This series contains dozens of affordable FM broadcast transmitters from Low power FM transmitters up to 100W, Medium power FM transmitters from 100W to 1000W, High power FM transmitters up to 10kW. They serve as one of the core series of FMUSER broadcast creations. They are used in most broadcast FM radio stations, for example, drive-in churches and drive-in theaters, community radio stations, town radio stations, etc., they are also available for corporations and groups, regulatory agencies, hospitals, the sports industry, national companies, etc. As we gradually enrich the experience accumulated in the process of manufacturing and selling FM broadcast transmitters, you can contact us and show us your customized requirements to our expert RF team. We accept custom services for the transmitter power, branding logo, casing and other services for the FM radio transmitter. We also provide technical support based on your needs. Such a great news if you already are, or are on your way to becoming a commercial radio station operator!

FM Radio Transmitters: Full Introduction from FMUSER

Generally speaking, FM transmitter is the abbreviation of FM broadcast transmitter, which is mainly used to transmit the voice and music programs of FM radio stations wirelessly. As a simple communication tool, the FM transmitter is very popular because it can carry out effective mobile communication without the support of a relay station

The FM transmitter first modulates the audio signal and the high-frequency carrier into a FM wave, so that the frequency of the high-frequency carrier changes with the audio signal, and then amplifies, excites, and matches the power amplifier with a series of impedances on the generated high-frequency signal, so that The signal is output to the antenna and sent out. The high-frequency signal is generated by frequency synthesis, PLL, etc.

The frequency range of common commercial FM radio is 88-108MHZ, and that of campus is 76-87MHZ and 70-90MHZ.

Any FM radio station, regardless of its size (national radio station, provincial radio station, municipal radio station, county radio station, township radio station, village radio station, campus radio station, enterprise radio station, military barracks radio station, etc.), All will be composed of audio broadcast control equipment, transmission equipment, FM transmitter and transmitting antenna feeder.

Usually, the power levels of FM transmitters are 1W, 5W, 10W, 30W, 50W, 100W, 300W, 500W, 1000W, 3KW, 5KW, 10KW. Special power FM transmitters can also be customized according to actual needs.

How FM Radio Transmitter Works?

Generally, a transmitter consists of three parts: high frequency part, low frequency part and power supply part. The high-frequency part generally includes the main oscillator, buffer amplifier, frequency multiplier, intermediate amplifier, power amplifier booster stage and final power amplifier. The role of the main oscillator is to generate a carrier wave with a stable frequency. In order to improve the frequency stability, the main oscillator stage often uses a quartz crystal oscillator, and a buffer stage is added behind it to weaken the influence of the latter stage on the main oscillator. The low-frequency part includes a microphone, a low-frequency voltage amplification stage, a low-frequency power amplification stage and a final low-frequency power amplification stage. The low-frequency signal is gradually amplified to obtain the required power level at the final power amplifier, so as to modulate the high-frequency final power amplifier. Therefore, the final low-frequency power amplification stage is also called a modulator. Modulation is the process of loading the information to be transmitted onto a certain high-frequency oscillation (carrier frequency) signal. Therefore, the final high-frequency power amplifier stage becomes a regulated amplifier.

How Far Will an FM Radio Transmitter Cover?

Some customers often ask us for some professional radio equipment knowledge, such as “How to build a complete radio station at low cost？”, or “How to choose dipole antenna for my high power FM transmitter? 6-bay dipole antenna or 8 bays?", etc. The interesting thing is, they are much more curious about the range of an FM radio transmitter and have raised so many related questions to our RF engineers. And the following content is part of the frequently asked questions list on FM transmitter range and the corresponding share. We hopefully believe this share on transmitter coverage can help you solve your problems, whether you are one of our customers or not

Things to Know Ahead

1. The coverage radius of wireless broadcasting should be determined according to the actual local conditions. For relatively open terrain, the transmission distance in flat areas is relatively long, and the transmission distance in hilly and mountainous areas will be weakened.
2. The selection principle of the transmitter power: the distance from the transmitting center to the farthest, the density of surrounding obstacles, and whether the height of the antenna is the highest point in the surrounding area.
3. Due to the lower antenna height, the loss in the RF cable is smaller, and the antenna may work in a better condition at this time, so think of the trade-off between the antenna height and the number of RF cables required.
4. After the assembly of hardware broadcasting equipment, please be sure to pay attention to the local radio administration's regulations on antenna height to prevent penalties (in some areas, the penalties for the inappropriate antenna height are quite heavy).

Common questions asked from our customers:

• How far can a 1-watt radio transmit?
• How far will a 1 watt FM transmitter reach?
• How far will a 5-watt FM transmitter go?
• What is the 15w FM transmitter range?
• How far will a 15w FM transmitter broadcast?
• What is the kilometer range of a 15W FM transmitter
• What is the FM transmitter range chart?
• How far will a 100 watt FM transmitter reach?
• How far will a 5000 watt FM transmitter reach?
• How far can a 50000 watt FM radio station reach?
• How to calculate the FM transmitter range/FM transmitter range calculator?

Interesting thing is, when our customers want to know the coverage of our radio broadcast transmitter, we will always state in advance: "You cannot have the accurate number of the coverage range of an FM broadcast transmitter (regardless of power or type), unless you are in the laboratory! "The reason why we can explain this to our customers is that according to the observation of our RF expert team, there is more than one factor affecting the broadcast coverage of the transmitter. Effective radial power (ERP) and the antenna site height above average terrain (HAAT), and many other variables are also important factors we need to consider.

Therefore, in order to satisfy our customers with actual answers and help solve practical problems, our RF engineers and sales team usually give some specific numbers. For example, for customers who ask about the coverage of low-power transmitters, we usually say: "15W FM transmitter can cover up to 3km, while 25W FM transmitter can cover up to 5km. If you want to cover a wider range, such as 10km or 20km, you should choose a 150W or 350W FM broadcast transmitter because they are larger in transmitting power"

The FM Radio Transmitter Coverage Reference Table is as follows:

Generally speaking, the transmission distance of the FM transmitter is related to the transmitter power, the height of the transmitting antenna, and the local transmission environment (geographical conditions). The coverage radius of the transmitter below 50W is within 10 kilometers, and the FM transmitter of 3KW can cover to 60KM.

A radio station with a large coverage area needs an FM transmitter with a large transmission power and a high-gain transmission antenna and is set up at a place high above the ground; while a radio station with a small coverage area requires an FM transmitter with a small transmission power and an antenna with a suitable gain and erected at a suitable height.

However, for some radio newbies, these accurate figures may cause unnecessary misunderstandings and push them into thinking factors that will affect the coverage of an FM radio transmitter. Although the corresponding answers are hard-won, we still summarize the following factors that can determine the coverage (which means how far they can go) of an FM transmitter:

Transmitter Output Power Amount (TPO)

TPO is abbreviated from “Transmitter Power Output” in the field of wireless communication, it actually refers to the outputting power produced by a transmitter, if you were told that "This is our top-sales 5kW FM transmitter", then this "5kW" is always seen as the ERP power (Effective Radiated Power) instead of the actual transmitter power. TOP is closely connected with cost, buying, budget, etc., which is mainly because a wider ideal coverage comes with a higher buying price for some of the radio station equipment such as an FM broadcast transmitter and FM radio antennas. Therefore, TOP, together with antenna gain, are two of the most important factors that should be taken into consideration especially in the early period of radio station buildup, when you're deciding which brands and what equipment is best for your budget.

Height Above Average Terrain (HAAT)

In radio broadcasting, HAAT or EHAAT(effective HAAT), or height above average terrain actually refers to a vertically comparable distance between a transmitting site(transmitter and antenna are included) and the average terrain height among few kilometers. To reach a common understanding of the HAAT key points, one needs to know that HAAT is basically the coverage of a broadcast antenna, it is the vertical position of an antenna site is above the surrounding landscape. Suppose you are standing at a position flush with the installation site of the antenna, at this time, you and the transmitting site are on a plain, then the antenna may reach a tens of kilometers distance for broadcast. If your position is not a plain but a hilly area, the broadcast distance may reach only several of kilometers. HAAT is officially measured in meters, which is widely recognized by international coordination, and of course by regional radio organizations such as the Federal Communications Commission (FCC).

This also reminds us that if you want to obtain the maximum coverage when the transmitter, receiver, antenna, and accessories are ready, always remember to place the antenna as high as possible, so as to obtain at least 60% clearance in the Fresnel area and get real RF line of sight (LOS), plus, it helps avoid the negative factors to stop the RF range from expanding, such as the dense trees and high buildings, etc.

Other Irreversible Factors

1. The degree of emptiness in the terrain around the antenna site encumbrance that surrounds the antenna site, such as the density and height of trees or buildings 
2. Type of terrain near the antenna site flat or hilly
3. Radiofrequency interference due to same frequency broadcasting from near radio station
4. Types of antenna and accessories that used in the antenna system types of antenna and coaxial cable used amount of coaxial cable used
5. The sensitivity of the FM receiver at the other side
6. The near frequency stations or other radio stations broadcasting in the same frequency, for example, the antenna may be able to see 20 kilometers, but if another station is on the same frequency 20 kilometers away, it will block/interfere with the signal.

FMUSER hereby suggests that you can try to use different variables and conduct multiple experimental comparisons, for example, you can:

1. Determine the type of antenna (4-bay or 2 bays FM antenna is great)
2. Determine the wielding height of the antenna (30 meters is pretty enough, that equals to a 15 story building)
3. Determine the power of the radio transmitter (you can also change 200 Watts to 500 Watts, and vice versa).
4. Find different sites as the transmitting point (consider whether you are in a flat or hilly area or right on a mountain)
5. Record the farthest broadcast distance you can receive clear radio signals from the transmitting point
6. Change the variables and make comparisons to what you record.
7. If you find that there is nothing you need in the transmitter coverage reference table provided by us, please let us know the first time. FMUSER can help you estimate the coverage of your radio transmitter.

The truth is: you can never determine the exact coverage of a broadcast transmitter no matter the transmission power or brands it belongs to. Fortunately, you can always obtain the estimated coverage of some radio broadcast transmitters from the RF experts (just as we did earlier).

These estimated numbers do goods in actual practice-to help you think twice before choosing a good broadcast transmitter and reduce unnecessary costs or expenses, or be well-referenced in after-sales services or any online technical support after buying an FM transmitter.

Of course, we all know that experience is the best teacher. To set up an FM transmitter and run it directly may be the best way to obtain the most accurate coverage of an FM radio transmitter.

Main Classifications of FM Radio Transmitters

It can be divided into professional-grade FM transmitters and amateur-grade FM transmitters. The professional-grade FM transmitters are mainly used in professional radio stations and occasions that require high sound quality and reliability, while the amateur-grade FM transmitters are mainly used in non-professional stations and places that require high sound quality and reliability. Where general requirements are required. In terms of broadcasting method, it can be divided into stereo broadcast and mono broadcast;

According to the original circuit principle of the FM transmitter, it can be divided into analog FM transmitter and digital FM transmitter:

Digital FM transmitter

With the rapid development of electronic technology, especially professional-grade FM transmitters, digital FM transmitters are gradually replacing analog FM transmitters. The difference between digital and analog is very simple, depending on whether it uses software radio technology (DSP+DDS) Design.

Digital FM transmitter is a digital FM broadcast transmitter from audio to radio frequency. It uses software radio technology to realize FM broadcast transmitter. It receives digital audio signals (AES/EBU) or analog audio signals (sent to A/D), audio signal processing, and stereo encoding are all completed by DSP (Digital Signal Processor), and the FM modulation process DSP controls DDS (Direct Digital frequency synthesizer) to complete the digital modulation process. The discrete digital FM wave is converted by D/A to produce conventional FM wave for the RF amplifier to amplify to the specified power. Abbreviated as "DSP+DDS".

Analog FM Transmitter

The analog FM transmitter can only receive analog audio signals, audio signal amplification, limiting and stereo encoding are all analog; in particular, VCO (Voltage Controlled Oscillator) + PLL (Phase Locked Loop) is used to generate FM carrier frequency signals, modulated Of course, the process is also to directly modulate the varactor diode of the VCO with an analog composite audio signal. This kind of circuit is a typical analog FM transmitter, but there may be LED or LCD digital display transmitter operating frequency, but the whole process is analog.