Planar Magnetic Loudspeakers and Ribbon Tweeters

Planar magnetic drivers and ribbon tweeters have numerous advantages over traditional dynamic speakers. Their diaphragms are comparatively large and require only a small amount of movement (excursion) to reproduce the same volume as a conventional driver, which results in extremely low distortion.

They also exhibit dipolar radiation patterns, which means that they radiate equally in front and behind the speaker.

High-Resolution Sound

They are renowned for creating precise, clear sound effects. They are known for delivering high-resolution, revealing subtle nuances in music that other drivers aren't able to reproduce or reveal.

Ribbon and planar drivers are not just accurate, they also have superior soundstages, which allows them to recreate a vast soundstage with incredible clarity. This makes them a great choice for audiophiles as well as home theatre enthusiasts who want to enjoy music to the highest level possible.

A key feature of planar and ribbon drivers is their dipole radiation pattern, that emits equal energy front and rear with inverted phase to create an incredibly spacious and natural soundstage. Their large dispersion and dipole radiation pattern make them ideal for large spaces, where they are able to create a natural and spacious soundstage.

Planar magnetic drivers also have a quick response time, which helps them reproduce transients with more accuracy and speed than conventional cone drivers. This produces a clear and clear sound, even at high frequencies.

Another benefit of planar magnetic drivers is their low distortion. This is due to the fact that they don't use an actual voice coil, but rather an electrostatic field. This allows the diaphragm to move without creating vibrations that can cause distortion that is not desirable.

In addition, the distance between the magnets in a planar driver is much larger than in a traditional cone speaker. This provides a higher bass performance and a greater frequency response even at low levels of amplitude.

While many of the benefits of planar magnetic drivers are appealing however, they have some limitations that must be thought about. For instance, they can be quite costly and require more power than other kinds of speakers. They can also be large and difficult to fit into certain rooms. Additionally, they are sensitive to the acoustics of the room and require extensive room treatments to ensure the best performance. However, there are solutions to minimize these problems by incorporating an attenuation resistor (provided by your speakers) in the attenuation position, or applying some kind of room treatment.

Wide Dispersion

Planar magnetic speakers also create sound by regulating electrical currents that travel through wires suspended in between magnets. They vibrate a flat membrane directly, instead of using an electrostatic charge. This gives them an increased surface area and better precision. This allows them to be integrated into smaller and more affordable headsets and speakers as opposed to electrostatic models.

Planar drivers are not only capable of dispersing sound effectively, but also deliver a superior imaging and clarity at higher frequencies. This is a huge benefit for audiophiles who enjoy watching movies or music on large screens or in an open space.

Planar drivers can also produce an extremely deep bass since they can be augmented with subwoofers in boxes that are attached to or separated from the membrane that resembles a ribbon. This is in contrast to traditional cone-shaped speakers that feature woofers that are located at the bottom, which cannot reproduce bass frequencies because of the physical constraints of enclosures for woofers.

Another advantage of the planar driver is that it has exceptionally low distortion, which is directly related to the size and the excursion of the diaphragm that resembles a ribbon. This means that the planar speaker can deliver an enormous amount of sound with very little distortion, which is why it can produce such clear and detailed sound.

In comparison the dynamic drivers that are used in standard headphones and speakers typically have significant distortion when driven to extreme excursion limits. Dynamic drivers can give an unnatural or booming sound.

Planar magnetic drivers are extremely efficient. They require less power to drive, which results in a lower power consumption and a less environmental impact. Additionally, their diaphragms are typically made of lighter materials than traditional speakers, which further decreases the amount of energy required to propel them to create the desired sound pressure.

Many audiophiles are familiar with planar/ribbon loudspeakers - especially the ones made by Magnepan, Infinity, and Apogee Acoustics - a new generation of brands is coming onto the market. For example new planar magnetic iem (80agpaebffqikmu.рф) loudspeakers made by manufacturers like Diptyque and Clarisys Audio are incorporating the latest advancements in ribbon technology.

Low Distortion

Planar magnetic speakers exhibit extremely low distortion since they don't use the conventional cone or dome-shaped diaphragm. This is due to their unique design, which eliminates voice coil inductance that is common to dynamic driver speakers. (See U.S. patent 6,353,560). This assures that the diaphragm always in phase with the magnetic field surrounding it, which results in an output that is constant. Distortion is generally only noticeable when large waveforms are reproduced. With a single-ended magnetic planar driver, distortion is virtually impossible at all frequencies that are above the bass.

In addition to their low distortion they also offer extremely high efficiency. This enables the drive to operate with a lesser amount of power than would otherwise be required by other types of speakers. This in turn translates to lower costs of ownership and a lower energy consumption.

Planar magnetic drivers also have significantly lower distortion compared to conventional dynamic speakers and even less for electrostatic speakers. This is due to the diaphragm that is flat in a planar magnetic driver has conductor trace which allows it to respond to magnetic fields produced by magnets on either side of it.

These two magnets must be carefully positioned to ensure that the voice element is placed within the magnetic field at all times. This is the reason for the extremely linear performance of planar magnetic drivers at all frequencies that go beyond the bass.

While there are numerous benefits to planar magnetic drivers, the most important is that they can to be designed to be either dipole (radiating equally and in opposite phases in the front and back of the speaker, similar to an ESL) or monopole (radiating forward, more like a traditional dynamic). This opens the door for a wide variety of potential designs, particularly when paired with a ribbon tweeter.

A variety of planar magnetic loudspeakers are on the market today from brands like Hifiman, Dan Clark, Audeze and Fostex. Each brand has its own distinctive sound, which is a result of their unique design of drivers and other technological innovations. These speakers are characterized by their stunning clarity and their dynamic, as well as controlled directionality.

High Power Handling

Planar magnetic speakers can handle more power than traditional moving coil dynamic drivers, without the audible strain and stress that they can cause. This is due to the fact that the "voice coil" is spread out across an extensive area instead of being squeezed into a tiny gap between the cone and basket like in traditional dynamic drivers. This gives the voice coil a larger surface area to absorb heat effectively.

Another reason why planar drivers can handle such a large amount of power is due to having such a low mass as compared to conventional drivers. Dynamic drivers utilize diaphragms made of heavy, thick material that are orders of magnitude larger and Planar magnetic iem heavier than the diaphragms that are ultra-light and thin employed in planar magnetic drivers. Because of their mass, conventional diaphragms require more force to move forward and backwards (a measurement known as excursion) to produce a certain level of sound pressure.

They aren't able to be driven nearly as hard as a planar magnet driver, since the voice coil can begin to create significant distortion. It's therefore important to buy loudspeakers rated for the amplifier you intend to use.

A planar magnetic driver's large excursion allows it to produce a wider soundstage than conventional drivers. This is due to the diaphragm's vibration evenly and flat to create a wavefront, rather than the spherical wavefront that is typical of conventional drivers. The wider soundstage also improves the clarity and accuracy of the speakers which allows them to reproduce more subtle nuances and complex sounds.

The disadvantage of the superior power handling of planar magnetic drivers is that they are often more expensive to produce and require higher-powered amplifiers in order to operate at full capacity. They can also be heavy and bulky which makes them difficult to install in certain locations. It is also possible to install a separate subwoofer to get satisfactory results at lower frequencies.