While Power Supply Units (PSU) are becoming more flexible and more intelligent, the mobile devices that are powered up by them are diversifying a lot, having different characteristic. Each consumer device is coming with its own PSU, which makes transportation difficult and reduces the mobility of the devices.
A universal PSU should be able to adapt its output characteristics to varied load devices requirements. Many today's PSU are already capable of such adaptation and their flexibility will increase in the future. However, the information regarding the load device characteristics have to be communicated to the PSU. Minimum human intervention should be involved in order to facilitate the characteristic selection.
Usually a minimum two wire electrical connection is used for power transfer between PSU and load device (two-wire power cable) and this is the cheapest way of power transfer. Hence a third wire ore more wires are necessary to establish the information transfer by electrical connection means. Prior art describes varies ways of communication by dedicated electrical connection. The information can be transferred in analog format, digital format or combinations of the two.
Other prior art solutions are achieving PSU characteristic selection by means of an electric switch incorporated into the PSU, human intervention being required to place the switch in the desired position. The electrical switches used vary from the simplest (On/Off type) to more complex solutions where two ore more combinations are possible.
Universal PSU are in many cases designed with detachable output cables in order to increase portability. An output socket is integrated into PSU while the output cable is built with a matching jack. A variety of socket-jack systems are available today.
The object of the present patent is the method and apparatus of characteristic selection for a PSU by means of electrical switch integration into the socket-jack system (referred to herein as a Smart Jack). The PSU can be any of the known types: DC-DC, AC-DC, AC-AC and DC-AC.
In its basic form the present invention provides a cable plug configured for a socket-jack system that connects a PSU to a load device over a 2 wire cable. The cable plug is selectively moveable to one of a plurality of positions for selecting a predetermined output voltage (or other operational characteristic) for the load device.
Preferably, a socket is configured to mate with the cable plug, and the cable plug is configured for connection with the socket and is selectively moveable to one of a plurality of positions relative to the socket to provide the selected output voltage (or other operational characteristic) for the load device. The socket and cable plug are configured to lock the socket and cable plug in any of a plurality of the selected positions relative to each other, to establish a selected voltage level at each of the selected positions. The socket and cable plug are preferably rotatable relative to each other to a selected position relative to each other, and are configured to lock with each other in a selected position.
The detailed description below demonstrates a pair of exemplary embodiments for implementing the principles of the present invention. In each embodiment, the socket has a plurality of signal pins, that enable circuit connection to be completed with a selected voltage terminal on the socket when the cable plug and socket are in a selected position relative to each other, to establish circuit connection through the signal pins and selected voltage terminal.
In one of the exemplary embodiments, the cable plug comprises a locator drum, a locator tube disposed within the locator drum. The locator tube is selectively engaged with the locator drum so as to be moveable with the locator drum and is selectively disengaged with the locator drum so as to be moveable relative to the locator tube. A locking mechanism can be selectively engaged with and disengaged from the locator drum, and a pin assembly is located partially inside the locking mechanism and partly inside the locator tube and locator drum. The pin assembly is oriented to establish a circuit connection with selected mating connector(s) (signal pins) of the socket when the cable plug is in a selected position relative to the socket. Positive and ground circuit connection are maintained, irrespective of the relative position of the socket and cable plug, and the pin assembly is configured, so that relative movement of the cable plug relative to the socket enables selection of the selector pin(s) of the socket that will complete a circuit, while the other selector pins are isolated from the circuit.
In the other exemplary embodiment, the selector pin assembly is also connected with the socket and comprises a plurality of signal pins at predetermined locations relative to a positive terminal pin and a negative terminal of the plug. Each signal pin has a selected position in which it can establish circuit connection with a mating signal pin of a socket, and the cable plug has an insulator extending about the positive terminal pin to an extent related to the number of signal pins and their predetermined locations relative to the positive terminal pin, such that when the cable plug is in a selected position relative to the socket, a selected signal pin will establish a circuit connection with a selected voltage terminal, via the positive and negative terminals of the socket, and the insulator will prevent circuit connection between the remaining signal pins and positive and negative terminals of the plug.
Other features of the present invention will become apparent from the following detailed description and the accompanying drawings
a-e provide a schematic illustration of the electrical function performed by the socket/plug system of the present invention, in simplified form;
a and 6b are schematic views of the socket for the first embodiment of the socket/plug system of the present invention;
As set forth above, the present invention provides a cable plug configured for a socket-jack system that connects a PSU to a load device over a 2 wire cable. The cable plug is selectively moveable to one of a plurality of positions for selecting a predetermined output voltage (or other operational characteristic) for the load device.
The present invention is described herein in connection with 2 exemplary embodiments, one of which is shown in
Initially,
In each of the disclosed embodiments, the socket is referenced generally by “S” and the cable plug (sometimes referred to as a “power connector plug”, “plug assembly” or just a “plug”) is referenced generally by “P”.
Electrical Concept
The electrical function performed by the cable plug and socket of the present invention is presented in
All four contacts are open when the cable jack is not plugged (
The matching socket S for the described plug of the first embodiment is shown in
Pin (+) 4 is paired with the positive end terminal of the two wire cable, while pin (−) 5 is always connected to the negative end (ground) terminal of the plug. The contact between pin 5 and the negative end terminal of the plug is indifferent to the position of locking mechanism 6 against locator drum 1 and socket body 9 (locator drum and socket body are locket together when the plug P is connected to the socket S).
The four signal pins 13 of the socket S are insolated between them and to the pin (+) 12 and ground (−) pin 14 by the isolator rings 30. Each of the signal pins 13 can connect with the negative end terminal 5 of the plug only when its respective position is selected through the locator tube 1 and locking mechanism 6 assembly.
In the first embodiment, the power plug P preferably comprises a rotatable locator drum 1 (e.g. an insulating body), a locator tube 2, an insulated center plastic tube 3 separating a conductive terminal “Pin (+)” 4 and a ground terminal “Pin (−)” 5, and a rotatable locking mechanism 6 with a voltage select indicator 36 to indicate voltage placement. A set of electrically conductive terminal and a ground terminal are formed by the insulating center plastic tube 3 having a pair of two insulated wires connected correspondingly to the conductive (+) terminal 4 and the signal/ground (−) terminal 5, thereby forming a center body. The terminal pin 4 is located inside the center plastic tube, and the terminal signal pin 5 is located on the outside of this plastic tube body 3.
Thus, the entire center body is covered by the locator tube 2, the rotatable body (locator drum 1 encloses the center body; and comprises a ridged knob 8 that can be turned to a desired position (while pressing the locking mechanism 6 to lift the voltage tab 7, indicating the voltage selected for the device. This selection feature is accomplished by the locator tube 2 which turns the center insulated body fixing the location of the ground terminal 5 corresponding to the voltage selected via the locator drum 1. The voltage selection is completed by the locking mechanism 6 which serves as a locking system for the assembly and the voltage select indicator 36 for the power plug assembly.
The socket S preferably comprises a thermo plastic body 9 with locking feature 11, and six conductive terminals; a center terminal pin 12 for the positive wire, four (4) ring terminals 13 for the signal pins and a ground ring terminal 14. The thermo plastic body 9 is arranged such that the center section of the thermo body 9 is insulating the positive wire terminal pin 12 while four (4) signal ring terminal 13 and a ground ring terminal 14 are arranged alternately separated by plastic ring around the insulated center section of the thermo body 9. The arrangement of the four (4) signal pin terminals 13 corresponds to the voltage selected for the device, the whole socket assembly has six (6) protruding holes for each terminal to be soldered to a printed circuit board (PCB). The locking feature 11 tabs along the face of the socket fixes the location of the power plug P and the selected voltage intended for the device.
In addition, the following features of the first embodiment should be noted.
The locking tab 18 of the plug is design to fit in one of the six locking grooves 24 of the socket body 22 (see
In the second embodiment, the power connector plug P comprises a plastic plug body 15, voltage select indicator 16, locking tab 18, negative terminal 20, insulated center positive terminal 19, and a partly insulated section 17 of the plug. The signal pin assembly 40 comprises a plurality of electrically conductive signal pins 27, a positive terminal pin 25 and a ground terminal 26. The insulated plug body 15 is arranged such that a pair of two insulated wires are connected correspondingly to the positive terminal 19 and the negative terminal 20. The plug P comprises a conductive cylindrical negative terminal 20 with an insulated center conductive pin (positive terminal 19). Part of the negative terminal 20 is insulated to isolate contact points correspondingly to the signal pin terminals of the socket. The entire plug section and terminal are covered by the plastic plug body 15, and the plug P when inserted to the mating socket S only makes contact to the exposed part of the negative terminal 20 and positive terminal 19, which corresponds to a certain voltage selected for the intended device. The voltage selection is completed by the locking tab 18 which corresponds to a locking groove in the socket assembly and voltage select indicator 16 for the plug.
In the second embodiment, the socket S comprises a socket body 22, six voltage select indicators 23, and locking grooves 24. The pin assembly 40 of the plug P comprises ground pin(s) 26, center positive terminal pin 25 and a signal pin terminals 27. An electrically conductive terminal and ground terminals on the socket are soldered to the PCB such that a one pad hole is for the positive “Pin (+)” 25, and the other pad hole is for the ground terminal 26. On the other end of the ground terminal, the pin assembly is an arrangement of three signal pins 27 equally spaced (120°) in a circular pattern along the cylindrical center cavity of the plug. Consequently, three terminal pins “signal pins 27 are arranged equally spaced (120°) circular pattern such that when the plug and socket are connected each signal terminal pin 27 is in between two ground terminals.
In the second embodiment, it should also be noted that
Thus, as seen from the foregoing detailed description, the present invention provides a cable plug configured for a socket-jack system that connects a PSU to a load device over a 2 wire cable. The cable plug is selectively moveable to one of a plurality of positions for selecting a predetermined output voltage (or other operational characteristic) for the load device.
Preferably, and as shown in each of the exemplary embodiments, a socket is configured to mate with the cable plug, and the cable plug is configured for connection with the socket and is selectively moveable to one of a plurality of positions relative to the socket to provide the selected output voltage (or other operational characteristic) for the load device. The socket and cable plug are configured to lock the socket and cable plug in any of a plurality of the selected positions relative to each other, to establish a selected voltage level at each of the selected positions. The socket and cable plug are preferably rotatable relative to each other to a selected position relative to each other, and are configured to lock with each other in a selected position. Moreover, in each embodiment, the cable plug has a pin assembly with a plurality of pins, with selected pins being connected with connects with a selected connector on the socket when the cable plug and socket are in a selected position relative to each other, to establish circuit connection through the selected pins and connector.
In one of the exemplary embodiments, shown in
In the other exemplary embodiment, shown in
Thus, the foregoing description provides, among other features, a new and useful cable plug and socket system connecting a PSU to a load device over a 2 wire cable. The cable plug is selectively moveable to one of a plurality of positions for selecting a predetermined output voltage (or other operational characteristic) for the load device In addition, a new and useful socket is provided, that is configured to mate with the cable plug, to provide the selected output voltage (or other operational characteristic) for the load device.
This application is related to and claims priority from provisional application Ser. No. 61/402,490, filed Aug. 31, 2010, which provisional application is incorporated by reference herein.
Number | Name | Date | Kind |
---|---|---|---|
5668698 | Jozwiak et al. | Sep 1997 | A |
6805579 | Marchand et al. | Oct 2004 | B2 |
6811444 | Geyer | Nov 2004 | B2 |
7002265 | Potega | Feb 2006 | B2 |
7554218 | DuBose et al. | Jun 2009 | B2 |
7841878 | Johnson et al. | Nov 2010 | B2 |
20010023037 | Kieninger et al. | Sep 2001 | A1 |
20030094302 | Magyar et al. | May 2003 | A1 |
20040033710 | Kussel et al. | Feb 2004 | A1 |
20050219882 | Wu | Oct 2005 | A1 |
20080151461 | Kauffman | Jun 2008 | A1 |
20090271556 | Rutherford, III et al. | Oct 2009 | A1 |
Number | Date | Country | |
---|---|---|---|
20120276785 A1 | Nov 2012 | US |
Number | Date | Country | |
---|---|---|---|
61402490 | Aug 2010 | US |