The RIEGL LD05-A10GF is a multi-purpose laser distance meter based on precise time-of-flight laser range measurement especially suited for demanding applications under critical environmental conditions (i.e. high ambient temperature, hazardous environment). It uses state-of-the-art digital signal processing to enable precise distance measurement for complex multi-target situations even under bad visibility conditions. Digitizing the echo signal and subsequent analysis enables multi-target distance measurements. The measuring system consists of an optical head meeting the requirements of the relevant application and a separate electronics box, connected by a duplex glass-fiber cable of variable length with connectors on both sides. • Electronics unit and measuring head can be mounted separately according to requirements resulting from critical environmental conditions • Further improved measurement capability in demanding situations causing poor visibility (rain, dust, fog). • Short infrared laser pulses providing excellent interference immunity • Narrow measurement beam with low divergence for excellent spatial resolution • Measurement to almost any surface regardless of the angle of incidence of the beam and the surface characteristics • Significant enhancement of the maximum range based on predetection-averaging visit our webpage www.riegl.com RIEGL LASER MEASUREMENT SYSTEMS

The LD05-A10GF can be configured for various application modes: • High Penetration Mode for complex target situations using a sequence of laser shots, providing a self-adapting (rather low) data update rate Significant enhancement of the maximum range based on Pre-Detection-Averaging • Fast Mode is a balanced mixture of the High Speed and High Penetration Modes, which provides very high data update rate • High Speed Mode for simple target situations and an extremely high data update rate Principle of Operation data i/o control / communication processor transmitter online full waveform analysis...

Technical Data LD05-A10GFPerformance Examples 1) The following conditions are assumed • target is larger than footprint of laser beam, • perpendicular angle of incidence, • visibility 10 km • typical values for average ambient brightness conditions. In bright sunlight, the operational range is considerably shorter than under an overcast sky. At dawn or at night the range is even higher. 2) Reflecting foil 3M DG4090 or equivalent, dimensions > 0.45 x 0.45 m2. 3) One sigma standard deviation @ 50 m range under RIEGL test conditions. 4) Plus distance dependent error < ± 20 ppm. 5) Accuracy is the...

Technical Data LD05-A10GF Increasing Measurement Range The measurement range can be increased by summing echo signals of multiple laser shots (pre-detection averaging) 1}. The position of the target must be stable while a measurement is executed. The following diagram shows the maximum measurement range versus pre-detection averaging value without any atmospheric attenuation. Depending on atmospheric visibility, the resulting maximum range can be further reduced. pre detection averaging value 1) The following conditions are assumed • target is larger than footprint of laser beam, • perpendicular...

Wavelength Beam divergence 1) Laser product classification according to IEC 60825-1:2014 / EN 60825-1:2014/A11:2021 INVISIBLE LASER RADIATION DO NOT EXPOSE USERS OF TELESCOPIC OPTICS CLASS 1M LASER PRODUCT The following clause applies for instruments delivered into the United States: Complies with 21 CFR 1040.10 and 1040.11 except for conformance with IEC 60825-1 Ed.3., as described in Laser Notice No. 56, dated May 8, 2019. Viewing the laser output with certain optical instruments designed for use at a distance (for example, telescopes and binoculars) may pose an eye hazard. 1) Measured at the...

Technical Data LD05-A10GFGeneral Technical Data - Electronics Unit LD05-A10GF 1) The life expectancy (MTBF) of the instrument is reduced in case of operation and/or storage at high temperatures. 2) Operating range selectable via TCP/IP port or serial interface. 3) Switching points adjustable via TCP/IP port or serial interface. Data Sheet, RIEGL LD05-A10GF, 2024-02-28 page 6 of 10

Technical Data LD05-A10GF Dimensional Drawings LD05-A10GF Data Sheet, RIEGL LD05-A10GF, 2024-02-28 page 7 of 10

Technical Data Optical HeadsRemote Optical Head MK36: case: main dimensions: weight: protection class: temperature range: aluminium, black anodized 120 x 80 x 50 mm 0.67 kg IP62 (glass fiber cables attached) -20° to +80° C (operation and storage) front view side view bottom view www.riegl.com Data Sheet, RIEGL LD05-A10GF, 2024-02-28 page 8 of 10

case: main dimensions: weight: protection class: temperature range: Technical Data Optical HeadsRemote Optical Head MK36-Z65: aluminium, black anodized (stainless steel version on request) 137 x 0 65 mm 0.4 kg IP62 (glass fiber cables attached) -20° to +80° C (operation and storage) Data Sheet, RIEGL LD05-A10GF, 2024-02-28 page 9 of 10

Technical Data Optical Heads Remote Optical Head MK36-PT: case: main dimensions: weight: protection class: temperature range: recommended air pressure: aluminium, black anodized 500 x 120 x 70 mm approx. 4.4 kg IP62 (glass fiber cables attached) -20° to +80° C (operation and storage) 2 – 4 bar Copyright RIEGL Laser Measurement Systems GmbH © 2024 – All rights reserved. Use of this data sheet other than for personal purposes requires RIEGL’s written consent. This data sheet is compiled with care. However, errors cannot be fully excluded and alternations might be necessary. Data Sheet, RIEGL LD05-A10GF,...