A proposito di dressgray28

Descrizione:

Where Can You Find The Top Planar Magnetic Driver Information?
The Benefits of a Planar Magnetic Driver

Planar magnetic drivers are used in the most high-quality headphones and IEMs. It offers many advantages that differentiate it from other balanced or dynamic armature driver types.

However the planar driver has certain disadvantages that are important to be aware of. These include their higher cost and requirement for an amplifier to drive them.

Ultra-thin diaphragms

Every sound we hear, from the most raucous cymbal crash to the faintest creak of the piano bench is portrayed by a complex turbulent pressure wave. The driver of a great headphone has to reproduce these waves accurately, without missing any details or distorted audio. This requires a thin, diaphragm that is able to respond quickly to a wide range or frequencies.

While dynamic drivers are powered by a voice coil that is attached to a conical diaphragm, planar magnetic drivers are powered by a flat diaphragm skinned with a conductive film that moves between fixed magnets. This allows them to create an uniform field of magnetic energy across the entire diaphragm surface which reduces distortion.

However, this approach introduces additional issues, including the possibility of membrane resonance issues and airflow turbulence inside the grid-like magnet arrays. These issues result in a mechanical resonance frequency of the diaphragm, which can be several times higher than the input frequency, and reduces the sensitivities of the voice pressure sensor.

With a patent-pending technology known as "Spherical Acoustic Structure" (SAS), Final was able to overcome these limitations with the D8000 making use of a single piece material that functions as a diaphragm as well as conductor. This solution was based on ribbon speakers with their spherical conducting, but it was more cost-effective for headphones because of its dimensions and power requirements.

Another issue that is common to all plansar magnetic designs is a ringing sound that is present on high-frequency, low-frequency bass notes. This is due to an inconsistency between the force of the magnet applied to the diaphragm compared to the natural diaphragm's flexing.

To address this issue, Final used an ultra-thin, polymer film known as Parylene. The material was chosen because of its superior mechanical strength, bendability as well as its uniform thickness and consistency in thickness. These qualities were crucial to ensure that a thin, solid film would stretch without creating unwanted wrinkles or wrinkles.

Superior transient response

The basic operation of planar magnetic drivers is similar to traditional dynamic drivers, the method by which they generate sound waves is different. The major difference is that in the case of a planar magnetic device, the conductor is laid out on the diaphragm in the form of a 2D flat pattern, instead of a coil that is positioned around an oval diaphragm. This allows the conductor to respond to magnetic fields on both sides of the diaphragm and create sound waves with high-quality. This technology eliminates the need for a voice coil that could change its impedance depending on its frequency, which results in a clear, distortion-free reproduction of music.

Additionally that, planar magnetic drivers are more durable and lighter than traditional drivers, since they do not contain moving parts that could wear out over time. They are also less susceptible than conventional drivers to harmonic distortion which can degrade the quality of audio. They also have a faster response time and can reproduce sounds that are transient with greater speed.

However, the large surface area of a diaphragm planar requires more power to move and produce sound waves. This is why these headphones require an amplifier for headphone that can be able to drive them at a sufficient level. The extra weight and cost can be a turnoff to some listeners.

Another advantage of planar magnetic drivers is that they create a wide soundstage, which is more expansive than traditional dynamic headphones. This is because the large diaphragm, flat, moves more evenly to create a planar sound wavefront, rather than a narrow and spherical wavefront, which is typical of dynamic drivers. This is one of the key features of planar headphones that provide an immersive listening experience.

Audio reproduction that is natural and faithful

Planar magnetic drivers produce an authentic and reliable audio reproduction as in comparison to traditional dynamic driver models. Planar magnetic drivers produce equal magnetic forces with two rows of magnets unlike conventional dynamic drivers which have a cone-shaped membrane that vibrates. The diaphragm is moved in a wavelike manner. This can help to reduce distortion. They also have the ability to reproduce music with a wider frequency range, from the lowest lows to the highest highs which makes them a perfect choice for music enthusiasts and audio professionals.


The diaphragm, which is thin and flexible, of a planar magnetic driver moves faster than that of the traditional dynamic driver which allows it to react to changes in the sound signal, and create an precise reproduction. The lack of a coil behind the diaphragm also reduces the chance that mechanical components will come into contact with one and cause distortions at higher volume.

In the end, the diaphragm can effortlessly displace huge amounts of air to reproduce bass frequencies. The diaphragm's dimensions and flexibility are vital to create the rich bass in your favorite music. Dynamic drivers, on the other hand tend to be smaller and stiff, making it difficult for them to stand up to the high-speed fluctuations required to reproduce bass.

Despite their benefits however, planar magnetic drivers aren't as frequently used in headphones or IEM products because of the high price and complexity of their design. Partly, this is because they need amplifiers to be driven. This makes them less portable. Yet, they are well-liked by music lovers and critical listeners who value their outstanding performance and high audio quality.

Wide frequency response

Planar magnetic headphones employ flat and uniform diaphragms to create sound in a controlled and even manner. This produces a wide frequency response that delivers accurate and precise reproduction of music. They are also renowned for their high transient response, which means they are able to react quickly to audio signals and reproduce them as accurately as possible.

They accomplish this by using a planar array consisting of conductors arranged across a thin, diaphragm sandwiched in between two magnets. When an electrical signal passes through this conductor array it transforms into electromagnetic energy, and then interacts with the diaphragm's magnetic fields to cause the push/pull effect. This allows the diaphragm to respond quickly to audio input, producing high-quality music reproduction with exceptional clarity and precision.

Another reason that makes these drivers so popular among audiophiles is their low distortion rate. Because they don't have the same moving parts as other headphone types which means they don't produce as many harmonic distortions. magnet planar have lower resistance and provide only a pure resistance load to amplifiers. This makes them more convenient to drive.

Planar magnetic drivers are used in high-end audio equipment due to their superior performance. This can make them more expensive and require an amplifier in order to function which is why they aren't suitable for a 'grab-and-go' driver. Audiophiles will pay for the extra expense and effort for the quality that these headphones offer. They are considered to be a top choice for those seeking an exceptional listening experience.

Low distortion

The diaphragm of a planar magnetic driver is very thin, which means it can move at high speeds without losing control or breaking. This allows for a highly precise and rapid response to sudden changes in the audio signal. This lets you hear the subtleties of music and makes them sound more natural and realistic.

Planar magnetic drivers also have the benefit of creating an even driving force across the diaphragm. This prevents distortions when the volume is increased. This is one of the primary reasons why planar headphones sound so great - dynamic drivers have thicker and more heavy diaphragms, which are not capable of moving at the same speed or with the same acceleration. They may even fail when the forces are too high or exceed their structural integrity limits, which causes the diaphragms to go out of sync.

Planar magnetic drivers, on the other hand, generate an extremely powerful electromagnetic force which directly applies to the diaphragm. This eliminates the need for a voice coil that is commonly required in headphones that use traditional dynamic cone drivers. This helps to achieve more dynamic sound, a bigger soundstage and an exceptional bass response.

As a result of these benefits due to these advantages, planar magnetic drivers are widely considered to be the best type of headphone driver for audiophiles. While they do have some issues like power requirements and cost however, their ability to provide superior sound quality makes them an ideal option for those looking for the best quality audio reproduction. These drivers provide superior clarity and detail in all frequencies, excluding low bass. Dynamic drivers are still preferred. If you're in search of the best headphones for high-end music that provide exceptional sound at any price point make sure to check out our top choices below!