MiniDisc

Along with Philips and Matsushita Digital Compact Cassette (DCC) system, the MiniDisc was targeted as a replacement for the Philips analogue cassette audio tape system.

Despite enjoying a loyal niche (primarily musicians and audio enthusiasts), MiniDisc has met with only limited success. In Japan, it is still relatively popular, but it doesn't enjoy that level of success in other major markets. Despite its popularity in Japan, flash memory and HDD-based audio players like Apple's iPod are becoming increasingly popular as playback devices.

The company avoided the mistake that it had made in the 1970s with the Betamax video recording system, and this time licensed the MD technology to other manufacturers, with JVC, Sharp, Pioneer, Panasonic and others all producing their own MD systems. MiniDisc technology was faced with new competition from the compact disc consortium, while the popularity of traditional cassette tape refuses to wane in certain quarters. MiniDisc is widely respected as being a very reliable format when it comes to portable audio storage, such as field recording.

The initial low uptake of MiniDisc was attributed to the small number of pre-recorded albums available on MD as a relatively small number of record labels embraced the format. The initial high cost of equipment was also a factor. Pre-recorded MDs disappeared from the market rather suddenly in the late 1990s.

MD Data, a version for storing computer data was announced by Sony in 1993, but it never gained significant ground.

MD Data could not write to audio-MDs, only the considerably more expensive data blanks. In 1997, MD-Data2 blanks were introduced, which held 650 MB of data. They were only implemented in Sony's short-lived MD-based camcorder and Yamaha's multitrack MD recorders, the MD4, MD4S and MD8.

The Hi-MD format, introduced in 2004, marked a return to the data storage arena with its 1GB discs and ability to act as a USB drive. Hi-MD units allow the recording and playback of audio and data on the same disc in addition to compatibility with standard MiniDiscs.

The disc is permanently housed in a cartridge (68 × 72 × 5 mm) with a sliding door, similar to the casing of 90 mm floppy diskettes. This shutter is opened automatically by a mechanism upon insertion; it cannot be opened manually by attempting to slide the shutter open, as you can on a 90 mm floppy disk. The audio discs can either be recordable (blank) or premastered. Recordable MiniDiscs use a magneto-optical system to record data. A laser heats one side of the disc to its Curie point, making the material in the disc susceptible to a magnetic field. A magnetic head on the other side of the disc alters the polarity of the heated area, recording the digital data onto the disk. Playback is accomplished with the laser alone: taking advantage of the Faraday effect, the player senses the polarisation of the reflected light and thus interprets a 1 or a 0. Recordable MDs can be recorded on repeatedly; Sony claims up to one million times. As of May 2005, there are 74-minute and 80-minute discs available. 60-minute blanks, which were widely-available in the early years of the format's introduction, were phased-out long ago and are rarely seen. Premastered MiniDiscs use a mastering process and optical playback system that is very similar to CDs, making them physically dissimilar to recordable discs. The recorded signal of the premastered pits and of the recordable MD are very similar to that of the CD. Eight-to-Fourteen Modulation (EFM) and a modification of CD's CIRC code, called Advanced Cross Interleaved Reed-Solomon Code (ACIRC) are employed.

MiniDiscs use rewritable magneto-optical storage to store the data. Unlike the Digital Compact Cassette, or the (analogue) compact audio cassette, the disc is a random-access medium, making seek time very fast. MiniDiscs can be edited very quickly even on portable machines. Tracks can be split, combined, moved or deleted with ease either on the player or uploaded to PC (only) with the latest version of Sony's PC based SonicStage V4.3 software and edited there. This means that MDs are only compatible to computers running Windows or Mac Operational Systems; it is not possible to use them with Linux or other opensource OS.

At the beginning of the disc there is a table of contents (TOC, also known as "System File" area of the disc), which stores the start positions of the various tracks, as well as meta information (Title, Artist) about them and free blocks. Unlike the conventional cassette, a recorded song does not need to be stored as one piece on the disk, it can be stored in several fragments, similar to a hard drive. Early MiniDisc equipment had a fragment granularity of 4 seconds audio. Fragments smaller than the granularity are not kept track of, which may lead to the usable capacity of a disc actually shrinking. Also, no means of defragmenting the disc are provided in consumer grade equipment. Defragmentation would require either two discs, or enough RAM to store the full contents of a MiniDisc, and computing power to rearrange the fragments so that each song is stored on the disc in one fragment only.

All consumer-grade MiniDisc devices feature a copy-protection scheme known as Serial Copy Management System. An unprotected disc or song can be copied without limit, but the copies can no longer be digitally copied. However as a concession to this the most recent Hi-MD players can upload to PC a Digitally Recorded file which can subsequently be resaved as a *.WAV (PCM) file and thus replicated.

The audio on a MiniDisc has traditionally been compressed using the ATRAC format (Adaptive TRansform Acoustic Coding). ATRAC was devised for MiniDisc so that the same amount of audio a CD can carry can fit on a disc far smaller than the CD. These days ATRAC is used on nearly all current Walkman devices, in addition to other formats. A CD, by contrast, contains uncompressed 16-bit stereo linear PCM audio. In MiniDisc's latest progression, Hi-MD, uncompressed CD-quality linear PCM audio recording and playback is offered in addition to ATRAC compression of varying bitrates - placing Hi-MD on par with uncompressed, CD-quality audio for the first time.

Sony's ATRAC codec differs from uncompressed PCM in that it is a psychoacoustic lossy audio compression scheme, so decompression of the compressed signal will not yield the original signal, although the compressed signal may sound identical to the original to the listener. The latest version of Sony's ATRAC is ATRAC3plus. Original ATRAC3 at 132 kbit/s (also known as ATRAC-LP mode) is the format used by Sony's Connect audio download store. ATRAC3plus is not used in order to retain backwards compatibility with earlier NetMD players.

MiniDisc has a feature that prevents disc skipping under all but the most extreme conditions. Older CD players had once been a source of annoyance to users as they were prone to mistracking from vibration and shock. MiniDisc solved this problem by reading the data into a memory buffer at a higher speed than was required before being read out to the digital-to-analogue converter at the standard rate required by the format. The size of the buffer varies by model.

If the MiniDisc player were bumped, playback could continue unimpeded while the laser repositioned itself to continue reading data from the disc. This feature allows the player to stop the spindle motor for long periods, increasing battery life. The memory buffer concept introduced by MiniDisc was soon incorporated into portable CD players as well.

A buffer of at least ten seconds is required on all MiniDisc players, be they portable or stationary, full-sized units. This is needed to ensure uninterrupted playback in the presence of fragmentation.

The data structure and operation of a MiniDisc is similar to that of a computer's hard disk drive. The bulk of the disc contains data pertaining to the music itself, and a small section contains the Table of Contents (TOC), providing the playback device with vital information about the number and ___location of tracks on the disc. Tracks and discs can be named. Tracks may easily be added, erased, combined and divided, and their preferred order of playback modified. Erased tracks are not actually erased at the time, but are marked so. When a disc becomes full, the recorder can simply slot track data into sections where erased tracks reside. This can lead to some fragmentation but unless many erasures and replacements are performed, the only likely problem is excessive searching, reducing battery life.

The data structure of the MiniDisc, where music is recorded in a single stream of bytes while the TOC contains pointers to track positions, allows for gapless playback of music, something which the majority of competing portable players, including most MP3 players, fail to implement properly. (Notable exceptions are CD players, as well as nano-model and video-capable iPods via the latest firmware updates).

At the end of recording, after the "Stop" button has been pressed, the MiniDisc may continue to write music data for a few seconds from its memory buffers. During this time, it may display a message ("Data Save", on at least some models) and the case will not open. After the audio data is written out, the final step is to write the TOC track denoting the start and endpoints of the recorded data. Sony notes in the manual that one should not interrupt the power or expose the unit to undue physical shock during this period.

In 2000, Sony announced MDLP (MiniDisc Long Play), which added new recording modes based on a new codec called ATRAC3. In addition to the standard, high-quality mode, now called SP, MDLP adds LP2 mode, which allows twice as much recording time (160 minutes on an 80 minute disc) of good-quality stereo sound, and LP4, which allows four times more recording time (320 minutes on an 80 minute disc) of medium-quality stereo sound.

The bitrate of the standard SP mode is 292 kbit/s, and it uses separate stereo coding with discrete left and right channels. For most people the sound quality is indistinguishable from a CD. LP2 mode uses a bitrate of 132 kbit/s and also uses separate stereo coding. For most people the sound quality is almost as good as SP. The last mode, LP4 has a bitrate of 66 kbit/s and uses joint stereo coding. The sound quality is noticeably poorer than the first two modes, but is sufficient for many users.

Tracks recorded in LP2 or LP4 mode play back as silence on non-MDLP players.

NetMD recorders allow music files to be transferred from a computer to a recorder (but not in the other direction) over a USB connection. In LP4 mode, speeds of up to 32× real-time are possible and three Sony NetMD recorders (MZ-N10, MZ-N910, and MZ-920) are capable of speeds up to 64× real-time. NetMD recorders all support MDLP.

NetMD is a proprietary protocol, and it is currently impossible to use it without proprietary software, such as SonicStage. Thus, it cannot be used under Linux, *BSD, and so on. A free implementation, libnetmd, is being developed, yet it cannot be used to upload music (as of December 2005).

In January 2004, Sony announced the Hi-MD media storage format.^[1] With its release in later 2004 came the ability to use newly-developed, high-capacity 1-gigabyte Hi-MD discs, sporting the same dimensions as regular MiniDiscs.

The main features of Hi-MD include:

• the ability to save non-audio data such as documents, videos and pictures
• longer playback and recording times per disc
• the ability to digitally transfer recordings to and from Hi-MD and computer. (Previously only one-way (lossy ATRAC) digital transfers were possible)
• the ability to record in lossless linear PCM, offering CD-quality audio. This completely eliminates compression artifacts that occur when recording directly to lossy audio formats such as Sony's ATRAC, or other formats like MP3, AAC, Windows Media Audio (WMA), Ogg Vorbis (ogg), etc. (Previously only recording to ATRAC lossy codecs was possible).
• the introduction of a new ATRAC3plus codec with new Hi-LP and Hi-SP bitrates.
• compatibility (and enhanced capabilities) with standard MiniDiscs

Hi-MD offers the choice of several codecs for audio recording: PCM, Hi-SP and Hi-LP, each selectable on the Hi-MD Walkman itself. PCM is the highest quality mode, followed by Hi-SP (the default mode), then Hi-LP.

• PCM mode allows 94 minutes (1h:34min) of lossless CD-quality audio to be recorded to a 1GB Hi-MD disc (or 28 minutes on a standard 80-minute MiniDisc recorded in Hi-MD mode).
• Hi-SP allows seven hours and fifty-five minutes (7h:55m) of audio to be recorded on a 1GB Hi-MD (or 2h:20min on a standard 80-minute MiniDisc recorded in Hi-MD mode).
• Hi-LP allows 34 hours on a 1GB Hi-MD (or 10h:10min on a standard 80-minute MiniDisc recorded in Hi-MD mode).
  

Each of these codecs is available natively for recording on standalone Hi-MD devices. Additional bitrates are available with SonicStage software on the computer. Up to 45 hours of audio can be recorded per disc at the lowest-quality setting via SonicStage PC transfer.

All Hi-MD units have the ability to play back regular MiniDiscs. Most Hi-MD Walkmans also have the capability to record standard MiniDiscs in standard SP, LP2 and LP4 codecs in MD mode (as opposed to Hi-MD mode), ideal for creating discs intended to be played back in older (pre-Hi-MD) MiniDisc units.

Hi-MD discs offer the ability to store computer files in addition to audio data. For example, a Hi-MD disc could have both school or work documents, pictures, videos, etc. as well as music (playable in a Hi-MD Walkman) if desired.

When connected to a computer (via USB cable), a Hi-MD Walkman is seen as standard USB Mass Storage device, just like a USB stick or external hard drive. On a Windows computer, a Hi-MD device is listed as "Removable Disk" in "My Computer". The disc has a FAT filesystem. Hi-MD units are powered by the USB bus when connected - just like USB sticks, they don't require additional power (and don't use their own battery power) when plugged in to a computer.

Sony's SonicStage music management software is not needed to save and manipulate files on the discs; it is only required to get playable audio on and off the device; all files are manipulated using standard operating-system functions. However, when SonicStage software is active, the recorder is not treated as a data storage device - SonicStage "takes over" the management of the device.

When connected to a PC, "PC--MD" appears on the Hi-MD device's display to indicate the unit is connected in PC--MD mode. In PC--MD mode, pressing Play on the unit, for example, results in "PC--MD" flashing, indicating this function cannot be activated from the device when connected to the computer. It is essentially a slave to the computer in this mode. PC--MD status is constant as long as the unit is connected via USB cable (regardless of whether SonicStage is running or not).

To play back Hi-MD audio data on the PC, SonicStage is needed. It can be done 2 ways:

1. Launch SonicStage. Play audio from Hi-MD inside SonicStage. The audio is played back on the computer's PC speakers. SonicStage reads and decrypts the audio data straight from the Hi-MD disc.
2. transfer the audio data to the PC in SonicStage. Play the audio back from the PC's hard drive (instead of playing it back from the Hi-MD unit directly)

Once the operation of transferring audio with SonicStage is completed, the audio itself can be saved in any number of ways (& audio formats). Saving audio in SonicStage in standard WAV format is a widely-accepted way to get the audio into many third-party applications like editors and sound analyzers. The user can then proceed to record CDs, edit the audio, archive to format of choice, etc.

Hi-MD units can play back standard MiniDiscs recorded in non-Hi-MD units, in addition to record on standard MiniDiscs and higher-capacity 1GB Hi-MD discs. There are two user-selectable operational modes on Hi-MD units (which Sony calls Disc Modes): MD mode and Hi-MD mode.

These are automatically selected whenever a disc with a recording on it is inserted. However, when a blank disc is inserted, the recorder will default to the user-selectable Disc Mode for any recordings made on it. The default Disc Mode on Hi-MD devices is Hi-MD mode, but it can be changed to MD mode if desired.

• MD mode is useful when intending to record on a standard MiniDisc using standard MD codecs for playback on devices that are not Hi-MD compatible. Data storage (and other benefits of Hi-MD mode) cannot be used in MD mode.
• Hi-MD mode is useful when the benefits of Hi-MD mode want to be used, such as increased capacity on standard MiniDiscs, new codec choices (PCM, Hi-SP, Hi-LP) and the ability to save data on the discs along with audio.

Using Hi-MD mode with a standard 80-minute MiniDisc increases the disc's capacity from 177MB to 305MB. MD Mode is ignored when a 1GB Hi-MD is inserted; Hi-MD mode is always used with 1GB Hi-MD discs.

Since the release of SonicStage 3.4 (Sony's music-management program), virtually all computer audio transfer restrictions were removed. These plagued earlier versions of SonicStage for some time. (Sony actually started a big push to dispense with the DRM restrictions with the release of SonicStage version 3.2. Version 3.4 dispensed with even more).

A side-effect of this is that the wording in many Sony Hi-MD user's manuals regarding "transfer authorizations" don't apply to users using SonicStage versions 3.2 and later. The ability to transfer Hi-MD audio to (and from) computer is now essentially unrestricted, unlike previous versions of the software.

Some of these restrictions included:

• limited transfers of microphone and "line-in" recordings
• barring of digitally-sourced uploads (ie. recordings that were made from USB or digital optical input).

These restrictions had - in the past - severely impacted the utility and ease-of-use of Hi-MD.

One limit that still remains in current software is the inability to edit tracks transferred from SonicStage to the device. Attempting to add or erase track marks on-unit from tracks transferred through SonicStage will result in "NO EDIT" (or similar message) being flashed on the unit. No such editing restrictions exist when transferring via optical cable or via LINE-IN.

Sony mention this limitation in their manuals as necessary to prevent "loss of transfer authorization" on the edited tracks. Considering these transfer authorizations are gone now, it seems possible for Sony to get rid of this limitation as well - so that users may add & erase track marks on their Hi-MD units whenever they please, despite it being transferred from SonicStage.

The latest officially-downloadable release of SonicStage is SonicStage CP 4.3. It is available on the following Sony sites:

• Sony Europe

In 2005 Sony released its second-generation Hi-MD devices offering native support for the popular MP3 format (earlier, SonicStage would transcode MP3 files to ATRAC format before recording on the disc). Transcoding files to lossy formats always results in lower quality sound.

Sony's MP3 file support still means that the MP3s themselves had to go through SonicStage to be put on the device, and couldn't just be copied on the discs outside of SonicStage as you can with data files on Hi-MD (or Hi-MD-formatted MiniDisc media). SonicStage 'wraps' (encrypts) the MP3 files on the disc (as it does with all audio that's playable in a Hi-MD device). To many, the requirement of SonicStage for audio transfers has been a constant drawback.

At the release of the second-generation Hi-MD models in 2005, some controversy erupted. Some users argued that MP3 playback on the devices sounded dull; the treble seemed to be muffled in comparison to ATRAC-encoded files, which sounded 'brighter'. The results were consistent. The devices could be best described as having their MP3 playback crippled, angering many customers. Sony implemented a lowpass on MP3 playback, which could make MP3 sound dull in comparison to ATRAC. Some users believe this was done intentionally in hopes of fooling listeners into believing Sony's ATRAC was superior to MP3. Regardless of the intentions of Sony, the MP3 playback roll-off problem was notably absent with the release of a new model, the MZ-RH1 Walkman, in March 2006.

In 2005, Sony announced Hi-MD Photo.^[2]

The Sony MZ-DH10P Walkman was released to showcase the format. The unit offers a 1.3 megapixel digital camera and saves pictures to Hi-MD discs, but doesn't offer a microphone input to record live audio, as do most standard Hi-MD Walkmans. The unit was praised for its full-colour display and unique photo & music features, but met with limited market success.

In March 2006, Sony released the MZ-RH1 Hi-MD Walkman in Japan, which was later followed in other regions. With this unit, Sony enabled faster-than-realtime full digital transfers from standard MiniDiscs to the computer for the first time. Users with extensive MiniDisc collections, for example, could upload their recordings digitally faster than real-time via USB connection, just like Hi-MD recordings already offered.

One limitation is with transfers done from MiniDiscs recorded on NetMD devices. MiniDiscs that have had recordings transferred via USB from computer to the NetMD device cannot have those recordings uploaded to the computer digitally. However, NetMD live audio recordings (via MIC input) as well as LINE IN recordings can be transferred to the computer digitally with no restriction on the MZ-RH1.

These digital transfers of standard (pre-Hi-MD) MiniDiscs are in addition to the essentially unrestricted Hi-MD transfers already available since the online availability of SonicStage 3.4 (and later).

With the MZ-RH1, Sony made tangible speed improvements to the device over previous generations of Hi-MD recorders. The result being that the transfer times to and from computer are - under certain circumstances - cut in half over previous models, but still noticeably slower than flash memory and hard drive-based portables, because of the nature of the Hi-MD magneto-optical system.

Sony's Hi-MD models are widely-regarded for their high-quality recording, and are generally considered the highest quality recording devices in their price range.^{[verification needed]}

Hi-MD's strengths over most other digital audio players and recorders on the marketplace include:

• gapless playback
• the ability to record in linear PCM at 16bits, 44.1KHz sampling rate (identical to CD with no lossy codecs being employed like WMA, MP3, AAC, ATRAC, etc)
• Connection flexibility; nearly all recorders offer MIC (microphone), digital OPTICAL and analogue LINE inputs.
• Recording the entire 20Hz-20KHz audible frequency range, making Hi-MD suitable for high-quality live audio capture of music in addition to voice. Most voice recorders have a limited frequency range, particularly when employing poor quality internal microphones
• high-quality low-noise components and circuit design^[3] (low noise MIC pre-amps, LINE IN input)
• automatic gain control (AGC), manual level adjustment and level meters on all recorders
• high and low sensitivity microphone and variable AGC settings on all recorders with a MIC input
• on-unit disc editing such as track-marking, titling, combining, dividing and grouping tracks without the need for a computer
• USB connection for two-way digital transfers (computer-to-Walkman and Walkman-to-computer)
• Synchro record for synchronising the recording from optical digital inputs
• SpeedControl - available on selected Hi-MD models - makes Hi-MD useful to musicians and language students by slowing down the audio without changing the pitch
• A-B Repeat allows a user to make a certain section of a track within a track repeat itself; (the user selects points A and B).
• Nearly all models include a remote control as a standard accessory and all Hi-MD Walkmans have the capability to accept a remote control.

Audio can be transferred to the units without a computer via OPTICAL input, LINE IN via analogue cable and live audio via the MIC input. Optical inputs found on nearly all Hi-MD devices allow digital transfers from many CE-devices.

Transfers over digital optical cable typically maintain the high sound quality of the original by avoiding quality loss that comes from converting the digital audio to analogue form. The main difference between optical and USB transfers is that the optical transfer is real-time (ie. 1 hour of material takes one hour to transfer). Many non-computer (and computer) devices offer optical outputs that Hi-MD can record from with high quality.

In addition to digital optical input, recording via analogue sources is possible via the LINE input. On Hi-MD Walkmans, the same physical connector accepts both analogue and optical connections.

All Hi-MD (and older MD and NetMD) devices accept user-replaceable batteries, as opposed to a single non user-replaceable embedded battery popular on most digital audio players. This allows for easy battery switching when travelling and/or after extended recording or playback sessions. Several models accept the ubiquitous AA battery.

Criticisms of the Hi-MD format (nearly all apply to standard MiniDisc and NetMD, too):

SonicStage

The requirement of Microsoft Windows-based SonicStage to transfer audio to and from the device when using the USB connection - and SonicStage's own peculiarities and limitations. When a Hi-MD unit records, audio information is encrypted by the device. When transferring content to or from the computer, the same applies, except SonicStage is used to decrypt and encrypt audio. Many argue audio should be able to be placed on the device in standard formats without a proprietary application needing to be installed to view and transfer Hi-MD-playable audio, much the same way as regular files can be placed on Hi-MD discs without encryption or obfuscation. If the encrypted audio data is damaged in any way (whether through normal operation of the unit or abuse) standard operating system disc-checking tools cannot be used to attempt to recover the audio due to its proprietary encrypted nature. Hi-MD recorders natively encrypt audio data regardless of any ATRAC or linear PCM codec recording choices, and regardless of recording source (microphone, optical or line-in). Similarly, files transferred from PC via SonicStage are natively encrypted (but not necessarily transcoded) regardless of source format (AAC, MP3, WAV). Standard audio files such as MP3, FLAC, Ogg Vorbis, AAC, WMA, etc. can be copied to a Hi-MD or Hi-MD formatted MiniDisc without the aid of SonicStage much the same way as pictures and documents are, but the files themselves will not be playable by the Hi-MD device natively (ie. without the aid of a computer).

Disc-based limitations

Hi-MD units store non-audio information (such as start and end time of tracks) in the "system file" area of the disc. The system file is updated after any recording or edits on disc (like new recordings, moving track positions, adding tracks, removing tracks, track titling, etc). For example, recording and then pressing "stop" on the unit will result in the unit saving any in-memory audio data to disc - then updating the "system file" area of the disc. SYSTEM FILE WRITING is commonly seen on the display of a Hi-MD unit at this time (DATA SAVE may appear instead, when edited track names, disc name, artist names, etc. are being saved). In both cases, it is at this point the recorder spends several seconds updating the system file area of the disc. Sony warns not to shock the unit at this time or remove the power to the unit because the entire recording can be 'lost' if the system file area is not written to or updated properly. This is seen as a weakness of a disc-based format. To avert power-related problems when writing, the Hi-MD estimates whether the battery power is adequate in advance of any recording or editing taking place on the unit. "NotENOUGH POWER TO REC" and "NotENOUGH POWER TO EDIT" are two messages that may appear in the display when the recorder estimates the power to not be enough. Power-related problems are largely averted this way, but shocking the unit still may be an issue at this critical stage of writing.

Mechanical noise

Hi-MD units are mechanical devices, and as such, emit a noise intermittently. A disc is read (or written to) in bursts. This means that when recording (for example), the audio data is fed to a memory buffer first, then written to disc as that memory buffer is filled. The audible manifestation of this is that a spinning motor noise is heard for a short period, followed by a far longer period of silence. Then some spinning whir again, then silence. The cycle is repeated. The same applies to playback, only differently: a disc is spun faster than required for normal playback (to fill the memory buffer), then stops spinning and the audio information is emptied (played back) from memory normally. As the memory buffer depletes, the disc spins up again, maintaining the fill of the memory buffer, only to spin down the disc again (into silence). The buffer memory allows the disc to spin down completely most of the time, conserving battery life. However, during live recording operations with a microphone, this can be a problem. If the microphone is directly connected to the unit (ie. directly connected to the MIC jack without a wire), or simply in close enough proximity with a fairly quiet background, this intermittent motor noise can be audibly present in the recording - if some basic precautions aren't taken. This contrasts with flash-based recorders with no moving parts for recording, who are able to record in silence with no self-noise.

Storage capacity

Relatively poor storage capacity (1GB per disc) compared to hard-drive and some recent flash-based digital audio players

Slow transfer rates

When transferring audio (and data) to and from the computer. Hi-MD units offer far lower speeds than flash memory-based and hard drive-based devices.

Miniaturization constraints

The larger size of Hi-MD units in comparison to some far smaller units available on the market today. Most of these smaller portable audio devices are flash memory-based units not limited in their miniaturization by the physical dimensions of a Hi-MD.

In 2006, Sony positioned Hi-MD as a Digital Audio Tape (DAT) alternative, placing the MZ-M200 Hi-MD Walkman under the Pro Audio section of its "Broadcast & Business Solutions Company" website, alongside its flash memory-based recorder, the PCM-D1.^[4] Digital Audio Tape (DAT) is a high-quality digital tape format that found a niche with musicians and studios, and is valued for its high-quality sound reproduction. DAT portables have commonly been used for field recording, but have gradually been replaced by solid-state and hard drive-based units like the Aaton Cantar, the Zaxcom Deva, and similar units from Fostex and Sound Devices. (Sony and Fostex ceased manufacturing DAT devices at the end of 2005, though parts and blank tapes should be available through 2010).

The MZ-M200 Walkman is Sony's MZ-RH1 with a powered stereo microphone included. The MZ-RH1 is targeted to a more general customer on Sony's consumer electronics sites and comes with no microphone bundle. The microphone is included to enable Hi-MD as a field recorder, and the higher price reflects the added value of the microphone.

Given the improvements in Hi-MD, such as linear PCM recording (offering truly CD-quality sound without lossy compression), as well as improvements in SonicStage, MD users may hope that marketing efforts like this might see Hi-MD's use as a field recording tool grow.

While MD has been a reasonable success in Asia (particularly in Japan and Hong Kong), North America and Europe have leaned more often towards either flash or hard drive-based systems. For professional recording, many offer features such as professional XLR microphone inputs, among other pro-centric features. These units are typically significantly larger and heavier than a Hi-MD Walkman, often with reduced battery life and higher prices. It's for these reasons Hi-MD fills a niche for high-quality recording and editing purposes in a compact size - and still remains a quality playback device. Stealth recordists, in particular, continue to favour Hi-MD.

In 2006, Hi-MD Walkman models released were the MZ-RH1 & MZ-M200. These units were designed with a particular focus on ease-of-recording, and have received a positive reception from many recording enthusiasts.

Modes marked in green are available for recordings made on the player, while those marked in red are only available for music downloaded from a PC. Capacities are official Sony figures; real world figures are usually slightly higher. Second generation Hi-MD players also support MP3 compression natively, in a multitude of bitrates. Recently, 352 kbit/s and 192 kbit/s ATRAC3plus have also been made available for 1st and 2nd generation Hi-MDs.

• Sony Hi-MD page
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• Linux and Sony MiniDisc players