RU2213939C1 - Method for transmission of information from on-board information storage of flight vehicle to external data-processing units and system for its realization - Google Patents

Abstract

FIELD: measuring and monitoring equipment. SUBSTANCE: at taking of information from the on-board storage its copying is accomplished in the conditions when the flight vehicle is based on the landing field. The information and synchronizing signals from the on-board storage are selected and reproduced in real time. The data block is recorded on the information carrier in the format simulating the time and information characteristics of the external data-processing units, its interface coupling with the external data-processing units is accomplished by means of ports and the possibility of interface reconfiguration is provided. The system is also provided with a multi-channel signal selection unit, memory and interface controller, signal input-output controller, external interface of signal input-output and a software interface for the signal input output controller. EFFECT: reduced probability of information distortion and loss during its transmission, expanded range of speeds, reduced cost and enhanced indices of reliable transmission process, as well as expanded range of operating duties in the conditions of influence of destabilizing factors and fields. 37 cl, 5 dwg

Description

 This group of inventions relates to techniques for measurement and control and is intended for use in the implementation of reading information and transmitting it between various objects.

 Known methods for processing flight information, providing for the rewriting of information from an on-board drive, its intermediate storage and subsequent transfer to external processing units. Known systems for processing flight information, including, in particular, a unit for reading information from an onboard storage device, a unit for storing and converting information, an information output unit, and also a unit for general control of component units (US 6397128 B1, G 11 V 5/02, 28.05 .2002; US 4729102 A, G 11 B 5/02, 03/01/1988; US 4470116 A, G 11 B 5/00; 09/04/1984; RU 93031219 A, G 09 B 9/08, 02/20/1997; RU 2169394 C1, G 09 B 9/08, 06/20/2001).

 The disadvantages of the known methods and systems are determined by the low efficiency and operational efficiency, low speed, limited functionality.

 Closest to the proposed method is a method of transmitting information from an onboard storage device of information of an aircraft to external processing units, consisting in the fact that an information transmission system connected to a protected or salvaged onboard storage device of information located on board or removed from the aircraft is connected solid-state information carrier, sampling from the data carrier of the on-board drive registered service parameters and time, carry out they search for recording sections set for copying, copy the found recording sections to the information carrier of the information transmission system and output the copied information to external processing units (Set of equipment for overwriting information from on-board recorders of the "Tester" type, "Obzor-MP" code. Technical description and instruction manual. 8I4.079.070-01 TO, M., 1982, 99 pp.).

 Closest to the proposed system is a system for transmitting information from an onboard storage device of an aircraft to external processing units, comprising apparatus for reading information from an onboard storage device, storing and converting information, outputting information in a predetermined format, and also a control unit connected to the constituent units of the system, and the associated power module (see ibid.).

 The disadvantages of the indicated method and system are the high probability of distortion and loss of information when it is transferred from the aircraft’s onboard storage device to external processing units, a small range of information transfer rates, high cost and low reliability indicators, as well as the limitation of information transfer modes under the influence of real destabilizing factors .

 The objective of the group of inventions is to reduce the likelihood of distortion and loss of information when it is transferred from the aircraft’s onboard storage device to external processing units, expanding the range of information transfer speeds, reducing the cost and increasing reliability indicators of the information transfer process, as well as expanding the range of information transfer modes under destabilizing factors and fields having both deterministic and stochastic structure.

 The problem in terms of the method is solved by the fact that in the method of transmitting information from the aircraft’s onboard storage device to external processing units, according to which a protected or salvaged information storage device made with a solid-state storage medium or magnetic tape and placed on board or dismantled from the aircraft apparatus, connect the information transfer system made with a solid-state storage medium, select from the storage medium on-board information I registered service parameters and time, they search for the recording sections set for copying, copy the found recording sections to the information carrier of the information transmission system and output the copied information to external processing units, copying the information is performed in the conditions of basing the aircraft on the landing pad, while in the information transmission system, information and synchronization signals from the on-board information storage device select and reproduce in real scale At any time, the data block formed in accordance with the identified information fields is recorded on the system information carrier in a format corresponding to the time and information characteristics of the external processing units, it is provided with an interface information connection with external processing units via standard or non-standard ports and provides the possibility of hardware and logical reconfiguration interface, the last of which is performed using the software interface.

 Partial method features contribute to the solution of the problem in terms of the method.

 As a solid-state carrier of the information transmission system, a built-in non-volatile memory unit or a removable cartridge with non-volatile memory is used.

 Provide the operating mode of the information transmission system "MANUAL", in which they view and copy the flight information of the on-board storage device when the drive is manually controlled and the recording mode is turned on.

 Provide the operating mode of the AUTO SEARCH information transmission system, in which automatically record the parameters of the current registered flight, and also view and copy flight information with manual control of the drive and automatic inclusion / deactivation of the recording mode when the read parameter values coincide with predetermined ones.

 Provide the operating mode of the information output system “OUTPUT”, in which the port selected during system setup is used to output information copied to the system media to external processing units.

 Provide an operating mode of the information output system “OUTPUT / FORMAT”, in which the copied information is output to external processing units in a predetermined format, and the information output is controlled by both the information transfer system and the commands transmitted from external processing units in accordance with the adopted protocols exchange of information.

 Provide the operating mode of the "ENTER / FORMAT" information transmission system, in which the specified sections of flight information from external cartridges through the output connector of the corresponding tape recorder controlled from its control panel are read and copied to the built-in non-volatile memory unit or to a removable cartridge with non-volatile memory when at the time of entering the mode, the type of on-board drive, the type of information reading, the amount of free memory in non-volatile memory in hours and minutes of recording, are displayed on the display screen, using olzuemy to write data from the drive as well as a message of readiness to start reading.

 Provide a mode of operation of the TRANSIT information transmission system, in which information read from the on-board storage device, after formatting, is directly output to external processing units.

 Provide the operating mode of the information transmission system "ENTER 1: 1", in which information is recorded directly on board the aircraft in parallel with the on-board drive, and this mode is set after turning on the on-board power supply of the aircraft and passing the internal control loop, and when receiving the control signal " turning on the onboard drive "automatically turn on the read / write mode of incoming input data and write them to the built-in non-volatile memory block or to a removable cassette with non-volatile memory of the system with a file with a new number.

 Provide a mode of operation of the "ENERGY INDEPENDENT MEMORY" information transmission system, in which the system maintains a built-in non-volatile memory block or removable cartridge with non-volatile memory, including resetting them.

 Ensure the functioning of the information transfer system as an additional or replacement on-board storage device.

 Information transfer is provided in conditions of vibrational influences.

 The transmission of information is provided under mechanical shock.

 The transfer of information is provided under conditions of temperature exposure.

Information transfer is provided at a humidity of 100% at a temperature of 35 ^o C.

 The transmission of information is provided under the influence of precipitation.

 Information transfer is provided under conditions of dew.

 The transmission of information is provided under the influence of salt sea fog.

 Information transfer is provided under the influence of electromagnetic radiation.

 Information transfer is provided under conditions of temperature effects, dew and sea fog.

 Information transfer is provided in conditions of mechanical vibration and shock.

 Information transmission is provided under conditions of temperature and mechanical stress, dew and sea fog.

 The task in part of the system is solved by the fact that the system for transmitting information from the aircraft’s onboard storage device to external processing units, containing a control unit connected to the onboard storage device and a power supply module, is equipped with a multi-channel signal selection unit, a memory and interface controller, an input-output controller signals and an external signal input-output interface, connected in series between the on-board drive and external processing units, as well as a software interface for the input / output controller of the signals, while the output of the latter is connected to the input of the control unit and to the additional input of the signal selection unit, and the power module is connected to the power input of the control unit and is built-in with the ability to connect to an external power source.

 Partial system features contribute to the solution of the problem in part of the system.

 The control unit includes a microcontroller connected in series, an onboard drive control signal register, and power switches.

 The microcontroller of the control unit is configured to download a work program through an external interface.

 The structure of each channel of the signal selection block includes sequentially connected signal type selector and shaper.

 The structure of the memory controller and interface includes a microcontroller, a built-in non-volatile memory block or a removable cartridge with non-volatile memory connected to one of the outputs of the microcontroller and connected in series to its other output programmable logic integrated circuit and buffer register that make up the interface, as well as the node output bus formers.

 The built-in non-volatile memory unit or removable cartridge with non-volatile memory is made with the possibility of expanding the memory capacity or replacing it with a similar unit and cartridge with an expanded memory capacity.

 The interface is configured to reconfigure operation logic through external programming via a software interface.

 The I / O controller includes sequentially connected data input unit and display unit having interface unit with microcontroller of control unit.

 The display unit is made in the form of a sign-synthesizing indicator.

 The external interface can be implemented as a parallel standard port, as a serial standard port, as a specialized parallel 12/14 bit port, with a parallel standard port and a serial standard port, with a parallel standard port, a serial standard port, and a specialized parallel 12/14 discharge port.

 In FIG. 1 is a functional diagram of a system for transmitting information from an on-board storage device of an aircraft to external information processing units that implements the proposed method; figure 2 is a functional diagram of a control unit; figure 3 is a functional diagram of one of the channels of a multi-channel block signal selection; figure 4 is a functional diagram of a memory controller and interface; figure 5 is a functional diagram of the controller input-output signals.

 The system for transmitting information from the aircraft’s onboard storage device to external information processing units contains a power supply module 1, a control unit 2, a software interface 3, a multi-channel signal selection unit 4, a memory and interface controller 5, an input-output controller 6, an external input-output interface 7 signal output.

 The control unit 2 is connected to the on-board drive. A multi-channel signal selection unit 4, a memory and interface controller 5, an input / output controller 6, and an external input / output interface of signals 7 are sequentially connected between the on-board storage unit and external processing units. The software interface 3 is intended for the input / output controller of signals 6. The output of the controller 6 is connected to the input of the control unit 2 and to the additional input of the signal selection unit 4, and the power module 1 is connected to the supply input of the control unit 2 and is built-in with the ability to connect to a source external power.

 The composition of the control unit 2 includes sequentially connected microcontroller 8, the register of control signals 9 on-board drive and power keys 10. The microcontroller 8 of the control unit 2 is configured to load a working program through an external interface.

 The composition of each channel of the signal selection block 4 includes sequentially connected signal type selector 11 and driver 12.

 The composition of the memory controller and interface 5 includes a microcontroller 13, a built-in non-volatile memory unit or a removable cartridge with non-volatile memory 14 connected to one of the outputs of the microcontroller 13 and connected in series to its other output programmable logic integrated circuit 15 and buffer register 16 constituting the interface , as well as a node 17 output bus formers. The built-in non-volatile memory unit or removable cartridge with non-volatile memory 14, which is an internal non-volatile storage medium, is configured to expand the memory or to replace it with a similar block and cartridge with an expanded memory capacity. Interface 15, 16 is configured to reconfigure operation logic by external programming via software interface 3.

 The I / O controller 6 includes serially connected data input unit 18 and an indication unit 19 having a node for interfacing with a microcontroller 8 of the control unit 2. The indication unit 19 is made in the form of an indicator-synthesizing indicator.

 The external interface 7 can be made in the form of a parallel standard port 20, in the form of a serial standard port 21, in the form of a specialized parallel 12/14 bit port 22, with a parallel standard port 20 and a serial standard port 21, with a parallel standard port 20, a serial standard port 21 and specialized parallel 12/14 bit port 22.

 External power can be supplied through an external power source 23.

 The information transfer system operates as follows.

 The information transfer system is connected to the output circuits of the aircraft's on-board storage device. The signal selection unit 4 provides the selection of signals from protected or saved on-board drives or from the equipment of the closest analogue "Overview", and generates real-time output information and synchronization signals.

 Further identification (recognition) of the signals is carried out in the memory controller and interface 5, which provides reception of signals from the selection block 4 and recognition of information fields, forms a data block in a special format, writes information to a non-volatile storage medium (flash memory) or a removable cassette with non-volatile memory 14, provides information communication with external processing units (not shown) through standard ports and a special port for transmitting data from internally a non-volatile data carrier 14 external to the processing units.

 Using a parallel interface allows you to provide the required data transfer speed without upgrading the existing hardware of modern IBM PC. The microcontroller 13 of the controller 5 provides reception and recognition of information from the selection block 4 signals and exchange with the carrier 14 and / or external interfaces. An internal non-volatile storage medium 14 (flash memory) or a removable cartridge with non-volatile memory provides non-volatile storage of data received from the microcontroller 13, and their subsequent output to an external interface 7. Organization of a hardware interface between an additional microcontroller 13, a non-volatile memory unit or a removable cartridge with non-volatile memory 14 and external interfaces is provided by an interface node implemented on a programmable logic integrated circuit 15 and a buffer register 16.

 The required load capacity of the information lines connected to external interface cables is provided by the output bus former assembly 17. The 5 (+5.0 V) controller is supplied from the power module 1. The system can be reconfigured by the microcontroller 13 control program and reconfigure the interface operation logic.

 The introduction by the operator of the digital and control codes necessary for the system to function in a given mode is provided by the data input unit 18, made, for example, in the form of a 4 • 4 keyboard. The necessary information is displayed on the display of the display unit 19 of the input-output controller 6. The operation modes of the information transfer system are controlled by the control unit 2, which contains the microcontroller 8 and provides information input by the operator, information is output to the display unit 19, the formation of control signals for the tape drive mechanism of the on-board drives, exchange information with the memory controller and interface 5. It is possible to load the working program of the microcontroller 13 through an external interface her.

 The formation of control signals by the operating modes of the tape drive mechanism of the on-board drive is provided by the control signal register 9 of the on-board drive and power keys 10. The information carrier of the on-board drive of the aircraft can be solid state or in the form of magnetic tape.

 Energy supply of the information transmission system is carried out from the power module 1, connected to the control unit 2, built-in with the ability to connect to an external power source 26 and generating a supply voltage of +5 V, +12 V, +12 V of the required power.

The system software consists of two fragments implemented in Assembler language. Programming a programmable logic integrated circuit 15 and microcontrollers of the information transmission system in the conditions of the manufacturer is carried out using specialized software through a standard interface. Programming the operating software of the controllers during the life of the system in the absence of the need to change the working programs is not required. In accordance with the functional purpose of the elements of the information transmission system, software fragments perform the following operations:
for input-output controller 6 and control unit 2 — input of specific parameters and control of the system’s operating modes through the user menu, generation of tape drive control signals, exchange of information between system controllers, output of the necessary information to display elements and testing of controllers;
for the memory controller and interface 5 — input and identification of information from the signal selection block 4, generation of control bits and the formation of an information word, buffering data and writing them to non-volatile memory 14, transferring the data block from the system memory to external processing units via standard and specialized ports and controller testing.

 The information transfer system provides operation in the following modes.

 The “MANUAL” mode is intended for viewing and copying flight information of an on-board storage device with manual control of the storage device and inclusion of the recording mode. The “AUTO SEARCH” mode is intended for automatically copying the record of the parameters of the currently registered flight, as well as for viewing and copying flight information with manual control of the drive and automatic on / off recording mode when finding predetermined parameters (when the values of the specified parameters (search parameters) coincide with the read )

 The “OUTPUT” mode is intended for outputting the copied information from the internal non-volatile memory 14 of the information transmission system via standard ports to external information processing units, and the output port is selected when setting up the information transmission system.

 The OUTPUT / FORMAT mode is intended for outputting the copied information to the processing system in a format identical to the Obzor-MS equipment. The OUTPUT / FORMAT mode is intended for outputting copied information to processing systems of the Luch, Mayak, Topaz and other types in a format that simulates the time and information characteristics of Obzor-MS equipment. Information output control can be carried out both by the information transfer system itself (auxiliary mode), and by commands transmitted from external processing units in accordance with the adopted information exchange protocols (main mode).

 The “INPUT / FORMAT” mode is intended for reading and simultaneous copying to a non-volatile memory of the system of a given section of flight information from the BK-2, BK-3 cassettes from the Obzor-MS, 4MN equipment set through the output connector of the corresponding tape recorder. The recorder "Obzor-MS" is controlled from the control panel of the recorder. When entering the mode, the type of on-board drive, the type of information reading (direct or reverse reading), the amount of free memory in the non-volatile memory of the system in hours and minutes of recording that can be used to record data from the drive, and a message about readiness for start reading.

 The TRANSIT mode is intended for reading and simultaneous output of information read from the on-board storage device into external processing units in the Obzor-MS format without copying to the internal medium of the information transfer system.

 The "ENTER 1: 1" mode is designed to record information directly on board the aircraft in the operational mode of the operational on-board drive. The system records information in parallel with the main on-board drive by connecting a corresponding cable to the control connector of the on-board drive. When the aircraft’s onboard power supply is turned on and the internal self-control cycle is completed, the system sets the “ENTER 1: 1” mode and, when the control signal is received, the “on-board drive” is turned on, the read / write mode of incoming data is automatically turned on and written to the system’s non-volatile memory in a file with a new number.

 The non-volatile memory mode is intended for servicing the non-volatile memory 14 of the system, in particular, for its reset.

 The information transfer system performs tests of internal self-control of microprocessors. If any test fails, an error message is displayed on the screen and the program stops. To continue working, you must restart the program by turning off and then turning on the power of the information transfer system. In the mode of reading / writing information from the on-board drive, if the clock signal is not received for a predetermined time, the absence state of the input signal is recorded. Reading stops, a message appears on the display screen about the absence of a signal from the on-board recorder. In the event that non-volatile memory ends, an error is recorded in the mode of recording information on the internal storage medium. Reading / writing is terminated and a message is displayed on the display screen.

 Self-serviceability of the system is ensured by the implementation of built-in programs of working software that provide a check of the health of the digital nodes of the system and the standard interfaces connected to them. The serviceability of the signal selection block 4 is controlled by comparing the information read from the storage medium with previously known codes (service information at the corresponding addresses). The health monitoring of standard interfaces 20, 21 is performed by connecting the appropriate cables.

 The information transmission system has a functional block structure, which ensures the possibility of its subsequent adaptation to expanding the range of tasks without cardinal reconfiguration of individual hardware nodes and software. The stability of signal selection is provided by the technical parameters of the selected elemental base. Information can be transmitted both on the landing sites of various objects, in particular on the decks of aircraft-carrying ships under the conditions of real destabilizing factors, and in stationary conditions, including with drives dismantled from the aircraft.

Claims (37)

 1. A method of transmitting information from an aircraft’s on-board information storage device to external processing units, according to which an information transmission system connected to a protected or salvaged information storage device made with a solid-state information carrier or magnetic tape and placed on board or dismantled from the aircraft is connected with a solid-state storage medium, sampling from the storage medium of the on-board storage device the registered service parameters and time, they search for the recording sections set for copying, copy the found recording sections to the information carrier of the information transfer system, and output the copied information to external processing units, characterized in that the information is copied in the conditions of stationary basing of the aircraft on the landing pad, while in the system information transfer information and synchronization signals from the on-board storage device select and reproduce in real time, form The data block specified in accordance with the identified information fields is recorded on the system information carrier in a format corresponding to the time and information characteristics of the external processing units, it is interface-connected with external processing units via standard or non-standard ports and provides the possibility of hardware and logical interface reconfiguration, the latter of which are performed using a software interface.  2. The method according to claim 1, characterized in that as a solid-state carrier of the information transmission system, a built-in non-volatile memory unit is used.  3. The method according to claim 1, characterized in that as a solid-state carrier of the information transmission system, a removable cartridge with non-volatile memory is used.  4. The method according to any one of claims 1 to 3, characterized in that they provide the operating mode of the "MANUAL" information transmission system, in which the flight information of the on-board drive is viewed and copied when the drive is manually controlled and the recording mode is activated.  5. The method according to any one of claims 1 to 3, characterized in that they provide the operation mode of the "AUTO SEARCH" information transmission system, in which automatically record the parameters of the current registered flight, and also view and copy flight information with manual control of the drive and automatic inclusion / turn off the recording mode when the read parameter values coincide with predefined ones.  6. The method according to any one of claims 1 to 3, characterized in that they provide the operating mode of the "OUTPUT" information transmission system, in which the port selected during system setup is used to output information copied to the system media to external processing units.  7. The method according to any one of claims 1 to 3, characterized in that they provide the operating mode of the “OUTPUT / FORMAT” information transmission system, in which the copied information is output to external processing units in a predetermined format, and the information output is controlled as the transmission system itself information, as well as commands transmitted from external processing units in accordance with the adopted information exchange protocols.  8. The method according to any one of claims 1 to 3, characterized in that they provide the operating mode of the "ENTER / FORMAT" information transmission system, in which specified sections of flight information are read and copied to the built-in non-volatile memory unit or to a removable cartridge with non-volatile memory from external cassettes through the output connector of the corresponding tape recorder controlled from its control panel, while entering the mode, the type of on-board drive, the type of information reading, the amount of free memory in energy independent memory in hours and minutes of recording, used to write data from the drive, as well as a message about readiness to start reading.  9. The method according to any one of claims 1 to 3, characterized in that they provide the operating mode of the TRANSIT information transmission system, in which the information read from the on-board storage device, after formatting, is directly output to external processing units.  10. The method according to any one of claims 1 to 3, characterized in that they provide the operating mode of the information transmission system "ENTER 1: 1", in which information is recorded directly on board the aircraft in parallel with the on-board drive, and this mode is set after switching on on-board power supply of the aircraft and the passage of the internal self-control cycle, and upon receipt of the control signal "turn on the on-board storage" automatically turn on the read / write mode of the incoming input data and record them in the built-in a non-volatile memory unit or into a removable cartridge with non-volatile system memory with a file with a new number.  11. The method according to any one of claims 1 to 3, characterized in that they provide the operating mode of the "ENERGY-INDEPENDENT MEMORY" information transmission system, in which the system maintains a built-in non-volatile memory block or removable cartridge with non-volatile memory, including resetting them.  12. The method according to any one of claims 1 to 3, characterized in that they provide the functioning of the information transmission system as an additional or replacement on-board information storage device.  13. The method according to any one of claims 1 to 12, characterized in that the transmission of information is provided under vibrational conditions.  14. The method according to any one of claims 1 to 12, characterized in that the transmission of information is provided under mechanical shock.  15. The method according to any one of claims 1 to 12, characterized in that the transmission of information is provided under conditions of temperature exposure. 16. The method according to any one of claims 1 to 12, characterized in that the information is transmitted at a humidity of 100% at a temperature of 35 ^o C.  17. The method according to any one of claims 1 to 12, characterized in that the information is provided under the influence of precipitation.  18. The method according to any one of claims 1 to 12, characterized in that the transmission of information is provided under conditions of dew.  19. The method according to any one of claims 1 to 12, characterized in that the information is provided under the influence of salt sea fog.  20. The method according to any one of claims 1 to 12, characterized in that the transmission of information is provided under conditions of exposure to electromagnetic radiation.  21. The method according to any one of claims 1 to 12, characterized in that the information is provided under the conditions of temperature effects, dew and sea fog.  22. The method according to any one of claims 1 to 12, characterized in that the transmission of information is ensured under conditions of mechanical vibration and shock.  23. The method according to any one of claims 1 to 12, characterized in that the information is provided under conditions of temperature and mechanical stress, dew and sea fog.  24. A system for transmitting information from an onboard storage device of an aircraft to external processing units, comprising a control unit connected to an onboard storage device and a power module, characterized in that it is equipped with a multi-channel signal selection unit, a memory and interface controller, a signal input-output controller, and external signal input-output interface, connected in series between the on-board drive and external processing units, as well as the software interface for the input / output controller signals, while the output of the latter is connected to the input of the control unit and to the additional input of the signal selection block, and the power module is connected to the supply input of the control unit and is built-in with the ability to connect to an external power source.  25. The system according to p. 24, characterized in that the control unit includes sequentially connected microcontroller, the register of control signals of the on-board drive and power keys.  26. The system according to p. 24, characterized in that the microcontroller of the control unit is configured to download a work program through an external interface.  27. The system according to paragraph 24, wherein the composition of each channel of the block signal selection includes sequentially connected selector signal type and driver.  28. The system according to paragraph 24, wherein the memory controller and the interface include a microcontroller, a built-in non-volatile memory unit or a removable cartridge with non-volatile memory connected to one of the outputs of the microcontroller, and connected in series to its other output programmable logic integrated circuit and a buffer register constituting the interface, as well as the node output bus drivers.  29. The system according to p. 28, characterized in that the built-in non-volatile memory unit or a removable cartridge with non-volatile memory is configured to expand the memory or replace the same block and cartridge with an expanded memory capacity.  30. The system according to p. 28, characterized in that the interface is configured to reconfigure the logic of work by external programming via the software interface.  31. The system according to p. 24, characterized in that the I / O controller includes serially connected data input unit and an indication unit having a node for interfacing with the microcontroller of the control unit.  32. The system according to p. 31, characterized in that the display unit is made in the form of a sign-synthesizing indicator.  33. The system according to paragraph 24, wherein the external interface is made in the form of a parallel standard port.  34. The system according to paragraph 24, wherein the external interface is made in the form of a serial standard port.  35. The system according to paragraph 24, wherein the external interface is made in the form of a specialized parallel 12/14 bit port.  36. The system according to paragraph 24, wherein the external interface is made with a parallel standard port and a serial standard port.  37. The system according to paragraph 24, wherein the external interface is configured with a parallel standard port, a serial standard port and a specialized parallel 12/14 bit port.

Images