EP2711953B1 - Keypad apparatus for use with electronic devices and related methods - Google Patents
Keypad apparatus for use with electronic devices and related methods Download PDFInfo
- Publication number
- EP2711953B1 EP2711953B1 EP12184954.1A EP12184954A EP2711953B1 EP 2711953 B1 EP2711953 B1 EP 2711953B1 EP 12184954 A EP12184954 A EP 12184954A EP 2711953 B1 EP2711953 B1 EP 2711953B1
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- EP
- European Patent Office
- Prior art keywords
- circuit board
- dome
- carrier
- plastic carrier
- coupled
- Prior art date
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Images
Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H1/00—Contacts
- H01H1/58—Electric connections to or between contacts; Terminals
- H01H1/5805—Connections to printed circuits
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H13/00—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch
- H01H13/70—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard
- H01H13/78—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the contacts or the contact sites
- H01H13/807—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the contacts or the contact sites characterised by the spatial arrangement of the contact sites, e.g. superimposed sites
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H13/00—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch
- H01H13/70—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard
- H01H13/81—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by electrical connections to external devices
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H2203/00—Form of contacts
- H01H2203/028—Form of contacts embedded in layer material
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H2203/00—Form of contacts
- H01H2203/036—Form of contacts to solve particular problems
- H01H2203/038—Form of contacts to solve particular problems to be bridged by a dome shaped contact
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H2203/00—Form of contacts
- H01H2203/036—Form of contacts to solve particular problems
- H01H2203/04—Form of contacts to solve particular problems to facilitate connections
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H2207/00—Connections
- H01H2207/012—Connections via underside of substrate
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H2207/00—Connections
- H01H2207/04—Details of printed conductors
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H2215/00—Tactile feedback
- H01H2215/004—Collapsible dome or bubble
- H01H2215/012—Positioning of individual dome
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H2225/00—Switch site location
- H01H2225/028—Switch site location perpendicular to base of keyboard
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H2229/00—Manufacturing
- H01H2229/02—Laser
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H2229/00—Manufacturing
- H01H2229/034—Positioning of layers
Definitions
- the present disclosure relates to electronic devices, including but not limited to, key apparatus for use with electronic devices and related methods.
- Portable electronic devices include, for example, several types of mobile stations such as simple cellular telephones, smart telephones, wireless personal digital assistants (PDAs), and laptop computers with wireless 802.11 or Bluetooth capabilities.
- PIM personal information manager
- Portable electronic devices such as PDAs or smart telephones are generally intended for handheld use and ease of portability. With continued demand for decreased size of portable electronic devices, electronic devices continue to decrease in size. Thus, smaller devices are generally desirable for portability. Often these portable electronic devices include physical side keys (e.g., depressible keys, plastic keys, etc.) to input information. However, physical keys typically employ an electrical switch assembly that is soldered to a circuit board. As a result, coupling an electrical switch assembly to a circuit board typically results in an electronic device having a larger dimensional envelope or size.
- EP-A-0917167 discloses an electronic device with a keypad of the prior art.
- Example keypad apparatus and methods disclosed herein reduce an overall dimensional envelope of an electronic apparatus.
- the keypad apparatus employs an electrical switch.
- An example electrical switch described herein may include one or more collapsible dome switches associated with, or corresponding to, a depressible key of a keypad and electrical or conductive contacts of a circuit board.
- an electrical switch apparatus disclosed herein is electrically coupled to a circuit board to generate an electrical signal when a key associated with the electrical switch is activated.
- the example keypad apparatus disclosed herein may employ a carrier to electrically couple the example electrical switch to the circuit board.
- a dome switch collapses toward a conductive contact formed or printed on the carrier.
- the conductive contact of the electrical switch is electrically coupled to the circuit board via a plurality of conductive traces formed on one or more surfaces of the carrier between the conductive contact and a conductive element of a circuit board (e.g., an integrated circuit).
- the example carriers are electrically coupled to a side surface (e.g., plated with conductive material) of the circuit board substantially perpendicular to a main surface of the circuit board (e.g., a surface generally parallel relative to a display of an electronic device).
- the example carriers disclosed herein employ flexible fingers, arms or structures that engage a side surface of a circuit board.
- the flexible fingers may engage respective ones of machined and electrically plated through holes or slots of the circuit board to electrically couple the carrier to the circuit board.
- the conductive traces may be printed or provided on the flexible fingers which engage the plated slots to electrically couple the dome switch to the circuit board via the carrier.
- a rear or vertical surface of the carrier includes a conductive trace or wire that engages the side surface of the circuit board to electrically couple the conductive contact to the circuit board.
- the carrier mechanically couples the dome-switch to the circuit board via, for example, frictional interference and/or interference fit.
- the example carriers disclosed herein may employ flexible fingers that provide a spring bias that produces a force normal to the point of contact between the fingers and the circuit board when the carrier is coupled to the circuit board.
- the example carriers disclosed herein retain the carrier in engagement (e.g., in frictional engagement) with the circuit board in a relatively fixed position relative to the circuit board without the use of fasteners (e.g., chemical fasteners, mechanical fasteners, solder, etc.).
- fasteners e.g., chemical fasteners, mechanical fasteners, solder, etc.
- the example keypad apparatus disclosed herein reduce cost associated with soldering the carrier to the circuit board.
- the carrier may be at least partially disposed in a recess or cavity of a circuit board.
- An example carrier disclosed herein is composed of plastic and the conductive contact and/or the plurality of conductive traces are printed on the carrier via, for example, Laser Direct Structuring manufacturing process or techniques.
- the disclosure generally relates to an electronic device, such as a portable electronic device as described herein.
- electronic devices include mobile, or handheld, wireless communication devices such as pagers, cellular phones, cellular smart-phones, wireless organizers, personal digital assistants, wirelessly enabled notebook computers, tablet computers, mobile internet devices, electronic navigation devices, and so forth.
- the electronic device may be a portable electronic device without wireless communication capabilities, such as a handheld electronic game, digital photograph album, digital camera, media player, e-book reader, and so forth.
- FIG. 1 A block diagram of an example portable electronic device 100 is shown in FIG. 1 .
- the electronic device 100 includes multiple components, such as a processor 102 that controls the overall operation of the electronic device 100. Communication functions, including data and voice communications, are performed through a communication subsystem 104. Data received by the electronic device 100 is decompressed and decrypted by a decoder 106. The communication subsystem 104 receives messages from and sends messages to a wireless network 150.
- the wireless network 150 may be any type of wireless network, including, but not limited to, data wireless networks, voice wireless networks, and networks that support both voice and data communications.
- a power source 142 such as one or more rechargeable batteries or a port to an external power supply, powers the electronic device 100.
- the processor 102 interacts with other components, such as a Random Access Memory (RAM) 108, memory 110, a touch-sensitive display 118, one or more actuators 120, one or more force sensors 122, an auxiliary input/output (I/O) subsystem 124, a data port 126, a speaker 128, a microphone 130, short-range communications 132 and other device subsystems 134, a keypad 137, a side key 139, etc.
- the touch-sensitive display 118 includes a display 112 and an overlay 114 that are coupled to at least one controller 116 that is utilized to interact with the processor 102. Input via a graphical user interface is provided via the touch-sensitive display 118, the keypad apparatus 137 and/or the side key 139.
- Information such as text, characters, symbols, images, icons, and other items may be displayed or rendered on the touch-sensitive display 118 via the processor 102.
- the processor 102 may also interact with an accelerometer 136 that may be utilized to detect direction of gravitational forces or gravity-induced reaction forces.
- the electronic device 100 may utilize a Subscriber Identity Module or a Removable User Identity Module (SIM/RUIM) card 138 for communication with a network, such as the wireless network 150.
- SIM/RUIM Removable User Identity Module
- user identification information may be programmed into memory 110.
- the electronic device 100 includes an operating system 146 and software programs, applications, or components 148 that are executed by the processor 102 and are typically stored in a persistent, updatable store such as the memory 110. Additional applications or programs may be loaded onto the portable electronic device 100 through the wireless network 150, the auxiliary (I/O) subsystem 124, the data port 126, the short-range communications subsystem 132, or any other device subsystems 134.
- an operating system 146 software programs, applications, or components 148 that are executed by the processor 102 and are typically stored in a persistent, updatable store such as the memory 110. Additional applications or programs may be loaded onto the portable electronic device 100 through the wireless network 150, the auxiliary (I/O) subsystem 124, the data port 126, the short-range communications subsystem 132, or any other device subsystems 134.
- a received signal such as a text message, an e-mail message, or web page download is processed by the communication subsystem 104 and input to the processor 102.
- the processor 102 processes the received signal for output to the display 112 and/or to the auxiliary (I/O) subsystem 124.
- a subscriber may generate data items, for example e-mail messages, which may be transmitted over the wireless network 150 through the communication subsystem 104.
- the speaker 128 outputs audible information converted from electrical signals
- the microphone 130 converts audible information into electrical signals for processing.
- the touch-sensitive display 118 may be any suitable touch-sensitive display, such as a capacitive, resistive, infrared, surface acoustic wave (SAW) touch-sensitive display, strain gauge, optical imaging, dispersive signal technology, acoustic pulse recognition, and so forth.
- a capacitive touch-sensitive display includes one or more capacitive touch sensors or overlay 114.
- the capacitive touch sensors may comprise any suitable material, such as indium tin oxide (ITO).
- the electronic device 100 may include a non-touch sensitive display instead of, and/or in addition to, the touch-sensitive display 118.
- FIG. 2 is a plan view of a portable electronic device 200 having a keypad apparatus or assembly 202 in accordance with the teachings disclosed herein.
- the portable electronic device 200 is a handheld or portable communication device (e.g., a mobile phone).
- the electronic device 200 may be a data and/or voice-enabled handheld device that may be used to send and receive a message, a voice communication, a textual entry, etc.
- the electronic device 200 includes a housing 204 that encloses electronic or mobile components such as, for example, the electronic components described above in connection with FIG. 1 .
- the housing 204 encloses the keypad apparatus 202, a display 206, a speaker 208, a microphone, an auxiliary I/O, a data port, etc.
- the housing 204 may include a front cover or lid 210 that couples to a frame or base 212 to capture the electronic components within the housing 204.
- the housing 204 of the illustrated example can be held in one hand by a user of the electronic device 200 during data (e.g., text) and/or voice communications.
- the keypad apparatus 202 disclosed herein is positioned on a side surface 214 of the electronic device 200.
- the keypad apparatus 202 may be positioned on another side surface and/or on multiple side surfaces of the electronic device 200. (e.g., a top side surface, a bottom side surface, side surfaces, etc.)
- the keypad apparatus 202 may include one or more buttons or keys 216 that may be employed to input various commands to the electronic device.
- the keys 216 may be used to increase or decrease a volume of the electronic device 200.
- the keys 216 may be employed to zoom in and/or zoom out when the electronic device 200 is in a camera mode.
- the display 206 may provide a keypad 218 to provide a user input and accommodate textual inputs to the electronic device 200.
- the keypad 218 enables character inputs including alphabetical and/or numeric entries to allow text and/or numeric entry for various functions.
- the keypad 218 may be a QWERTY style keypad, a SureType keypad, or any other suitable physical keypad(s).
- the keypad 218 may be a virtual keyboard that appears on a touch screen display (not shown).
- the electronic device 200 also includes function keys 220.
- the function keys 220 may include an on/off button or call end button, a call send button, a menu button, an escape key, etc.
- the electronic device 200 may also include a track ball or trackpad 222 to input information and/or control commands.
- a user interacts with the electronic device 200 via the keypad apparatus 202, the keypad 218, the function keys 220 and/or the trackpad 222 to choose commands, execute application programs, and perform other functions by selecting menu items or icons.
- a user may interact with the electronic device 200 via the touch-sensitive display to choose commands, execute application programs, and perform other functions by selecting menu items or icons by contacting or touching the icon or image via the touch screen.
- FIG. 3 illustrates an exploded view of an example electrical switch assembly 300 of the example keypad apparatus 202 of FIG. 2 .
- the electrical switch assembly 300 is shown without the housing 204 of the electronic device 200.
- the electrical switch assembly 300 of the illustrated example defines an electrical switch to couple to a structure or circuit board 301 (e.g., a printed circuit board or integrated circuit board). More specifically, in this example, the electrical switch assembly 300 defines electrical switches 302a and 302b each associated with respective ones of the keys 216. However, in other examples, the electrical switch assembly 300 may include only one electrical switch or more than two electrical switches.
- the electrical switch assembly 300 of the illustrated example includes a dome-switch assembly 304 coupled to a carrier 306.
- the dome-switch assembly 304 includes a housing 308, a dome 310 and a dome sheet 312.
- the housing 308 of the illustrated example includes an opening or aperture 314 extending between a first surface 316 of the housing 308 and a second surface 318 of the housing 308 opposite the first surface 316.
- the aperture 314 of the housing 308 is configured or sized to receive at least a portion of the dome 310. More specifically, at least a portion of the dome 310 is positioned in the aperture 314 when the dome-switch assembly 304 is coupled to the carrier 306.
- the dome 310 of FIG. 3 is a metal dome.
- the dome sheet 312 retains the dome 310 in the aperture 314 of the housing 308.
- the dome sheet 312 is coupled or attached to a first surface 316 of the housing 308 via, for example, adhesive.
- the housing 316 of the illustrated example couples the dome 310 to the carrier 306.
- the dome-switch assembly 304 or the housing 308 is coupled or attached to the carrier 306 via, for example, solder.
- the housing 308 includes one or more recesses, apertures or slots 320 positioned or formed on a side surface 322 of the housing 308 to receive the solder to facilitate attachment or assembly of the housing 308 to the carrier 306.
- the housing 308 may be attached to the carrier 306 via adhesive and/or any other suitable chemical fastener(s) and/or mechanical fastener(s).
- the carrier 306 of the illustrated example comprises a body 324 having a plurality of flexible fingers or arms 326.
- the body 324 and the flexible fingers 326 provide a plurality of conductive trace patterns 328.
- each of the trace patterns 328 defines a first portion or conductive contacts 330 (e.g., electrical contacts) and a second portion or conductive traces 332 (e.g., electrical traces).
- the conductive contacts 330 are formed or provided on a first surface 334 (e.g., a side surface) of the carrier 306 and interact with the dome 310.
- the conductive traces 332 couple the conductive contacts 330 to the circuit board 301. As shown in the example of FIG.
- a first set of electrical contacts 330a is electrically coupled to the circuit board 301 via a first plurality of conductive traces 332a and a second set of electrical contacts 330b is electrically coupled to the circuit board 301 via a second plurality of conductive traces 332b.
- the first and second plurality of conductive traces 332a and 332b electrically isolate the first and second set of electrical contacts 330a and 330b, respectively.
- the body 324 of the carrier 306 of the illustrated example is a unitary structure or body.
- the body 324 for example, is composed of a plastic material or plastic resin such as, for example, a resin or plastic capable of being used in a Laser Direct Structuring (LDS) process(es).
- LDS capable resin may include thermoplastic materials such as, for example, Polypropylene, Polyethylene terephthalate, Polysulfone, etc.
- the body 324 may be integrally formed via, for example, injection molding and/or any other suitable manufacturing process(es).
- the carrier 306 or the body 324 may be formed as multiple pieces (e.g., two-piece body) that may be coupled together via chemical fasteners (e.g., adhesive), mechanical fasteners, plastic welding, etc.
- the electrical contacts 330 and/or the conductive traces 332 electrically coupling the electrical contacts 330 to the circuit board 301 may be formed or etched in the body 324 via, for example, LDS manufacturing process.
- LDS manufacturing process enables injection molded plastic parts such as the body 324 to be selectively plated with discrete circuit pathways (i.e., the plurality of trace patterns 328).
- a laser basically etches, writes or prints a conductive trace pattern corresponding to the position of the conductive contacts 330 and/or the conductive traces 332 onto the body 324 after the body 324 is formed via injection molding.
- the body 324 having the printed pattern, contacts and/or traces is then immersed within a copper bath to provide the conductive contacts 330, the conductive traces 332 and/or the trace patterns 328.
- FIG. 4 is a perspective view of the example electrical switch assembly 300 of FIG. 3 coupled to the circuit board 301. More specifically, the electrical switch assembly 300 is coupled to the circuit board 301 via frictional engagement or interference fit. In this manner, the switch assembly 300 may be coupled to the circuit board 301 without the use of fasteners(s) (e.g., solder). However, in other examples, the electrical switch assembly 300 may be coupled to the circuit board 301 via, for example, solder.
- fasteners e.g., solder
- the electrical switch assembly 300 is electrically coupled to a first or side surface 402 of the circuit board 301.
- the side surface 402 of the circuit board 301 is substantially parallel relative to the side surface 214 of the housing 204 of FIG. 2 .
- the side surface 402 of the circuit board 301 of the illustrated example is substantially perpendicular to the second surface 404 of the circuit board 301, which is substantially parallel or aligned with the display 206 of the electronic device 200 of FIG. 2 .
- the side surface 402 of the circuit board 301 has a surface area that is substantially less than a surface area of the second surface 404.
- the circuit board 301 includes one or more apertures or slots 406 (e.g., through holes) plated with an electrically conductive material (e.g., copper). As shown in FIG. 4 , the plated slots 406 are exposed or accessible via the side surface 402 of the circuit board 301. Each of the plated slots 406 defines a longitudinal axis and each of the slots 406 extends between the second surface 404 and a third or bottom surface 408 of the circuit board 301. In some examples, the slots 406 partially extend between the second surface 404 and the bottom surface 408.
- an electrically conductive material e.g., copper
- FIG. 5A is a perspective bottom view of the electrical switch assembly 300 coupled to the circuit board 301.
- FIG. 5B is a plan view of the example electrical switch assembly 300 coupled to the circuit board 301.
- the conductive traces 332 extend from the electrical contacts 330 to the conductive plated slots 406 of the circuit board 301. More specifically, the conductive traces 332 extend from the first surface 334 of the carrier 306, an intermediate surface 502 (e.g., a curved bottom surface), a second surface 504 and along an outer surface 506 of the flexible flingers 326.
- a portion 508 of the conductive traces 332 are printed, formed or provided on the outer surface 506 of the flexible fingers 326.
- the portion 508 of conductive traces 532 on the outer surface 506 of the flexible fingers 326 electrically engage the plated slots 406 of the circuit board 301 to electrically couple the electrical contacts 330 to the circuit board 301.
- the conductive traces 332 and/or the electrical contacts 330 can be positioned and/or formed on any and/or all of the surfaces of the carrier 306 including, for example, the flexible fingers 326.
- the conductive traces 332 may be configured on the carrier 306 in any pattern or surface to electrically couple the electrical contacts 330 and the plated slots 406 of the circuit board 301.
- the flexible fingers 326 of the carrier 306 of the illustrated example mechanically couple the carrier 306 to the circuit board 301 via frictional engagement or interference.
- the flexible fingers 326 provide a spring bias or force 510 to retain the carrier 306 engaged with the plated slots 406 of the circuit board 301.
- each of the flexible fingers 326 provide a reactive force 510 in a direction normal to the longitudinal axes of the plated slots 406 and/or the side surface 402 of the circuit board 301.
- the carrier 306 can be positioned adjacent the side surface 402 of the circuit board 301 with relatively small clearance or distance 512.
- the flexible fingers 326 provide the force 510 to retain the carrier 306 coupled to the circuit board 301 when the electrical switch assembly 300 is positioned between the housing 204 of the electronic device 200 of FIG. 2 and the circuit board 301.
- the carrier 306 does not require solder, adhesive and/or other fasteners to couple to the circuit board 301.
- the flexible fingers 326 prevent the carrier 306 from moving or shifting laterally relative to and/or along the side surface 402 of the circuit board 301. Accordingly, because solder is not needed to couple the carrier 306 to the circuit board 301, the dimensional envelope of the electrical switch assembly 300 is significantly smaller. As a result, the electrical switch assembly 300 and/or carrier 306 enable the electronic device 200 to have a substantially smaller dimensional envelope or profile (e.g., a dimensional height). Additionally or alternatively, because chemical or mechanical fasteners are not needed to couple the electrical switch assembly 300 to the circuit board 301, the electrical switch assembly 300 significantly facilitates assembly of the electronic device 200 of FIG. 2 .
- FIG. 6 is a cross-sectional side view of the example electrical switch assembly 302 of FIGS. 2-4 , 5A and 5B taken along line 6-6 of FIG. 4 .
- the electrical switch assembly 300 is positioned between a side wall 602 of the housing 204 or base 212 of the electronic device 200 and the circuit board 301.
- the keypad apparatus 202 of the illustrated example includes an actuator assembly 604 positioned adjacent the electrical switch assembly 300.
- the actuator assembly 604 interacts with the electrical switch assembly 300 to generate an electrical signal when a user depresses the keys 216 associated or corresponding to the electrical switches 302a or 302b.
- the actuator assembly 604 of the illustrated example includes the key 216 (e.g., a button) and a plunger or actuator 606 positioned between the key 216 and the dome 310.
- the actuator 606 provides stiffness to hold the key 216 in position when a force is not exerted on the key 216 toward the dome 310.
- the key 216 at least partially extends from the housing 204 when the key 216 is not depressed as shown in FIG. 6 .
- the dome 310 is positioned adjacent the electrical elements 330 of the carrier 306 and is aligned relative to the conductive contacts 330 of the respective trace patterns 328. As shown, the dome 310 is positioned inside the aperture 314 of the housing 308 such that the dome 310 can engage the first surface 334 of the carrier 306. More specifically, the aperture 314 enables the dome 310 to engage the electrical contacts 330 when the dome 310 is deflected or collapsed. As shown, the dome sheet 312 retains the dome 310 in the aperture 314 of the housing 308.
- the actuator 606 provides stiffness to hold the key 216 in position. Further, the dome-switch assemblies 304 are in a non-deflected or non-collapsed position when the key 216 is not pressed or actuated.
- a user can exert a force (e.g., a side force) on the key 216 to depress the key 216 associated with the electrical switch 302a with relative ease.
- the force required to press the key 216 is large enough that the person can feel a resistance to the pressure of their finger on the key 216.
- the electronic device 200 detects or senses a deflection or activation of the electrical switch when the key 216 is in a depressed position or actuated position relative to the base 212 to activate the electrical switch and generate an electrical signal.
- a user depresses the key 216 associated with the electrical switch 302a to provide data input to the electronic device 200.
- the electrical switch 302a generates an output signal that is received by a processor (e.g., the processor 102) when the key 216 is depressed by a user.
- a processor e.g., the processor 102
- the actuator 606 moves toward the trace pattern 328 of the carrier 306.
- the actuator 606 presses against the dome 310 to cause the dome 310 to deflect, collapse, flex or bend toward the trace pattern 328 of the carrier 306.
- the dome 310 collapses toward the conductive contacts 330 of the trace pattern 328 such that a contact surface 610 of the dome 310 engages the conductive contacts 330 of the carrier 306, thereby closing an electrical circuit and generating an electrical signal that is received or detected by the processor 102.
- the dome 310 is configured to provide a dome-snap profile to provide a click (e.g., an audible sound) or snap feel tactility to a user.
- a user releases the key 216.
- the actuator 606 returns to its original position or state and releases the dome 310.
- the dome 310 also snaps back to its initial, original or dome shaped position.
- the dome 310 provides a tactile feedback (e.g., a force) to the user when the dome 310 snaps back to its original position.
- the dome 310 functions as a spring to push the actuator 606 back to the initial or non-activated position as shown in FIG. 6 .
- the switch assembly 300 can be configured without use of the dome-switch assembly 304.
- the actuator 606 may employ a conductive material or element to interact with the conductive contacts 330 of the carrier 306.
- the actuator 606 may be biased away from the first surface 334 of the carrier 306 via a biasing element.
- FIG. 7 illustrates another example keypad apparatus 700 constructed in accordance with the teachings disclosed herein.
- an electrical switch assembly 702 of the example keypad apparatus 700 of FIG. 7 does not employ a housing (e.g., the housing 306 of the dome-switch assembly 304).
- a carrier 704 is formed with a recess or cavity 706 to receive at least a portion of a dome 708.
- a dome-sheet 710 is attached to a surface 712 of the carrier 704 to retain the dome 708 in the cavity 706.
- a surface or wall 714 defined by the cavity 706 includes a trace pattern 716.
- the trace patterns 716 include conductive contacts 718 that are routed to a circuit board 720 via conductive traces 722 formed on surface 724, the surface 714 and/or a flexible finger 726 of the carrier 704 in a manner similar to the trace patterns 328 of FIGS. 2-4 , 5A , 5B and 6 .
- the carrier 704 is formed via injection molding and the conductive contacts 718 and/or the traces 722 may be formed on the carrier 704 via, for example, LDS manufacturing process. As shown, because the carrier 704 may be formed via injection molding, the example carrier 704 is formed with the cavity 706 sized or configured to receive the dome 708.
- FIG. 8 illustrates another example electrical switch assembly 800 disclosed herein.
- the electrical switch assembly 800 of FIG. 8 is coupled to a first surface 802 of a circuit board 804.
- the electrical switch assembly 800 is mounted on the first surface 802 of the circuit board 804 via soldering.
- the switch assembly 800 may be coupled to the circuit board 804 via any other suitable chemical fastener(s) (e.g., adhesive) and/or mechanical fastener(s).
- FIG. 9 is an exploded view of the example electrical switch assembly 800 of FIG. 8 .
- the electrical switch assembly 800 employs a dome-switch assembly 902 coupled to a carrier 904 (e.g., via solder or an adhesive).
- the dome-switch assembly 902 includes a housing 906, a dome 908 and a dome-sheet 910.
- the housing 906 includes an opening 912 to receive the dome 908.
- the dome-sheet 910 is coupled to the housing 906 to retain the dome 908 in the opening 912 of the housing 906.
- the carrier 904 of the illustrated example defines a body 914 having a first portion or leg 916 and a second portion or leg 918. More specifically, as shown, the body 914 defines an L-shaped body or profile such that the first portion 916 is substantially perpendicular relative to the second portion 918.
- the carrier 904 provides or defines a conductive trace pattern 920. More specifically, the conductive trace pattern 920 defines an electrical contact or conductive element 922 formed or provided on a first surface 924 (e.g., a side surface) of the first portion 916 that interact with the dome 908.
- the electrical contacts 922 are electrically coupled to the circuit board 804 via conductive traces 926.
- the conductive traces 926 extend from the first surface 924 of the first portion 916 across a second surface 928 of the second portion 918.
- FIG. 10 is another perspective view of the example electrical switch 800 of FIGS. 8 and 9 .
- the conductive traces 926 extend to a third surface 1002 of the second portion 918 of the carrier 904.
- the traces 926 formed on the third surface 1002 engage electrical contacts or traces positioned on the surface 802 of the circuit board 804, when the carrier 904 is coupled to the circuit board 804, to electrically couple the electrical contacts 922 and the circuit board 804.
- the traces 926 may extend across any other surface(s) of the carrier 904.
- the traces 926 may extend across the first surface 924 of the first portion 916 and a fourth surface 1004 of the first portion 916 to electrically engage electrical contacts on a side surface (e.g., perpendicular to surface 802) of the circuit board 804.
- the traces 926 can extend from the fourth surface 1004 of the first portion 916 to the third surface 1002 of the second portion 918.
- the carrier 904 may be coupled to the surface 802 of the circuit board 804 via, for example, solder 1006.
- the carrier 904 of the illustrated example is a unitary structure or body.
- the carrier 904, for example, is composed of a plastic material or resin such as, for example, a Laser Direct Structuring (LDS) resin.
- LDS Laser Direct Structuring
- the carrier 904 may be integrally formed via, for example, injection molding and/or any other suitable manufacturing process(es).
- the electrical contacts 922 and/or the electrical traces 926 electrically coupling the electrical contacts 922 to the circuit board 804 may be formed or etched in the carrier 904 via, for example, the LDS manufacturing process described above.
- FIG. 11 illustrates the example switch assembly 800 of FIGS. 8-10 coupled to another example circuit board 1102.
- the circuit board 1102 enables the switch assembly 800 to be substantially flush-mounted relative to a surface 1104 of the circuit board 1102 (e.g., a surface substantially parallel to a display of an electronic device).
- the surface 1104 of the circuit board 1102 is substantially perpendicular to a side surface 1106 of the circuit board 1102.
- the circuit board 1102 includes a recess 1108 to receive a portion of the carrier 904. More specifically, the recess 1108 receives the second portion 918 of the carrier 904.
- the third surface 1002 FIG.
- the example electrical switch assembly 800 of FIG. 11 may be coupled to the circuit board 1102 without a mechanical fastener(s) (e.g., solder) or chemical fastener(s).
- the example switch assembly 800 and circuit board 1102 of FIG. 11 enables an electronic device (e.g., the electronic device 200) employing the electrical switch assembly 800 and the circuit board 1102 to have a relatively smaller profile or dimensional envelope compared to the switch assembly 800 mounted to the circuit board 804.
- Fig. 12 is a flowchart of an example method 1200 that may be used to manufacture an example switch assembly such as the example switch assemblies 300, 702 and 800 disclosed herein. While an example manner of manufacturing the example switch assembly, one or more of the blocks and/or processes illustrated in FIG. 12 may be combined, divided, re-arranged, omitted, eliminated and/or implemented in any other way. Further still, the example method of FIG. 12 may include one or more processes and/or blocks in addition to, or instead of, those illustrated in FIG. 12 , and/or may include more than one of any or all of the illustrated processes and/or blocks. Further, although the example method 1200 is described with reference to the flow chart illustrated in FIG. 12 , many other methods of manufacturing a covering assembly may alternatively be used.
- a carrier e.g., the carrier 306 is formed or provided (block 1202).
- the carrier may be composed of plastic and may be formed via injection molding. More specifically, the carrier may be formed via a resin (e.g., a thermoplastic material) capable of being used in a laser direct structuring process.
- a conductive pattern (e.g., the pattern 328) is printed or formed on one or more surfaces of the carrier (block 1204).
- the carrier may include one or more conductive contacts or elements and one or more conductive traces or paths to electrically couple the conductive contacts to a circuit board.
- the conductive pattern may be formed on any surface, wall or area of the carrier via the Laser Direct Structuring method.
- an actuator or dome-switch assembly (e.g., the dome-switch assembly 304) is coupled to the carrier.
- the carrier is then coupled to a printed circuit board (block 1206). More specifically, a portion of the conductive pattern is to engage a conductive element (e.g., the plated slots 406) of a circuit board.
- a conductive contact may be formed on a first surface of the carrier and a conductive trace may extend from the first surface (e.g., a front surface) to a second surface (e.g., a rear surface) opposite the first surface to engage an electrical contact of a circuit board.
- the carrier employs flexible fingers or arms (e.g., the flexible fingers 326) that engage plated slots or openings of the circuit board.
- the example switch assemblies 300, 702 and 800 disclosed herein significantly facilitate assembly of a keypad apparatus to a circuit board.
- the example electrical switch assemblies 300, 702 and 800 may be coupled to a circuit board via friction fit without the use of fasteners (e.g., chemical fasteners, mechanical fasteners, solder, etc.).
- fasteners e.g., chemical fasteners, mechanical fasteners, solder, etc.
- the example switch assemblies 300, 702 and 800 disclosed herein reduce cost associated with soldering the switch assemblies 300, 702 and 800 to a circuit board.
- the example switch assemblies 300, 702 and 800 disclosed herein may be side mounted and/or flush mounted relative to a circuit board to reduce an overall dimensional profile (e.g., a height or width) of an electronic device.
- the methods described herein may be carried out by software executed, for example, by the processor 102. Coding of software for carrying out such a method is within the scope of a person of ordinary skill in the art given the present description.
- a computer-readable medium having computer-readable code may be executed by at least one processor of the portable electronic device 100 to perform the methods described herein.
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Description
- The present disclosure relates to electronic devices, including but not limited to, key apparatus for use with electronic devices and related methods.
- Electronic devices, including portable electronic devices, have gained widespread use and may provide a variety of functions including, for example, telephonic, electronic messaging, and other personal information manager (PIM) application functions. Portable electronic devices include, for example, several types of mobile stations such as simple cellular telephones, smart telephones, wireless personal digital assistants (PDAs), and laptop computers with wireless 802.11 or Bluetooth capabilities.
- Portable electronic devices such as PDAs or smart telephones are generally intended for handheld use and ease of portability. With continued demand for decreased size of portable electronic devices, electronic devices continue to decrease in size. Thus, smaller devices are generally desirable for portability. Often these portable electronic devices include physical side keys (e.g., depressible keys, plastic keys, etc.) to input information. However, physical keys typically employ an electrical switch assembly that is soldered to a circuit board. As a result, coupling an electrical switch assembly to a circuit board typically results in an electronic device having a larger dimensional envelope or size.
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EP-A-0917167 discloses an electronic device with a keypad of the prior art. -
-
FIG. 1 is a block diagram of an example portable electronic device in accordance with the teachings disclosed herein. -
FIG. 2 is an example portable electronic device ofFIG. 1 implemented with an example keypad apparatus in accordance with the teachings disclosed herein. -
FIG. 3 is an exploded view of the example keypad apparatus of the electronic device ofFIG. 2 . -
FIG. 4 is perspective view of the example keypad apparatus ofFIG. 2 andFIG. 3 . -
FIG. 5A is a plan view of the example keypad apparatus ofFIGS. 2-4 . -
FIG. 5B is another perspective view of the example keypad apparatus ofFIGS. 2-4 and5A . -
FIG. 6 is a cross-sectional view of the example keypad apparatus ofFIGS. 2-4 ,5A and5B taken along line 6-6 ofFIG. 4 . -
FIG. 7 is a cross-sectional view similar toFIG. 6 , but illustrating another example keypad apparatus in accordance with the teachings disclosed herein. -
FIG. 8 illustrates another example keypad apparatus in accordance with the teachings disclosed herein mounted to a circuit board. -
FIG. 9 is an exploded view of the example keypad apparatus ofFIG. 8 . -
FIG. 10 is a perspective view of the example keypad apparatus ofFIG. 8 andFIG. 9 . -
FIG. 11 illustrates the example keypad apparatus ofFIGS. 8-10 flush mounted relative to a circuit board. -
FIG. 12 is a flowchart of an example method that may be used to manufacture an example switch assembly disclosed herein. - Example keypad apparatus and methods disclosed herein reduce an overall dimensional envelope of an electronic apparatus. To generate an electrical signal when a key of the keypad apparatus is activated, the keypad apparatus employs an electrical switch. An example electrical switch described herein may include one or more collapsible dome switches associated with, or corresponding to, a depressible key of a keypad and electrical or conductive contacts of a circuit board. For example, an electrical switch apparatus disclosed herein is electrically coupled to a circuit board to generate an electrical signal when a key associated with the electrical switch is activated.
- More specifically, the example keypad apparatus disclosed herein may employ a carrier to electrically couple the example electrical switch to the circuit board. In particular, a dome switch collapses toward a conductive contact formed or printed on the carrier. In turn, the conductive contact of the electrical switch is electrically coupled to the circuit board via a plurality of conductive traces formed on one or more surfaces of the carrier between the conductive contact and a conductive element of a circuit board (e.g., an integrated circuit). In some instances, the example carriers are electrically coupled to a side surface (e.g., plated with conductive material) of the circuit board substantially perpendicular to a main surface of the circuit board (e.g., a surface generally parallel relative to a display of an electronic device). In some examples, the example carriers disclosed herein employ flexible fingers, arms or structures that engage a side surface of a circuit board. For example, the flexible fingers may engage respective ones of machined and electrically plated through holes or slots of the circuit board to electrically couple the carrier to the circuit board. For example, the conductive traces may be printed or provided on the flexible fingers which engage the plated slots to electrically couple the dome switch to the circuit board via the carrier. In some examples, a rear or vertical surface of the carrier includes a conductive trace or wire that engages the side surface of the circuit board to electrically couple the conductive contact to the circuit board.
- Additionally or alternatively, the carrier mechanically couples the dome-switch to the circuit board via, for example, frictional interference and/or interference fit. For example, the example carriers disclosed herein may employ flexible fingers that provide a spring bias that produces a force normal to the point of contact between the fingers and the circuit board when the carrier is coupled to the circuit board. As a result, the example carriers disclosed herein retain the carrier in engagement (e.g., in frictional engagement) with the circuit board in a relatively fixed position relative to the circuit board without the use of fasteners (e.g., chemical fasteners, mechanical fasteners, solder, etc.). In this manner, for example, the example keypad apparatus disclosed herein reduce cost associated with soldering the carrier to the circuit board. In some examples, the carrier may be at least partially disposed in a recess or cavity of a circuit board.
- An example carrier disclosed herein is composed of plastic and the conductive contact and/or the plurality of conductive traces are printed on the carrier via, for example, Laser Direct Structuring manufacturing process or techniques.
- For simplicity and clarity of illustration, reference numerals may be repeated among the figures to indicate corresponding or analogous elements. Numerous details are set forth to provide an understanding of the examples described herein.
- The disclosure generally relates to an electronic device, such as a portable electronic device as described herein. Examples of electronic devices include mobile, or handheld, wireless communication devices such as pagers, cellular phones, cellular smart-phones, wireless organizers, personal digital assistants, wirelessly enabled notebook computers, tablet computers, mobile internet devices, electronic navigation devices, and so forth. The electronic device may be a portable electronic device without wireless communication capabilities, such as a handheld electronic game, digital photograph album, digital camera, media player, e-book reader, and so forth.
- A block diagram of an example portable
electronic device 100 is shown inFIG. 1 . Theelectronic device 100 includes multiple components, such as aprocessor 102 that controls the overall operation of theelectronic device 100. Communication functions, including data and voice communications, are performed through acommunication subsystem 104. Data received by theelectronic device 100 is decompressed and decrypted by adecoder 106. Thecommunication subsystem 104 receives messages from and sends messages to awireless network 150. Thewireless network 150 may be any type of wireless network, including, but not limited to, data wireless networks, voice wireless networks, and networks that support both voice and data communications. Apower source 142, such as one or more rechargeable batteries or a port to an external power supply, powers theelectronic device 100. - The
processor 102 interacts with other components, such as a Random Access Memory (RAM) 108,memory 110, a touch-sensitive display 118, one ormore actuators 120, one ormore force sensors 122, an auxiliary input/output (I/O)subsystem 124, adata port 126, aspeaker 128, amicrophone 130, short-range communications 132 andother device subsystems 134, akeypad 137, aside key 139, etc. The touch-sensitive display 118 includes adisplay 112 and anoverlay 114 that are coupled to at least onecontroller 116 that is utilized to interact with theprocessor 102. Input via a graphical user interface is provided via the touch-sensitive display 118, thekeypad apparatus 137 and/or theside key 139. Information, such as text, characters, symbols, images, icons, and other items may be displayed or rendered on the touch-sensitive display 118 via theprocessor 102. Theprocessor 102 may also interact with anaccelerometer 136 that may be utilized to detect direction of gravitational forces or gravity-induced reaction forces. - To identify a subscriber for network access, the
electronic device 100 may utilize a Subscriber Identity Module or a Removable User Identity Module (SIM/RUIM)card 138 for communication with a network, such as thewireless network 150. Alternatively, user identification information may be programmed intomemory 110. - The
electronic device 100 includes anoperating system 146 and software programs, applications, orcomponents 148 that are executed by theprocessor 102 and are typically stored in a persistent, updatable store such as thememory 110. Additional applications or programs may be loaded onto the portableelectronic device 100 through thewireless network 150, the auxiliary (I/O)subsystem 124, thedata port 126, the short-range communications subsystem 132, or anyother device subsystems 134. - A received signal such as a text message, an e-mail message, or web page download is processed by the
communication subsystem 104 and input to theprocessor 102. Theprocessor 102 processes the received signal for output to thedisplay 112 and/or to the auxiliary (I/O)subsystem 124. A subscriber may generate data items, for example e-mail messages, which may be transmitted over thewireless network 150 through thecommunication subsystem 104. For voice communications, the overall operation of theelectronic device 100 is similar. Thespeaker 128 outputs audible information converted from electrical signals, and themicrophone 130 converts audible information into electrical signals for processing. - The touch-
sensitive display 118 may be any suitable touch-sensitive display, such as a capacitive, resistive, infrared, surface acoustic wave (SAW) touch-sensitive display, strain gauge, optical imaging, dispersive signal technology, acoustic pulse recognition, and so forth. A capacitive touch-sensitive display includes one or more capacitive touch sensors oroverlay 114. The capacitive touch sensors may comprise any suitable material, such as indium tin oxide (ITO). In other examples, theelectronic device 100 may include a non-touch sensitive display instead of, and/or in addition to, the touch-sensitive display 118. -
FIG. 2 is a plan view of a portableelectronic device 200 having a keypad apparatus orassembly 202 in accordance with the teachings disclosed herein. In the example ofFIG. 2 , the portableelectronic device 200 is a handheld or portable communication device (e.g., a mobile phone). As mentioned above, theelectronic device 200 may be a data and/or voice-enabled handheld device that may be used to send and receive a message, a voice communication, a textual entry, etc. Referring toFIG. 2 , theelectronic device 200 includes ahousing 204 that encloses electronic or mobile components such as, for example, the electronic components described above in connection withFIG. 1 . For example, thehousing 204 encloses thekeypad apparatus 202, adisplay 206, aspeaker 208, a microphone, an auxiliary I/O, a data port, etc. Thehousing 204 may include a front cover orlid 210 that couples to a frame orbase 212 to capture the electronic components within thehousing 204. Thehousing 204 of the illustrated example can be held in one hand by a user of theelectronic device 200 during data (e.g., text) and/or voice communications. - In the example of
FIG. 2 , thekeypad apparatus 202 disclosed herein is positioned on aside surface 214 of theelectronic device 200. However, in some examples, thekeypad apparatus 202 may be positioned on another side surface and/or on multiple side surfaces of theelectronic device 200. (e.g., a top side surface, a bottom side surface, side surfaces, etc.) Thekeypad apparatus 202 may include one or more buttons orkeys 216 that may be employed to input various commands to the electronic device. For example, thekeys 216 may be used to increase or decrease a volume of theelectronic device 200. In some examples, thekeys 216 may be employed to zoom in and/or zoom out when theelectronic device 200 is in a camera mode. Additionally, the display 206 (e.g., a touch-screen display) may provide akeypad 218 to provide a user input and accommodate textual inputs to theelectronic device 200. Thekeypad 218 enables character inputs including alphabetical and/or numeric entries to allow text and/or numeric entry for various functions. For example, thekeypad 218 may be a QWERTY style keypad, a SureType keypad, or any other suitable physical keypad(s). Alternatively, thekeypad 218 may be a virtual keyboard that appears on a touch screen display (not shown). In this example, theelectronic device 200 also includesfunction keys 220. For example, thefunction keys 220 may include an on/off button or call end button, a call send button, a menu button, an escape key, etc. Theelectronic device 200 may also include a track ball ortrackpad 222 to input information and/or control commands. - A user interacts with the
electronic device 200 via thekeypad apparatus 202, thekeypad 218, thefunction keys 220 and/or thetrackpad 222 to choose commands, execute application programs, and perform other functions by selecting menu items or icons. In combination with thekeypad apparatus 202, a user may interact with theelectronic device 200 via the touch-sensitive display to choose commands, execute application programs, and perform other functions by selecting menu items or icons by contacting or touching the icon or image via the touch screen. -
FIG. 3 illustrates an exploded view of an example electrical switch assembly 300 of theexample keypad apparatus 202 ofFIG. 2 . The electrical switch assembly 300 is shown without thehousing 204 of theelectronic device 200. The electrical switch assembly 300 of the illustrated example defines an electrical switch to couple to a structure or circuit board 301 (e.g., a printed circuit board or integrated circuit board). More specifically, in this example, the electrical switch assembly 300 defineselectrical switches keys 216. However, in other examples, the electrical switch assembly 300 may include only one electrical switch or more than two electrical switches. - The electrical switch assembly 300 of the illustrated example includes a dome-
switch assembly 304 coupled to acarrier 306. The dome-switch assembly 304 includes ahousing 308, adome 310 and adome sheet 312. Thehousing 308 of the illustrated example includes an opening oraperture 314 extending between afirst surface 316 of thehousing 308 and asecond surface 318 of thehousing 308 opposite thefirst surface 316. Theaperture 314 of thehousing 308 is configured or sized to receive at least a portion of thedome 310. More specifically, at least a portion of thedome 310 is positioned in theaperture 314 when the dome-switch assembly 304 is coupled to thecarrier 306. Thedome 310 ofFIG. 3 is a metal dome. The dome sheet 312 (e.g., a mylar film) retains thedome 310 in theaperture 314 of thehousing 308. Thedome sheet 312 is coupled or attached to afirst surface 316 of thehousing 308 via, for example, adhesive. Thehousing 316 of the illustrated example couples thedome 310 to thecarrier 306. In the illustrated example, the dome-switch assembly 304 or thehousing 308 is coupled or attached to thecarrier 306 via, for example, solder. As shown, thehousing 308 includes one or more recesses, apertures orslots 320 positioned or formed on aside surface 322 of thehousing 308 to receive the solder to facilitate attachment or assembly of thehousing 308 to thecarrier 306. However, in other examples, thehousing 308 may be attached to thecarrier 306 via adhesive and/or any other suitable chemical fastener(s) and/or mechanical fastener(s). - The
carrier 306 of the illustrated example comprises abody 324 having a plurality of flexible fingers orarms 326. Thebody 324 and theflexible fingers 326 provide a plurality ofconductive trace patterns 328. More specifically, each of thetrace patterns 328 defines a first portion or conductive contacts 330 (e.g., electrical contacts) and a second portion or conductive traces 332 (e.g., electrical traces). In particular, theconductive contacts 330 are formed or provided on a first surface 334 (e.g., a side surface) of thecarrier 306 and interact with thedome 310. The conductive traces 332 couple theconductive contacts 330 to thecircuit board 301. As shown in the example ofFIG. 3 , a first set of electrical contacts 330a is electrically coupled to thecircuit board 301 via a first plurality of conductive traces 332a and a second set of electrical contacts 330b is electrically coupled to thecircuit board 301 via a second plurality of conductive traces 332b. The first and second plurality of conductive traces 332a and 332b electrically isolate the first and second set of electrical contacts 330a and 330b, respectively. - The
body 324 of thecarrier 306 of the illustrated example is a unitary structure or body. Thebody 324, for example, is composed of a plastic material or plastic resin such as, for example, a resin or plastic capable of being used in a Laser Direct Structuring (LDS) process(es). For example, an LDS capable resin may include thermoplastic materials such as, for example, Polypropylene, Polyethylene terephthalate, Polysulfone, etc. Thebody 324 may be integrally formed via, for example, injection molding and/or any other suitable manufacturing process(es). However, in some examples, thecarrier 306 or thebody 324 may be formed as multiple pieces (e.g., two-piece body) that may be coupled together via chemical fasteners (e.g., adhesive), mechanical fasteners, plastic welding, etc. - In the illustrated example, after the
body 324 is formed via an injection molding process, theelectrical contacts 330 and/or theconductive traces 332 electrically coupling theelectrical contacts 330 to thecircuit board 301 may be formed or etched in thebody 324 via, for example, LDS manufacturing process. Such a process enables injection molded plastic parts such as thebody 324 to be selectively plated with discrete circuit pathways (i.e., the plurality of trace patterns 328). To this end, a laser basically etches, writes or prints a conductive trace pattern corresponding to the position of theconductive contacts 330 and/or theconductive traces 332 onto thebody 324 after thebody 324 is formed via injection molding. Thebody 324 having the printed pattern, contacts and/or traces is then immersed within a copper bath to provide theconductive contacts 330, theconductive traces 332 and/or thetrace patterns 328. -
FIG. 4 is a perspective view of the example electrical switch assembly 300 ofFIG. 3 coupled to thecircuit board 301. More specifically, the electrical switch assembly 300 is coupled to thecircuit board 301 via frictional engagement or interference fit. In this manner, the switch assembly 300 may be coupled to thecircuit board 301 without the use of fasteners(s) (e.g., solder). However, in other examples, the electrical switch assembly 300 may be coupled to thecircuit board 301 via, for example, solder. - In the illustrated example, the electrical switch assembly 300 is electrically coupled to a first or
side surface 402 of thecircuit board 301. As shown inFIG. 4 , theside surface 402 of thecircuit board 301 is substantially parallel relative to theside surface 214 of thehousing 204 ofFIG. 2 . Thus, theside surface 402 of thecircuit board 301 of the illustrated example is substantially perpendicular to thesecond surface 404 of thecircuit board 301, which is substantially parallel or aligned with thedisplay 206 of theelectronic device 200 ofFIG. 2 . As shown inFIG. 4 , theside surface 402 of thecircuit board 301 has a surface area that is substantially less than a surface area of thesecond surface 404. To enable the electrical switch assembly 300 to be electrically coupled to theside surface 402 of thecircuit board 301, thecircuit board 301 includes one or more apertures or slots 406 (e.g., through holes) plated with an electrically conductive material (e.g., copper). As shown inFIG. 4 , the platedslots 406 are exposed or accessible via theside surface 402 of thecircuit board 301. Each of the platedslots 406 defines a longitudinal axis and each of theslots 406 extends between thesecond surface 404 and a third orbottom surface 408 of thecircuit board 301. In some examples, theslots 406 partially extend between thesecond surface 404 and thebottom surface 408. -
FIG. 5A is a perspective bottom view of the electrical switch assembly 300 coupled to thecircuit board 301.FIG. 5B is a plan view of the example electrical switch assembly 300 coupled to thecircuit board 301. Referring toFIG. 5A andFIG. 5B , to electrically couple theelectrical contacts 330 to thecircuit board 301, theconductive traces 332 extend from theelectrical contacts 330 to the conductive platedslots 406 of thecircuit board 301. More specifically, theconductive traces 332 extend from thefirst surface 334 of thecarrier 306, an intermediate surface 502 (e.g., a curved bottom surface), asecond surface 504 and along anouter surface 506 of theflexible flingers 326. Thus, as shown in the illustrated example, aportion 508 of theconductive traces 332 are printed, formed or provided on theouter surface 506 of theflexible fingers 326. Theportion 508 of conductive traces 532 on theouter surface 506 of theflexible fingers 326 electrically engage the platedslots 406 of thecircuit board 301 to electrically couple theelectrical contacts 330 to thecircuit board 301. In other words, theconductive traces 332 and/or theelectrical contacts 330 can be positioned and/or formed on any and/or all of the surfaces of thecarrier 306 including, for example, theflexible fingers 326. The conductive traces 332 may be configured on thecarrier 306 in any pattern or surface to electrically couple theelectrical contacts 330 and the platedslots 406 of thecircuit board 301. - Additionally, the
flexible fingers 326 of thecarrier 306 of the illustrated example mechanically couple thecarrier 306 to thecircuit board 301 via frictional engagement or interference. Theflexible fingers 326 provide a spring bias orforce 510 to retain thecarrier 306 engaged with the platedslots 406 of thecircuit board 301. For example, each of theflexible fingers 326 provide areactive force 510 in a direction normal to the longitudinal axes of the platedslots 406 and/or theside surface 402 of thecircuit board 301. As clearly shown inFIG. 5B , thecarrier 306 can be positioned adjacent theside surface 402 of thecircuit board 301 with relatively small clearance ordistance 512. As a result, the closer theflexible fingers 326 bend, flex and/or move toward thesecond side 504 of thecarrier 306, the greater theforce 510 theflexible fingers 326 impart to the platedslots 406 of thecircuit board 301 to retain thecarrier 306 coupled or positioned relative to the platedslots 406 and/or thecircuit board 301. Thus, theflexible fingers 326 provide theforce 510 to retain thecarrier 306 coupled to thecircuit board 301 when the electrical switch assembly 300 is positioned between thehousing 204 of theelectronic device 200 ofFIG. 2 and thecircuit board 301. Thus, thecarrier 306 does not require solder, adhesive and/or other fasteners to couple to thecircuit board 301. Instead, theflexible fingers 326 prevent thecarrier 306 from moving or shifting laterally relative to and/or along theside surface 402 of thecircuit board 301. Accordingly, because solder is not needed to couple thecarrier 306 to thecircuit board 301, the dimensional envelope of the electrical switch assembly 300 is significantly smaller. As a result, the electrical switch assembly 300 and/orcarrier 306 enable theelectronic device 200 to have a substantially smaller dimensional envelope or profile (e.g., a dimensional height). Additionally or alternatively, because chemical or mechanical fasteners are not needed to couple the electrical switch assembly 300 to thecircuit board 301, the electrical switch assembly 300 significantly facilitates assembly of theelectronic device 200 ofFIG. 2 . -
FIG. 6 is a cross-sectional side view of the exampleelectrical switch assembly 302 ofFIGS. 2-4 ,5A and5B taken along line 6-6 ofFIG. 4 . As shown inFIG. 6 , the electrical switch assembly 300 is positioned between aside wall 602 of thehousing 204 orbase 212 of theelectronic device 200 and thecircuit board 301. Thekeypad apparatus 202 of the illustrated example includes anactuator assembly 604 positioned adjacent the electrical switch assembly 300. Theactuator assembly 604 interacts with the electrical switch assembly 300 to generate an electrical signal when a user depresses thekeys 216 associated or corresponding to theelectrical switches actuator assembly 604 of the illustrated example includes the key 216 (e.g., a button) and a plunger oractuator 606 positioned between the key 216 and thedome 310. Theactuator 606 provides stiffness to hold the key 216 in position when a force is not exerted on the key 216 toward thedome 310. In this example, the key 216 at least partially extends from thehousing 204 when the key 216 is not depressed as shown inFIG. 6 . - The
dome 310 is positioned adjacent theelectrical elements 330 of thecarrier 306 and is aligned relative to theconductive contacts 330 of therespective trace patterns 328. As shown, thedome 310 is positioned inside theaperture 314 of thehousing 308 such that thedome 310 can engage thefirst surface 334 of thecarrier 306. More specifically, theaperture 314 enables thedome 310 to engage theelectrical contacts 330 when thedome 310 is deflected or collapsed. As shown, thedome sheet 312 retains thedome 310 in theaperture 314 of thehousing 308. - In operation, the
actuator 606 provides stiffness to hold the key 216 in position. Further, the dome-switch assemblies 304 are in a non-deflected or non-collapsed position when the key 216 is not pressed or actuated. A user can exert a force (e.g., a side force) on the key 216 to depress the key 216 associated with theelectrical switch 302a with relative ease. The force required to press the key 216 is large enough that the person can feel a resistance to the pressure of their finger on the key 216. Theelectronic device 200 detects or senses a deflection or activation of the electrical switch when the key 216 is in a depressed position or actuated position relative to the base 212 to activate the electrical switch and generate an electrical signal. - For example, to activate the
electrical switch 302a, a user depresses the key 216 associated with theelectrical switch 302a to provide data input to theelectronic device 200. In particular, theelectrical switch 302a generates an output signal that is received by a processor (e.g., the processor 102) when the key 216 is depressed by a user. When a user presses the key 216, theactuator 606 moves toward thetrace pattern 328 of thecarrier 306. Theactuator 606 presses against thedome 310 to cause thedome 310 to deflect, collapse, flex or bend toward thetrace pattern 328 of thecarrier 306. In turn, thedome 310 collapses toward theconductive contacts 330 of thetrace pattern 328 such that acontact surface 610 of thedome 310 engages theconductive contacts 330 of thecarrier 306, thereby closing an electrical circuit and generating an electrical signal that is received or detected by theprocessor 102. Thedome 310 is configured to provide a dome-snap profile to provide a click (e.g., an audible sound) or snap feel tactility to a user. - To return the key 216 to the non-actuated or initial position in which the electrical switch is deactivated, a user releases the key 216. When the key 216 is released, the
actuator 606 returns to its original position or state and releases thedome 310. Thedome 310 also snaps back to its initial, original or dome shaped position. Thedome 310 provides a tactile feedback (e.g., a force) to the user when thedome 310 snaps back to its original position. In particular, thedome 310 functions as a spring to push theactuator 606 back to the initial or non-activated position as shown inFIG. 6 . - Although not shown, in other examples, the switch assembly 300 can be configured without use of the dome-
switch assembly 304. For example, theactuator 606 may employ a conductive material or element to interact with theconductive contacts 330 of thecarrier 306. For example, theactuator 606 may be biased away from thefirst surface 334 of thecarrier 306 via a biasing element. -
FIG. 7 illustrates anotherexample keypad apparatus 700 constructed in accordance with the teachings disclosed herein. Unlike theexample keypad apparatus 202 ofFIGS. 2-4 ,5A ,5B and 6 , anelectrical switch assembly 702 of theexample keypad apparatus 700 ofFIG. 7 does not employ a housing (e.g., thehousing 306 of the dome-switch assembly 304). Instead, acarrier 704 is formed with a recess orcavity 706 to receive at least a portion of adome 708. A dome-sheet 710 is attached to asurface 712 of thecarrier 704 to retain thedome 708 in thecavity 706. A surface orwall 714 defined by thecavity 706 includes atrace pattern 716. Thetrace patterns 716 includeconductive contacts 718 that are routed to acircuit board 720 viaconductive traces 722 formed onsurface 724, thesurface 714 and/or aflexible finger 726 of thecarrier 704 in a manner similar to thetrace patterns 328 ofFIGS. 2-4 ,5A ,5B and 6 . Thecarrier 704 is formed via injection molding and theconductive contacts 718 and/or thetraces 722 may be formed on thecarrier 704 via, for example, LDS manufacturing process. As shown, because thecarrier 704 may be formed via injection molding, theexample carrier 704 is formed with thecavity 706 sized or configured to receive thedome 708. -
FIG. 8 illustrates another exampleelectrical switch assembly 800 disclosed herein. Theelectrical switch assembly 800 ofFIG. 8 is coupled to afirst surface 802 of acircuit board 804. In this example, theelectrical switch assembly 800 is mounted on thefirst surface 802 of thecircuit board 804 via soldering. However, in other examples, theswitch assembly 800 may be coupled to thecircuit board 804 via any other suitable chemical fastener(s) (e.g., adhesive) and/or mechanical fastener(s). -
FIG. 9 is an exploded view of the exampleelectrical switch assembly 800 ofFIG. 8 . Theelectrical switch assembly 800 employs a dome-switch assembly 902 coupled to a carrier 904 (e.g., via solder or an adhesive). The dome-switch assembly 902 includes ahousing 906, adome 908 and a dome-sheet 910. Thehousing 906 includes anopening 912 to receive thedome 908. The dome-sheet 910 is coupled to thehousing 906 to retain thedome 908 in theopening 912 of thehousing 906. - The
carrier 904 of the illustrated example defines abody 914 having a first portion orleg 916 and a second portion orleg 918. More specifically, as shown, thebody 914 defines an L-shaped body or profile such that thefirst portion 916 is substantially perpendicular relative to thesecond portion 918. In addition, thecarrier 904 provides or defines aconductive trace pattern 920. More specifically, theconductive trace pattern 920 defines an electrical contact orconductive element 922 formed or provided on a first surface 924 (e.g., a side surface) of thefirst portion 916 that interact with thedome 908. Theelectrical contacts 922 are electrically coupled to thecircuit board 804 via conductive traces 926. The conductive traces 926 extend from thefirst surface 924 of thefirst portion 916 across asecond surface 928 of thesecond portion 918. -
FIG. 10 is another perspective view of the exampleelectrical switch 800 ofFIGS. 8 and9 . Referring toFIGS. 8-10 , theconductive traces 926 extend to athird surface 1002 of thesecond portion 918 of thecarrier 904. Thetraces 926 formed on thethird surface 1002 engage electrical contacts or traces positioned on thesurface 802 of thecircuit board 804, when thecarrier 904 is coupled to thecircuit board 804, to electrically couple theelectrical contacts 922 and thecircuit board 804. In other examples, thetraces 926 may extend across any other surface(s) of thecarrier 904. For example, thetraces 926 may extend across thefirst surface 924 of thefirst portion 916 and afourth surface 1004 of thefirst portion 916 to electrically engage electrical contacts on a side surface (e.g., perpendicular to surface 802) of thecircuit board 804. Alternatively, thetraces 926 can extend from thefourth surface 1004 of thefirst portion 916 to thethird surface 1002 of thesecond portion 918. Thecarrier 904 may be coupled to thesurface 802 of thecircuit board 804 via, for example,solder 1006. - The
carrier 904 of the illustrated example is a unitary structure or body. Thecarrier 904, for example, is composed of a plastic material or resin such as, for example, a Laser Direct Structuring (LDS) resin. Thecarrier 904 may be integrally formed via, for example, injection molding and/or any other suitable manufacturing process(es). In the illustrated example, after thecarrier 904 is formed via an injection molding process, theelectrical contacts 922 and/or theelectrical traces 926 electrically coupling theelectrical contacts 922 to thecircuit board 804 may be formed or etched in thecarrier 904 via, for example, the LDS manufacturing process described above. -
FIG. 11 illustrates theexample switch assembly 800 ofFIGS. 8-10 coupled to anotherexample circuit board 1102. In this example, thecircuit board 1102 enables theswitch assembly 800 to be substantially flush-mounted relative to asurface 1104 of the circuit board 1102 (e.g., a surface substantially parallel to a display of an electronic device). In this example, thesurface 1104 of thecircuit board 1102 is substantially perpendicular to aside surface 1106 of thecircuit board 1102. Thecircuit board 1102 includes arecess 1108 to receive a portion of thecarrier 904. More specifically, therecess 1108 receives thesecond portion 918 of thecarrier 904. The third surface 1002 (FIG. 10 ) of thecarrier 904 engages a surface or base defined by therecess 1108 such that thetraces 926 engage respective electrical contacts positioned on the base of therecess 1108. When coupled to thecircuit board 1102,walls 1110 of thecircuit board 1102 defined by therecess 1108 maintain or hold a portion and/or position (e.g., a lateral position) of thecarrier 904 relative to theside surface 1106 of thecircuit board 1102. Thus, the exampleelectrical switch assembly 800 ofFIG. 11 may be coupled to thecircuit board 1102 without a mechanical fastener(s) (e.g., solder) or chemical fastener(s). Theexample switch assembly 800 andcircuit board 1102 ofFIG. 11 enables an electronic device (e.g., the electronic device 200) employing theelectrical switch assembly 800 and thecircuit board 1102 to have a relatively smaller profile or dimensional envelope compared to theswitch assembly 800 mounted to thecircuit board 804. -
Fig. 12 is a flowchart of anexample method 1200 that may be used to manufacture an example switch assembly such as theexample switch assemblies FIG. 12 may be combined, divided, re-arranged, omitted, eliminated and/or implemented in any other way. Further still, the example method ofFIG. 12 may include one or more processes and/or blocks in addition to, or instead of, those illustrated inFIG. 12 , and/or may include more than one of any or all of the illustrated processes and/or blocks. Further, although theexample method 1200 is described with reference to the flow chart illustrated inFIG. 12 , many other methods of manufacturing a covering assembly may alternatively be used. - To begin the example assembly process of
FIG. 12 , a carrier (e.g., the carrier 306) is formed or provided (block 1202). For example, the carrier may be composed of plastic and may be formed via injection molding. More specifically, the carrier may be formed via a resin (e.g., a thermoplastic material) capable of being used in a laser direct structuring process. - After the carrier is formed, a conductive pattern (e.g., the pattern 328) is printed or formed on one or more surfaces of the carrier (block 1204). For example, the carrier may include one or more conductive contacts or elements and one or more conductive traces or paths to electrically couple the conductive contacts to a circuit board. For example, the conductive pattern may be formed on any surface, wall or area of the carrier via the Laser Direct Structuring method. After the carrier is formed, an actuator or dome-switch assembly (e.g., the dome-switch assembly 304) is coupled to the carrier.
- The carrier is then coupled to a printed circuit board (block 1206). More specifically, a portion of the conductive pattern is to engage a conductive element (e.g., the plated slots 406) of a circuit board. For example, a conductive contact may be formed on a first surface of the carrier and a conductive trace may extend from the first surface (e.g., a front surface) to a second surface (e.g., a rear surface) opposite the first surface to engage an electrical contact of a circuit board. In some examples, the carrier employs flexible fingers or arms (e.g., the flexible fingers 326) that engage plated slots or openings of the circuit board.
- The
example switch assemblies electrical switch assemblies example switch assemblies switch assemblies example switch assemblies - The methods described herein may be carried out by software executed, for example, by the
processor 102. Coding of software for carrying out such a method is within the scope of a person of ordinary skill in the art given the present description. A computer-readable medium having computer-readable code may be executed by at least one processor of the portableelectronic device 100 to perform the methods described herein. - The scope of the disclosure is defined by the appended claims.
Claims (7)
- A keypad apparatus (202) comprising:a dome-switch assembly (304) having:a housing (308);a dome (310) anda dome sheet (312) to couple the dome to the housing;a plastic carrier (306), the plastic carrier having at least a first surface (334), a second surface adjacent the first surface, and a third surface adjacent the second surface, the dome-switch assembly being coupled to the first surface; anda conductive pattern (328) printed on at least the first and second surfaces of the plastic carrier, the dome to engage a first portion (330) of the conductive pattern formed on the first surface of the plastic carrier when the dome-switch is coupled to the plastic carrier and a second portion (332) of the conductive pattern is to electrically couple the first portion of the conductive pattern to a circuit board (301);wherein the circuit board defines a main surface to be positioned substantially parallel relative to a display (206) of an electronic device (200), and
wherein the circuit board includes one or more plated slots (406) to electrically couple the circuit board to the plastic carrier, the plated slots being exposed via the side surface, and
wherein the plastic carrier further comprises a plurality of flexible arms (326) having the second portion of the conductive pattern printed thereon, the flexible arms providing a spring bias to retain the carrier engaged with the plated slots to electrically couple the circuit board to the first portion of the conductive pattern. - The keypad apparatus of claim 1, wherein the plastic carrier is electrically coupled to the circuit board.
- The keypad apparatus of claim 2, wherein the plastic carrier is electrically coupled to the circuit board via a side surface of the circuit board substantially perpendicular relative to the first surface of the circuit board.
- The keypad apparatus of claim 2, wherein the plastic carrier comprises an L-shaped body (914), the first surface defining a first leg (916) of the L-shaped body
and the second surface defining a second leg (918) of the L-shaped body,
and/or
wherein the circuit board includes a recess (1108) to receive the second leg of
the L-shaped body such that a surface of the second leg of the L-shaped body is substantially flush mounted relative to the main surface of the circuit board. - The keypad apparatus of clam 4, wherein the plastic carrier is coupled to the main surface of the circuit board via solder.
- The keypad apparatus of claim 1, wherein the dome-switch is coupled to the first surface of the plastic carrier via solder.
- The keypad apparatus of claim 1, wherein the housing includes an opening (912) to receive at least a portion of the dome.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP12184954.1A EP2711953B1 (en) | 2012-09-19 | 2012-09-19 | Keypad apparatus for use with electronic devices and related methods |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP12184954.1A EP2711953B1 (en) | 2012-09-19 | 2012-09-19 | Keypad apparatus for use with electronic devices and related methods |
Publications (2)
Publication Number | Publication Date |
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EP2711953A1 EP2711953A1 (en) | 2014-03-26 |
EP2711953B1 true EP2711953B1 (en) | 2017-02-22 |
Family
ID=46982463
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP12184954.1A Active EP2711953B1 (en) | 2012-09-19 | 2012-09-19 | Keypad apparatus for use with electronic devices and related methods |
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EP (1) | EP2711953B1 (en) |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE69703301T2 (en) * | 1997-07-23 | 2001-04-05 | Molex Inc | Electrical switch and circuit arrangement |
US6148183A (en) * | 1997-12-31 | 2000-11-14 | Motorola, Inc. | Switch assembly for an electronic device |
JP3959916B2 (en) * | 2000-01-25 | 2007-08-15 | 松下電器産業株式会社 | Push-on switch, electronic device equipped with the same, and method of attaching the same |
US8020744B2 (en) * | 2009-02-27 | 2011-09-20 | Lanxess Corporation | Methods for connecting a wire to a metalized circuit path on a plastic part |
-
2012
- 2012-09-19 EP EP12184954.1A patent/EP2711953B1/en active Active
Non-Patent Citations (1)
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None * |
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