Telecommunications – Transmitter and receiver at separate stations – Short range rf communication
Reexamination Certificate
1999-07-12
2003-08-26
Urban, Edward F. (Department: 2685)
Telecommunications
Transmitter and receiver at separate stations
Short range rf communication
C419S006000, C419S006000, C340S010300, C340S572100
Reexamination Certificate
active
06611673
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates generally to the field of radio frequency tag technology. More specifically, the present invention relates to radio frequency-controlled telecommunications devices and systems.
Radio frequency (RF) tag technology has conventionally been used for identifying objects in radio frequency identification (RF ID) systems. In an RF ID system, information is carried on a tag (transponder) which is typically attached to an object of interest. When the tag comes within a RF signal field generated by a reader (transceiver) the tag responds to the incident IRF signal. Typically, the tag reflects the incident RF carrier back to the reader in a form modulated by the tag according to the information with which the tag has been previously programmed.
RF tags may be passive or active. Active tags are powered by a battery which is incorporated into the tag. Passive tags do not have batteries. They derive their power inductively or capacitively from the RF signal transmitted by the reader to interrogate the tag.
FIG. 1A
illustrates a conventional passive RF tag. The tag
100
has two main components: a semiconductor chip (integrated circuit (IC))
102
having interface circuits, logic, and memory (not shown); and an antenna
104
. The interface circuits of the IC
102
portion of a passive RF tag typically include an analog and a digital circuit. The analog circuit detects and decodes the RF signal and provides power to the digital circuit using the RF field strength of the reader. The digital circuit implements an information protocol which has been previously programmed into the tag. RF tags generally also include a variety of other discrete components, such as capacitors, clocks, and interconnections between components, a substrate for mounting components, and an enclosure.
FIG. 1B
depicts a block diagram providing additional structural information for a typical passive RF tag. The figure is not a schematic depiction of an RF tag, but is intended as an illustration of the main function elements of a typical tag and their interconnections to provide a basis for describing the actions that take place when a tag (transponder) enters the RtF field of a reader (transceiver), in order to assist in the understanding of the operation of RF tags.
An RF signal from a transceiver is received by the tag's antenna
110
when the tag enters the reader's RF field. From the antenna
110
, the signal is typically split into a portion that provides the power for the tag which is smoothed by a capacitor
111
, and a portion that provides the data to be read by and responded to by the tag's programmed logic. The power portion of the signal goes into a rectifier
112
(AC to DC converter) and the emerging DC signal is smoothed by a capacitor
104
. The data portion of the split signal is conveyed along a conductive line
116
to a data extractor
118
which demodulates the signal and extracts the digital binary command data for the logic processor
120
. The logic processor
120
receives the command and carries out the command instructions, which typically involves reading data from the tag's memory
122
. The data read from the memory
122
is then output to a modulator
124
which modulates the digital data into an analog signal. The signal is then conveyed to the antenna
110
and transmitted back to the transceiver. RF tags also typically include additional elements not illustrated in
FIG. 1B
or discussed above, such as encoders/decoders and clock extractors.
As noted above, radio frequency (RF) tag technology, particularly passive RF tag technology, has conventionally been used for identifying objects in radio frequency identification (RF ID) systems. Thus the conventional application of RF tags has been in tracking objects of interest. When the tag comes within a RF signal field generated by a reader (transceiver) the tag responds to the transceiver's incident RF signal alerting the transceiver of its presence. A typical reader includes a computer processor which issues commands to a RF transmitter and receives commands from an RF receiver. The processor may also perform one or more functions based on the tags presence in its RF field.
For example, RF tags are used by airlines to track passenger luggage. When a passenger checks a piece of luggage it is tagged with an RF ID tag programmed with an identifier for that piece of luggage. When the luggage tag comes within the RF signal field of one of many RF ID readers located throughout the luggage system, the tag may be interrogated by the reader and the location of the luggage may be reported to a central tracking system by the reader's processor. Similarly, RF tag technology is used in “card key” systems. A card key contains a RF ID tag identifying the holder as a person authorized to pass through a door or gate. When the card comes within the RF signal field of an RF ID reader located at a door or gate, the tag may be interrogated by the reader and the authorization of the cardholder to pass may be confirmed, the door or gate my be opened, and the cardholder's passage recorded by the reader's processor.
While conventional implementations of RF tag technology have been useful in such tracking applications, RF tag technology has not so far been applied in many user interactive applications. The present inventors believe that RF tag technology offers the potential for a whole array of unexplored applications based on RFI tags and readers with increased functionality.
One area of technology where the present inventors see great potential for the use of RF tag technology is telecommunications. Conventional telephones typically have a manually operated user interface whereby a user enters a multi-digit telephone number for a person, business or other entity which he or she desires to call via a number dial or pad. The convenience of this manual interface may be improved in conventional devices by the use of such features as “speed-dial” which allows a user to program frequently called numbers into a memory in the telephone and then dial one of those multi-digit numbers by pressing a single button. Presently, automatic telephone dialing interfaces, that is dialing interfaces which do not require user contact to enter a telephone number to be dialed, are not available other than perhaps in preprogrammed or random number dialing systems. Convenient systems for home or work use that allow a user to automatically dial a particular number of the users choice are unknown.
In addition, the present inventors contemplate that RF controlled telecommunications devices could have a variety of applications beyond conventional telephony. Such applications would require telecommunications devices and systems which incorporate and use RF tag technology in novel ways.
Accordingly, the development and application of RF telecommunications devices and systems which incorporate and use RF tag technology in novel ways is desirable.
SUMMARY OF THE INVENTION
The present invention meets this need by providing telecommunications devices and systems which incorporate and use RF tag technology. Telecommunications devices in accordance with one embodiment of the present invention incorporate RF transceivers (readers) which are configured to read associated RF transponders (tags) in order to automatically dial desired telephone numbers without the need for a manual user interface. Tags in systems in accordance with this embodiment of the present invention may be attached to or incorporated with a myriad of items, including picture frames, consumer products and packaging, advertising and promotional material, electronic business cards, record-keeping systems, etc., as further described below. Devices and systems in accordance with the present invention have a variety of telephony and non-telephony applications.
Systems in accordance with the present invention may have associated computer software including databases of numbers available for dialing selected by a tag/reader interaction controll
Ananny John M.
Bayley Oliver T.
Dishman James E.
Kerr Bernard J.
McCabe Mark A.
Van Pelt & Yi LLP
Zewdu Meless
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