Module 40

     

Updated: 02/14/2017

  Module 40

  

 

 

 

 

 

 

 

Wireless Microphones

Wireless mics can solve many audio problems in production.

They are especially useful when talent must be free to roam, such as when doing an ENG report from the lighthouse shown here.

At the same time, wireless mics can introduce problems.

In a wireless mic, a dynamic or condenser microphone is connected to a miniature -  FM (frequency modulated) radio transmitter.

Because the mic's audio signal is converted into a radio frequency (wireless) signal and transmitted throughout the production area, these mics are also referred to as RF mics. self-contained RF mic

There are two types of wireless mics: the self-contained (all-in-one) unit and the two-piece type.

In the self-contained, handheld unit, as shown on the left, the mic, transmitter, battery, and antenna are all part of the microphone housing.

When small, unobtrusive clip-on mics are desirable, a two-piece wireless unit is the best choice.

In this case the mic is connected to a separate transmitting unit that can be clipped to the belt, put in a pocket, or hidden underneath clothing.

Many of the problems with interference, fading, etc., which at first plagued wireless mics have now been reduced or eliminated. Today, RF mics are widely used in both studio and on-location productions.

Some camcorders have built-in receivers for wireless mics, thus eliminating the vexatious mic cable that normally connects the reporter or interviewer to the camera.

  

Transmitting Range

In a wireless microphone the signal from the dynamic or condenser mic is converted to a low-power FM signal and transmitted in a more or less circular pattern.

The transmitter uses either an internal antenna within the mic's case, as shown above, or an external antenna, generally in the form of a short wire attached to the bottom of a separate transmitting unit.

In the latter case the antenna wire needs to be kept relatively straight and not folded or coiled up in a pocket. Some audio engineers will tape the antenna to the skin of talent, but it has been found that the dampness in human skin can degrade the FM signal.

Under optimum conditions wireless mics can reliably transmit over more than a 300-meter (1,000-foot) radius. If obstructions are present, especially metal objects, this distance can be reduced to 75 meters (250 feet) or less.


Interference Problems

Solid objects between the RF mic and the mic's radio receiver muli-path reception often create a condition of multi-path reception caused by part of the signal from the transmitter being reflected off of an object.  This is illustrated on the left above.

This secondary signal (shown in red) then interferes with the primary (direct) signal.

The problem can be particularly annoying if the talent is moving around interfering objects and the audio begins to rapidly fade in and out. As we will see, this problem can often be avoided.

Because of FCC (U.S. Federal Communications Commission) limitations in the United States, the FM mic signal must be of relatively low power. As a result, other radio transmitters occasionally interfere with the signal. This is called RF interference.

Even though they may be on different frequencies, nearby radio services emit harmonic (secondary) signals that, if strong enough, can be picked up by the wireless mic receiver.

In order for a wireless FM mic signal to be reliable, its RF signal must be at least twice as strong as any interfering signal.

Most RF mics transmit on frequencies above the standard FM radio band in either the VHF (very high frequency) range, or the UHF (ultra-high frequency) band. Since the UHF band is less crowded, audio engineers prefer it.

To alleviate the possible interference problem professional wireless mics allow you to select different frequencies. Today, dozens of different frequencies and digital subset frequencies are possible.  In fact, some elaborate productions have used almost 100 different mics and mic frequencies in a single production.
  

Wireless Mic Receiving Antennas

A good signal from an RF mic is of little value unless it can be received without multi-path or other types of interference. One of the most effective ways to eliminate interference is with the proper placement of the receiving antenna(s).

There are two types of wireless mic receivers.

Non-diversity receivers use a single antenna mounted on the back of the receiver. This type is most prone to multi-path problems -- especially if the talent moves around.

Two antennas are used in diversity receivers. Since the two antennas can be placed some distance apart, it's assumed that any time one antenna is not picking up a clear signal the other one will. To keep the signals from interfering with each other electronic circuitry within the receiver can instantly select the stronger and clearer of the two signals.

The receiver should ideally be placed so that, as the talent moves around, no solid object, especially a metal object, can come between the receiver and the wireless mic.

The angle of the receiving antenna sometimes has to be adjusted to bring it in line with the angle of the transmitting antenna on the microphone. For example, if a long wire looped around the belt line is used on the mic transmitter you may have to turn the receiving antenna ▲so it's parallel.

Try to keep the RF mic and the receiver as close as possible. Be aware that such things as neon and fluorescent lights, the high-intensity display of a Seadicam® video monitor, electric or gasoline powered vehicles, and lighting dimmer boards can interfere with the signal.

Do not let a mic cord and a mic transmitter wire cross. The result can be an unpleasant interaction.

And, finally, be aware of the fact that RF mics use batteries with a limited life. Many RF mic "reception problems" can be traced to a weak battery. Audio engineers recommend installing a fresh (or fully recharged) battery every time you start a major production. 



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