Vlc 1600 Datasheet — __full__

The Alerton VLC-1600 is a BACnet field controller designed for high-density input monitoring, featuring 16 universal inputs for thermistors, dry contacts, or voltage/current signals. The updated VLC-1600-E model provides 16-bit resolution and faster communication speeds, while both models operate on a 24 VAC supply for HVAC building automation systems. Read the full story at acontrols.co.za. hbt-bms-VLC-1600-E-datasheet.pdf

In the world of building automation, the VLC-1600 isn't just a part number; it’s the quiet observer of the Alerton VisualLogic family. While its siblings like the VLC-16160 are "doers" with dozens of outputs to flip switches and move valves, the 1600 is a dedicated monitoring specialist.

Here is the "deep story" of what this device actually does behind the scenes: The Nervous System of the Building

Imagine a massive skyscraper. Thousands of sensors are "breathing"—measuring the temperature of the air, the flow of water in pipes, and the CO2 levels in crowded lobbies. The VLC-1600 acts as a high-density nerve center for these signals. It features 16 universal inputs but zero control outputs. Its entire purpose is to listen, translate, and report. Technical Vital Signs

The Processor: It uses a 32-bit ARM Cortex-M4F (on newer -E models) or a Motorola AZ60 (on legacy models). This allows it to process data in 100-millisecond loops, ensuring that if a critical sensor detects a leak or a spike in pressure, the building's brain knows about it instantly.

Universal Inputs: These are the "ears" of the device. They are highly flexible and can be configured to understand: Thermistors (measuring heat)

Dry contacts (knowing if a door is open or a pump is tripped)

0-10 VDC or 4-20 mA signals (precise measurements from industrial sensors).

Memory: All its logic is stored in non-volatile flash memory, meaning if the power goes out, it doesn't "forget" what it’s supposed to be watching when it wakes back up. Why "VisualLogic"? vlc 1600 datasheet

The "VL" in VLC stands for VisualLogic, a graphical programming language used by technicians. Instead of writing lines of code, engineers "wire" together functional blocks on a screen. This makes it much easier to set up complex monitoring routines, like calculating the average temperature across 16 different rooms or detecting a "fault" when two sensors disagree. The Legacy & Transition

The VLC-1600 is part of the Honeywell Alerton BACtalk ecosystem. You'll often find it in: Central Plants: Monitoring massive chillers and boilers.

Lighting Panels: Tracking energy usage across entire floors.

Cloud Analytics: Feeding real-time data into modern energy-saving software.

Note on Discontinuation: Many standard VLC-1600 units are now listed as discontinued by Honeywell, replaced by the updated VLC-1600-E which offers better security (secure boot) and faster communication.

Are you looking to replace an existing unit, or are you programming one for a new building project? I can help you find specific wiring diagrams or configuration steps for the inputs if you'd like. VLC-1600 data sheet

Alerton VisualLogic VLC-1600 is a high-performance, BACnet-compliant field controller specifically designed as an input monitoring device

. Unlike other controllers in the VisualLogic series, the VLC-1600 is dedicated to high-density input applications and has no control outputs Technical Specifications According to the official Alerton VLC-1600 datasheet , the device features the following hardware capabilities: The Alerton VLC-1600 is a BACnet field controller

: 16 universal inputs with 10-bit resolution (upgraded to 16-bit in the VLC-1600-E variant Configurability

: Software or jumper-selectable for thermistors, dry contacts, 0–5 VDC, 0–10 VDC, or 4–20 mA signals. Pulse Support : Inputs 1–3 can accept pulse-type signals.

: 32-bit architecture (Motorola AZ60 or ARM Cortex-M4F depending on model).

: Non-volatile flash memory for program and data storage, ensuring reliability during power cycles. Internal Speed : Logical loop time of for high-speed data processing.

: 24 VAC @ 10 VA (VLC-1600) or up to 26 VA (VLC-1600-E). It utilizes a half-wave rectifier, allowing multiple units to share a single transformer. Connectivity and Integration

The VLC-1600 is a native BACnet controller, designed for seamless integration into building automation systems: : Communicates on a BACnet MS/TP LAN at speeds up to 115.2 Kbps (depending on the model). Smart Sensors : Supports intelligent wall sensors including the Microset, Microset II, and Microset 4 on Input 0. Programming : Fully programmable using Alerton’s VisualLogic graphical toolset. Physical and Environmental Attributes Dimensions : 4.90” H x 5.45” W x 1.40” D (125mm x 138mm x 36mm). Operating Limits

: Temperature range of 0–158°F (-17–70°C) with 0–95% non-condensing relative humidity. Terminations

: Removable header-type screw terminals that accept 14–24 AWG wire. Typical Applications Class 4 Laser Product – Skin and eye

Because it focuses purely on monitoring, it is often used to augment the input capabilities

of other controllers in central plant systems or lighting panels. It is a cost-effective solution for fault detection, diagnostics, and high-density process variable monitoring. or specific wiring diagrams for the universal inputs? hbt-bms-VLC-1600-E-datasheet.pdf

6.3 Free-Space Communication

In atmospheric laser comms, the 1600 nm window experiences less solar background noise compared to 1550 nm. The VLC 1600 datasheet may provide modulation bandwidth figures (typically >100 MHz with appropriate driver).

4. Mechanical Design

The mechanical construction of the VLC 1600 emphasizes durability and ease of mounting.

5.1 Classification

• Class 4 Laser Product – Skin and eye hazard from direct and scattered radiation.
• Nominal Ocular Hazard Distance (NOHD): >100 meters for a 1-inch beam (depending on collimation).

2. Electro-Optical Characteristics (T(_case) = 25°C)

This section defines how the device behaves under normal operation.

| Parameter | Test Condition | Min | Typ | Max | Unit | |-----------|----------------|-----|-----|-----|------| | Peak Wavelength (λ) | P(opt) = 1600 mW | 1590 | 1600 | 1610 | nm | | Spectral Width (FWHM) | – | – | 3 | 5 | nm | | Threshold Current (I(th)) | – | 250 | 350 | 450 | mA | | Operating Current (I(op)) | P(opt) = 1600 mW | 1800 | 2100 | 2400 | mA | | Slope Efficiency (η) | Above threshold | 0.9 | 1.1 | – | W/A | | Forward Voltage (V(F)) | I(op) | 1.8 | 2.1 | 2.5 | V | | Beam Divergence (θ(\parallel) x θ(\perp)) | FWHM | 8 x 30 | 10 x 35 | 12 x 40 | degrees |

Key takeaway: The VLC 1600 requires a stable current source capable of >2 A. The elliptical beam profile indicates the need for anamorphic optics for circularization.