摘要:
A method for fabricating MicroSD devices includes forming a PCB panel having multiple PCBs arranged in parallel rows, with each PCB connected to its neighboring PCBs in each row by relatively narrow connecting bridge pieces, and separated from PCBs of adjacent rows by elongated stamped out blank slots. Passive components are attached by conventional surface mount technology (SMT) techniques. IC chips, including a MicroSD controller chip and a flash memory chip, are attached to the PCB by wire bonding or other chip-on-board (COB) technique. A molded housing is then formed over the IC chips and passive components using a mold that prevents formation of plastic on the upper surface of each PCB. The connecting bridge pieces are then cut using a used to connect each PCB to a PCB panel are then cut using a rotary saw. A front edge chamfer process is then performed.
摘要:
According to certain embodiments of the invention, a single chip COB USB manufacturing is using chip-on-board (COB) processes on a PCB panel with multiple individual USB PCB substrates. This single chip COB USB is laid out in an array of N×M matrixes. The advantages of this method are: 1) use molding over PCBA, versus conventional of using SMT process to mount all necessary component on substrate to form PCBA; 2) simpler rectangular structure to fit any external decorative shell package for added value; and 3) package is moisture resistance if not water proof.
摘要:
A method for fabricating MicroSD devices includes forming a PCB panel having multiple PCBs arranged in parallel rows, with each PCB connected to its neighboring PCBs in each row by relatively narrow connecting bridge pieces, and separated from PCBs of adjacent rows by elongated stamped out blank slots. Passive components are attached by conventional surface mount technology (SMT) techniques. IC chips, including a MicroSD controller chip and a flash memory chip, are attached to the PCB by wire bonding or other chip-on-board (COB) technique. A molded housing is then formed over the IC chips and passive components using a mold that prevents formation of plastic on the upper surface of each PCB. The connecting bridge pieces are then cut using using a rotary saw. A front edge chamfer process is then performed.
摘要:
According to certain embodiments of the invention, a flash memory card is manufactured using COB processes on a PCB panel with multiple micro cards PCB substrates. These micro memory cards are laid out in an array of 3×5 matrixes of micro cards PCB substrates. A method of molding over a PCBA is utilized, contrary to a conventional method of having two or more pieces of package components to tape together. This results in a simpler structure without the notch which enables easier singulation process and the package is moisture resistance. The final product is a single piece versus two or three pieces glued up pieces and would not separate from pieces. The final product has high water and moisture resistance, low cost and fast manufacturing throughput, no seam and aesthetically more appeasing, can stack more layers of flash memory die, and be maximized XY spaces to accommodate larger size flash memory die.
摘要:
A method for fabricating MicroSD devices includes forming a PCB panel having multiple PCB regions arranged in parallel rows. Passive components are attached by conventional surface mount technology (SMT) techniques. IC chips, including a MicroSD controller chip and a flash memory chip, are attached to the PCB by wire bonding or other chip-on-board (COB) technique. A molded layer is then formed over the IC chips and passive components using a mold that prevents formation of plastic on the upper surface of each PCB. The panel is then singulated using one of a laser cutting method, an abrasive water jet cutting method, and a mechanical grinding method such that the resulting PCB substrate and plastic housing have the width, height and length specified by MicroSD specifications. A front edge chamfer process is then performed.
摘要:
A memory card (e.g., SD or MMC) device including a PCBA in which components are mounted on a “rigid-flex” PCB including at least one rigid PCB section and at least one flexible PCB section, and a housing that includes both a pre-molded upper housing portion and a molded casing. The rigid-flex PCB is mounted into the upper housing portion such that standard metal contacts disposed on an upper surface of the rigid-flex PCB are exposed through openings defined the upper housing portion, and such that the flexible section of the rigid-flex PCB over any contours formed on the inside surface of the upper housing portion. The molded casing is then formed by depositing thermoset plastic over the lower surface of rigid-flex PCB.
摘要:
A low-profile Universal-Serial-Bus (USB) assembly includes a modular USB core component that is mounted into a swivel casing. The modular USB core component includes a PCBA in which all passive components and unpackaged IC chips are attached to a single side of a PCB opposite to the metal contacts. The IC chips (e.g., USB controller, flash memory) are attached to the PCB by wire bonding or other chip-on-board (COB) technique. The passive components are attached by conventional surface mount technology (SMT) techniques. The swivel casing includes a holder that is pivotably mounted into an external housing by way of a pivot pin. The pivot pin is either a separate structure that is inserted into holes formed in the holder and housing, or is integrally formed on the holder.
摘要:
A low-profile Universal-Serial-Bus (USB) assembly includes a modular USB core component that is retractably mounted into an external housing. The modular USB core component includes a PCBA in which all passive components and unpackaged IC chips are attached to a single side of a PCB opposite to the metal contacts. The IC chips (e.g., USB controller, flash memory) are attached to the PCB by wire bonding or other chip-on-board (COB) technique. The passive components are attached by conventional surface mount technology (SMT) techniques. The housing includes a retractable mechanism that facilitates selective exposure of metal contacts, either by sliding a front portion of the modular USB core component into and out of a front opening of the housing, or by providing a cover plate that slidably covers the front portion of the modular USB core component.
摘要:
A low-profile Universal-Serial-Bus (USB) assembly includes a modular USB core component and an external case. The modular USB core component includes a PCBA in which all passive components and unpackaged IC chips are attached to a single side of a PCB opposite to the metal contacts. The IC chips (e.g., USB controller, flash memory) are attached to the PCB by wire bonding or other chip-on-board (COB) technique. The passive components are attached by conventional surface mount technology (SMT) techniques. A molded housing is then formed over the IC chips and passive components such that the device has a uniform thickness. The modular USB core component is then inserted or otherwise combined with an external plastic case to provide a USB assembly. An optional carrying case is disclosed.
摘要:
A microSD-to-SD adaptor card includes a base substrate having a lead frame structure, a protective cap forming a chamber that encloses eight microSD contact pins of the lead frame structure, and a thermoset plastic casing formed over the protective cap and exposed portions of the base substrate to provide the adaptor card with standard SD card dimensions. A rear opening facilitates insertion of a standard microSD card, whereby the eight contact pads on the microSD card are contacted by the eight microSD contact pins inside the chamber to allow electrical signals generated by the microSD card to be transmitted to a host system by way of a standard SD socket. A grip anchor pin is disposed inside the chamber to engage a grip notch disposed on the microSD card. A pre-molded switch slot is provided on the molded plastic casing, and an insert-in write protect switch is mounted after molding.