Data transfer method for use in semiconductor data recording medium
First Claim
1. A noncontact communication method between a semiconductor data recording medium and an reader/writer device for writing and reading data to and from the semiconductor data recording medium;
- said reader/writer device superimposing a signal wave on a carrier to generate a modulated wave and transmitting the modulated wave by a transmitting coil;
said semiconductor data recording medium receiving the modulated wave by receiving coil, and demodulating the received modulated wave to detect the signal wave;
the semiconductor data recording medium comprising a processing unit, an electric power and a clock signal generated from said modulated wave and supplied to the processing unit and having data transfer being conducted with the semiconductor data recording medium and the reader/writer device kept out of physical contact with each other;
the method comprising;
generating the signal wave comprising trigger information and first bit information being data to be transferred from the reader/writer device to the semiconductor data recording medium, the trigger information being represented by periodic trigger pulses with a predetermined period T and the first bit information being represented by a presence and an absence of bit pulses located behind the trigger pulses by a set time interval t1 (t1<
T);
the semiconductor data recording medium recognizing the first bit information from the detected signal wave;
the semiconductor data recording medium changing an input impedance of the receiving coil to generate second bit information, the second bit information being data to be transferred from the semiconductor data recording medium to the reader/writer device, said second bit information being represented by a presence or an absence of bit pulses located behind the trigger pulses by a set time interval t2 (t2<
T);
the reader/writer device detecting changes in the input impedance of the receiving coil by deformation of said modulated wave for recognizing the second bit information; and
generating a reset signal for the processing unit to be transferred from the reader/writer device to the semiconductor data recording medium by omitting said trigger pulses for a predetermined period of time.
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Accused Products
Abstract
Concurrent two-way data transfer can be conducted with higher reliability and improved accuracy with an IC card and a reader/writer device kept out of physical contact with each other. A first signal wave is produced by the reader/writer device to transmit first bit information. This first signal wave has trigger pulses at a period T (at the start of a period T), and bit pulses behind the associated trigger pulses by a time interval t1+d. The bit information is represented by the presence and absence of bit pulse, and the presence of a bit pulse is "1", the absence of a bit pulse being "0". The IC card produces a second signal wave to transmit second bit information. The second signal wave is entrained on a set carrier which is transmitted to the IC card through coils. The IC card changes an input impedance of the receiving coil, based on the second signal wave. Resultantly a modulated wave is transmitted between the coils.
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Citations
5 Claims
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1. A noncontact communication method between a semiconductor data recording medium and an reader/writer device for writing and reading data to and from the semiconductor data recording medium;
- said reader/writer device superimposing a signal wave on a carrier to generate a modulated wave and transmitting the modulated wave by a transmitting coil;
said semiconductor data recording medium receiving the modulated wave by receiving coil, and demodulating the received modulated wave to detect the signal wave;
the semiconductor data recording medium comprising a processing unit, an electric power and a clock signal generated from said modulated wave and supplied to the processing unit and having data transfer being conducted with the semiconductor data recording medium and the reader/writer device kept out of physical contact with each other;
the method comprising;generating the signal wave comprising trigger information and first bit information being data to be transferred from the reader/writer device to the semiconductor data recording medium, the trigger information being represented by periodic trigger pulses with a predetermined period T and the first bit information being represented by a presence and an absence of bit pulses located behind the trigger pulses by a set time interval t1 (t1<
T);the semiconductor data recording medium recognizing the first bit information from the detected signal wave; the semiconductor data recording medium changing an input impedance of the receiving coil to generate second bit information, the second bit information being data to be transferred from the semiconductor data recording medium to the reader/writer device, said second bit information being represented by a presence or an absence of bit pulses located behind the trigger pulses by a set time interval t2 (t2<
T);the reader/writer device detecting changes in the input impedance of the receiving coil by deformation of said modulated wave for recognizing the second bit information; and generating a reset signal for the processing unit to be transferred from the reader/writer device to the semiconductor data recording medium by omitting said trigger pulses for a predetermined period of time. - View Dependent Claims (2, 3, 4, 5)
- said reader/writer device superimposing a signal wave on a carrier to generate a modulated wave and transmitting the modulated wave by a transmitting coil;
Specification