Electrical transmission or interconnection systems – Miscellaneous systems – Conversion systems
Reexamination Certificate
2002-03-13
2004-08-17
DeBeradinis, Robert L. (Department: 2836)
Electrical transmission or interconnection systems
Miscellaneous systems
Conversion systems
C340S333000, C340S572100, C340S572700
Reexamination Certificate
active
06777829
ABSTRACT:
FIELD OF THE INVENTION
This invention relates in general to signal rectification, and more particularly, to a rectifier circuit utilizing a grounded antenna.
BACKGROUND OF THE INVENTION
Radio frequency identification (RFID) transponders (tags) are usually used in conjunction with an RFID base station, typically in applications such as inventory control, security, access cards, and personal identification. The base station transmits a carrier signal that powers circuitry in the RFID tag when the RFID tag is brought within a read range of the base station. Data communication between the tag and the station is achieved by modulating the amplitude of the carrier signal with a binary data pattern, usually amplitude shift keying. To that end, RFID tags are typically integrated circuits that include, among other components, antenna elements for coupling the radiated field, rectifiers to convert the AC carrier signal to dc power, and demodulators to extract the data pattern from the envelope of the carrier signal.
If fabricated at sufficiently low cost, RFID tags can also be useful in cost-sensitive applications such as product pricing, baggage tracking, parcel tracking, asset identification, authentication of paper money, and animal identification, to mention just a few application. RFID tags could provide significant advantages over systems conventionally used for such applications, such as bar code identification systems. For example, a basket full of items marked with RFID tags could be read rapidly without having to handle each item, whereas they would have to be handled individually when using a bar code system. Unlike bar codes, RFID tags provide the ability to update information on the tag. However, the RFID technology of today is too expensive for dominant use in such applications. There are several factors that drive up the cost of RFID tags, the most significant of which is the size of the silicon integrated circuit that makes up the tag.
FIG. 1
shows a conventional rectifier utilizing a diode bridge
2
. Antenna element
4
requires two connections
6
,
8
on opposite sides of diode bridge
2
. The rectified signal is output at node
10
.
FIG. 2
shows another conventional rectifier utilizing a MOSFET bridge
12
. Antenna element
4
also requires two connections
6
,
8
on opposite sides of MOSFET bridge
12
. In order to accommodate these connections
6
,
8
, conventional RFID tags require at least two pads large enough to bond wire for the attachment of an external antenna coil
4
. Since RFID tag chips are generally relatively small, these pads consume a significant percentage of the integrated circuit area of a conventional RFID tag.
Another concern with conventional RFID tags is the maximum operating reading distance from the base station. In both examples of prior art shown in
FIGS. 1 and 2
, the rectified output signals at node
10
are only one half the peak-to-peak voltage of the corresponding resonating nodes
6
. The amplitudes of the signals on output nodes
10
are related to the maximum operational distance between the RFID tag and the base station.
SUMMARY OF THE INVENTION
According to principles of the present invention, a rectifier generates a rectified output and a dc power output. The rectifier has an antenna element, a tuning capacitor, a coupling capacitor, first and second rectifying diodes, and a storage capacitor. The antenna element and the tuning capacitor are coupled in parallel and grounded at one terminal. The first rectifying diode is grounded at its anode terminal and the storage capacitor is grounded at one terminal. The coupling capacitor is coupled between the ungrounded terminal of the antenna element and the cathode terminal of the first rectifying diode. The anode terminal of the second rectifying diode is coupled to the cathode terminal of the first rectifying diode. The cathode terminal of the second rectifying diode is coupled to the ungrounded terminal of the storage capacitor. The rectified output is generated between the rectifying diodes. The dc power output is generated between the second rectifying diode and the storage capacitor.
According to further principles of the present invention, a diode stack is coupled between the second terminal of the coupling capacitor and ground. The diode stack limits the voltage rectified signal to the breakdown voltage of the diode stack.
REFERENCES:
patent: 4931788 (1990-06-01), Creswick
patent: 6388575 (2002-05-01), Galloway
patent: 6580321 (2003-06-01), Arell et al.
patent: 2002/0097144 (2002-07-01), Collins et al.
Derbenwick Gary F.
Devilbiss Alan D.
Celis Semiconductor Corporation
DeBeradinis Robert L.
Hanes & Schutz, P.C.
Pannell Mark G.
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