10 Locations Where You Can Find Planar Magnetic Driver

The Benefits of a Planar Magnetic Driver
Planar magnetic drivers are commonly used in the most high-quality headphones and IEMs. It provides many advantages that allow it to different from the more traditional balanced or dynamic armature driver.
However planar drivers have certain disadvantages that are important to note. They are more expensive and require an amplifier to be driven.
Ultra-thin diaphragms
Each sound we hear - from the loudest cymbal crash to the slightest creak on a piano bench is portrayed by an intricate turbulent wave of pressure. The driver of a top headphone should reproduce these waves accurately without distorting or missing any details. This requires a lightweight diaphragm that is thin and able to move quickly and respond to a range of frequencies.
While dynamic drivers are powered by a voice coil bonded to a conical diaphragm, planar magnetic drivers are powered by a flat diaphragm sprayed with a conductive film that floats between fixed magnets. This enables them to create a consistent magnetic field over the entire surface of the diaphragm, thereby reducing distortion.
However, this approach introduces additional challenges, such as the possibility of problems with membrane resonance and airflow turbulence in the grid-like magnet arrays. These issues could result in a diaphragm mechanical resonance frequency that is several times greater than the input frequency, thus reducing the sensitivity of voice pressure sensor.
Final was able overcome these limitations by making use of a single material that serves as diaphragm and conductor. This idea was inspired by ribbon speakers and their spherical conductor however, it was more affordable and practical for headphones due to its size and power requirements.
Another challenge common to many planar magnetic designs is a ringing sound that occurs on high-frequency, low-frequency bass notes. This is caused by a mismatch between the force of the magnetic field applied to the diaphragm as well as the natural flexing characteristics of the diaphragm.
you could look here utilized a thin polymer film dubbed Parylene to address this issue. This material was chosen because of its superior mechanical strength, bending ability and uniform thickness. It also has consistency of thickness. These qualities were required to ensure that the pliable, thin film could be stretched without forming unwanted creases or wrinkles.
Superior transient response
The way that planar magnetic drivers generate sound waves is different from traditional dynamic drivers. The key difference is that the conductor of a planar driver is laid out in a flat, 2D pattern on the diaphragm, instead of the coil being wrapped around an oval diaphragm. Conductors can react to magnetic fields on both the diaphragm's sides and produce sound waves very accurately. This technology eliminates the need for voice coils that can alter their impedance depending on frequency, creating distortion-free music.
In addition that, planar magnetic drivers are more durable and lighter than traditional drivers due to the fact that they do not contain moving parts that can wear out over time. They are also less prone to distortion caused by harmonics which can result in a decrease in the quality of audio. They have a faster response time and are able to reproduce sounds faster.
The huge surface area of the diaphragm planar, however it requires more power in order to move it and generate sound waves. Therefore, these headphones require a headphone amplifier that can provide sufficient power. The extra weight and cost could be a deterrent for some listeners.
Another benefit of planar magnet ic drivers is that they produce a wide soundstage, which is more expansive than traditional dynamic headphones. This is due to the large, flat diaphragm moves more evenly to create the planar sound wavefront rather than a narrow spherical wavefront that is typical of dynamic drivers. This is the main feature of planar headphones that provide a more immersive listening experience.
Audio reproduction that is authentic and true
Planar magnetic drivers provide natural and faithful audio reproduction contrasted to traditional dynamic driver models. Contrary to conventional dynamic drivers, which have a cone-shaped diaphragm that vibrates back and back and forth using two rows of magnets in order to generate equal magnetic force on the diaphragm. The diaphragm is moved in a wavelike manner. This helps to avoid distortion. They also reproduce music in greater frequency ranges that range from the lowest lows up to the highest highs. This makes them a great option for sound professionals as well as music enthusiasts.
The thin, flexible diaphragm in a planar magnetic driver moves faster than a dynamic driver. This allows it to respond to changes in sound signals and produce accurate reproduction. In addition, the lack of a coil positioned behind the diaphragm minimizes the likelihood that there will be contact between the mechanical components which could cause distortion at higher volume levels.
In the end, the diaphragm is able to effortlessly displace huge amounts of air to reproduce bass frequencies. The diaphragm's size and flexibility are crucial to produce the deep bass you enjoy in your music. Dynamic drivers, on the other hand tend to be small and stiff, which makes it difficult for them to endure the high-speed fluctuations required to reproduce the bass.
Despite the benefits that come with magnetic drivers that are planar however, they aren't as widely used in headphone and IEM products as dynamic drivers due to their high cost and complex design. This is partly because they require amplifiers to power them, which hinders their portability and ease of use. They remain popular with music lovers and critics who appreciate their exceptional audio quality and exceptional performance.
Wide frequency response
Planar magnetic headphones utilize diaphragms that are flat and uniform to create sound in a steady and controlled manner. This produces a wide frequency response that delivers accurate and precise reproduction of music. They are also known for their superior transient response. This means that they can respond quickly and accurately to audio signals.
In order to achieve this, they use a planar array of conductors that're placed across a thin diaphragm that's sandwiched between two magnets. When an electrical signal is sent to this conductor array, it transforms into electromagnetic energy and interacts with the diaphragm's magnetic fields producing that aforementioned push/pull action. This allows the diaphragm to react quickly to audio input, resulting in high-quality music reproduction with exceptional detail and accuracy.
The low distortion rate is yet another reason why these drivers are so popular with audiophiles. They can't produce as much harmonic distortion because they don't use the same moving parts. They also have lower resistance and present an unresistance load to amplifiers. This makes them easier to drive.
Planar magnetic drivers are commonly used in high-end audio equipment because of their superior performance. However, this also means that they are more expensive and require an amplifier, making them less suitable as a 'grab and go' kind of driver. Audiophiles will trade the extra expense and effort for the high-quality headphones they provide. They are considered to be the best option for those looking for the best listening experience.
Low distortion
The diaphragm in a planar magnet driver is very thin, so it can move at high speed without losing control. This allows for a very accurate and quick response to sudden changes in the audio signal. This allows you to hear details in music and make them sound more natural and lifelike.
Planar magnetic drivers also have the advantage of generating the same amount of force throughout the diaphragm, which prevents distortions at higher volumes. This is one of the main reasons why planar magnetic headphones sound so good - dynamic drivers have thicker and more heavy diaphragms that aren't capable of moving as quickly or at the same speed. In fact, they may break down when the forces are too strong or exceed the limits of their structural integrity, causing different points on the diaphragms to begin moving out of sync.
On the other hand these drivers create an extremely strong electromagnetic force that directly applies to the diaphragm. This eliminates the requirement for a voice coil, which is commonly required in headphones that use traditional dynamic cone drivers. This allows for more dynamic sound, a bigger soundstage and an exceptional bass response.
Due to these advantages due to these benefits, planar magnetic drivers are considered by many audiophiles to be the most effective headphone driver. They have a few limitations regarding the cost and power requirements, however their ability to provide superior audio quality makes them a perfect choice for those seeking the best quality audio reproduction. Compared to other types of headphones, these drivers provide superior clarity and transparency in all frequencies except for bass frequencies (where dynamic drivers are usually still preferred). If you're in search of high-end headphones that can deliver superb sound for any price, be sure to check out our top selections below!