RU2001115088A - METHOD OF SIGNAL DEMODULATION WITH AMPLITUDE SHIFT MANIPULATION AND SIGNAL DEMODULATION WITH AMPLITUDE SHIFT MANIPULATION - Google Patents

Claims (5)

1. A method of demodulating voltage modulated by changing the amplitude between a low and a high level of a signal with amplitude shift shift keying (AMS), used for contactless transfer of data to a chip card from a card reader / data writer onto a card, characterized in that at the initialization step, the first average value is formed from the high voltage level and the extracted and stored voltage removed from the divider, so that by subsequent comparison of the modulated voltage with the indicated first average value, determine the transition to a low voltage level corresponding to the starting value, and in the next step of demodulation, a second average value is formed from the obtained low and high voltage levels to demodulate the modulated voltage by comparison with the second average value. 2. The demodulator for implementing the method according to claim 1, characterized in that for the formation of the first average value contains a capacitive voltage divider, which is formed by a chain of series-connected first and second capacitors (CHighl, CHigh2) and to which a modulated voltage (Mn) can be applied, the demodulator contains a comparator (K2), at the first input of which a first average value is supplied through the output of the voltage divider, and a modulated voltage is supplied to the second input, while there is a third capacitor (CLow) To store the generated low voltage levels that for obtaining a second mean value is connected in parallel sequentially switched on the first and second capacitors (CHighl, CHigh2). 3. The demodulator according to claim 2, characterized in that it contains a digital microcircuit (7) connected to the comparator (K2) for initializing the switches (S6, S7, S9, S10, S11, S12, S13, S14) so that at the initialization step the modulated voltage is supplied to a capacitive voltage divider, the output of which is connected to the first input of the comparator (K2), and after maintaining the generated low voltage level in the third capacitor (CLow), it is connected in parallel to the capacitive voltage divider and connected to the first input of the comparator (K2), while time as modulated voltage of fed to the second input of the comparator (K2). 4. The demodulator according to any one of claim 2 or 3, characterized in that the modulated voltage is supplied to a capacitive voltage divider through a diode (D1). 5. The demodulator according to claim 4, characterized in that the diode (D1) is made in the form of a switch controlled by a comparator.