line output via the two-position switching system 22 and to the interface logic circuit 17. Switching system 22 provides alternative switching between dual and quad wire mode! opportunity.

The interface logic circuit 17 is a combination network providing a logical and physical interface between the dual / quad-wired center line connector 20 and the interface control unit, consisting of a level conversion circuit 17A and a logic circuit 17B prohibiting signal combinations that are not allowed for the center line connector 20.

The interface control unit, which renders the start-stop system asynchronous serial information into an eight-bit parallel data structure for the central control unit 10, and converts the data transmitted to it by the central control unit 10 into serial startstop information and control signals, It consists of a parallel and parallel / serial converter, 6 status monitoring circuits, 7 character receiving and sampling circuits and 8 character time circuits.

The input of the character receiving and sampling circuit 7 is connected to the output of the level converting circuit 17A of the interface logic circuit 17 and the output to the serial input of the 5A serial / parallel converter. The input of the character generator circuit 8 is connected to the serial output of the parallel / serial converter 5B and the output is connected to the input 17B of the interface logic circuit blocker 17B.

The mode setting circuit 4, the serial / parallel converter 5 and the status monitoring circuit 6 are connected to the central control unit 10 via the system bus. The output of the mode setting circuit 4 is connected to a control input of each of the character receiving and sampling circuits 7 and the character transmitting circuits 8. The status outputs of the character receiving and sampling circuits 7 and the character encoding circuits 8 are connected to one of the inputs of the status monitoring circuit 6.

One of the outputs of the interface logic circuit 17 is connected to the input of the mode storage and signaling unit 16 connected to the system bus. The function of the mode storage and level transmitting unit 16 is to transmit information on the two or quad-wire modes on the one hand and to transmit signal levels to the central control unit 10 for high-speed sampling, such as distortion measurement and dial control.

-3198361

The programmable signal generator 1 generates and distorts the CCITT-defined telegram signal sequences for telegraphic testing. It is connected to the character transmitting circuit 8 directly via the central control unit 10 and the system bus and directly for the purpose of pre-distortion.

The timing comparator 2 is used in the subscriber signaling systems for measuring and monitoring the timing defined by CCITT. The distortion measuring circuit 3 measures the start-stop distortion. It determines the length of the elementary signals and sends unprocessed information to the central control unit 10 at each change. It is in direct communication with the receiving and sampling circuits 7.

The timing comparator 2, the distortion measuring circuit 3, the mode setting circuit 4, the serial / parallel converter 5 and the central control unit 10 are clocked by the central clock generator 9.

The device according to the invention is essentially implemented according to the above block diagram, under the name TPT 01, with the following features:

The dimensions of the device are 140 x 250 x 71 mm

Weight: 2.2 kg

Powered by 220 V, 50 Hz, mains voltage

Line features:

Power Generator Output Quad Wire Start Pol .: -20 mA Stop Pol: + 20 mA Dual Wire Start Pol .: -40 mA Stop Pol .::40 mA Standby Current: -5 mA Rated Modulation Speed: 50 Baud Other General Features: CCITT S. 3

Character Set: Control Characters: Naming:

Naming test: Signaling system:

Digitale test: Text entry:

Optional speeds:

CCITT No. 2 ABC CCITT S. Recommendation 4 / b CCITT S. Recommendation 6 CCITT s. According to 17 / 13,4,5

According to the type A and B subscriber signaling system CCITT u. According to recommendation 2 CCITT r. According to 52 recommendations, 75, 100, 150, 200 and 300 Baud.

Claims (1)

A patent claim 1. Apparatus for testing telex machines and modeling a telex center having a keypad, a display unit, a program library and a working memory connected to a central control unit via a system bus, and a telegraph for storing text, error messages, and service signals defined by CCITT; a pro-programmable signal generator for generating and biasing signals, a timing comparator for measuring CCITT-defined timings, and a start-stop distortion measuring circuit, wherein the central control unit is physically connected to the telex interface via the interleaver; line connector (20), system bus interface interface unit, and dual / quad-wire center line connector (20) and an interface logic circuit (17) inserted between the interface control unit, wherein: - a circuit for converting and processing the start-stop serial information to the central control unit (10) into parallel information and converting the parallel information from the central control unit (10) to the start-stop system serial information and control signals; having a serial / parallel and a parallel / serial converter (5) connected to a system bus having a serial input connected to an output of a character receiving and sampling circuit (7) connected to an input of a character receiving circuit (8), and the control inputs of the character encoding circuit (8) are connected to the output of the mode setting circuit (4) connected to the system bus, and the status outputs of the character receiving and sampling circuit (7) and the character encoding circuit (8) are connected to the system bus connected to one of the inputs of the status monitoring circuit (6). the interface logic circuit (17) is a combination network providing a physical and logical interface between the dual / quad wire center line connector (20) and the interface control unit having a TTL level level conversion circuit (17A) and a dual / quad wired center line connector (17); 20) a logic circuit (17B) prohibiting signal combinations thereof, wherein the input of the level conversion circuit (17A) is coupled to the output of the dual / quad wire center line connector (20) and output to the signal input of the character receiving and sampling circuit (7); and the input (17B) of the circuit (17B) is connected to the output of the characterizing circuit (8), and its output is connected to the input (20) of the dual / quad-wire center-line connector.