1. Global Positioning System Receiver and Inter-Satellite Communications RF Design Soralis Pimentel Soralis Pimentel National Oceanic and Atmospheric Administration (NOAA)- National Environmental Satellite, Data and Information Service (NESDIS), Office of Systems Development National Aeronautics and Space Administration (NASA), Goddard Space Flight Center-Guidance, Navigation and Control Center (GNCC)

2. Project NOAA NESDIS NOAA NESDIS GOES-RSeries GPSApplications RF down conversion receiver GPS weak signal receiver NASA NASA Goddard Space Flight Center, GNCC Magnetospheric Multi Scale (MMS)Mission Inter-satellite Ranging and Alarm System (IRAS) RF up conversion and modulation transmitter RF down conversion receiver

3. GOES Mission This constellation provide information about meteorological events in the Western atmosphere GOES-R measurements will result in more accurate weather forecasts, atmosphere, climate, and ocean monitoring.

4. Global Positioning System (GPS) Satellite radio navigation system Satellite radio navigation system Passive system that uses trilateration positioning method Passive system that uses trilateration positioning method Array of satellites to measure position, velocity and time Array of satellites to measure position, velocity and time Positioned on the middle earth orbit (MEO) Positioned on the middle earth orbit (MEO) Designed to measure on the lower earth orbit (LEO) down to earth’s surface Designed to measure on the lower earth orbit (LEO) down to earth’s surface GOES-R GPS application could be used to validate measurements GOES-R GPS application could be used to validate measurements

5. -130dBm -145dBm

6. Objectives To design, build and test Radio Frequency (RF) chains To design, build and test Radio Frequency (RF) chains –Magnetospheric Multi Scale (MMS) mission, IRAS: Down-conversion frequency receiver and power amplification Down-conversion frequency receiver and power amplification Up-conversion and phase modulator transmitter Up-conversion and phase modulator transmitter Global Positioning System: Global Positioning System: Weak signal down-conversion frequency receiver and power amplification Weak signal down-conversion frequency receiver and power amplification For future GOES-R applications and others For future GOES-R applications and others

7. Design Requirements GPS receiver: GPS receiver: Input of -111dBm at 1.57542 GHz for an output of +4dBm at 35.42MHz Input of -111dBm at 1.57542 GHz for an output of +4dBm at 35.42MHz IRAS communications system: IRAS communications system: –Transmitter: pulse train from a Digital to Analog Converter (DAC) of 2V peak-to-peak of +10dBm input –Receiver: input of -111dBm at 2.05 GHz for an output of +4dBm at 35.42MHz Power representation Power representation

8. Methodology Understanding of Electrical Engineering design skills Understanding of Electrical Engineering design skills Study information about RF design Study information about RF design Know the requirements and specifications for the design Know the requirements and specifications for the design Build and test the systems Build and test the systems Data analyses about overall effectiveness of the chain Data analyses about overall effectiveness of the chain

9. GPS Receiver LO=1.54GHz - 111dBm @1.57542GHz +3.3dBm @35.42MHz +20dBm -2dBm -3dBm +24.6dBm Power Amplifier +20dBm - 3dBm +24.6dBm -2dBm -8.5dBmLoss ? LNA’s Loss ? Attenuator BPF LPF BPF

10. Receiver output

11. IRAS transmitter LO=2.05GHz +10 dBm @1MHz -2dBm Cut-off Frequency: 2MHz -4dBm Loss ? Center frequency: 2.05GHz B=10MHz +1V -1V +2.2dBm @2.05GHz +20dBm LPF BPF

12. Low Pass Filter Design Cut-off frequency= 2MHz @ -1dB, Pass Band Frequency=1.9MHz, Pass Band Ripple= 0.5dB Cut-off frequency= 2MHz @ -1dB, Pass Band Frequency=1.9MHz, Pass Band Ripple= 0.5dB

13. IRAS Receiver LO=2.01458GHz - 111dBm @2.05GHz +4dBm @35.42MHz +21dBm -3dBm +24.6dBm Power Amplifier +20dBm - 3dBm +24.6dBm -2dBm -8.5dBmLoss ? LNA’s Loss ? Attenuator BPF Center frequency=2.05GHz LPF BPF Center frequency=35.42MHz

14. Acquired Knowledge Hands-on Engineering design System requirements and specifications RF principles and applications Filter design and implementation Overall system effectiveness analyses

15. References Mistra, Pratap; Enge, Per. Global Positioning System, Signal, Measurements, and Performance Ganga-Jamuna Press, Massachusetts, 2004 Mistra, Pratap; Enge, Per. Global Positioning System, Signal, Measurements, and Performance Ganga-Jamuna Press, Massachusetts, 2004 McClaning, Kevin; Vito, Tom. Radio Receiver Design. Noble Publishing Corporation, Atlanta, GA, 2000 McClaning, Kevin; Vito, Tom. Radio Receiver Design. Noble Publishing Corporation, Atlanta, GA, 2000 www.minicuircits.com www.minicuircits.com www.minicuircits.com Jeyasunder, David. Magnetospheric Multi-Scale Mission Observatory/Spacecraft Requirements Document. Code 461 Goddard Space Flight Center, 2005 Jeyasunder, David. Magnetospheric Multi-Scale Mission Observatory/Spacecraft Requirements Document. Code 461 Goddard Space Flight Center, 2005 Bowick, Chris. RF Circuit Design. Newnes Indianapolis, 1982 Bowick, Chris. RF Circuit Design. Newnes Indianapolis, 1982 Filter Free design software Filter Free design software NESDIS Office of Systems Development, GOES-R. http://www.osd.noaa.gov/goes_R/ NESDIS Office of Systems Development, GOES-R. http://www.osd.noaa.gov/goes_R/

16. Acknowledgments NOAA-EPP program, for the opportunity of this internship and the Kennedy Space Center trip NOAA-EPP program, for the opportunity of this internship and the Kennedy Space Center trip ORISE ORISE Edward Miller, NESDIS-Office of System Development, for mentoring Edward Miller, NESDIS-Office of System Development, for mentoring Greg Boegner, Miriam Wennersten, NASA- Goddard Space Flight Center, GNCC for the opportunity of interrelating a project between NOAA and NASA Greg Boegner, Miriam Wennersten, NASA- Goddard Space Flight Center, GNCC for the opportunity of interrelating a project between NOAA and NASA NWS Aviation Services Branch NWS Aviation Services Branch

17. Plans for next summer Find a project that includes both Engineering and Atmospheric Science in order to integrate an interdisciplinary background for Graduate studies consideration. Find a project that includes both Engineering and Atmospheric Science in order to integrate an interdisciplinary background for Graduate studies consideration.

18. Questions?

19. Backup Slides

20. Spacecraft Electrical Power Subsystem (PSE) (PSE) Solar Array Batteries PowerDistribution Control and Data Handling Spacecraft computer Telemetry Memory Interface Guidance and Navigation Center Position Time Range Velocity Instruments Plasmainstruments Energetic particle detectors Electric field instruments Magnetometers

21. Inter Satellite Ranging and Alarm System (IRAS) IRAS is part of MMS IRAS is part of MMS Ranging: Ranging: –It is used to measure the relative distances among four satellites forming a tetrahedron Alarm: Alarm: –Passing packets of orbit data –Pass alarm messages between the observatories

22. Electrical Engineering Facts Transmitter: Transmitter: –Source of data information and process the signal for transmission to another medium Receiver: Receiver: –Receives a signal from an external source to process the information Amplifier: Amplifier: –Integrated circuit that increases the power, voltage or current of a signal Mixer: Mixer: –Mixes the RF signal with the local oscillator signal to obtain the IF output.

23. Electrical Engineering Facts Filter: sort out unwanted frequency ranges Filter: sort out unwanted frequency ranges –Low Pass (LPF), High Pass (HPF), Band Pass (BPF), Band Reject (BRF) Modulation: alter a signal inserting a carrier Modulation: alter a signal inserting a carrier –Phase Modulation (PM) Encoding of information into a carrier wave by variation of its phase in accordance with an input signal Encoding of information into a carrier wave by variation of its phase in accordance with an input signal Power representation in decibels, dB or dBm Power representation in decibels, dB or dBm

24. Materials Amplifiers Amplifiers Band Pass filters, Low Pass filters Band Pass filters, Low Pass filters Mixer Mixer Power amplifiers Power amplifiers Attenuators Attenuators Coaxial cables Coaxial cables Spectrum analyzer Spectrum analyzer Power supply and signal generator Power supply and signal generator