Recommendations For Buying Wireless Speakers
The frequency response is just about the most commonly found parameter in order to define wireless loudspeakers. Nonetheless, it might regularly be confusing and might not necessarily provide a good sign of the sound quality. In order to help you make a smarter buying decision, I'll explain what this spec means and the way to understand it. This hopefully is going to guarantee you're going to get the best cordless speakers for your task.
Wireless speakers are built to transmit and the reproduce an audio signal to medium or high sound level. Producers usually show the frequency range over which the wireless speakers operate. This range is specified by showing two frequencies: a lower and upper frequency. For example, the lower frequency may be 20 Hz and the higher frequency 20 kHz. From this specification it seems the wireless loudspeakers could operate as a set of HIFI speakers. It might seem the larger the frequency response the better the cordless loudspeakers. That, on the other hand, may not necessarily be the case. You ought to look at the specs a lot more closely to correctly understand these.
In truth, a set of wireless speakers that has a frequency response from 10 Hz to 30 kHz can actually have much lesser audio quality than a set which provides a frequency response from 20 Hz to 15 kHz. Different makers appear to employ different methods in order to determine frequency response. The standard convention is to present the frequency range within which the sound pressure level of the loudspeakers will decrease at most 3 dB from the nominal level.
On the other hand, the frequency response commonly is utilized to misinform customers by way of extending the frequency range a great deal past the range in which the wireless speakers still operate correctly and in addition hides the fact that the cordless speakers might not be linear. Ideally you should really try to get a frequency response diagram from the producer. In this diagram, you will discover the way the cordless loudspeakers behave within the frequency response range. You may also spot any kind of peaks and / or valleys the wireless loudspeakers could possibly have. Peaks and valleys can result in colorization of the music. Ideally the wireless loudspeakers should have a constant sound pressure level within the entire frequency response aside from the drop off at the lower and upper limit. Apart from the frequency response, a phase response chart will also say a good deal in regards to the performance and sound quality of the cordless speakers.
The conditions under which the frequency response was calculated may also be crucial to recognize. Actually amplifiers could have different frequency responses depending on the loudspeaker driver element that is built in.
Typically contemporary wireless loudspeakers which use digital or "Class-D" amps will show changes in the frequency response with different driver loads. The main reason is the fact that Class-D amplifiers utilize switching FETs as the power phase which create quite a lot of switching components. These components are eliminated by a filter which is part of the internal speaker amplifier. The lowpass filter characteristic, on the other hand, greatly varies according to the connected speaker load.
Several amplifier topologies offer a mechanism to compensate for variations in the amplifier gain with different loudspeaker loads. One of those techniques utilizes feedback. The amplifier output signal after the internal lowpass is input to the amplifier input for comparison. If not developed adequately, this approach might result in instability of the amp though. Different amps employ transformers and provide outputs for several speaker loads. Apart from enhancing the frequency response of the amp, this method typically also enhances the amplifier efficiency.
Wireless speakers are built to transmit and the reproduce an audio signal to medium or high sound level. Producers usually show the frequency range over which the wireless speakers operate. This range is specified by showing two frequencies: a lower and upper frequency. For example, the lower frequency may be 20 Hz and the higher frequency 20 kHz. From this specification it seems the wireless loudspeakers could operate as a set of HIFI speakers. It might seem the larger the frequency response the better the cordless loudspeakers. That, on the other hand, may not necessarily be the case. You ought to look at the specs a lot more closely to correctly understand these.
In truth, a set of wireless speakers that has a frequency response from 10 Hz to 30 kHz can actually have much lesser audio quality than a set which provides a frequency response from 20 Hz to 15 kHz. Different makers appear to employ different methods in order to determine frequency response. The standard convention is to present the frequency range within which the sound pressure level of the loudspeakers will decrease at most 3 dB from the nominal level.
On the other hand, the frequency response commonly is utilized to misinform customers by way of extending the frequency range a great deal past the range in which the wireless speakers still operate correctly and in addition hides the fact that the cordless speakers might not be linear. Ideally you should really try to get a frequency response diagram from the producer. In this diagram, you will discover the way the cordless loudspeakers behave within the frequency response range. You may also spot any kind of peaks and / or valleys the wireless loudspeakers could possibly have. Peaks and valleys can result in colorization of the music. Ideally the wireless loudspeakers should have a constant sound pressure level within the entire frequency response aside from the drop off at the lower and upper limit. Apart from the frequency response, a phase response chart will also say a good deal in regards to the performance and sound quality of the cordless speakers.
The conditions under which the frequency response was calculated may also be crucial to recognize. Actually amplifiers could have different frequency responses depending on the loudspeaker driver element that is built in.
Typically contemporary wireless loudspeakers which use digital or "Class-D" amps will show changes in the frequency response with different driver loads. The main reason is the fact that Class-D amplifiers utilize switching FETs as the power phase which create quite a lot of switching components. These components are eliminated by a filter which is part of the internal speaker amplifier. The lowpass filter characteristic, on the other hand, greatly varies according to the connected speaker load.
Several amplifier topologies offer a mechanism to compensate for variations in the amplifier gain with different loudspeaker loads. One of those techniques utilizes feedback. The amplifier output signal after the internal lowpass is input to the amplifier input for comparison. If not developed adequately, this approach might result in instability of the amp though. Different amps employ transformers and provide outputs for several speaker loads. Apart from enhancing the frequency response of the amp, this method typically also enhances the amplifier efficiency.
About the Author:
You can find further information concerning wireless speakers (http://www.amphony.com/products/wireless-speaker.htm) as well as other product versions at Amphony's website.
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