MU-GAHAT HOLDINGS INC. Patent applications |
Patent application number | Title | Published |
20100176924 | RFID System with Improved Tracking Position Accuracy - In one embodiment the present invention includes a radio frequency identification (RFID) system. The RFID system includes a reader system that generates electromagnetic energy, reader antennas that communicate information with RFID tags using the electromagnetic energy, switches that are coupled to the reader antennas. The reader system selectively controls the switches to short adjacent reader antennas. In this manner, the target (RFID tag) may be located with improved positional accuracy. | 07-15-2010 |
20100013602 | H-Field Shaping Using a Shorting Loop - In one embodiment the present invention includes a radio frequency identification (RFID) system with a shorting loop. The shorting loop at least partially surrounds the antenna. The shorting loop distorts the electromagnetic field generated by the antenna to improve the definition of the border of the read region of the antenna. In this manner, the RFID system provides more accurate discrimination between RFID tags inside the read region versus RFID tags outside the read region (i.e., improves the accuracy of determining that a particular RFID tag is inside the read region). | 01-21-2010 |
20090289773 | EXTENDING THE READ RANGE OF PASSIVE RFID TAGS - An embodiment of the present invention improves the efficiency of radio frequency identification (RFID) systems and helps to extend the effective read range for certain configurations of closely spaced RFID tags. Specifically, an embodiment helps to minimize energy losses that result when there is excess energy from the excitation source. This excess energy has the potential to damage the circuitry in RFID tags. A shunt regulator is often used to protect the RFID circuitry by clamping the voltage, but has the undesirable effect of converting this excess excitation energy into heat. Various embodiments are directed toward using only as much of the excitation energy as necessary to power the RFID circuitry. These embodiments include circuitry for a constant current power supply that can be implemented either with discrete components or built into a new ASIC design; a network that minimizes the amount of energy that is converted to heat by the shunt regulator built into many RFID circuits; and/or a sleep mode for reducing the energy consumed by an RFID tag after it has been read. An embodiment may have the benefit of making more of the excitation energy available to power other RFID tags nearby—thereby improving system performance and read range. | 11-26-2009 |
20090128299 | APPARATUS AND METHOD OF RFID FREQUENCY ENCODING - In one embodiment the present invention includes a radio frequency identification (RFID) apparatus comprising an inlay layer. The inlay layer includes a plurality of resonant metal structures. The plurality of resonant metal structures has a first configuration of locations and resonate frequencies. Each resonant metal structure corresponds to a location and a resonant frequency. | 05-21-2009 |