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RF6886PCK-411 RF Micro Devices Inc EVAL BD 433 TO 470MHZ PCBA W/5PC

433-92mhz rf model

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: frequency (RF carrier frequency divided by 32 times) generated from a crystal with a few additional , VASK = 0V @ 433.92 MHz 2 @315MHz(4) 10 mA mA RF Output Section and Modulation , recommended. Human body model, 1.5k in series with 100pF. 4. Measured using Test Circuit in Figure 2 , Board 315MHz OBW, ASK = 2kbps 315MHz OBW, ASK = 20kbps CW Max Power @ 3V, 315MHz(1) RF Spectrum 2nd Harmonic; Fundamental at 315MHz RF Spectrum 3rd Harmonic; Fundamental at 315MHz 315MHz Micrel Semiconductor
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MICRF113 ASK 315MHZ TX113-1C Murata, crystal oscillator RF Transmitter 315MHz ask murata Ceramic Resonators 16 mhz monopole antenna kHz 300MH 450MH M9999-112310
Abstract: reference frequency (RF carrier frequency divided by 32 times) generated from a crystal with a few , 2 VASK = 0V @ 433.92 MHz 2 @315MHz(4) 10 mA mA RF Output Section and , recommended. Human body model, 1.5k in series with 100pF. 4. Measured using Test Circuit in Figure 2 , Power @ 3V, 315MHz(1) RF Spectrum 2nd Harmonic; Fundamental at 315MHz RF Spectrum 3rd Harmonic , 433.92MHz OBW, ASK = 2kbps nd 433.92MHz, CW Max Power @ 3V, ASK = 2kbps(1) RF Spectrum 2 RF Micrel Semiconductor
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Abstract: Rating Rating Value CW RF power Dissipation +13dBm DC Voltage between any 2 pins f30VDC Case , Freq.Temp.Coefficient Frequency Aging DC Insulation Resistance between any 2 pins RF Equivalent Motional resistance RLC Model Motional Inductance Motional Capacitance Shunt Static Cap Transducer Static Cap. Sym SIPAT
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UE433A TO-39 CASE 433.92 Mhz one-port saw resonator 433.92mhz Quartz resonator 12 Mhz 433 transmitter, SAWF UE43-3 UE433 30VDC
Abstract: frequency (RF carrier frequency divided by 32 times) generated from a crystal with a few additional , VASK = 0V @ 433.92 MHz 2 @315MHz(4) 10 mA mA RF Output Section and Modulation , recommended. Human body model, 1.5k in series with 100pF. 4. Measured using Test Circuit in Figure 2 , Board 315MHz OBW, ASK = 2kbps 315MHz OBW, ASK = 20kbps CW Max Power @ 3V, 315MHz(1) RF Spectrum 2nd Harmonic; Fundamental at 315MHz RF Spectrum 3rd Harmonic; Fundamental at 315MHz 315MHz Micrel Semiconductor
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Hosonic 433.92MHz loop antenna design 433.92mhz rf ic 433.92mhz rf receiver MICRF113YM6 murata antenna
Abstract: 433.92MHz RF SAW Filter 0.6MHz Bandwidth China Electronics Technology Group Corporation No , : Manufacture's logo H5 (3) 01D: Model code (4) : Pin 1 Identifier (5) H5: Date code H 5 Month , Fax: +86-23-62805284 Page 1/8 www.sipatsaw.com / sawmkt@sipat.com 433.92MHz RF SAW Filter , ., Ltd. Part Number: SP43302 www.sipatsaw.com 3. Performance 3.1 Application RF Low-loss SAW , -40 to +85 CW RF Power Dissipation 10dBm 3.3 Electronic Characteristics Item Units 3dB SIPAT
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lt 433 0-6MHz L32* MARKING DF01D
Abstract: EV kit enables testing of the deviceâ'™s RF performance and requires no additional support circuitry. The RF input uses an SMA connector for convenient connection to test equipment. The MAX7036 EV kit , , 20mA DC power supply â'¢ RF generator capable of delivering -120dBm to 0dBm output power at the , : Do not turn on the DC power supply or RF signal generator until all connections are completed. 1 , . 3) Connect the RF signal generator to the P2 SMA connector. Do not turn on the generator output Maxim Integrated Products
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315MH MAX7036EVKIT315 MAX7036EVKIT433 MAX7036GTP/V MAX7036EVKIT-315 MAX7036EVKIT-433
Abstract: an exposed pad. The EV kit enables testing of the device's RF performance and requires no additional support circuitry. The RF input uses an SMA connector for convenient connection to test equipment. The , should be between 5mA and 6mA. 6) Activate the RF generator's output without modulation. Set the RF generator to -100dBm. Enable AM squarewave (or pulse) modulation on the RF generator and set the scope , modulation still set to AM (or pulse), observe the effect of reducing the RF generator's amplitude at TP2 Maxim Integrated Products
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EXS00A-AT frequency generator schematic circuit square pulse generator ic EXS00A-AT00732 EXS00A-AT00733 GRM188R71C104K GRM1885C1H4R7C GRM1885C1H100J GRM188R60J105K GRM1885C1H181J GRM1885C1H220J
Abstract: low-cost crystal to precisely set the desired RF frequency, and a few external components for matching the , 50kbps ASK, 10kbps FSK Crystal or ceramic resonators sets RF frequency -40°C to +125°C temperature range , , POUT = +10dBm SPACE Supply Current, IOFF @ 315MHz @ 433.92MHz RF Output Section and Modulation Limits , are ESD sensitive. Handling precautions recommended. Human body model, 1.5k in series with 100pF. 4 , OBW, ASK = 1kHz 315MHz OBW, ASK = 50kHz CW Max Power @ 3V, 315MHz, (1) ASK = 1kHz RF Spectrum 2 Micrel Semiconductor
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MICRF112 MAQRF112 RF112ymm 125 khz keyless go antenna 315Mhz remote keyless rf transmitter GRM21BR60J106KE01L AEC-Q100 M9999-020713
Abstract: enables the part. Logic low disables the part. Ground. Connect to PCB ground plane. RF Input. DC blocking and matching network is required. RF Output. Connect a pull-up inductor to the supply and a matching , rating. Devices are ESD sensitive. Handling precautions recommended. Human body model, 1.5k in series , , a multi-layer ceramic inductor should be connected from the RF output, RFOUT (Pin 5) pin to VCC. See , disable time of the device. Input Matching The RF input pin, RFIN (Pin 3) is directly connected to the Micrel Semiconductor
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MICRF300 micrel garage door top mark LC sc70-6 100MH 1000MH 315/433MH 868/915MH M9999-041712-B
Abstract: GND Ground. Connect to PCB ground plane. 3 RFIN RF Input. DC blocking and matching network , enables the part. Logic low disables the part. RF Output. Connect a pull-up inductor to the supply and , . Handling precautions recommended. Human body model, 1.5kâ"¦ in series with 100pF. 4. 5 , RF output, RFOUT (Pin 5) pin to VCC. See recommended component values in the Typical Performance and Matching Component Values table of the data sheet. Input Matching The RF input pin, RFIN (Pin Micrel Semiconductor
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Abstract: 1.7989 fF Pin 1 to Pin 2 Static Capacitance RF Equivalent RLC Model RM Motional , MODEL: SJK-6AW6-433.920M-±75K-3030 æ·± å³ å¸' 晶 ç§' é'« 实 业 æ‰ é™ å¬ å¸ SHENZHEN CRYSTAL , 3.00 1.00 0.80 1.80 0.75 1.50 0.60 1.50 3.Equivalent LC Model and Test Circuit SJK XXX , .Maximum Rating Rating Value Units +10 12V -40 to +85 CW RF Power Dissipation DC Voltage Between , resonator TO. 8. This equivalent RLC model approximates resonator performance near the resonant frequency Shenzhen Crystal Technology Industrial
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Abstract: +85°C. The MICRF113 is easy to use. It requires a reference frequency (RF carrier frequency divided by , 10 dBm RF Output Section and Modulation Limits: Output power level, POUT ASK "mark" , model, 1.5k in series with 100pF. 4. Measured using Test Circuit in Figure 2. 5. Dependent , CW Max Power @ 3V, 315MHz, ASK = 1kHz, Note 1 RF Spectrum 2 Harmonic; Fundamental at 315 MHz RF Spectrum 3rd Harmonic; Fundamental at 315 MHz 315MHz, Power Level at Space, VDD = 3.0V, ASK = Micrel Semiconductor
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RF loop antenna 13.56MHz 50ohm GRM1885C1H4R7JA01D TX113 433.92 mhz oscillator 6pin crystal 433.92Mhz c16 sot-23-6 M9999-060208
Abstract: ). The device needs only a lowcost crystal to precisely set the desired RF frequency, and a few , shutdown mode Needs only one crystal to set the desired RF frequency ­40°C to +125°C operating temperature , ASK Modulated Supply Current fRF = 315MHz fRF = 433.92MHz RF Output Section and Modulation Limits , . Human body model, 1.5k in series with 100pF. 4. Dependent on crystal. 5. RBW = 100kHz, OBW measured at , , with the addition of a shunt capacitor, CFSK. Selection of CL1, CL2, and CFSK determine RF center Micrel Semiconductor
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PCB Antenna matching micrel impedance matching micrf113 R-50K
Abstract: Temperature Frequency Temperature Coefficient Frequency Aging DC Insulation Resistance RF Equivalent RLC Model , Voltage VPP RF Power Dissipation Value -40 C to +85oC -45oC to +85oC 10V o 10V (50Hz/60Hz) 0 dBm , 433.92MHz One-port SAW Resonator ASR433.92A01-SD01 EQUIVALENT LC MODEL Pb RoHS Compliant 11.3 x 4.8 Abracon
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3 pin resonator ISO9001
Abstract: monitoring system. The MICRF112 is easy to use. One only needs a reference frequency (RF carrier frequency , current, IOFF @ 315MHz 2 mA @ 433.92 MHz 2 mA mA RF Output Section and Modulation , sensitive. Handling precautions recommended. Human body model, 1.5k in series with 100pF. Note 4. Measured , 315Mhz OBW, ASK = 50kHz CW Max Power @ 3V, 315MHz, ASK = 1kHz, Note 1 RF Spectrum 2 Harmonic; Fundamental at 315 MHz nd rd RF Spectrum 3 Harmonic; Fundamental at 315 MHz 315MHz, Power Level Micrel Semiconductor
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RF Transmitter (315MHz) ask MICRF112YMM10 RF Transmitter 315MHz rf 315mhz 433.92 loop antenna 13.5600 HC49/U M9999-030107 YMM10
Abstract: only needs a reference frequency (RF carrier frequency divided by 32 times) generated from a crystal , mA dBm dBm dBc dBc dBc dBc dBc kHz RF Output Section and Modulation Limits: Output power level , sensitive. Handling precautions recommended. Human body model, 1.5k in series with 100pF. Note 4. Measured , 50kHz CW Max Power @ 3V, 315MHz, ASK = 1kHz, Note 1 RF Spectrum 2nd Harmonic; Fundamental at 315 MHz RF Spectrum 3rd Harmonic; Fundamental at 315 MHz 315MHz, Power Level at Space, VDD = 3.0V Micrel Semiconductor
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M9999-120911
Abstract: RF Pre-Amp RF RF Oscillator Oscillator LP Filter AM Am pli AF Comparator , otherwise specified MIN TYP MAX UNIT VRF RF Supply Voltage 4.5 5 5.5 VDC , 2 Max Data Rate RF Sensitivity (100% AM) -100 KHz dBm -105 Level of Emitted , MHz RF +VCC RF GND IN NC NC NC RF GND NC V +80 °C Mechanical Dimensions 9 10 11 , controls Sensor reporting BLOCK DIAGRAM VRF VAF In RF Pre-Amp RF RF Oscillator -
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RF transmitter 433.92 RR3 rr3-433 RR3-433.92 MHZ RR13-868 Rr3 433.9 RF RR3 433,9 418MH
Abstract: Features The MICRF230 is a 400MHz to 450MHz superheterodyne, image-reject, RF receiver with automatic , Input 4 RFGND Supply Ground connection for ANT RF input. Connect to PCB ground plane. 5 , connection for ANT RF input. Connect to PCB ground plane. Antenna input. RF signal input from antenna. Internally AC coupled. It is recommended to use a matching network with an inductor to RF ground to improve , DO pin when there is no RF input signal. Ground connection for all chip functions except for RF Micrel Semiconductor
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400MH 1625H 434MH
Abstract: monitoring system. The MICRF112 is easy to use. One only needs a reference frequency (RF carrier frequency , @433.92MHz, Note 4 10 dBm -39 dBc -53 dBc -55 dBc -55 dBc 70 dBc RF , sensitive. Handling precautions recommended. Human body model, 1.5k in series with 100pF. Note 4. Measured , 315Mhz OBW, ASK = 50kHz CW Max Power @ 3V, 315MHz, ASK = 1kHz, Note 1 RF Spectrum 2nd Harmonic; Fundamental at 315 MHz RF Spectrum 3rd Harmonic; Fundamental at 315 MHz 315MHz, Power Level at Space Micrel Semiconductor
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HC49US RF fsk transmitter 433.92 TX112 RF 433.92 MHz Transmitter MSOP-10 HC49S M9999-031008
Abstract: p-p amplitude maximum. Negative supply connection associated with ANT RF input. RF signal input from , is used to improve ESD protection. Negative supply connection associated with ANT RF input , when not shut down. Negative supply connection for all chip functions except RF input. Demodulated , . 100V Machine Model Supply voltage (VDD) .+3.0V to +3.6V Ambient , ). 3.6V (Max) Maximum Input RF Power. â'"20dBm Electrical Micrel Semiconductor
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MICRF211 10E-02 380MH MICRF211AYQS 52127MH QSOP16
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