https://xvinylx.com/w/api.php?action=feedcontributions&feedformat=atom&user=PetrXVINYLX - User contributions [en]2026-06-25T23:45:13ZUser contributionsMediaWiki 1.39.0https://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2128Inner groove distortion2026-05-30T15:30:46Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
[[File:Igd_groove_speed.gif|center|1960px]]<br />
<br />
<br />
'''Constant [[RPM]], different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ [[RPM]], the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<br />
[[File:02_modulation_packing.png|thumb|Groove modulation of the same sound on the outside and the inside of the record]]<br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 [[RPM]] ]]<br />
<br />
At 45 [[RPM]], the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ [[RPM]].<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 [[RPM]], there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 [[RPM]] advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2127Inner groove distortion2026-05-30T15:28:51Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
[[File:Igd_groove_speed.gif|center|1960px]]<br />
<br />
<br />
'''Constant [[RPM]], different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ [[RPM]], the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<br />
[[File:02_modulation_packing.png|thumb|Groove modulation of the same sound on the outside and the inside of the record]]<br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 [[RPM]].]]<br />
<br />
At 45 [[RPM]], the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ [[RPM]].<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 [[RPM]], there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 [[RPM]] advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2126Inner groove distortion2026-05-30T15:19:05Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
[[File:Igd_groove_speed.gif|center|1960px]]<br />
<br />
<br />
'''Constant [[RPM]], different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ [[RPM]], the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 [[RPM]].]]<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 [[RPM]].]]<br />
<br />
At 45 [[RPM]], the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ [[RPM]].<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 [[RPM]], there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 [[RPM]] advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2125Inner groove distortion2026-05-30T15:12:35Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
[[File:Igd_groove_speed.gif|center|1960px]]<br />
<br />
<br />
'''Constant [[RPM]], different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ [[RPM]], the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
<center><br />
<gallery widths="300px" heights="200px"><br />
01 groove speed.png<br />
02 modulation packing.png<br />
</gallery><br />
</center><br />
<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 [[RPM]].]]<br />
<br />
At 45 [[RPM]], the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ [[RPM]].<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 [[RPM]], there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 [[RPM]] advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2124Inner groove distortion2026-05-30T15:12:14Z<p>Petr: /* Why Does It Happen? */</p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
[[File:Igd_groove_speed.gif|center|1960px]]<br />
<br />
<br />
'''Constant [[RPM]], different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ [[RPM]], the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
<center><br />
<gallery widths="300px" heights="200px"><br />
01 groove speed.png<br />
02 modulation packing.png<br />
</gallery><br />
</center><br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 [[RPM]].]]<br />
<br />
At 45 [[RPM]], the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ [[RPM]].<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 [[RPM]], there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 [[RPM]] advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2123Inner groove distortion2026-05-30T14:59:16Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
[[File:Igd_groove_speed.gif|center|1960px]]<br />
<br />
<br />
'''Constant [[RPM]], different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ [[RPM]], the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 [[RPM]].]]<br />
<br />
At 45 [[RPM]], the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ [[RPM]].<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 [[RPM]], there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 [[RPM]] advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=File:Igd_groove_speed.gif&diff=2122File:Igd groove speed.gif2026-05-30T14:36:06Z<p>Petr: </p>
<hr />
<div></div>Petrhttps://xvinylx.com/w/index.php?title=DMM&diff=2121DMM2026-05-30T10:09:48Z<p>Petr: /* Team DMM -vs- Team Lacquer */</p>
<hr />
<div>[[File:XVINYLX VMS82 DMM.jpg|thumb|Neumann VMS82 lathe with DMM cutting head]]<br />
<br />
'''DMM''' ('''Direct Metal Mastering''') is one of the two existing technologies to create original (master) discs needed for [https://xvinylx.com/order/vinyl-pressing vinyl record pressing]. The other, older technology is cutting into a lacquer disc. The majority of our vinyl production is done using DMM, but lacquer cutting or processing of a supplied lacquer is available on request.<br />
<br />
<br />
== History ==<br />
<br />
The DMM process was developed and issued in 1982 by a collaboration between two German companies Teldec and Georg Neumann GmbH. <br />
<br />
Neumann was exclusively supplying the technology and mastering systems until the late 90's when the company left the music industry during the decline in popularity of vinyl records. <br />
<br />
There are around 12 DMM cutting lathes operating in the whole world that produce masters for manufacturing vinyl records. <br />
<br />
Interesting trivia: two DMM cutting lathes have been obtained by Church of Scientology, which supposedly uses them to record the speeches of their founder L.R.Hubbard and which are placed into "time-capsules" together with spring loaded phonographs. The idea behind that is if someone digs out and opens such capsule after a predicted apocalypse, they should be able to listen to Mr. Hubbard speeches without the use of electricity.<br />
<br />
Even with the resurgence of vinyl records, no one has been able to manufacture a brand new DMM cutting lathe since their original batch produced in the 80's &ndash; 90's.<br />
<br />
== DMM Principle ==<br />
<br />
[[File:XVINYLX DMM STAMPER SEPARATION.jpg|thumb|Separation of DMM master plate and nickel stamper]]<br />
<br />
DMM transcribes audio coming from a workstation or a master tape into a copper plate using a diamond cutting stylus (the copper that is being cut into is a plated layer on a non-magnetic steel substrate). This creates an original "positive" (master/mother) disc that is used to create a "negative" stamper in an electroforming galvanic process. Stamper is then attached onto a pressing machine and is used for a mass replication &ndash; pressing of vinyl records.<br />
<br />
In comparsion with lacquer cutting, lacquer is cut into a nitrocellulose layer coated on an aluminium disc using a heated sapphire cutting stylus. Because nitrocellulose is not electrically conductive it needs to be sprayed with a thin layer of silver in order to be usable in a later electroforming galvanic process. We use traditional lacquer processing which includes three copies: "negative" (father), "positive" (mother), "negative" (stamper). Lacquer itself is consumed and discarded in the process. <br />
<br />
Supplied lacquers should be sent for processing as soon as possible so the grooves cut into the soft nitrocellulose surface do not degrade due to heat and environmental conditions, typically resulting in a loss of high frequencies (unless the cutting lathe is right next to a galvanic processing room, in which case lacquers need to rest for several hours until they stop evaporating toxic gases after the cutting process, which would pose a health risk and could create "bubbles" due to evaporation under the immediately silvered layer).<br />
<br />
== Team DMM -vs- Team Lacquer ==<br />
<br />
[[File:XVINYLX LACQUER AND DMM PLATE.jpg|thumb|Lacquer (left), DMM plate (right)]]<br />
<br />
DMM and Lacquer cuts each have their own fans and supporters. Please note that neither technology is in no way a replacement for a proper mastering and recording process and all pros/cons of each technology can only account for the transcription onto a vinyl record as a physical medium.<br />
<br />
DMM supporters typically list these advantages:<br />
<br />
* more accurate reproduction of high frequencies (16kHz up)<br />
* DMM allows for thinner groove (less noise, longer [[Playing times|playtimes]])<br />
* better signal-to-noise ratio (even on a groove of the same width, DMM has about 7-10dB better S/N compared to lacquer)<br />
* reduced print-through sounds (pre-echo, post-echo) between adjacent grooves<br />
* only one subsequent electroforming step<br />
<br />
<br />
Lacquer supporters typically list these advantages:<br />
<br />
* bigger vertical amplitudes which can carry more out-of-phase low frequency signals<br />
* wider and deeper grooves which are more tolerant for most kinds of surface damage<br />
* wider horizontal groove angle available, reducing risk of loud mid frequencies causing harmonic distortion in higher frequencies<br />
* the softer lacquer material allows very high cutting levels resulting in louder records<br />
<br />
<br />
Horizontal amplitude is a movement of the tip of the stylus from left-to-right in the groove‘s path. Vertical amplitude is a movement up and down - deeper into the groove and back up. Horizontal amplitude carries most of the transcribed audio signal, vertical amplitude carries the difference between the left and right channel.<br />
<br />
Thicker layer of lacquer allows for higher vertical amplitude and a different shape of cutting stylus allows cutting of bigger angles in the horizontal amplitude, it however carries a risk that the softer nitrocelulose layer (compared to DMM‘s copper layer) will „print-through“ the groove that is currently being cut and will deform neighbouring previously cut groove (pre-echo) or will deform the surface that will be cut into on the next revolution of the disc (post-echo, which is much less common). <br />
<br />
Please note that higher volume and bigger vertical amplitudes also involve a higher risk of distortion and mistracking on some turntables.<br />
<br />
== Available DMM mastering options ==<br />
<br />
Basic options we offer for DMM cutting are:<br />
<br />
'''1. STANDARD CUT'''<br />
<br />
Default option.<br />
<br />
Minimizing risk of distortion on most turntables, only necessary edits are performed on the audio to achieve best possible sounding record.<br />
<br />
Will be quiet compared to a typical lacquer cut, with less distortion and less surface noise.<br />
<br />
'''2. LOUD CUT'''<br />
<br />
Available on request.<br />
<br />
Overall volume and loudness of the record will be comparable to most typical lacquer cuts, with higher risk of distortion in critical parts of the recording (loudest parts of the audio and near the center of the record, see [[Inner groove distortion]]). Reduced available [[Recommended playing times|playtime]].<br />
<br />
'''3. DJ LOUD CUT'''<br />
<br />
Available on request.<br />
<br />
Same as "LOUD CUT", but with wider groove that helps stability of the playing stylus (useful for playback in loud environments that produce a lot of vibrations). Wider groove results in higher surface noise and reduced available playtime. Visual separating grooves in-between tracks are done more prominent.<br />
<br />
'''4. DJ LOUD CUT + SCRATCH'''<br />
<br />
Available on request.<br />
<br />
Same as "DJ LOUD CUT" but with even wider groove, resulting in maximum stability of the playing stylus. Even further reduction of available playtime.<br />
<br />
'''5. FLAT CUT (*)'''<br />
<br />
Available on request.<br />
<br />
Cut is performed without any listenable alteration during premastering. Transcription will be done "as is" which can results in problematic cuts especially near the center of the record. Overall volume might be lower due to absence of other controlling parameters. Please make sure that you follow [[Vinyl master guidelines]] . Studio might refuse to cut, in which case you will receive a report on what should be changed to proceed.<br />
<br />
If you want to avoid specific edits in premastering or cutting, please see "ASSISTED CUT / REFERENCE / SPECIAL REQUEST" instead.<br />
<br />
(*) - be aware that many factories or studios refer to the "flat cut" as a best sounding cut with minimal alterations, which is mostly equivalent to our "1. STANDARD CUT".<br />
<br />
'''6. (DISTORTION) SAFE CUT'''<br />
<br />
Available on request.<br />
<br />
Cut with an emphasis to minimizing risk of distortion on all types of playing styluses and cartridges. Might result in very quiet records with less distortion but higher surface noise.<br />
<br />
'''7. ASSISTED CUT / REFERENCE / SPECIAL REQUEST '''<br />
<br />
Available on request.<br />
<br />
Do you want to visit us at Prague and be present during your cutting? Do you only want to use de-esser, but otherwise go with the "flat cut"? Do you want to achieve super-loudness similar to a record you own and are able to send us? <br />
<br />
All of these options and more are available, keep in mind that they will be billed on an hourly rate of a mastering engineer.<br />
<br />
== VVM mastering, improvement to DMM cutting process ==<br />
<br />
[[File:VVM1.png|thumb|VVM user interface]]<br />
<br />
[[File:VVM2.png|thumb|VVM groove cutting simulation]]<br />
<br />
[[File:VVM3.png|thumb|VVM user interface with explanations]]<br />
<br />
[[File:VVM4.png|thumb|VVM user interface, sibilants analysis]]<br />
<br />
<br />
'''VVM''' ('''Vinyl Visual Mastering''') is software tool designed specifically for needs of a vinyl mastering engineer (ME). It includes a state-of-art computer simulation of the mastering process that allows setting up cutting parameters and simulating the cutting process before the actual cutting is performed. <br />
<br />
Consider a CAD system that is aiding an architect and is able to identify critical parts of the construction and address them specifically. That is what VVM achieves for a mastering engineer.<br />
<br />
VVM allows for these main critical features:<br />
<br />
* A very accurate virtual simulation which will find critical parts in supplied audio before the actual cut. Every cutting system needs to employ protections against critically high electrical current fed into the cutting head or critically high acceleration of the cutting stylus to avoid damaging the cutting head or stylus. In most cases this is done using an electrical circuit breaker and an acceleration limiter. Simulating the cut allows to address these critical conditions in a more sensitive and controlled manner with better results in the cut audio.<br />
<br />
* Each order has individual settings, which can be adjusted for arbitrary parts of audio. There is a direct two-way communication between the computer and the cutting lathe<br />
<br />
* Differential sound and graphic analysis can play or show differences between original audio and processed signal, feedback or vinyl record signal.<br />
<br />
* Vinyl measuring system - geometric, physical, dynamic and load measurements in time or frequency domain.<br />
<br />
* Groove processor - controls groove pitch, groove width and warps audio signals to compensate possible cutting and playback distortion. Every cut can have a different groove pitch strategy.<br />
<br />
* Mathematical model of stylus and groove – the software computes a virtual groove based on geometric dimensions of a defined cutting stylus and can compare it visually with a real groove photo from a microscope.<br />
<br />
* High quality non-destructive signal processing with unique vinyl algorithms. The original audio data remains untouched for a future use.<br />
<br />
<br />
== Summary ==<br />
<br />
If you are mainly familiar with lacquer cuts and would achieve similar level of loudness with DMM, please specify that you would like to order a LOUD CUT during your order processing (please note that this is directly related to a possibility of higher distortion level in loudest parts of the recording). If you have a studio or a mastering engineer that supplies you with lacquer cuts you like, please state that you would like to use a supplied lacquer during your order.<br />
<br />
In any case, if you are unsure, please add test pressings to your order to make sure you are okay with the sound before moving on to the main pressing.</div>Petrhttps://xvinylx.com/w/index.php?title=DMM&diff=2120DMM2026-05-30T10:07:04Z<p>Petr: </p>
<hr />
<div>[[File:XVINYLX VMS82 DMM.jpg|thumb|Neumann VMS82 lathe with DMM cutting head]]<br />
<br />
'''DMM''' ('''Direct Metal Mastering''') is one of the two existing technologies to create original (master) discs needed for [https://xvinylx.com/order/vinyl-pressing vinyl record pressing]. The other, older technology is cutting into a lacquer disc. The majority of our vinyl production is done using DMM, but lacquer cutting or processing of a supplied lacquer is available on request.<br />
<br />
<br />
== History ==<br />
<br />
The DMM process was developed and issued in 1982 by a collaboration between two German companies Teldec and Georg Neumann GmbH. <br />
<br />
Neumann was exclusively supplying the technology and mastering systems until the late 90's when the company left the music industry during the decline in popularity of vinyl records. <br />
<br />
There are around 12 DMM cutting lathes operating in the whole world that produce masters for manufacturing vinyl records. <br />
<br />
Interesting trivia: two DMM cutting lathes have been obtained by Church of Scientology, which supposedly uses them to record the speeches of their founder L.R.Hubbard and which are placed into "time-capsules" together with spring loaded phonographs. The idea behind that is if someone digs out and opens such capsule after a predicted apocalypse, they should be able to listen to Mr. Hubbard speeches without the use of electricity.<br />
<br />
Even with the resurgence of vinyl records, no one has been able to manufacture a brand new DMM cutting lathe since their original batch produced in the 80's &ndash; 90's.<br />
<br />
== DMM Principle ==<br />
<br />
[[File:XVINYLX DMM STAMPER SEPARATION.jpg|thumb|Separation of DMM master plate and nickel stamper]]<br />
<br />
DMM transcribes audio coming from a workstation or a master tape into a copper plate using a diamond cutting stylus (the copper that is being cut into is a plated layer on a non-magnetic steel substrate). This creates an original "positive" (master/mother) disc that is used to create a "negative" stamper in an electroforming galvanic process. Stamper is then attached onto a pressing machine and is used for a mass replication &ndash; pressing of vinyl records.<br />
<br />
In comparsion with lacquer cutting, lacquer is cut into a nitrocellulose layer coated on an aluminium disc using a heated sapphire cutting stylus. Because nitrocellulose is not electrically conductive it needs to be sprayed with a thin layer of silver in order to be usable in a later electroforming galvanic process. We use traditional lacquer processing which includes three copies: "negative" (father), "positive" (mother), "negative" (stamper). Lacquer itself is consumed and discarded in the process. <br />
<br />
Supplied lacquers should be sent for processing as soon as possible so the grooves cut into the soft nitrocellulose surface do not degrade due to heat and environmental conditions, typically resulting in a loss of high frequencies (unless the cutting lathe is right next to a galvanic processing room, in which case lacquers need to rest for several hours until they stop evaporating toxic gases after the cutting process, which would pose a health risk and could create "bubbles" due to evaporation under the immediately silvered layer).<br />
<br />
== Team DMM -vs- Team Lacquer ==<br />
<br />
[[File:XVINYLX LACQUER AND DMM PLATE.jpg|thumb|Lacquer (left), DMM plate (right)]]<br />
<br />
DMM and Lacquer cuts each have their own fans and supporters. Please note that neither technology is in no way a replacement for a proper mastering and recording process and all pros/cons of each technology can only account for the transcription onto a vinyl record as a physical medium.<br />
<br />
DMM supporters typically list these advantages:<br />
<br />
* more accurate reproduction of high frequencies (16kHz up)<br />
* DMM allows for thinner groove (less noise, longer playtimes)<br />
* better signal-to-noise ratio (even on a groove of the same width, DMM has about 7-10dB better S/N compared to lacquer)<br />
* reduced print-through sounds (pre-echo, post-echo) between adjacent grooves<br />
* only one subsequent electroforming step<br />
<br />
<br />
Lacquer supporters typically list these advantages:<br />
<br />
* bigger vertical amplitudes which can carry more out-of-phase low frequency signals<br />
* wider and deeper grooves which are more tolerant for most kinds of surface damage<br />
* wider horizontal groove angle available, reducing risk of loud mid frequencies causing harmonic distortion in higher frequencies<br />
* the softer lacquer material allows very high cutting levels resulting in louder records<br />
<br />
<br />
Horizontal amplitude is a movement of the tip of the stylus from left-to-right in the groove‘s path. Vertical amplitude is a movement up and down - deeper into the groove and back up. Horizontal amplitude carries most of the transcribed audio signal, vertical amplitude carries the difference between the left and right channel.<br />
<br />
Thicker layer of lacquer allows for higher vertical amplitude and a different shape of cutting stylus allows cutting of bigger angles in the horizontal amplitude, it however carries a risk that the softer nitrocelulose layer (compared to DMM‘s copper layer) will „print-through“ the groove that is currently being cut and will deform neighbouring previously cut groove (pre-echo) or will deform the surface that will be cut into on the next revolution of the disc (post-echo, which is much less common). <br />
<br />
Please note that higher volume and bigger vertical amplitudes also involve a higher risk of distortion and mistracking on some turntables.<br />
<br />
<br />
== Available DMM mastering options ==<br />
<br />
Basic options we offer for DMM cutting are:<br />
<br />
'''1. STANDARD CUT'''<br />
<br />
Default option.<br />
<br />
Minimizing risk of distortion on most turntables, only necessary edits are performed on the audio to achieve best possible sounding record.<br />
<br />
Will be quiet compared to a typical lacquer cut, with less distortion and less surface noise.<br />
<br />
'''2. LOUD CUT'''<br />
<br />
Available on request.<br />
<br />
Overall volume and loudness of the record will be comparable to most typical lacquer cuts, with higher risk of distortion in critical parts of the recording (loudest parts of the audio and near the center of the record, see [[Inner groove distortion]]). Reduced available [[Recommended playing times|playtime]].<br />
<br />
'''3. DJ LOUD CUT'''<br />
<br />
Available on request.<br />
<br />
Same as "LOUD CUT", but with wider groove that helps stability of the playing stylus (useful for playback in loud environments that produce a lot of vibrations). Wider groove results in higher surface noise and reduced available playtime. Visual separating grooves in-between tracks are done more prominent.<br />
<br />
'''4. DJ LOUD CUT + SCRATCH'''<br />
<br />
Available on request.<br />
<br />
Same as "DJ LOUD CUT" but with even wider groove, resulting in maximum stability of the playing stylus. Even further reduction of available playtime.<br />
<br />
'''5. FLAT CUT (*)'''<br />
<br />
Available on request.<br />
<br />
Cut is performed without any listenable alteration during premastering. Transcription will be done "as is" which can results in problematic cuts especially near the center of the record. Overall volume might be lower due to absence of other controlling parameters. Please make sure that you follow [[Vinyl master guidelines]] . Studio might refuse to cut, in which case you will receive a report on what should be changed to proceed.<br />
<br />
If you want to avoid specific edits in premastering or cutting, please see "ASSISTED CUT / REFERENCE / SPECIAL REQUEST" instead.<br />
<br />
(*) - be aware that many factories or studios refer to the "flat cut" as a best sounding cut with minimal alterations, which is mostly equivalent to our "1. STANDARD CUT".<br />
<br />
'''6. (DISTORTION) SAFE CUT'''<br />
<br />
Available on request.<br />
<br />
Cut with an emphasis to minimizing risk of distortion on all types of playing styluses and cartridges. Might result in very quiet records with less distortion but higher surface noise.<br />
<br />
'''7. ASSISTED CUT / REFERENCE / SPECIAL REQUEST '''<br />
<br />
Available on request.<br />
<br />
Do you want to visit us at Prague and be present during your cutting? Do you only want to use de-esser, but otherwise go with the "flat cut"? Do you want to achieve super-loudness similar to a record you own and are able to send us? <br />
<br />
All of these options and more are available, keep in mind that they will be billed on an hourly rate of a mastering engineer.<br />
<br />
== VVM mastering, improvement to DMM cutting process ==<br />
<br />
[[File:VVM1.png|thumb|VVM user interface]]<br />
<br />
[[File:VVM2.png|thumb|VVM groove cutting simulation]]<br />
<br />
[[File:VVM3.png|thumb|VVM user interface with explanations]]<br />
<br />
[[File:VVM4.png|thumb|VVM user interface, sibilants analysis]]<br />
<br />
<br />
'''VVM''' ('''Vinyl Visual Mastering''') is software tool designed specifically for needs of a vinyl mastering engineer (ME). It includes a state-of-art computer simulation of the mastering process that allows setting up cutting parameters and simulating the cutting process before the actual cutting is performed. <br />
<br />
Consider a CAD system that is aiding an architect and is able to identify critical parts of the construction and address them specifically. That is what VVM achieves for a mastering engineer.<br />
<br />
VVM allows for these main critical features:<br />
<br />
* A very accurate virtual simulation which will find critical parts in supplied audio before the actual cut. Every cutting system needs to employ protections against critically high electrical current fed into the cutting head or critically high acceleration of the cutting stylus to avoid damaging the cutting head or stylus. In most cases this is done using an electrical circuit breaker and an acceleration limiter. Simulating the cut allows to address these critical conditions in a more sensitive and controlled manner with better results in the cut audio.<br />
<br />
* Each order has individual settings, which can be adjusted for arbitrary parts of audio. There is a direct two-way communication between the computer and the cutting lathe<br />
<br />
* Differential sound and graphic analysis can play or show differences between original audio and processed signal, feedback or vinyl record signal.<br />
<br />
* Vinyl measuring system - geometric, physical, dynamic and load measurements in time or frequency domain.<br />
<br />
* Groove processor - controls groove pitch, groove width and warps audio signals to compensate possible cutting and playback distortion. Every cut can have a different groove pitch strategy.<br />
<br />
* Mathematical model of stylus and groove – the software computes a virtual groove based on geometric dimensions of a defined cutting stylus and can compare it visually with a real groove photo from a microscope.<br />
<br />
* High quality non-destructive signal processing with unique vinyl algorithms. The original audio data remains untouched for a future use.<br />
<br />
<br />
== Summary ==<br />
<br />
If you are mainly familiar with lacquer cuts and would achieve similar level of loudness with DMM, please specify that you would like to order a LOUD CUT during your order processing (please note that this is directly related to a possibility of higher distortion level in loudest parts of the recording). If you have a studio or a mastering engineer that supplies you with lacquer cuts you like, please state that you would like to use a supplied lacquer during your order.<br />
<br />
In any case, if you are unsure, please add test pressings to your order to make sure you are okay with the sound before moving on to the main pressing.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2119Inner groove distortion2026-05-30T09:53:42Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ [[RPM]], the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<center><br />
<gallery widths="300px" heights="200px"><br />
01 groove speed.png<br />
02 modulation packing.png<br />
</gallery><br />
'''Constant [[RPM]], different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
</center><br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 [[RPM]].]]<br />
<br />
At 45 [[RPM]], the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ [[RPM]].<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 [[RPM]], there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 [[RPM]] advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Audio_master&diff=2118Audio master2026-05-30T09:52:04Z<p>Petr: </p>
<hr />
<div>We accept both physical media (CDs, DVDs, analogue tapes) and uncompressed/lossless digital audio files (.wav, .aiff, .flac, ...).<br />
<br />
All orders must contain a [[Tracklist | tracklist]].<br />
<br />
For vinyl, see [[Recommended playing times|recommended playing times]], [[Vinyl master guidelines|mastering guidelines]], and how groove speed shapes fidelity in [[Inner groove distortion]].<br />
<br />
== Digital (.wav, .aiff, .flac) ==<br />
<br />
Best option is to use customer [[FTP]] account on our server<br />
<br />
All files need to be packed into single .zip or .rar<br />
<br />
== CD-master ==<br />
<br />
Please always mail a copy of your CD-master, never send us your only copy!<br />
<br />
Mail a secure package to our office address.<br />
<br />
== Analogue tapes ==<br />
<br />
We are able to cut [[DMM]] plates in full analog form without any A/D and D/A conversion.<br />
<br />
We will use our Telefunken M15A 1/4-inch reel player with playback and preview heads + Neumann SP79 mastering console + Neumann SAL 84 rack + Neumann VMS-82 [[DMM]] cutting lathe. As you can see, no digital delay line and no converters.<br />
<br />
It is necessary that the audio on the supplied tape is properly pre-mastered for vinyl. Compared to our new mastering system with PC workstations, the old analogue method with SP79 consoles (the best in their years) is limited with regard to the functions and possibilities for changing parameters of cutting and correcting of audio source.<br />
<br />
The additional fee for all analogue cutting option for an LP record is 200 Euro for both sides (100 Euro per side) supposing the tapes are correctly pre-mastered for vinyl and contain all necessary calibration signals. Also complete documentation with track times is needed and all tracks have to be recorded one after each other (no rewinding or skipping). Gaps between tracks are not needed, we will place visual track markers according to the tracklisting.<br />
<br />
'''Calibration signals for tapes:'''<br />
<br />
All supplied tapes have to include several sinus calibration tones, 60 Hz, 1 kHz and 10 kHz at -20 dB and also 1 kHz at 0 dB, all recorded at the same recorder and tape as the music. At least 20 seconds for each signal. Also Dolby test tone / noise if applied. For full analogue cut we accept only 1/4" tapes with speed 38 and 19 cm/s, EQ CCIR, NAB, Dolby A, Dolby SR.</div>Petrhttps://xvinylx.com/w/index.php?title=Audio_master&diff=2117Audio master2026-05-30T09:51:26Z<p>Petr: </p>
<hr />
<div>We accept both physical media (CDs, DVDs, analogue tapes) and uncompressed/lossless digital audio files (.wav, .aiff, .flac, ...).<br />
<br />
All orders must contain a [[Tracklist | tracklist]].<br />
<br />
For vinyl, see [[Recommended playing times|recommended playing times]], [[Vinyl master guidelines|mastering guidelines]], and how groove speed shapes fidelity in [[Inner groove distortion]].<br />
<br />
== Digital (.wav, .aiff, .flac) ==<br />
<br />
Best option is to use customer [[FTP]] account on our server<br />
<br />
All files need to be packed into single .zip or .rar<br />
<br />
== CD-master ==<br />
<br />
Please always mail a copy of your CD-master, never send us your only copy!<br />
<br />
Mail a secure package to our office address.<br />
<br />
== Analogue tapes ==<br />
<br />
We are able to cut [[DMM]] plates in full analog form without any A/D and D/A conversion.<br />
<br />
We will use our Telefunken M15A 1/4-inch reel player with playback and preview heads + Neumann SP79 mastering console + Neumann SAL 84 rack + Neumann VMS-82 DMM cutting lathe. As you can see, no digital delay line and no converters.<br />
<br />
It is necessary that the audio on the supplied tape is properly pre-mastered for vinyl. Compared to our new mastering system with PC workstations, the old analogue method with SP79 consoles (the best in their years) is limited with regard to the functions and possibilities for changing parameters of cutting and correcting of audio source.<br />
<br />
The additional fee for all analogue cutting option for an LP record is 200 Euro for both sides (100 Euro per side) supposing the tapes are correctly pre-mastered for vinyl and contain all necessary calibration signals. Also complete documentation with track times is needed and all tracks have to be recorded one after each other (no rewinding or skipping). Gaps between tracks are not needed, we will place visual track markers according to the tracklisting.<br />
<br />
'''Calibration signals for tapes:'''<br />
<br />
All supplied tapes have to include several sinus calibration tones, 60 Hz, 1 kHz and 10 kHz at -20 dB and also 1 kHz at 0 dB, all recorded at the same recorder and tape as the music. At least 20 seconds for each signal. Also Dolby test tone / noise if applied. For full analogue cut we accept only 1/4" tapes with speed 38 and 19 cm/s, EQ CCIR, NAB, Dolby A, Dolby SR.</div>Petrhttps://xvinylx.com/w/index.php?title=DMM&diff=2116DMM2026-05-30T09:49:43Z<p>Petr: /* Available DMM mastering options */</p>
<hr />
<div>[[File:XVINYLX VMS82 DMM.jpg|thumb|Neumann VMS82 lathe with DMM cutting head]]<br />
<br />
'''DMM''' ('''Direct Metal Mastering''') is one of the two existing technologies to create original (master) discs needed for vinyl record pressing. The other, older technology is cutting into a lacquer disc. The majority of our vinyl production is done using DMM, but lacquer cutting or processing of a supplied lacquer is available on request.<br />
<br />
<br />
== History ==<br />
<br />
The DMM process was developed and issued in 1982 by a collaboration between two German companies Teldec and Georg Neumann GmbH. <br />
<br />
Neumann was exclusively supplying the technology and mastering systems until the late 90's when the company left the music industry during the decline in popularity of vinyl records. <br />
<br />
There are around 12 DMM cutting lathes operating in the whole world that produce masters for manufacturing vinyl records. <br />
<br />
Interesting trivia: two DMM cutting lathes have been obtained by Church of Scientology, which supposedly uses them to record the speeches of their founder L.R.Hubbard and which are placed into "time-capsules" together with spring loaded phonographs. The idea behind that is if someone digs out and opens such capsule after a predicted apocalypse, they should be able to listen to Mr. Hubbard speeches without the use of electricity.<br />
<br />
Even with the resurgence of vinyl records, no one has been able to manufacture a brand new DMM cutting lathe since their original batch produced in the 80's &ndash; 90's.<br />
<br />
== DMM Principle ==<br />
<br />
[[File:XVINYLX DMM STAMPER SEPARATION.jpg|thumb|Separation of DMM master plate and nickel stamper]]<br />
<br />
DMM transcribes audio coming from a workstation or a master tape into a copper plate using a diamond cutting stylus (the copper that is being cut into is a plated layer on a non-magnetic steel substrate). This creates an original "positive" (master/mother) disc that is used to create a "negative" stamper in an electroforming galvanic process. Stamper is then attached onto a pressing machine and is used for a mass replication &ndash; pressing of vinyl records.<br />
<br />
In comparsion with lacquer cutting, lacquer is cut into a nitrocellulose layer coated on an aluminium disc using a heated sapphire cutting stylus. Because nitrocellulose is not electrically conductive it needs to be sprayed with a thin layer of silver in order to be usable in a later electroforming galvanic process. We use traditional lacquer processing which includes three copies: "negative" (father), "positive" (mother), "negative" (stamper). Lacquer itself is consumed and discarded in the process. <br />
<br />
Supplied lacquers should be sent for processing as soon as possible so the grooves cut into the soft nitrocellulose surface do not degrade due to heat and environmental conditions, typically resulting in a loss of high frequencies (unless the cutting lathe is right next to a galvanic processing room, in which case lacquers need to rest for several hours until they stop evaporating toxic gases after the cutting process, which would pose a health risk and could create "bubbles" due to evaporation under the immediately silvered layer).<br />
<br />
== Team DMM -vs- Team Lacquer ==<br />
<br />
[[File:XVINYLX LACQUER AND DMM PLATE.jpg|thumb|Lacquer (left), DMM plate (right)]]<br />
<br />
DMM and Lacquer cuts each have their own fans and supporters. Please note that neither technology is in no way a replacement for a proper mastering and recording process and all pros/cons of each technology can only account for the transcription onto a vinyl record as a physical medium.<br />
<br />
DMM supporters typically list these advantages:<br />
<br />
* more accurate reproduction of high frequencies (16kHz up)<br />
* DMM allows for thinner groove (less noise, longer playtimes)<br />
* better signal-to-noise ratio (even on a groove of the same width, DMM has about 7-10dB better S/N compared to lacquer)<br />
* reduced print-through sounds (pre-echo, post-echo) between adjacent grooves<br />
* only one subsequent electroforming step<br />
<br />
<br />
Lacquer supporters typically list these advantages:<br />
<br />
* bigger vertical amplitudes which can carry more out-of-phase low frequency signals<br />
* wider and deeper grooves which are more tolerant for most kinds of surface damage<br />
* wider horizontal groove angle available, reducing risk of loud mid frequencies causing harmonic distortion in higher frequencies<br />
* the softer lacquer material allows very high cutting levels resulting in louder records<br />
<br />
<br />
Horizontal amplitude is a movement of the tip of the stylus from left-to-right in the groove‘s path. Vertical amplitude is a movement up and down - deeper into the groove and back up. Horizontal amplitude carries most of the transcribed audio signal, vertical amplitude carries the difference between the left and right channel.<br />
<br />
Thicker layer of lacquer allows for higher vertical amplitude and a different shape of cutting stylus allows cutting of bigger angles in the horizontal amplitude, it however carries a risk that the softer nitrocelulose layer (compared to DMM‘s copper layer) will „print-through“ the groove that is currently being cut and will deform neighbouring previously cut groove (pre-echo) or will deform the surface that will be cut into on the next revolution of the disc (post-echo, which is much less common). <br />
<br />
Please note that higher volume and bigger vertical amplitudes also involve a higher risk of distortion and mistracking on some turntables.<br />
<br />
<br />
== Available DMM mastering options ==<br />
<br />
Basic options we offer for DMM cutting are:<br />
<br />
'''1. STANDARD CUT'''<br />
<br />
Default option.<br />
<br />
Minimizing risk of distortion on most turntables, only necessary edits are performed on the audio to achieve best possible sounding record.<br />
<br />
Will be quiet compared to a typical lacquer cut, with less distortion and less surface noise.<br />
<br />
'''2. LOUD CUT'''<br />
<br />
Available on request.<br />
<br />
Overall volume and loudness of the record will be comparable to most typical lacquer cuts, with higher risk of distortion in critical parts of the recording (loudest parts of the audio and near the center of the record, see [[Inner groove distortion]]). Reduced available [[Recommended playing times|playtime]].<br />
<br />
'''3. DJ LOUD CUT'''<br />
<br />
Available on request.<br />
<br />
Same as "LOUD CUT", but with wider groove that helps stability of the playing stylus (useful for playback in loud environments that produce a lot of vibrations). Wider groove results in higher surface noise and reduced available playtime. Visual separating grooves in-between tracks are done more prominent.<br />
<br />
'''4. DJ LOUD CUT + SCRATCH'''<br />
<br />
Available on request.<br />
<br />
Same as "DJ LOUD CUT" but with even wider groove, resulting in maximum stability of the playing stylus. Even further reduction of available playtime.<br />
<br />
'''5. FLAT CUT (*)'''<br />
<br />
Available on request.<br />
<br />
Cut is performed without any listenable alteration during premastering. Transcription will be done "as is" which can results in problematic cuts especially near the center of the record. Overall volume might be lower due to absence of other controlling parameters. Please make sure that you follow [[Vinyl master guidelines]] . Studio might refuse to cut, in which case you will receive a report on what should be changed to proceed.<br />
<br />
If you want to avoid specific edits in premastering or cutting, please see "ASSISTED CUT / REFERENCE / SPECIAL REQUEST" instead.<br />
<br />
(*) - be aware that many factories or studios refer to the "flat cut" as a best sounding cut with minimal alterations, which is mostly equivalent to our "1. STANDARD CUT".<br />
<br />
'''6. (DISTORTION) SAFE CUT'''<br />
<br />
Available on request.<br />
<br />
Cut with an emphasis to minimizing risk of distortion on all types of playing styluses and cartridges. Might result in very quiet records with less distortion but higher surface noise.<br />
<br />
'''7. ASSISTED CUT / REFERENCE / SPECIAL REQUEST '''<br />
<br />
Available on request.<br />
<br />
Do you want to visit us at Prague and be present during your cutting? Do you only want to use de-esser, but otherwise go with the "flat cut"? Do you want to achieve super-loudness similar to a record you own and are able to send us? <br />
<br />
All of these options and more are available, keep in mind that they will be billed on an hourly rate of a mastering engineer.<br />
<br />
== VVM mastering, improvement to DMM cutting process ==<br />
<br />
[[File:VVM1.png|thumb|VVM user interface]]<br />
<br />
[[File:VVM2.png|thumb|VVM groove cutting simulation]]<br />
<br />
[[File:VVM3.png|thumb|VVM user interface with explanations]]<br />
<br />
[[File:VVM4.png|thumb|VVM user interface, sibilants analysis]]<br />
<br />
<br />
'''VVM''' ('''Vinyl Visual Mastering''') is software tool designed specifically for needs of a vinyl mastering engineer (ME). It includes a state-of-art computer simulation of the mastering process that allows setting up cutting parameters and simulating the cutting process before the actual cutting is performed. <br />
<br />
Consider a CAD system that is aiding an architect and is able to identify critical parts of the construction and address them specifically. That is what VVM achieves for a mastering engineer.<br />
<br />
VVM allows for these main critical features:<br />
<br />
* A very accurate virtual simulation which will find critical parts in supplied audio before the actual cut. Every cutting system needs to employ protections against critically high electrical current fed into the cutting head or critically high acceleration of the cutting stylus to avoid damaging the cutting head or stylus. In most cases this is done using an electrical circuit breaker and an acceleration limiter. Simulating the cut allows to address these critical conditions in a more sensitive and controlled manner with better results in the cut audio.<br />
<br />
* Each order has individual settings, which can be adjusted for arbitrary parts of audio. There is a direct two-way communication between the computer and the cutting lathe<br />
<br />
* Differential sound and graphic analysis can play or show differences between original audio and processed signal, feedback or vinyl record signal.<br />
<br />
* Vinyl measuring system - geometric, physical, dynamic and load measurements in time or frequency domain.<br />
<br />
* Groove processor - controls groove pitch, groove width and warps audio signals to compensate possible cutting and playback distortion. Every cut can have a different groove pitch strategy.<br />
<br />
* Mathematical model of stylus and groove – the software computes a virtual groove based on geometric dimensions of a defined cutting stylus and can compare it visually with a real groove photo from a microscope.<br />
<br />
* High quality non-destructive signal processing with unique vinyl algorithms. The original audio data remains untouched for a future use.<br />
<br />
<br />
== Summary ==<br />
<br />
If you are mainly familiar with lacquer cuts and would achieve similar level of loudness with DMM, please specify that you would like to order a LOUD CUT during your order processing (please note that this is directly related to a possibility of higher distortion level in loudest parts of the recording). If you have a studio or a mastering engineer that supplies you with lacquer cuts you like, please state that you would like to use a supplied lacquer during your order.<br />
<br />
In any case, if you are unsure, please add test pressings to your order to make sure you are okay with the sound before moving on to the main pressing.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2115Inner groove distortion2026-05-30T09:32:06Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ [[RPM]], the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<center><br />
<gallery widths="300px" heights="200px"><br />
01 groove speed.png<br />
02 modulation packing.png<br />
</gallery><br />
'''Constant [[RPM]], different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
</center><br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 [[RPM]].]]<br />
<br />
At 45 [[RPM]], the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ [[RPM]].<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 [[RPM]], there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 [[RPM]] advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2114Inner groove distortion2026-05-30T09:31:31Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ [[RPM]], the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<center><br />
<gallery widths="300px" heights="200px"><br />
01 groove speed.png<br />
02 modulation packing.png<br />
</gallery><br />
'''Constant [[RPM]], different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
</center><br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 RPM.]]<br />
<br />
At 45 [[RPM]], the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ [[RPM]].<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 [[RPM]], there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 [[RPM]] advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Frequency_response&diff=2113Frequency response2026-05-30T09:28:47Z<p>Petr: </p>
<hr />
<div>'''Frequency response''' is a subjective criterion that refers to the presence (or absence) of signal in the various ranges of frequencies in the supplied audio and the ratio in which they are present. Musically, it is genre-specific and relates to each sound contained in the recording and the instruments or sound sources used.<br />
<br />
For example, some recordings are described as brighter, meaning they contain higher harmonic content at higher frequencies, while others can be described as being darker, sonically. Other classifications of note include the thickness of the sound and its warmth, among others.<br />
<br />
Bright, high-frequency content is the hardest to reproduce near the centre of a record, where it is most affected by [[Inner groove distortion|inner groove distortion]].<br />
<br />
Recordings containing electronic sounds typically have a wider and more extreme range of frequencies, both in the upper and subsonic regions of the sound.</div>Petrhttps://xvinylx.com/w/index.php?title=Recommended_playing_times&diff=2112Recommended playing times2026-05-30T09:26:49Z<p>Petr: </p>
<hr />
<div>{| class="wikitable" style="text-align: center;"<br />
|+ Maximum recommended playing times for a vinyl record<br />
|-<br />
| rowspan="2" |<br />
! colspan="2" | Standard<br />
! colspan="2" | High Volume<br />
|-<br />
! 33<sup>1</sup>/<sub>3</sub> RPM<br />
! 45 RPM<br />
! 33<sup>1</sup>/<sub>3</sub> RPM<br />
! 45 RPM<br />
|-<br />
! width="50" | 7&quot;<br />
| width="100" | 08m30s<br />
| width="100" | 06m30s<br />
| width="100" | 04m50s<br />
| width="100" | 03m40s<br />
|-<br />
! width="50" | 10&quot;<br />
| width="100" | 15m00s<br />
| width="100" | 11m30s<br />
| width="100" | 09m30s<br />
| width="100" | 07m20s<br />
|-<br />
! width="50" | 12&quot;<br />
| width="100" | 19m50s<br />
| width="100" | 15m20s<br />
| width="100" | 12m30s<br />
| width="100" | 08m40s<br />
|}<br />
<br />
Longer sides push the grooves closer to the label, where reduced groove speed increases [[Inner groove distortion|inner groove distortion]]. Keeping within these times helps preserve sound fidelity.</div>Petrhttps://xvinylx.com/w/index.php?title=Vinyl_master_guidelines&diff=2111Vinyl master guidelines2026-05-30T09:25:27Z<p>Petr: </p>
<hr />
<div>These are the basic rules to follow when mastering for vinyl.<br />
<br />
# '''Try not to exceed the [[Recommended playing times | maximum recommended playing lengths]] per side,''' as longer playing times will lead to a dramatic decrease in recording level and dynamics. On the other hand, the requirements of extremely high recording levels decrease the possible playing time (see [[recommended playing times]] for all formats).<br />
# Try to place demanding, powerful and exposed tracks at the beginning of the required side and not towards the end of the record. The conditions for recording and subsequent reading of vinyl records get worse with the decreasing diameter towards the middle of the record (the label), as an effect known as [[Inner groove distortion|inner groove distortion]].<br />
# Try to avoid using psycho acoustic processors to an excessive degree.<br />
# If possible, please check the [[Audio master | master]] by using a correlation measurer (it must not be drastically in the red field or have negative values) and a frequency spectrum analyser to ensure the signal does not contain unreasonably large elements in the low frequency range (around 20 Hz) and also the top end of the frequency zone (around 20 kHz).<br />
# The '''lowest frequencies''' of the acoustic zone that are '''below 300Hz have to be in phase.'''<br />
# '''Filter away''' all inaudible signals to avoid possible problems during recording and reproduction, e.g. subacoustic '''signals below 20Hz (better below 40Hz) and high frequencies above 16 kHz'''. With [[DMM#Available_DMM_mastering_options | STANDARD CUT]] or [[DMM#Available_DMM_mastering_options | LOUD CUT]], you do not have to filter away subacoustic low and high frequencies, they might be filtered in a more sensitive manner by us, using [[DMM#VVM_mastering.2C_improvement_to_DMM_cutting_process | VVM]].<br />
# If your recording substantially differs from natural sounds, which is caused by spreading out the energy in the acoustic zone, there is a risk of audible changes to the sound during the transcription. This is due to the limitations of mechanical recording processes and can for example be caused by singing adjusted by processors or electronically generated effects. In the worst scenario where the signal/music has such critical characteristics that it may damage the cutting head, the order will unfortunately be refused.<br />
# ''As standard'' we choose the highest reasonably possible level in accordance with the character of the existing recording and with respect to the specific properties of the mechanical recording. If it is tolerated by the limit values of the recorder and by the playing time of recording, then it is possible - at Customer’s express request (mostly DJ or rock and heavy-metal bands) – to use a higher level – LOUD, however on the side of reproduction it can be to the prejudice of distortion or stability of the tip.<br />
# Try to avoid 7" vinyl formats at 33<sup>1</sup>/<sub>3</sub> [[RPM]] as the possibilities of the recording and reproduction are most limited at this format. If there is no other solution you have to take into account that the final product will be in some way compromised (Low groove speed limits the recording level and causes a higher decrease of the high frequencies into the middle of the record and can also cause higher distortion levels).<br />
# Remember that good reproduction results on the user's side depend on the quality, technical conditions and correct adjustment of the reproduction facilities! (The quality of the reading system, the shape, the level of the attrition, the cleanness of the needle and the adjustment of the vertical force and anti-skating)<br />
# '''We need a complete [[tracklist]]''' with your [[Audio master | master]] containing the names of all tracks (including the hidden and bonus tracks), '''track timings''' and their separation into side A and side B, the '''total time of each side!''' Please inform us of any special effects or anomalies etc. Any orders without a complete track list will be refused for production.<br />
# Please carefully check if the data on the [[tracklist]] (number of tracks, track order, names and timings on each side) corresponds with the [[Audio master | master]], the label and cover [[artwork]] (and other printed parts - inserts, posters).<br />
# Please keep in mind that the data needs to be readable and understandable.<br />
# '''Any claims against the final product, caused by errors in the production parts supplied by customer, will not be accepted!'''<br />
# If you require additional adjustments or mastering (changes in track order, disregarding some tracks, compilation....) please specify your request exactly on the order form, and note what is on the master and what needs to be done for the final product.<br />
<br />
<br />
== Vinyl mastering FAQ ==<br />
<br />
'''What further processing will the audio go through before reaching the final press?'''<br />
<br />
In the case of digital audio data all processing is done in digital domain. If customer do not specify any preferences and/or do not provide any instruction we set cutting parameters to reach flat cut. In other words we try the record will sound the closest the master. Depending how well is master prepared for vinyl production we use several processing. In some rare cases we just set the basic level, but usually we use further processing to do not exceed vinyl physical and geometric limitation.<br />
We use dedicated audio workstation developed specially for vinyl production. No external boxes, plugin filters or digital delays are used.<br />
Here is a list of all possible process:<br />
<br />
* digital equivalent of classic analog filters (lowpass, highpass, low shelf, high shelf, eq filter)<br />
* digital filter with flat phase response<br />
* free spline filter with flat phase response<br />
* dual look ahead compressor/limiter/gate (band pass compressor, dry/wet option, free compressor curve, )<br />
* de-esser<br />
* stereo effect filter (free frequency and level settings)<br />
* vertical amplitude limiter<br />
* groove processor (distortion compensation)<br />
<br />
<br />
'''Which DBFS peak level should the audio I provide have?'''<br />
<br />
Digital peak level is unrelated to loudness on vinyl records! It is a myth that higher digital level brings louder vinyl record. Many times opposite is true.<br />
<br />
Digital audio data from customer regardless on bit resolution (bps) is always processed in double precision math format with enough headroom, so there is no reason to try make digital audio input data louder. There is a danger of clipping and strange artefacts if you exceed DBFS. Do not make any normalisation or heavy limiting of audio.<br />
<br />
We set cutting level with respect physical (accelaration, speed), geometric (lateral and vertical amplitude, groove angles and radiuses) and electrical (drive coil current) values, what depends also on spectrum and phase between left and right channel. <br />
<br />
'''Do you apply dynamics and EQ processing to make the audio "fit" the vinyl format?'''<br />
<br />
If it is needed.</div>Petrhttps://xvinylx.com/w/index.php?title=RPM&diff=2110RPM2026-05-30T09:23:33Z<p>Petr: </p>
<hr />
<div>'''Revolutions Per Minute''' ('''RPM''') is a frequency unit, used to measure rotation speed.<br />
<br />
Vinyl records we manufacture can be played at ''33<sup>1</sup>/<sub>3</sub> RPM'' or ''45 RPM''.<br />
<br />
While ''33<sup>1</sup>/<sub>3</sub> RPM'' allows for longer [[playing times]], ''45 RPM'' allows for higher sound quality.<br />
<br />
The higher groove speed at 45 RPM gives the stylus more room to trace fine detail, reducing [[Inner groove distortion|inner groove distortion]] toward the centre of the record.<br />
<br />
''33<sup>1</sup>/<sub>3</sub> RPM'' is sometimes (incorrectly) abbreviated as just ''33 RPM''.<br />
<br />
== See Also ==<br />
<br />
* Wikipedia article on '''RPM''': http://en.wikipedia.org/wiki/Revolutions_per_minute</div>Petrhttps://xvinylx.com/w/index.php?title=RPM&diff=2109RPM2026-05-30T09:22:57Z<p>Petr: </p>
<hr />
<div>'''Revolutions Per Minute''' ('''RPM''') is a frequency unit, used to measure rotation speed.<br />
<br />
Vinyl records we manufacture can be played at ''33<sup>1</sup>/<sub>3</sub> RPM'' or ''45 RPM''.<br />
<br />
While ''33<sup>1</sup>/<sub>3</sub> RPM'' allows for longer [[playing times]], ''45 RPM'' allows for higher sound quality.<br />
<br />
The higher groove speed at 45 RPM gives the stylus more room to trace fine detail, reducing [[Inner groove distortion]] toward the centre of the record.<br />
<br />
''33<sup>1</sup>/<sub>3</sub> RPM'' is sometimes (incorrectly) abbreviated as just ''33 RPM''.<br />
<br />
== See Also ==<br />
<br />
* Wikipedia article on '''RPM''': http://en.wikipedia.org/wiki/Revolutions_per_minute</div>Petrhttps://xvinylx.com/w/index.php?title=RPM&diff=2108RPM2026-05-30T09:22:33Z<p>Petr: </p>
<hr />
<div>'''Revolutions Per Minute''' ('''RPM''') is a frequency unit, used to measure rotation speed.<br />
<br />
Vinyl records we manufacture can be played at ''33<sup>1</sup>/<sub>3</sub> RPM'' or ''45 RPM''.<br />
<br />
While ''33<sup>1</sup>/<sub>3</sub> RPM'' allows for longer [[playing times]], ''45 RPM'' allows for higher sound quality.<br />
<br />
''33<sup>1</sup>/<sub>3</sub> RPM'' is sometimes (incorrectly) abbreviated as just ''33 RPM''.<br />
<br />
The higher groove speed at 45 RPM gives the stylus more room to trace fine detail, reducing [[Inner groove distortion]] toward the centre of the record.<br />
<br />
== See Also ==<br />
<br />
* Wikipedia article on '''RPM''': http://en.wikipedia.org/wiki/Revolutions_per_minute</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2107Inner groove distortion2026-05-30T09:05:59Z<p>Petr: /* Why Does It Happen? */</p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ RPM, the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<center><br />
<gallery widths="300px" heights="200px"><br />
01 groove speed.png<br />
02 modulation packing.png<br />
</gallery><br />
'''Constant RPM, different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves means less room for detail.''<br />
</center><br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 RPM.]]<br />
<br />
At 45 RPM, the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ RPM.<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 RPM, there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 RPM advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=IGD&diff=2106IGD2026-05-30T09:02:40Z<p>Petr: Redirected page to Inner groove distortion</p>
<hr />
<div>#REDIRECT [[Inner groove distortion]]</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2105Inner groove distortion2026-05-30T09:00:25Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ RPM, the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<center><br />
<gallery widths="300px" heights="200px"><br />
01 groove speed.png<br />
02 modulation packing.png<br />
</gallery><br />
'''Constant RPM, different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves mean less room for detail.''<br />
</center><br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 RPM.]]<br />
<br />
At 45 RPM, the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ RPM.<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 RPM, there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 RPM advantages can disappear.<br />
<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2104Inner groove distortion2026-05-30T08:59:16Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ RPM, the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<center><br />
<gallery widths="300px" heights="200px"><br />
01 groove speed.png<br />
02 modulation packing.png<br />
</gallery><br />
'''Constant RPM, different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves mean less room for detail.''<br />
</center><br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
[[File:33 vs 45 rpm comparison.png|thumb|Groove modulations at 33 ⅓ vs 45 RPM.]]<br />
<br />
At 45 RPM, the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ RPM.<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 RPM, there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 RPM advantages can disappear.<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2103Inner groove distortion2026-05-30T08:53:28Z<p>Petr: </p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
== Why Does It Happen? ==<br />
<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a 12-inch LP at 33 ⅓ RPM, the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called '''groove modulations.'''<br />
<center><br />
<gallery widths="300px" heights="200px"><br />
01 groove speed.png<br />
02 modulation packing.png<br />
</gallery><br />
'''Constant RPM, different groove speed.''' ''The platter turns at the same speed everywhere, but the outer groove is almost twice as long as the inner one so it passes the stylus about twice as fast. Less speed on the inside grooves mean less room for detail.''<br />
</center><br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
At 45 RPM, the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ RPM.<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 RPM, there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 RPM advantages can disappear.<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=File:33_vs_45_rpm_comparison.png&diff=2102File:33 vs 45 rpm comparison.png2026-05-30T08:53:18Z<p>Petr: </p>
<hr />
<div></div>Petrhttps://xvinylx.com/w/index.php?title=File:02_modulation_packing.png&diff=2101File:02 modulation packing.png2026-05-30T08:40:06Z<p>Petr: </p>
<hr />
<div></div>Petrhttps://xvinylx.com/w/index.php?title=File:01_groove_speed.png&diff=2100File:01 groove speed.png2026-05-30T08:37:08Z<p>Petr: </p>
<hr />
<div></div>Petrhttps://xvinylx.com/w/index.php?title=Inner_groove_distortion&diff=2099Inner groove distortion2026-05-30T08:35:36Z<p>Petr: Created page with "'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity. == Why Does It Happen? == While a record spins at a constant RPM (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost..."</p>
<hr />
<div>'''Inner groove distortion''' ('''IGD''') is a physical limitation, where the audio quality degrades as the stylus (needle) reaches the innermost tracks of a vinyl record, often causing harsher sibilance, distortion, and a loss of clarity.<br />
<br />
== Why Does It Happen? ==<br />
While a record spins at a constant [[RPM]] (rotations per minute) during playback, its outer edge moves faster under the stylus than the inner area, because the length of a circle on the outer edge is almost twice as long as a circle near the center label.<br />
<br />
At the outer edge of a [[Record size|12-inch LP]] at 33 ⅓ RPM, the record groove travels under the stylus at about 50cm/s. By the time the needle reaches the inner grooves, that linear velocity is reduced to roughly half.<br />
<br />
That matters because sound is encoded as side-to-side movement in the groove. A loud or bright sound requires fast, detailed movement. Near the outside of the record, there is more physical groove length available to draw those movements. Near the center, the same musical information has to fit into a shorter length of groove.<br />
<br />
These side-to-side undulations in the groove are called ''groove modulations''.<br />
<br />
In order for the music to stay at the correct pitch as the stylus moves toward the center, the same amount of audio time occupies a shorter section of groove. In simple terms, the modulations become more tightly packed, like a squeezed accordion. The music does not slow down, but it becomes harder for the stylus to trace the groove perfectly.<br />
<br />
A stylus can trace wider, more open modulations more easily than very small, tightly packed ones. When it cannot follow the groove accurately, distortion or loss of clarity can occur.<br />
<br />
On top of that, a normal pivoting tonearm is only perfectly aligned at a couple of points across the record. Toward the inner grooves, tracking angle error can become more noticeable, so the stylus may not sit in the groove at the ideal angle.<br />
<br />
== Does 45 RPM partially solve the problem compared to 33 ⅓ RPM ? ==<br />
At 45 RPM, the record spins faster, so more groove passes under the stylus per second. This gives the playback stylus more physical room to reproduce the same signal. It can help reduce the inner groove distortion compared to the same audio cut at 33 ⅓ RPM.<br />
<br />
However, groove modulations near the center are still more tightly packed than modulations near the outside of the record, so fidelity will still generally be highest at the outer diameter.<br />
<br />
Since the record spins faster at 45 RPM, there is less [[Playing times|playtime]] available. Once the side length goes beyond the [[Recommended playing times|recommended playing time]], the cutting engineer might have to cut quieter, use narrower groove spacing, reduce bass, reduce level, or push the music closer to the center. At some point, many of the 45 RPM advantages can disappear.<br />
<br />
== How to Minimize Inner Groove Distortion ==<br />
While IGD is inherent to vinyl records, it can often be significantly reduced through proper setup and good playback equipment.<br />
<br />
* '''Perfect Your Cartridge Alignment:''' Use a cartridge alignment protractor to make sure your tonearm and cartridge are correctly aligned with the groove path. This helps minimize tracking-angle error.<br />
* '''Check Tracking Force & Anti-Skate:''' Make sure your stylus is tracking within the manufacturer’s recommended tracking-force range, and that anti-skate is properly set. Incorrect tracking force or anti-skate makes mistracking more likely.<br />
* '''Upgrade Your Stylus:''' A better stylus profile can trace tightly packed inner grooves more accurately. Elliptical styli are usually better than basic conical styli, while fine-line, MicroLine, Shibata, or other line-contact profiles can perform even better.<br />
* '''Clean Your Records:''' Sometimes what sounds like IGD is actually dust or debris packed into the inner grooves. Clean records are easier for the stylus to track properly.</div>Petrhttps://xvinylx.com/w/index.php?title=Vinyl_colors&diff=2098Vinyl colors2025-11-19T14:54:20Z<p>Petr: </p>
<hr />
<div>== Basic colors ==<br />
<br />
<gallery widths="120px" heights="120px" perrow="5"><br />
File:01_WHITE.jpg|White (#1)<br />
File:02_YELLOW.jpg|Yellow (#2)<br />
File:03_RED.jpg|Red (#3)<br />
File:04_ORANGE.jpg|Orange (#4)<br />
File:05_CYAN_BLUE.jpg|Cyan Blue (#5)<br />
File:06_BROWN.jpg|Brown (#6)<br />
File:07_DOUBLEMINT.jpg|Doublemint Green (#7)<br />
File:08_GREY.jpg|Grey (#8)<br />
File:09_TRANSPARENT GREEN.jpg|Transparent Green (#9)<br />
File:10_TRANSPARENT YELLOW.jpg|Transparent Yellow (#10)<br />
File:11_TRANSPARENT RED.jpg|Transparent Red (#11)<br />
File:12_TRANSPARENT PURPLE.jpg|Transparent Purple (#12)<br />
File:13_TRANSPARENT BLUE.jpg|Transparent Blue (#13)<br />
File:14_MILKY CLEAR.jpg|Milky Clear (#14)<br />
File:15_SWAMP_GREEN.jpg|Swamp Green (P1)<br />
File:16_SEA_BLUE.jpg|Sea Blue (P2)<br />
File:17_BONE.jpg|Bone (P3)<br />
File:19_BEER.jpg|Beer (P5)<br />
File:20_ELECTRIC_BLUE.jpg|Electric Blue (P6)<br />
File:21_GRIMACE_PURPLE.jpg|Grimace Purple (P7)<br />
File:22_OXBLOOD.jpg|Oxblood (P8)<br />
File:23_COKE_BOTTLE_GREEN.jpg|Cokebottle Green (P9)<br />
File:24_TRANSPARENT_ORANGE.jpg|Transparent Orange (P10)<br />
File:25_HOT_PINK.jpg|Magenta (P11)<br />
File:26_BABY_PINK.jpg|Baby Pink (P12)<br />
File:27_OLIVE_GREEN.jpg|Olive Green (P13)<br />
File:28_AQUA_BLUE.jpg|Aqua Blue (P14)<br />
File:29_CRYSTAL_CLEAR.jpg|Crystal Clear / Ultra Clear (P15)<br />
File:30_BABY_BLUE.jpg|Baby Blue (P16)<br />
File:31_HIGLIGHTER_YELLOW.jpg|Higlighter Yellow (P17)<br />
File:32_GOLD.jpg|Gold (P18)<br />
File:33_SILVER.jpg|Silver (P19)<br />
File:34_MUSTARD.jpg|Mustard (P20)<br />
</gallery><br />
<br />
== Neon colors ==<br />
<br />
<gallery widths="120px" heights="120px" perrow="5"><br />
File:N1-NEON_VIOLET.jpg|Neon Violet (N1)<br />
File:N2-NEON_GREEN.jpg|Neon Green (N2)<br />
File:N3-NEON_YELLOW.jpg|Neon Yellow (N3)<br />
File:N4-NEON_ORANGE.jpg|Neon Orange (N4)<br />
File:N5-NEON_PINK.jpg|Neon Pink (N5)<br />
File:N6-NEON_MAGENTA.jpg|Neon Magenta (N6)<br />
</gallery></div>Petrhttps://xvinylx.com/w/index.php?title=Vinyl_colors&diff=2097Vinyl colors2025-11-19T11:04:50Z<p>Petr: </p>
<hr />
<div>== Basic colors ==<br />
<br />
<gallery widths="120px" heights="120px" perrow="5"><br />
File:01_WHITE.jpg|White (#1)<br />
File:02_YELLOW.jpg|Yellow (#2)<br />
File:03_RED.jpg|Red (#3)<br />
File:04_ORANGE.jpg|Orange (#4)<br />
File:05_CYAN_BLUE.jpg|Cyan Blue (#5)<br />
File:06_BROWN.jpg|Brown (#6)<br />
File:07_DOUBLEMINT.jpg|Doublemint Green (#7)<br />
File:08_GREY.jpg|Grey (#8)<br />
File:09_TRANSPARENT GREEN.jpg|Transparent Green (#9)<br />
File:10_TRANSPARENT YELLOW.jpg|Transparent Yellow (#10)<br />
File:11_TRANSPARENT RED.jpg|Transparent Red (#11)<br />
File:12_TRANSPARENT PURPLE.jpg|Transparent Purple (#12)<br />
File:13_TRANSPARENT BLUE.jpg|Transparent Blue (#13)<br />
File:14_MILKY CLEAR.jpg|Milky Clear (#14)<br />
File:15_SWAMP_GREEN.jpg|Swamp Green (P1)<br />
File:16_SEA_BLUE.jpg|Sea Blue (P2)<br />
File:17_BONE.jpg|Bone (P3)<br />
File:19_BEER.jpg|Beer (P5)<br />
File:20_ELECTRIC_BLUE.jpg|Electric Blue (P6)<br />
File:21_GRIMACE_PURPLE.jpg|Grimace Purple (P7)<br />
File:22_OXBLOOD.jpg|Oxblood (P8)<br />
File:23_COKE_BOTTLE_GREEN.jpg|Cokebottle Green (P9)<br />
File:24_TRANSPARENT_ORANGE.jpg|Transparent Orange (P10)<br />
File:25_HOT_PINK.jpg|Hot Pink / Magenta (P11)<br />
File:26_BABY_PINK.jpg|Baby Pink (P12)<br />
File:27_OLIVE_GREEN.jpg|Olive Green (P13)<br />
File:28_AQUA_BLUE.jpg|Aqua Blue (P14)<br />
File:29_CRYSTAL_CLEAR.jpg|Crystal Clear / Ultra Clear (P15)<br />
File:30_BABY_BLUE.jpg|Baby Blue (P16)<br />
File:31_HIGLIGHTER_YELLOW.jpg|Higlighter Yellow (P17)<br />
File:32_GOLD.jpg|Gold (P18)<br />
File:33_SILVER.jpg|Silver (P19)<br />
File:34_MUSTARD.jpg|Mustard (P20)<br />
</gallery><br />
<br />
== Neon colors ==<br />
<br />
<gallery widths="120px" heights="120px" perrow="5"><br />
File:N1-NEON_VIOLET.jpg|Neon Violet (N1)<br />
File:N2-NEON_GREEN.jpg|Neon Green (N2)<br />
File:N3-NEON_YELLOW.jpg|Neon Yellow (N3)<br />
File:N4-NEON_ORANGE.jpg|Neon Orange (N4)<br />
File:N5-NEON_PINK.jpg|Neon Pink (N5)<br />
File:N6-NEON_MAGENTA.jpg|Neon Magenta (N6)<br />
</gallery></div>Petrhttps://xvinylx.com/w/index.php?title=Paper_weight&diff=2096Paper weight2024-05-17T09:09:02Z<p>Petr: </p>
<hr />
<div>Paper weight is defined as GSM, which is an acronym for grams per square meter. Paper weight does NOT directly translate into paper thickness and different type of paper stock can have various degree of thickness compared to it's weight.<br />
<br />
Standard LP [[inserts]] are printed on 150gsm paper stock, pocket sleeves are printed on 300gsm and heavier, gatefolds are printed on at least 350gsm paper stock. <br />
<br />
{| class="wikitable" style="text-align: left;"<br />
|+ Approximate paper weight for typical products<br />
|-<br />
! 35-55 gsm<br />
| most newspapers <br />
|-<br />
! 90-100 gsm<br />
| typical printer/copier paper stock<br />
|-<br />
! 120-140 gsm<br />
| flyers, posters<br />
|-<br />
! 210-300 gsm<br />
| magazine covers, high quality flyers, some packaging<br />
|-<br />
! 350-425 gsm<br />
| packaging and business cards<br />
|}</div>Petrhttps://xvinylx.com/w/index.php?title=RIP_(artwork)&diff=2095RIP (artwork)2024-05-17T09:06:05Z<p>Petr: Redirected page to RIP (rasterization)</p>
<hr />
<div>#REDIRECT [[RIP (rasterization)]]</div>Petrhttps://xvinylx.com/w/index.php?title=Hot_foil&diff=2094Hot foil2024-05-17T09:05:26Z<p>Petr: Redirected page to Hot Foil</p>
<hr />
<div>#REDIRECT [[Hot Foil]]</div>Petrhttps://xvinylx.com/w/index.php?title=DPI_(Artwork)&diff=2093DPI (Artwork)2024-05-17T09:05:08Z<p>Petr: </p>
<hr />
<div>In printing, resolution is how clear and detailed an image looks. It's measured in '''DPI (dots per inch).'''<br />
<br />
<br />
'''For good quality prints, [[artwork]] data should have at least:'''<br />
<br />
* 300 DPI for full-color and grayscale images<br />
* 1200 DPI for monochromatic bitmaps<br />
<br />
<br />
This ensures that images come out sharp and detailed. If the resolution is too low, like 72 '''DPI''', pictures might look fuzzy or pixelated when printed. <br />
<br />
<br />
'''Source data for:'''<br />
<br />
* spot-lacquer (partial-lacquer)<br />
* silkscreening<br />
* etching<br />
* embossing/debossing<br />
* [[hot foil]]<br />
<br />
<br />
...should also have resolution of '''at least 1200 DPI.'''</div>Petrhttps://xvinylx.com/w/index.php?title=Artwork_template&diff=2092Artwork template2024-05-17T09:03:45Z<p>Petr: Redirected page to Artwork templates</p>
<hr />
<div>#REDIRECT [[Artwork templates]]</div>Petrhttps://xvinylx.com/w/index.php?title=Bleed_(printing)&diff=2091Bleed (printing)2024-05-17T09:02:53Z<p>Petr: </p>
<hr />
<div>'''Bleed''' in printing is like a safety zone around your design. It's extra space beyond the edge of your [[artwork]] that gets trimmed off after printing. This extra space ensures that your design goes all the way to the edge of the paper without leaving any white borders. So, when you design something with bleed, you're making sure that even if the cutting isn't perfect, there won't be any blank areas around your design. It's like giving your artwork a little extra breathing room to ensure it looks its best when it's printed and trimmed.<br />
<br />
'''We require at least 3mm bleed on all outer edges.'''<br />
<br />
<br />
== Why is bleed important? ==<br />
<br />
Your design is printed on a bigger sheet of paper and then cut it down to size, matching the size and shape of your [[artwork template]]. Sometimes the paper can shift when it's cut, without bleed this would leave white areas on the edges of your [[artwork]].<br />
<br />
<br />
Read more about bleed on Wikipedia: <br />
<br />
https://en.wikipedia.org/wiki/Bleed_(printing)</div>Petrhttps://xvinylx.com/w/index.php?title=DPI_(Artwork)&diff=2090DPI (Artwork)2024-05-17T09:01:53Z<p>Petr: </p>
<hr />
<div>In printing, resolution is how clear and detailed an image looks. It's measured in '''DPI (dots per inch).'''<br />
<br />
<br />
'''For good quality prints, [[artwork]] data should have at least:'''<br />
<br />
* 300 DPI for full-color and grayscale images<br />
* 1200 DPI for monochromatic bitmaps<br />
<br />
<br />
This ensures that images come out sharp and detailed. If the resolution is too low, like 72 '''DPI''', pictures might look fuzzy or pixelated when printed. <br />
<br />
<br />
'''Source data for:'''<br />
<br />
* spot-lacquer (partial-lacquer)<br />
* silkscreening<br />
* etching<br />
* embossing/debossing<br />
* hot foil<br />
<br />
<br />
...should also have resolution of '''at least 1200 DPI.'''</div>Petrhttps://xvinylx.com/w/index.php?title=Artwork&diff=2089Artwork2024-05-17T08:55:22Z<p>Petr: </p>
<hr />
<div>'''Artwork''' is a collection of data for anything that will get printed during manufacturing.<br />
<br />
These are basic guidelines when creating artwork:<br />
<br />
* Image resolution should be at least 300 [[DPI]]<br />
* Use [[CMYK]] color model (do '''not''' use [[RGB]])<br />
* You need to use [[templates]] we give you!<br />
* Make at least 3mm [[bleed]] on the edges<br />
* Optimal format for print is a distilled .pdf<br />
* Keep guiding line in a separate layer (and/or in a separate template color)<br />
<br />
* Do NOT use transparency<br />
* Any vector graphics should remain vector<br />
* Fonts smaller than 5pts are not guaranteed to be readable in print<br />
* Do not place written text too close to edges ([[safety zone]])<br />
<br />
* Send us image with final result (.jpeg, .png, .tiff)<br />
* Send us the source files (.psd, .xcf), if you have them<br />
* Send us the all font files used, if you have them</div>Petrhttps://xvinylx.com/w/index.php?title=Safety_zone_(Artwork)&diff=2088Safety zone (Artwork)2024-05-17T08:54:11Z<p>Petr: Created page with "In artwork templates, there is a "safety zone" about 3mm inside from the outer cutting areas. It's important not to put text or important elements inside these zones because there's a risk they might get cut off during the final printing. If text or vital parts of the design are too close to the edge, they might not show up in the finished product. So, keeping important elements away from the safety zone ensures they stay safe and visible in the final print."</p>
<hr />
<div>In artwork templates, there is a "safety zone" about 3mm inside from the outer cutting areas. <br />
<br />
It's important not to put text or important elements inside these zones because there's a risk they might get cut off during the final printing. If text or vital parts of the design are too close to the edge, they might not show up in the finished product. So, keeping important elements away from the safety zone ensures they stay safe and visible in the final print.</div>Petrhttps://xvinylx.com/w/index.php?title=Safety_zone&diff=2087Safety zone2024-05-17T08:53:50Z<p>Petr: Redirected page to Safety zone (Artwork)</p>
<hr />
<div>#REDIRECT [[Safety_zone_(Artwork)]]</div>Petrhttps://xvinylx.com/w/index.php?title=Rich-black&diff=2086Rich-black2024-05-17T08:52:11Z<p>Petr: Redirected page to Color specification mismatch (Artwork)</p>
<hr />
<div>#REDIRECT [[Color specification mismatch (Artwork)]]</div>Petrhttps://xvinylx.com/w/index.php?title=Rich_black&diff=2085Rich black2024-05-17T08:52:00Z<p>Petr: Redirected page to Rich-black</p>
<hr />
<div>#REDIRECT [[Rich-black]]</div>Petrhttps://xvinylx.com/w/index.php?title=Richblack&diff=2084Richblack2024-05-17T08:51:52Z<p>Petr: Redirected page to Rich-black</p>
<hr />
<div>#REDIRECT [[Rich-black]]</div>Petrhttps://xvinylx.com/w/index.php?title=Color_specification_mismatch_(Artwork)&diff=2083Color specification mismatch (Artwork)2024-05-17T08:50:47Z<p>Petr: Created page with "Sometimes, there might be a difference in the colors between the quote we gave you and the artwork you provided. For instance, our quote might mention "1/0 K" (which means one color using only black ink), while your artwork might be "4/0 CMYK" (using cyan, magenta, yellow, and black inks). This can affect how colors appear when printed. If this happens we will either send you a new quote or will need to receive a new artwork data which will be according to the quot..."</p>
<hr />
<div>Sometimes, there might be a difference in the colors between the quote we gave you and the artwork you provided. For instance, our quote might mention "1/0 K" (which means one color using only black ink), while your artwork might be "4/0 [[CMYK]]" (using cyan, magenta, yellow, and black inks). This can affect how colors appear when printed. <br />
<br />
If this happens we will either send you a new quote or will need to receive a new artwork data which will be according to the quote specification.<br />
<br />
<br />
== Rich-black ==<br />
<br />
Sometimes your designer might use '''rich-black''' in your artwork data, so while it seems like it only uses white with black ink, in reality it uses all four [[CMYK]] colors (for example: 60% C / 60% M / 60% Y / 100% K). <br />
<br />
'''Rich-blacks''' creates a more intense black color, especially useful for large solid areas or when you want a bold, impactful look in your printed materials. Using only K will often be percieved as “gray” in final print, rather than black, even with 100% K (black ink) coverage</div>Petrhttps://xvinylx.com/w/index.php?title=Color_specification_mismatch&diff=2082Color specification mismatch2024-05-17T08:47:35Z<p>Petr: Redirected page to Color specification mismatch (Artwork)</p>
<hr />
<div>#REDIRECT [[Color specification mismatch (Artwork)]]</div>Petrhttps://xvinylx.com/w/index.php?title=DPI_(Artwork)&diff=2081DPI (Artwork)2024-05-17T08:43:37Z<p>Petr: Created page with "In printing, resolution is how clear and detailed an image looks. It's measured in '''DPI (dots per inch).''' '''For good quality prints, artwork data should have at least:''' * 300 DPI for full-color and grayscale images * 1200 DPI for monochromatic bitmaps This ensures that images come out sharp and detailed. If the resolution is too low, like 72 '''DPI''', pictures might look fuzzy or pixelated when printed. '''Source data for:''' * spot-lacquer (partial-lacq..."</p>
<hr />
<div>In printing, resolution is how clear and detailed an image looks. It's measured in '''DPI (dots per inch).'''<br />
<br />
<br />
'''For good quality prints, artwork data should have at least:'''<br />
<br />
* 300 DPI for full-color and grayscale images<br />
* 1200 DPI for monochromatic bitmaps<br />
<br />
<br />
This ensures that images come out sharp and detailed. If the resolution is too low, like 72 '''DPI''', pictures might look fuzzy or pixelated when printed. <br />
<br />
<br />
'''Source data for:'''<br />
<br />
* spot-lacquer (partial-lacquer)<br />
* silkscreening<br />
* etching<br />
* embossing/debossing<br />
* hot foil<br />
<br />
<br />
...should also have resolution of '''at least 1200 DPI.'''</div>Petrhttps://xvinylx.com/w/index.php?title=DPI&diff=2080DPI2024-05-17T08:39:37Z<p>Petr: Redirected page to DPI (Artwork)</p>
<hr />
<div>#REDIRECT [[DPI (Artwork)]]</div>Petrhttps://xvinylx.com/w/index.php?title=RIP_(DTP)&diff=2079RIP (DTP)2024-05-17T08:37:09Z<p>Petr: Redirected page to RIP</p>
<hr />
<div>#REDIRECT [[RIP]]</div>Petr