RU2001128231A - SYSTEM FOR DATA PORT CONNECTION CONFIGURATION CONTROL - Google Patents

Claims (36)

1. A system for determining the configuration of the connection of data ports that are connected by multicore cables, each specified data transmission port having a socket, and each specified multicore cable has a plug at each end of the cable that enters the specified socket, while this system contains a socket contact located next to the specified socket, an external contact for each plug, while the specified external contact is electrically connected to the specified socket contact when the plug enters the specified e socket, at least one driver of the output signal, electrically connected to at least one female contact, and the specified output driver serves to send a signal to said female contact, at least one receiver of the input signal, electrically connected, with at least one female contact for receiving said signal sent by said output signal converter, a microprocessor connected to said output signal converter and said waveforms an input signal driver to control the specified signal sent by the specified output signal shaper and to detect signals received by the specified input signal receiver, while the specified microprocessor interprets these signals to determine the connection configuration of the specified data transmission ports, and the output indicator connected to the specified microprocessor for display the connection configuration of the specified data ports, as defined by the specified microprocessor. 2. The system according to claim 1, characterized in that the microprocessor determines the connection configuration of these data ports by sending a signal to the socket contact, determining which of the input signal receivers received the signal and repeating this process for each socket contact. 3. The system according to claim 1, characterized in that the multicore cable is a standard cable. 4. The system according to claim 3, characterized in that the multicore cable is an RJ45 cable. 5. The system according to claim 3, characterized in that the multicore cable is a cable of the type RJ11. 6. A system for determining the configuration of the connection of data transmission ports that are connected by standard multicore cables, wherein each of said data transmission ports has a standard jack and each said multicore cable has a standard plug at each end of the cable that goes into said jack, wherein said system contains a female contact located next to the specified standard socket, an external contact provided for each standard plug, while the specified external contact electrically connected to the specified socket contact, when the plug enters the specified socket, the output signal shaper connected to each socket contact, the specified output shaper is used to send a signal to the specified socket contact, the input signal receiver connected to each specified socket contact to receive the specified signal sent by said output driver, a microprocessor coupled to said output driver and said input signal receiver ala to control the specified signal sent by the specified driver of the output signal and to detect signals received by the specified receiver of the input signal, and the specified microprocessor interprets these signals to determine the connection configuration of the specified data ports, and an output indicator connected to the specified microprocessor to display the connection configuration specified data transmission ports, as determined by the specified microprocessor. 7. The system according to claim 6, characterized in that the microprocessor determines the configuration of the connection of these data ports by sending a signal to the socket contact, determining which of the input signal receivers received the signal and repeating the specified process for each socket contact. 8. A system for determining the configuration of the connection of the data transmission ports, each indicated data transmission port having a socket, said system comprising a socket contact located adjacent to said socket, a plurality of multicore cables connecting said data transmission ports, wherein each of said multicore cables has a plug at each end of the cable that enters the specified socket, each of these plugs has an external contact, the specified external contact, electrically connected to the specified socket contact, when the plug enters the specified socket, output signal conditioners connected to each socket contact, while these output drivers provide signal transmission to the specified socket contact, input signal receivers connected to each specified socket contact to receive the specified signal sent by the specified output signal shapers, a microprocessor connected to said output signal shapers and to said input signal receivers for controlling by a specified signal sent by said output signal conditioners and to detect signals received by said input signal receivers, said microprocessor interpreting said signals to determine a connection configuration of said data transmission ports, and an output indicator connected to said microprocessor to display a connection configuration of said data transfer ports, as defined by the specified microprocessor. 9. The system of claim 8, wherein the microprocessor determines the connection configuration of the specified data ports by sending a signal to the socket contact and determining which of the input signal receivers received the signal and repeating the process for each socket contact. 10. The system of claim 8, wherein the multicore cable is a standard cable. 11. The system of claim 10, wherein the multicore cable is an RJ45 cable. 12. The system of claim 10, wherein the multicore cable is an RJ11 cable. 13. A set of equipment for determining the configuration of the connection of data transmission ports that are connected by standard multicore cables, each of these data ports having a standard socket and each specified multicore cable has a standard plug at each end of the cable that is included in the specified socket, the specified set of equipment contains a plurality of adapter cards having a plurality of socket contacts, wherein said adapter cards are located next to said socket, a plurality of about adapter housings that are used for the specified standard plug, wherein each of the specified adapter housings has an external contact for electrical connection with the indicated female contacts, when the specified adapter housing covers the specified standard plug and the specified standard plug is included in the specified standard socket, output signal conditioners connected respectively with each socket contact, while these output shapers provide signal transmission to the decree a given socket contact, input signal receivers connected respectively to each specified socket contact for receiving a specified signal sent by said output signal shapers, a microprocessor that is connected to said output signal shaper and to said input signal receivers to control the specified signal sent by said output shapers signal and for detecting signals received by said input signal receivers, wherein said microprocessor interprets these signals to determine the connection configuration of the specified data ports, and an output indicator connected to the specified microprocessor to display the connection configuration of the specified data ports as defined by the specified microprocessor. 14. The set of equipment according to item 13, wherein the microprocessor determines the configuration of the connection of these data ports, sending a signal to the socket contact and identifying the input signal receivers that received the signal, and repeating this process for each socket contact. 15. A set of equipment for determining the configuration of the connection of the data transmission ports, wherein each specified data transmission port has a standard socket, said equipment set contains a plurality of adapter cards having a plurality of socket contacts, wherein said adapter cards are located next to the specified socket, a plurality of multicore cables, which have a standard plug at each end, each of these plugs has an external contact for electrical connection with these socket with clocks, when said plug enters said socket, output signal conditioners connected respectively to each socket contact, wherein said output drivers provide signal transmission to said socket contact, input signal receivers connected respectively to each specified socket contact to receive said signal, sent by said output signal conditioners, a microprocessor which is connected to said output signal conditioners and said receivers the input signal for controlling the specified signal sent by the specified output signal conditioners and to detect the signals received by the indicated input signal receivers, the specified microprocessor interprets the indicated signals to determine the connection configuration of the specified data transmission ports, and the output indicator connected to the specified microprocessor to display the configuration the connection of the specified data ports, as defined by the specified microprocessor. 16. The set of equipment according to clause 15, wherein the microprocessor determines the configuration of the connection of these data ports, sending a signal to the socket contact and identifying the input signal receivers that received the signal, and repeating this process for each socket contact. 17. A system for determining the configuration of the connection of data ports that are connected by multicore cables, each specified data transmission port having a socket and each specified multicore cable has a plug at each end of the cable that enters the specified socket, this system contains a socket contact located next to said socket, an external contact provided for each plug, wherein said external contact is electrically connected to said socket contact when the plug enters the indicated socket, a diagnostic pen with a tip, at least one driver of the output signal, electrically connected to at least one socket contact, wherein said output driver serves to send a signal to the specified socket contact of at least one input receiver a signal electrically connected to at least one female contact for receiving said signal sent by said output signal converter, a pen input signal receiver, electrically connected connected with the specified tip of the specified diagnostic pen, the microprocessor connected to the specified driver of the output signal, the specified driver of the input signal and the specified receiver of the input signal of the pen, the specified microprocessor is used to control the specified signal sent by the specified driver of the output signal and to detect signals received by the specified receiver of the input signal and the specified receiver of the input signal of the pen, while the specified microprocessor interprets the specified signal scale value to determine the connection configuration of said data ports, and an output indicator coupled to said microprocessor for indicating the connection pattern of said data ports as determined by said microprocessor. 18. The system according to 17, characterized in that the microprocessor determines the connection configuration of the specified data ports by sending a signal to the socket contact and determining the input signal receivers that received the signal and repeating this process for each socket contact. 19. The system according to 17, characterized in that the multicore cable is a standard cable. 20. The system according to claim 19, characterized in that the multicore cable is an RJ45 cable. 21. The system according to claim 19, characterized in that the multicore cable is an RJ11 cable. 22. The system according to 17, characterized in that the external contact is a pin output. 23. The system of claim 22, wherein the pin terminal is held by a spring. 24. The system according to 17, characterized in that it further comprises LCD modules installed next to said slots, and LCD pathogens connected to said LCD modules and said microprocessor. 25. A set of equipment for determining the configuration of the connection of data ports that are connected by standard multicore cables, each of these data ports has a standard socket and each specified multicore cable has a standard plug at each end of the cable that is included in the specified socket, the specified set of equipment contains a plurality of adapter boards made of flexible tape and having a plurality of socket contacts, wherein said adapter boards are located next to the pointer a nested socket, a plurality of adapter housings, each of which is designed for a specified standard plug, wherein each of said adapter housings has an external contact for electrical connection with said socket contact when said adapter housing contains said standard plug and said standard plug is included in said standard a socket, output signal conditioners connected respectively to each socket contact, wherein said output drivers provide transmitting a signal to said socket contact, input signal receivers connected respectively to each said socket contact to receive said signal sent by said output signal conditioners, a microprocessor which is connected to said output signal conditioners and said input signal receivers to control said signal sent the specified shapers of the output signal and for detecting signals received by these receivers of the input signal, when this specified microprocessor - interprets the specified signals to determine the connection configuration of the specified data transfer ports, and an output indicator connected to the specified microprocessor to display the connection configuration of the specified data transmission ports, as defined by the specified microprocessor. 26. The set of equipment according A.25, characterized in that the microprocessor determines the connection configuration of these data ports, sending a signal to the socket contact and identifying the input signal receivers that received the signal, and repeating this process for each socket contact. 27. The set of equipment according A.25, characterized in that the external contact is a pin output. 28. A set of equipment according to claim 27, wherein the pin terminal is held by a spring. 29. A set of equipment according to claim 25, characterized in that the adapter boards include a substrate having a main body and a top, said substrate being made of flexible tape, a plurality of contacts placed in the main body, and the distance between said contacts corresponds to the distance between the specified data ports, and a conductor connected to each specified contact, while the specified conductor ends in the specified upper part. 30. A set of equipment for determining the configuration of the connection of data transmission ports, each of these data transmission ports having a standard socket, the specified equipment set contains many adapter cards having a plurality of socket contacts, while said adapter cards are located next to the specified socket, a plurality of multicore cables while these cables have a standard plug at each end, each of these plugs has an external contact for electrical connection with connected socket contacts, when the specified plug enters the specified socket, output signal conditioners connected respectively to each socket contact, while these output drivers provide signal transmission to the specified socket contact, input signal receivers connected respectively to each specified socket contact to receive the specified a signal sent by said output signal conditioners, a microprocessor that is connected to said output signal conditioners la and the specified input signal receivers to control the specified signal sent by the specified output signal conditioners and to detect the signals received by the indicated input signal receivers, while the specified microprocessor interprets these signals to determine the connection configuration of the specified data transmission ports, and an output indicator connected to the specified microprocessor to display the connection configuration of the specified data ports, as defined by the specified microprocessor a quarrel. 31. The set of equipment according to claim 30, wherein the microprocessor determines the connection configuration of the indicated data transmission ports by sending a signal to the socket contact and determining the input signal receivers that received the signal and repeating this process for each socket contact. 32. The set of equipment according to p. 30, characterized in that the external contact is a pin output. 33. The set of equipment according to p, characterized in that the pin terminal is held by a spring. 34. A set of equipment according to claim 30, characterized in that the adapter boards include a substrate having a main body and an upper part, said substrate being made of flexible tape, a plurality of contacts in the upper part, the distance between said contacts corresponding to the distance between said transmission ports data, and a conductor connected to each specified contact, and the specified conductor ends in the specified upper part. 35. A system for determining the configuration of the connection of data ports that are connected by standard multicore cables, each of these data ports having a standard socket and each specified multicore cable has a standard plug at each end of the cable that goes into the specified socket, the specified system contains a female a contact installed inside the specified standard jack, an external contact provided for each standard plug, while the specified external contact is electric clearly connected to the specified female contact, when the plug enters the specified socket, the output driver, respectively connected to each female contact, the specified output driver serves to send a signal to the specified female contact, the input signal receiver, respectively connected to each specified female contact for receiving the specified signal sent by the specified shaper of the output signal, a microprocessor connected to the specified shaper of the output signal and the specified an input signal receiver for controlling said signal sent by said output driver and for detecting signals received by said input signal receiver, said microprocessor interpreting said signals to determine a connection configuration of said data transmission ports, and an output indicator connected to said microprocessor for display the connection configuration of the specified data ports, as defined by the specified microprocessor. 36. An adapter board for providing a socket contact for data transmission ports, comprising a substrate having a main body and an upper part, said substrate being made of flexible tape, a plurality of contacts placed on the main body, the distance between said contacts corresponding to the distance between said transmission ports data, and a conductor connected to each of said contacts, wherein said conductor ends at said upper part.