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1569391 Phoenix Contact Circular Connector, 4 Contact(s), Male, Plug, ROHS COMPLIANT visit Digikey Buy
156-931-34 Amphenol RF CONN 1.6/5.6 JCK STR 75OHM CRIMP visit Digikey Buy
0815693 Phoenix Contact EML (26,5X17,5)R GN visit Digikey Buy
815693 Schaffner CMC 27MH 400MA 2LN TH visit Digikey Buy
10015693 RECOM Power Inc CONV DC/DC 0.25W 24VIN +/-5VOUT visit Digikey Buy
M39003/01-5693/HSD Vishay Sprague CAP 18UF 50VDC 5% 7.34 X 17.42MM AXL 0.001% - Bulk visit Digikey Buy

15693+FSK

Catalog Datasheet MFG & Type PDF Document Tags

15693 FSK

Abstract: /IEC 15693 compliant) Uplink ASK or FSK selectable Low: 6.65k bit/s or high: 26.6k bit/s* Any combination is possible *) High data rate is slightly depending on selected modulation (ASK or FSK). For
Zentrum Mikroelektronik Dresden
Original

manchester code for ATMEGA8

Abstract: simcard .7 4.2.2. FSK capture routine , the interrupt latency). 4.2. Capture routines In current versions, both ASK and FSK decoding , fails. 4.2.2. FSK capture routine FSK decode routine is located in level1_15693/dual_subcarrier_polling function. Analysis of FSK DOUT signal consumes the full performance of the uC because of the signal bit frequency. Since one FSK pulse length is 28 to 32 RF clocks, there is no time to involve
EM Microelectronic-Marin
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IC ATMEGA16

Abstract: simcard .6 5.2.2. FSK capture routine , EGT ­ Extra Guard Time EOF ­ End Of Frame ETU ­ Elementary Time Unit FSK ­ Frequency Shift Keying , . 5.2.2. FSK capture routine FSK decode routine is located in level1_15693/dual_subcarrier_polling function. Analysis of FSK DOUT signal consumes the full performance of the microcontroller because of the signal bit frequency. Since one FSK pulse length is 28 to 32 RF clocks, there is no time to involve
EM Microelectronic-Marin
Original

ZMD41201

Abstract: of Operation ZMD41201 Downlink Uplink Modulation 10% or 100% selectable ASK or FSK , ) *) High data rate is slightly depending on selected modulation (ASK or FSK). For further information
Zentrum Mikroelektronik Dresden
Original
D-01109 CH-2006

EME6600h

Abstract: 13.56Mhz class e power amplifier RFID (RX_IN ­ VSS) With 1 k series external resistor Receiver sensitivity (FSK) See note 1 ­40 ­65 ­ dBm Baseband receiver sensitivity (FSK) See note 1 ­40 ­65 ­ dBm 130 200­1400 1800 kHz 120 140 dB FSK IF filter cut off points Total gain, in FSK mode ­ , register setting 4 Table 4-2 3 Modulation Depth 1 = 100% 0 = 10% 2 AM / FSK 1 = AM selected 0 = FSK selected 1 Baud rate 1 = High Baud rate according to ISO 15693 0
Texas Instruments
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S6700 RI-R6C-001A SCBU030 EME6600h 13.56Mhz class e power amplifier RFID 13.56Mhz class e power amplifier tiris rfid RI-R6C-001A-03

13.56MHz

Abstract: ISO15693 1 out of 4 Manchester Protocol error flag Serial link clock FSK or RSSI signal output Receiver section power supply , ) Receiver specifications: Input RF voltage range (RX_IN - VSS) Receiver sensitivity (FSK) Baseband receiver sensitivity (FSK) FSK IF filter cut off points Total gain, in FSK mode Log amplifier section: Limiting gain , Mode bit Table 5 Table 5 Table 5 Modulation Depth AM / FSK Baud rate Parity of first byte 1 = 100% 1 = AM selected 0 = 10% 0 = FSK selected Mode is selected according to table 2 ISO 15693 (1out of 4) is
Texas Instruments
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13.56MHz ISO15693 1 out of 4 ISO15693* block diagram T matching RFID loop antenna 13.56 transponder HF RI-R6C-001A-01

antenna S6700

Abstract: RI-R6C-001A ) Receiver specifications: Input RF voltage range (RX_IN - VSS) Receiver sensitivity (FSK) Baseband receiver sensitivity (FSK) FSK IF filter cut off points Total gain, in FSK mode Log amplifier section: Limiting gain , Mode bit Table 6 Table 6 Table 6 Modulation Depth AM / FSK Baud rate Parity of first byte 1 = 100% 1 = AM selected 0 = 10% 0 = FSK selected Mode is selected according to Table 6 ISO 15693 (1out of 4) is , % or 100%, the receiver channel settings and the demodulation mode AM/FSK are defined by the command
Texas Instruments
Original
antenna S6700 Tag-It Protocol transistor et 454 RI-R6C-001A-02

diode fr 209

Abstract: modulation depth in write mode, whereas single ASK, FSK and PSK modulations are recognized in the read mode , voting is used. Digital part contains ASK, FSK and PSK programmable decoders. A tag detector id used to
Melexis
Original
diode fr 209 MLX90131 SSOP20
Abstract: communication (848kbit/s) â'¢ Programmable ASK/FSK/PSK encoder and decoder â'¢ Embedded RF field and TAG , / FSK Decoder Gain PSK Decoder AVS MODUL TX A0 #RD #WR DOUT Programmable Melexis
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ISO14443A 14443A1 14443B

13.56Mhz class e power amplifier RFID

Abstract: nfc transmitter and receiver . The digital section of the device contains ASK/FSK and PSK decoders based on sub-carrier detection
Melexis
Original
nfc transmitter and receiver nfc antenna design Class E power amplifier, 13.56MHz FSK RFID reader NFC Antenna power consumption 13.56Mhz rf amplifier SSOP24

15693 FSK

Abstract: 13.56mhz power ): Antenna Impedance 50 Ohm at 13.56MHz Receive channels ASK 423.75kHz and FSK 423.75kHz / 484.29kHz
Texas Instruments
Original
S6550 RI-STU-655A EN60068-2-6 15693 FSK 13.56mhz power 13.56mhz rfid HF Reader System Series 6000 RS232 RS485

13.56Mhz rf amplifier

Abstract: 13.56MHZ mosfet mode, whereas single sub carrier AM or FSK modulations are recognized in the read mode. The receiver , output of the log amp is used for FSK recovery. The transmitter uses a built in open drain output , RF voltage range (RX ­ VSS) With 1 k series external resistor Receiver sensitivity (FSK) See note 2 -40 -65 dBm C Baseband receiver sensitivity (FSK) See note 3 -40 -65 dBm A 130 200- kHz A dB C dB D FSK IF filter cut off points 1400
Melexis
Original
MLX90121 ISO15693 13.56MHZ mosfet 13.56Mhz AM filter power amplifier 13.56MHz 13.56mhz rfid SSOP20 13.56Mhz AMPLIFIER am receiver using transistor QS9000 ISO14001

how to design 13.56 MHz RFID tag

Abstract: 134 kHz RFID antenna design calculation of the modulation power spectrum is more complicated in the FSK double sub carrier case. However, it yields essentially the same results, as can be seen on the following graph. -1 ISO15693 FSK , / ASK mode ) BW = FTOL + FSUB + DataRate( for double sub carrier FSK, or BPSK mode) Where: BW is the
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how to design 13.56 MHz RFID tag 134 kHz RFID antenna design ISO 1443 Antenna Coil 13.56 MHz RFID design RFID loop antenna 13.56MHz 13.56 MHz square antenna

TI Wafermap format

Abstract: laser barcode reader circuit accomplished with one subcarrier (ASK modulation) or with two subcarrier (FSK modulation). Both modes (ASK and FSK) can operate with either high or low data rate. The transponder answers in the mode it was
Texas Instruments
Original
TI Wafermap format laser barcode reader circuit ISO15693 1 out of 4 inventory request texas instruments packing label TI Assembly Factory Code automotive transponder silica SCBU046

PSK reader

Abstract: ISO14443A features include user selectable modulation depth in write mode, whereas single sub-carrier ASK, FSK and
Melexis
Original
MLX12115 PSK reader ISO-14443A RFID FSK RFID reader rfid circuit diagram 13.56MHZ RFID matching

Antenna Coil 13.56 MHz RFID design

Abstract: 134,2 kHz coil antenna received transponder uplink signal is band-pass filtered from 65kHz to 260kHz to capture the FSK uplink
Texas Instruments
Original
134,2 kHz coil antenna 134.2kHz RFID 134.2khz antenna design ti sn63pb37 solder wire flux 232 LF antenna design rfid RFID reader 134.2 S4100

relay 24v

Abstract: EN60068-2-6 female Antenna Impedance 50 Ohm at 13.56MHz Receive channels ASK 423.75kHz and FSK 423.75kHz
Texas Instruments
Original
S6500 RI-STU-650A relay 24v tx 2G transmitter

IC,MASTER

Abstract: ZMD41211 modulation) or with two subcarrier (FSK modulation). Both modes (ASK and FSK) can operate with either high
ZMD
Original
ZMD41211 IC,MASTER 13.56 MHz RFID reader ic 2 meter range 8BTI CRC16 ISO15693-compliant ISO15693-

TI Wafermap format

Abstract: laser barcode reader circuit (Transponder to Reader) can be accomplished with one subcarrier (ASK modulation) or with two subcarrier (FSK modulation). Both modes (ASK and FSK) can operate with either high or low data rate. The transponder will
Texas Instruments
Original
tiris antenna wafer map Transponder texas id 60 0013e0 RF-HDT-SNLE-G1 RF-HDT-SJLE SCBU047

TI Wafermap format

Abstract: barcode reader circuit (Transponder to Reader) can be accomplished with one subcarrier (ASK modulation) or with two subcarrier (FSK modulation). Both modes (ASK and FSK) can operate with either high or low data rate. The transponder will
Texas Instruments
Original
barcode reader circuit
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