Radio Transmitter
In radio electronics and broadcasting, a transmitter usually has a power supply, an oscillator, a modulator, and amplifiers for audio frequency (AF) and radio frequency (RF). The modulator is the device which piggybacks (or modulates) the signal information onto the carrier frequency, which is then broadcast. Sometimes a device (for example, a cell phone) contains both a transmitter and a radio receiver, with the combined unit referred to as a transceiver. In amateur radio, a transmitter can be a separate piece of electronic gear or a subset of a transceiver, and often referred to using an abbreviated form; "XMTR".
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FM Broadcast Radio
A type of radio broadcasting that uses frequency modulation (FM) to provide high-fidelity sound over broadcast radio. The broadcast band falls within the VHF part of the radio spectrum, specifically 88 to 108 MHz. Odd numbered multiples of 100kHz are used for channel separation.
With FM the voice is expressed over a carrier wave by varying its frequency, which causes FM modulation to consume more of the spectrum than AM broadcasts, which merely modulate the amplitude on a single frequency.
Stereo FM broadcasting was approved by the FCC in 1961 when a system developed independently both by GE and Zenith were accepted. Although Stereo FM offered the Left and Right separation already used in recording, Stereo FM signals are more susceptible to noise and multipath distortion than are mono FM signals. This is why FM stereo receivers traditionally include a mono switch, which is useful as the signal-to-noise ratio worsens when a station becomes more distant or signal fades.
Micro Broadcaster
Microbroadcasting, in radio terms, is the use of low-power transmitters (FCC Part 15) to broadcast a radio signal over the space of a neighborhood or small town. Similarly to pirate radio, microbroadcasters generally operate without a license from the local regulation body, but sacrifice range in favor of using legal power limits (for example, 100 mW for medium wave broadcasts). Higher power levels can be achieved using carrier current techniques, which are widely used in colleges and universities. Both AM and FM bands are used, although AM tends to have better propagation characteristics at low power.
Microbroadcasting is also used by schools and businesses to serve just the immediate campus of the operation; well-known uses include audio tour guide systems, airport information services, and drive-in theaters, which often provide movie audio over the driver's car audio system. It has also been adopted as an advertising technique, particularly by car dealers and real estate agents.
Consumer Personal FM Transmitter
This is for the guy wanting to listen to his iPod through his car stereo, which has not audio input jacks. He plugs his personal FM transmitter into his iPod, and tunes his car FM radio to a select channel which allows him to listen to the music from his iPod. This works for "her" as well as "him."
These transmitters should operate between 88 to 108 MHz.
Low end short range
These are cheap pieces of junk that can be hand for under $20.00 and are barely suitable for use in your car.
- SONY DCC-FMT3 Car FM Stereo Transmitter
- Radio Shack 12-2054 FM Transmitter
High end short range
This equipment serves for providing good quality FM radio from your audio source to receivers throughout a home or office. The top end of these can serve a college campus, or an entire golf course. Some of these options are also suitable for setting up your own FCC Part 15 FM broadcast station.
- Pro FM Stereo Radio Station FM100B
- Whole House FM Transmitter 2.0
- CYBER MAX MICRO+ (v4) 1W FM transmitter package
- Ramsey 100B
- EDM LED transmitter
- Wavemach 25 watt FM-25WS Stereo Transmitter
- Fail Safe Security Line of FM Transmitters
FM Transmitter Circuit
Low powered FM transmitter with a range of 300ft at 9v or 400ft at 12v.
Part | Total Qty. | Description | Substitutions |
C1 | 1 | 0.001uf Disc Capacitor | |
C2 | 1 | 5.6pf Disc Capacitor | |
C3,C4 | 2 | 10uf Electrolytic Capacitor | |
C5 | 1 | 3-18pf Adjustable Cap | |
R1 | 1 | 270 Ohm 1/8W Resistor | 270 Ohm 1/4W Resistor |
R2,R5,R6 | 3 | 4.7k 1/8W Resistor | 4.7K 1/4W Resistor |
R3 | 1 | 10k 1/8W Resistor | 10K 1/4W Resistor |
R4 | 1 | 100k 1/8W Resistor | 100K 1/4W Resistor |
Q1, Q2 | 2 | 2N2222A NPN Transistor | 2N3904, NTE123A |
L1, L2 | 2 | 5 Turn Air Core Coil | |
MIC | 1 | Electret Microphone | |
MISC | 1 | 9V Battery Snap, PC Board, Wire For Antenna | |
Pirate Radio
The funny thing is that, at its core, radio is an incredibly simple technology. With just a couple of electronic components that cost at most a dollar or two, you can build simple radio transmitters and receivers.
The FCC limits the broadcast power of an unlicensed individual's radio. The official regulation that handles non-licensed FM Transmitters (among other things) is FCC Part 15 and based on that regulation, the official rule is 250 micro volts measured at 3 meters (actually written as 250 µV/meter @ 3 meters). However when testing FM Transmitters they convert it to be measured as 47.95 dBµV/m, but it is usually rounded off to just 48 dBµV/m. The FCC put out a Public Notice that says the approximate distance you can transmit without needing a license is around a 200 feet.