BRM Pro 1600

Large Class 1 laser platform for bigger projects, structured labs, and supervised production

The BRM Pro 1600 is built for teams that need a larger enclosed laser workflow without moving out of the Pro Series Class 1 platform. It fits schools, makerspaces, design labs, technical training programs, and professional environments that need more table capacity for cutting, engraving, and fabrication.

Class 1 enclosed 1600 × 1000 mm work area USB + network 100–160 W options

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Working area 1600 × 1000 × 200 mm Large enclosed platform for larger panels, project sets, and production-oriented layouts.

Machine footprint 2200 × 1600 × 1200 mm Designed for larger laser rooms, supervised labs, and planned installation spaces.

Laser class Class 1 enclosed Built for controlled workflows in education, makerspace, and professional environments.

Why this platform

A larger enclosed BRM workflow with room to scale projects

The Pro 1600 extends the BRM Pro Series into a larger cabinet format for teams that have outgrown smaller classroom or prototype formats. It supports a broader mix of part sizes, fixture layouts, project batching, and teaching workflows while maintaining enclosed Class 1 operation.

Large 1600 × 1000 × 200 mm working area for bigger sheets, grouped parts, and expanded project setups.
USB and network connectivity options for flexible file transfer and lab integration.
Closed-loop stepper drive architecture, toothed belt positioning, and integrated visible laser pointer support day-to-day precision workflows.
Available laser power ranges from 100–130 W and 130–160 W for engraving and cutting configurations across varied materials.

Platform overview

Class 1 enclosed laser cabinet for larger learning environments and structured production

The BRM Pro 1600 is a strong match for organizations that want a larger enclosed laser system for supervised use. It gives teams more usable table area, more room for multi-part layouts, and a stronger fit for fabrication classrooms, design departments, innovation labs, and professional application spaces.

Large cabinet design

Designed for users who need the largest Pro Series work area while preserving an enclosed, structured machine format for routine operation.

Class 1 enclosed operation

Supports controlled workflows for education, training, makerspace use, and professional supervised fabrication environments.

Expanded project handling

Built for larger signage, longer engraving layouts, classroom production sets, prototyping, and fabrication across common laser-ready materials.

Workflow fit

From file setup to finished parts in a supervised enclosed workflow

The Pro 1600 is well suited for organizations that need a machine workflow that can move between education, demonstration, prototyping, and repeat part output. The larger cabinet helps teams stage more material, reduce constant reloading on larger jobs, and better organize multi-part work.

Load larger sheets

Use the larger table format for oversized material layouts, grouped student projects, or multiple production parts in one setup.

Align and position

Integrated positioning support, enclosed access, and optics options help operators prepare engraving and cutting workflows with repeatable control.

Cut or engrave

Configure power and workflow settings for engraving detail work, prototyping, signage, education projects, or general fabrication output.

Repeat with consistency

Move from one-off projects to recurring lab use, class rotation, or production-oriented tasks with a cabinet format built for routine use.

Application Media

Mixed-material examples for engraving, fabrication, and classroom-ready project work

BRM Lasers mixed material application example

BRM Lasers fabricated application example

Technical specifications

BRM Pro 1600 technical specifications

Key specifications for teams planning installation, operator workflow, room fit, throughput expectations, and material handling.

Working area WxDxH 1600 × 1000 × 200 mm

Approx. 63 × 39.4 × 7.9 in working area.

Maximum table load 200 kg

Approx. 440.9 lb maximum supported table load.

Dimensions WxDxH 2200 × 1600 × 1200 mm

Approx. 86.6 × 63 × 47.2 in machine dimensions.

Weight 575 kg

Approx. 1267.7 lb enclosed cabinet system weight.

Electrical load 2 × 230 VAC

50 Hz, max. 2.3 kW operating requirement.

Connectivity options USB + network

Supports USB cable and network connectivity.

Climate 17–23°C

Approx. 62.6–73.4°F operating environment, 50–60% humidity.

Laser class Laser class 1

Enclosed cabinet laser system for supervised environments.

Laser pointer 650 nm, <5 mW

Integrated visible positioning laser pointer.

Laser power 100–130 W / 130–160 W

Configured for cutting, engraving, and fabrication workflows.

Accuracy 0.1 mm cutting

Approx. 0.004 in cutting accuracy, 420 dpi engraving.

Max. machining speed 1500 mm/s X-axis

800 mm/s on the Y-axis, 60 mm/s maximum recommended cutting speed.

Maximum acceleration 20,000 mm/s² X-axis

4,000 mm/s² on the Y-axis.

Engine type Closed-loop stepper

Stepper motor with closed-loop feedback.

Positioning system Toothed belt

Toothed belt motion positioning system.

Standard equipment Core accessories included

Includes air pump, maintenance kit, manual, honeycomb grid cutting surface, and slat table surface.

Applications

Cut, engrave, and prototype across common classroom, makerspace, and production materials

BRM laser systems are used for practical fabrication tasks across education, signage, design, prototyping, personalization, and light production. The Pro 1600 format adds useful room for larger panels, grouped parts, and longer project layouts.

Education and makerspaces

Enclosed workflows for supervised classroom fabrication, STEM projects, training labs, technical programs, and campus makerspace environments.

Education Training labs

Material engraving

Engraving workflows across acrylic, wood, leather, coated materials, branded items, and personalization projects that benefit from a larger bed size.

Acrylic Wood Engraving

Project fabrication

Build signage, packaging inserts, prototypes, educational parts, templates, and production-ready component layouts in a structured enclosed system.

Fabrication Prototyping

Explore BRM Gallery

Planning

What to review before selecting a BRM Pro 1600 configuration

Large-format enclosed laser systems work best when space planning, power, operator flow, and material goals are reviewed early. This section helps frame the main buying and installation conversations before quote finalization.

Pre-installation priorities

Start with room dimensions, access path, electrical availability, material sizes, supervision model, and expected daily use. Because the Pro 1600 is substantially larger than entry models, physical placement and operator circulation matter more during planning.

Room fit Verify footprint clearance, service access, and operator space around a cabinet measuring 2200 × 1600 × 1200 mm.

Power Review 2 × 230 VAC requirements and coordinate with facility infrastructure before installation.

Material handling Plan for larger sheets, project batching, and table loading up to 200 kg.

User workflow Match the machine to classroom turnover, makerspace supervision, or repeat production job flow.

Buyer conversation points

What materials will be cut most often, and which jobs are primarily engraving versus cutting?
Do you need the machine mainly for education, prototyping, personalization, or recurring production-oriented work?
What is the largest part, panel, or grouped sheet layout you expect to run regularly?
Will jobs be transferred mostly through USB, shared network workflow, or both?
Do you need a system optimized around classroom supervision, multi-user operation, or one dedicated operator environment?

Video Preview

See BRM laser workflow in action

FAQ

Common questions before purchase

Who is the BRM Pro 1600 best suited for?

It is best suited for schools, makerspaces, design labs, training environments, and professional workspaces that need a larger enclosed Class 1 laser platform for supervised cutting and engraving.

What makes this model different from smaller Pro Series systems?

The main difference is capacity. The Pro 1600 gives users the largest Pro Series working area, making it a stronger fit for larger projects, grouped part layouts, and higher-throughput lab workflows.

What should buyers confirm first?

Confirm room fit, access path, electrical readiness, planned materials, workflow type, and whether the machine will support education, prototyping, fabrication, or repeat production use.

Can it support both training and production-oriented use?

Yes. The enclosed platform and larger bed format make it suitable for supervised instruction, practical lab work, demonstration environments, and structured fabrication tasks.

Next step

Plan the right BRM Pro 1600 workflow for your space

Start with your available floor space, electrical setup, material workflow, supervision model, and fabrication goals. CUTWORX USA can help match the BRM Pro 1600 to your classroom, makerspace, design lab, or production environment.