LSG-6000 Moving Detector Goniotometer (Mirror Type C) was manufactured by LISUN completely meets LM-79-19, IES LM-80-08, COMMISSION DELEGATED REGULATION (EU) 2019/2015, CIE-121, CIE S025, SASO 2902, IS16106 and EN13032-1 clause 6.1.1.3 type 4 requirements. LSG-6000 is the latest upgraded product of LSG-5000 and LSG-3000 in compliance with the requirements of the LM-79-19 standard Clause 7.3.1, its an automatic light distribution intensity 3D curve testing system for measuring light. The darkroom can be designed according to the customerâs existing room size.
LSG-6000 gonio tometer manufacturer is LISUN, it can measure all types of lighting sources, LED, Plant Lighting or HID luminaires such as indoor and outdoor luminaires, roadway luminaires, street lamps, flood lights and other kinds of luminaires.
Measurement:Luminous Intensity Data, tometric Data, Luminous Intensity Distribution, Zonal Luminous Flux, Luminaries Efficiency, Luminance Distribution(Option), Coefficient Of Utilization, Luminance Limitation Curves Glare, Maximum Ratio of Distance to Height, Equal Illuminance Diagrams, Curves of Luminaires VS Lighting Area, Isocandela Diagrams, Efficient Luminescence Angle, EEI, UGR, etc.
Features:⢠The near field detector moves together with the big mirror in a big mirror and the far field detector move synchronously.⢠The burning position of the lumainares will be kept without moving at all, and the detector will always sense the light directly from the luminares.⢠The rotary motor is from Japan MITSUBISHI MOTORS and the angle decode system is from Germany. They help the goniotometer rotating smoothly with high accuracy. It is very stable when start and stop.⢠The working principles are according to IESNA and CIE. The LSG-6000 completely meet the LM-80, LM-79, LM-75, GB, EN and CIE121-1996 standards.⢠Special collimation device with cross laser you installing the position of the luminaires under test conveniently and accurately.
Specifications:⢠The mirror and detector rotates around the luminaire under test with an angle of (γ) vertical axis ±180° (or 0-360°) and the luminaire rotates around itself with an angle of (C) horizontal axis ±180° (or 0-360° ).⢠The accuracy of angle: 0.05°, Resolution of angle: 0.001°⢠Accuracy of Goniotometry detector: Constant temperature to detector DIN5032-6/CIE pub1. No. 69 Class L⢠LISUN goniotometer software can export CIE, IES, LDT and other format files. These kinds of format files can be used via other illumination and luminaire design software such as DiaLux.⢠Connect the goniotometer to PC via USB cable. English version software can run on Win7, Win8 or Win10, Win11⢠LSG-6000 can be used together with a CCD Spectroradiometer to test spatial CCT Distribution and other Spectral color parameters. We call this system âGoniospectroradiometer (LSG-6000CCD)â. LSG-6000CCD Goniospectroradiometer = LSG-6000 Goniotometer System  +  LPCE-2 Integrating sre Spectroradiometer System. Please click to download the LSG-6000CCD Brochure⢠The LSG-6000CCD software and hardware support the plant lighting PAR, PPF and PPFD spatial distribution test , and it can export IES/LDT files
LISUN Model | Testing Lamp Size (Diameter E* Depth F) | Measure Power (W) | Minimum darkroom height |
LSG-6000/LSG-6000CCD (Standard Size) | max Φ1600*600mm, 50kg | max 600V/10A, AC/DC | 4.1m |
LSG-6000L/LSG-6000LCCD (Super Big Size) | max Φ2000*900mm, 80kg | max 600V/10A, AC/DC | 5.2m |
LSG-6000B/LSG-6000BCCD (Big Size) | max Φ1800*800mm, 60kg | max 600V/10A, AC/DC | 4.7m |
LSG-6000S/LSG-6000SCCD (Small Size) | max Φ1200*500mm, 40kg | max 600V/10A, AC/DC | 3.0m |
The following to Detectors are optional to test UV light:
LISUN Model | TO-UVA-A | TO-UVB-A | TO-UVC-A |
Wavelength Range | UVA: 320~400nm | UVB: 275~320nm | UVC: 200~275nm |
UV tometric Test Report Sample | UVA tomectric Report | UVB tometric Report | UVC tometric Report |
to Detector Accuracy | Class A (Made by LISUN) |
Goniotometer adopts the measuring principle of fixed detector and rotating lamp method. The measuring lamp is installed on a two-dimensional rotating worktable, and the luminous center of the lamp coincides with the rotating center of the rotating worktable through the laser beam of the laser sight.Â