Registers – Records – Conductive
Reexamination Certificate
2001-08-22
2003-04-01
Frech, Karl D. (Department: 2876)
Registers
Records
Conductive
C235S487000
Reexamination Certificate
active
06540147
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to an inductive coupling data transmission device, comprising an inductive antenna circuit controlled by an antenna signal and a control circuit comprising binary ports that can be set to high impedance and that have a non-zero internal resistor.
In particular, the present invention relates to devices designed to exchange data with portable electronic objects comprising a contactless integrated circuit, such as contactless smart card readers, electronic label scanners, electronic badge scanners, . . .
According to draft standards ISO 14443-2/A or 14443-2/B, hereinafter referred to as “ISO/A” and “ISO/B”, the antenna coil of a contactless integrated circuit reader is driven by an antenna signal oscillating at a frequency of 13.56 MHz. The data transmission to the integrated circuit is carried out by modulating the amplitude of the antenna signal, with a modulation depth of 100% in the case of standard ISO/A or 10% in the case of standard ISO/B.
FIG. 1
represents a classical data transmission device
1
comprising a microprocessor
2
, an oscillator
3
, a modulation transistor
4
and a resonant-type antenna circuit
10
. The antenna circuit
10
comprises an antenna coil
11
in parallel with a capacitor
12
and receives a direct supply voltage VDD through an inductor
13
and an insulation capacitor
14
. The modulation transistor
4
is connected to the terminals of the coil
11
by means of the insulation capacitor
14
. The oscillator
3
delivers a signal S
1
oscillating at 13.56 MHz and the microprocessor
2
delivers an amplitude modulation binary signal S
2
to a port P
1
. Signals S
1
and S
2
are applied to an AND gate
5
the output of which delivers a modulation signal S
3
applied to the gate of transistor
4
, which is shown in FIG.
1
. The antenna signal Sa passing through the coil
11
is the image of signal S
3
.
The advantage of this data transmission device is that its structure is relatively simple but it only allows the amplitude of the antenna signal (ISO/A) to be modulated at 100%. To obtain a 10% modulation of the antenna signal Sa (ISO/B), the device becomes more complex and other elements must be added to it.
The device becomes even more complex if it is to be compatible with standards ISO/A and ISO/B so as to be able to transmit data to two different types of integrated circuits. In this case, as shown by
FIG. 2
, the modulation switch
4
is replaced by a modulation circuit
9
represented in block form. The modulation circuit
9
receives signals S
1
, S
2
and a signal S
AB
delivered by a port P
2
of the microprocessor, allowing the type of modulation required to be selected. To achieve this modulation circuit
9
various electric and/or electronic components are required.
OBJECTS AND SUMMARY OF THE INVENTION
Therefore, one object of the present invention is to provide a data transmission device of the type described above that can modulate the antenna signal with a modulation depth of less than 100% while being simple in structure and inexpensive to produce.
One more particular object of the present invention is to provide a data transmission device that can be multi-purpose and that can modulate the antenna signal with several modulation depths, particularly modulation depths of 10% and 100%.
The present invention also relates to receiving data sent by a contactless integrated circuit by the charge modulation method. In this case, the coil
11
of the data transmission device described above receives a charge modulation signal by inductive coupling, that is mixed with the antenna signal Sa. The charge modulation signal must be extracted from the antenna signal Sa and demodulated by adequate filtering before being decoded. Known demodulation and filtering systems are inconvenient in that they are complex if they are to be compatible with several charge modulation protocols, particularly those stipulated by standards ISO/A and ISO/B.
Thus, another object of the present invention is to provide a demodulation device that is compatible with several charge modulation protocols, while being simple in structure and inexpensive to produce.
To achieve these objects, the present invention provides a charge modulation and inductive coupling data receiving device, comprising an inductive-type antenna circuit having a coil through which an antenna signal passes, a control circuit comprising binary ports that can be set to high impedance, at least two filters each connected by one of their ends to a control circuit port, means for applying a charge modulation signal, that is present in the antenna signal, to the other end of the filters, the control circuit being arranged to select one of the filters by setting the port connected to the filter to be selected to “1” and by setting the port connected to the other filter to high impedance state.
According to one embodiment, the means for applying a charge modulation signal to the filters comprise an amplifying element the input of which is connected to the antenna circuit by means of a filtering system.
According to one embodiment, the amplifying element takes the form of a transistor.
According to one embodiment, the device comprises a low-pass filter and a band-pass filter.
The present invention also relates to an inductive coupling data send/receive device comprising a data receiving device according to the present invention, in which the antenna circuit is electrically powered by at least two control circuit ports, the control circuit being arranged to set the ports providing the electric power supply of the antenna circuit to “1” when the antenna circuit must be powered at full power level, and to change the state of at least one of the ports providing the electric power supply of the antenna circuit when the amplitude of the antenna signal must be modulated.
According to one embodiment, the ports providing the electric power supply of the antenna circuit are set to “0” by the control circuit, for 100% modulation of the antenna signal.
According to one embodiment, at least one port is set to high impedance state by the control circuit while the other port or ports are maintained on “1”, for a modulation of the antenna signal amplitude of less than 100%.
According to one embodiment, the device comprises an oscillator delivering an alternative signal and switch means controlled by the alternative signal, arranged at the terminals of the antenna coil to modulate the frequency of the antenna signal.
REFERENCES:
patent: 4818855 (1989-04-01), Mongeon et al.
patent: 5170046 (1992-12-01), Kusakabe
patent: 5345231 (1994-09-01), Koo et al.
patent: 196 42 568 (1998-04-01), None
patent: 0 492 569 (1992-07-01), None
Frech Karl D.
Inside Technologies
Patterson, Thuente, Skaar & Christensen LLC
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