Abstract:
An interface selection and configuration system for a computer peripheral in which configuration for the peripheral is at least in part accomplished by the interface connector cable. In a preferred embodiment, the computer peripheral is equipped with one or more hardware interfaces. The interface connector cable has a first end connector for attaching to the computer peripheral. The first end connector of the interface connector cable is typically a multiple pin connector constructed and arranged to be properly physically and electrically connectable only to a specific computer peripheral or class of computer peripherals, the first end connector including at least one electrical connection between two pins for completing a circuit within the computer peripheral thereby enabling the computer peripheral.

Description:
This is a continuation of co-pending application(s) Ser. No. 07/788,267 filed on Nov. 4, 1991, now abandoned. 
    
    
     BACKGROUND OF THE INVENTION 
     The field of the present invention relates to interconnection systems for computers and computer peripherals or more specifically, methods and devices for selecting proper interface between a computer peripheral and its host computer. 
     Host computers need to be interconnected to a wide variety of peripheral devices including printers, scanners, monitors, and controllers among others. When the host computer is being connected to a certain type of peripheral, for example a handheld laser scanner, the computer typically has a single input/output connector to which the scanner may be connected by an interconnect cable. It is frequently desireable that a particular handheld scanner be usable with a variety of different host computers. Conversely, it is also desirable that the host computer be able to support a variety of different handheld scanners. 
     Heretofore there have been several systems for achieving proper configuration between the host computer and the peripheral. In a typical system, a particular peripheral is configured to work with a particular host computer, that is, the peripheral contained a single dedicated interface. Similarly, the host computer was configured to accept only a particular type of peripheral. Any time the peripheral was moved to a different host computer, it was necessary to replace the interface software and hardware in the peripheral. 
     The host computer may include a software selection program in which the user inputs information identifying the particular peripheral enabling the system to have proper operation. Such an operation requires the user to correctly input information into the host computer identifying the particular peripheral. Alternately, means are provided for scanning a code on the outside of the peripheral which informs the computer of the type of peripheral. Some peripherals actually include identifying signals which again inform the particular host of the type of peripheral and software provides the desired configuration. Many of these systems still require correct interface hardware. 
     In another configuration technique, the peripheral includes interface hardware for more than one host computer. When configuring, the printed circuit board of the peripheral requires certain hardware configuration in order to be correctly linked to a host computer. Such hardware configuration may be effectuated by manually actuable external switches or by internal switches or &#34;jumpers&#34; within the printed circuit board (and/or within the host computer) which activate or deactivate certain components. Such an operation typically requires the expertise of an electronics technician or skilled user and is not a desirable field operation to be performed by the typical user. It is desirable to have an inexpensive and easy to use interconnection system which can be effectively used by the average user. 
     SUMMARY OF THE INVENTION 
     The present invention relates to an interface selection system for a computer peripheral in which configuration for the peripheral is at least in part accomplished by the interface connector cable. In a preferred embodiment, the computer peripheral is equipped with one or more hardware interfaces. The interface connector cable has a first end connector for attaching to the computer peripheral. The first end connector of the interface connector cable is typically a multiple contact connector (such as pin or edge connector) constructed and arranged to be properly physically and electrically connectable only to a specific computer peripheral or class of computer peripherals, the first end connector including at least one electrical connection between two contacts for completing a circuit within the computer peripheral thereby enabling the computer peripheral. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a diagrammatic view of a handheld laser scanner attached to a host computer according to the present invention; 
     FIG. 2 is a diagrammatic view of an interface connector system according to the present invention; 
     FIG. 3 is a detailed diagrammatic view of a printed circuit board of FIG. 2; and 
     FIG. 4 is a detailed diagrammatic view of an edge connector as in FIG. 2. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     The preferred embodiments will now be described with reference to the drawings. 
     In FIG. 1, an example computer peripheral is illustrated as a handheld laser scanner 10 used for scanning a bar code 11. The scanner 10 is operably connected to a host computer 15 via an interconnect cable 38. Theinterconnect cable 38 includes an end plug or edge connector 30 which connects to a mating connector 21 on the end of a printed circuit board 20within the scanner 10. The interconnect cable 38 provides a communication link between the host computer 15 and the laser scanner 10 and may also provide power to the scanner 10. 
     Referring to FIG. 2, the interconnect cable 38 has a first end connector 30which plugs into the scanner 10 attaching to the edge connector 21 of the circuit board 20, and a second end connector 40 which plugs into the host computer 15 attaching to the edge connector 18. The first end connector 30includes tabs 34, 36 which slide into and mate with corresponding slots 24,26 in the body of the handle of the scanner 10. Different types of scannersmay be equipped with different positions of the slots 24, 26. Only an end connector 30 having the correct configuration of tabs 34, 36 will be correctly physically connectable to the scanner 10. An interconnect cable 38 without the correct tab configuration cannot physically be plugged intothe laser scanner 10. 
     Similarly on the host computer side of the interconnect cable 38, the second end connector 40 is equipped with a tab 44 which mates with a corresponding slot 17 at the mating edge connector 18 of the host computer15. Only an end connector 40 having the correct configuration of the tab 44will be correctly physically connectable to the host computer 15. An interconnect cable 38 without the correct tab configuration cannot physically be plugged into the host computer 10. 
     Therefore in order to connect a particular peripheral (such as a scanner 10) to a particular host computer, a cable having the correct tab configurations at both end connectors must be selected. The unique physical configurations ensures that the user must select the correct cable for the host computer and peripheral pair. The preferred embodiment may only require tab configuration on the host computer end because it is not anticipated that the various handheld scanners will require the dedicated interconnect cables, but tab configurations on the peripheral end may be desired in other peripheral applications. Further, the tab configurations illustrated are but one example means for ensuring proper interconnect cable selection. The tabs and slots are readily added to conventional end connectors. The design illustrated does not prevent end connectors without tabs from connecting to the peripheral 10 and the host computer 15, but such design may be modified by one skilled in the art to prevent such connection. 
     Referring to FIGS. 3 and 4, the printed circuit board 20 (located within the scanner 10) includes an edge connector 21 shown with seven edge contacts 22 (numbered 1 through 7). Though there is a distinction between edge contacts and pins, for the purposes of the present invention, they are interchangeable--a pin connector with its mating plug connector may beinterchanged for an edge connector pair or any other suitable electrical contact pair. 
     The board 20 is designed and constructed to be operable with a number of host computers by way of an externally activated hardware configuration provided by the interconnect cable 38. As viewed in FIG. 4, in the edge connector 30, the edge contacts #5 and #7 are electrically connected, illustrated as being &#34;jumped&#34;. Edge contacts #1 and #3 are also jumped while edge contacts #2, #4 and #6 are used for communication. When the interconnect cable 38 is plugged into the printed circuit board 20, edge contacts #1 and #3 of the edge connector 21 are thereby electrically connected, and edge contacts #5 and #7 are also electrically connected. Byso electrically connecting these electrical contacts, certain circuits within the circuit board 20 become electrically connected resulting in a desired configuration. The scanner 10 becomes configured to accept a particular host computer 15. The user has configured the scanner merely byplugging in the correct interconnect cable 38. 
     A similar configuration selection system may alternately or in combination be applied to the host computer connection side. The edge connector 40 hascertain of its edge contacts 42 electrically connected, in the illustrated example pins #5 and #7 of the edge connector 40 are jumped. When the edge connector 40 is plugged into the edge connector 18 of host computer 15, edge contacts #5 and #7 within the edge connector 18 become electrically connected, completing a circuit within the host computer 15, thereby configuring the host computer 15 for the particular peripheral. The user may therefore configure the host computer 15 for the particular scanner 10by merely selecting and plugging in the correct interconnect cable 38. 
     In practice, the user would be provided with a single peripheral, such as ascanner and several interconnect cables. To connect the scanner, the user would merely select the interconnect cable corresponding to the particularhost computer and plug it into the scanner. The interconnect cable would then configure the scanner for the particular host computer. To move the scanner to a different host computer, the user would merely have to switchcables. The interconnect cable 38 may be provided with means for identifying such as identifying markings 39 imprinted directly on the interconnect cable 38 itself, color coding, or the like to assist the userin selecting the correct interconnect cable for the given host computer. 
     The illustrated seven edge connector embodiment is a simplified example fora connector design. Electrical contact configurations may of course be moreor less than seven contacts (and the two ends need not be the same). In a preferred scanner application, an interconnect cable plug with 30 pins is set forth in Table A as follows: 
     
                       TABLE A______________________________________Pin #    Signal Name       Data Direction(s)______________________________________ 1       TEST.sub.-- DATA  &lt;--------&gt; 2       READ.sub.-- DATA.sub.-- WAND-------&gt; 3       START.sub.-- DATA &lt;-------- 4       CLOCKIN           &lt;-------- 5       CLOCKOUT          &lt;---------------&gt; RDATA.sub.-- RTN 7       SDATA.sub.-- RTN  &lt;-------- 8       CLOCK.sub.-- IN RTN                      &lt;-------- 9       CLOCK.sub.-- OUT.sub.-- RTN                      &lt;--------10       VCC               &lt;---------------&gt; VCC.sub.-- OUT12       VCC.sub.-- IN     &lt;--------13       CLEAR.sub.-- TO.sub.-- SEND14       TRANSMIT.sub.-- DATA15       RETURN.sub.-- DATA16       RETURN.sub.-- S17       DATA.sub.-- PLUS18       DATA-MINUS19       BEEP.sub.-- IN20       PWR.sub.-- EN21       TRIGGER22       BAR.sub.-- CODE.sub.-- OUT23       GOOD.sub.-- READ.sub.-- IN24       START.sub.-- OF.sub.-- SCAN25       MTR.sub.-- FAIL26       GROUND27       CONFIG.sub.-- 128       CONFIG.sub.-- 229       CONFIG.sub.-- 330       CONFIG.sub.-- 4______________________________________ 
    
     The interconnect cable plug may use certain of the pins for communication or power. Some of the pins may be unused and available for other applications, it being desireable that the same pin design be usable for different configurations. The last four pins #27-#30 are dedicated for providing the configuration for the peripheral. The variations of configurations are limitless and may be designed to suit a particular application. The example in Table A is provided in part to show the wide variety of configurations that may be employed. 
     Though particular types of end connectors have been described, the pin connector may be any suitable electrical connector means for providing electrical contact including plugs, pin connectors, sockets, edge connectors and the like. The end connector has multiple contacts, the contacts providing the actual electrical contact surface. The contacts maybe pins, edge contacts, plugs, sockets, or any suitable electrical contact element. 
     The center of the interconnect cable 38 may comprise any suitable transmission medium including a wire (as illustrated), cable, fiber optic cable, radio frequency link, infra red light link, or other transmission medium. 
     The cable configuration system described may be combined with other configuration systems, some of which have been previously described. For example, the interconnect cable system described herein may be used to automatically select a configuration for a certain class or group of peripherals. The peripheral may additionally include external (or internal) switches identifying the particular peripheral within the group thereby completing the described configuration. 
     In practice, a computer peripheral such as a laser scanner 10 will be equipped with hardware and firmware so that it may be used with a plurality of different host computers or computer terminals. To provide initial configuration or change configuration when switching host computers, the peripheral is configured merely by selecting the correct interconnect cable 38. The electrically connected pins in the end connector of the interconnect cable provide the switching necessary withinthe scanner 10, activating or deactivating certain circuits, thereby configuring the scanner 10 for the particular host computer. 
     The interconnect cable 38 may be designed in any suitable manner. In FIGS. 3 and 4 illustrate jump connections between the respective edge contacts 32 of edge connector 30 (or edge contacts 42 of edge connector 40), other electrical connection mechanisms may be employed. The contacts may be electrically connected by a simple hard wire connection. The interconnect cable 38 itself may include a printed circuit board which provides the desired electrical connection between the pins. The interconnect cable 38 (or the printed circuit board 50 thereon) may itself be equipped with dip switches 52 (dual inline package switches) or some other type of switch. An interconnect cable equipped with switches would have certain advantagesas only one cable version need be manufactured. The cable type corresponding to a particular peripheral would be selected by the switchesand the cable could then stamped with an identifying code 39. 
     Thus, a peripheral configuration system and method have been shown and described. Though certain examples and advantages have been disclosed, further advantages and modifications may become obvious to one skilled in the art from the disclosures herein. The invention therefore is not to be limited except in the spirit of the claims that follow.