RU2149515C1 - Attachment to telephone set to test its condition - Google Patents

Abstract

FIELD: telephone communication, facilities protecting equipment against users' negligence. SUBSTANCE: proposed invention makes it possible to receive call signals when telephone receiver is off the telephone set as it displays additional functional capabilities as compared with other known aids for protection and test of telephone sets which is technical objective of invention. This objective is achieved thanks to usage of microprocessor which carries out in accordance with program test of duration of transmission of signal " busy in subscriber's line and forming after specified time interval signal ensuring disconnection of speech part of telephone set and power supply of microprocessor via contacts of second optoelectronic relay across its output. EFFECT: employment of additional functional capabilities for protection against users' negligence. 9 cl, 1 dwg

Description

 The invention relates to telephone communications, in particular to means for monitoring the state of the telephone apparatus and protecting users from negligence.

 Known prefixes to the telephone, providing control of the duration of telephone conversations, the cost of telephone conversations, limiting the duration of telephone conversations, etc. (see US 4751728, A, 06/14/88, FR, 2272551, A, 01/23/76).

 The closest to the proposed invention is a prefix to the telephone to monitor its condition (see US 4751728). A disadvantage of the known set-top box is the lack of means to ensure that the telephone set receives ringing signals from the telephone exchange when the handset is off-hook.

 To eliminate this drawback, the proposed invention provides means for measuring the duration of the passage of short tone bursts (busy signal) and connecting the calling device after a specified period of time. Thus, the proposed invention has, in comparison with the closest analogue, new functionality, which is a technical result.

 In order to achieve a technical result, two optoelectronic relays, a rectifier, a first capacitor, a voltage regulator, an RC circuit, four resistors and three decoupling diodes are introduced into the prefix to the telephone set to monitor its condition, containing a microprocessor connected to the subscriber line and the telephone set. In this case, the terminals of the subscriber line are connected to the terminals of the alternating current of the rectifier and, through the disconnecting contacts of the first optoelectronic relay, are the calling device of the telephone set, the terminals of constant t The rectifier is connected to the corresponding first and second power rails, between the first and second power rails, the first series circuit from the first capacitor, the disconnect contacts of the telephone switch lever and the first resistor, and the second series circuit consisting of the voltage regulator connected in series with the terminals connected to it microprocessor power supply, make contacts of the second optoelectronic relay and the dialer with the associated conversational part of the telephone the apparatus, while the first capacitor through the discharge circuit shunting it from the series-connected make-up contacts of the telephone switch, the first isolation diode, the second resistor and the LED of the second optoelectronic relay is connected to the first power bus, which is connected through the LEDs of the first optoelectronic relay and the third resistor, as well as through a series-connected LED of the second optoelectronic relay, the fourth resistor and the second decoupling a diode with a microprocessor output, the control input of which is connected through the third decoupling diode and the disconnect contacts of the telephone device lever switch with the first capacitor, the microprocessor comparator inputs are connected to the second power bus via an RC circuit, when a voltage is applied to the microprocessor, the signal at its output provides the LEDs of the first and a second optoelectronic relay to the power bus, a pulse signal supplied to the control input of the microprocessor in the process of charging the first The sensor provides the installation at the microprocessor output of a signal that disconnects the LEDs of the first and second optoelectronic relays from the power bus, in accordance with the specified program, the microprocessor performs the functions of a digital band-pass filter and, after the supply voltage is supplied to it, counts the pulse packets of a given frequency and duration arriving at it comparator inputs, after a predetermined number of the mentioned pulse packets arrives, a signal is established at the microprocessor output, ensuring ayuschy off the LEDs of the first and second optoelectronic relay from supply rails.

 It is also advisable to include a fifth resistor in series with the short-circuit contacts of the telephone device lever switch in series with the shunting of the first capacitor, and turn on the zener diode between the connection point of the fifth resistor and the first isolation diode and the first power bus.

 The voltage stabilizer may comprise a zener diode shunted by a second capacitor.

 In parallel with the microprocessor power inputs, you can turn on a resistive voltage divider, the middle output of which through an additional resistor is connected to one of the microprocessor comparator inputs, between which the third capacitor is connected to the microprocessor power output connected to the second power bus.

 The microprocessor control input can be connected through a second additional resistor to the microprocessor power output connected to the second power bus.

 The microprocessor program can provide, if there is no speech signal at its comparator inputs for a predetermined period of time, setting a signal at its output to ensure that the LEDs of the first and second optoelectronic relays are disconnected from the power buses, while the signal at the microprocessor output, providing disconnection of the LEDs from the power buses, is advisable set to single, and the signal that provides the connection of the LEDs to the power buses is zero.

 When using a push-button dialer in the telephone, it is advisable that the microprocessor of the dialer additionally provides the functions of the microprocessor of the set-top box.

 The invention is illustrated in the drawing, which shows a circuit diagram of an example of a specific embodiment of the device.

The device in accordance with the drawing contains: terminals 1, 2 for connecting a subscriber line, a rectifier 3 connected to them by direct current terminals, for example, a diode bridge, bus 4 (for example, positive) and bus 5 (for example, negative) connected to its DC outputs , the first optoelectronic relay 6, the opening contacts of which are connected by one output to the output 44 of the calling device (WU) 7, the output of which 45 is connected to the output 2 for connecting the subscriber line, the other output of the opening contacts of the optoelectronic relay 6 is connected to output 1. The first capacitor 8 is connected to the bus 4 by one output and connected to one of the terminals of the first resistor 10 and to the anode of the first decoupling diode 30, the cathode of which is connected to the control input 24 of the microprocessor (MP) through one output connected to the bus 4; ) 12. Another output of the resistor 10 is connected to the bus 5. The bus 4 is connected through a series-connected LED of the first optoelectronic relay 6 and the third resistor 50 is connected to the output 25 of the MP 12, to which the cathode of the second decoupling diode 31 is connected, the anode of which is connected through the fourth resistor 32 and the LED of the optoelectronic relay 11 in series with the bus 4. The closing contacts of the lever switch 9 ^* are connected between the other terminal of the capacitor 8 and one of the terminals of the fifth resistor 27, and the other terminal of the zener diode 26 and the cathode of the first decoupling diode 28, the anode of which is connected through a second resistor 29 and an LED of the second optoelectronic relay 11 connected in series with a bus 4, to which the zener diode cathode 26 is connected. d power 18 MP 12 is connected to the bus 4, the power supply 19 MP 12 is connected to one of the terminals of the make contacts of the optoelectronic relay 11, the other terminal of which is connected to the terminal 42 of the dialer (H) 13, the terminal 48 of which is connected to the bus 5, which also connected output 49 of the conversational part (RF) 14 of the telephone. The output 41 of the RF 14 through the NC contacts H 13 with the conclusions 42, 43 and the contacts of the optoelectronic relay 11 is connected to the output 19. The power leads 18, 19 are connected to a voltage regulator 15, made, for example, on a zener diode 16, shunted by a capacitor 17. Bus 5 through The RC circuit from the resistor 47 and the capacitor 46 is connected directly to the comparator inputs 20 MP 12 and to the comparator input 21 through an additional resistor 34. A voltage divider across resistors 33, 35 is connected to the power pins 18, 19, the middle point of which is connected to the comparator input DN 20. Between the control input 24 and the power output 19, a second additional resistor 40 is connected. The inputs 22, 23 of the MP internal generator 12 are connected to the terminals of the quartz resonator 39 and through the corresponding capacitors 38, 37 with the power output 19. A capacitor 36 is connected between the comparator input 21 and power output 19.

Ensuring the telephone reception of ringing signals from the telephone exchange with the handset off is as follows. After removing the handset, contacts 9 open and contacts 9 ^{* of the} lever switch are closed.

Pre-charged to a voltage between busbars 4 and 5 (which can be in the range of 60-120 V and is determined by the maximum voltage at terminals 1, 2), the capacitor 8 is discharged through the circuit: contacts 9 ^* - resistor 27 - diode 28 - resistor 29 - optoelectronic LED relay 11 - bus 4, while the current through the LED of the optoelectronic relay 11 closes its contacts, which connect the power output 19 MP 12 through the disconnecting contacts of the dialer 13 and the low-impedance input resistance of the conversational part 14 with bus 5. The power leads 18, 19 MP 12 are fed e.g. supply voltage, the value of which is maintained at the required level by the stabilizer 15, the value of the capacitor 17 of which is selected from the condition of a sufficiently small time constant for its charge during the discharge time period of the capacitor 8 and a sufficiently large discharge time constant to maintain voltage on it at the required limits during the operation of the dialer 13. Since the device uses a microprocessor with automatic installation of the operating mode, then after the voltage is received at the power inputs 18, 19, the output 25 S THE signal corresponding to a logical zero. In this case, the LED of the optoelectronic relay 11 is connected to the buses 4, 5 through the circuit bus 4 - LED of the optoelectronic relay 11 - resistor 32 - diode 31 - output 25 MP 12 - output 19 - contacts of the optoelectronic relay 11 - output 42 N 13 - output 43 N 13 - output 41 RF 14 - output 49 RF - bus 5. Accordingly, after the discharge of the capacitor 8, the current continues to flow through the LED of the optoelectronic relay 11 and its contacts are held closed. If there is a zero signal at the output 25, the LEDs of the optoelectronic relay 6 are also connected to the buses 4, 5 through the circuit: bus 4 - LED of the optoelectronic relay 6 - resistor 50 - output 25 - output 19 - contacts of the optoelectronic relay 11 - outputs 42, 43 - output 41 - output 49 - bus 5. At the same time, current flows through the optoelectronic relay LED and, opening its contacts, disconnects the VU 7 from the terminals 1, 2 of the line.

 In the case of unauthorized pick-up of the handset after a certain period of time, the PBX sends short tone signals to the subscriber line (the signal is busy), which through the RC circuit from the resistor 47 and the capacitor 46 go to the comparator inputs 20, 21 MP 12, while the microprocessor is programmed to work on the digital band-pass filter algorithm, it calculates the number of packages of a given frequency and duration, and after it arrives at its comparator inputs in a given time interval of a given number (for example, 30) of the aforementioned at the output 25 of the microprocessor is set signal corresponding to a logic one. The potential level at output 25, corresponding to a logical unit, prevents the current from flowing through the LED circuits of the optoelectronic relays 11 and 6, which causes the contacts of the optoelectronic relay 11 to open and the contacts of the optoelectronic relay 6. The supply voltage to the microprocessor stops, and VU 7 is connected to terminals 1 , 2 lines and ready to receive ringing tones. Similar processes occur in the absence of a microprocessor on the comparator inputs for a specified period of time of a speech signal. In a normal situation, when the handset is placed after the end of the conversation, the capacitor 8 is charged through the contacts 9 of the lever switch and the resistor 10 to the voltage of the buses 4, 5. The voltage pulse arising on the resistor 10 during charging is supplied through the diode 30 to the control input of the microprocessor 12 and establishes a single signal at its output 25, which ensures the termination of the flow of currents through the LEDs of the optoelectronic relays 11 and 6 and thereby creates conditions for disconnecting power from the MP 12 and connecting the VU 7 to the terminals 1, 2 of the line.

 The zener diode 26 protects the LED of the optoelectronic relay 11 from high current at the initial moment of the discharge of the capacitor 8. The decoupling diodes 28, 31, 30 provide isolation for the power supply of the LEDs of the optoelectronic relay 11 and the discharge circuit of the capacitor 8, the LEDs of the optoelectronic relays 11 and 6, as well as the control input circuit MP 12 from the large negative potential of the tire 5.

 The prefix can work with any type of ringing devices, for example, a specialized IC IC VUKR1064PP1 can be used as a ringing device (see A.I. Kizlyuk Handbook for the Construction and Repair of Telephone Sets of Foreign and Domestic Production, M., Biblion, 1995, p. . 58), as well as with any dialers, both pulsed and tonal. As a dialer and conversational part can be used, for example, a similar unit of any telephone, for example, the telephone set "Spectrum-3" 0218.070 TU Perm telephone factory.

 Due to the use of a microprocessor with a very low voltage in the set-top box, the set-top box does not distort the operation of the telephone exchange, as well as the dialer and conversational part.

Claims (10)

 1. The prefix to the telephone set to monitor its condition, containing a microprocessor connected to the subscriber line and to the telephone set, characterized in that two optoelectronic relays, a rectifier, a first capacitor, a voltage stabilizer, an RC circuit, four resistors and three decoupling diodes are introduced, at the same time, the terminals of the subscriber line are connected to the terminals of the alternating current of the rectifier and through the disconnecting contacts of the first optoelectronic relay - the calling device of the telephone, the terminals of the direct current of the rectifier with are connected with the corresponding first and second power rails, between the first and second power rails there is connected the first series circuit from the first capacitor, the disconnecting contacts of the telephone device lever switch and the first resistor, and the second sequence the circuit consisting of the voltage regulator connected in series with the microprocessor power leads connected to it , making contacts of the second optoelectronic relay and the dialer with the associated conversational part of the telephone, p the first capacitor through the shunting discharge circuit from the series-connected make-up contacts of the lever switch of the telephone, the first isolation diode, the second resistor and the LED of the second optoelectronic relay is connected to the first power bus, which is connected via the LEDs of the first optoelectronic relay and the third resistor connected in series through a series-connected LED of the second optoelectronic relay, a fourth resistor and a second decoupling diode with an output of m of the microprocessor, the control input of which is connected through the third decoupling diode and the disconnecting contacts of the lever switch of the telephone set to the first capacitor, the comparator inputs of the microprocessor are connected via the RC circuit to the second power bus, when a voltage is supplied to the microprocessor, the signal at its output provides the connection of the LEDs of the first and second optoelectronic the relay to the power buses, the pulse signal supplied to the control input of the microprocessor in the process of charging the first capacitor, provides It sets the output of the microprocessor to a signal that disconnects the LEDs of the first and second optoelectronic relays from the power buses, in accordance with a specified program, the microprocessor performs the functions of a digital band-pass filter and, after receiving a supply voltage to it, counts pulse packets of a given frequency and duration arriving at its comparator inputs , after receipt of a given number of the mentioned pulse packets, a signal is established at the output of the microprocessor that provides shutdown LEDs of the first and second optoelectronic relays from power buses.  2. The prefix to the telephone apparatus according to claim 1, characterized in that the fifth resistor is connected sequentially after the make contacts of the telephone device lever switch in series bypassing the first capacitor.  3. The prefix according to claim 2, characterized in that a zener diode is inserted, connected between the connection point of the fifth resistor and the first isolation diode and the first power bus.  4. The prefix according to claim 1, characterized in that the voltage regulator comprises a zener diode shunted by a second capacitor.  5. The prefix according to claim 1, characterized in that a resistive voltage divider is connected in parallel with the microprocessor power inputs, the average output of which is connected through an additional resistor to one of the microprocessor comparator inputs, between which the third capacitor is connected to the microprocessor power output connected to the second power bus .  6. The prefix according to claim 1, characterized in that the first power bus is positive.  7. The prefix according to claim 1, characterized in that the microprocessor control input is connected through a second additional resistor to the microprocessor power output connected to the second power bus.  8. The prefix according to claim 1, characterized in that in the absence of a speech signal at the comparator inputs of the microprocessor for a predetermined period of time, a signal is established at its output to ensure that the LEDs of the first and second optoelectronic relays are disconnected from the power buses.  9. The prefix according to claim 1, characterized in that the signal at the output of the microprocessor, providing the disconnection of the LEDs of the first and second optoelectronic relays from the power buses is a logical unit, and the signal that provides the connection of the LEDs of the first and second optoelectronic relays to the power buses is a logical zero .  10. The prefix according to claim 1, characterized in that when using a push-button dialer in the telephone, the microprocessor of the dialer further provides the functions of the microprocessor of the console.