DE10024801A1 - Connector detection system and method - Google Patents

Abstract

A connector system has a flexible circuit with connections with a first and a second outermost connection. Conductors are positioned on the flexible circuit. Each of the conductors is connected to a different one of the connections. One of the conductors is connected to the flexible circuit and is positioned along the edge of the flexible circuit. The border conductor is also connected to the first and second outermost terminals. A connector is included and has contacts. The connector is adapted to receive the flexible circuit such that the connectors on the flexible circuit are electrically connected to the contacts on the connector. A detection circuit is provided and is electrically connected to the contacts on the connector. The detection circuit can determine separation of one of the conductors.

Description

The present invention relates to electrical com component connectors and in particular electrical connectors with a detection circuit that determines whether a conn with the connector contacts and a circuit board has been manufactured.

In electrical systems and computer systems, Ver binder used various electrical components, such as B. circuit boards, peripherals, etc., elek to connect trically. Typically with a scarf arrangement the connections are connected with connectors, which are formed on the surface of the circuit arrangement are. These connections can be adapted to one external connector that has contacts that match the Correspond to connections on the circuit arrangement. Additional Lich the connector can be adapted to the circuit order, such as B. a flexible circuit, border and to record. The connector and circuitry are typically via a pressure adjustment insertion connection connected. In this regard, the contacts are on the connector adjusted to match the connections on the circuitry an electrical contact via a mechanical insert with little margin that uses pressure to create the electrical contact between the connections and the Allow contacts. The connector can also be a have mechanical locking device that the scarf detachably absorbing arrangement, edging and the same Stops in place to keep the electrical To support contact.

In electrical systems and computer systems is for one correct functioning and correct functioning of the Systems the electrical connection between the connections  the circuit arrangement and the contacts of the connector required. The circuit arrangement is typically shown in inserted the connector or vice versa. Sometimes connects the insertion process does not include all of the contacts in the connector with all connections to the circuit arrangement correct together. In some cases there is a visual check fung of the circuit arrangement and the connector that the An conclusions seem to be correctly connected to the contacts whereas they are not the same in reality. If the visual inspection is insufficient, and the connections the circuit arrangement not with the contacts of the connec are connected, the circuit arrangement and electrical system or the computer system is not correct Act. Hence there is a need for a verb the system that is able to determine whether the scarf arrangement has been correctly inserted into the connector is such that all connections of the circuit arrangement with all contacts of the connector are connected.

Typically, the connections are on the circuitry connected to conductors on the surface of the Circuit arrangement are formed. In some cases points the circuit board on a flexible circuit that can be curved or bent during operation. This bending and bending can cause the flexible Circuit itself breaks or tears. Typically kick these breaks and cracks in the flexible circuit on the Edge or along the edge and work their way up Way into the flexible circuit. As soon as the breaks and cracks Lei ter are interrupted, resulting in an idle. Broken conductors can cause the flexible Circuit and the electrical system / the computer system work incorrectly or malfunction. It exists hence a need for determining if one Break or a crack in the circuit arrangement and / or the flexible circuit occurs before the break or crack an incorrect functioning or a malfunction in the  Operation of the system causes.

In addition, wear can also interrupt the Effect conductor on the circuit arrangement. A component For example, repeated contact with the Establish circuitry and consequently cause the protective coating and finally the conductor worn out or be removed from the circuit arrangement. A sol Wear can cause a break in the conductor and create an idle. These interruptions in the Conductors cause the circuit board and the elec system / the computer system is working incorrectly or Malfunction. There is therefore a need ability to determine if the ladder due to Wear are interrupted, which creates an idle.

In addition, when electrical systems and computer systems If it malfunctions, troubleshooting is necessary. Due to the complexity of these electrical systems and Troubleshooting computer systems is difficult and time consuming agile. With these systems, a quick disconnect and Identification of a faulty component required. In particular, a diagnostic procedure should identify whether the connection between the connector and the circuit order is the faulty component. Hence there is a need for a diagnostic procedure that is quick and explicitly identify a faulty component in the system tified and a replacement or repair of this compo enabled.

The object of the present invention is a Connector system and a method of connecting a ver to create binders with a flexible circuit so that the use of the connected components becomes less complex.

This object is achieved by a connector system according to claim 1 or 8 and a method according to claim 16 solved.  

The present invention provides a connector system that can determine if a circuit arrangement in a ver binder has been inserted correctly so that all connections on a circuit arrangement with an electrical contact make all contacts on the connector. The present The invention also provides a connector system that determine can if breaks and cracks in the circuit arrangement on occur, in particular it is determined if cracks and Breaks along the edge of the circuit arrangement to step. In addition, the present invention provides Connector system that can determine if some of the conn who have been worn out on the circuit arrangement what generates an interruption or an idle. In addition The present invention provides a diagnostic method that identify a faulty component quickly and explicitly adorns and a replacement and / or repair of the faulty Circuit component allows.

The present invention relates to a connector system which is a flexible circuit with a plurality of Connections with a first and a second outermost Has connection. The flexible circuit also has a Plurality of conductors connected to the flexible circuit are positioned. Each of the plurality of leaders is with a different connection of the plurality of connections connected. A border ladder is also with the flexible circuit connected and along a border the flexible circuit positioned. The border manager is connected to the first and second outermost terminals.

The connector system of the present invention further features a connector with a plurality of contacts. The Connector is adapted to the flexible circuit like this record that the connectors on the flexible circuit make electrical contact with the connector. In which Connector system is also a detection circuit in front seen. The detection circuit is connected to at least one of the Contacts on the connector are electrically connected, the  Detection circuit determines if at least one of the Multiple conductors disconnect.

According to one aspect of the present invention, the Separation of at least one of the leaders if at least one of the plurality of connectors on the flexible scarf device of at least one of the contacts on the connector elek is trically separated. According to another aspect of the above lying invention shows the separation of one of the conductors a crack in the flexible circuit that a sub refraction in the border conductor causes. According to one more Another aspect of the present invention shows the doors One of the conductors becomes worn, which is a sub refraction in the border conductor causes. With an out exemplary embodiment, the detection circuit has a Mas se connection that ver with the second outermost connector is bound, and a register circuit on the one Resistance and a power source that acts as a Input are connected to a register. The registers circuit is connected to the first outermost connector.

Preferred embodiments of the present invention are referred to below with reference to the attached drawing nations explained in more detail. Show it:

Fig. 1 is a perspective view of a circuit board and a connector of the connector system of the present invention;

Figure 2 is a top view of a circuit board used in the connector system of the present invention;

Fig. 3 is a partial sectional view of the connector and a top view of a portion of the circuit board;

Fig. 4 is a schematic view of the detection circuit of the present invention; and

Fig. 5 is a flowchart according to an embodiment of a method for connecting a connector to a circuit board.

As shown in FIG. 1, an exemplary embodiment of a very simplified connector system 100 of the present invention has a circuit arrangement 120 and a connector 140 . The circuit arrangement 120 has components 130 which perform various functions when the circuit arrangement 120 is correctly inserted into the connector 140 and an electrical contact is established. Connector 140 is included on circuit board 150 , which further includes sensing circuit 310 ( FIG. 3). It is pointed out that, although the present invention is described and illustrated with regard to a circuit arrangement 120 , a circuit board 150 and a connector 140 , the present invention should not be limited to such. Rather, the circuit arrangement 120 may include several embodiments, such as. B. a flexible circuit, a cable or a circuit board, but is not limited to the same. In this regard, the present invention should be constructed to include any connection between a computer or an electrical component, such as. B. a first circuit board, which is connected to a second circuit board via a direct connection. In addition, in a further embodiment, the connection may be made using a cable type connector, e.g. B. by a ribbon cable connector, but is not limited to the same. The present disclosure should not be construed to limit the present invention to only the disclosed embodiments, but rather the present invention should include any connection between electrical components via an electrical connector.

In the connector system 100 of the present invention, the connector 140 has a plurality of contacts 340 ( FIG. 3). Detection circuit 310 ( FIG. 3) determines whether the at least two terminals of terminals 240 ( FIG. 2) are correctly connected to contacts 340 ( FIG. 3). In a further exemplary embodiment, the detection circuit 310 ( FIG. 3) determines the occurrence of a break or crack in the circuit arrangement 120 , which interrupts at least one of the conductors 222 in the circuit arrangement 120 . In yet another embodiment, the detection circuit 310 ( FIG. 3) determines wear of the conductor 222 , which causes an interruption in at least one of the conductors 222 . An open circuit in conductor 222 creates an open circuit in circuitry 120 , causing components 130 and / or circuitry 120 to operate improperly or malfunction.

The connector system 100 in FIG. 1 has a circuit arrangement 120 with electrical components 130 which are connected to the circuit arrangement 120 . As shown in FIG. 2, the circuit arrangement 120 has conductors 222 which are electrically connected to the components 130 . Conductors 222 are formed on circuitry 120 using techniques known in the art. As described above, the present invention will be described with reference to circuitry 120 and connector 140 for ease of illustration. However, the present invention should not be limited to the type or number of connectors 222 shown on circuitry 120 . In addition, the present invention should not be limited to conductors 222 formed on circuitry 120 . In another embodiment, the conductors 222 may include individual wires in a cable-type connector, such as. B. a ribbon cable connector, but are not limited to the same.

The conductors 222 are connected to terminals 240 which are used to provide a connection area for the connector 140 . The terminals 240 have a first outermost terminal 242 and a second outermost terminal 244 , which are positioned at the outermost ends of the terminals 240 on the circuit arrangement 120 . The first and second outermost terminals 242 and 244 are connected to a border conductor 220 which runs along the entire length of the border of the circuit arrangement 120 . In this exemplary embodiment, the border conductor 220 is specifically produced as part of the connector system 100 , the border conductor 220 not being connected to any component 130 on the circuit arrangement 120 . In another embodiment, in which the conductors 222 are individual wires in a cable, the border conductor 220 may have a conductor that is the outermost conductor of all the individual conductors in the cable. In yet another embodiment, such as. B. a cable type connector, the edge conductor 220 may connect the first and second outermost terminals 242 and 244 via a wire looped around the connector 140 and is not part of the bundle of individual wire conductors. It is also noted that the present invention should not be limited to a conductor 220 positioned on the border of circuitry 120 . The present invention should be interpreted to include the use of any conductor 222 on the circuitry 120 . In addition, the border conductor 220 or any conductor 22 used in the present invention should not be limited to connection to the first and second outermost terminals 242 and 244 . The conductors 222 used in the present invention may, for example, be connected to any connection 240 on the circuitry 120 .

As shown in FIG. 3, the terminals 240 of the circuit arrangement 120 are used to be connected to the contacts 340 in the connector 140 . The connector is provided on the circuit board 150 . The circuit board 150 has individual wires 450 ( FIG. 4) which are connected to the contacts 340 in the connector 140 . In one embodiment, the connector 140 is connected to the circuitry 120 via a press-fit connection. To achieve a press-fit connection, the connector 140 and circuitry 120 are designed to have small margins to allow a tight fit. In addition, a mechanical Einrastvorrich device (not shown) may be connected to the connector 140 or the sound processing arrangement 120 to the voltage Schaltungsanord enclose in the connector 140 and 120 to hold, to assist in maintaining the electrical connection.

As shown in FIG. 4, some of the wires 450 on the circuit board 150 of the connector 140 are connected to a detection circuit 310 . When connecting the circuit arrangement 120 to the connector 140 , the detection circuit 310 is connected to the first and second outermost terminals 242 and 244 . As described hereinabove, the first and second outermost terminals 242 and 244 are connected to the edge conductor 220 . Consequently, the detection circuit 310 is connected to the border conductor 220 . In a preferred embodiment, the sensing circuit 310 is connected to the first and second outermost wires 452 and 454 on the circuit board 150 which are connected to the first and second outermost terminals 242 and 244 when the circuitry 120 with the connector 140 is correct connected is. When the circuit 120 is binder correctly connected to the Ver 140, the detection scarf is tung 310 via suitable wires 452 and 454 in the circuit board 150 which is attached to the connector 140 electrically connected to the first and the second outermost terminal 242 and 244 connected. It should be noted that the wires 450 on the circuit board 150 may have, for example, conductors that are attached to the circuit board 150 in a conventional technique known in the art.

Detection circuit 310 determines when at least one of conductors 222 has been disconnected. In the present invention, the separation of a conductor 222 is further defined as an open circuit in the conductor 222 . The separation of a conductor 222 can indicate when the terminals 240 of the circuit arrangement 120 are not correctly connected to the contacts 340 in the connector of FIG. 140 . In addition, disconnection of conductor 222 may indicate when a break or tear in circuitry 120 has caused conductor 222 to break. Disconnection in conductor 222 may also indicate wear in circuitry 120 that has caused an open in conductor 222 . An open circuit in conductor 222 creates an open circuit that causes circuitry 120 and components 130 to malfunction or operate incorrectly. It is noted that the detection circuit 310 may be connected to the connector 140 as shown in FIGS. 3 and 4. However, the embodiment shown in FIGS. 3 and 4 is only an embodiment of the present invention. For example, the sensing circuit 310 may be part of the circuitry 120 , or the sensing circuit 310 may be connected to the circuitry 120 via a device other than the connector 140 .

In one embodiment, sensing circuit 310 in FIG. 4 includes register circuit 312 connected to first outermost wire 452 and first outermost terminal 242 via circuit board 150 attached to connector 140 . The second outermost wire 454 and the second outermost terminal 244 are connected to a ground connection 414 via the circuit board 150 attached to the connector 140 . The register circuit 312 has a switched with a resistor 312 in series with power source 410, the power source 410 and the resistor 412 are connected as an input to a register 416th A node 418 is connected to the register 416 . Node 418 may be connected to a computer (not shown) or any other external device (not shown). It is noted that node 418 may be connected to any type of device that indicates the operation of sensing circuit 310 , and the present invention should not be limited only to those devices disclosed herein.

By connecting the detection circuit 310 to the first and second outermost terminals 242 and 244 , the detection circuit 310 can determine whether at least two of the terminals 240 on the circuit arrangement 120 are in electrical contact with at least one of the contacts 340 of the connector 140 . This detection is performed by determining a separation of one of the conductors 222 . As mentioned above, the separation of one of the conductors 222 is further defined as an open circuit in the conductor 222 . In this regard, the detection circuit 310 determines the continuity of the boundary conductor 220 when the first and second outermost terminals 242 and 244 are connected to the first and second outermost wires 452 and 454 of the circuit board 150 via the contacts 340 in the connector 140 are. When the first and second outermost terminals 242 and 244 are not connected to the first and second outermost wires 452 and 454 , an open circuit occurs in the edge conductor 220 . Detection circuit 310 determines when idle or disconnect occurs on border conductor 220 . In addition, by using the first and second extreme terminals 242 and 244, the determination that these two extreme terminals 242 and 244 are properly connected is a good indication that each contact 340 is correctly connected to a different one of the terminals 240 , because contacts 340 and terminals 240 are equidistantly spaced to ensure correct contact.

To determine this correct connection of Schaltungsan order 120 to the connector 140 determines the detection circuit 310 when the circuit arrangement has been inserted in the Ver binder 140 120, and when the first and the second outermost wire 452 and 454 processing with the detection shawl 310 is connected are. In this regard, if the first and the second outermost terminal 242 and 244 with the sungsschaltung Erfas 310 are connected correctly, the other connections to 240 with all of the contacts 340 of the connector 140 kor rectly connected. It should be noted that the connection of the first and second outermost terminals 242 and 244 to the edge conductor 220 is only one example. For other connectors 140 , the present invention can use any conductor 222 to determine the connection of all terminals 240 to all contacts 340 of connector 140 . A conductor 222 can, for example, be positioned in the middle of the circuit arrangement 120 and connected to connections 240 in the central region of the plurality of connections 240 on the circuit arrangement 120 . Such a configuration can, for example, with egg nem cable connector such. B., but not exclusively, a ribbon cable connector, but is not limited to such.

In another embodiment, when a break or crack occurs in circuitry 120 and causes an open circuit in edge conductor 220 , detection circuit 310 may determine disconnection or open circuit in edge conductor 220 . These breaks or cracks typically occur when the circuit arrangement 120 has a flexible circuit. In this regard, a flexible circuit is inherently flexible, and due to this flexibility, cracks and breaks occur in the flexible substrate along the outer edges of the flexible circuit. Thus, in one embodiment of the present invention, border conductor 220 is placed along the border or edge of circuitry 120 to detect the occurrence of these breaks.

The detection circuit 310 of the present invention determines when the border conductor 220 is broken due to cracks and breaks in the circuitry 120 . An open circuit in the edge conductor 220 creates an open circuit or disconnection. Detection circuit 310 is designed to indicate when an idle occurs on edge conductor 220 . The interruption of the border conductor 220 provides an early indication that there is a break or a crack in the circuit arrangement 120 before the break / crack penetrates further into the circuit arrangement 120 and interrupts other conductors 220 on the circuit arrangement 120 , which leads to incorrect operation and / or can cause a malfunction in the circuit arrangement 120 or the components 130 . Consequently, should 310 determines that in the border conductors 220 an interrupt has occurred, the Schaltungsan order to be substituted when the 120 Erfas sungsschaltung.

It is pointed out that the circuit arrangement 120 should not be limited to a flexible circuit. In addition, it is noted that the detection circuit 310 should not be limited to only using the edge conductor 220 to determine if a break or crack occurs in the circuitry 120 .

In another embodiment, when wear causes an interruption in the edge conductor 220 , the sensing circuit 310 can sense the same. Such wear is caused by constant rubbing or contact between circuitry 120 and components 130 or other devices (not shown) in the electronic or computer system. This permanent contact causes the circuit arrangement 120 to wear out. From use, the protective coating on the circuit arrangement 120 and the material that forms the conductor 222 can be removed.

In one embodiment, circuitry 120 includes a flexible circuit that is continuously moved during operation. This continued movement can cause wear on the conductors 222 . Once the wear interrupts the border conductor 220 and creates an idle, the detection circuit 310 can identify the idle. Thus, if detection circuit 310 identifies idle, circuitry 120 should be replaced. It should be noted that the detection of the wear of the conductor 222 is not limited to flexible circuits. It should be noted that the detection of wear is not limited to the interruption of the border conductor 220 . Rather, it is noted that each conductor 222 can be used to provide an input to the detection circuit 310 to indicate wear that breaks a conductor 222 .

As previously explained, the operation of the detection circuit 310 uses the non-separation of the border conductor 220 to maintain the state of the register 416 . Register 416 has two states and is initially set to a first state. In this regard, if the border conductor 220 does not have an open circuit caused by an interruption, as explained above, the current for the power supply 410 is through the resistor 412 and through the first outermost wire 452 and the first outermost terminal 242 and then flow the edge conductor 220 , whereupon the current flows through the second outermost terminal 244 and the second outermost wire 454 to the ground connection 414 . As a result, the state of register 416 will not be changed.

However, if an interruption occurs in the border conductor 220, the voltage from the power supply 416 is provided through resistor 412 to the register 416, the register 416 will switch to a second state. This change of state of the register 416 may th on a bone 418 are detected, and by a device (not shown ge) which is connected to the node 418, the state of the register 416 a user can be displayed. The user can troubleshoot the computer or electrical system by examining node 418 to determine that circuitry 120 has caused register 416 to change states. This troubleshooting can lead to corrective actions to reduce any problems, such as: B. He set the circuit arrangement 120th

It is pointed out that the detection circuit 310 can be connected to more than one conductor 222 in the circuit arrangement 120 in order to allow additional determinations of problems which occur in the circuit arrangement 120 . In addition, it should be noted that a plurality of detection circuits 310 may be individually connected to a plurality of conductors 222 in order to determine corresponding problems. A conductor 222 may, for example, be connected to a detection circuit 310 in order to indicate an interruption or a different cause of a separation of a conductor 222 in a circuit arrangement 120 . Accordingly, in these exemplary embodiments, the detection circuit 310 can inform a user of either an interruption or a disconnection of a conductor 222 .

As shown in FIG. 5, the method of connecting a connector 140 to circuitry 120 includes contacting circuit board terminals 240 with contacts 340 of connector 140 (step 510 ). A detection circuit 310 on a circuit board 150 is connected to the contacts 340 of the connector 140 (step 520 ). Detection circuit 310 is connected via contacts 340 in connector 140 to first and second outermost terminals 242 and 244 of terminals 240 and first and second outermost wires 452 and 454 on circuit board 150 . The detection circuit 310 determines a disconnection from at least one of the conductors 222 in the circuit arrangement 120 (step 530 ). In one embodiment, at least one conductor 222 has the edge conductor 220 . However, it should be understood that the present invention includes the use of any conductor 222 on circuitry 120 .

In one embodiment, the disconnection of at least one of the conductors 222 may indicate disconnection or incorrect insertion of the circuitry 120 into the connector 140 so that the terminals 240 are not properly connected to the contacts 340 of the connector 140 (step 532 ). In another embodiment, the separation of at least one conductor 222 may indicate a crack or break in circuitry 120 that causes an open in conductor 222 (step 534 ). In yet another exemplary embodiment, the separation of at least one of the conductors 222 can indicate wear of the conductors 222 in the circuit arrangement 120 , which causes an interruption in the conductor 222 (step 536 ). As described above, may be the incorrect Ver connection of the terminals 240 of the circuit arrangement 120 and the contacts 340 of the connector 140 and / or a processing arrangement Under refraction of a conductor 222 an incorrect operation of the circuit arrangement 120 or a malfunction of the scarf 120 or the components 130 effect on the circuit arrangement 120 . In addition, it should be noted that the present invention should not be limited to the embodiment disclosed herein. Much more, the circuit arrangement 120 may include several execution examples, such as. B., but not exclusively, a flexible circuit, a cable or a circuit board. In this regard, the present invention should be construed to include any connection between a computer and an electrical component, such as a first circuit board that mates with a second circuit board using a cable type connector, such as a cable. B., but not exclusively, a ribbon cable. The present disclosure should be construed to include any connection between electrical components via an electrical connector or via a direct connection, such as e.g. B. a first circuit board that is directly connected to a second circuit board.

Claims (20)

1. Connector system ( 100 ) with
a flexible circuit ( 120 ) with
a plurality of ports ( 240 ); and
a plurality of conductors ( 222 ) positioned on the flexible circuit ( 120 ), each of the plurality of conductors ( 222 ) being connected to a different one of the plurality of connections ( 240 );
a connector ( 140 ) having a plurality of contacts ( 340 ), the connector ( 140 ) being adapted to receive the flexible circuit ( 120 ) such that the plurality of terminals ( 240 ) on the flexible circuit device ( 120 ) A plurality of contacts ( 340 ) on the connector ( 140 ) are electrically contacted; and
a detection circuit (310) connected to at least ei nem the plurality of contacts (340) to the connector (140) is electrically connected, wherein the detection circuit (310) of the determined at least one separation one of the plurality of conductors (222). 2. Connector system according to claim 1, wherein the detection circuit ( 310 ) has the following features:
a ground connection ( 414 ) connected to the second outermost terminal ( 244 ); and
a register circuit (312) comprising a resistor (412) and a power source (410) as an input to a register (416), said register circuit (312) connected to the first outermost terminal (242). 3. Connector system according to claim 1 or 2, wherein the separation of the at least one of the plurality of conductors ( 222 ) indicates when at least one of the plurality of connections ( 240 ) on the flexible circuit ( 120 ) of at least one of the plurality of contacts ( 340 ) on the connector ( 140 ) is electrically isolated. 4. Connector system according to one of the preceding claims, in which the plurality of connections ( 240 ) has a first and a second outermost connection ( 242 , 244 ), and at least one of the plurality of conductors ( 222 ) has a border conductor ( 220 ) connected to the flexible circuit ( 120 ) and positioned along a border of the flexible circuit ( 120 ), the border conductor ( 220 ) being connected to the first and second outermost terminals ( 242 , 244 ), the separation of the at least one of the plurality of conductors ( 222 ) indicates a crack in the flexible circuit ( 120 ) that causes an open in the at least one of the plurality of conductors ( 222 ). 5. Connector system according to one of claims 1 to 5, wherein the plurality of connections ( 240 ) has a first and a second outermost connection ( 242 , 244 ), and at least one of the plurality of conductors ( 222 ) a border conductor ( 220 ) which is connected to the flexible circuit ( 120 ) and positioned along a border of the flexible circuit ( 120 ), the border conductor ( 220 ) being connected to the first and second outermost terminals ( 242 , 244 ), the separation of the at least one of the plurality of conductors ( 222 ) indicates wear of the border conductor ( 220 ), which causes an interruption in the border conductor ( 220 ). 6. Connector system according to one of the preceding claims, in which the connector ( 140 ) has a Kabelver connector. 7. Connector system according to one of claims 1 to 5, wherein the connector ( 140 ) comprises a ribbon cable connector. 8. Connector system with
a plurality of ports ( 240 );
a plurality of conductors ( 222 ) connected to the terminals ( 240 );
a connector (140) having a plurality of contacts (340), said connector sen the plurality of connec (240) receives such a manner that the plurality of circuits at (240) the plurality of contacts contact (340) electrically; and
a detection circuit (310) which is electrically connected to the connector (140), wherein the detection circuit (310) a separation of at least one of the plurality of conductors is determined (222). 9. The connector system of claim 8, wherein the separation of the at least one of the plurality of conductors ( 222 ) indicates a separation of at least one of the plurality of connections ( 240 ) from at least one of the plurality of contacts ( 340 ). 10. The connector system of claim 8 or 9, wherein the plurality of terminals ( 240 ) and the plurality of conductors ( 222 ) are positioned on a flexible circuit ( 120 ). 11. The connector system of claim 10, wherein the separation of at least one of the plurality of conductors ( 222 ) indicates a crack in the flexible circuit ( 120 ) indicating an open in the at least one of the plurality of conductors ( 222 ) on the flexible circuit ( 120 ) causes. 12. The connector system of claim 10 or 11, wherein the separation of at least one of the plurality of conductors ( 222 ) indicates wear of the flexible circuit ( 120 ) indicating an open circuit in the at least one of the plurality of conductors ( 222 ) on the flexible circuit ( 120 ) causes. 13. A connector system according to any one of claims 8 to 12, wherein the connector ( 140 ) is a cable conductor. 14. A connector system according to any one of claims 8 to 12, wherein the connector ( 140 ) is a ribbon cable connector. 15. The connector system according to one of claims 8 to 14, wherein the at least one of the plurality of conductors ( 222 ) is positioned electrically along a border of the plurality of conductors ( 222 ). 16. A method for connecting a connector (140) having a plurality of contacts (340) having a plurality of conductors (222) with a flexible circuit (120), wherein the flexible TIC (120) having a plurality is connected by connections ( 240 ), the method comprising the following steps:
electrically contacting a plurality of contacts ( 340 ) on the connector ( 140 ) with the plurality of connections ( 240 ) on the flexible circuit ( 120 ), where the plurality of connections ( 240 ) are connected to a plurality of conductors ( 222 ) is;
electrically contacting a detection circuit ( 310 ) with the contacts ( 340 ) of the connector ( 140 ); and
Determining a disconnection of at least one of the conductors ( 222 ) by the detection circuit ( 310 ). 17. The method of claim 16, wherein the separation of the at least one of the conductors ( 222 ) indicates when at least one of the plurality of contacts ( 340 ) is electrically separated from at least one of the plurality of connections ( 240 ). 18. The method according to claim 16 or 17, further comprising the following steps:
Positioning the at least one of the plurality of conductors (222) along a border of the flexible circuit (120), wherein the separation of at least ei of the conductors (222) NEN a crack in the flexible TIC (120) determines that an interruption in the causes at least one of the conductors ( 222 ) positioned along the edge of the flexible circuit ( 120 ). 19. The method according to any one of claims 16 to 18, wherein the separation of the at least one of the conductors ( 222 ) indicates a crack in the flexible circuit ( 120 ) that indicates an interruption in the at least one conductor ( 222 ) on the flexible circuit ( 120 ) causes. 20. The method according to any one of claims 16 to 19, wherein the separation of at least one of the conductors (222) of the at least shows a wear of one of the conductors (222), which causes at least an interruption in the one of the conductors (222).