Gage Max FaroArm®
A New Standard in Performance and Affordability
FARO® GAGE MAX ARM 1.5
Capture accurate and complete measurements of buildings, facilities and complex environments with confidence
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The all-new FARO® Gage Max is our most affordable 3D Coordinate Measuring Machine (CMM). It is also the most accurate FaroArm ever produced, and allows for confident measurements across a wide range of industrial uses at a value that delivers a significant return on investment (ROI).
Ideal for small-size, high-accuracy tasks, the Gage Max is the most intuitive, ergonomic and versatile articulated portable CMM, enabling machine shops to meet their most demanding quality specifications. Additionally, the Gage Max minimizes clutter from traditional hand tools such as calipers, micrometers and height gauges. These traditional tools only measure a single dimension at a time. Isn’t it time to effortlessly measure in 3D?
Designed with the precision of a lab instrument and the ruggedness of a shop floor device, the Gage Max sets up in seconds, reduces inspection time and delivers quality results with exceptional flexibility, resulting in increased through put and productivity.
Reliance on hard-to-use and expensive fixed CMMs is virtually eliminated, thanks to best-in-class performance for hard probing applications. The Gage Max eliminates inspection bottlenecks, improves conventional measurement instruments, and reduces variability from one operator to another.
The Gage Max sets a new industry benchmark in compact performance and affordability, extending FARO’s tradition of maximum measurement accuracy, consistency, and reliability in every working environment.
Ideal for small-size, high-accuracy tasks, the Gage Max is the most intuitive, ergonomic and versatile articulated portable CMM, enabling machine shops to meet their most demanding quality specifications. Additionally, the Gage Max minimizes clutter from traditional hand tools such as calipers, micrometers and height gauges. These traditional tools only measure a single dimension at a time. Isn’t it time to effortlessly measure in 3D?
Designed with the precision of a lab instrument and the ruggedness of a shop floor device, the Gage Max sets up in seconds, reduces inspection time and delivers quality results with exceptional flexibility, resulting in increased through put and productivity.
Reliance on hard-to-use and expensive fixed CMMs is virtually eliminated, thanks to best-in-class performance for hard probing applications. The Gage Max eliminates inspection bottlenecks, improves conventional measurement instruments, and reduces variability from one operator to another.
The Gage Max sets a new industry benchmark in compact performance and affordability, extending FARO’s tradition of maximum measurement accuracy, consistency, and reliability in every working environment.
What's new?
Working Volume of 1.5 m (4.9 ft)
20% more reach than the previous-generation Gage
Ideal for small parts, molds, and assemblies
Ideal for small parts, molds, and assemblies
Multi-Probe Capability
Kinematic quick-release probes with automatic recognition
No need to re-calibrate when changing probes
Multiple probe sizes and length options to choose from
No need to re-calibrate when changing probes
Multiple probe sizes and length options to choose from
Internal Counterbalancing
FARO’s patented internal counterbalance technology
Allows for single-hand, fatigue-free operation
Allows for single-hand, fatigue-free operation
Ergonomic Design
Comfortable handle with simple 2-button operation
Lightweight for easy transportation and setup
6 points of articulation provide exceptional reachability
Lightweight for easy transportation and setup
6 points of articulation provide exceptional reachability
Universal Quick Mount
Compatible with a wide range of mounting options
Magnetic mounts, vacuum mounts, tripods
Offers real setup-where-you-need-it convenience
Magnetic mounts, vacuum mounts, tripods
Offers real setup-where-you-need-it convenience
Temperature & Overload Sensors
Allow the Gage Max to sense and react to thermal variations and improper handling for maximum accuracy
Powerful Software Options
Full compatibility with FARO CAM2 inspection software
Works with FaroArm compatible 3rd party software
Works with FaroArm compatible 3rd party software
Extended Battery Use (optional)
Extended Battery Use (optional)
Single or dual hot-swappable battery operation
Continuous cable-free operation without external power
Setup on-machine; where the part is made
Single or dual hot-swappable battery operation
Continuous cable-free operation without external power
Setup on-machine; where the part is made
High-Speed Wireless Operation (optional)
Cable-free operation
Inspect wirelessly via Bluetooth or Wi-Fi technology
Inspect wirelessly via Bluetooth or Wi-Fi technology
Technical specifications
All values represent MPE (Maximum Permissible Error)
* In accordance with ISO 10360-12 | 1 SPAT – Single Point Articulation Test | 2 Euni – Distance Error between two points comparing measured versus nominal values | 3 Psize – Sphere Probing Size
Error comparing measured versus nominal values | 4 Pform – Sphere Probing Form Error | 5 Ldia – Sphere Location Diameter Error (Diameter of the spherical zone containing the centers of a sphere measured from multiple orientations)
Meets OSHA requirements, NRTL TÜV SÜD C-US Listed, Complies with Electronic Code of Federal Regulations 47 CFR PART 15, 17 CFR Parts 240 and 249b – Conflict Material, 21 CFR 1040 Performance standards For Light-Emitting Products, and 10 CFR Part 430 – Department of Energy; Energy Conservation for External Power Supplies.
Complies with the following EC Directives: 93/68/EEC CE Marking; 2014/30/EU Electrical Equipment; 2014/53/EU Radio Equipment Directive; 2011/65/EU RoHS2; 2002/96/EC WEEE; 2006/66/EC WEEE; 2006/66/EC Batteries and Accumulators; 2014/35/EU Low Voltage Directive; 2009/125/EC Ecodesign requirement.
Conforms to the following standards: EN 61010-1:2010 / CSA-C22.2; EN 61326-1:2013 EMC; ETSI EN 300 328 V2.1.1; ETSI 301 489-1 V1.9.2; ETSI 301 489-17 V2.2.1; ETSI EN 62311:2008; IEEE 802.11 b/g; FCC Part 15.247 (WLAN and Bluetooth); Japanese Radio Law MPT No. 37 Ordinance (MIC classification WW); UN T1-T8; IEC 62133 2nd ed.; IEC 60825- 1:2014 ed3.0; FDA (CDRH) 21 CFR 1040.10 / ANSI Z136.1-2007; EN 50581:2012; 21 CFR 1002 (Records & Reports); 21 CFR 1010 (Performance Standards).
Shock and Vibrations Testing per International Electrotechnical Commission (IEC) Standards: IEC 60068-2-6; IEC 60068-2-64; IEC 60068-2-27 Extreme Temperature Cycling (-20°C to 60°C). Based on: IEC 60068-2-1; MIL-STD-810G; ISTA
* In accordance with ISO 10360-12 | 1 SPAT – Single Point Articulation Test | 2 Euni – Distance Error between two points comparing measured versus nominal values | 3 Psize – Sphere Probing Size
Error comparing measured versus nominal values | 4 Pform – Sphere Probing Form Error | 5 Ldia – Sphere Location Diameter Error (Diameter of the spherical zone containing the centers of a sphere measured from multiple orientations)
Meets OSHA requirements, NRTL TÜV SÜD C-US Listed, Complies with Electronic Code of Federal Regulations 47 CFR PART 15, 17 CFR Parts 240 and 249b – Conflict Material, 21 CFR 1040 Performance standards For Light-Emitting Products, and 10 CFR Part 430 – Department of Energy; Energy Conservation for External Power Supplies.
Complies with the following EC Directives: 93/68/EEC CE Marking; 2014/30/EU Electrical Equipment; 2014/53/EU Radio Equipment Directive; 2011/65/EU RoHS2; 2002/96/EC WEEE; 2006/66/EC WEEE; 2006/66/EC Batteries and Accumulators; 2014/35/EU Low Voltage Directive; 2009/125/EC Ecodesign requirement.
Conforms to the following standards: EN 61010-1:2010 / CSA-C22.2; EN 61326-1:2013 EMC; ETSI EN 300 328 V2.1.1; ETSI 301 489-1 V1.9.2; ETSI 301 489-17 V2.2.1; ETSI EN 62311:2008; IEEE 802.11 b/g; FCC Part 15.247 (WLAN and Bluetooth); Japanese Radio Law MPT No. 37 Ordinance (MIC classification WW); UN T1-T8; IEC 62133 2nd ed.; IEC 60825- 1:2014 ed3.0; FDA (CDRH) 21 CFR 1040.10 / ANSI Z136.1-2007; EN 50581:2012; 21 CFR 1002 (Records & Reports); 21 CFR 1010 (Performance Standards).
Shock and Vibrations Testing per International Electrotechnical Commission (IEC) Standards: IEC 60068-2-6; IEC 60068-2-64; IEC 60068-2-27 Extreme Temperature Cycling (-20°C to 60°C). Based on: IEC 60068-2-1; MIL-STD-810G; ISTA
EXAMETRA
ALMATY | ASTANA
3D-SCANNERS | MEASURING EQUIPMENT
SCANNING | METROLOGY | ENGINEERING
SCANNING | METROLOGY | ENGINEERING