ECCO 85+: best price-performance, superior image quality in an industrial compact housing
The ECCO 85+ delivers an entry-level 3D sensor for applications where price and resolution are vital, for measurement and inspection tasks at up to 5 kHz scan rate. It balances cost and performance to provide 3D laser scanning for customers where previously 3D laser scanning was not a commercially viable solution.

Properties & Benefits
Typical field of view (near | mid | far ) | 34 | 36 | 38 mm |
---|---|
Measurement range | 16 mm |
Stand-off distance | 55 mm |
Typical vertical resolution (Z) | 1.4 – 1.8 µm |
Typical lateral resolution (Y) | 18 – 20 µm |
Z-Linearity |
0.006 % |
Z-Repeatability |
0.4 µm |
Weight | Approx. 550 g |
Part number | 3.002.127 (lc 2) | 3.004.127 (lc 3R) |

Maximum points / 3D profile | 1920 |
---|---|
Typical scan rate 1 | Approx. from 1 kHz up to 5 kHz (with full FOV) |
Typical 3D point rate 1 | Approx. from 1 up to 8 million points/sec |
Interface | Gigabit Ethernet ( 1 Gbit/ sec) |
Inputs | 2 x Inputs, 5 – 24 VDC Quadrature Encoder (AB-Channel, RS-422 Standard) |
Outputs | 2 x Outputs, 24 VDC (max. 20 mA) |
Trigger | The following triggers are supported: START Trigger support on Input 1 – 2 DATA Trigger support on Quadrature Encoder Input (Max. DATA trigger rate: 1 MHz) DATA Trigger support on Input 2 (Max. DATA trigger rate: 10 kHz) |
Input voltage | Power | 24 VDC, ± 15 % | 8.5 W |
Laser wavelength | 450 nm |
Laser class (standard | optional) | 2 | 3R |
Maximum ambient light | 10,000 lx |
EMC test | as per EN 61 000-6-2, EN 61 000-6-4, EN 61326-1:2013-07 |
Electrical safety | as per EN 61 010-1-3 |
Protection class | III, as per EN 61 040-3 |
Laser safety Inputs | 24 VDC | 0V |
Enclosure rating | IP65 |
Air humidity | Maximum 90%, non-condensing |
Temperature (operation | storage) | 0 – 40° C | -20 – 70° C |
Compatible accessories | Power-I/O-Encoder cable: 6.320.0XX Ethernet cable: 6.303.0XX |
Note: Typical values may vary up to ±5% due to optical and production tolerances
1 Scan rate & point rate are dependent on the configured field of view, measurement range and exposure time. A ‚scan‘ by definition considers maximum points/3D profile i.e. full FOV. The typical scan/point rate range has been estimated considering an exposure time of 1 μsec, min-max MR and full FOV. The typical scan rate can be further boosted by windowing the FOV