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How Do Magnet Planar Headphones Work? It could be difficult to understand how planar magnetic drivers work in case you've never worked with two. Planar magnetic drivers employ two flat magnets which are sandwiched in thin diaphragms with conductors. This differs from the voicecoil actuator which is a cone that is pushed back and back and forth. go!! are flat pieces made of flexible film, unlike traditional dynamic headphone drivers, which have cone-shaped or dome-shaped diaphragm. The film is coated with conductors that react to magnets placed between the two sides of the membrane. When the electrical signal flowing through these wires changes, the magnetic field created by the magnets causes the diaphragm react and move. This movement creates sound waves that are then heard by you. The diaphragm of the human body is a dome-shaped membrane that separates the thoracic (chest), and abdominal cavities. It is the main respiratory muscle, and is responsible for inspiratory actions, such as breathing as well as coughing and sneezing and crying, laughing as well as vomiting and parturition. The diaphragm also is essential for expulsive actions, such as urinating and defecating as well as pushing out the fetus during delivery. A planar magnetic diaphragm is more sensitive to changes in audio signals than dynamic drivers because of its ultra-lightweight and thinness. Planar magnetic headphones provide more delicate and precise sound than dynamic drivers. One of the disadvantages of planar magnetic headphones is that they are likely to have a little more leakage than their dynamic counterparts, especially at higher volumes. This is due to the movement of the magnet diaphragm in the planar headphones which causes some audio to be pushed toward the listener. It is not a big deal if you use headphones only in quiet settings or to watch films. However, it can be irritating for public or active listening usage. There are a few options to reduce the amount of leakage. These include the Audeze LCD-4 and HiFiMAN Sundara. Wisdom Audio, for example, is a pioneer in the development of PMD technology. They have put in a lot of effort to address issues that arise with this type of headphone. This is why they have patents on several innovations that you can observe in their products. For instance, their brand new flexible circuit-based planar winding eliminates the limitations of stamped copper windings to give an improved utilization rate. The Conductors The conductors connect the magnets with the diaphragm and are responsible for the sound you hear. These are usually made from a mixture of aluminum and copper. These are then wound around the central magnetic core which is enclosed by a diaphragm, and is held by the frame of the headphone. The magnetic core is a circular shape magnetic element that can be made of any material, however it is typically made with Neodymium. The core is the main element of any planar sound driver. It consists of nested layers and an helix circular in size, ranging from 10-20mm in diameter. Planar magnetic drivers have the benefit of a larger soundstage compared to their more dynamic counterparts. This is due to the fact that the entire diaphragm is vibrating when an audio signal is received instead of just a small portion that is attached to the voice coil. This bigger surface area results in lower distortion levels, especially at higher volumes. Another important characteristic of a magnet planar is its ability to respond quickly to the changes in the audio signal. This enables a wider spectrum of frequencies to be reproduced, as well as a more realistic sound. This is an excellent feature for those who appreciate music that incorporates a variety of instruments and vocals. Additionally, the stacked design of a planar magnetic decreases part-to-part variation and is perfect for mission-critical applications that require high reliability. As compared to wirewound magnetics, these offer better consistency and lower magnetic field distortion, which is essential for the success of any electronic device. The Magnets A magnet is a material with magnetic properties. It can exert an attractive or repulsive force on certain materials, such as nickel, iron cobalt and a few steels. It can also attract and repel electrical conductors. This phenomenon is referred to as magnetism. It is produced by permanent, electromagnets or temporary magnets. Magnets are used in a myriad of applications and can be found in many different types of devices including electronic devices such as headphones mobile phones, laptop computers and car audio systems. In contrast to traditional balanced armature and dynamic drivers, which push a stiff diaphragm with a voice coil, the planar magnetic driver technology employs an extremely thin, light, flexible diaphragm to create an unidirectional sound wavefront instead of the narrow spherical wavefront common in most headphones and speakers. This produces a much more spacious and cleaner soundstage, and is also known for its rich bass. The main disadvantage of planar magnetic drivers is that the massive magnets they have require plenty of power. This makes them more heavy and bulkier than other types of headphones drivers. A lot of planar magnetic drivers require an amplifier to function properly. The amplifier should be designed to match the power output of the planar magnetic driver to give the best listening experience. In addition the amplifier should be equipped with a sufficient input impedance to be able to drive the planar magnetic driver to its maximum output frequency. The planar magnetic drive is usually constructed as a dipole, which radiates equally and in opposite phases in the direction of the speaker's front and back (like ESLs), or a monopole that emits only in the forward-facing direction (more than traditional headphones). The most common design is a bi-pole that has one north and one south pole. Its shape allows it to be easily made into one piece of metal, and creates a strong field at the center of the faceplate. Planar magnetic drivers are more efficient and have a smaller distortion due to their size. They are commonly used in premium headphone systems where sonic precision is important. They are also used in audio equipment that is designed for professional use, such as loudspeakers and microphones. Due to their unique construction they are also suited for medical imaging as well as other applications that require extremely high precision. The Seal For planar drivers to function effectively, they must be sealed in a very precise and tight manner. A tiny leak can drastically reduce sound performance and even cause distortion. This is why a lot of work goes into creating the proper seal for drivers with planar designs. Planar magnetic headphones, in contrast to other designs of headphone, should not have gaps within the enclosure of the acoustic. This is because gaps could cause the diaphragm's resonance to be triggered with different frequencies simultaneously. This is referred to as crosstalk, and can cause the sound quality to be affected. Rubber ring seals are the most commonly used type of seal used in headphones that are planar. This type of seal is extremely effective in stopping air leaks. It is also extremely durable and can last an extended period of time. However, it is important to keep in mind that this type of seal can occasionally produce hollow sounds. This is why it is crucial to select a premium rubber seal if you're planning on using the planar magnetic headphone. Another option for a planar magnetic driver is the liquid crystal display (LCD) seal. This is a higher-end type of seal that is designed to prevent the formation of gaps. It is also constructed to withstand a substantial amount of pressure. This makes it an excellent option for audiophiles seeking the best sound quality. LCD headphones can give a clear and detailed sound. This is particularly the case for headphones that are high-end, like the Audeze LCD-4 or HiFiMAN Susvara. However, it's possible to find inexpensive LCD headphones that offer a similar high-quality sound. It is important to note that planar magnetic headphones generate more sound pressure than dynamic headphones. This is due to the way they are built. They differ from dynamic headphones since they are equipped with two magnets that pull against the diaphragm. This creates a powerful force that can create extremely high frequencies. Planar magnetic drivers, a new technology on the market for headphones are a revolutionary product. They have started to revolutionize the way people listen to music. In addition to their high-quality sound these headphones are extremely comfortable to wear and are easy to adjust.