클잼 로고

• 목록
• 답변
• 글쓰기
• 게시판 리스트 옵션
  • 수정
  • 삭제

Planar Magnetic Speakers

Planar magnetic speakers employ an elongated diaphragm to transform an electrical signal into sound. They are renowned for their accuracy as well as their clarity and detail. They also have low distortion. They also have a wide frequency response, making them easy to listen to.

Dynamic drivers have more robust and rigid diaphragms than the ultra-light and thin ones that are used in planar earphones; highwave.kr, magnetic speakers. This makes it difficult for them to accelerate and move quickly, causing sonic distortion.

They are easy to build

Many people believe that building planar magnet speakers is hard. However they are incredibly simple to construct. The key is to follow the directions and build a well-engineered speaker. The result will be a sound system of superior quality that will rival any model available commercially. Apart from being simple to construct these speakers offer better sound quality than traditional dynamic drivers. They offer greater clarity as well as a larger dynamic range and a controlled level of directivity, which all contribute to a more immersive listening experience.

Planar magnetic speakers emit extremely directional, flat waves, in contrast to conventional loudspeakers, which project sound in circular wavefronts. This gives them the ability to reproduce sounds at extremely low frequencies, which could be difficult for conventional speakers to achieve. Their extremely precise imaging brings the music to life, making standard speakers sound slow in comparison.

A planar magnetic drive generates sounds by using a thin sheet of metal suspended between two stationary conductive plates. The audio signal is carried by a current through the panel, which quickly shifts between positive and negative. The negative side of the panel is pulled towards the magnetic array and it moves forward and back to create a vibration on the diaphragm. The result is a wide sound field that is free of distortion and a high dynamic response.

One of the most crucial factors in a planar magnetic speaker's performance is its maximum excursion, which is how the speaker can travel before it starts to distort. This is measured at a particular frequency and output level. If you want to hear the 20-Hz bass, you'll need an audio system that has an excursion of around 1 millimeter.

A reliable planar magnet driver should be able maintain structural integrity while enduring high excursion. It should also be able effectively disperse heat and manage the rigors of a large power. To fulfill these goals the speaker's voice coil must be of sufficient thickness and diameter. The voice coil must also be wrapped in a conductive material that is capable of conducting electricity.

They effectively disperse heat.

This is a very important aspect of any speaker. The voicecoil is close to the magnet array and has an excellent flux density in the gap. This is the reason for heat in a speaker, and it must be dissipated to prevent distortion and planar Earphones damage. Convection and radiation are the two ways that the voicecoil can be rid of heat. Radiation is the preferred method because it does not have the cone's pumping effect. However, it should be done with care and the design must manage the power being applied.

The first step is to make sure that the gap between your voicecoil array and the array is at least 1mm. This is vital, as a gap larger than 1mm could cause severe distortion. The gap should also be large enough to permit the voicecoil's movement without hitting the rearplate. The wide gap designs that are popular with manufacturers are inefficient, and only work at low frequencies.

A good way to determine the gap is to put a magnet on the gap and measure the resistance between the magnet and the voicecoil. The greater the resistance, the less heat is dissipated and the more likely it is to distort. The lower the resistance the more efficient the speaker will be and the less distortion it will produce.

Planar magnetic speakers are able to reproduce the upper octaves very precisely, but they are unable to reproduce lower frequencies due to the huge diaphragm needed. This is why the majority of planar magnetic speakers utilize a tweeter and woofer in combination. This lets them cover an extended frequency range while causing less distortion.

Planar magnetic drivers are renowned for their low distortion and high bass. The dipole design means that the drivers emit equal amounts of energy in both directions and have an inverted phase. This is a major advantage over conventional drivers which are subject to strong Q resonances and mechanical distortion.

They can handle a lot of power

Many people are concerned that planar magnetic speakers won't be able to handle the amount of power they need however the reality is that they are able to. The "voice coil" has a larger surface area than a dynamic driver, and will therefore be able to disperse more heat. The diaphragm, which is small and light, helps to reduce distortion.

It is important to keep in mind that a planar magnetic speaker will require a lot power to produce a good sound. They are sensitive to the way a room is set up since they aren't able to disperse their energy as a traditional speaker. They are also directional and if you are listening from only a few degrees away the volume will be reduced.

Inefficiency is another aspect that makes them able to handle large amounts of power. This is due to the fact that they have a much lower impedance than conventional drivers, meaning they require more power to achieve the same listening volume. They are also prone to magnetic saturation which can cause distortion.

In determining the maximum excursion for the planar magnet speaker is an excellent way to test its capacity to handle high power. This is the amount of distance the diaphragm will travel before it comes into contact with the magnet array and begins to distort. The most powerful planar magnetic speakers can cover the distance of around 1 mm before this occurs.

Planar magnetic speakers also have a greater range of frequencies than cone drivers. This is beneficial in certain situations. They can reproduce higher frequencies, which can increase the quality of music. This makes it easier to differentiate between vocals and instruments in songs.

The top best planar headphones magnetic speakers can reproduce a broad range of frequencies, which includes the bass frequencies. This is a great benefit for those who wish to listen to music in various situations. They can be more expensive than traditional loudspeakers, yet they provide an immersive and unique experience. They're also a great option for home theater systems.

They are directed

When an electrical signal is applied on the trace patterns that conduct electricity, the magnetic field causes movement of the diaphragm which produces sound waves. The movement is more precise and controlled compared to conventional cone drivers. This results in a greater frequency response. This allows planar speakers to produce more clarity and detail in the music.

These flat diaphragms are available in two distinct designs that are dipole (radiating in both directions, much like electrostatics and Maggies) or Monopole (radiating in just one direction, more like traditional dynamic speakers). This flexibility allows designers to select from a range of options when designing on-wall or built-in loudspeakers. They can deliver outstanding performance at a reasonable price.

The diaphragm of a planar magnetic driver is typically constructed of a thin, light polymer that is coated with copper circuits that conduct electricity. The metal-laced diaphragm is surrounded by arrays of magnets that are arranged in bars with a wide spacing. The magnetic bars create an intense magnetic field that can attract and disperse air particles inside the diaphragm. The magnetic fields also aid to disperse heat away from the speaker without causing any strain to the voice coil.

Planar magnetic speakers are more sensitive than cone speakers and can handle more power without overheating. They also have a low impedance that means they require less amplification to reach the same listening quality. They can reproduce the full range of audio frequencies, including bass and highs. They are often augmented with woofers boxed to reproduce low frequencies with greater accuracy.

The comparatively poor damping of single-ended planar magnetic loudspeakers is a drawback. This can lead high-Q resonances in the low frequency spectrum of the speaker's response, which can alter the color of the sound. This issue can be addressed through a hybrid design that blends the advantages of dipole and planar technologies.

The correct placement of a planar magnet speaker in an area is one of the most crucial factors that determine its success. This can affect a variety of sound characteristics, including bass response imaging, planar Earphones soundstage width and breadth. It is important to avoid toe-ins, because it could negatively impact the midrange and highs. The speaker should be located where the central image narrows the most.