RU2128887C1 - Multifunctional telephone set - Google Patents

Abstract

FIELD: communication equipment. SUBSTANCE: device has central processing unit, memory unit, ROM with electronic programming, address selector-modifier, counter, I-O ports, telephone line interface unit, information representation converter, information displaying unit, telephone keypad unit, keyboard matrix, analog-to- digital and digital-to-analog conversion units. Device provides telephone functions (such as indication of duration and cost of talk, automatic calling mode, telephone communication using clock or calendar, power-failure operations), voice functions (such as input and output of voice messages, automatic answering mode with storing message and time, business schedule, using calendar with prompts, speaking clock and calendar, storing talk into memory or to recorder, talk copying), computer functions (entering and editing texts, keeping databases, transmission-reception of text messages, printing, calculations, access to remote databases, protection against unauthorized access, dictionary), callback functions (differentiation of connection and responses, storing calling number and time of calls). EFFECT: increased functional capabilities. 9 cl, 8 dwg, 1 tbl

Description

 The invention relates to techniques for electronic information processing and can be used to create multifunctional devices for the accumulation, maintenance and use of office and household information, i.e. so-called office servers.

 An automatic telephone secretary is known to determine the numbers of the calling subscriber (see radio amateur N3, 1993, p. 19 - 21), which is a microcontroller on a single-chip computer of the KR1816 series. However, due to the imperfection of the structural scheme and the small amount of addressable memory, the functionality of this device is very limited.

 In common with the proposed device is the presence of a microprocessor connected by the output to the input of the display unit.

 There is also known a device for automatically determining the number of the caller (see ibid.), The principle of which is also based on digital signal processing using the Z80 processor and peripheral circuits, the number of which is reduced compared to the above devices, which reduced the current consumption to 100 mA and Radio interference emitted by the telephone.

 In common with the proposed device is the presence of a processor for processing decoded information, a display unit and a keyboard for controlling the device. However, the above disadvantages are inherent in this device.

 The closest in technical essence and the achieved effect is the telephone server "Phone PLUS 1992" (see radio amateur N 5, 1993, pages 19-21), containing a central processor unit, RAM, ROM, address selector, timer, ports information input-output, information display unit, communication unit with a telephone line. The central processor unit is connected by data bus with RAM, ROM and data input-output ports, and address bus is connected with address selector, RAM and ROM. The first control outputs of the central processor unit are connected to the input-output ports, and the second control output is connected to RAM and ROM. The third control output of the central processor unit is connected to RAM. The first control outputs of the address selector are connected to the input / output ports of information, and the second to the second control inputs of RAM and ROM, respectively. The information display unit is connected by inputs to the information input-output ports connected by other outputs to the telephone line through the communication unit to the telephone line. One of the control inputs of the central processor unit is connected via a timer to the corresponding control output. I / O ports are connected by information buses to the keyboard.

 The main disadvantages of the known device is the limited service capabilities due to the small amount of addressable memory, determined by the element base on which the device is running, as well as the termination of the device when the power is turned off, since all functions are provided by the processor.

 The basis of the invention is the task of creating such a multifunctional electronic device, which, due to structural changes and the introduction of new units, provides the widest possible range of functions for accumulating, maintaining and using office and household information, namely, telephone functions are expanded to the maximum (indication of time and cost of a call auto-ringing, telephone communication by the clock or calendar, in the absence of power, etc.), voice functions (input and output of voice messages, auto answer with recording a message and time no call, business schedule - calendar with tips, talking hours and a calendar, recording a conversation in memory or on a tape recorder, rewriting a conversation), computer functions (entering and editing texts, maintaining databases, receiving and transmitting text messages, printing, calculator, access to remote databases, protection against unauthorized access, dictionary), automatic number identification functions (differentiated connections and answers, storing numbers and time of calls).

 The problem is solved by a multifunction telephone, containing a central processor unit, RAM, EEPROM, address selector-modifier, counter, information input-output ports, a telephone line communication unit, a central processor unit with data exchange buses connected to RAM, EEPROM and input ports - output, and the address buses are connected to the address selector-modifier, RAM, EEPROM, the first control outputs of the central processor unit are connected to the input-output ports, and the second control outputs are connected to RAM and EEPROM, the control outputs of the address selector-modifier are connected to the second control inputs of RAM and EEPROM, and the address output is connected to one of the EEPROM address inputs, the input / output ports of their information are connected to the group of control inputs of the communication unit with a telephone line connected to the I / O with by a telephone line, the interrupt input of the central processor unit through the counter is connected to its clock output, the input-output ports are connected by information buses to the first keyboard matrix, while the device holds an information form conversion unit, the input data buses of which are connected to the data buses of the central processor unit, and the control inputs are connected to the first control outputs of the central processor unit, also connected to the control inputs of the information display unit, the input data buses of which are connected to the data buses of the central processor unit and the second control input is connected to the address buses, the telephone dialer unit is connected by outputs to the first inputs of the communication unit with the telephone line, in od - with the first output of the communication unit with the telephone line, and the inputs and outputs with the second matrix of the keyboard, the second output of the communication unit with the telephone line is connected to the information input of the information input-output ports, the analog input and output of the communication unit with the telephone line are connected to the analog output and the input node of the analog-to-digital and digital-to-analog conversion, respectively, and the control input of the address selector-modifier is connected to the remaining output of the input-output ports.

The block diagram of the proposed device is presented in the accompanying drawings:
in FIG. 1 is a block diagram of an apparatus;
in FIG. 2 - central processor unit;
in FIG. 3 - address selector-modifier;
in FIG. 4 - ports of input / output of information;
in FIG. 5 - block display information;
in FIG. 6 - communication unit with a telephone line;
in FIG. 7 - block transform the form of information;
in FIG. 8 - block telephone dialer.

 The block diagram (Fig. 1) of the apparatus of the invention comprises a central processor unit 1, RAM 2, EEPROM 3, address selector 4, counter 5, information input-output ports 6, information display unit 7, telephone line communication unit 8, block 9 of analog-to-digital and digital-to-analog conversion, block 10 of a telephone dialer, first 11 and second 12 matrix keypads, clock output 13 and interrupt output 14 of the central processor unit.

 Block 1 of the central processor (Fig. 2) contains a microprocessor 15, a sync generator 16, a quartz resonator 17, address registers 18, 19 and a decoder 20, a quartz resonator is connected to the inputs of the synchronizer connected by the outputs to the synchronization input of the microprocessor and the clock output of the block, the microprocessor interrupt input connected to the input of the same name, the microprocessor information outputs are connected to the device data bus and through the first address register to the device data bus and through the first address register to the junior to the device address buses, the middle address bus of the device is connected to the middle outputs of the microprocessor address, the senior output addresses of which are connected via the second address register to the senior address bus of the device, the first control output of the microprocessor is connected to the gate inputs of the address registers, and the remaining control outputs of the microprocessor are connected to the inputs a decoder connected by outputs to the control outputs of the unit.

 The address selector-modifier 4 (Fig. 3) contains an inverter 21, the input of which is connected to the device address bus connected to one of the control outputs of the selector-modifier, the output is connected to the second control output of the selector-modifier, and the control input of the modifier selector is connected to its address output.

 The information input-output ports 6 (Fig. 4) are made on the 1834BB55A microcircuit, the information inputs and outputs of which are connected to the device data exchange buses, the address inputs and the chip select input are connected to the device address buses, and the read and write control inputs are connected respectively to the first control outputs of the central processor unit.

 The information display unit 7 (Fig. 5) is made by a Philips LTN211R-10 liquid crystal indicator 22, the information inputs and outputs of which are connected to the device data buses, the first control input is connected to one of the device address buses, the second is connected to one of the element inputs 23 And, connected by the output to the second control input of the indicator, and by the second input connected to the output of the 24 OR element, connected by inputs to the first control outputs of the central processor unit, one of which is also connected to the third at the control input of the indicator.

 Communication unit 8 with a telephone line (Fig. 6) contains a voice-switched assembly 25 implemented on a chip 1446X2, three analog adders 26 - 28, five analog keys 29 - 33, two amplifiers 34, 35, a filter 36, a microphone 37, conversational keys 38 and pulse 39, logical level driver 40, telephone handset 41, loudspeaker 42, bell 43, diode bridge 44, lever switch 45, consisting of two closing and two opening contacts, the bridge leads for connecting AC voltage are connected to the telephone line , neg the positive terminal is connected to the zero potential bus, the positive terminal is connected to the pulse key output, the input of the logic level generator and the first outputs of the first closing and opening contacts, the second conclusions of which are connected to the first contact of the bell and the output of the first group of inputs and outputs of the node, respectively, the first input of the pulse the key is connected to the first input of the first group of inputs / outputs, the remaining input of which is connected to the first input of the talk key, the second input of which is connected to the first input of the WTO a group of input / output nodes, and the output is connected to the second input of the pulse switch, the first output switched by the voice of the node, the first input of the first adder and the first output of the second opening contact of the lever switch associated with the second output to the telephone handset, the second input of the first adder is connected to the second output switchable by the voice of the node, and the output is connected to the first input of the last connected by the second input to the microphone, the third input to the second input of the second group of inputs and outputs, and the fourth input is connected with the output of the first analog key connected by one of the inputs to the third input of the second group of inputs and outputs of the node, the fourth input of which is connected to the first input of the second analog key connected to the second input with the third output of the voice-controlled node, the fourth and fifth outputs of which are connected respectively to the first inputs of the second adder and the third analog key, the second input of which is connected to the fifth input of the second group of inputs / outputs of the unit, connected by the sixth input to the first input of the fourth analog Therefore, the output of the second analog key is connected to the second input of the second adder, the third input of which is connected to the analog input of the unit, and the output through the first amplifier and filter is connected to the second input of the fourth analog key, the analog output of the unit and the second input of the first analog key, the outputs of the third and fourth analog keys are connected respectively with the first and second inputs of the third adder, connected by the output through the second amplifier to the speaker, the third input of the pulse switch is connected to the seventh input swarm group unit outputs inputs, first and second outputs which are respectively connected to the output logic levels of driver and via a second normally open contact of the lever switch to the zero potential bus connected to the second contact ring through the fifth analog switch, a control input coupled to the power bus.

 The information form transformation unit 9 (Fig. 7) is implemented on an Analog Devices AD7569 chip, the information inputs / outputs of which are connected to the device data bus, and the control inputs are connected respectively to one of the device address buses, and to the first control outputs of the central processor unit .

 Block 10 of the telephone dialer (Fig. 7) is made on a chip 1008ВЖ10, the scanning inputs and outputs of which are connected to the second matrix of the keyboard, the control input is connected to one of the inputs of the lever switch, and the outputs are connected to the corresponding inputs of the communication unit with the telephone line.

 The first 11 and second 12 keyboard matrices are sets of column and row buses connected by interlocking contacts, the contact being at the intersection of each row bus with each column bus.

 The device operates as follows. The central processor unit 1 executes a program located in the EEPROM 3, during which it reads and writes data from RAM 2, the EEPROM 3, I / O ports 6, displays information, outputs it to the information display unit 7, receives analog signals from the communication unit with a telephone line 8 through an information form conversion unit 9, outputs analog signals to block 8 through a block 9. At fixed intervals, the counter 5 generates interrupt signals, which causes block 1 to transfer to an interrupt program.

 The appeal of block 1 to the storage nodes 2 and 3 is carried out using the address selector-mockifier 4. Moreover, the entire address range of block 1 is divided into two equal parts, one of which corresponds to RAM, and the other to EEPROM. The information volume of the EEPROM is twice as large as half the space directly addressed by unit 1. The device’s work programs are located exclusively in the younger half of the EEPROM. In its older part, only data is stored that must be stored when the power is turned off in the network. The signal set by unit 1 on the highest address bus selects (see FIG. 3) RAM or EEPROM. After the device is turned on (initial installation), the I / O port 6 bit controlling the selector-modifier 4 is reset, because of which the logical output level is set to the address output of the latter, which controls the high-order bit of the EEPROM address. The appeal is made to the younger part of the EEPROM. If necessary, refer to the cells located in the older part of the EEPROM, the corresponding fragment of the program is copied from the younger part of the EEPROM to RAM. Management is transferred to this fragment. Under the control of this fragment, the port 6 bit, which controls the selector-modifier 4, is set to "1". Now all calls to the EEPROM are in its upper half. The necessary information from it is overwritten into RAM, after which the named bit of ports 6 is reset, and control is returned to the program located in the EEPROM.

 The output of information to the display unit 7, input and output of information through the block 9 have no features. The input of information from the matrix of the keyboard 11 is carried out by means of its software survey. Moreover, in accordance with the program, on the output bits of ports 6 associated with the columns of the matrix, the "running 0" mode is organized (every time during polling all port bits except one are set to "1"; the logical "0" cyclically shifts after each polling of the matrix ) If a key is pressed at the intersection of the i-th column and the j-th row, then for all polls of the keyboard matrix, except for the i-th, codes with "1" in all bits will be received, with the i-th poll of the matrix, a code with "0" in the jth bit and logical levels "1" in the remaining bits.

 When dialing a telephone network subscriber’s number, the potential keys come to the talk key 38 and the pulse key 39 either from the central processor unit 1 through the corresponding outputs of the input / output ports 6, or from the telephone dialer unit 10. The pulse key connects the telephone line to the talk key, and the talk the key shorts it. When each digit is dialed, the impulse key opens the number of times corresponding to the value of the digit, after the last digit is dialed, the spoken key opens, and the impulse remains closed.

 The telephone network subscriber can be dialed in two ways: using the keyboard matrices 11 or 12. In the first case, the central processor unit receives the dialed number through the I / O ports 6, through which it controls pulse and spoken keys. In the second case, the dialed number is perceived by the block 10 of the telephone dialer, which controls the impulse and spoken keys.

 The call signal from the telephone line through the diode bridge 44 is supplied to the logic level generator 40, from which the logic levels “0” and “1” are alternating with the frequency of the ATC ringing signal and transmitted to the corresponding input of the input-output ports 6 and through them to block 1 CPU In the absence of a call at the output of the driver 40, the signal has a constant level. The central processor unit, having detected and identified the indicated alternation of logical levels at the corresponding input of the I / O ports, opens the analog key 31 and outputs an audio signal through the information form conversion unit 9 (Fig. 1), adder 27 (Fig. 2), amplifier 34, filter 36, key 31, adder 28 and amplifier 35 to loudspeaker 42.

 If there is no mains supply, a key 33 is opened, connecting the call 43 to the telephone line, and the call signal is received on the call.

 A conversation can take place both when the handset is off-hook and without it being picked up. When removing the handset 41 from the lever switch 45, the latter from the corresponding contact groups provides the necessary logic levels to the input / output ports 6 and the telephone dialer unit 10. The latter, in response to picking up the handset, opens the pulse key 39, thereby connecting the telephone line to the input of the adder 26, the output of the node 25 switched by voice and to the handset (through one of the contacts of the lever switch). With the handset removed, the analog keys 29 - 32 are closed, the microphone 37 is muted (the last switching is done inside the node 25).

If the handset is not picked up, the impulse key 39 is opened by the central processor unit (via the I / O ports), and the conversation is conducted using the microphone 37 and the speaker 42 through the voice-switched node 25. The latter has the following inputs and outputs (from top to bottom):
- telephone line input;
- microphone (mute) input;
- non-disconnectable input;
- microphone mute input;
- paraphase outputs (direct and inverse);
- output of the filtered telephone line signal;
- microphone amplifier output;
- the output of the disconnected signal of the telephone line.

The node performs the following functions:
- prevents the occurrence of a microphone effect when loudly speaking at the microphone input and the telephone line input; if the signal level at the microphone input is higher, then the signals at the paraphase outputs are turned off and a signal appears at the output of the disconnected signal of the telephone line; in the absence of signals at the first two inputs, all outputs are disabled, except for the outputs of the filtered signal of the telephone line and microphone amplifier);
- in order to reduce the noise level and background induced in the telephone line by an alternating current of the power industrial network, with the help of internal filters, the frequency band of the telephone line signal is limited from below; The signal filtered in this way is output to the output of the filtered and disconnected telephone line signals.

 An open pulse switch 39 connects the telephone line to the inverting paraphase output of the node 25 and through the adder 26 to the telephone line input of the node. In addition, the central processor unit through the input / output ports includes an analog key 32 and, using the microphone mute input of node 25, connects the microphone 37 to the latter. Thus, the signal from the microphone goes to the microphone input of node 25, is amplified by the latter and in the form of two antiphase signals arrives at the direct and inverting paraphase outputs of the named node. The direct signal enters the telephone line, and the inverse, is added (subtracted) on the adder 26 with the signal present on the telephone line, thereby eliminating the local effect. The filtered signal from the output of the disconnected signal of the telephone line through the analog key 32, the adder 28 and the amplifier (low frequency) 35 is fed to the speaker 42.

 When implementing the functions of the answering machine, voice information input from the microphone 37 or from the telephone line through the information form conversion unit 9 by the central processing unit 1 is recorded in the EEPROM 3, and the information stored in the EEPROM is transmitted through the node 9 to the telephone line or to the speaker 42. The table shows the status of the analog keys, providing these modes of information transfer.

 Note. MFN indicates a key located inside the node 25 and controlled by the microphone mute input.

Claims (9)

 1. A multifunction telephone set containing a central processor unit, RAM, EEPROM, address selector, timer, information input-output ports, an information display unit, a telephone line communication unit, a central processor unit with data exchange buses connected to RAM, EEPROM, and input ports data output, and with address buses it is connected to the address selector, RAM, EEPROM, the first control outputs of the central processor unit are connected to the input-output ports, and the second outputs are RAM and EEPROM, the third control outputs of the central unit about the processor are connected to RAM, the first control outputs of the address selector are connected to information input-output ports, and the second to the second control inputs of RAM and EEPROM, information input-output ports are connected by other outputs to the telephone line through the communication unit with the telephone line, one of the control inputs of the central processor unit through a timer are connected to its corresponding control output, the input-output ports are connected by information buses to the keyboard, characterized in that the device contains an analog-to-digital unit and digital-to-analog conversion, the input data buses of which are connected to the data buses of the central processor unit, and the control inputs are connected to the first control outputs of the central processor unit, also connected to the control inputs of the information display unit, the input data buses of which are connected to the data buses of the central processor unit, and the second control input is connected to the address buses, the telephone dialer unit is connected by outputs to the communication unit with the telephone line, and the column outputs and to - with I / O ports through the first group of inputs / outputs of the keyboard matrix.  2. The apparatus according to claim 1, characterized in that the central processor unit contains a microprocessor, a clock, a quartz resonator, address registers and a decoder, a quartz resonator is connected to the inputs of a clock connected to the microprocessor synchronization input and clock outputs of the block, the microprocessor interrupt input is connected with the unit inputs of the same name, the microprocessor information outputs are connected to the data exchange buses of the devices and through the first address register to the lower address buses of the device, middle buses device addresses are connected to the middle outputs of the microprocessor address, the senior outputs of the address of which are connected to the senior address buses of the device via the second address register, the first control output of the microprocessor is connected to the gate inputs of the address registers, and the remaining control outputs of the microprocessor are connected to the inputs of the decoder connected to the outputs of the control outputs block.  3. The apparatus according to claim 1, characterized in that the address selector-modifier comprises an inverter, the input of which is connected to the device’s senior address bus connected to one of the control outputs of the selector-modifier, and the output is connected to the second control output of the selector-modifier, controlling whose input is connected to its address output.  4. The apparatus according to claim 1, characterized in that the telephone dialer unit is made on a microcircuit whose scanning inputs and outputs are connected to the second matrix of the keyboard, the control input is connected to one of the outputs of the lever switch, and the outputs are connected to the corresponding inputs of the telephone communication unit line.  5. The device according to claim 1, characterized in that the information form conversion unit is made on a microcircuit, the information inputs and outputs of which are connected to the device data exchange bus, and the control inputs are connected respectively to one of the device address buses and the first control outputs of the central processor unit .  6. The device according to claim 1, characterized in that the input-output ports are made on a microcircuit, the information inputs and outputs of which are connected to the data exchange buses of the device, the address inputs and the chip select output are connected to the address buses of the device, and the read and write control inputs connected respectively to the first control outputs of the central processor.  7. The device according to claim 1, characterized in that the display unit is made on a liquid crystal display, the information inputs and outputs of which are connected to the data exchange buses of the device, the first control input is connected to one of the address buses of the device, the second of which is connected to one of the inputs the AND element, connected by the output to the second control input of the indicator, and the second input associated with the output of the OR element, connected by the inputs to the first control outputs of the central processor unit, one of which is connected, in addition, to the third control input of the indicator.  8. The apparatus according to claim 1, characterized in that the first and second keyboard matrices are sets of column and row buses connected by interlocking contacts, the contact being at the intersection of each row bus with each column bus.  9. The apparatus according to claim 1, characterized in that the communication unit with the telephone line contains a voice-switched node implemented on a microcircuit, three analog adders, five analog keys, two amplifiers, a filter, a microphone, conversational and pulse keys, a logic level generator, telephone receiver, loudspeaker, bell, diode bridge, lever switch, consisting of two make and two disconnect contacts, bridge leads designed to connect AC voltage are connected to the telephone line, negative the output is connected to the zero potential bus, the positive output is connected to the pulse key output, the input of the logic level generator and the first outputs of the first closing and opening contacts, the second outputs of which are connected to the first contact of the bell and the output of the first group of inputs and outputs of the node, respectively, the first input of the pulse key connected to the first input of the first group of inputs / outputs, the remaining input of which is connected to the first input of the talk key, the second input of which is connected to the first input of the second group s of input / output nodes, and the output is connected to the second input of the pulse switch, the first output switched by the voice of the node, the first input of the first adder and the first output of the second opening contact of the lever switch associated with the second output to the telephone handset, the second input of the first adder is connected to the second output of the switch by the node’s voice, and the output is connected to the first input of the last connected to the second input with a microphone, the third input to the second input of the second group of inputs and outputs, and the fourth input connected to the output the first analog key connected by one of the inputs to the third input of the second group of input-output nodes, the fourth input of which is connected to the first input of the second analog key connected to the second input with the third output of the voice-controlled node, the fourth and fifth outputs of which are connected respectively to the first inputs of the second the adder and the third analog key, the second input of which is connected to the fifth input of the second group of inputs / outputs of the unit, connected by the sixth input to the first input of the fourth analog key, output the second analog key is connected to the second input of the second adder, the third input of which is connected to the analog input of the block, and the output through the first amplifier and filter is connected to the second input of the fourth analog key, the analog output of the block and the second input of the first analog key, the outputs of the third and fourth analog keys connected respectively with the first and second inputs of the third adder connected by the output through the second amplifier to the loudspeaker, the third input of the pulse switch is connected to the seventh input of the second group s of inputs / outputs of the unit, the first and second outputs of which are connected respectively to the output of the logic level generator and, through the second closing contact of the lever switch, to the zero potential bus connected to the second call contact via the fifth analog key, the control input of which is connected to the power bus.

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