magnetic planar speakers;
www.mazafakas.com, - Holographic 3D Imaging and Stunning Clarity
They produce sound waves by vibrating a thin diaphragm that is suspended between two magnets. Planar magnetic speakers are known for their amazing clarity and 3D holographic images.
They are also ideal for a broad range of audio applications due to their low distortion, broad horizontal and vertical dispersion, and low costs.
Superior Sound Quality
When it is about high-performance audio, planar magnetic speakers are known for their ability to produce detailed, clear sound with minimal distortion. This is because they employ flat diaphragms with a conductive trace pattern that reacts to magnetic fields emanating from magnets located on one or both sides of the speaker. The diaphragm is moved creating sound waves that can be transmitted via the dipole-radiation pattern. This allows the diaphragm to move more evenly, and produce superior sound quality than a standard dome or cone driver.
Another advantage of planar magnetic drivers is their large dispersion that is uniform which lets the sound be heard from any location in the room. In addition dipole or planar ribbon speakers offer an incredibly natural soundstage that has very little resonance. This creates an immersive listening experience that brings music to life in a manner that is difficult to duplicate with other types of speakers.
Due to their large surface area, planar magnetic speakers are also more durable than cone drivers and can be operated at higher volume levels without causing excessive vibrations or distortion. They also sound better than other kinds of speakers, which makes them an ideal choice for home theatre and HiFi applications.
Planar speakers are more expensive due to their intricate design. However, they provide superior sound quality and are worth the investment. Furthermore planar speakers have a much lower impedance than other kinds of loudspeakers. This means they are less difficult for amplifiers to drive than conventional drivers.
Although these advantages make planar magnet speakers an excellent option for both professional and home applications However, they aren't as well-known in IEMs because they require more sophisticated engineering to be integrated into smaller shapes like headphones and earbuds. Recently, however, there has been an increase in the number of IEMs that have planar magnetic technology. The Rinko by Seeaudio and the S12 & Z12 from LETSHOUER are just two examples of IEMs that have been shown to provide a great listening experience.
Lower Distortion
Low distortion is the most sought-after feature for many audiophiles. Inductance of the voice coil is the most common cause of distortion in speakers. When an alternation voltage is applied to the voice coil of a moving coil driver, the inductance of the voice coil creates a magnetic field that causes the diaphragm to move. The movement, or excursion, is what creates the sound wave, however it also creates unwanted resonances and harmonics that diminish the quality of audio.
One of the primary advantages of magnetic planar speakers is that they have much less distortion than traditional dynamic drivers. This is because the "voice coil" is spread across the entire surface instead of being squeezed into a tiny gap within a massive chunk of metal. As a result, an appropriately designed planar magnetic speaker can withstand a greater amount of power than traditional dynamic drivers without causing any audible strain.
Another way in which planar magnetic speakers reduce distortion is by presenting an almost perfect resistive load to the amplifier within the system. The voice coil is a long, thin wire that acts as a resistor. This makes the amplifier simple to drive and will always sound best when driving an electric planar speaker.
The high efficiency of these speakers is that they generate less heat,
magnetic planar speakers even when playing a lot of music. This is important, as a large amount can damage the voice coil and reduce the life span of the device.
However, this isn't to claim that all single-ended planar magnetic speakers are unaffected by distortion. Due to their close magnet spacing, the magnetic forces can interact and draw each other to a significant extent, causing changes to the diaphragm tension over time. This problem is made worse due to the proximity of the adjacent rows of magnets.
Better Heat Dissipation
In the last couple of decades, a variety of specialization HiFi audio headphones companies have created amazing masterpieces using
headphone planar magnetic magnetic technology. While many people consider the standard dynamic driver that most headphones and speakers utilize to be superior, there are remarkable advantages when using a planar magnetic design.
One of the major advantages is that the "voice coil" is spread over more of a larger area than a typical cone speaker, allowing it to dissipate heat efficiently without becoming too hot. This helps the voice coil perform more smoothly and with less distortion and also enables a very lightweight diaphragm that can be driven to extremely high excursion levels.
This enables the planar magnet speaker to have a remarkably rapid transient response. Sharp peaks and small details can be reproduced with great accuracy, even at high SPLs. This also means that the sound produced is extremely clear and free from distortion and is identical to the original source material.
The impedance curve of a planar magnetic speaker is very flat with a range of 4.2 ohms for the bass to 3.3 in the Treble. This makes it an easy load that amplifiers can drive, and comparable to resistive loads that electronics manufacturers use in their tests to show how great their products are.
Another advantage is that the diaphragm (planar) is extremely light, which enables it to move quickly and without strain. This produces a very clean and clear sound, with a wide bandwidth and
magnetic Planar speakers superb linearity.
The ribbon/planar design is extremely quiet, which helps to reduce distortion even more. It is also very stable across a wide range of temperatures which allows the speaker to maintain high-quality audio that is consistent over long periods of listening and a large listening area.
Although there are many advantages of using a Ribbon/Planar Speaker, it is important that you remember that this kind of speaker is not suitable for all listeners or applications. For instance, a planar or ribbon speaker with a large radiating panel will require a very large room to provide full-range sound at an adequate SPL. For this reason, most such speakers are sold only as tweeters or as the upper mid/high-range component of a two-way system.
Higher Power Handling
Magnetic planar drivers offer clarity and clarity that is unmatched by cone drivers. They can detect subtle details and reproduce complex sounds with precision. They also have a wide frequency response, which means that they can create a wider frequency range with greater accuracy.
Planar speakers create a focused sound field, which could be a disadvantage in the event that you're listening in a room with other people. But it's also what gives them their incredible dynamic range and stunning image. The sound seems to emanate directly from the speaker, similar to a sonic laser beam that can be heard even if you're off-axis.
The flat diaphragm and the acoustic wavefront provide them with an enhanced sense of the depth and expansiveness of traditional cone speakers. They also have an acoustic wavefront that is less noisy, making them less distracting in noisy environments. Planar magnetic drivers are preferred by many audiophiles for their natural sound quality.
However, there are limitations to the technology. Planar drivers are more difficult to make and heavier than cone drivers.