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How To Save Money On Planar Magnetic Loudspeakers
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작성자 Marcy 작성일24-03-21 05:45 조회16회 댓글0건본문
Planar Magnetic Loudspeakers and Ribbon Tweeters
Planar magnetic drivers and ribbon tweeters provide a number of advantages over traditional dynamic speakers. Their comparatively large diaphragms require very little movement (excursion) to reproduce the same sound quality as a traditional driver, thus producing very low distortion.
They also have dipolar radiation patterns meaning they radiate equally in front and behind the speaker.
High-Resolution Sound
They are known for their accurate, detailed sounds. They are known for delivering high-resolution sound that reveals subtle variations in music that other drivers are unable to reproduce or show.
The planar and ribbon drivers are not only precise, but also provide superior soundstages, which allows them to reproduce a huge soundstage with outstanding clarity. Audiophiles as well as home theater enthusiasts and audiophiles will find them be a great option.
The most notable feature of planar and ribbon drivers is their dipole radiation pattern, which radiates equal energy front and rear, with an inverted phase to create an incredibly spacious and natural soundstage. This, combined with their wide dispersion, makes them ideal for large rooms, where they can fill the room with a broad and natural soundstage, while avoiding unwanted reflections off walls and furniture.
Planar magnetic drivers also have a rapid response time, which allows them to reproduce transients with more accuracy and speed than conventional cone drivers. This produces a clear and clear sound, even at higher frequencies.
Another advantage of planar magnetic drivers is their low distortion. It is because they don't use a voice-coil instead, but an electrostatic field. This allows the diaphragms to move without causing vibrations which could cause unwanted distortion.
A planar driver also has a larger gap between the magnets than cone speakers. This results in a better frequency response and less distortion at lower amplitudes and still provides high-quality bass.
Despite their many benefits, planar magnetic drivers how do planar magnetic headphones work have some limitations to consider. For example, they can be quite expensive and may require more power than other kinds of speakers. They can also be heavy, making it difficult to fit in certain areas. Finally, they can be sensitive to the sound of the room and require a lot of room treatment to achieve optimal performance. Fortunately, there are ways to alleviate these issues for example, by putting an attenuation resistor (provided with your speakers) in the attenuation position, or by performing some type of room treatment.
Wide Dispersion
Similar to electrostatic speakers, planar magnetic speakers produce sound through the regulation of the electrical current that flows through wires that are suspended between magnets. They vibrate a flat, conductive membrane directly, not using an electrostatic charge. This gives them a larger surface area and better precision. This is why they can be built into smaller and more affordable headsets and speakers than electrostatic models.
Planar drivers aren't just capable of dispersing sound efficiently, but also deliver a superior imaging and clarity in higher frequencies. This is an excellent benefit for audiophiles who enjoy watching movies or music on a large screen or in an open space.
Planar drivers can also provide an extremely deep bass as they can be augmented with subwoofers in boxes that are connected to or separated from the ribbon-like membrane. This is in contrast to traditional cone-type speaker woofers that are usually located at the bottom of the cabinet, a location that is not able 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 correlated to the dimensions and travel of the diaphragm. A planar speaker is able produce a high volume of sound with no distortion. This is why the sound quality is so clear and precise.
Dynamic drivers in conventional speakers and beyerdynamic tygr 300 r gaming Headphones headphone typically exhibit significant distortion when driven to their extreme excursion limits. Dynamic drivers can produce an unnatural or booming sound.
Finally, planar magnetic drivers are also extremely efficient. They require less power to drive, which results in a lower energy consumption and less environmental impact. Their diaphragms, which are usually lighter than conventional speakers, also decrease the amount of energy required to propel them in order to produce a specific sound pressure.
While many audiophiles are familiar with planar/ribbon loudspeakers, particularly those produced by Magnepan, Infinity, and Apogee Acoustics - a new generation of brands are coming onto the market. For instance, new planar loudspeakers from manufacturers such as Diptyque and Clarisys Audio are incorporating the most advanced ribbon technology.
Low Distortion
Planar magnetic speakers have extremely low distortion due to the fact that they don't utilize the traditional dome-shaped diaphragm or cone. This is due to their unique design that eliminates the voice coil inductance which is associated with dynamic driver speakers. (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 the output level remains constant. Most often, distortion occurs when large amplitude waveforms are reproduced. With a single-ended planar magnetic driver, distortion is virtually nonexistent at all frequencies that go beyond the bass.
In addition to their low distortion they also offer very high efficiency. This enables the drive to operate with much less power than is typically required for other speaker technologies. This in turn translates to lower costs of ownership and wireless lower energy consumption.
The distortion of planar magnetic drivers is also significantly lower than conventional dynamic speakers, and even more than electrostatic speakers. This is due to the fact that the planar magnet driver's flat diaphragm features an electrical conductor trace that lets it react to magnetic fields that are generated on either side.
The two magnets have to be carefully positioned to ensure that the voice element is properly located within the magnetic field at all times. This allows magnetic drivers that are planar to function at a very linear level at all frequencies above bass.
Planar magnetic drivers come with a myriad of other advantages however the most significant is that they can be designed as dipoles (radiating in opposite phases and equally behind and in front of the speaker like an ESL), or Monopoles (radiating in the direction of travel, more like traditional dynamic speakers). This opens the door to a wide variety of potential designs, particularly when paired with a ribbon tweeter.
A variety of planar magnetic loudspeakers can be found today from brands such as Hifiman, Dan Clark, Audeze, and Fostex. Each brand has their own unique sound that is a result of their patented driver configurations and other engineering innovations. The commonality of these speakers is their amazing detail, dynamics and a controlled directionality.
High Power Handling
Planar magnetic speakers can handle a lot more power than traditional moving coil dynamic drivers, without the tension and strain they may cause. The "voice coil" is not squeezed into the narrow gap between baskets and cones as in traditional dynamic drivers. Instead, it is spread across more of a large area. This provides the voice coil with more surface area to dissipate heat effectively.
Planar drivers can handle such a large amount of power because they are light in comparison to conventional drivers. Dynamic drivers have diaphragms with heavy, thick diaphragms that are a tenth of a pound thicker and heavier than the ultra-light diaphragms that are found in planar magnetic drives. Due to their massive mass, conventional diaphragms require a much larger amount of force to move between them (a measure known as excursion) in order to produce an equal amount of sound pressure.
They can't be driven nearly as hard as a planar magnetic driver, because the voice coil will begin to create significant distortion. This is the reason it's essential to buy only speakers that are rated for the amplifier you plan to drive them with.
The high excitation of a planar magnetic driver also allows it to create a larger soundstage than traditional drivers. This is because the diaphragm itself vibrates to create an even, flat wavefront instead of the more focused spherical wavefront common in conventional drivers. This wider soundstage also increases the precision and clarity of the speakers, allowing them to better reproduce subtle variations and more complex sounds.
The disadvantage of the superior power handling of planar magnetic drivers is that they are typically more expensive to produce and require stronger amplifiers in order to operate at maximum capacity. They can also be quite heavy and bulky which makes them difficult to install in some locations. They also tend to have a limited bass response, so you may have to add a subwoofer your system to get a satisfying result at lower frequencies.
Planar magnetic drivers and ribbon tweeters provide a number of advantages over traditional dynamic speakers. Their comparatively large diaphragms require very little movement (excursion) to reproduce the same sound quality as a traditional driver, thus producing very low distortion.
They also have dipolar radiation patterns meaning they radiate equally in front and behind the speaker.High-Resolution Sound
They are known for their accurate, detailed sounds. They are known for delivering high-resolution sound that reveals subtle variations in music that other drivers are unable to reproduce or show.
The planar and ribbon drivers are not only precise, but also provide superior soundstages, which allows them to reproduce a huge soundstage with outstanding clarity. Audiophiles as well as home theater enthusiasts and audiophiles will find them be a great option.
The most notable feature of planar and ribbon drivers is their dipole radiation pattern, which radiates equal energy front and rear, with an inverted phase to create an incredibly spacious and natural soundstage. This, combined with their wide dispersion, makes them ideal for large rooms, where they can fill the room with a broad and natural soundstage, while avoiding unwanted reflections off walls and furniture.
Planar magnetic drivers also have a rapid response time, which allows them to reproduce transients with more accuracy and speed than conventional cone drivers. This produces a clear and clear sound, even at higher frequencies.
Another advantage of planar magnetic drivers is their low distortion. It is because they don't use a voice-coil instead, but an electrostatic field. This allows the diaphragms to move without causing vibrations which could cause unwanted distortion.
A planar driver also has a larger gap between the magnets than cone speakers. This results in a better frequency response and less distortion at lower amplitudes and still provides high-quality bass.
Despite their many benefits, planar magnetic drivers how do planar magnetic headphones work have some limitations to consider. For example, they can be quite expensive and may require more power than other kinds of speakers. They can also be heavy, making it difficult to fit in certain areas. Finally, they can be sensitive to the sound of the room and require a lot of room treatment to achieve optimal performance. Fortunately, there are ways to alleviate these issues for example, by putting an attenuation resistor (provided with your speakers) in the attenuation position, or by performing some type of room treatment.
Wide Dispersion
Similar to electrostatic speakers, planar magnetic speakers produce sound through the regulation of the electrical current that flows through wires that are suspended between magnets. They vibrate a flat, conductive membrane directly, not using an electrostatic charge. This gives them a larger surface area and better precision. This is why they can be built into smaller and more affordable headsets and speakers than electrostatic models.
Planar drivers aren't just capable of dispersing sound efficiently, but also deliver a superior imaging and clarity in higher frequencies. This is an excellent benefit for audiophiles who enjoy watching movies or music on a large screen or in an open space.
Planar drivers can also provide an extremely deep bass as they can be augmented with subwoofers in boxes that are connected to or separated from the ribbon-like membrane. This is in contrast to traditional cone-type speaker woofers that are usually located at the bottom of the cabinet, a location that is not able 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 correlated to the dimensions and travel of the diaphragm. A planar speaker is able produce a high volume of sound with no distortion. This is why the sound quality is so clear and precise.
Dynamic drivers in conventional speakers and beyerdynamic tygr 300 r gaming Headphones headphone typically exhibit significant distortion when driven to their extreme excursion limits. Dynamic drivers can produce an unnatural or booming sound.
Finally, planar magnetic drivers are also extremely efficient. They require less power to drive, which results in a lower energy consumption and less environmental impact. Their diaphragms, which are usually lighter than conventional speakers, also decrease the amount of energy required to propel them in order to produce a specific sound pressure.
While many audiophiles are familiar with planar/ribbon loudspeakers, particularly those produced by Magnepan, Infinity, and Apogee Acoustics - a new generation of brands are coming onto the market. For instance, new planar loudspeakers from manufacturers such as Diptyque and Clarisys Audio are incorporating the most advanced ribbon technology.
Low Distortion
Planar magnetic speakers have extremely low distortion due to the fact that they don't utilize the traditional dome-shaped diaphragm or cone. This is due to their unique design that eliminates the voice coil inductance which is associated with dynamic driver speakers. (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 the output level remains constant. Most often, distortion occurs when large amplitude waveforms are reproduced. With a single-ended planar magnetic driver, distortion is virtually nonexistent at all frequencies that go beyond the bass.
In addition to their low distortion they also offer very high efficiency. This enables the drive to operate with much less power than is typically required for other speaker technologies. This in turn translates to lower costs of ownership and wireless lower energy consumption.
The distortion of planar magnetic drivers is also significantly lower than conventional dynamic speakers, and even more than electrostatic speakers. This is due to the fact that the planar magnet driver's flat diaphragm features an electrical conductor trace that lets it react to magnetic fields that are generated on either side.
The two magnets have to be carefully positioned to ensure that the voice element is properly located within the magnetic field at all times. This allows magnetic drivers that are planar to function at a very linear level at all frequencies above bass.
Planar magnetic drivers come with a myriad of other advantages however the most significant is that they can be designed as dipoles (radiating in opposite phases and equally behind and in front of the speaker like an ESL), or Monopoles (radiating in the direction of travel, more like traditional dynamic speakers). This opens the door to a wide variety of potential designs, particularly when paired with a ribbon tweeter.
A variety of planar magnetic loudspeakers can be found today from brands such as Hifiman, Dan Clark, Audeze, and Fostex. Each brand has their own unique sound that is a result of their patented driver configurations and other engineering innovations. The commonality of these speakers is their amazing detail, dynamics and a controlled directionality.
High Power Handling
Planar magnetic speakers can handle a lot more power than traditional moving coil dynamic drivers, without the tension and strain they may cause. The "voice coil" is not squeezed into the narrow gap between baskets and cones as in traditional dynamic drivers. Instead, it is spread across more of a large area. This provides the voice coil with more surface area to dissipate heat effectively.
Planar drivers can handle such a large amount of power because they are light in comparison to conventional drivers. Dynamic drivers have diaphragms with heavy, thick diaphragms that are a tenth of a pound thicker and heavier than the ultra-light diaphragms that are found in planar magnetic drives. Due to their massive mass, conventional diaphragms require a much larger amount of force to move between them (a measure known as excursion) in order to produce an equal amount of sound pressure.
They can't be driven nearly as hard as a planar magnetic driver, because the voice coil will begin to create significant distortion. This is the reason it's essential to buy only speakers that are rated for the amplifier you plan to drive them with.
The high excitation of a planar magnetic driver also allows it to create a larger soundstage than traditional drivers. This is because the diaphragm itself vibrates to create an even, flat wavefront instead of the more focused spherical wavefront common in conventional drivers. This wider soundstage also increases the precision and clarity of the speakers, allowing them to better reproduce subtle variations and more complex sounds.
The disadvantage of the superior power handling of planar magnetic drivers is that they are typically more expensive to produce and require stronger amplifiers in order to operate at maximum capacity. They can also be quite heavy and bulky which makes them difficult to install in some locations. They also tend to have a limited bass response, so you may have to add a subwoofer your system to get a satisfying result at lower frequencies.
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