지역센타회원 | Everything You Need To Learn About Planar Magnetic Driver
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The Benefits of a Planar Magnetic Driver
Planar magnetic driver is an audio technology that can be found in many of the most premium headphones and IEMs. It is a superior technology with many advantages that distinguish it from other dynamic or balanced driver types.
It is essential to be aware of the disadvantages of planar drivers. They are more expensive and require an amplifier to be driven.
Ultra-thin diaphragms
Every sound we hear, from the loudest crash of a cymbal to the tiniest creak of piano bench, is portrayed by a complex tumultuous pressure wave. The driver of a great headphone has to reproduce these waves accurately without omitting any details or distortion of the audio. This requires an extremely thin and light diaphragm which can respond quickly to a broad range or frequencies.
Planar magnetic drivers use flat diaphragms that are covered with a conductive layer and floats between magnets. This enables them to create a uniform magnetic field across the entire surface of the diaphragm, significantly reducing distortion.
This approach, however creates additional challenges like the possibility of membrane resonance problems and turbulent airflow within the grid-like magnetic arrays. These issues can result in an amplitude of resonance in the diaphragm which could be several times higher than the input frequency, and reduces the sensitivity of the voice pressure sensor.
With a patent-pending technology known as "Spherical Acoustic Structure" (SAS), Final was successful in overcoming these limitations of the D8000 by using a single piece of material that doubles as a diaphragm and conductor. This idea was inspired by ribbon speakers and their spherical conductor but was more cost-effective and suitable for headphones due to its size and power requirements.
Ringing sounds are another issue that many planar magnetic designs have to face. It occurs when high-frequency and low-frequency bass notes are played. This is due to an inconsistency with the force of the magnet that is applied to the diaphragm compared to the natural diaphragm's flexing.
To address this issue, Final used an ultra-thin, polymer film known as Parylene. The material was selected because of its superior mechanical strength, flexibility and uniform thickness. It also has consistency in thickness. These qualities were required to ensure that the thin, stiff film could be stretched without forming undesirable wrinkles or creases.
Superior transient response
The fundamental operation of planar magnetic drivers is similar to traditional dynamic drivers, how they generate sound waves is different. The primary difference is that the conductor in a planar driver is laid out in a flat 2D pattern on the diaphragm instead of an individual coil that is wrapped around a cone-shaped diaphragm. Conductors can react to magnetic fields on both the diaphragm's sides and produce sound waves very accurately. This technology eliminates the need for voice coils that can change their impedance based on frequency, resulting distortion-free music.
Additionally that, planar magnetic drivers tend to be more durable and lighter than traditional drivers, since they do not contain moving parts that can wear out over time. They are also less prone than conventional drivers to harmonic distortion which can degrade the quality of audio. They also have a faster response time and are able to reproduce transient sounds at a higher speed.
However, the huge surface area of a diaphragm planar requires more power to move and produce sound waves. These headphones need a headphone amplifier that can be driven at a suitable level. The additional weight and cost can be a turnoff to certain listeners.
Planar magnetic drivers also create an even larger soundstage than dynamic headphones, making them appear more spacious. This is due to the large, flat diaphragm moves more evenly to create an asymmetrical sound wavefront rather than a narrow spherical wavefront that is typical of dynamic drivers. This is a major characteristic of headphones that planar and gives a full-bodied listening experience.
Audio reproduction that is authentic and true
Planar magnetic drivers provide authentic and accurate audio reproduction when in comparison to traditional dynamic driver models. Planar magnetic drivers create equal magnetic forces with two rows of magnets unlike conventional dynamic drivers which have a cone-shaped membrane that vibrates. The diaphragm is moved in a wave-like motion. This helps to avoid distortion. They are also able to reproduce music with a greater frequency range, ranging from the lowest lows to the highest highs, making them an ideal choice for music enthusiasts and sound professionals.
The thin, flexible diaphragm in a planar magnet driver is able to move faster than a dynamic driver. This allows it to react to changes in sound signals and produce accurate reproduction. In addition, the lack of a coil that sits behind the diaphragm minimizes the likelihood that there will be contact between the mechanical parts which could cause distortion at higher volumes.
The diaphragm has the ability to effortlessly displace large volumes of air in order to reproduce bass frequencies. The diaphragm's size and its flexibility are essential to produce the deep bass you hear in your favorite music. Dynamic drivers however, tend to be small and stiff, which makes it difficult for them to stand up to the high-speed movements required to reproduce the bass.
Despite the advantages that come with planar magnetic drivers but they aren't as popular in headphone and IEM products as dynamic driver models because of their high cost and complex design. Partly, this is due to the fact that they need amplifiers to be driven. This limits their portability. Yet, they are popular among music enthusiasts and critical listeners who appreciate their outstanding performance and high sound quality.
Wide frequency response
Planar magnetic headphones use flat and uniform diaphragms to create sound in a steady and controlled manner. This creates a wide frequency response that provides accurate and accurate reproduction of music. They are also known as having a superior transient response. This means that they can respond quickly and precisely to audio signals.
To accomplish this, they employ a planar array of conductors that're distributed across a thin diaphragm sandwiched between two magnets. When an electrical signal is delivered to this array of conductors, it turns into electromagnetic and interacts with the diaphragm's magnetic fields, creating the push/pull effect mentioned earlier. This allows the diaphragm's magnetic field to interact with audio input quickly, resulting in superior sound reproduction.
Another factor that makes these drivers so popular with audiophiles is their low distortion rate. Since they don't contain the same moving parts as other headphone types, they can't create as many harmonic distortions. They also have a lower resistance and present an unresistance load to amplifiers. This makes them simpler to drive.
Due to their superior performance Due to their superior performance, planar magnetic drivers are typically used in higher-end audio equipment. They can be more expensive and require an amplifier to work, best Planar magnetic Iem so they are not suitable for a 'grab and go' driver. Audiophiles will pay for the extra cost and effort for the high-quality headphones they provide. They are regarded as the Best Planar magnetic iem option for those looking for an exceptional listening experience.
Low distortion
The diaphragm of a planar magnet driver is thin and therefore it can move at a fast speed without losing control. This allows for an extremely precise and rapid response to sudden changes in audio signal. This allows you to perceive the details of music more clearly and makes them sound more natural and realistic.
Another advantage of planar magnetic drivers is that they produce an equal driving force across the entire diaphragm, which prevents distortion when you increase the volume. Planar magnetic headphones sound great since dynamic drivers use diaphragms that are heavier and thicker, which cannot move as fast or with the same speed. They may even fail when forces are too strong or exceed their structural integrity limits, which causes the diaphragms to move out of sync.
Planar magnetic drivers, however, produce a very powerful electromagnetic force that directly applies to the diaphragm. This eliminates the voice coil which is required in the majority of headphones using traditional dynamic cone drivers. This allows for better dynamic range, a wider soundstage, and an outstanding bass response.
Due to these advantages, planar magnet drivers are considered by many audiophiles to be the best headphone driver. Although they have considerations such as power requirements and cost however, their ability to provide exceptional sound quality makes them a great choice for those who demand the highest quality of audio reproduction. These drivers offer superior clarity and detail in all frequencies, excluding low bass. Dynamic drivers are preferred. If you're looking for high-end headphones that will provide excellent sound for any price make sure to check out our top picks below!
Planar magnetic driver is an audio technology that can be found in many of the most premium headphones and IEMs. It is a superior technology with many advantages that distinguish it from other dynamic or balanced driver types.
It is essential to be aware of the disadvantages of planar drivers. They are more expensive and require an amplifier to be driven.
Ultra-thin diaphragms
Every sound we hear, from the loudest crash of a cymbal to the tiniest creak of piano bench, is portrayed by a complex tumultuous pressure wave. The driver of a great headphone has to reproduce these waves accurately without omitting any details or distortion of the audio. This requires an extremely thin and light diaphragm which can respond quickly to a broad range or frequencies.
Planar magnetic drivers use flat diaphragms that are covered with a conductive layer and floats between magnets. This enables them to create a uniform magnetic field across the entire surface of the diaphragm, significantly reducing distortion.
This approach, however creates additional challenges like the possibility of membrane resonance problems and turbulent airflow within the grid-like magnetic arrays. These issues can result in an amplitude of resonance in the diaphragm which could be several times higher than the input frequency, and reduces the sensitivity of the voice pressure sensor.
With a patent-pending technology known as "Spherical Acoustic Structure" (SAS), Final was successful in overcoming these limitations of the D8000 by using a single piece of material that doubles as a diaphragm and conductor. This idea was inspired by ribbon speakers and their spherical conductor but was more cost-effective and suitable for headphones due to its size and power requirements.
Ringing sounds are another issue that many planar magnetic designs have to face. It occurs when high-frequency and low-frequency bass notes are played. This is due to an inconsistency with the force of the magnet that is applied to the diaphragm compared to the natural diaphragm's flexing.
To address this issue, Final used an ultra-thin, polymer film known as Parylene. The material was selected because of its superior mechanical strength, flexibility and uniform thickness. It also has consistency in thickness. These qualities were required to ensure that the thin, stiff film could be stretched without forming undesirable wrinkles or creases.
Superior transient response
The fundamental operation of planar magnetic drivers is similar to traditional dynamic drivers, how they generate sound waves is different. The primary difference is that the conductor in a planar driver is laid out in a flat 2D pattern on the diaphragm instead of an individual coil that is wrapped around a cone-shaped diaphragm. Conductors can react to magnetic fields on both the diaphragm's sides and produce sound waves very accurately. This technology eliminates the need for voice coils that can change their impedance based on frequency, resulting distortion-free music.
Additionally that, planar magnetic drivers tend to be more durable and lighter than traditional drivers, since they do not contain moving parts that can wear out over time. They are also less prone than conventional drivers to harmonic distortion which can degrade the quality of audio. They also have a faster response time and are able to reproduce transient sounds at a higher speed.
However, the huge surface area of a diaphragm planar requires more power to move and produce sound waves. These headphones need a headphone amplifier that can be driven at a suitable level. The additional weight and cost can be a turnoff to certain listeners.
Planar magnetic drivers also create an even larger soundstage than dynamic headphones, making them appear more spacious. This is due to the large, flat diaphragm moves more evenly to create an asymmetrical sound wavefront rather than a narrow spherical wavefront that is typical of dynamic drivers. This is a major characteristic of headphones that planar and gives a full-bodied listening experience.
Audio reproduction that is authentic and true
Planar magnetic drivers provide authentic and accurate audio reproduction when in comparison to traditional dynamic driver models. Planar magnetic drivers create equal magnetic forces with two rows of magnets unlike conventional dynamic drivers which have a cone-shaped membrane that vibrates. The diaphragm is moved in a wave-like motion. This helps to avoid distortion. They are also able to reproduce music with a greater frequency range, ranging from the lowest lows to the highest highs, making them an ideal choice for music enthusiasts and sound professionals.
The thin, flexible diaphragm in a planar magnet driver is able to move faster than a dynamic driver. This allows it to react to changes in sound signals and produce accurate reproduction. In addition, the lack of a coil that sits behind the diaphragm minimizes the likelihood that there will be contact between the mechanical parts which could cause distortion at higher volumes.
The diaphragm has the ability to effortlessly displace large volumes of air in order to reproduce bass frequencies. The diaphragm's size and its flexibility are essential to produce the deep bass you hear in your favorite music. Dynamic drivers however, tend to be small and stiff, which makes it difficult for them to stand up to the high-speed movements required to reproduce the bass.
Despite the advantages that come with planar magnetic drivers but they aren't as popular in headphone and IEM products as dynamic driver models because of their high cost and complex design. Partly, this is due to the fact that they need amplifiers to be driven. This limits their portability. Yet, they are popular among music enthusiasts and critical listeners who appreciate their outstanding performance and high sound quality.
Wide frequency response
Planar magnetic headphones use flat and uniform diaphragms to create sound in a steady and controlled manner. This creates a wide frequency response that provides accurate and accurate reproduction of music. They are also known as having a superior transient response. This means that they can respond quickly and precisely to audio signals.
To accomplish this, they employ a planar array of conductors that're distributed across a thin diaphragm sandwiched between two magnets. When an electrical signal is delivered to this array of conductors, it turns into electromagnetic and interacts with the diaphragm's magnetic fields, creating the push/pull effect mentioned earlier. This allows the diaphragm's magnetic field to interact with audio input quickly, resulting in superior sound reproduction.
Another factor that makes these drivers so popular with audiophiles is their low distortion rate. Since they don't contain the same moving parts as other headphone types, they can't create as many harmonic distortions. They also have a lower resistance and present an unresistance load to amplifiers. This makes them simpler to drive.
Due to their superior performance Due to their superior performance, planar magnetic drivers are typically used in higher-end audio equipment. They can be more expensive and require an amplifier to work, best Planar magnetic Iem so they are not suitable for a 'grab and go' driver. Audiophiles will pay for the extra cost and effort for the high-quality headphones they provide. They are regarded as the Best Planar magnetic iem option for those looking for an exceptional listening experience.
Low distortion
The diaphragm of a planar magnet driver is thin and therefore it can move at a fast speed without losing control. This allows for an extremely precise and rapid response to sudden changes in audio signal. This allows you to perceive the details of music more clearly and makes them sound more natural and realistic.
Another advantage of planar magnetic drivers is that they produce an equal driving force across the entire diaphragm, which prevents distortion when you increase the volume. Planar magnetic headphones sound great since dynamic drivers use diaphragms that are heavier and thicker, which cannot move as fast or with the same speed. They may even fail when forces are too strong or exceed their structural integrity limits, which causes the diaphragms to move out of sync.
Planar magnetic drivers, however, produce a very powerful electromagnetic force that directly applies to the diaphragm. This eliminates the voice coil which is required in the majority of headphones using traditional dynamic cone drivers. This allows for better dynamic range, a wider soundstage, and an outstanding bass response.
Due to these advantages, planar magnet drivers are considered by many audiophiles to be the best headphone driver. Although they have considerations such as power requirements and cost however, their ability to provide exceptional sound quality makes them a great choice for those who demand the highest quality of audio reproduction. These drivers offer superior clarity and detail in all frequencies, excluding low bass. Dynamic drivers are preferred. If you're looking for high-end headphones that will provide excellent sound for any price make sure to check out our top picks below!