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Part Manufacturer Description Datasheet Download Buy Part
LT1213ACS8 Linear Technology IC DUAL OP-AMP, 400 uV OFFSET-MAX, 28 MHz BAND WIDTH, PDSO8, Operational Amplifier
LT1213ACJ8 Linear Technology IC DUAL OP-AMP, 400 uV OFFSET-MAX, 28 MHz BAND WIDTH, CDIP8, Operational Amplifier
LT1211ACS8 Linear Technology IC DUAL OP-AMP, 400 uV OFFSET-MAX, 14 MHz BAND WIDTH, PDSO8, 0.150 INCH, PLASTIC, SO-8, Operational Amplifier
LT1211ACJ8 Linear Technology IC DUAL OP-AMP, 400 uV OFFSET-MAX, 14 MHz BAND WIDTH, CDIP8, HERMETIC SEALED, CERDIP-8, Operational Amplifier
LTC6240HVIS8 Linear Technology IC OP-AMP, 400 uV OFFSET-MAX, 18 MHz BAND WIDTH, PDSO8, 0.150 INCH, PLASTIC, SOP-8, Operational Amplifier
LTC6240HVIS5 Linear Technology IC OP-AMP, 400 uV OFFSET-MAX, 18 MHz BAND WIDTH, PDSO5, PLASTIC, MO-193, TSOT-23, 5 PIN, Operational Amplifier

TAG 107e 400 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2005 - HF RFID loop antenna design

Abstract: RFID preamble source code AN710 T matching RFID loop antenna 13.56 MCRF452 MCRF450 CRC-16 AN830 AN752 transistor TAG 91
Text: blocks) of user programmable memory · Unique 32-bit tag ID (factory programmed) · 32 bits for data and , paid, unpaid or returned merchandise. · Inventory Management: Tag 's data can be read or updated , reading performance combined with 1 Kbit of memory is suitable for animal tagging applications. Tag cost , . A MCRF452 Data VSS Read/Write Range: ~ up to 1.5 meters depending on tag size and system , 1 contains unique 32 bits of Tag ID. The Tag ID is preprogrammed at the factory and write protected


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PDF MCRF450/452 32-bit 1-of-16 DS40232J-page HF RFID loop antenna design RFID preamble source code AN710 T matching RFID loop antenna 13.56 MCRF452 MCRF450 CRC-16 AN830 AN752 transistor TAG 91
Not Available

Abstract: No abstract text available
Text: Application Examples Inspecting Secondary Batteries Automobile Parts ID Tag Can be used for the , information management ID Tag Host Device System Configuration Psion Teklogix 7527S-series Handheld , communications ID Tag Programmable Controller Personal Computer V680-D8KF68/-D32KF68 V680-D1KP58HT , Tag Communications Specifications Handheld Reader Writer Transmission is possible with currently , . ID Tag Mounting Conditions • V680-D1KP52MT: Embedded in resin or steel. • V680-D1KP66MT: ID Tag


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PDF V680-CH V680-series RS-232C V600-series V680-CHUD V680-CH1D RS-232C, V680-CH1D-PSI
Siemens Ferrite B65541

Abstract: B62110 EC70 CORES EC35 Siemens ferrite core EC35 Siemens ferrite core data sheet Siemens Ferrite N47 B62110A3007X22 etd59 siemens B64290L44X27 N47 epcos
Text: AL 12000 400 5000 detail 20- tag 657mm² no tag 657mm² STOCK No. B65713AR27 B65713A400A27 , + 0.55 0.62 0.56 mounting 4- tag B65518D2001 mounting 6- tag B65518D2002 These mountings contain , 5- tag core core bobbin white yellow 2.2mm² AL 2000 8 100 STOCK No . B65511AY30 , 34.0 (35.5) 20.5 (19.2) R36 674 36.0 (37.5) 23.0 (21.7) R40 659 40.0 (41.8) 24.0 (22.5) R42 22 , B65532A5000 include B65535B2 mounting 4- tag mounting 8- tag s thread B65535B3 for -WR30 B65535S2 mounting


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PDF B65931 B65517 5229cov Siemens Ferrite B65541 B62110 EC70 CORES EC35 Siemens ferrite core EC35 Siemens ferrite core data sheet Siemens Ferrite N47 B62110A3007X22 etd59 siemens B64290L44X27 N47 epcos
2000 - T85 Snap Switch 25e3

Abstract: micro switch 5E4 25T85 05 6e3 t85 5E4 25T85 ac 25t85 switch d2s diode diode zener Z -15H 5e4 25t85 switch d2s 51 diode T85 DOOR INTERLOCK
Text: ( 400 °C) 17.45 D2MV 10.3 15.9 TZ Approx. 17 21.8 49.2 31.8 Built-in reed switch , /ER 10 A 15 A 20 A NO TAG A X DZ TZ V-size V TZ V-10 V-11 V-15 V-16 X-10G DZ A-20G NO TAG NO TAG NO TAG NO TAG NO TAG V-21 VX D2VW D2MV K D2RV D2MC SS-size SS SSG D2SW D2S D3M , -01 D2VW-01 D2MV-01 D2MV-1 VX-5 D2VW-5 NO TAG NO TAG NO TAG NO TAG NO TAG NO TAG NO TAG SS-10 K-3 D2RV D2MC-01 SS-01 D2MC-5 SS-5 SSG-01 D2SW-01 D2S-01 D3M D2SW-3 SSG-5 NO TAG NO TAG D2S


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2005 - DLT431N

Abstract: DLT051B DCT841P DPT333K DCT326P Dut631m DPT660N-P40N0 DCT112N DPT333G Marking Code m810
Text: 87 130 175 260 400 530 -55°C to +125°C V a.c. 400 Hz 50 62 90 125 185 280 375 Tag Style Thread , +125°C V d.c. 70 87 130 175 260 400 530 -55°C to +125°C V a.c. 400 Hz 50 62 90 125 185 280 375 Tag , 530 -55°C to +125°C V a.c. 400 Hz 50 90 125 185 280 375 Tag Style Thread Pin Style D_T _ # , (µF) d.c. & 400 Hz a.c. 1.2 1.2 10 10 Insertion Loss (dB) (50 system) (min.) 100 Mhz - 1 GHz 65 65 , sizes 12 ­ 17 DCT Circuit Diagram Blank - Standard thread L - Long thread Blank - Standard tag


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PDF ODCSM40489/4/2005 DLT431N DLT051B DCT841P DPT333K DCT326P Dut631m DPT660N-P40N0 DCT112N DPT333G Marking Code m810
2013 - Not Available

Abstract: No abstract text available
Text: , 400 pre-defined ANSI, OSHA, and ISO signs, labels, and tags design formats Quick and easy , Sign Software WARNING • Software features a library of more than 3, 400 signs, labels, and tags , the software 3, 400 Predefined Safety Signs • (26) ANSI Z535.2 formats, OSHA compliant , recommended), minimum 400 MHz processor • CD-ROM drive • Mouse or compatible pointing device allows you , 203.2 25 SEZ0405I Polyester inkjet permanent adhesive. 4 4.00 101.6 5.00 127.0


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PDF SFCB01--SA-ENG
2002 - T matching RFID loop antenna 13.56

Abstract: transistor B1010 transistor c 4236
Text: reading and writing virtually any number of tags in the same RF field Factory programmed unique 32-bit tag ID Interrogator talks first (ITF) or tag talks first (TTF) operation Fast and normal modes for data , : " tag talks first" (TTF) and "interrogator talks first" (ITF) modes. The device operates in TTF mode if , interrogator for maximum performance. When a tag (device with the external LC resonant circuit) is brought to , effectively in multiple tag environments. To minimize data collision, the algorithm utilizes time division


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PDF MCRF450/451/452/455 1-of-16 32-bit DS40232E* DS40232E-page T matching RFID loop antenna 13.56 transistor B1010 transistor c 4236
2002 - tp 8370

Abstract: HF RFID loop antenna design nom 8370 b antenna matching 13,56 mhz calculation UV 471 MCRF450 AN710 MCRF452 MCRF455 matching RFID loop antenna 13.56
Text: (29 blocks) of user programmable memory · Unique 32-bit tag ID (factory programmed) · 32 bits for , Inventory Management: Tag 's data can be read or updated (written) in multiple tags and long range , of memory is suitable for animal tagging applications. Tag cost can be cheaper and read range is , . A MCRF452 Data VSS Read/Write Range:~ up to 1.5 meters depending on tag size and system , read and written in the same Interrogator field. When a tag (device with the external LC resonant


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PDF MCRF450/451/452/455 32-bit 1-of-16 D-85737 DS40232F-page tp 8370 HF RFID loop antenna design nom 8370 b antenna matching 13,56 mhz calculation UV 471 MCRF450 AN710 MCRF452 MCRF455 matching RFID loop antenna 13.56
flange jpi 150

Abstract: Yamatake, mgg18f mgg18f MGG18D MagneW mgg18f MGG14C G3451 MGG18 SS400 bolt nuts Yamatake
Text: , 5, 10, 15, 25, 40, 50, 65, 80, 100, 125, 150, 200, 250, 300, 350, 400 , 450, 500, 600, 700, 800, 900 , Size mm inch 2.5 5 10 15 25 40 50 65 80 100 125 150 200 250 300 350 400 450 , (0.1/Vs+0.4)% of Vs rate Attaching the tag number to the terminal box Stamp the tag with the specified number and attach to the terminal box. The maximum number of characters of the tag number is 8. Attaching the tag number to the neck section Stamp the tag with the specified number and attach to the


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PDF SS2-MGG200-0100 MGG18, MGG19 MGG18 flange jpi 150 Yamatake, mgg18f mgg18f MGG18D MagneW mgg18f MGG14C G3451 MGG18 SS400 bolt nuts Yamatake
MGH18F

Abstract: magnew 3000 plus f 531 flow meter flange jpi 150 Yamatake converter SOURCE IRIDIUM 192 MGA12w c PN16 MGH18D SUS316L
Text: 400 mm (1½ to 16 inches) FEATURES Stable and accurate measurement by high-frequency excitation , , 400 mm (1½, 2, 3, 4, 6, 8, 10, 12, 14, 16 inches) Display cover material Tempered glass, 5 mm , PN25 (Size 250 to 400 mm (10 to 16 inches) Ambient temperature limits -30 to +80°C (-22 to +176°F , ) 80 (176) 120 C (248 F) Size: 250 to 400 mm (10 to 16 inches) Size: 250 to 400 mm (10 to 16 , 0.003930 350 14 0 to 104.0 0 to 457.6 0 to 3463 0 to 15251 0.002887 400 16 0


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PDF SS2-MGH200-0100 MGH14C MGH18 MGH18F magnew 3000 plus f 531 flow meter flange jpi 150 Yamatake converter SOURCE IRIDIUM 192 MGA12w c PN16 MGH18D SUS316L
TAG 85 22

Abstract: TAG Semiconductors X0102 SCR TAG Semiconductors TAG SCR X0110NA X0110MA X0110DA X0110BA X0110
Text:  TAG SEMICONDUCTORS LTD D^l flflB^7SD D0D0b7fl 3 8834750 TAG SEMICONDUCTORS LTD . 63C 00678 TAG SEMICONDUCTORS LTD X0110BA-X0110NA SCR'S 0.8 A 200-800 V 5-20 pA - TO 92 c « A g The X0110 series silicon controlled rectifiers are high performance PNPN devices diffused with TAG , 200 400 600 800 V V V V f" TJ=—40 °C to 125 °C"| LRGK=1KQ J On-State Current IT(rms) 0.8 A All , Voltage VT(TO) 0.9 V Tj=125°C On-State Slope Resistance nr 400 mQ Tj = 125°C Gate Trigger Current


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PDF X0110BA-X0110NA X0110 X0110BA X0110DA X0110MA X0110NA Tj-25 TAG 85 22 TAG Semiconductors X0102 SCR TAG Semiconductors TAG SCR X0110NA
2000 - transistor B1010

Abstract: h825 HF RFID loop antenna design transistor code p34 P35 marking code transistor marking P58 RFID loop antenna 13.56 scrc Manchester c source code using PIC MCRF450
Text: -bit tag ID Interrogator talks first (ITF) or tag talks first (TTF) operation Fast and normal modes for , ) and fast read (FR) bits. These modes are: " tag talks first" (TTF) and "interrogator talks first" (ITF , anticollision algorithm to be read or written effectively in multiple tag environments. To minimize data , the carrier frequency of the interrogator for maximum performance. When a tag (device with the , . Time Slot Generator Preliminary (TC, TSMAX, Tag ID) DS40232A-page 7 MCRF450 FIGURE 2-2


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PDF MCRF450 1-of-16 32-bit DS40232A-page transistor B1010 h825 HF RFID loop antenna design transistor code p34 P35 marking code transistor marking P58 RFID loop antenna 13.56 scrc Manchester c source code using PIC MCRF450
2001 - transistor B1010

Abstract: transistor code p34 HF RFID loop antenna design nom 8370 b amplitude modulation block diagram h825 T matching RFID loop antenna 13.56 Bulletin 451 FC 7347 PPM MCRF450
Text: programmed unique 32-bit tag ID Interrogator talks first (ITF) or tag talks first (TTF) operation Fast and , . These modes are: " tag talks first" (TTF) and "interrogator talks first" (ITF) modes. The device operates , algorithm to be read or written effectively in multiple tag environments. To minimize data collision, the , sequences. When a tag (device with the external LC resonant circuit) is brought to the interrogator's RF , , TSMAX, Tag ID) DATA WAVEFORM OF DEVICE SIGNAL Data Time Slot Generator Preliminary 2001


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PDF MCRF450/451/452/455 1-of-16 MCRF450, MCRF452) MCRF451, 32-bit DS40232B-page transistor B1010 transistor code p34 HF RFID loop antenna design nom 8370 b amplitude modulation block diagram h825 T matching RFID loop antenna 13.56 Bulletin 451 FC 7347 PPM MCRF450
2003 - Not Available

Abstract: No abstract text available
Text: user programmable memory · Unique 32-bit tag ID (factory programmed) · 32 bits for data and 16 bits for , unique feature to distinguish between paid, unpaid or returned merchandise. · Inventory Management: Tag , tagging applications. Tag cost can be cheaper and read range is much longer than existing 125 kHz , depending on tag size and system requirements. 2003 Microchip Technology Inc. DS40232G-page 1 , for maximum performance. When a tag (device with the external LC resonant circuit) is brought to the


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PDF MCRF450/451/452/455 32-bit 1-of-16 B505A, DS40232G-page
2003 - 125 kHz RFID parallel antenna

Abstract: HF RFID loop antenna design pin diagram OF IC mt 8870 UV 471 AN710 DS40232H MCRF452 MCRF455 RFID preamble source code matching RFID loop antenna 13.56
Text: (29 blocks) of user programmable memory · Unique 32-bit tag ID (factory programmed) · 32 bits for , Inventory Management: Tag 's data can be read or updated (written) in multiple tags and long range , of memory is suitable for animal tagging applications. Tag cost can be cheaper and read range is , . A MCRF452 Data VSS Read/Write Range:~ up to 1.5 meters depending on tag size and system , 1 contains unique 32 bits of Tag ID. The Tag ID is preprogrammed at the factory and write protected


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PDF MCRF450/451/452/455 32-bit 1-of-16 DK-2750 D-85737 NL-5152 125 kHz RFID parallel antenna HF RFID loop antenna design pin diagram OF IC mt 8870 UV 471 AN710 DS40232H MCRF452 MCRF455 RFID preamble source code matching RFID loop antenna 13.56
SS400 bolt nuts

Abstract: Yamatake MGG14C JIS10K MGG14C magnew 3000 plus flange jpi 150 JPI150 Yamatake MagneW MGG14C MGG17D SCS13
Text: linings with diameter ranges from 2.5 mm to 400 mm available, making selection of the best lining easy , used for all diameters (sizes of 15 to 400 mm (1/2 to 16 inches). · A wafer construction can be also , intrinsically safe circuits) Size 2.5 to 400 mm (0.1 to 16 inches) Compatibility · Remote model , , 80, 100, 125, 150, 200, 250, 300, 350, 400 mm (0.1, 0.2, 3/8, 1/2, 1, 1½, 2, 2½, 3, 4, 5, 6, 8, 10 , (248) Size 250 to 400 mm (10 to 16 inches) 1.96 MPa (284 psi) 0.098 MPa (142 psi) -0.098 MPa


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PDF SS2-MGG200-0200 MGG17 MGG17 particular24 SUS316 SUS316, SS400 bolt nuts Yamatake MGG14C JIS10K MGG14C magnew 3000 plus flange jpi 150 JPI150 Yamatake MagneW MGG14C MGG17D SCS13
2013 - ATA5577M3

Abstract: No abstract text available
Text: . The Technology Passive RFID A passive RFID system consists basically of two components: • Tag , transponder or label • Reader, interrogator or base station A tag includes the IC, a coil and , bi-directional, contactless data transmission (no connection or line-of-sight necessary). As soon as a tag gets into the field generated by the reader, the tag transmits information — either immediately or on , System Reader/Writer Power Tag Transponder Label Carrier Enable MCU Optional Data 4


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passive rfid tags memory

Abstract: 2750-TSHU40 active rfid tag memory
Text: programmable 6 digit, 20, or 400 character format tag . Mechanical submersible. Rating: NEMA Type 6P , . Each tag is attached to an object that is to be identified. A bidirectional RF link transfers the data between the tag and the antenna. There are two basic types of RF tags: l l Active Tags contain an internal battery. The battery provides the necessary power required for the tag 's operation , Memory (EEPROM) The RF tags are further divided by the functions that they perform: Table A Tag


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PDF 2750-TFAW2K -TAU40, 1201SouthSecondStreet Amsterdamseweg15 1422ACUithoorn 2901Great 23HarbourRoad Box9797 135Dundas 1201South passive rfid tags memory 2750-TSHU40 active rfid tag memory
2009 - FDX-B

Abstract: ISO11784 FDX-A ATA5575 RFID reader SOURCE CODE in C with 8 bit avr ic 13.56 MHz RFID tag ISO11784 ata5577 ATA5575 ask fsk psk U9280M AUT64
Text: Memory complete 8 96, 128 X (OTP) ­ ­ ­ Gold bump mega pads, 200 x 400 micrometers Mega pads, 200 x 400 micrometers, with or without gold bumps micrometers, with or without gold bumps ­ Mega pads, 200 x 400 ­ security control ­ waste management manufacturing , tag is sent in inverse or non-inverse mode. The board design is also suitable for testing other tag , 64 bit key 64 bit key 64 bit key 64 bit key 64 bit key Standard packages Die Tag


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PDF U2270B ATAB5570 RF/64 RF/128 ISO11784/11785 ATA555815-PP TK5551 TK5561 4643C-RFID-11/09/03M FDX-B ISO11784 FDX-A ATA5575 RFID reader SOURCE CODE in C with 8 bit avr ic 13.56 MHz RFID tag ISO11784 ata5577 ATA5575 ask fsk psk U9280M AUT64
siemens sirius 3r

Abstract: Sprecher Schuh CT 3-12 plotter ip-220 Transformer zkb Sirius 3SB3 symbol electric IP220 Legrand manual legrand sti es 1682
Text: 12 5 5 5 13 11 Tag height 15 7 7 7 17 14 400 Holding system Customized print , . SAK 6 N SAK 70 1)* base off-centre, Tag carrier system SchT 8/TBS 1 Marker Terminals , . SAKS 1 SAKS 2 WS 3 dekafix Terminal width Tag carrier system SchT 8/TBS 1 Markers , 4/4 WMA 4/5 WNT 10 5 5 5 5 5 Tag carrier system SchT 1 Markers Terminals - , ZSI 2.5/2 ZSLD 2.5/1.5 ZTR 2.5. ZTR 2.5/3AN. ZVL 1.5 Tag carrier system SchT 8/TBS 1


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2012 - WPRT50

Abstract: No abstract text available
Text: soldered tag terminals · Optional mounting bracket · High overload capability · AEC-Q200 qualified · , 820R 18 WPRT15 15 12.3 75 1R0 ­ 1K0 14 WPRT20 20 16.4 100 2R0 ­ 1K2 12 1000 <20R: ± 400 , 20R: ±350 ±5 , soldered tag (S) and the same with bracket (SB) All dimensions in mm and weights in g Type WPRT10 WPRT15 , Figure 2 - quick connect "amp" tag (A) and the same with bracket (AB) All dimensions in mm and weights , Example: WPRT50 at 1.2 kilohms 5% tolerance with quick connect "amp" tag terminals and bracket, bulk


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PDF AEC-Q200 WPRT10 WPRT15 WPRT20 WPRT30 WPRT40 WPRT50 IEC62
2013 - WPRT40

Abstract: No abstract text available
Text: soldered tag terminals · Optional mounting bracket · High overload capability · AEC-Q200 qualified , impedance °C/watt Isolation voltage volts TCR 1000 <20R: ± 400 , ≥20R: ±350 ppm/°C , tag (S) and the same with bracket (SB) All dimensions in mm and weights in g Maximum bow on length , connect “amp” tag (A) and the same with bracket (AB) All dimensions in mm and weights in g Maximum , € tag terminals and bracket, bulk packed in a box of 168 pieces – W P R T 5 0 A B – 1 K 2 J B 1 6 8


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PDF AEC-Q200 WPRT10 WPRT15 WPRT20 WPRT30 WPRT40 WPRT50 IEC62 WPRT40
M10X0

Abstract: AFPI100410 F0021 MIL-F-15733 AFPI100410HPT1S
Text: pulse current capability · Excellent temperature stability · Wire or tag termination options , voltage (VR): see table Connections: Category voltage (VC):see table wire or tag terminations , ac rms dc ac rms 1 10 30 100 400 1500 630 125 300 125 - 8 18 , 400 125 - 8 18 27 43 2000 130NJ-2- 10 6 3000 630 150 300 , 115V have not been specified. Case style Termination: W = Wire T = Tag * other variants on


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PDF 1500pF 410V6C3S 2x500 M12x0 440D3W4N 2x2000 320W3W4N 2x100 M10X0 AFPI100410 F0021 MIL-F-15733 AFPI100410HPT1S
2004 - DS00710

Abstract: advantages and disadvantage rs232 125 kHz RFID reader circuit design 125 kHz RFID antenna design guide 2.4 ghz passive rfid 2.4 ghz passive rfid reader AN680 Bi-phase-L Coding backscatter interrogator pic microcontroller for passive rfid tags
Text: (interrogator), passive tag and host computer. The tag is composed of an antenna coil and a silicon chip that includes basic modulation circuitry and nonvolatile memory. The tag is energized by a time-varying , tag is remotely powered by the reader's RF signal, it deals with very small power (~ µw). Thus, the read range (communication distance between reader and tag ) is typically limited within a proximity , silicon device, etc. Low frequency bands (125 kHz- 400 kHz) were traditionally used in RFID applications


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PDF AN680 D-85737 NL-5152 DS00680D-page DS00710 advantages and disadvantage rs232 125 kHz RFID reader circuit design 125 kHz RFID antenna design guide 2.4 ghz passive rfid 2.4 ghz passive rfid reader AN680 Bi-phase-L Coding backscatter interrogator pic microcontroller for passive rfid tags
D-SC1500P

Abstract: D-SC1200P D-SC1300P D-D4500H D-SC1700P D-SC2100P D-C2500H D-SC1700H 5SC1200P D-D4000H
Text: 1500 4000 4500 5000 33 x 61.5 66 66 135 138 140 120 150 400 450 500 1200 1500 , . Suitable for use in the assembly of battery packs, the option of plain or solder tag terminals is provided , 1/3AA 150 14.5 x 17 8 15 150 D-1/3AA150 D-1/3AA150TO 2/3AA 400 14.5 x 29 14 40 400 D-2/3AA400 D-2/3AA400TO AA 600 700 800 900 1000 14.5 x 49 , Terminals Solder Tag Terminals D 2000 65 200 2000 2500 C D-C1200B D-C1500B


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PDF PG/0725 D-SC1500P D-SC1200P D-SC1300P D-D4500H D-SC1700P D-SC2100P D-C2500H D-SC1700H 5SC1200P D-D4000H
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