Pre -Filtered GPS LNA (Low Noise Amplifier)
312 Series GPS LNAsPre-Filtered GPS LNA (Low Noise Amplifier)Designed to amplify GPS signals while protecting the GPS receiver by filtering out interferersApplicationsFeatures Pre-Filtered Inline Booster Low Noise Figure, 1.8 dB Typical Satellite Navigation Wide Input Voltage Range Avionics Tested to many MIL-STD-810 & MILSTD-461 Requirements Marine Navigation Small Lightweight Hermetic Package Military Survey/Mapping Contact factory for customconfigurationsThe 312 series pre-filtered GPS LNA module is designed to amplify GPS signals while protecting the front end of the GPSreceiver by filtering out interferers from an increasingly crowded EM spectrum. The module leverages API Technologies’core competencies in low-loss filter, amplifier and mechanical design that results in a module that maximizes out of bandrejection while minimizing system noise figure and maintaining a small size. The pre-filtered GPS LNA is offered in a widerange of performance options including GPS band configuration, gain level, supply voltage, multiple outputs and inputand output connectors.ParameterTypicalFrequency RangeGain 3dBInput P1dBOutput IP316-719-7L1, L1/L2, L1/L5, L1/(L2-L5)2225283134-7-7-8-8-937-1240-15N/AdBdBm 4 7 10 20 20dBm 12MinimumNoise FigureRejectionL2L1f 1050 MHzf 1410 MHzf 1410 MHzf 1730 MHzInput Return LossOutput Return LossGroup Delay VariationSupply VoltageStandardLow-VoltageL5f 1050MHzf 1280 MHz(L2-L5)f 1050 MHzf 1410 MHzUnits 15 17 19Typical1.8-40-45-9.5-9.5-17.7-14.0 2.0Maximum2.5dBcdBdBns 4.8 3.0Supply Current (Icc) 25 dB Gain Option 28 dB Gain Option5068Rev Date: 11/5/2015 API Technologies Corp. Proprietary InformationDownloaded from Arrow.com.dB 36 5VDC5575mAPage # 1 www.apitech.com micro.apitech.com 1.888.553.7531 MicrowaveSales@apitech.com
312 Series GPS LNAsTypical Performance GraphsGainNoise Figure at 25 CGain Variation over TemperatureNoise Figure at 85 CReturn LossGroup DelayRev Date: 11/5/2015 API Technologies Corp. Proprietary InformationDownloaded from Arrow.com.Page # 2 www.apitech.com micro.apitech.com 1.888.553.7531 MicrowaveSales@apitech.com
312 Series GPS LNAsEnvironmental ConditionsAccelerationMIL-STD-810DMethod 513.3 Helicopter CategoryAltitudeMIL-STD-810FMethod 500.4 Class IIShockMIL-STD-810FMIL-STD-810DMethod 516.5 Procedures I, V, VIMethod 416.5 Procedure VVibrationMIL-STD-810FMethod 514.6 Procedure I, Categories 13 (Propeller) & 14 (Helicopter)Explosive AtmosphereMIL-STD-810FMethod 511.4 Procedure IHumidityMIL-STD-810FMethod 507.4 Figure 507.4-1Salt FogMIL-STD-810DMethod 509.2Sand and DustMIL-STD-810FMethod 510.4 Procedures I, IIElectrical BondingMIL-STD-464Section 5.10Electrostatic Discharge ESD1DO-160DSection 25Indirect Lightning Strike1DO-160DSection 22, Waveforms K & WF3EMIMIL-STD-461ECE101, CE102, CE106, CS101, CS103, CS104, CS105, CS114, CS115, CS116,RE101, RE102, RS101, RS10321. Conditions met only with coaxially biased option.Functional Block DiagramAbsolute Maximum RatingsSupply Voltage 5-36 VDC 3.3 VDCELECTROSTATIC SENSITIVEDEVICE. OBSERVE PROPERHANDLING PRECAUTIONS 40 VDC 6 VDCRF Input Power, CW 5 dBmStorage Temperature-40 to 125 COperating Temperature-40 to 85 CESD SensitivityClass 1BRev Date: 11/5/2015 API Technologies Corp. Proprietary InformationDownloaded from Arrow.com.Page # 3 www.apitech.com micro.apitech.com 1.888.553.7531 MicrowaveSales@apitech.com
312 Series GPS LNAsOrdering ctorBias ConfigurationOutputConnector0L1016 dB0Single0Ext, 5-36VDC0N-fem0N-fem112L1/L2L1/(L2-L5)1219 dB22 dB1Dual12Coax, 5-36 VDCExt, 3.3 VDC12TNC-femSMA-fem12TNC-femSMA-fem3L1/L5325 dB3Coax, 3.3 VDC3SMA-male3SMA-male428 dB531 dB4D38999/20WA98PN, 5-36 VDC634 dB737 dB840 , 3.3 VDCCoax, 5-36 VDCBias routed to RFInput3Coax, 3.3 VDCBias routed to RFInput31 Dualoutput configuration is not available with Type-N RF connectors in standard package40 dB gain, dual output model is not available3 This bias option presents the supplied DC input voltage to the center pin of the RF input connector. This option is useful inapplications where the user desires to source current to devices before the GPS LNA. The maximum current that can be sourcedto the center pin using this option is 150 mA2 312-X81XXX-X00Outline InformationBias ConfigurationInput / OutputConnectorsOutline 10,1,2,32Outline 20,1,2,30,1,3Outline 34AllOutlineNotesAll bias configurations except 4 with SMA Female RF connector typesAll bias configurations except 4 with TNC Type N, or SMA Male RFconnector typesBias configuration 4 with all RF connector typesSpecifications are subject to change without noticeRev Date: 11/5/2015 API Technologies Corp. Proprietary InformationDownloaded from Arrow.com.Page # 4 www.apitech.com micro.apitech.com 1.888.553.7531 MicrowaveSales@apitech.com
312 Series GPS LNAsOutline Drawing 1Weight: 47 grams typicalRev Date: 11/5/2015 API Technologies Corp. Proprietary InformationDownloaded from Arrow.com.Page # 5 www.apitech.com micro.apitech.com 1.888.553.7531 MicrowaveSales@apitech.com
312 Series GPS LNAsOutline Drawing 2Rev Date: 11/5/2015 API Technologies Corp. Proprietary InformationDownloaded from Arrow.com.Page # 6 www.apitech.com micro.apitech.com 1.888.553.7531 MicrowaveSales@apitech.com
312 Series GPS LNAsOutline Drawing 3Rev Date: 11/5/2015 API Technologies Corp. Proprietary InformationDownloaded from Arrow.com.Page # 7 www.apitech.com micro.apitech.com 1.888.553.7531 MicrowaveSales@apitech.com
MIL -STD -810F . MIL -STD -810D . Method 516.5 Procedures I, V, VI . Method 416.5 Procedure V . Vibration . MIL -STD -810F . Method 514.6 Procedure I, Categories 13 (Propeller) & 14 (Helicopter) Explosive Atmosphere . MIL -STD -810F . Method 511.4 Procedure I . Humidity . MIL -STD -810F . Method 507.4 Figure 507.4- 1 . Salt F
Where F rx is the receiver noise figure, F LNA is the LNA noise figure. F MIX is the mixer noise figure, GLNA is the LNA gain. Assuming that the LNA and mixer are the dominant contributors of noise, if the mixer noise figure is assumed to be 10dB, the maximum noise figure of the LNA is 4.5dB. Maximum swing at ADC output is 0.5V.
Avago Technologies' ALM-1912 is a GPS front-end module that combines a GPS FBAR filter with high-gain low-noise amplifier (LNA).The LNA uses Avago Technologies' pro- . Lead-free and Halogen free Specifications (Typical performance @ 25 C) At 1.575GHz, Vdd 2.7V, Idd 6mA Gain 19.3 dB Vsd NF 1.62 dB
Gigamon G-TAP A-Tx Filtered Data Stream Filtered Data Stream Filtered Data Stream Filtered Data Stream Filtered Data Stream Filtered Data Stream Gig amon In tel ig ent DAN TM U P W H E N I N S T A L L E D I N R E A R S L O T 17 24 SLO T 3 PO RTS 9 16 SLO T 2 PO RTS SLO T 1 POR TS G1 -G 4 POR TS 1-8 G/ 0 PO RTS ( FP ) Pw r GigaVUE-2 404MB
LNA Medication-Certified Orientation The delegating licensed nurse will review individual patient/client medication(s) with LNA Medication-Certified staff and will supervise the LNA Medication-Certified accordi
The receiver is a Signal Hound spectrum analyzer (USB-SA44B) The schematic of the WiBAR receiver. RF Stage (7 -10 GHz) IF Stage (1.1 -4.1 GHz) X-band Horn Antenna Isolator LNA L.O (5.9 GHz) BPF LNA Power Amplifiers Signal Hound Spectrum Analyzer Controller Raspberry Pi Mixer L-band Horn Antenna Isolator LNA BPF LNA Signal Hound Spectrum .
Review Autocorrelation Spectrum White Bandwidth Bandstop Shape Summary Outline 1 Review: Power Spectrum and Autocorrelation 2 Autocorrelation of Filtered Noise 3 Power Spectrum of Filtered Noise 4 Auditory-Filtered White Noise 5 What is the Bandwidth of the Auditory Filters? 6 Auditory-Filtered Other Noises 7 What is the Shape of the Auditory Filters? 8 Summary
3. Overview of the Bible 2. How did the Bible come into being? 4. The First process of the Bible GPS is Understanding. 5. The Second process of the Bible GPS is Application. The Third process of the Bible GPS is Communication. 6. The Bible GPS on Galatians 5: 16-26 7. The Bible GPS on Ephesians 5: 8-20 8. The Bible GPS on Romans 3: 21-26
BGS8C5 LTE3301C LTE LNA with bypass from 3.4 to 3.8 GHz, 1.0 dB NF, 16 dB gain DEV Q2-2017 3.1.1 BGS8U5 LTE3301U LTE LNA with bypass from 5.1 to 5.95 GHz, 1.25 dB NF, 15 dB gain DEV Q2-2017 3.1.1 - LTE3401L LTE LNA with bypass from 0.7 to 1 GHz, 0.85 dB NF, 18 dB g
