RU2111616C1 - Cordless telephone set - Google Patents

Abstract

FIELD: telephone communications. SUBSTANCE: telephone set has stationary and portable subsets interconnected through duplex radio communication channel. Stationary subset is connected to subscriber's line of telephone exchange. Telephone set does not need connection to 220-V supply mains. Stationary subset 1 is placed in telephone set case and has plug 2 for connecting to telephone exchange subscriber's line, calling assembly 3, power unit 4, talk-listen assembly 5, switch 6, subcarrier demodulator 7, antenna 8, socket 9, and light-emitting diode 10. Portable subset 11 is placed in handset and has storage cell 12, talk-listen assembly 13, electronic dial 14, plug 15, mode control assembly 16, antenna 17, calling assembly 18, subcarrier oscillator 19, and light-emitting diodes 20, 21. Telephone set can operate in following modes: wait call, receive incoming call, talk, call desired telephone exchange party by dialing number containing up to twenty-two digits; repeat last dialed number, interrupt dialing at any digit, store information about last dialed number. Current state of telephone set is checked by means light-emitting diodes 10, 20, and 21. EFFECT: improved design. 3 dwg

Description

 The invention relates to telephony and can be used in telephones.

 Numerous cordless telephones manufactured by countries of Southeast Asia or, for example, Panasonic (see Panasonic, Coldless Telephone Answering System KX-T4300. Prospectus from Panasonic, Japan), consisting of a stationary half-kit located in the device’s body and a wearable half-set, are known placed in the handset. Such a structure allows the subscriber to use automatic telephone communication without cordless connection of the handset to the device body due to the communication of wearable and stationary half-sets through a duplex radio communication channel, which provides the transmission of conversational and control signals. An autonomous power source, such as a battery, is used to power a wearable half-kit. Such telephone sets, except for the PBX subscriber line, must be connected to a 220 V power supply network, which worsens the convenience of their operation, and in the event of a power supply failure, it can lead to a fire of the telephone set and damage to stationary equipment.

 Known telephones powered only by the energy of the telephone network, for example, "Electronics eletap-micro" (see S. S. Bunin. Telephones with a push-button dialer. M .: Radio and communications, 1987, p. 99), consisting of a calling unit, an electronic dialer, a talking unit, a lever switch, a power supply and a battery located in the device, microphone, telephone and plug for connecting through a power outlet to the PBX line. A microphone and a telephone are placed in the telephone receiver connected to the housing of the apparatus by a cord line, which impedes the operation of the telephone apparatus.

 Cordless telephones are also known, containing a plug for connecting to a telephone line, a power supply unit, a call unit, a talk unit, a demodulator, a filter, a receiver, a transmitter and a power connector in a stationary half-set, and a wearable half-set contains a power connector (plug) for a mode control unit , transmitter, receiver, antenna, filter, talk unit, dialer and battery (see GB Patent N 2154395, H 04 B 7/26 1985).

 The technical result of the invention consists in the ability of the telephone to operate without cord tying the handset to the housing of the telephone and without connecting the telephone to a 220 V power supply network.

 In FIG. 1 is a structural diagram of a cordless telephone; FIG. 2 and 3 are functional diagrams of a stationary and a portable half-set.

 A cordless telephone consists of a stationary half-set 1, located in the device’s body, with a plug 2 for connecting to a PBX subscriber line, a call unit 3, a power supply 4, a talk unit 5, a switch 6, subcarrier demodulators 7, an antenna 8, a socket 9, an LED 10, and a portable half-set 11 located in the telephone receiver, with a battery 12, a talk unit 13, an electronic dialer 14, a plug 15, a mode control unit 16, an antenna 17, a call station 18, a subcarrier generator 19 and LEDs 20, 21. Under A clear structure without cordless connection of the handset to the device body allows the phone to operate in the following modes: waiting for a call, receiving an incoming call, talking, calling the desired PBX subscriber by dialing a number containing up to twenty-two digits, repeatedly repeating the last dialed number, interrupting dialing at any stage of dialing, storing information about the last number dialed. The current state of the device is monitored using LEDs 10, 20 and 21.

 To implement these modes in a stationary half-set, the talking unit 5 contains an opposed circuit 22, a radio transmitter 23, a duplex filter 24, a radio receiver 25 and a low-pass filter 26, the first and second outputs of the opposed circuit 22 are connected respectively to the first and second inputs of the radio transmitter 23, the output of which is connected with the input of the duplex filter 24, the bi-directional output of the duplex filter 24 is connected to the antenna 8, and the output of the duplex filter is connected to the first input of the radio 25, the first and second outputs of which are connected inen, respectively, with the first input of the demodulator subcarrier 7 and the input of the low-pass filter 26, the output of which is connected to the second input of the local circuit 22. The calling unit 3 contains a calling device 27, a capacitor 28, a bridge rectifier 29, an incoming call signal converter 30 and a calling signal generator 31 The first and second inputs of the calling device 27 are connected to the first and second pins of the plug 2, the first input of the bridge rectifier 29 is connected to the first pin of the plug 2 directly, and the second input is connected to the second pin of the plug 2 through a separation capacitor 28, the third and fourth terminals of the bridge rectifier 29 are connected to the first and second inputs of the incoming call signal converter 30, the first output of which is connected to the third input of the radio transmitter 23, and the second output is connected to the input of the ring signal generator 31, the output of which is connected to the fourth input of the radio transmitter 23. The power supply 4 contains a bridge circuit 32, a voltage converter 33, an analog bidirectional switch 34, a digital switch on transistor 35 and resistors 36 and 37, a current limiting resistor 3 8 and the control unit of the converter 33 on the transistor 39, bi-directional zener diode 40, resistors 41 - 43 and diode 44.

 The first and second terminals of the bridge circuit 32 are connected to the first and second pins of the plug 2, the third terminal is connected to the first input of the local circuit 22, the first input of the voltage converter 33 and the emitter of the transistor 35, and the fourth terminal is connected to the second input of the converter 33 and the first output of the analog bidirectional a key 34, the second output of which is connected to the fifth input of the radio transmitter 23, the third output of the key 34 is connected to the output of the demodulator subcarrier 7, a voltage divider is connected between the third output of the circuit 32 and the second output of the key 34, consisting of resistors 36 and 37 connected in series, the middle point of which is connected to the base of the transistor 35, the collector of which is connected through the current-limiting resistor 38 to the anode of the LED 10, the cathode of which is connected to the first contact of the switch 6, the second input of the demodulator subcarrier 7 and the radio 25, the first contact switch 6 and one of the terminals of the bi-directional zener diode 40, the second terminal of which through a resistor 31 is connected to the base of the transistor 39 and the cathode of the diode 44, the anode of which is connected to the second socket of the socket 9 and one of the terminals of the resistor 43, the second terminal of which is connected to the housing of the stationary half-complex.

 The emitter of the transistor 39 directly, and the base through a resistor 42 is connected to the housing, the collector of the transistor 39 is connected to the third input of the converter 30, the output of which is connected to the common contact of the switch 6, the second contact of the switch 6 is connected to the first socket of the socket 9, in a wearable half-set control unit 16 contains a mode switch 45, a diode 46, the anode of which is connected to the second contact of the switch 45, a diode 47, the anode of which is connected to the third contact of the switch 45 and the input of the control unit 48, and the cathodes of the diodes are interconnected, the cathode of the LED 20 is connected to the first contact of the switch 45, the anode of which is connected to the first pin of the plug 15. The positive terminal of the battery 12 is connected to the common contact of the switch 45, and the negative terminal is connected to the body of the wearable half-set and the second pin of the plug 15, the first pin which is connected to the anode of the LED 20, the output of the control unit 48 is connected to the anode of the LED 21, the cathode of which is connected to the body of the wearable half-set, the calling unit 18 contains a ringing signal filter 49 and a tonal ringing device roystvo 50, first inputs of which are connected with the second contact switch 45 and the output of the filter 49 is connected to the second input of the tone ringer 50.

 The conversation unit 13 contains a duplex filter 51, a radio receiver 52, a radio transmitter 53, a microphone 55 and a telephone 54 amplifiers, a microphone 57, and a telephone 56, a bi-directional output of the duplex filter 51 is connected to the antenna 17, the input is connected to the output of the radio transmitter 53, and the output to the first the input of the radio 52, the first output of which is connected to the second input of the ringing filter 49, and the second output is the first input of the telephone amplifier 54, the output of which is connected to the telephone 56. The power of the radio 52 is supplied to its second input connected to the by the diodes 46 and 47, the first input of the microphone amplifier 55 is connected to the microphone 57, and the output is connected to the first input of the radio transmitter 53, the second input of the radio transmitter, the second input of the microphone amplifier and the second input of the telephone amplifier are connected to the third terminal of the switch 45, and the third inputs of the microphone and telephone amplifiers are connected to the second output of the electronic dialer 14, the third output of which is connected to the fourth input of the telephone amplifier 54, the input of the electronic dialer 14 is connected to the cathodes of the diodes 46 and 47, and the first the output is with the first input of the subcarrier generator 19, the second input of which is connected to the third contact of the switch 45, the output of the subcarrier generator 19 is connected to the third input of the radio transmitter 53.

 The telephone operates as follows.

 Call Waiting. This mode is provided regardless of the location of the handset when the mode switch 45 is in the first “Charge” position or in the second “Call” position. Let the tube be laid on the housing, and the switch 45 is in the first position. In this case, the contacts of the plug 15 and the socket 9 are closed, and the contact of the switch 6 is in the second position, closing the battery charge circuit 12 and disconnecting the second inputs of the power circuit of the radio 25 and the subcarrier demodulator 7 from the output of the voltage converter 33, assembled, for example, according to a known circuit a pulse generator on a transistor and a transformer, to the secondary winding of which a diode rectifier is connected. The voltage of the subscriber line through the contacts of the plug 2 and the bridge circuit 32 is supplied to the input of the voltage converter 33, which in this mode converts the voltage of the subscriber line of the telephone exchange into a stable battery charge current. This current flows from the output of the converter through the contacts of the switch 6, socket 9 and plug 15, through the LED 20, the battery 12 and the negative feedback circuit, consisting of resistors and diode 44. The feedback voltage changes the base potential of the transistor 39, the collector circuit of which is connected to the third input of the voltage converter, shunts the base bias circuit of the transistor of the converter, changing the operating mode of the pulse generator. Such negative feedback, stabilizing the charge current, reduces the current consumed from the subscriber line when charging a very discharged battery.

 At the third control input of the key 34, connected to the output of the demodulator of the subcarrier 7, in this mode there is a low logic level, a disconnecting key 34, which disconnects the fifth power input of the radio transmitter 23 from the fourth output of the bridge circuit 32. Disconnect the power circuits of the radio transmitter and radio and use the power supply in the mode of a current source controlled by the charge current, it provides the minimum energy consumption from the subscriber line, spent only on the battery charge by the optimal current. Charge mode is controlled by LED 20 "Charge".

 If the tube is removed from the housing and the switch 45 is in the first or second position, the common contact of the switch 6 is closed with the first contact connecting the output of the converter 33 to the second inputs of blocks 7 and 25. In this mode, the converter 33 works as a stable voltage controlled voltage source feedback supplied to the third input of the converter 33 through a zener diode 40, resistors 41, 42 and a transistor 30. A diode 44 operating with a reverse voltage disconnects the resistor 43 from the divider in the base circuit of the transistor 39. At the third input of the cell cha 34 from the output of the demodulator subcarrier 7 low logic level is turned off, disconnecting the fifth input of the power circuit of the radio transmitter 23 and the divider to resistors 36 and 37 from the fourth output of the bridge circuit 32. As a result, the transistor 35, the base of which is connected to the midpoint of the divider, is closed and its collector the circuit does not affect the operation mode of the converter 33. If the tube is laid on the case, and the switch 45 is in the second position, the functionality of the apparatus is preserved, however, its performance deteriorates, since the battery is not recharged, and its energy is uselessly spent by blocks of a wearable half-set.

 Receive an incoming call. This mode is independent of the location of the handset. To receive an incoming call was possible at any position of the switch 45, the calling node 3 of the stationary half-set contains a calling device 27. To improve the operating convenience, when the handset is off-hook and removed from the stationary half-set, an additional calling node is built into the wearable half-set 18. When the PBX appears on the line An incoming call is triggered by a calling device 27, made, for example, on the basis of a specialized chip KR1064PP1 or chips KR1008VZh4. The incoming call signal through the capacitor 28 and the bridge rectifier 29 starts the incoming call signal voltage converter 30 to the power supply voltage E1 of the radio transmitter 23 supplied from the first output of the converter to the third input of the radio transmitter. Simultaneously with turning on the power of the radio transmitter, the voltage from the second output of the converter 30 is supplied to the input of the tone generator 31, the output of which, connected to the fourth input of the radio transmitter, modulates its carrier frequency. The modulated signal from the output of the radio transmitter 23 through a duplex filter 24 enters the antenna 8.

 If at this point in time, the switch 45 is in the first position "Charge", the subscriber will hear a ringing signal only from a stationary half-set. If the switch 45 is in the second “Call” position, then the supply voltage from the battery 12 is supplied to the first inputs of the ringing signal filter 49 and the tone ringing device 50, and through the diode 46 to the second input of the radio receiver 52. The radio signal modulated by the tone ringing signal, through the antenna 17 and the duplex filter 51 of the wearable half-set is fed to the first input of the radio 52. From the first output of the radio, the signal is fed to the second input of the ringing filter 49, the output of which is connected to the second input of the tone yvnogo device 50. The signal received by unit 49, starts a tonal calling device 50 and the caller hears a ringing tone.

 Conversation. After receiving a tone signal, the subscriber must put the mode switch 45 in the third position "Conversation". In this mode, the supply voltage from the battery 12 through the third contact of the switch 45 and the diode 47 is supplied to all blocks of the wearable half-set, with the exception of blocks 49 and 50. When the supply voltage of the generator 19 appears, it starts to oscillate with a subcarrier frequency located in the natal band. The signal from the output of the subcarrier generator is supplied to the third input of the radio transmitter 53. The radio signal, modulated by the subcarrier, from the output of the radio transmitter through the duplex filter 51, antennas 17, 8 and duplex filter 24 is fed to the first input of the radio 25.

 From the first output of the radio receiver, the signal is supplied to the first input of the subcarrier demodulator 7. If there is a subcarrier at the output of the demodulator 7, a high logic level is established, which ensures the connection of the first and second terminals of the analog bidirectional switch 34. When the key 34 is activated, the circuit is closed, which supplies the supply voltage E2 to the radio transmitter 23 from the subscriber line of the PBX through the bridge circuit 32 and the local circuit 22. The modes of operation of the nodes are selected so that when the key is closed 34 equivalent oprotivlenie circuit connected to a PBX line from the machine, it is equal to 600 ohms. The PBX perceives the connection of such resistance as lifting the handset by the subscriber. When the key 34 is closed, a voltage is supplied through the divider on the base resistors 36 and 37, which unlocks the key on the transistor 35, which, through the resistor 38, restricting the collector current and the LED 10 used to indicate the Talk mode, supports the supply voltage E3 of the subcarrier demodulator 7 and radio 25.

 If, with an increase in the voltage in the subscriber line of the exchange, the supply voltage E3 exceeds the set value, the zener diode 40 enters breakdown mode, the current through the resistors 41 and 42 increases, the collector circuit resistance of the transistor 39 decreases, shunting the control circuit of the converter 33. This causes a decrease in the voltage at the output of the converter to the desired value. When transmitting information from the device to the PBX line, the signal from the microphone output 57 is fed to the first input of the microphone amplifier 55, and from its output to the first input of the radio transmitter 53, modulating its carrier. Modulated by the speech of the radio signal from the output of the radio transmitter 53 through a duplex filter 51, antennas 17, 8 and a duplex filter 24 is fed to the first input of the radio 25. The conversation signal from the second output of the radio through the low-pass filter 26 is fed to the second input of the local circuit 22 and then through a closed key 34 and the bridge circuit 32 is fed into the PBX line. When transmitting information from the PBX, the spoken signal through the bridge circuit 32 and the closed key 34 is supplied to the counter circuit 22, the second output of which is connected to the second input of the radio transmitter 23. From the output of the radio transmitter, the signal is transmitted through the duplex filter 24, antennas 8, 17 and duplex filter 51 to the first input of the radio 52. From the second output of the radio, the spoken signal through the low-frequency amplifier 54 is sent to the telephone 56. In the "Talk" mode, the battery voltage is checked by the control unit 48. If the battery is charged ene, the LED 21 is lit continuously. Such a glow is additional information to the subscriber that the telephone is in the "Talk" mode and is ready for use. When the battery voltage is reduced to an unacceptable value, the voltage block 48 sets the LED 21 to the blinking mode, notifying the subscriber about the need to recharge the battery. The lack of glow of the LED 21 in the "Talk" mode indicates a lack of power or malfunctions in the wearable half-set.

 Call the desired PBX subscriber. For the device to work in this mode, it is necessary to lift the handset and move switch 45 to the third “Talk” position. As a result, power is supplied to the subcarrier generator 19, which, as in the "talk" mode, ultimately leads to a short circuit of the key 34, and in a stationary half-set, the supply voltage from the output of the converter 33 through the first contact of the switch 6 is supplied to blocks 7 and 25. The closure of the key 34 is perceived by the exchange as a pick-up by the subscriber. As a result, the telephone exchange generates a ready signal, which is transmitted through the subscriber line, plug 2, bridge circuit 32, talk nodes 5 and 13 to the subscriber in the same way as the talk signal. Having heard the PBX ready signal, the subscriber can start dialing a number from a wearable half-set. The input numbers are converted by an electronic dialer 14, for example, based on a specialized chip KR1008VZH1, into a sequence of video pulses generated at its first output. These pulses applied to the input of the subcarrier generator 19 interrupt its operation, forming radio pulses with the frequency of filling the subcarrier at the generator output. The radio pulses fed from the output of the subcarrier generator to the third input of the radio transmitter 53 modulate its carrier, which is fed through the radio channel to the input of the subcarrier demodulator 7. A high logic level at the output of the subcarrier demodulator is replaced by a low logic level in time with the subcarrier disappearing, opening key 43. Key disconnection provides input of the dialed number in the telephone exchange. The signal from the second output of the electronic dialer 14, connected to the third inputs of the microphone 55 and the telephone 54 amplifiers, blocks them during dialing. At the third output of the electronic dialer connected to the fourth input of the telephone amplifier, a tone signal for the pressed button is generated.

Claims (1)

 Cordless telephone set, consisting of a stationary half-set containing a plug for connecting to a telephone line of a telephone exchange, a power supply unit, a calling unit, a talk unit, a switch, a radio receiver, a radio transmitter, and a wearable half-set containing a mode control unit, a radio transmitter, a radio receiver, an antenna, a battery , a talking unit and a dialer, characterized in that the stationary half-set further comprises a subcarrier demodulator, an LED, a low-pass filter, an antenna connected to two directional output of the duplex filter, the input of which is connected to the output of the radio transmitter, and the output is connected to the high-frequency input of the radio receiver, the modulation input by the spoken signal of the radio transmitter is connected to the first output of the counterbalanced unit of the conversational unit, and the power input in the "talk" mode is connected to the second output of the opposed node, the output of the radio receiver is connected to the first input of the subcarrier demodulator, and the second output is connected to the input of the low-pass filter, the output of which is connected to the second input of the opposite site, in the call station l additionally introduced a tonal call device, a bridge rectifier, a capacitor, an incoming call signal converter and a call signal generator, the first output of the bridge rectifier is connected to the first pin of the plug and the first input of the tone call device, the second output of the bridge rectifier is connected via a capacitor to the second pin of the plug and the second the input of the tonal calling device, the third and fourth conclusions of the bridge rectifier are connected to the first and second inputs of the incoming call signal converter , the first output of which is connected to the power input in the “call” mode of the radio transmitter, and the second output is connected to the input of the ringing signal generator, the output of which is connected to the modulation input by the ringing signal of the radio transmitter, an analog bi-directional key and a digital key on transistors are additionally introduced into the power supply unit of the stationary half-set and two resistors, a current-limiting resistor and a voltage converter control unit containing a transistor, a bi-directional zener diode, three resistors and a diode, the first and second terminals the diode bridge is connected to the first and second pins of the plug, the third terminal is connected to the first inputs of the counterpart assembly and the voltage converter, the emitter of the transistor and the first resistor of the digital key, and the fourth terminal is connected to the second input of the voltage converter and the first input of the analog key, the second output of the analog key is connected with the control input of the radio transmitter and the second resistor of the digital key, the third output of the analog key is connected to the output of the subcarrier demodulator, the second conclusions of the first and second resistors connected to each other and to the base of the transistor of the digital key, the collector of which is connected through a current-limiting resistor to the LED anode, the cathode of which is connected to the first contact of the switch, the first output of the bi-directional zener diode and the power inputs of the demodulator of the subcarrier and the radio, the second output of the bi-directional zener diode is connected through the first resistor of the control unit with the base of the transistor of the control unit and the cathode of the diode, the anode of the diode is connected to the second socket of the socket and the first output of the third resistor, sec The third resistor terminal is connected to the shared bus of the stationary half-set, the emitter of the transistor of the control unit is connected directly to the common bus, and the base is connected to the common bus through the second resistor of the control unit, the collector of the transistor is connected to the third input of the voltage converter, the output of which is connected to the common contact of the switch, the second contact of which is connected to the first socket of the socket, the wearable half-set further comprises a duplex filter, a subcarrier generator and two LEDs, a control unit p presses consists of a mode switch, two diodes and a battery voltage control unit, the common contact of the mode switch is connected to the positive terminal of the battery, the negative terminal of which is connected to the common bus of the wearable half-set and the second pin of the plug, the first contact of the mode switch is connected to the cathode of the first LED, the anode of which connected to the first pin of the plug, the second contact of the mode switch connected to the anode of the first diode, and the third contact to the anode of the second diode and the input of the control unit, cathodes diode The s are connected to each other and to the input of the electronic dialer, the output of the control unit is connected to the anode of the second LED, the cathode of which is connected to the common bus of the wearable half-set, the call node consists of a ring signal filter and a tonal ring device, the first inputs of which are connected to the second contact of the mode switch, the output signal of the ringing signal is connected to the second input of the tone ringing device, the bi-directional output of the duplex filter is connected to the antenna, the input of the duplex filter is connected to the radio transmitter, and the output is with a high-frequency input of the radio receiver, the power input of the radio receiver is connected to the cathodes of the diodes of the mode control node, the low-frequency output of the ring signal of the radio receiver is connected to the second input of the ring signal filter, and the low-frequency output of the talk signal is connected to the low-frequency input of the telephone amplifier, the output of which is connected with a telephone, a microphone is connected to a low-frequency input of a microphone amplifier, the output of which is connected to a modulation input by a spoken signal of a radio transmitter IC, the power inputs of the radio transmitter, subcarrier generator, microphone and telephone amplifiers are connected to the third contact of the mode switch, the modulation signal input of the radio transmitter subcarrier is connected to the output of the subcarrier generator, the control input of which is connected to the output signal of the electronic dialer dialing signal, the output of blocking the low-frequency path of the electronic dialer is connected with microphone lock inputs and telephone amplifiers, and the output of the tone signal of confirmation of pressing the keys avishi - with a low-frequency input of a tone signal of a pressed key of a telephone amplifier.

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