A HUB APPARATUS FOR CABLE
The present invention refers to cable hub device relates to, in particular the third step is to connect plurality of devices to minimize the even when the length of a cable which is provided with a cable hub relates to device. The present in the embodiment example automated banking device in the described example. Automatic teller machine financial service with respect to the light emitting number assigned to the location and time, bank personnel, and printing of a bankbook or deposit without such assist in financial service basic of automated is device. Said automatic teller machine related to PCCP for measuring cash payment roof tile which can be decomposed into has arrived cash, related to PCCP (Check) check as well as related to PCCP cash constitution, bankbook adjustment, giro charge payment, such as for selling ticket carried out at a to various fields. Said and various function of automated teller machine according to to, said automatic teller machine in a wanted position part of the their functionality plurality of to control the consists of to. In particular, said control module sensor control module, said sensor control module on the rear face of bill transport path is provided to sensor assembly of according to the output signals from or to determine whether transfer paper money by such as duodecimal or paper currency is module for determining the. Hereinafter whether transfer bill for the sake of convenience of in determining the outputs a relay driving signal. disclosed, so as to define an. Also 1 the several infrared sensor and sensor control module is shown road configured on a block-by-block. Also 1 with a, bank note in internal automatic teller machine transfer bill is provided to transport path for sensing infrared sensor number 8 to number 1 (10 to 80) comprises the rectangular plate like nut 3. Said number 1 to number 8 infrared sensor (10 to 80) the bill transport path the sheet is fed through the from the note transportation path to check for the current location of ends of the body are attached to.. Said number 1 to number 8 infrared sensor (10 to 80) the bill transfer at the time of number 8 to number 1-light emitting infrared light emitting unit (82 to 12) and a, said number 1 to number 8 light emitting unit (82 to 12) emitted from the infrared output a received light amount thereof and a light receiving part number 8 to number 1 (14 to 84) consists of to. The light emitting unit said number 1 to number 8 (82 to 12) an anode (Anode) and the cathode (Cathode) for connector section pin 2 (82a to 12a) comprises the rectangular plate like nut 3. And said number 1 to number 8 light receiving part (14 to 84) the collector emitters and (Collector) for (Emitter) connector section pin 2 (84a to 14a) comprises the rectangular plate like nut 3. Said number 1 to number 8 infrared sensor (10 to 80) for controlling sensor control module (90) top elid processing device is provided with. Said sensor control module (90) the number 1 to number 8 infrared sensor (110 to 180) the 1 to 1 respectively for transmitting/receiving signal for connector portion for module of pin 32 (91) comprises the rectangular plate like nut 3. The connector part for said module (91) the latter is received through the infrared sensor number 8 to said number 1 (10 to 80) output for selecting, any one signal of output signals of a multiplexer (MUX) (93) comprises the rectangular plate like nut 3. Said multiplexer (93) the, 8 channel analog hardware in digital, 'TC4051' is used in. Said multiplexer (93) the output signal selected by to conveyed based on position of a bank note in the control unit for checking an (95) comprises the rectangular plate like nut 3. Said control unit (95) the sensor control module (90) overall operation of the to control. Also said sensor control module (90) the, said control unit (95) according to the control of said number 1 to number 8 infrared sensor (80 to 10) to power supply unit for supplying a (97) comprises the rectangular plate like nut 3. And said power supply unit (97) a power supply device from number 1 to number 8 infrared sensor (10 to 80) material can be supplied stably to resistance part (99) 1 comprises the rectangular plate like nut. Said resistance part (99) the, but not shown specifically, said number 1 to number 8 infrared sensor (80 to 10) two 8 is arranged is constituted of resistance for limiting the current of a cathode. Said number 1 to number 8 infrared sensor (80 to 10) and the signal detected by the sensor control module (90) are connected to a plurality of signal cable (C). I.e., said number 1 to number 8 light emitting unit (82 to 12) and light receiving part number 8 to number 1 (14 to 84) the, each occupying separate signal cable (C) by said sensor control module (90) for module of connector portion (91) is coupled to the. However automatic teller machine such as multifunctional the terminal device by said signal cable (C) etched patterned to have lightweight and.. In particular, infrared sensor as needed 100 is a terminal device include more than two (such as SCRM) in the case of infrared sensor with corresponding to signal cable (C) should and has an outer surface equipped with will correspondingly. Accordingly signal cable (C) the resonance inverter of the memory and the magnetic tape is connected to the semiconductor layer. periods. the signal cable (C) total length of a cable is used as. significant in addition. If both length of said signal cable (C) '500 mm' assuming be equal to to, said signal cable (C) total '16000 (500 mm * 8EA * 4 ray) mm' a rotating drum to be the recording operation.. And the connector part for said module (91) the number 1 to number 8 infrared sensor (10 to 80) (C) cable plurality of signals connected for receiving a both should sufficiently large volume at. Otherwise, said signal cable (C) are the connector part for said module (91) and a actuation is inputted in the computer is attached dense each other, assembly or repairing work space information, the system transmits a signal is arranged. In addition said signal cable (C) the influenceable by an external force and can be generated damage or fouling, in particular said signal cable (C) a damage to the part of said corrupted signal cable (C) entire replacement.. The cable 123 and causes a is provided to reduce. The present purpose of the invention the said discharge of the torch electrode from a for, the third step is to connect plurality of devices further minimize a even when the length of a cable cover hub electrode 104 is provided under the device. Another object of the present invention the third step is to connect a plurality of devices a cable by a rope. and easy operation. The front surface includes said for achieving according to one aspect of the present invention, the present invention refers to plurality of devices; said controlling the control module; said devices and the control module is rotated by, said device for signal processing with a plurality of number 1 connector unit number 2 for signal processing with said control module having a connector hub; said devices and number 1 the connector parts together; and a plurality of signal cable; and said control module; electrical conductors connected to cable interconnecting the connector parts number 2 ; consists of including. Said hub, said output signal of devices through the connector parts number 1 when the mobile terminal receives the, said output signal the received device to the a multiplexer for selecting either a; and a connector portion to said control module number 2 from the supply, said devices to a power supply being supply said stably supplied at resistance part to; consists of further includes a. Said control module, said number 2 the connector part for a module to be corresponding connector unit; said connector for module received through the interface unit for signal processing of the output signal device said a control unit; and said said according to the control of the controller hub devices and a power supply for supplying power to; consists of including. Said number 2 connector unit, said hub to feed power to and a terminal for, said hub for and a terminal for power ground (Ground), said output signal of said devices for delivery and a terminal for control module, said multiplexer to operating signal (enable signal) for delivering and a terminal for, said by a multiplexer said devices any one signal of output signals of control signal to multiplexer said is going to be selected for delivering (Address signal) and a plurality of terminals, for applying power to said devices consists of terminals. To reduce said signal cable length of said control module and said devices provided said hub. As described above, the present invention refers to plurality of sensor and, sensor control module and for controlling sensor, sensors and a control module for interconnecting is composed hub. And between sensors and plurality of corresponding quantity and the sensor signal cable is connected to the, hub and sensor control module module is installed under the one control cable are connected. Is is implemented on the data of light emitted from at least the total of a cable used to minimize length, according to the same the client computer. coupled to. Wherein said sensor control module hub relatively sensors and when the are placed in close proximity to, minimum than entire length of cable penetration hole while moving up and down. Furthermore, hub hub number 1 a the connector part for said sensors and each is 1 to 1 and generates a corresponding signal if a fuel provided from by of light emitted from at least the sensors and the third step is to connect hub space is secured by separating the signal cable between rotation is carried out, the amount. And, the control between sensor control hub and are integrally connected by cable, applying at cable as compared to the conventional secured easily on the space is reduced.. Thus manager easy to work an assembling or repairing work can be embodiment the client computer., work efficiency is improved. Cable or control signal cable also including the front surface are due to when embodiment, the third step is to connect hub sensors and signal cable or the hub and the sensor control module a cable connected between the lip seal is divided, catalyst and are replaced by the reducing the component cost can be protective boards. Hereinafter, a cable hub device of the present invention preferred embodiment according to drawing with an. rapidly and to reduce a memory reference to. The present in the embodiment in internal of automated teller machine provided with a plurality of infrared sensor and said infrared sensor control the paper money passes through without transfer that determines whether the non-sensor control module, for example, time as large as that of to illustrate the example. Also the cable hub device of the present invention number 1 in the embodiment 2 by the block configured road is shown and, in Figure 2 the 3 also account for a multiplexer described block configuration and it is shown, also the 4 of Figure 3 to explain the input/output multiplexer to an exemplary table is shown degree. 2 also refers to surface, bill transport path lines which are provided on said bill transport path the sheet is fed through the up the bill number 8 to number 1 sensing infrared sensor (110 to 180) comprises the rectangular plate like nut 3. Said number 1 to number 8 infrared sensor (110 to 180) the bill transport path at a predetermined spacing is provided apart from each other in the. Said number 1 to number 8 infrared sensor (110 to 180) has the bill while transferring bill transport path infrared ray in only one direction-light emitting number 1 to number 8 light emitting unit (182 to 112) and a, said number 1 to number 8 light emitting unit (182 to 112) emitted from the infrared output a received light amount thereof and a light receiving part number 8 to number 1 (184 to 114) consists of to. Light receiving said two CCBs whether transfer bill amount. is information consulted. Said number 1 to number 8 light emitting unit (182 to 112) for the anode (Anode) and the cathode (Cathode) connector section pin 2 (182a to 112a). provided in an. And said number 1 to number 8 light receiving part (184 to 114) for the collector (Collector) (Emitter) emitters and connector section pin 2 (184a to 114a) comprises the rectangular plate like nut 3. Said number 1 to number 8 infrared sensor (110 to 180) for controlling sensor control module (300) top elid processing device is provided with. Said sensor control module (300) a hub described under the (200) of the connector part for hub number 2 (240) for transmission and reception in a signal-transmitting manner by the connector part for module (310) comprises the rectangular plate like nut 3. The connector part for said module (310) the connector part for the number 2 hub (240) is arranged is constructed of by the pins 8, is described which outputs a relay driving signal.. The connector part for said module (310) the latter is received through the number 1 to number 8 infrared sensor (180 to 110) according to the output signals from conveyed of a bank note in the path and for user control unit (320) comprises the rectangular plate like nut 3. Said control unit (320) the sensor control module (300) to control overall operation of the. Said control unit (320) according to the control of the connector part for said module (310) to said number 1 through number 8 infrared sensor (180 to 110) and hub (200) a power supply for supplying power to (330) comprises the rectangular plate like nut 3. Said number 1 to number 8 infrared sensor (110 to 180) and the signal detected by the sensor control module (300) a hub for connecting a (200) comprises the rectangular plate like nut 3. Said hub (200) the number 1 to number 8 infrared sensor (110 to 180) for transmission and reception in a signal-transmitting manner by the connector part for hub number 1 (210) comprises the rectangular plate like nut 3. The connector part for hub said number 1 (210) the number 1 to number 8 infrared sensor (110 to 180) and a 1 to 1 connect corresponding number 1 to number 8 a 4 pin connector portion (210a to 210h) comprises the rectangular plate like nut 3. For example, said number 1 connector portion (210a) the number 1 light emitting unit (112) and light receiving part number 1 (114) is connected, said number 8 connector portion (210h) light emitting unit the number 8 (182) and light receiving part number 8 (184). connect respectively. Such number 1 to number 8 connector portion (210h to 210a) each consists of, and spaced apart from each. The connector part for hub said number 1 (210) the latter is received through the number 1 to number 8 infrared sensor (110 to 180) output signal of, i.e. light receiving part number 8 to number 1 (184 to 114) otherwise conveyed from the Peltier device and output for selecting either a light receiving amount a multiplexer (MUX) (220) comprises the rectangular plate like nut 3. Said multiplexer (220) the, 8 channel analog hardware in digital, 'TC4051' is used in. Figure is. is shown in a 3. Also 3 a, said multiplexer (220) the number 1 to number 8 infrared sensor (110 to 180) of an input unit receives an output signal of the first (221) and a, said sensor control module (300) otherwise conveyed from the Peltier device plurality of control signals each shift, and an inverter unit (222) and a, said inverter unit (222) a control signal is inverted by the first logic level a the front seat and (223) and a, said front seat and (222) and converted by the at logic level of the control signals logic operation logic processing unit (224) and a, said logic processing part (214) of the display part according to said input (221) is in the number 1 to number 888 0000997888 infrared sensor (110 to 180) for selecting any one signal of output signals of the output selecting unit outputs a (225) and a, said output selecting unit outputs a (225) information, which is selected by the, an emission unit/output signal (226) consists of to. Also said sensor control module (300) a power supply device from number 1 to number 8 infrared sensor (110 to 180) material can be supplied stably to resistance part (230) comprises the rectangular plate like nut 3. Said resistance part (230) the, said number 1 to number 8 infrared sensor (110 to 180) is arranged for limiting the current of a cathode resistance 8 consists of two. Also said multiplexer (220) and output selected from said output signal/the selected sensor control module (300) applied are transferred to, said sensor control module (300) and using a power source being supplied from said resistance part (230) the item and providing that the connector part for hub number 2 pin 8 (240) comprises the rectangular plate like nut 3. The connector part for hub said number 2 (240) the following sidewalls of the storage space 'table 1' as. 'Table 1' a, the connector part for hub said number 2 (240) a hub (200) and a power supply terminal for supplying power to, hub for reference potential GND terminal and, said multiplexer (220) information, which is selected by the/output signal is said sensor control module (300) to be delivered to COM terminal and, said multiplexer (220) for controlling the operation of the enable (Enable) EN terminal and provided with signal, said multiplexer (220) to select any of the channel 8 is an address for (Address) inputted to the input terminal ADD1 terminal, ADD3 terminal and ADD2 terminal and, said number 1 to number 8 the enemy outside it stands the sensor (180 to 110) for supplying a Sensor consists of a power terminal. Wherein said AAD1, ADD3 and terminal ADD2 are connected to address input signal, i.e. control signal according to one channel is selected (truth table) is also truth table is shown in a 4. Also from a 4, is in the terminal EN because the gate is formed on a low level state is AAD1, ADD3 ADD2 terminal and a circuit unit receives the brightness port in the driving circuit logic level of a control signal number 1 to number 8 infrared sensor (110 to 180) is selected output signal one of. E.g., is in the terminal EN in low level because the gate is formed on a AAD1, ADD3 and terminal ADD2 is shifted from a predetermined mode to signal low level both terminal, the channel is selected '0' infrared sensor number 1 (110) an output signal of said sensor control module (300) is transferred to a. Yet EN terminal is in the low level because the gate is formed on a AAD1 in, ADD3 and terminal ADD2 is shifted from a predetermined mode to signal high level terminal, '7' channel is selected the number 8 infrared sensor (180) an output signal of said sensor control module (300) is with sounding an alarm to the. 2 also again described surface, said number 1 to number 8 infrared sensor (110 to 180) and the hub (200) by a plurality of signal cable (C1) are connected. I.e., number 1 to number 8 infrared sensor (110) of the light emitting unit number 8 to number 1 (182 to 112) and light receiving part number 8 to number 1 (184 to 114) the, each occupying separate signal cable (C1) by said number 1 to number 8 connector portion (210a to 210h) are connected respectively. Such a signal cable (C1) the, number 1 to number 8 infrared sensor (110 to 180) and the hub (200) outside of the intake passage, and different 800 to 1200 ANGSTROM with its length or of course is arranged differently is also advanced or delayed, respectively, of in hereinafter for the sake of convenience signal cable (C1) may all be the same, length of constitution: a also described. Also said hub (200) and the signal detected by the sensor control module (300) the cable (C2) are connected each other by. I.e., the connector part for hub said number 2 (240) and the connector part for module (310) (C2) cable is. connected to each other with the aid. The connector part for the cable said hub said number 2 (C2) (240) and the connector part for module (310) corresponding to a specification of fins consists of 8 lines. A of the present invention number 1 in the embodiment, one end of which is said hub (200) of number 1 to number 8 connector portion (210a to 210h) the number 1 to number 8 infrared sensor (180 to 110) and each is 1 to 1 and generates a corresponding signal if a predetermined interval on an of light emitted from at least the fuel provided from said number 1 to number 8 infrared sensor (180 to 110) and hub (200) signal cable between the third step is to connect space is secured by separating the rotation is carried out, the amount. And, the control between said sensor control hub and are integrally connected by cable, applying at cable as compared to the conventional secured easily on the space is reduced.. Thus an assembling manager embodiment to work easy work or repairing can be is saved a contact point is turned off. Yet conventional a cable used of light emitted from at least the (signal cable and cable) total length minimum penetration hole while moving up and down. I.e., if said number 1 to number 8 infrared sensor (110 to 180) and the hub (200) (C1) signal cable interconnecting the length of '100 mm' and, said hub (200) and the signal detected by the sensor control module (300) formed between the length of cable (C2) if '400 mm' applier, the length of the signal cable (C1) '3200 mm (100 mm * 8EA * 4 ray)' is, the length of the cable (C2) '3200 mm (400 mm * 1EA * 8 ray) total is' 6400 mm ' cable is data is detected. Then used for automatically guiding telephone and cable total length, i.e. '16000 mm (500 mm * 8EA * 4 ray)' being saving cable 60% than can be viewed. Also said number 1 to number 8 infrared sensor (110 to 180) are due to disorders of if necessary, signals matched '100 mm' work in the cable is realized as a touch screen, embodiment, catalyst and is connected the advantage. Also said hub (200) for said sensor control module (300) than said number 1 to number 8 infrared sensor (110 to 180) closer to placement, signal cable can be reduced than length of (C1) and, thus, due to the head of the vertebral column can be to save. Furthermore, by cable hub 5 having a device of the present invention number 2 in the embodiment by referring to. rapidly and to reduce a memory. 9 a of the present invention number 2 in the embodiment is one or more infrared sensor is applied to is extension structure. for the sake of convenience of infrared sensor 64 is also described the both components. Also number 1 in the embodiment of the present invention number 2 in the embodiment of in the for facilitating of number 1 to number 8 infrared sensor (110 to 180) for one of the configurations, i.e. infrared sensor module being a referred to as time as large as that of to illustrate the. Also refers to surface 5,8 respectively composed of a infrared sensor of number 1 to number 8 infrared sensor module (410h to 410a) top elid processing device is provided with. Said number 1 to number 8 infrared sensor module (410h to 410a) is corresponding 1 to 1 and said number 1 to number 8 infrared sensor module (410h to 410a) output signal transmitted from either thereof when the mobile terminal receives the output signal of the flip-hub number 8 to number 1 and delivering selected (420a to 420h) comprises the rectangular plate like nut 3. Said number 1 to number 8 infrared sensor module (410h to 410a) and number 1 to number 8 hub (420a to 420h) the of the present invention number 1 in the embodiment taught number 1 to number 8 infrared sensor (180 to 110) and hub (200) as described above, has configuration identical to the, a description is dispensed constitution: a. In addition number 1 to number 8 infrared sensor module (410h to 410a) and number 1 to number 8 hub (420a to 420h) each interconnecting the number 1 signal cable (C ') of the present invention number 1 in the embodiment described a plurality of signal cable (C1) equals. Said number 1 to number 8 hub (420a to 420h) mediate the number 1 to number 8 infrared sensor module (410h to 410a) for controlling sensor control module (440) top elid processing device is provided with. Said sensor control module (440) described under the hub an extension (430) of the connector part for hub extension number 2 (438) and a signal for transmission and reception module the connector part for (442) comprises the rectangular plate like nut 3. The connector part for said module (442) extended hub the connector part for the number 2 (438) consists of by the pins 16 is arranged. The connector part for said module (442) of fins as the specification under time as large as that of to illustrate the wheel driving shaft maintain an. The connector part for said module (442) number 8 to number 1 being transmitted through the infrared sensor module (410h to 410a) and transferred in dependence on an output signal of a control unit the current position of the from the note transportation path (444) comprises the rectangular plate like nut 3. Said control unit (444) the sensor control module (440) overall operation of the to control. And said control unit (444) according to the control of said number 1 to number 8 infrared sensor module (410h to 410a) and number 1 to number 8 hub (420a to 420h) a power supply for supplying power to (446) comprises the rectangular plate like nut 3. Said number 1 to number 8 hub (420a to 420h) and the signal detected by the sensor control module (440) an expansion hub interconnecting (430) comprises the rectangular plate like nut 3. Said extension hub (430) the number 1 to number 8 hub (420a to 420h) are transferred from number 1 to number 8 infrared sensor module (410h to 410a) that are received output signal of the connector part for hub extension number 1 (432) comprises the rectangular plate like nut 3. The connector part for hub extension said number 1 (432) the number 1 to number 8 hub (420a to 420h) and a 1 to 1 is transmitting and receiving corresponding number 8 to number 1 connector portion (432a to 432h) comprises the rectangular plate like nut 3. The, said number 1 to number 8 connector portion (432a to 432h) each consists of by the pins 8 (table 1 reference). Such number 1 to number 8 connector portion (432a to 432h) the, and spaced apart from each other is provided. The connector part for hub extension said number 1 (432) number 8 to number 1 the latter is received through the infrared sensor module (410h to 410a) output for selecting, any one signal of output signals of a multiplexer (MUX) (434) comprises the rectangular plate like nut 3. Said multiplexer (434) the, 8 channel analog hardware in digital, 'TC4051' is used in. And said number 1 to number 8 hub (420a to 420h) a hub selection unit for selecting either a (436) comprises the rectangular plate like nut 3. Said hub selection unit (436) the number 1 to number 8 hub (420a to 420h) that are input to control signal (Address input signal) to each channel by selected to process of '74LS273' consists of to 8. The 8 bit (bit) D flip-flop (flip-flop) said '74LS273' is contained. Said multiplexer (434) and output selected from said output signal/the selected sensor control module (440) applied are transferred to, said sensor control module (440) and using a power source being supplied from said hub selection unit provided, and receives an external clock (436) for delivering the connector part for hub extension number 2 (438) comprises the rectangular plate like nut 3. The connector part for hub extension said number 2 (438) the following sidewalls of the storage space 'table 2' and a equal. The connector part for hub extension said number 2 (438) of fins as the specification, the connector part for hub taught number 1 in the embodiment number 2 (240) equals a specification of fins. Just, said hub selection unit (436), i.e. 8 of either '74LS273' for selecting one of the 'Hub SEL' terminal is further consists of pin 8. I.e., the connector part for hub extension said number 2 (438) the 16. in a pin. With reference to, said number 2 in the embodiment in hub extension (430) is provided on one but is described, said extension hub set of two request group infrared sensor (430) can be has a plurality. In other words, , said extension hub (430) is the both components' n ',' 64 * n ' infrared sensor of., which can be United. Well as, said extension hub (430) when said number 1 to number 8 the plurality having hub (420a to 420h) further comprises further corresponding in addition should be the row of the.. Said number 1 to number 8 hub (420a to 420h) and said extension hub (430) module is installed under the number 2 are connected by signal cable (C3). I.e., number 1 to number 8 hub (420a to 420h) by the number 2 signal cable (C3) said hub extension (430) of number 1 to number 8 connector portion (432a to 432h). to this end respectively. Also said extension hub (430) and the signal detected by the sensor control module (440) module is installed under the cable (C4) are connected by. I.e., the connector part for hub said number 2 (438) and the connector part for module (442) (C4) cable is. connected to each other with the aid. The connector part for the cable said hub said number 2 (C4) (438) and the connector part for module (442) corresponding to a specification of fins consists of 16 lines. A, one end of which is of the present invention number 2 in the embodiment, which is intended to be contrast and cable (cable and signal cable number 2 and number 1) total length minimum penetration hole while moving up and down. For example, length of said number 1 signal cable (C ')' 100 mm 'in the vertical direction is the same with, said number 2 signal cable length of (C3) in the vertical direction is the same with' 100 mm ',' 300 mm ' length of said cable (C4) if applier, the length of the number 1 signal cable (C ')' 25600 mm (100 mm * 64EA * 4 ray)' is, the length of the signal cable (C3) said number 2 '6400 mm (100 mm * 8EA * 8 ray)' is, the length of the cable (C4) '4800 mm (300 mm * 1EA 16 ray)' is. Therefore, number 1 and number 2 signal cable (C ') (C3) (C4) total' 36800 mm ' cable and is a rotating drum to. If 64 on the base and rotated by a conventional infrared sensors of if connection configuration signal cables, cable on a '128000 (500 mm * 64EA * 4 ray) mm' is is used. Therefore, of the present invention number 2 in the embodiment and employing expanding structure by, used on a of a cable of light emitted from at least the conventional approximately 70% or more 2001 can be. The resulting structured materials, in the embodiment of the present invention in an illustrative embodiment, is formed integrally with the screw and described by reference to an, an exemplary is which the persons can just those, of the present invention with knowledge of in the field of the subject matter of invention the present grow without 210 and range various modifications, change and equalization are examples scalable such that for other embodiment it is apparent that is can understand. Thus the scope of protection of the present invention using the scheme of true is filamentous of the claimed range is decided by the will should be. Figure 1 shows a plurality of the sensors and sensor control wool rate also a plurality of cable connected by configured block material and static. Also Figure 2 shows a hub cable by configured blocks of device of the present invention number 1 in the embodiment. Figure 3 shows a in Figure 2 also account for a multiplexer described block configured. Input/output of a multiplexer Figure 4 shows a table to explain the settling of Figure 3. Figure 5 shows a device also by configured blocks of cable hub of the present invention number 2 in the embodiment. * Description of the sign for major part * of the drawings 110 to 180: infrared sensor 112 to 181: light emitting unit 114 to 184: light receiving part 200: hub The connector part for hub 210: number 1 220: multiplexer (MUX) 230: resistance part 240: the connector part for hub number 2 C1: signal cable 300: sensor control module 310: module 320 the connector part for: control unit 330: power supply unit C2: cable PURPOSE: A hub apparatus for a cable is provided to enable the connection of one control cable between a hub and a sensor control module by connecting plural signal cables between the sensors and the hug. CONSTITUTION: A control module(300) controls devices(110-180), and a hug(200) is installed between devices and the control module. At the hug, installed are plural first connector units(210) for signal processing with devices and plural second connector unit(240) for signal processing with the control module. Plural signal cables(C1) connects the devices with the first connector units. A control cable connects the control module and the second connector unit. Plurality of devices; Said controlling the control module; Said devices and the control module is rotated by, said for processing a signal outputted from the devices of the plurality of devices and and is connected with the plurality of connector including said number 1 connector unit number 1 connector portion of each signal the received plurality of connector from said number 2 for signal processing with control module having a connector hub; Said devices and number 1 the connector parts together; and a plurality of signal cable; and Number 2 the connector parts together; said control module; electrical conductors connected to cable one includes, Said number 2 connector edge ring is used the output signal the received device to the a multiplexer for selecting either a includes, said multiplexer output signal of the flip-is safe to skin without any side said said one control through a cable a cable hub to said device. According to Claim 1, said hub, Number 2 connector portion to said control module from the supply, said devices to a power supply being supply said stably supplied at resistance part to; a processes is simplified and further characterized by cable hub device. According to Claim 1, said control module, Said number 2 the connector part for a module to be corresponding connector unit; Said connector for module received through the interface unit for signal processing of the output signal device said a control unit; and Said according to the control of the controller said devices and a power supply for supplying power to hub; characterized by a processes is simplified and includes cable hub device. According to Claim 2 or Claim 3, Said number 2 connector unit, said hub to feed power to and a terminal for, said hub for and a terminal for power ground (Ground), said control module output signal of said devices for delivery and a terminal for, multiplexer to operating signal (enable signal) for delivering and a terminal for, said by a multiplexer said devices any one signal of output signals of control signal to multiplexer said is going to be selected for delivering (Address signal) and a plurality of terminals, said devices for applying power to a processes is simplified and terminals characterized by cable hub device. According to one of Claim 1 to Claim 3, To reduce said signal cable length of said control module and said hub said devices involve installing a device characterized by cable hub. Number 1 anti to number 3 anti either device hub cable terms further including financial device.
