Communications: radio wave antennas – Antennas – With radio cabinet
Reexamination Certificate
1999-03-12
2001-09-25
Ho, Tan (Department: 2821)
Communications: radio wave antennas
Antennas
With radio cabinet
C343S841000, C343S906000, C235S488000, C361S737000
Reexamination Certificate
active
06295031
ABSTRACT:
BACKGROUND OF THE INVENTION
Advancements in electronics technology have allowed electronic equipment, such as computers, to be downsized to facilitate portability. This downsizing has resulted in internal spatial restrictions that have created a need for the establishment of standards for the component devices in the electronic equipment.
The Personal Computer Memory Card International Association (PCMCIA), an organization comprised of hundreds of manufacturers of memory cards and related peripheral equipment, has established spatial standards for all circuit boards used in downsized computers. PCMCIA has developed a 68-pin memory card standard for three memory card types as follows: a. Type I Memory Cards are the same width and length as a common credit card, about 54 mm×85.6 mm, but are thicker than a credit card. The thickness of a Type I card is 3.3 mm (0.130″).
b. Type II Memory Cards are used by those companies which are utilizing memory components that are too high to be housed within a Type I card. Type II memory cards are also the same overall length and width as credit cards, but have a raised body cross section in the substrate area which gives them an overall thickness of 5 mm (0.195″). The raised substrate areas of these cards are 48 mm in width.
c. Type III Memory Cards are the result of a recent movement sponsored by the Small Form Factor Committee to enable 1.8″ Small Form Factor Disk Drives to be plugged into memory card connectors in small portable computer applications. Type III memory cards are the same length and width as Type I and Type II memory cards. However, Type III cards have a substrate area thickness of 10.5 mm. Also, Type III memory cards require a card guide opening width of 51 mm on the header connector to accommodate the slightly wider raised substrate area.
By complying with the standards established by PCMCIA for memory cards, card manufacturers of peripheral devices, such as communication cards, have assured themselves of compatibility and spatial conformity with computers and other electronic devices that conform to the new PCMCIA standards. The size and shape of the circuit board holder of the present invention comply with the PCMCIA Type II memory card standards. The standard 68-pin connector is plugged into a keyed plug connector on a computer or electronic device and the dimensions of the card holder frame and covers are standard for Type II cards. However, the radio circuit board design and antenna assembly of the present invention are not limited to PCMCIA Type II memory cards and can be used for any memory card, as well as other circuit boards for computers or electronic devices using a variety of edge connectors.
Bar code scanners are widely used at check-out counters in supermarkets, department stores and almost every other business where a cash register is employed. The scanners are typically mounted in either a stationary housing or a hand held “gun” or “wand” that is connected to the computerized register with an electrical cord. A major limitation with these scanners is that they are tethered to the register and cannot be used outside of a short distance from a relatively fixed location. This limitation has created a long felt need in the bar code industry for portable bar code scanners. The present invention meets this need by providing a radio memory card and antenna assembly for a portable bar code scanner that interfaces with a cash register or other computerized device by radio communication. U.S. Pat. No. 5,519,577 to Dudas et al. discloses a radio memory card in a shielded PCMCIA card and is incorporated herein by reference.
The present invention provides for a memory card holder with a circuit board for a spread spectrum radio communicator and an antenna assembly that overcomes Radio Frequency Interference (RFI) shielding, Electrostatic Discharge (ESD) resistance and heat-sinking problems encountered by typical prior art devices. However, this memory card holder is not limited to spread spectrum communicators and may be used for various types of memory cards and circuit boards.
The present invention is specifically designed to provide radio communication between portable bar-code scanners and other data collecting and/or generating devices through a localarea network to a computer. This satisfies a long felt need for communications between a portable scanner and other similar devices and a stationary computer. Such time consuming tasks as taking inventory in a warehouse or other facility are made simpler, easier and faster by the present invention. The present invention, when used with a local-area network installed within the facility, enables a scanner or other device to communicate directly with the computer that manages the inventory. Other uses include monitoring articles as they enter and leave an area and tracking manufacturing production by monitoring articles at various stages of the production process.
In the prior art, communication was typically accomplished by hardwired interconnection between a remote device and a computer or by connecting an external radio communicator to the portable device for communication with the computer. Integrally mounting a radio communicator in a portable device required elaborate shielding methods since the proximity of other electronic components in the spatially restricted housings resulted in the disruption of the radio communication signal. In addition to the digital noise generated from within the housing, these radio communicators also were susceptible to disruption from external noise. These problems were not successfully overcome by typical prior art communicators because the spatial restrictions did not permit adequate room for shielding and grounding.
Wireless devices employ antennas to radiate and receive electromagnetic energy. Antennas generally work best when they are not surrounded by materials that block the radio signals. Therefore, antennas are often designed to extend out of a mobile device or the mobile device is made larger to accommodate a space around the antenna. However, antennas protruding from mobile devices are inconvenient for the user since they generally extend the dimensions of the mobile device and can be easily damaged. The disadvantage of a removable antenna is that the antenna has to be stored and it can be easily misplaced or lost when not connected to the mobile device. Therefore, it is an advantage to be able to store the antenna inside the memory card assembly. This eliminates the problems of the antenna being damaged when the device is not being used and being misplaced or lost when the mobile device is stored.
In most cases, when a user removes or retracts an antenna, the user is no longer using the wireless device since the range is reduced dramatically without the antenna. The present invention controls the power usage of a mobile device by providing a means for the user to power off the wireless device when the antenna is removed.
SUMMARY OF THE INVENTION
The present invention provides a method for producing a radio card assembly that is grounded and shielded from digital noise inside the card holder and from both digital and radio noise outside the card holder. More specifically, the present radio card has shielded compartments on the outer surfaces that isolate electronic components. The present invention also provides an antenna assembly that includes dual function connectors for connecting the antennas and status indicating devices housed in the antenna assembly.
The present invention is for a memory card assembly that includes: 1) a multi-layer memory card circuit board made up of a ground plane disposed between a plurality of planes that include analog and digital circuits, wherein the circuit board has a first outer surface and a second outer surface, a first connector end and a second end, and the first and second outer surfaces are populated with analog and digital components extending upwardly from the surfaces; 2) forming a plurality of electrically shielded compartments on the first and second ou
Dudas Errol
Hutton Thomas J.
Martino, Jr. Raymond
Nelson Norman H.
Wallace Patrick
Ho Tan
Symbol Technologies Inc.
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