Rf-lambda

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RF-LAMBDA RLNA01G18GA LEADER OF RF BROADBAND SOLUTIONS Ultra Wide Band Low Noise Amplifier 1GHz~18GHz Features Gain: 29dB Typical Noise Figure: 2.5dB Typical P1dB Output Power: +15dBm Typical Supply Voltage: +12V @ 130mA 50 Ohm Matched Typical Applications • • • • • Wireless Infrastructure RF Microwave & VSAT Military & Aerospace Test Instrument Fiber Optics Electrical Specifications, TA = +25⁰C, Vcc = +12V Parameter Min. Frequency Range 1 Gain 26 Typ. Min. 10 10 29 ±0.5 Gain Flatness Max. Gain Variation Over Temperature (-45ºC~+85ºC) 25 ±0.8 Typ. Max. Units 18 GHz 27 dB ±1.0 ±0.8 ±1.5 dB ±1.0 dB Noise Figure 2.5 3.0 2.5 3.0 dB Input VSWR 1.6 2.0 1.6 2.0 :1 Output VSWR 1.8 2.0 1.8 2.0 :1 Output 1dB Compression Point (P1dB) 15 18 14 17 dBm Saturated Output Power (Psat) 19 18 dBm Output Third Order Intercept (IP3) 28 27 dBm Supply Current (Vcc=+12V) 130 Isolation S12 -60 150 130 150 dB -50 mA Weight 3.17 Ounces Impedance 50 Ohms Input / Output Connectors Finishing Material Package Sealing Ultra Wide Band Low Noise Amplifier 1GHz~18GHz • • • • • SMA-Female Standard: Gold 40 micron; Nickel 220 micron thickness Option: Gold 80 micron; Nickel 180 micron thickness Aluminum Epoxy Sealing (Standard) Hermetically Sealed (Option with extra charge) RF-LAMBDA USA Sales: [email protected] www.rflambda.com Technical : [email protected] RF-LAMBDA RLNA01G18GA LEADER OF RF BROADBAND SOLUTIONS Absolute Maximum Ratings Environmental Specifications +12V±10% -3dB m Operating Voltage RF Input Power Operational Temperature (°C) -45 to +85 °C Storage Temperature (°C) -55 to +125 °C Step 1 Connect Ground Pin Step 2 Connect input and output Step 3 Connect +12V biasing Altitude 60,000 ft. 1.0psi min (Hermetically Sealed Un-controlled environment) （Optional） Power OFF Procedure Trc1 S11 SWR 1 U / Ref 1 U Cal 1 Step S11 1 TurnM1off 1.000000 +12V biasing GHz 1.1766 U Step9 2 M3 18.000000 GHz 1.6422 U Remove RF connection 10 M2 10.000000 GHz 8 Step 3 -50 5 -60 M1 4 -70 Ch1 fb Start 50 MHz Pb M3 Pb M3 -30 dBm Stop 21 GHz 3 Cal 000 GHz 000 GHz 000 GHz 3 28.751 dB 28.871 dB 26.441 dB Pb -30 dBm 28.751 dB 28.871 dB 26.441 dB Stop 21 GHz -30 dBm Cal -30 7 7 -40 6 6 -50 5 5 -60 M1 4 4 -70 3 3 2 M1 2 1 Ch1 fb Start 50 dBm MHz Pb Ch1 fb Start 50 MHz Pb -30 1 1.1766 U 1.3373 U 1.6422 U -30 10 7 7 -40 0 6 -50 -10 -60 M1 -20 -70 5 4 M1 2 M2 M2 M3 M3 1 Stop 21 GHz 1 Ch1 fb Start 50 MHz Pb -30 dBm Stop 21 GHz Ch1 fb Start 50 MHz Pb -30 dBm Stop 21 GHz Trc4 S21 dB Mag 10 dB / Ref 70 dB Cal 3 70 M1 1.000000 GHz 28.751 dB S21 60 M2 10.000000 GHz 28.871 dB M3 18.000000 GHz 26.441 dB 50 40 M1 30 M2 Ch1 fb Start 50 MH 3 Trc5 S22 SWR 1 U 28.751 dB 28.871 dB 26.441 dB S22 10 9 2 8 -69.911 dB M3 -58.786 dB -53.653 dB 7 6 5 4 M3 M2 M1 3 2 Ch1 -80fb Start 50 MHz 3 -90 -30 dBm Stop 21 GHz Stop 21 GHz Trc4 S21 dB Mag 10 dB / Ref 70 dB Cal 70 M1 1.000000 GHz M2 10.000000 GHz M3 18.000000 GHz 50 Trc2 S12 dB Mag 10 dB / Ref 0 dB Cal 0 40 M1 M2 M1 1.000000 GHz S12 -10 30 M2 10.000000 GHz M3 18.000000 GHz -20 20 8 2 M3 M3 S21 Isolation 60 4 -20 -80 M2 M2 1 8 M1 Trc2 S12 dB Mag 0 S12 -10 1.1766 U 1.3373 U 1.6422 U 8 9 3 1 4 9 M1 GHz M1 1.000000M1 GHz 1.000000 1.7322 U 10.000000 GHz M2 10.000000M2 GHz 1.3191 U 18.000000 GHz M3 18.000000M3 GHz 1.3653 U Cal GHz M1 1.000000M1 GHz 1.000000 1.7322 U 10.000000 GHz M2 10.000000M2 GHz 1.3191 U 18.000000 GHz M3 18.000000M3 GHz 1.3653 U 8 9 4 Stop 21 GHz 9 S11 10 5 -30 dBm S11 10 S22 10 6 Pb S22 10 Stop 21 GHz Trc1 SWR U / Ref 1 U Trc5 S22 SWR 1 US11 / Ref 1 U 1 Cal M3 20G for 11msec half sine wave, 3 axis both directions Trc1 SWR U / Ref 1 U Trc5 S22 SWR 1 US11 / Ref 1 U 1 Cal 12/-90 30/2016,1:25 AM Ch1 fb Start 50 MHz M2 Input VSWR Ch1 fb Start 50 MHz Output VSWR Stop 21 GHz 100% RH at 35c, 95%RH at 40ºc Shock -90 Trc2 Ref 0 dB Cal 2 40 S12 dB Mag 10 dB /M2 M1 0 M3 M1 1.000000 GHz -69.911 dB S12 30 -10 M2 10.000000 GHz -58.786 dB 20 M3 18.000000 GHz -53.653 dB -20 10 -30 0 -40 M3 -10 -50 M2 -20 -60 M1 -70 Ch1 fb Start 50 MHz -80 Humidity -80 M3 Trc4 S21 dB Mag 10 dB / Ref 70 dB Cal 70 M1 1.000000 GHz S21 60 M2 10.000000 GHz M3 18.000000 GHz 50 1.1766 U 1.3373 U 1.6422 U 25g RMS (15 degrees 2KHz) endurance, 1 hour per axis -40 6 3 Typical Performance Plots M2 M1 2 Gain1 0000 GHz 0000 GHz 0000 GHz -30 Remove Ground. 7 1 1.3373 U Vibration Trc2 S12 dB Mag 10 dB / Ref 0 dB Cal 2 0 M1 1.000000 GHz -69.911 dB S12 -10 M2 10.000000 GHz -58.786 dB M3 18.000000 GHz -53.653 dB -20 Ultra Wide Band Low Noise Amplifier 1GHz~18GHz 30,000 ft. (Epoxy Sealed Controlled environment) Biasing Up Procedure Pb -30 dBm 1 Ch1 fb Start 50 MH Stop 21 GHz 12/-90 30/2016,1:25 AM Ch1 fb Start 50 MHz Pb -30 dBm Trc5 S22 SWR 1 U / Ref 1 U S22 10 9 Stop 21 GHz Cal 4 M1 1.000000 GHz M2 10.000000 GHz M3 18.000000 GHz 1.7322 U 1.3191 U 1.3653 U 8 M3 7 20 6 10 5 RF-LAMBDA USA Sales: [email protected] www.rflambda.com Technical : [email protected] RF-LAMBDA RLNA01G18GA LEADER OF RF BROADBAND SOLUTIONS P1dB vs. Frequency Gain vs. Output Power P1dB vs. Frequency Gain vs. Output Power 30 1GHz 3GHz 5GHz 7GHz 9GHz 11GHz 13GHz 15GHz 17GHz 19GHz 28 27 45 40 35 P1dB(dBm) 29 Gain(dB) 50 26 30 25 15 10 24 5 23 -10 -5 0 5 10 15 20 0 2 4 Output Third Order Intercept (IP3) 6 8 10 12 14 16 18 20 Frequency(GHz) Output Power(dBm) Noise Figure OIP3 vs. Frequency 60 55 50 OIP3(dBm) 45 40 + 35 30 25 20 15 10 5 0 2 4 6 8 10 12 14 16 18 20 Frequency(GHz) 2nd Harmonic Wave Output Power 3rd Harmonic Wave Output Power 3rd Harmonic Wave vs. Output Power 2nd Harmonic Wave vs. Output Power 2nd Harmonic Wave(dBc) -20 -30 -40 -10 1GHz 3GHz 5GHz 7GHz 9GHz 11GHz 13GHz 15GHz 17GHz 19GHz -20 3rd Harmonic Wave(dBc) -10 + -50 -60 -40 + -50 -60 -70 -70 -80 -10 -30 1GHz 3GHz 5GHz 7GHz 9GHz 11GHz 13GHz 15GHz 17GHz 19GHz Ultra Wide Band Low Noise Amplifier 1GHz~18GHz 20 25 -5 0 5 10 15 20 -80 -10 -5 0 5 10 15 20 Output Power(dBm) Output Power(dBm) 4th Harmonic Wave Output Power 4th Harmonic Wave vs. Output Power -20 4th Harmonic Wave(dBc) -30 -40 -50 1GHz 3GHz 5GHz 7GHz 9GHz 11GHz 13GHz 15GHz 17GHz 19GHz -60 -70 -80 -90 -10 -5 0 5 10 15 20 Output Power(dBm) RF-LAMBDA USA Sales: [email protected] www.rflambda.com Technical : [email protected] RF-LAMBDA RLNA01G18GA LEADER OF RF BROADBAND SOLUTIONS Outline Drawing: All Dimensions in mm [inches] 30 [1.182] 20 [0.788] 11 [0.433] 17 [0.670] +12V RF-Lambda GND SN:XXXXXXXXX IN OUT +12V 80 [3.152] RLNA01G18GA F:1-18GHz 92 [3.625] 40 [1.576] 36 [1.418] GND Ultra Wide Band Low Noise Amplifier 1GHz~18GHz 8.2 [0.323] 6 [0.236] 4-M2.5 Tapped hole 12 [0.473] 27 [1.064] 15 [0.591] RF-Lambda RLNA01G18GA F:1-18GHz SN:XXXXXXXXX 8 [0.315] IN 9 [0.355] 26 [1.024] OUT 8 [0.315] 30 [1.182] 4- 13 0. 2[ 3. TH RU ] Including Heat sink Heat Sink required during operation (Sold Separately) Ordering Information Part No. ECCN Description RLNA01G18GA EAR99 1-18GHz Low Noise Amplifier Important Notice The information contained herein is believed to be reliable. RF-Lambda makes no warranties regarding the information contained herein. RF-Lambda assumes no responsibility or liability whatsoever for any of the information contained herein. RF-Lambda assumes no responsibility or liability whatsoever for the use of the information contained herein. The information contained herein is provided "AS IS, WHERE IS" and with all faults, and the entire risk associated with such information is entirely with the user. All information contained herein is subject to change without notice. Customers should obtain and verify the latest relevant information before placing orders for RF-Lambda products. The information contained herein or any use of such information does not grant, explicitly or implicitly, to any party any patent rights, licenses, or any other intellectual property rights, whether with regard to such information itself or anything described by such information. RF-Lambda products are not warranted or authorized for use as critical components in medical, life-saving, or life sustaining applications, or other applications where a failure would reasonably be expected to cause severe personal injury or death. RF-LAMBDA USA Sales: [email protected] www.rflambda.com Technical : [email protected]