About the Book
Please note that the content of this book primarily consists of articles available from Wikipedia or other free sources online. Pages: 133. Chapters: 800MHz frequency band, Airtime, AMAX, Amplitude modulation signalling system, AM stereo, Apex (radio band), Area broadcast shift, Armstrong phase modulator, Attack-time delay, Automatic gain control, Bandspread, Bandstacked, BBC Research & Development, Blocking (radio), British Institution of Radio Engineers, C-QUAM, C-RAN, Campcaster, Carrier current, CCIR (selcall), Circulator, Clyde Broadcast, Cognitive radio, Comfort noise, Common Public Radio Interface, Comparison of radio systems, Connectivity exchange, Continental Electronics, Continuous Tone-Coded Squelch System, Crossband operation, Datacasting, Dipole antenna, Discontinuous Reception, Discontinuous transmission, Dynamic carrier control, DySPAN, E. F. Johnson Company, Enhanced Other Networks, Falsing, Family Radio Service, Frequency coordination, Generalized signal averaging, General Mobile Radio Service, Grid-leak detector, Hohe Salve, Huawei SingleRAN, Institute of Radio Engineers, Kitzbuheler Horn Transmitter, Klotz Digital, Link quality analysis, Low-power broadcasting, Marantz 2600, Marconi's law, Microwave, Multi mode wireless terminal, Music scheduling system, Nanoradio, Nautel, Near-field electromagnetic ranging, Nizhny Novgorod Radio Laboratory, Operation RAFTER, Personal radio service, Personal RF safety monitors, Plate detector (radio), Program-associated data, Programme identification, Project Diana, PTT ID, Radio-frequency sweep, Radio access network, Radio Data System, Radio frequency, Radio frequency engineering, Radio frequency power transmission, Radio in a box, Radio jamming, Radio over Fiber, Radio Pack, Radio resource management, Radio teleswitch, Radio transmitter design, Radio waves, Receive-after-transmit time delay, Remote radio head, RF engineering, RF power margin, SAM Broadcaster, Satellite radio, Schafer automation system, Selective calling, Signal analyzer, Signal transition, Sky Gnome, Software Communications Architecture, Spatial multiplexing gain, Spectral mutability, Spectrum analyzer, Spurious emission, Spurious tone, Stubline transmitter, Subaudible tone, Symmetrical Double Sided - Two Way Ranging, Television antenna, Tikker, Tracking collar, Traffic announcement (radio data systems), Traffic message channel, Transmit-after-receive time delay, Transmitter station, TV radio, Ultra-wideband, Valve RF amplifier, Visual Radio, White spaces (radio), Wunderlich (vacuum tube), Xfin, Y-factor. Excerpt: Low-power broadcasting is electronic broadcasting at low power to a smaller area than "full power" stations of the same region, but often distinguished from "micropower broadcasting" (more commonly "microbroadcasting") and broadcast translators. LPFM, LPAM, and LPTV are in various levels of use across the world, varying widely based on the laws and their enforcement. Radio communications in Canada are regulated by a branch of Industry Canada called Radio Communications and Broadcasting Regulatory Branch together with Canadian Radio-television and Telecommunications Commission (CRTC). This means, interested parties must apply for both a certificate from Industry Canada and a license from CRTC in order to operate a radio station. Industry Canada manages the technicalities of spectrum space and technological requirements whereas content regulation is conducted more so by CRTC. LPFM is broken up into two classes in Canada, Low (50 watts) and Very Low (10 watts). The transmitters therefore range from 1-50 watts, as opposed to 1-100 watts in the U.S. As of 2000, 500 licenses (very low and low power FM) have been issued. These transmitters are generally only allowed in remote areas. The regulation of spectrum space is strict in Canada, as well having restrictions on 2nd and 3rd adjacent channels along with other protections for AM and FM commercial radio. In addition, because there have...
