UHP-140-GL

You are currently viewing the documentation for the latest version (2.4.1). To access a different version, click the "Switch version" button located in the upper-right corner of the page.

■ If you are not sure which version of the product you are currently using, please feel free to contact Mech-Mind Technical Support.

Physical Specifications

Model

UHP-140-GL

Dimensions

260 × 65 × 142 mm

Weight

1.9 kg

Baseline

80 mm

Light source

Blue LED (459 nm, RG2)

2D image color

Monochrome

Operating temperature

0–45°C

Operating humidity

0–85%RH, non-condensing

Storage temperature

-20–60°C

Communication interface

Gigabit Ethernet

Input

24 VDC, 3.75 A

Power

Idle: 16 W

Average: 24 W

Peak: 40 W

IP rating(1)

IP65

Cooling

Passive

Flatness tolerance for mounting surface(2)

± 0.05 mm

Vibration tolerance(3)

Sinusoidal vibration along the X-, Y-, and Z-axes, 10–57 Hz, 1.5 mm peak-to-peak value, 3 hours per axis

Shock tolerance(4)

Half sine shock pulses along the positive and negative directions of the X-, Y-, and Z-axes, 147 m/s2 (15 g), 11 ms, 3 shocks per direction, 18 shocks in total

(1) Test implemented based on IEC 60529. 6: dust-tight; 5: protected against water jets.

(2) The flatness of the surface used to mount the camera should satisfy this requirement.

(3) Test implemented based on IEC 60068-2-6.

(4) Test implemented based on IEC 60068-2-27.

Performance Specifications

Working distance

280–320 mm

Recommended working distance

280–320 mm

Object focal distance(1)

300 mm

FOV (near)

135 × 90 mm @ 0.28 m

FOV (far)

150 × 100 mm @ 0.32 m

Resolutions

2048 × 1536

Typical capture time(2),(3)

0.6–0.9 s

Recommended warm-up time(2),(4)

60 min

Point Z-value repeatability (1σ)(2),(5)

2.6 μm @ 0.3 m

Measurement accuracy (VDI/VDE)(2),(6)

0.03 mm @ 0.3 m

(1) The object focal distance of the 2D camera inside the product.

(2) Unless otherwise specified, this test was conducted under the standard test conditions.

(3) The range of time taken to acquire data using Mech-Eye Viewer in the Fast and Accurate fringe coding mode.

(4) The recommended warm-up time required to guarantee data accuracy to the listed values. For the warm-up method, refer to the user manual (The data acquisition interval is 3 s). Please adjust the warm-up time based on the actual data acquisition interval, ambient temperature, and heat-dissipation conditions.

(5) The standard deviation of the 100 measured depth values of each point on the target object was calculated, and then the median of all the standard deviations was taken. The target object was a white ceramic plate with a rough surface. The Point Cloud Processing parameters were set to Off.

(6) Test implemented with reference to VDI/VDE 2634 Part 2.

Field of View

fov uhp 140

Spatial Resolution

Capture Mode: Camera1/Camera2

spatial resolution uhp 140 1

Capture Mode: Merge

spatial resolution uhp 140 2

Point Z-Value Repeatability

point z value repeatability uhp 140

Dimensions

Unit: mm

dimensions uhp

Certifications

CE

Hereby [Mech-Mind Robotics Technologies Ltd.] declares that [UHP-140-GL] is in compliance with the Electromagnetic Compatibility Directive 2014/30/EU.

The full text of the EU Declaration of Conformity is available at https://downloads.mech-mind.com/?tab=tab-eu-dec

Standard Test Conditions

Working distance

280–320 mm

Ambient temperature

15–30°C

Ambient humidity

0–85%RH, non-condensing

Ambient light intensity

200–1000 lx

Camera parameters(1)

Exposure Time: 3D

5 ms

Exposure Mode: 2D

Flash

Gain

0 dB

Light Brightness

High

Fringe Coding Mode

Accurate

Point Cloud Processing

Outlier Removal

Normal

Noise Removal

Normal

Surface Smoothing

Normal

Tested region(2)

Length: 90% of FOV length

Width: 90% of FOV width

Position: center of FOV

(1)  Parameters not listed are set to their default values.

(2) Test data was obtained from this region.

We Value Your Privacy

We use cookies to provide you with the best possible experience on our website. By continuing to use the site, you acknowledge that you agree to the use of cookies. If you decline, a single cookie will be used to ensure you're not tracked or remembered when you visit this website.