The present invention relates to a connector, and more particularly to a connector having metal contacts provided on two opposite sides thereof.
After many times of system integration and improvement in the connection and transmission apparatus for computers, universal serial bus (USB) finally becomes a main trend of the specification for computer peripheral interfaces. The USB not only provides conveniences in application of software, such as the mode of plug and play, but also has a transmission rate satisfying the current market demands. Therefore, USB interface has been employed in various applications, such as external storage medium, external playback medium, data transmission between hard disks, etc. Therefore, all the currently electronic products with a calculating system and other consumptive electronic products must have a USB interface to be successfully accepted in the market.
According to prior art, a male USB connector must be plugged in a corresponding female USB connector with a predetermined side of the male USB connector facing downward or upward relative to the female USB connector. This design causes a certain degree of inconvenience to users. For example, for a general desktop computer, the female USB connector is usually provided at a rear side of the computer case, and the user has to bend or knee to locate it before plugging the male USB connector with the correct side thereof facing toward the correct direction. And, for a notebook computer, the female USB connector is usually provided on an outer peripheral edge of the computer. When the female USB connector is provided on a rear edge of the computer, the user still has to try and locate it before plugging the male USB connector.
In view of the current trend of integrating a computer into household appliances, it is certain complex household appliances would finally become the main trend in the market. That is, it is very possible various kinds of connectors of different specifications are provided here and there on the outer surface of these complex household appliances. Thus, it would be much more convenient to have a USB connector that could be plugged in a complex household appliance without the need of checking whether the connector has been correctly plugged.
With so many conveniences provided by it, the USB connector naturally becomes highly competitive among other connectors of different specifications. However, there are many different brands of electronic products in the market, such as FUJI, CANON, PANTEX, SONY, etc., which have their own specific memory card with a unique specification, such as SD (Smart Card), MS (Memory Stick), MMC (Multi-medium Card), etc. A common feature for these different brands of electronic products is a male connector could be plugged in a female connector only with a correct side of the male connector facing toward a correct direction. In other words, a user has to be certain the male connector has been plugged in the female connector with a correct side of the male connector facing upward or downward as specified. It is possible a user carelessly incorrectly plugs the male connector, or the hardware is installed in a manner different from the typical manner to result in damages in hardware.
A primary object of the present invention is to provide a novel connector that could be plugged in a female USB connector with either a front or a reverse side of the male connector facing upward or downward relative to the female USB connector.
Another object of the present invention is to provide a novel connector that could be plugged in a female connector in a card slot of a memory card, such as SD, MS, MMC, XD, mini-SD, or other types of memory cards, without the need of checking whether the connector has been plugged in a correct position.
A further object of the present invention is to provide a novel connector that enables a USB connector to be more competitive among future complex household appliances that have a computer integrated thereinto and require various connectors of different specifications.
To achieve the above and other objects, the connector according to a preferred embodiment of the present invention includes a base board having at least four contacts provided on each of two opposite sides thereof. The contacts on the second (or reverse) side of the base board are arranged in the reverse order relative to the contacts on the first (or front) side of the base board, and some of the contacts on the first and the second side of the base board are electrically connected to one another to enable the connector to plug in and electrically connect to a corresponding female connector.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein
Please refer to
The base board 11 is a multi-layer circuit board being provided on each of two opposite sides thereof with at least four contacts, such as the strip electrodes 141(5V), 151(D+), 161(D−), and 171(GND) provided on the front side of the base board 11, and the strip electrodes 141′ (5V), 151′ (D+), 161′ (D−), and 171′ (GND) provided on the reverse side of the base board 11 as shown in
Since the base board 11 of the connector 1 is provided at the front and reverse sides with strip electrodes having the same configuration, that is, the reverse side of the base board 11 is also provided with locating mechanisms 1411′ and 1711′ identical to the locating mechanisms 1411 and 1711 on the front side of the base board 11, respectively, the connector 1 can be plugged in and firmly connected to the female USB connector 18 with either the front side or the reverse side facing upward relative to the female USB connector 18.
The short-circuit protection 13 is located on one side of the base board 11 to electrically connect to all the contacts provided on the front and the reverse side of the base board 11. In the present invention, the short-circuit protection 13 may be a diode device, an analog switch, or a stabilizer IC.
The housing 12 protectively encloses the base board 11 and the short-circuit protection 13 therein.
With the above arrangements, the connector 1 according to the first preferred embodiment of the present invention is suitable for applying to a USB flash disk, so that the USB flash disk could be connected to a corresponding female connector with either a front or a reverse side of the USB flash disk facing upward relative to the female connector.
It is noted the strip electrode 141 should never be directly electrically connected with the strip electrode 141′. In case of a direct connection of the strip electrode 141 with the strip electrode 141′, the 5V DC power supply from the female USB connector 18 would short-circuit to the ground connector 184 when the connector 1 is plugged in the female USB connector 18, no matter which side of the base board 11 faces upward. The short-circuit protection 13 is provided to prevent the above-mentioned short circuit. In the present invention, the short-circuit protection 13 includes the circuit A, the circuit B, a first diode A′, and a second diode B′. The circuit A and the circuit B are connected in parallel, so that the 5V DC power supply from the female USB connector 18 could always be transmitted to the connector 1 via the first diode A′ or the second diode B′, no matter how the connector 1 is plugged in the female USB connector 18. The short-circuit protection 13 may be otherwise a stabilizer IC or an analog switch to prevent the 5V strip electrodes 141 or 141′ from grounding to short-circuit the 5V DC power supply.
The present invention has been described with some preferred embodiments thereof and it is understood that many changes and modifications in the described embodiments can be carried out without departing from the scope and the spirit of the invention that is intended to be limited only by the appended claims.