This Is The Ultimate Guide To Planar Magnetic Loudspeakers > 커뮤니티 카카오소프트 홈페이지 방문을 환영합니다.

Planar Magnetic Loudspeakers and Ribbon Tweeters

Planar magnetic drivers, ribbon tweeters and other speakers with dynamic characteristics have a number advantages. Their comparatively large diaphragms require only a small amount of movement (excursion) to reproduce the same sound quality like a conventional driver, which results in extremely low distortion.

They also have a dipolar radiation pattern which means they radiate equally to the rear and front of the speaker.

High-Resolution Sound

They are known for their accurate, detailed sound effects. They are known to deliver high-resolution and reveal subtle nuance in the music that other drivers cannot reproduce or show.

Planar and ribbon drivers are not only accurate, but also offer superior soundstages, which allows them to recreate a vast soundstage with exceptional clarity. This makes them an excellent choice for audiophiles and home audiophiles who are looking to enjoy music to the maximum extent possible.

Planar and ribbon drivers are distinguished by their dipole pattern. This pattern radiates equal amounts of energy front and back with an inverted phase, resulting in a natural soundstage. This, along with their wide dispersion, makes them suitable for large rooms, as they can fill the room with a wide and natural soundstage, without causing unwanted reflections off furniture and walls.

Planar magnetic drivers also have a rapid response time, which helps to reproduce transients with greater precision and speed than traditional cone drivers. This results in a highly clear and precise sound, even at very high frequencies.

Planar magnetic drivers are also recognized for their low distortion. This is due to the fact that they do not use the voice coil, but rather an electrostatic field. This allows the diaphragms move without causing vibrations which could cause unwanted distortion.

In addition, the distance between the magnets in a planar driver is much bigger than the gap in a conventional cone speaker. This provides a higher bass performance and a greater frequency response even at low amplitudes.

Despite their many benefits, planar magnetic speakers have a few limitations to consider. For instance, they can be quite costly and require more power than other types of speakers. They can also be large and difficult to fit into certain spaces. They are also sensitive to the acoustics of the room and require extensive treatment of the room in order to achieve optimal performance. There are methods to reduce the effects. For example you can include an attenuation resistance (provided by speakers) and place it in the attenuation settings. You can also perform some type of room treatment.

Wide Dispersion

Planar magnetic speakers also produce sound by regulating electrical currents that travel through wires suspended in between magnets. They vibrate a flat, conductive membrane directly, rather than using an electrostatic charge. This results in an increased surface area and better precision. This principle of operation also allows for the construction of them into smaller, less expensive headphones and speakers compared to electrostatic models.

In addition to providing a broad dispersion, planar drivers deliver superior imaging and clarity of soundstage, particularly in the upper frequencies where they excel. This is a great benefit for audiophiles who enjoy listening to music or movies on big screens or in a large open space.

Planar drivers also can produce a very deep bass, as they can be augmented with subwoofers in boxes that are that are attached to or separate from the membrane-like ribbon. This is different from traditional cone-type speakers, which feature woofers that are located at the bottom of the speaker, which are not able to reproduce bass frequencies due to the physical constraints of woofer enclosures.

A planar driver has a low distortion rate which is directly related to the size and movement of the diaphragm. In the end, a planar speaker can produce an extremely high volume of sound with minimal distortion, which is the reason it gives such a crisp and precise reproduction.

Dynamic drivers in conventional headphones and speakers typically show significant distortion when they are driven to their maximum excursion limits. Dynamic drivers can give an enveloping sound or a boomy sound.

In addition, planar magnetic drives are also extremely efficient. They consume less energy to drive, which results in a reduced energy consumption and a less negative impact on the environment. Additionally, their diaphragms are typically composed of lighter materials than conventional speakers, which in turn reduces the amount of energy needed for them to generate a given sound pressure.

While many audiophiles are familiar with planar/ribbon loudspeakers - especially those produced by Magnepan, Infinity, and Apogee Acoustics - a new generation of brands is making their debut. New planar loudspeakers made by companies such as Clarisys Audio and Diptyque, for example, Magnetic planar incorporate the latest advancements in ribbon technology.

Low Distortion

Since planar magnetic speakers do not have a conventional cone or dome-shaped diaphragm, they produce extremely low distortion. This is a direct result of their unique design which eliminates the voice coil inductance commonly associated with conventional dynamic speaker drivers (see U.S. Patent 6,353,560). This ensures that the diaphragm is always in phase with the magnetic field surrounding it, and thus a constant output. The distortion is typically only evident when large waveforms are being reproduced. With a single-ended planar magnetic driver, distortion is nearly impossible at all frequencies that are above the bass.

In addition to their ultra-low distortion and low distortion, planar magnetic loudspeakers provide extremely high efficiency. This lets the drive use less energy than other technologies for speakers. This means lower costs of ownership and less energy consumption.

Planar magnetic drivers also have a significantly lower distortion than traditional dynamic speakers and are even less than electrostatic speakers. This is because a planar magnet driver's flat diaphragm is equipped with a conductor trace that lets it to react to magnetic fields generated on either side.

The two magnets have to be carefully positioned to ensure that the voice element is located within the magnetic field at all times. This allows magnetic drivers that are planar to function at a very consistent level in all frequencies above bass.

There are numerous benefits to planar magnetic drivers, the most notable is that they are able to be designed to be either dipole (radiating equally and in opposite phases in the front and back of the speaker, like an ESL) or Monopole (radiating forward, much like the traditional dynamic). This opens the door for many different possible designs, particularly when paired with a ribbon tweeter.

There are a variety of planar magnetic loudspeakers on the market today, from manufacturers such as Hifiman Dan Clark Audeze and Fostex. Each brand has its own distinctive sound, which is a result of their proprietary design of drivers and other engineering innovations. These speakers are distinguished by their incredible detail and their dynamic, as well as controlled directionality.

High Power Handling

Planar magnetic drivers are capable of handling large amounts of power without the tension or strain that can be caused by traditional dynamic speakers with moving coils. The "voice coil" is not squeezed into the small gap between the baskets and cones as in traditional dynamic drivers. Instead it is spread over more of a large area. This gives the voice-coil a larger surface to dissipate any heat.

Planar drivers can handle a lot of power because they are lightweight compared to conventional drivers. Dynamic drivers utilize thick, heavy diaphragms that are orders of magnitude larger and heavier than the ultra-light and thin diaphragms used in planar magnetic Planar [www.Plantsg.Com.sg] drives. Because of their mass, conventional diaphragms require a greater amount of force to move backwards and forwards (a measurement known as excursion) to produce a certain level of sound pressure.

Therefore they aren't able to be used as hard as the planar magnetic driver because the voice coil could begin to produce significant amounts of distortion. This is the reason it's essential to purchase only loudspeakers that what are planar magnetic drivers designed for the amplifier that you intend to drive them with.

The high frequency of an acoustic driver also enables it to create a wider soundstage than conventional drivers. This is due to the diaphragm's ability to vibrate uniformly and flat to form an asymmetrical wavefront, not the spherical wavefront that is typical with traditional drivers. This wider soundstage increases the precision and detail of the speakers and allows them to reproduce subtle nuances and complex sound effects.

The drawback to the superior power handling of planar magnetic drivers is that they are often more expensive to make and require more powerful amplifiers to operate at full capacity. They can be massive and heavy, which makes it difficult to install in certain settings. They also have a low bass response, which means you may have to add a subwoofer to your system to get a satisfying result at lower frequencies.