Download presentation
Presentation is loading. Please wait.
Published byJohn Oliver Modified over 9 years ago
1
M211_50-Ohm-Ant_V11_RBt -1 Philips Semiconductors 50 Ohm matched antenna Proximity Antenna Training for 13.56 MHz
2
M211_50-Ohm-Ant_V11_RBt -2 Philips Semiconductors 50 matched antenna RC500 RC400 (or other Reader) EMC- Filter Rx Tx Rx- Circuit Matching Z=50 Antenna Matching Z = 50 50 matched antenna
3
M211_50-Ohm-Ant_V11_RBt -3 Philips Semiconductors 50 matched antenna 3) Tuning 5) Finetuning 1) Matching 6) Receive Circuit Requirements: load impedance = 50 ! 1) Matching 2) Resonance resonance at 13.56 MHz 2) Resonance 4) Q-factor quality factor < 35 quality factor < 100 4) Q-factor
4
M211_50-Ohm-Ant_V11_RBt -4 Philips Semiconductors 6) Receive Circuit 2) Resonance 3) Tuning 4) Q-factor 5) Finetuning 1) Matching 50 matched antenna Guideline: Design a coil Calculate the parallel capacitance Tune resonance and impedance Connect antenna to the RC500 Tune again Check (and adjust) the Q-factor Finetune resonance and impedance Find the values for Rx-circuit 3) Tuning 4) Q-factor 5) Finetuning 6) Receive Circuit
5
M211_50-Ohm-Ant_V11_RBt -5 Philips Semiconductors 50 matched antenna Design a coil L R ext R coil @13.56 MHz! L and R of the antenna coil shall be measured at 13.56 MHz (impedance analyser or L-C-R Meter). L a+b = L: coil inductance l: length of the conductor circular: l = 2* *r (r=coil radius) square l = 4*a (a lateral length) d: diameter of the conductor N: number of turns : shape factor =1.07 for circular coils =1.54 for square coils Estimation:
6
M211_50-Ohm-Ant_V11_RBt -6 Philips Semiconductors 50 matched antenna Design a coil L R ext R coil
7
M211_50-Ohm-Ant_V11_RBt -7 Philips Semiconductors 50 matched antenna Calculate the parallel capacitance Consider the power consumption! with C2C2 L R coil C1C1 Z ant R ext
8
M211_50-Ohm-Ant_V11_RBt -8 Philips Semiconductors 50 matched antenna Tune resonance and impedance Start tune phase to 0° ± 10° with C2 possible ? Z < Z ant -10%? Z >Z ant +10% ? f res >13.56MHz ? increase C2 decrease C2 increase C1 decrease C1 Tuning OK |Z|=Z ant ± 10% phase=0° ± 10° yes no
9
M211_50-Ohm-Ant_V11_RBt -9 Philips Semiconductors 50 matched antenna Tune resonance and impedance
10
M211_50-Ohm-Ant_V11_RBt -10 Philips Semiconductors Design a coil Calculate the parallel capacitance Tune resonance and impedance Connect antenna to the RC500 Tune again Check (and adjust) the Q-factor Finetune resonance and impedance Find the values for Rx-circuit 50 matched antenna Connect Antenna to the MF RC500 Guideline:
11
M211_50-Ohm-Ant_V11_RBt -11 Philips Semiconductors 50 matched antenna Tune resonance and impedance distance increased ? no C is added Find max. distance yes no Add C C < 10 pF Start decrease C2 remove C add 2* C to C2a add 2* C to C2b no Find d max C2C2 L ant R ant C1C1 Z ant R ext
12
M211_50-Ohm-Ant_V11_RBt -12 Philips Semiconductors A Channel A: 500mV/DIV Timebase: 1µs/DIV PHILIPS Reader 2.5µs 95% send request command 50 matched antenna Checking the Q-Factor
13
M211_50-Ohm-Ant_V11_RBt -13 Philips Semiconductors 50 matched antenna Checking the Q-Factor Manchester Decoder Serial Data IN Carrier Demodulator Rx Subcarrier Demodulator Serial Data OUT Miller Coder Envelope Modulator Driver Tx Digital Test Signal 01230123 Modulator Source Switch 7 6 5 4 3 2 1 0 MFout Select Switch Subcarrier Demodulator RFU 0 1 Mfin / PIN3 Mfout / PIN4 Manchester w. Subcarrier Transmit NRZ Envelope 01230123 Decoder Source Switch Manchester OUT
14
M211_50-Ohm-Ant_V11_RBt -14 Philips Semiconductors 50 matched antenna Checking the Q-Factor time in msec Pin 4 (3): Transmit NRZ 2V/Dev. Pin 4 (2): Envelope 2V/Dev. RFOut 0.5V/Div. RC500 test signals
15
M211_50-Ohm-Ant_V11_RBt -15 Philips Semiconductors 50 matched antenna Check Design a coil Calculate the parallel capacitance Tune resonance and impedance Connect antenna to the RC500 Tune again Check (and adjust) the Q-factor Finetune resonance and impedance Find the values for Rx-circuit Guideline:
16
M211_50-Ohm-Ant_V11_RBt -16 Philips Semiconductors 50 matched antenna Check the cards answer Reader send request command Startvalue: Insert RX-Circuitry Check the card’s answer with oscilloscope (trigger on Pin 4, Envelope) Get the max. operating distance Check the received signal at the RC500 (Pin 4, Manchester) Adjust R1 (valid Manchester at min. and max operating distance) “Antenna-Loop” Attention: Input voltage at Pin 29 (Rx) shall not exceed ± 1.5V!
17
M211_50-Ohm-Ant_V11_RBt -17 Philips Semiconductors time in msec Pin 4 (5): Manchester 2V/Dev. Pin 4 (4): Manchester with Subcarrier 2V/Dev. RFOut 1V/Dev. 50 matched antenna Checking the Q-Factor RC500 test signals
18
M211_50-Ohm-Ant_V11_RBt -18 Philips Semiconductors 6) Receive Circuit 2) Resonance 3) Tuning 4) Q-factor 5) Finetuning 1) Matching Design a coil Calculate the parallel capacitance Tune resonance and impedance Connect antenna to the RC500 Tune resonance and impedance Check (and adjust) the Q-factor Finetune resonance and impedance Find the values for Rx-circuit 3) Tuning 4) Q-factor 5) Finetuning 6) Receive Circuit 50 matched antenna Summary
19
M211_50-Ohm-Ant_V11_RBt -19 Philips Semiconductors 50 matched antenna Balun I I +U -U 50 Balun (balanced - unbalanced) The same as directly matched antenna...
20
M211_50-Ohm-Ant_V11_RBt -20 Philips Semiconductors I I 50 matched antenna Compensated antenna I I 50
21
M211_50-Ohm-Ant_V11_RBt -21 Philips Semiconductors 50 matched antenna Principle of the compensated antenna without compensation with compensation
22
M211_50-Ohm-Ant_V11_RBt -22 Philips Semiconductors L = 450nH R = 0.3 50 matched antenna Example: Circular antenna
23
M211_50-Ohm-Ant_V11_RBt -23 Philips Semiconductors L = 700nH R = 0.3 50 matched antenna Example: Square antenna
Similar presentations
© 2025 SlidePlayer.com. Inc.
All rights reserved.