Radio Frequency engineering is an important yet often overlooked area in today's wireless world. This course provides a grounding in RF theory and practice for wireless, cellular and microwave systems.
None.
By the end of the course delegates will be able to:
What is RF?
Definition of RF, RF wave characteristics: Frequency, wavelength, power, phase, impedance, RF history, radio signals, frequency bands, safety issues, legal issues.
RF systems
Microwaves, cellular/mobile RF, WLANs, other fixed wireless networks, basic RF components.
Building a basic WLAN network.
RF system components
Transmitters: Antennas: Isotropic, Dipole, how antennas achieve gain.
Modulation
Schemes, bandwidth, AM, FM, FSK, PSK, QAM, QPSK, interference, performance.
Interference and performance.
Multiple access schemes
FDMA, CDMA, TDMA, CSMA/CA.
Wireless systems
Cellular (GSM, UMTS), Wifi, WiMax, others: GPS, DBS, RFID, radar, Bluetooth.
cellular.
Spread Spectrum technologies
Spread spectrum benefits and disadvantages, how it works, Direct Sequence, Frequency Hopping, hybrids.
RF propagation
Models, link budget, Smith chart, RF matching with the Smith chart. cell capacity, tradeoffs: power vs. bandwidth, free space, reflection, diffraction, multipath cancellation, propagation prediction and measurement tools.
Smith charts.
RF testing
Why power rather than voltage/current, units of power, dB and dBm power conversions. Test equipment: signal generators, power meters, network analysers, spectrum analysers. RF test setups: return loss, insertion loss.
RF testing.
Join our public courses in our New Zealand facilities. Private class trainings will be organized at the location of your preference, according to your schedule.