Convert FLAC to AU
Free online FLAC to AU converter. No signup required.
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Max file size: 100 MB
Why Convert FLAC to AU?
Understand when and why this conversion makes sense for your workflow.
Converting FLAC Audio to Sun AU Audio ensures your audio files work across the widest possible range of devices, players, and streaming platforms. Audio formats differ significantly in their compression algorithms, bitrate support, and metadata handling. Whether you're archiving a music collection, preparing tracks for a podcast, or optimizing audio for a mobile app, selecting the right output format is essential for balancing playback compatibility with sound fidelity.
FLAC Audio has a known limitation: still significantly larger than lossy formats like MP3 or AAC. In contrast, Sun AU Audio offers a key advantage: simple, well-documented format with a minimal header. While FLAC Audio is commonly used for audiophile music collections and high-fidelity playback, Sun AU Audio is better suited for unix and solaris system audio and sound effects.
MegaConvert processes your FLAC file and delivers a properly encoded AU output, preserving audio quality within the limits of the target format — free, instant, and private.
FLAC vs AU: Format Comparison
Side-by-side comparison of the source and target formats.
| Property | FLAC (Source) | AU (Target) |
|---|---|---|
| Extension | .flac | .au |
| Full Name | FLAC Audio | Sun AU Audio |
| Compression | Lossless | Varies |
| File Size | Large | Varies |
| Best For | Audiophile music collections and high-fidelit… | Unix and Solaris system audio and sound effects |
| Browser Support | Wide | Varies |
How to Convert FLAC to AU
Follow these simple steps to convert your file in seconds.
Upload your FLAC audio
Drop your .flac audio file into the upload zone or browse to select it. Both short voice clips and full-length tracks work — typical FLAC Audio files (under 100 MB) upload in seconds even on a slow connection. Album art and metadata in the file are read automatically.
Start the AU encode
Press the convert button to start. The audio stream is decoded from FLAC Audio into PCM, then re-encoded as Sun AU Audio at a quality preset that matches the source bitrate where possible. Sample rate, channel count, and bit depth are preserved unless the target format restricts them.
Wait for the audio to finish encoding
Encoding speed depends on the length of the audio and the codec. Short clips finish in a few seconds; full-length albums can take 30 seconds or so. We do not throttle conversions — the limit is just the encoder's natural speed on the underlying hardware.
Download your .au file
When the conversion finishes, click the download link to save the new Sun AU Audio file to your computer. The file is yours — no watermarks, no expiration on the file itself, and no MegaConvert account is required to download it.
Tips for Converting FLAC to AU
Practical advice to get the best results from this conversion.
Why this conversion is worth doing
FLAC Audio has a known limitation: still significantly larger than lossy formats like MP3 or AAC. Sun AU Audio addresses this with a key advantage: simple, well-documented format with a minimal header. Converting from FLAC to AU is most worthwhile when this specific trade-off matters for the way you intend to use the file.
Match the format to the actual workflow
FLAC Audio is most commonly used for audiophile music collections and high-fidelity playback, while Sun AU Audio is the standard for unix and solaris system audio and sound effects. If your workflow is closer to the second pattern, converting makes sense. If you are still working in a context where FLAC is the norm, converting may create unnecessary compatibility friction with collaborators or tools that expect the source format.
Watch for this limitation in the AU output
Sun AU Audio has its own limitation worth understanding before you commit: largely obsolete for general-purpose audio use. After the conversion completes, open the AU file and verify that this limitation does not affect your specific use case — for some workflows it is irrelevant; for others it can be a deal-breaker.
Understand lossy vs. lossless before converting
Converting from a lossy format like MP3 to a lossless format like FLAC or WAV does not restore lost audio data — it only changes the container. If you need true lossless quality, always start from an uncompressed or lossless source. Converting lossless to lossy, however, is a valid way to reduce file size for streaming or mobile playback.
Understanding FLAC and AU Formats
Learn about the source and target file formats to understand what happens during conversion.
Source Format
FLAC Audio
audio/flacFLAC (Free Lossless Audio Codec) is an open-source lossless audio compression format that typically reduces file sizes by 40-60% compared to uncompressed WAV. It preserves the complete original audio data bit-for-bit, allowing perfect reconstruction of the source. FLAC supports high-resolution audio up to 32-bit depth and 655,350 Hz sample rate with embedded metadata and album art.
Advantages
- Completely lossless compression preserving bit-perfect audio quality
- Open-source and royalty-free with broad software and hardware support
- Typically 40-60% smaller than equivalent WAV files
Limitations
- Still significantly larger than lossy formats like MP3 or AAC
- Not supported by all portable devices and car audio systems
- Encoding and decoding requires more CPU resources than uncompressed formats
Common Uses
- Audiophile music collections and high-fidelity playback
- Lossless music archival and library preservation
- Source format for transcoding to lossy formats for distribution
Target Format
Sun AU Audio
audio/basicAU is an audio file format introduced by Sun Microsystems and commonly associated with Unix and NeXT systems. It supports various encodings including uncompressed PCM, mu-law, and A-law compression, with a simple header structure. AU was one of the earliest audio formats supported on the web and remains used in Unix-based audio programming.
Advantages
- Simple, well-documented format with a minimal header
- Native support in Unix, Solaris, and Java audio APIs
- Supports multiple encoding types including mu-law for telephony
Limitations
- Largely obsolete for general-purpose audio use
- Limited metadata support and no modern compression options
- Poor support in consumer audio software and devices
Common Uses
- Unix and Solaris system audio and sound effects
- Java application audio playback (javax.sound)
- Legacy telephony and voice processing systems
Frequently Asked Questions
Common questions about converting FLAC to AU.
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