If you searched for "VLC 1600" by mistake (or found an old version number), you likely want specs for VLC 1.6.0 (historical) or general system requirements. VLC is a free, open-source media player.
"Datasheet" – VLC Media Player (General, stable version 3.x)
| Specification | Details | |---|---| | Developer | VideoLAN | | Latest Stable Version | 3.0.20 (as of 2024) | | File Size | ~40 MB (Windows) / ~50 MB (macOS) | | Supported OS | Windows 7/8/10/11, macOS 10.11+, Linux, Android, iOS | | Minimum RAM | 256 MB | | Minimum CPU | 1 GHz (Pentium 4 or later) | | GPU Requirements | None (software decoding), optional DXVA2/VA-API for hardware decoding | | Input Formats | Almost all (MP4, AVI, MKV, MOV, WMV, FLV, MP3, FLAC, etc.) | | Max Resolution Supported | Up to 8K (7680×4320) depending on hardware | | Streaming Protocols | HTTP, RTSP, RTP, UDP, MMS, FTP, SMB, NFS | | Key Features | Play damaged files, convert media, stream over network, take snapshots, add subtitles |
Note: Version 1.6.0 never existed. VLC jumped from 1.1.x to 2.0.x. If you see "1600," it may be a typo for 1.1.0 or a build number. vlc 1600 datasheet
Q1: Is the VLC 1600 a single-mode or multi-mode laser diode?
Q2: Can I drive the VLC 1600 with a simple battery and resistor?
Q3: How do I convert the 1600 mW output to lumens? If you searched for "VLC 1600" by mistake
Q4: Where can I download the official VLC 1600 datasheet?
Q5: What heatsink do I need for the VLC 1600?
Values subject to change based on specific part number ordering code. Note: Version 1
| Part Number | Inductance (L) | Tolerance | DC Resistance (DCR) Max | Saturation Current (Isat) | | :--- | :--- | :--- | :--- | :--- | | VLF1600-1R0 | 1.0 µH | ±20% | ~0.010 Ω | >10 A | | VLF1600-2R2 | 2.2 µH | ±20% | ~0.015 Ω | >7 A | | VLF1600-4R7 | 4.7 µH | ±20% | ~0.025 Ω | >5 A | | VLF1600-100 | 10 µH | ±20% | ~0.040 Ω | >3.5 A |
(Note: "VLC" is a common typo for "VLF" when reading logos or low-resolution datasheets. If you require data for a specific inductance value, please verify the full part number printed on the component.)
Although 1600 nm is longer than typical Erbium-doped fiber pump bands (980 nm or 1480 nm), it can pump certain Raman amplifiers or thulium-doped fibers.