Ultra Low Noise Amplifier ~ RLNAMG Electrical Specifications, TA = +⁰C, Vcc = +V Features Gain: db Typical Noise Figure:.dB Typical PdB Output Power: +dbm Typical Supply Voltage: +V /ma Ohm Matched Typical Applications Wireless Infrastructure RF Microwave & VSAT Military & Aerospace Test Instrument Fiber Optics Parameter Min. Typ. Max. Units Frequency Range Gain db Gain Flatness ±. ±. db Gain Variation Over Temperature (- ~ +) ±. db Noise Figure... db Input VSWR.. : Output VSWR.. : Output db Compression Point (PdB) dbm Saturated Output Power (Psat) dbm Output Third Order Intercept (IP) dbm Supply Current (Vcc=+V) ma Isolation S - db Weight. Ounces Impedance Ohms Input / Output Connectors Finish Material Package Sealing SMA-Female Standard: Gold micron; Nickel micron thickness Option: Gold micron; Nickel micron thickness Aluminum Epoxy Sealing (Standard) Hermetically Sealed (Optional) Ultra Low Noise Amplifier ~
RLNAMG Absolute Maximum Ratings Operating Voltage RF Input Power +.V -dbm Biasing Up Procedure Step Connect Ground Pin Step Connect input and output Step Connect +V biasing Power OFF Procedure Environmental Specifications and Test Standards Step Step Step Parameter Standard Description Operational Temperature MIL-STD- - ~+ Storage Temperature - ~+ Thermal Shock Random Vibration Electrical & Temperature Burn In Shock Turn off +V biasing Remove RF connection Remove Ground. Hour@ - Hour @ + ( Cycles) Acceleration Spectral Density (m/s) Total. RMS Temperature + for Hours. Weight >g, g half sine wave for ms, Speed variation.m/s. Weight <=g, g Half sine wave for ms, Speed variation.m/s. Total times ( directions, repetitions per direction). Ultra Low Noise Amplifier ~ Altitude Hermetically Sealed (Optional) MIL-STD- Standard:, Ft (Epoxy Sealed Controlled Environment) Optional: Hermetically Sealed (, ft.. PSI min) MIL-STD- (For Hermetically Sealed Units)
RLNAMG Typical Performance Plots Gain @+ Input VSWR @+ Trc S db Mag db / Ref db S M.. (Max). db. db Trc S SWR U / Ref U S M.. (Max). U. U M Ch Base Freq Start Base Pwr - dbm //, : PM Output VSWR @+ Trc S SWR U / Ref U S M Ch Base Freq Start Base Pwr - dbm //, : PM (Max) M.. U.. U M Ch Base Freq Start Base Pwr - dbm //, : PM Isolation @+ Trc S db Mag db / Ref db S - - - - - M - - - - Ch Base Freq Start Base Pwr - dbm //, : PM (Max) M. -. db. -. db Ultra Low Noise Amplifier ~
. U. U. db. db. U. U. db. db M Gain @- RF-LAMBDA Ch Base Freq Start Base Pwr - dbm Output VSWR @- Gain @+ M +.. U Trc S db Mag db / Ref db S M.. Trc S db Mag db / Ref db S M. -. M - - - M - - - Ch -Base Freq Start Base Pwr - dbm //, - : PM. db. db -. db -. db - - - - M - - - - - Input VSWR @- Ch Base Freq Start Base Pwr - dbm M Isolation @-. -. db Trc S SWR U / Ref U Trc S SWR U / Ref U S M S M.. Sales: sales@rflambda.com RLNAMG.. U.. U Ch Base Freq Start Ch Base Base Pwr Freq - Start dbm Base Pwr Stop- dbm S M.. db Ch Base Freq Start Base Pwr - dbm.. db Trc S SWR U / Ref U Trc S db Mag db / Ref db Trc S SWR U / Ref U S M.. U S M. -. db S M... U. U -. -. db.. U Trc S SWR U / Ref U Trc S db Mag M - db / Ref db S M.. U S - M. -. db.. U - -. + -. db - M - - - - - M - M - Ch Base Freq Start Base Pwr - dbm M - //, - : PM - Ch Base Freq Start Base Pwr - dbm Ch Base Freq Start Base Pwr - dbm Ch Base Freq Start Base Pwr - dbm - M Trc S db Mag db / Ref db - Trc S SWR U / Ref U S M.. db Input S VSWR @+ M.. U Ch Base Freq Start Base Pwr - dbm Ch Base Freq Start Base.. db Pwr - dbm.. U M Trc S db Mag db / Ref db - - M - - - Ch -Base Freq Start Base Pwr - dbm //, : PM - Trc S db Mag db / Ref db S M. - M. - RF-LAMBDA USA. U. U Trc S db Mag db / Ref db Trc S SWR Trc U / Ref S U SWR U / Ref U S M.. db S S M. M.. U. U.. db... U. U M Trc S db Mag db / Ref db S. -. db -. -. db + M - M - - M - Ch Base Freq Start Base Pwr - dbm Stop M Ch Base Freq Start Base Pwr - dbm - M //, : PM - Ch Base Freq Start Base Pwr - dbm Ch -Base Freq Start Base Pwr - dbm Ch Base Freq Start Base Pwr - dbm //, - : PM Trc S db Mag db / Ref db Output VSWR @+ Isolation S @+ M.. db Ch Base Freq Start Base Pwr - dbm.. db Trc S SWR Trc U / Ref S U SWR U / Ref U S S M.. M M Ch Base Freq Start Base Pwr - dbm Ch Base Freq Start Base Pwr - dbm Trc S db Mag db / Ref db S M.. db.. db M.. U.. U. U. U Ch Base Freq Start Base Pwr - dbm Trc S SWR U / Ref U S M.. Trc S db Ma S - - - - M - - - - - Ultra Low Noise Amplifier ~ Ch Base Freq Trc S SWR S M www.rflambda.com Technical : support@rflambda.com -. db -. db. U. U Ch Base Freq Trc S db Ma S - - - - M - - - - - Ch Base Freq Trc S SWR S M Ch Base Freq
RLNAMG Gain vs. Output Power PdB vs. Frequency Output Third Order Intercept (IP) Noise Figure Ultra Low Noise Amplifier ~
. [.] [.] [.]. [.] [.] [.] [.] [.] [.] [.] RF-LAMBDA RLNAMG Outline Drawing: All Dimensions in mm [inches] IN -.[.] THRU GND GND RF-Lambda +V RF-Lambda +V RLNAMG RLNAMG F:- OUT IN F:- OUT SN:XXXXXX SN:XXXXXX [.] [.] Including Heat sink [.] [.] -.[.] THRU Ultra Low Noise Amplifier ~ Heat Sink required during operation (Sold Separately) Ordering Information Part No. ECCN Description RLNAMG EAR - Ultra 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.