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If you are searching for a VLC 1600 datasheet, you are likely looking for specifications on a visible light communication (VLC) component – probably a high-power LED, photodiode, or transmitter module – with a part number ending in 1600.
Based on common industry naming conventions, the VLC 1600 is presumed to be an infrared or visible light LED emitter designed for high-speed optical communication.
They called it the VLC 1600 like a relic from a half-remembered future — a small, matte module with a barcode of pins along one edge and a single stamped serial: 1600. In the lab where prototypes gathered like stray birds, it sat under a desk lamp, its label yellowed but proud. Everyone who touched it swore it hummed, not with sound but with intent.
Maya found the datasheet first — not a polished PDF but a single folded sheet tucked inside a chipped box labelled "legacy components." The header was plain: VLC 1600 — Technical Data. Below, in tiny technical font, were parameters: voltage ranges that suggested patience, timing diagrams that read like maps, thermal curves like mountains to be crossed. The pages were dry with practicality, but Maya read them as if they were instructions for summoning.
"VCC: 1.8–3.3 V," it began. "Operating temperature: -40 to 125°C. Typical latency: 12.6 ns." Each line altered her perception of the module. Where others saw limits, she saw possibility. The capacitance numbers were constellations. The recommended footprint became a blueprint for rituals.
She built the test board in the late hours, solder smoke curling like incense. The VLC 1600 sat in its footprint: small, mute, waiting. She fed it 1.8 volts — the lower edge of its comfortable sleep — and watched the oscilloscope like a star chart. At first nothing happened. Then the scope traced a ripple, a waveform that matched the timing diagram in the datasheet so perfectly Maya laughed out loud: her faith rewarded by cold, exact numbers.
Word spread. Colleagues came by to see what made the little module so magnetic. They read the datasheet and joked about reading commandments into ceramic. Still, the module changed how they worked. Soldering jobs once hurried became meticulous. They slowed — adjusting resistor values with the reverence of tuning a radio from static to signal. Projects that had locked into compromise found new room to breathe: longer battery life, quieter heat signatures, space freed inside enclosures where makers had once crammed components like hurried passengers.
The datasheet became less a manual and more a conversation. Notes were scribbled in margins: "Try 2.7 V here," "Buffer needed for long traces," "Watch rise time at 85°C." The team iterated with care. Prototypes came back with improved traces, corrected decoupling, cleaner ground planes. Each change was annotated and fed back into a shared living document — a human datasheet that amplified the original.
Months later, at a cramped trade show booth, the VLC 1600-powered device sat humming quietly on a pedestal. A small crowd pressed forward to see what made it different: a pocket-sized environmental monitor that squeezed days of battery life into a single charge, listening for faint signals while ignoring the city's loudness. Reporters asked about innovation; Maya handed them a photocopy of the original datasheet, corners folded, ink smudged. vlc 1600 datasheet
"It told us what it could do," she said. "We listened."
Back in the lab, the box that had held the datasheet went onto a shelf. Other components joined the shelf, but the VLC 1600 sheet was folded and worn as if used to bookmark time. It had been a plain technical paper, but in the margins, in the experiments and late-night coffee, it had become a roadmap for restraint and possibility: a reminder that precise specifications can spark wonder when people read them not as constraints but as invitations.
And whenever a new recruit asked about the worn sheet, Maya passed it along with a single instruction: "Read the numbers. Then imagine what they want to be."
, a high-performance, BACnet-compliant input monitoring device used in building automation systems
" is also used by some manufacturers for large-scale vertical lathes, the Honeywell/Alerton controller Go to product viewer dialog for this item.
is the primary subject for this specific technical designation. Alerton VLC-1600 Go to product viewer dialog for this item. Overview The
is designed for applications requiring high input density to supplement existing building controllers. It serves as a dedicated input monitoring station, providing data for fault detection, diagnostics, and cloud-based analytics without having any control outputs itself. Technical Specifications The following data represents the standard Alerton VLC-1600-E datasheet parameters: Specification Processor 32-bit ARM Cortex-M4F, 80 MHz Memory 512 MB non-volatile flash Inputs 16-bit universal inputs (Qty: 16) Power 24 VAC @ 50–60 Hz; 5 VA min / 26 VA max Communication BACnet MS/TP (up to 115.2 Kbps) Logic Loop Time 100 milliseconds Operating Temp 0°F to 158°F (-17°C to 70°C) Dimensions 4.9" H x 5.0" W x 1.4" D Key Features & Functions
Input Versatility: The 16 universal inputs are jumper-configurable or auto-selectable to accept 3k or 10k thermistors, dry contacts, 0–5 VDC, 0–10 VDC, or 4–20 mA signals. The Ultimate Guide to the VLC 1600 Datasheet:
Graphical Programming: Control logic is developed using Alerton’s VisualLogic® toolset, allowing for easy field modification.
Sensor Support: Integrates with Alerton Microtouch and BACtalk Microset sensors (Microset, Microset II, and Microset 4) specifically on input 0 (IN-0).
Seamless Integration: As a native BACnet controller, it connects directly to the BACnet MS/TP LAN, supporting auto-baud switching for communication flexibility.
Hardware Design: Features removable header-type screw terminals for easy wiring (14–24 AWG) and a half-wave rectified power supply that allows multiple units to share a single transformer. Application Use Cases is ideally suited for:
High-Density Monitoring: Augmenting the input capacity of central plant systems or lighting panels.
Fault Detection: Continuous monitoring of process variables for early equipment failure detection.
Data Aggregation: Feeding real-time environmental data to cloud analytics platforms for energy optimization. Alternative: VLC-1600 Vertical Lathes VLC-1600 data sheet
Alerton BACtalk VLC-1600 is a high-performance, fully programmable input monitoring device designed for high input density applications within a building management system. A standout feature of the VLC-1600 is its 16 high-resolution, universal inputs probably an industrial LED driver
. These inputs are jumper-configurable or software-selectable to support a wide range of signal types, including: Thermistor / Dry Contact 0–5 VDC / 0–10 VDC (requires external resistor) Pulse-type inputs (supported on specific inputs like 1–3) www.acontrols.co.za Key Technical Specifications
32-bit ARM Cortex-M4F (80 MHz) or Motorola AZ60 depending on the model version
Nonvolatile flash memory (up to 512 MB) for program and data storage Communications BACnet MS/TP LAN at speeds up to 115.2 Kbps
24 VAC with a half-wave rectifier, allowing one transformer to power multiple units I/O Capacity 16 Universal Inputs; notably, this specific model has no control outputs Dimensions 4.90” H x 5.45” W x 1.40” D (125mm x 138mm x 36mm)
The device is built for speed, featuring an internal logical loop time of 100 milliseconds
for high-speed DDC program processing. It integrates seamlessly with wall sensors like the BACtalk Microset for technician access and data display. www.acontrols.co.za or specific programming instructions for these universal inputs? VLC-1600 data sheet
The sensor utilizes a loose push-rod mechanism. The rod is decoupled from the sensing element internally, ensuring that side-loads on the rod do not transfer to the delicate electronic sensing array.