DE102007011815A1 - Electronic switching system for feed through of automatic test series, has electrical connected switch, and switching position of switch is represented by indicating device - Google Patents

Abstract

The electronic switching system has an electrical connected switch. The switching position of the switch is represented by an indicating device (111,121,131,141,151,161). The indicating device is formed and the switching position of different kinds of switch is represented differently. The represented kinds of switch contains rotary switches (101,102,103,104), transfer switch (106) and change over switch (105).

Description

The The invention relates to a switching system for carrying out automated metrological test series with one or more electrically switched Switches and display devices.

The general state of the art here z. B. on the utility model DE 90 12 480 U1 directed. In this an electrical circuit arrangement is described, which serves to control large numbers of electrical loads in buildings. The switching position of the individual on / off switches is displayed at a central point by means of LEDs.

So far it was common in automated test equipment to control the switches electrically and no form of feedback regarding the current switch position receive. In this arrangement, in case of error for diagnosis or for test program creation, the switch position based on the the switch connections are running signals with large Expenses determined.

Of the Invention is the object of an electronic switching system to carry out automated metrological test series with electrically switchable switches that provide a direct readability the switch positions without great technical effort allows.

The The object is solved by the features of claim 1. The subclaims relate to advantageous developments the invention.

Of the Invention is based on the concept in switching systems for implementation automated test series with electrically switched switches visually represent the switching position of each switch. By the arrangement of display devices will be the switching position of the respective switch shown. Depending on the switch type used, the display is made on different Wise.

provides For the type of switch an intuitively detectable graphical Representation of the switch connections and the Switching state, such a representation is preferably used. Is such a representation due to the complicated geometry of Switch connections or other reasons not possible the shift position is preferably expressed numerically. So offers itself for change and transfer switch a graphical representation of the switch terminals and switch positions easily. The switching position of rotary switches especially for rotary switches with many poles by a graphic Icon not shown on a spatially limited display become. Thus, a numerical symbol is preferred instead Coding of the respective switching state selected. there the display is preferably carried out on a universal pixel matrix, which z. B. may be formed as LCD or LED display. The Display is controlled by a control device, which with a nonvolatile memory.

Next the switching states can on the display devices Status information, such as the remaining life of the switch and potential Error states are displayed. These data are from the control device detected and as necessary in the memory filed or read from this.

The Control of the switch is preferably via a on a bus system accessing interface. One over the bus system sent signal is interpreted by the interface and into a Switch position implemented. The interface controls the switches by direct loading of the switches with control signals. The Control device is also with the interface and thus with the bus system in connection. Each switching change is performed by the control device captured and stored in the memory. Upon reaching various thresholds the number of cycles in relation to the total lifetime the switch becomes a specific symbol on the display devices output. In addition, a representation of directly above the Bus transmitted symbols on the display devices possible. In this way, error conditions can be different Components are displayed. This training allows the simple reading of the switching position of the switches and mediates additional status information such as the remaining life remaining and error messages. This can cause costly outages avoided and repairs are simplified. The requirements for the knowledge of the operating personnel by the inventive Switching system reduced.

embodiments The invention will be described in more detail below with reference to the drawings described. In the drawing show:

1 in an embodiment of a switching system according to the invention with an arrangement of several switches in one device;

2 an exemplary construction of a plug-in card of the embodiment of the inventive switching system;

3 an exemplary, non-driven display device in LED construction;

4 an exemplary, for illustration ei a numerical symbol driven display device in LED construction;

5 an exemplary, driven to display a first graphical symbol display device in LED construction;

6 an exemplary, driven to display a second graphical symbol LED display device;

7 an exemplary, driven to display a third graphical symbol display device in LED construction;

8th an exemplary, driven to display a fourth graphical symbol LED display device;

9 an exemplary, driven to display a numerical symbol LED display device;

10 an exemplary, driven to display a plurality of numerical symbols display device in LED construction and

11 an exemplary, driven to display a numeric symbol display device in LCD design.

First, the structure and operation of the inventive switching system based on the 1 and 2 described before using the 3 to 11 possible symbol representations are explained. Identical elements have not been repeatedly shown and described in similar figures.

1 shows the front view of an inventive switching system for the automated execution of test series. Various types of switches are shown, with each switch associated with a display. A 7-pin rotary switch 101 is by a display device 111 represents. A 6-pole rotary switch 102 is by a display device 121 represents. A 5-pole rotary switch 103 is by a display device 131 represents. A 4-pole rotary switch 104 is by a display device 141 represents. Six changeover switches 105 be through a display device 151 represents. Two 4-pin transfer switches 106 be through a display device 161 represents.

For High-frequency applications, the switches have a defined characteristic impedance from Z. B. 50 ohms and z. B. formed as a coaxial switch.

The different switches 101 . 102 . 103 . 104 . 105 . 106 and display devices 111 . 121 . 131 . 141 . 151 . 161 are each on a front panel 108 assembled. These front panels 108 be through fasteners 107 fixed. The six switching positions of the 7-pole rotary switch 101 are represented by the numerical symbols 1 to 6 on the display device. A graphical representation of this switch with 6 switching states by a radial display with spoke as in 7 would be difficult to read here, as would be given to a large spatial proximity of the individual switching positions on the display device. The five switching positions of the 6-pole rotary switch 102 are therefore represented by the numerical symbols 1 to 5 on the display device. The four switching positions of the 5-pole rotary switch 103 are represented by the numerical symbols 1 to 4 on the display device. The three switching positions of the 4-pole rotary switch 104 are represented by the numerical symbols 1 to 3 on the display device.

Although for the rotary switches with 4 to 6 poles also have a graphic representation, as in 7 and 8th would be possible, a numerical display was selected in this embodiment because of the uniformity of the display of the various rotary switches. The two switching positions of the six changeover switches 105 are represented by a graphic symbol like in 6 shown. The two switching states of each of the two 4-pole transfer switches 106 are represented by a graphic symbol like in 5 shown.

The Switch positions of all switches can do so can be intuitively read without specialist training by trained personnel. to Troubleshooting the test setup is not a costly review of the switching state required.

2 shows the exemplary structure of a single inventive plug-in card. An electrically switched switch 201 is on a driver card 204 mounted, which by the fastening devices 207 on a front panel 209 is held attached. On the front panel are also the display device 208 and the switch terminals 210 appropriate. On the drive plug-in card 204 are still the controller 202 and, via connection line 214 associated with it, the non-volatile memory 216 assembled. In addition, the control device 202 via connection line 212 with the display device 208 connected. The drive plug-in card 204 is connected to an interface card 205 , which with a bus connector 206 over a connecting line 215 Tied to the bus. On the interface card 205 is the bus interface 203 mounted, which via connecting line 213 with the control device 202 communicates and via connection line 211 the electrically switched switch 201 controls.

Drive signals are sent from the bus via the bus connector 206 , Connecting line 215 through the bus interface 203 received and converted into control signals. These are over the connecting line 211 to the electrically switched switch 201 transferred, whereupon this reacts with a switching operation. At the same time, the information about the switching process via the connecting line 213 and the controller 202 transfer. This reads over the connection line 214 from the non-volatile memory 216 the current number of shifts, adjusts them according to the new shift, and writes the updated value back to the nonvolatile memory 216 , This ensures that the exact number of switching operations made at each switch is recorded for each switch.

If a predetermined value of the switching operations for the individual switch is reached, the control device controls 202 the display device 208 such that a special symbol as in 10 is displayed as a life indicator. Is from the bus via the bus connector 206 and the bus interface 203 a fault to the controller 202 reported, this controls the display device 208 such that a symbol specifying the error z. B. "E" as in 9 , is pictured. If there is no fault and no life indicator, the control device controls 202 the display device 208 such that the respective current switching state is displayed.

The Switching operations of the electrically switched switches are preferably performed by relays, which are installed in the switches.

3 shows an exemplary display device which does not represent a symbol. The display device is made of pixels 301 composed. The column counter 302 shows the number of pixel columns. The line counter 303 shows the number of pixel lines.

4 shows an exemplary display device, which represents a numerical symbol. The activated LED pixels result in switching position "3" 401 ,

5 shows an exemplary display device, which represents a first graphical symbol. The controlled LED pixels result in the switch position "horizontal transfer" for a transfer switch 501 and the switch position "vertical transfer" 502 , In this case, a horizontal interconnection of the contacts of the upper switch is represented by the horizontal bars of the upper symbol. The vertical bars of the lower, clearly separated icon represent the vertical interconnection of the contacts of the lower switch.

6 shows an exemplary display device, which represents a second graphical symbol. The controlled LED pixels result in the switching position "left" for six change-over switches integrated in a switch 601 and the switch position "right" 602 , Each individual line of the display indicates the switching position of a single switch. If the bar is moved to the left from the middle position, the switch is in the "left" position, and if the bar is moved from the middle position to the right, the switch is in the "right" position.

7 shows an exemplary display device, which represents a third graphical symbol. The controlled LED pixels result in the switching position "left-up" for a three-pole rotary switch 701 , The center contact is represented by the central pixel. The direction of the illustrated spoke indicates the second currently active contact of the switch.

8th shows an exemplary display device, which represents a fourth graphical symbol. The controlled LED pixels result in the switch position "right-down" for a three-pole rotary switch 801 , The center contact is represented by the central pixel. The direction of the illustrated spoke indicates the second currently active contact of the switch.

9 shows an exemplary display device which represents another numeric symbol. The driven LED pixels result in an error display "E" 901 ,

10 shows an exemplary display device, which represents another numeric symbol. The driven LED pixels indicate with a two-part symbol indicating the remaining life. A lifetime symbol "L" 1001 and a remaining life indicator "2" 1002 are combined to "L2".

11 shows an exemplary display device, which represents a numerical symbol. The driven LCD pixels result in switching position "3" 1101 ,

The invention is not limited to the illustrated embodiments. Thus, other display devices such. As an electroluminescent display, or other switching elements, eg. As a stripline switch, are used. All described and / or drawn elements can be combined with one another in the context of the invention as desired.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 9012480 U1 [0002]

Claims (12)

Electronic switching system for carrying out automated test series with at least one electrically connected switch ( 101 . 102 . 103 . 104 . 105 . 106 ), wherein the switching position of the at least one switch by means of at least one display device ( 111 . 121 . 131 . 141 . 151 . 161 ), and wherein the display device is designed so that the switching positions of different types of switches can be displayed differently. Electronic switching system according to claim 1, characterized in that the displayable switch types rotary switch ( 101 . 102 . 103 . 104 ), Transfer switch ( 106 ) and / or changeover switch ( 105 ). Electronic switching system according to claim 1 or 2, characterized in that the display of the switching position by means of graphical ( 501 . 502 . 601 . 602 . 701 . 801 ) and / or numeric ( 401 . 901 . 1001 . 1101 Symbols are such that the representation of the graphic symbols corresponds to the position of the switch terminals and the switching position of the respective switch, and that the numerical symbols directly reflect the switching position of the respective switch. Electronic switching system according to one of the claims 1 to 3, characterized in that the display devices as universal pixel matrices are formed. Electronic switching system according to claim 4, characterized in that the universal pixel matrices as LED displays ( 301 . 401 . 501 . 601 . 701 . 801 . 901 . 1001 ) and / or as liquid crystal displays ( 1101 ) are formed. Electronic switching system according to one of Claims 1 to 5, characterized in that the actuation of the switches is effected by means of a bus system, and in that the conversion of the bus signals into the signals acting on the switches is effected by an interface ( 203 ) he follows. Electronic switching system according to claim 6, characterized in that the switches and display devices on a plug-in card ( 204 ) and that the interface on a plug-in card ( 205 ), wherein the switch and display device plug-in card ( 204 ) with the interface card ( 205 ) connected results in a combined plug-in card. Electronic switching system according to claim 7, characterized in that the position of a plurality of switches mounted on one or more plug-in cards is represented by a number of display devices ( 502 . 502 . 601 ), which is smaller than the number of switches, is shown, wherein the display device or the display devices is mounted on one or more of the plug-in cards carrying the switches. Electronic switching system according to one of claims 1 to 8, characterized in that the switching position of the switch or switches ( 201 ) by a control device ( 202 ), wherein the control device displays the display device or the display devices ( 208 ). Electronic switching system according to claim 9, characterized in that the control device ( 202 ) with a non-volatile memory ( 216 ), that the control device ( 202 ) the contents of the memory ( 216 ) read, write and overwrite that the control device ( 202 ) the number of switching operations of the switch ( 201 ) or the switch ( 201 ) and in the non-volatile memory ( 216 ) and that the control device ( 202 ) when a number of switching operations specified for the respective switch has been reached, the representation of special symbols indicating the remaining expected life of the switch ( 1001 . 1002 ) on the advertisement (s) ( 208 ). Electronic switching system according to claims 7 and 9, characterized in that the control device ( 202 ) Error conditions of the control device ( 202 ), the desk ( 201 ) and / or the plug-in card ( 204 . 205 ), wherein the error condition specifying symbols ( 901 ) on one or more display devices ( 208 ) being represented. Electronic switching system according to claim 11, characterized in that the control device ( 202 ) communicates bidirectionally with the bus that the number of switching operations of the individual switches ( 201 ) that the current switching position of the individual switches ( 201 ) that the contents of the non-volatile memory ( 216 ) that the contents of the non-volatile memory ( 216 ) is overwritten by data transmitted from the bus ben and that error conditions of the control device ( 202 ), the desk ( 201 ) and the plug-in card ( 204 . 205 ).