7 Things About Planar Magnetic Loudspeakers You'll Kick Yourself For N…
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Planar Magnetic Loudspeakers and Ribbon Tweeters
Planar magnetic drivers as well as ribbon tweeters and other dynamic speakers offer a number advantages. Their diaphragms are comparatively large and require very little movement (excursion) to reproduce the same sound level as a traditional driver, resulting in very low distortion.
They also have dipolar radiation patterns, which means that they radiate equally in front and behind the speaker.
High-Resolution Sound
They are known for producing accurate, detailed sound effects. They are known for their high-resolution sound that reveals subtle nuances in music that other drivers fail to reproduce or reveal.
In addition to their impressive accuracy In addition to their impressive accuracy, ribbon and planar drivers have superior soundstages, allowing them to reproduce an expansive soundstage with outstanding clarity. Audiophiles, home theater enthusiasts and audiophiles will find them be a great choice.
One of the most important characteristics of ribbon and planar drivers is their dipole radiation pattern, that emits equal energy front and rear, with an inverted phase to create an authentic and spacious soundstage. This, combined with their large dispersion makes them suitable for large rooms, as they can fill the room with a broad and natural soundstage, while avoiding unwanted reflections off walls and furniture.
Planar magnetic drivers have a quick response time that allows them to reproduce transients with greater accuracy and more quickly than cone drivers. This produces a clear and clear sound, even at high frequencies.
Another advantage of planar magnetic drivers is their low distortion. This is due to the fact that they do not employ the voice coil, but rather an electrostatic field. This allows the diaphragms move without causing vibrations which could cause distortion.
A planar driver also has a larger gap between the magnets than cone speakers. This provides a higher bass and a better frequency response at lower intensities.
Although many of the advantages of planar magnetic drivers appeal to you, they do have some limitations that need to be thought about. For instance, they could be quite costly and require more power than other types of speakers. Additionally, they can be heavy and difficult to install in certain rooms. They are also sensitive to the acoustics of the room and require a thorough treatment of the room to get the best performance. There are several ways to minimize these problems for example, by putting an attenuation resistor (provided by your speakers) in the attenuation position, or by performing some type of room treatment.
Wide Dispersion
Planar magnetic speakers also generate sound by controlling electrical currents that pass through wires suspended in between magnets. However they directly vibrate a flat diaphragm, rather than an electrostatic charge, which gives them a larger surface area and greater accuracy. This principle allows them to be integrated into smaller and more affordable headsets and speakers than electrostatic models.
In addition to offering large dispersion, they also deliver superior imaging and clarity of soundstage, especially in the upper frequencies where they excel. This is a great benefit for audiophiles who love watching music or films on a large screen or in a large open space.
Moreover, planar drivers can also produce deep bass because they can be augmented by boxed woofers that are attached to or separate from the diaphragm that resembles a ribbon. This is in contrast to traditional cone speaker woofers which are typically placed in the bottom of the cabinet, a position which is unable to reproduce bass frequencies because of the physical constraints of the enclosure that houses the woofer.
A planar driver has a low distortion rate which is directly proportional to the size and movement of the diaphragm. A planar speaker can produce a high volume of sound with no distortion. This is the reason that the sound reproduction is clear and detailed.
Dynamic drivers found in conventional headphones and speakers typically exhibit significant distortion when they are driven to their maximum limit of excursion. Dynamic drivers can create a hollow or boomy sound.
Planar magnetic drivers are extremely efficient. They are less energy-intensive to drive, resulting in a lower power consumption and environmental impact. Their diaphragms, which are usually lighter than conventional speakers, also reduce the amount of energy required to propel them to produce a certain sound pressure.
Many audiophiles have heard of planar/ribbon speakers, such as those made by Magnepan Infinity and Apogee Acoustics. However, there is a brand new on the market. For example, new planar loudspeakers from manufacturers like Diptyque and Clarisys Audio are incorporating the most advanced ribbon technology.
Low Distortion
Since planar magnetic speakers don't have a cone or dome shaped diaphragm, they produce extremely low distortion. This is the 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 means that the diaphragm is never being out of phase with the surrounding magnetic field, which results in an unchanging output level. The distortion is typically only evident when large waveforms are being reproduced. With a single-ended planar magnetic driver, distortion is almost impossible at all frequencies that are above the bass.
Planar magnetic loudspeakers are extremely efficient and have low distortion. This enables the drive to operate with a much lower power consumption than would otherwise be required for other speakers. This translates into lower costs of ownership as well as less energy consumption.
The distortion of planar magnetic drivers is also significantly lower than conventional dynamic speakers, and more so for electrostatic speakers. This is because the flat diaphragm features a conductor trace that allows it to react to magnetic fields created on either side.
The two magnets have to be carefully positioned so that the voice element stays in the magnetic field at optimum levels at all times. This is what allows planar magnetic drivers to perform at a very consistent level across all frequencies higher than bass.
Planar magnetic drivers come with a myriad of other advantages, but the most important is that they can be designed as dipoles (radiating in opposite phases and equally behind and in front of the speaker, similar to an ESL) or planar magnetic Loudspeakers monopoles (radiating in the direction of travel and more like traditional dynamic speakers). This allows for many different possible designs, particularly when paired with ribbon tweeters.
There are a variety of planar Magnetic Loudspeakers (yerliakor.com) on the market in the present, from companies like Hifiman Dan Clark Audeze and Fostex. Each company has their own unique sound that is the result of their unique driver planar configurations as well as other innovations in engineering. The commonality among these speakers is their incredible quality, dynamic and a controlled control of directivity.
High Power Handling
Planar magnetic drivers are capable of handling lots of power without causing the audible strain or stress that can be induced by traditional dynamic speakers with moving coils. This is due to the fact that the "voice coil" is spread out across an expansive area instead of being squeezed into a narrow gap between the basket and cone as in traditional dynamic drivers. This gives the voice coil an increased surface area to absorb heat efficiently.
Planar drivers can handle so much power because they are so lightweight compared to conventional drivers. Dynamic drivers are made of thick, heavy diaphragms which are several orders of magnitude larger and heavier than ultra-light diaphragms found in planar magnetic drives. Due to their massive mass, conventional diaphragms need a greater amount of force in order to move backwards and forwards (a measurement known as excursion) to create the required sound pressure.
Therefore they aren't able to be driven as effectively as the planar magnetic driver since the voice coil would begin to generate substantial amounts of distortion. It is therefore essential to purchase loudspeakers that are rated for the amplifier you intend to use.
The high frequency of an acoustic driver also enables it to create a larger soundstage than conventional drivers. This is because the entire diaphragm vibrates to create a flat, even wavefront rather than the more focused spherical wavefront common in conventional drivers. The wider soundstage improves the accuracy and details of the speakers and allows them to reproduce subtle nuances and complex sounds.
The downside to the superior power handling of planar magnetic drivers is that they are often more expensive to make and require stronger amplifiers in order to be driven at full capacity. They can be massive and heavy, which makes it difficult to install them in certain areas. They also have a low bass response, so you may need to add a subwoofer to your system to get the best results at lower frequencies.
Planar magnetic drivers as well as ribbon tweeters and other dynamic speakers offer a number advantages. Their diaphragms are comparatively large and require very little movement (excursion) to reproduce the same sound level as a traditional driver, resulting in very low distortion.
They also have dipolar radiation patterns, which means that they radiate equally in front and behind the speaker.
High-Resolution Sound
They are known for producing accurate, detailed sound effects. They are known for their high-resolution sound that reveals subtle nuances in music that other drivers fail to reproduce or reveal.
In addition to their impressive accuracy In addition to their impressive accuracy, ribbon and planar drivers have superior soundstages, allowing them to reproduce an expansive soundstage with outstanding clarity. Audiophiles, home theater enthusiasts and audiophiles will find them be a great choice.
One of the most important characteristics of ribbon and planar drivers is their dipole radiation pattern, that emits equal energy front and rear, with an inverted phase to create an authentic and spacious soundstage. This, combined with their large dispersion makes them suitable for large rooms, as they can fill the room with a broad and natural soundstage, while avoiding unwanted reflections off walls and furniture.
Planar magnetic drivers have a quick response time that allows them to reproduce transients with greater accuracy and more quickly than cone drivers. This produces a clear and clear sound, even at high frequencies.Another advantage of planar magnetic drivers is their low distortion. This is due to the fact that they do not employ the voice coil, but rather an electrostatic field. This allows the diaphragms move without causing vibrations which could cause distortion.
A planar driver also has a larger gap between the magnets than cone speakers. This provides a higher bass and a better frequency response at lower intensities.
Although many of the advantages of planar magnetic drivers appeal to you, they do have some limitations that need to be thought about. For instance, they could be quite costly and require more power than other types of speakers. Additionally, they can be heavy and difficult to install in certain rooms. They are also sensitive to the acoustics of the room and require a thorough treatment of the room to get the best performance. There are several ways to minimize these problems for example, by putting an attenuation resistor (provided by your speakers) in the attenuation position, or by performing some type of room treatment.
Wide Dispersion
Planar magnetic speakers also generate sound by controlling electrical currents that pass through wires suspended in between magnets. However they directly vibrate a flat diaphragm, rather than an electrostatic charge, which gives them a larger surface area and greater accuracy. This principle allows them to be integrated into smaller and more affordable headsets and speakers than electrostatic models.
In addition to offering large dispersion, they also deliver superior imaging and clarity of soundstage, especially in the upper frequencies where they excel. This is a great benefit for audiophiles who love watching music or films on a large screen or in a large open space.
Moreover, planar drivers can also produce deep bass because they can be augmented by boxed woofers that are attached to or separate from the diaphragm that resembles a ribbon. This is in contrast to traditional cone speaker woofers which are typically placed in the bottom of the cabinet, a position which is unable to reproduce bass frequencies because of the physical constraints of the enclosure that houses the woofer.
A planar driver has a low distortion rate which is directly proportional to the size and movement of the diaphragm. A planar speaker can produce a high volume of sound with no distortion. This is the reason that the sound reproduction is clear and detailed.
Dynamic drivers found in conventional headphones and speakers typically exhibit significant distortion when they are driven to their maximum limit of excursion. Dynamic drivers can create a hollow or boomy sound.
Planar magnetic drivers are extremely efficient. They are less energy-intensive to drive, resulting in a lower power consumption and environmental impact. Their diaphragms, which are usually lighter than conventional speakers, also reduce the amount of energy required to propel them to produce a certain sound pressure.
Many audiophiles have heard of planar/ribbon speakers, such as those made by Magnepan Infinity and Apogee Acoustics. However, there is a brand new on the market. For example, new planar loudspeakers from manufacturers like Diptyque and Clarisys Audio are incorporating the most advanced ribbon technology.
Low Distortion
Since planar magnetic speakers don't have a cone or dome shaped diaphragm, they produce extremely low distortion. This is the 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 means that the diaphragm is never being out of phase with the surrounding magnetic field, which results in an unchanging output level. The distortion is typically only evident when large waveforms are being reproduced. With a single-ended planar magnetic driver, distortion is almost impossible at all frequencies that are above the bass.
Planar magnetic loudspeakers are extremely efficient and have low distortion. This enables the drive to operate with a much lower power consumption than would otherwise be required for other speakers. This translates into lower costs of ownership as well as less energy consumption.
The distortion of planar magnetic drivers is also significantly lower than conventional dynamic speakers, and more so for electrostatic speakers. This is because the flat diaphragm features a conductor trace that allows it to react to magnetic fields created on either side.
The two magnets have to be carefully positioned so that the voice element stays in the magnetic field at optimum levels at all times. This is what allows planar magnetic drivers to perform at a very consistent level across all frequencies higher than bass.
Planar magnetic drivers come with a myriad of other advantages, but the most important is that they can be designed as dipoles (radiating in opposite phases and equally behind and in front of the speaker, similar to an ESL) or planar magnetic Loudspeakers monopoles (radiating in the direction of travel and more like traditional dynamic speakers). This allows for many different possible designs, particularly when paired with ribbon tweeters.
There are a variety of planar Magnetic Loudspeakers (yerliakor.com) on the market in the present, from companies like Hifiman Dan Clark Audeze and Fostex. Each company has their own unique sound that is the result of their unique driver planar configurations as well as other innovations in engineering. The commonality among these speakers is their incredible quality, dynamic and a controlled control of directivity.
High Power Handling
Planar magnetic drivers are capable of handling lots of power without causing the audible strain or stress that can be induced by traditional dynamic speakers with moving coils. This is due to the fact that the "voice coil" is spread out across an expansive area instead of being squeezed into a narrow gap between the basket and cone as in traditional dynamic drivers. This gives the voice coil an increased surface area to absorb heat efficiently.
Planar drivers can handle so much power because they are so lightweight compared to conventional drivers. Dynamic drivers are made of thick, heavy diaphragms which are several orders of magnitude larger and heavier than ultra-light diaphragms found in planar magnetic drives. Due to their massive mass, conventional diaphragms need a greater amount of force in order to move backwards and forwards (a measurement known as excursion) to create the required sound pressure.
Therefore they aren't able to be driven as effectively as the planar magnetic driver since the voice coil would begin to generate substantial amounts of distortion. It is therefore essential to purchase loudspeakers that are rated for the amplifier you intend to use.
The high frequency of an acoustic driver also enables it to create a larger soundstage than conventional drivers. This is because the entire diaphragm vibrates to create a flat, even wavefront rather than the more focused spherical wavefront common in conventional drivers. The wider soundstage improves the accuracy and details of the speakers and allows them to reproduce subtle nuances and complex sounds.
The downside to the superior power handling of planar magnetic drivers is that they are often more expensive to make and require stronger amplifiers in order to be driven at full capacity. They can be massive and heavy, which makes it difficult to install them in certain areas. They also have a low bass response, so you may need to add a subwoofer to your system to get the best results at lower frequencies.
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