The document provides information about Lisun Electronics Inc., a manufacturer of lighting test instruments including high precision goniophotometers. It describes the key features and specifications of three goniophotometer models - the LSG-1800X, LSG-1800B, and LSG-1700B. The goniophotometers are designed to measure photometric parameters of various luminaires, meeting various industry standards. They can accurately measure light intensity distribution and other optical properties to support lighting design and quality control.
Rotation Luminaire Goniophotometer (Big Size)1600BLisun Group
Test intensity distribution curve in 3D & export IES files for DiaLux. Applicated with Taiwan motor and Constant Temperature Detector to keep high accuracy. Test all luminaires up to 1.6m and 40kg
LSG-1800/LSG-1700 Goniophotometer is high precision automatic goniophotometric instrument for luminous intensity distribution measurements with facility for turning the light source. The LSG-1800 is an update version for LSG-1700, the LSG-1800 use a high accuracy Motor and precision angle coder which keeps high test accuracy. It is for industrial laboratory measurements the photometric data of luminaries such as LED luminaries, HID lamps, fluorescent lamps and so on.
Rotation Luminaire Goniophotometer (Big Size)Lisun Group
This document provides information about Lisun Electronics Inc.'s high precision rotation luminaire goniophotometer (LSG-17.800B). It includes details about the system configuration, working principle, functions, specifications, laboratory requirements, typical customers, design standards, and application software. The system allows precise measurement of photometric parameters for lighting fixtures and meets various industry standards.
Near Field Moving Detector GoniophotometerLisun Group
The near field moving detector goniophotometer is fully meet LM-79 and need very small dark room size. It tests intensity distribution curve in 3D & export IES files for DiaLux. It can test max size of luminaire up to Φ300mm(diameter)*550mm(height) and 20kg
LSG-1800CCD/LSG-1700CCD Goniospectroradiometer is an automatic goniophotometric instrument for luminous intensity distribution measurements with facility for turning the light source. The LSG-1800CCD can do the spatial CCT test when do the intensity distribution test. It is for industrial laboratory measurements the photometric data of luminaires such as LED luminaries, HID lamps, fluorescent lamps and so on.
Rotation Luminaire Goniophotometer (Big Size)1600BLisun Group
Test intensity distribution curve in 3D & export IES files for DiaLux. Applicated with Taiwan motor and Constant Temperature Detector to keep high accuracy. Test all luminaires up to 1.6m and 40kg
LSG-1800/LSG-1700 Goniophotometer is high precision automatic goniophotometric instrument for luminous intensity distribution measurements with facility for turning the light source. The LSG-1800 is an update version for LSG-1700, the LSG-1800 use a high accuracy Motor and precision angle coder which keeps high test accuracy. It is for industrial laboratory measurements the photometric data of luminaries such as LED luminaries, HID lamps, fluorescent lamps and so on.
Rotation Luminaire Goniophotometer (Big Size)Lisun Group
This document provides information about Lisun Electronics Inc.'s high precision rotation luminaire goniophotometer (LSG-17.800B). It includes details about the system configuration, working principle, functions, specifications, laboratory requirements, typical customers, design standards, and application software. The system allows precise measurement of photometric parameters for lighting fixtures and meets various industry standards.
Near Field Moving Detector GoniophotometerLisun Group
The near field moving detector goniophotometer is fully meet LM-79 and need very small dark room size. It tests intensity distribution curve in 3D & export IES files for DiaLux. It can test max size of luminaire up to Φ300mm(diameter)*550mm(height) and 20kg
LSG-1800CCD/LSG-1700CCD Goniospectroradiometer is an automatic goniophotometric instrument for luminous intensity distribution measurements with facility for turning the light source. The LSG-1800CCD can do the spatial CCT test when do the intensity distribution test. It is for industrial laboratory measurements the photometric data of luminaires such as LED luminaries, HID lamps, fluorescent lamps and so on.
LSG-2000 Goniophotometer with Rotating Mirror is also called the Moving Mirror Goniophotometer. It is an automatic light distribution intensity 3D curve testing system.
LSG-1800/LSG-1700 goniophotometer is high precision automatic goniophotometeric instrument for the luminous intensity distribution measurement with facility for rotating the light source. The LSG-1800 is an update version for LSG-1700.
LISUN Near field-type-c-goniophotometer LSG-1900B世满 江
LSG-1900B Goniophotometer is near field Type C automatic goniophotometric instrument for luminous intensity distribution measurement. The LSG-1900B uses a constant temperature detector. It is for industrial laboratory photometric data measurements of small luminaires, such as down light, bulb light, etc.
LSG-5000 Moving Detector Goniophotometer completely meets LM-79 Clause 9.3.1 and EN13032-1 clause 6.1.1.3 goniophotometer type 4 requirements. The LSG-5000 is an automatic light distribution intensity 3D curve testing system for measuring light. The measuring distance is from 5m to 30m. It can measure all types of lighting sources, LED or HID luminaires such as indoor and outdoor luminaires, roadway luminaires, street lamps, flood lights and other kinds of luminaires.
This document provides information about the Lisun Electronics Inc. Moving Mirror Goniospectroradiometer (LSG-2000CCD). It can measure the spatial luminous intensity distribution, color properties, and electrical parameters of luminaires. The LSG-2000CCD meets various international photometry standards and can export data in common lighting software formats. It is suitable for measuring floodlights, street lights, and interior lights.
Lisun Electronics produces the LSG-1800CCD and LSG-1700CCD rotation luminaire goniospectroradiometers. The systems measure photometric parameters of luminaires like intensity distribution curves, luminance limitation curves, and luminous flux. They meet various industry standards. The LSG-1800CCD can test in B-Beta and C-Gamma modes while the LSG-1700CCD tests in C-Gamma mode. Both systems rotate luminaires 360 degrees horizontally and vertically to map intensity distributions.
LSG-5000 Moving Detector Goniophotometer is full meet LM-79 Clause 9.3.1 request. The tested lamp will keep burning position and be fixed, near field detector move together with the big mirror in a line, and the far field detector will move with the big mirror synchronously. The detector will always sense the light directly from the luminaries.
The document summarizes the European Commission's Eco-Design regulation for electricity transformers. It established efficiency tiers in 2015 and 2021 to reduce transformer losses and greenhouse gas emissions. By optimizing transformer designs, the regulation is expected to save 16.2 TWh of energy per year by 2025, reducing CO2 emissions by 3.7 million tons. The regulation standardized transformer types and significantly reduced the allowed losses for new transformers to meet the tiers. This led manufacturers to offer fewer, more efficient transformer models.
Equipo de medicion de contornos con software para evaluacion del perfil, se pueden medir radios, angulos, distancias, cuerdas etc.
Jenoptik Industrial Metrology
Marc van wonterghem | E-Rational - value for heatGreenbridge nv
E-RATIONAL is a division of BEP Europe that manufactures organic Rankine cycle systems for recovering waste heat from industrial processes and other sources. Some key applications mentioned in the document include recovering waste heat from aluminum production to generate 30-70kW of power, and recovering low pressure steam from a chemical plant to generate 200kW of power. The document provides details on E-RATIONAL's ORC product lines and their specifications, as well as case studies of ORC systems installed at various customer sites.
The document describes AMO GmbH's AMOSIN inductive angle measuring systems. It discusses the measuring principle, which uses inductive sensors and integrated electronics to scan precision graduations photo-lithographically etched onto steel scales. This provides high accuracy below +/-2μm arc length. The systems output 1 Vpp sine/cosine signals or RS-422 square waves and are not sensitive to environmental factors or electromagnetic interference. They can be used for applications from slow precise positioning to high-speed machine spindles.
This document summarizes the test results of an LED street lamp from Lisun Group. It provides the photometric test report, intensity distribution diagrams, average and center illuminance values at various heights, zonal flux diagram and other test details like test date, system used, and manufacturer information. The lamp was tested to have a total flux of 10659 lm, efficiency of 49.3%, and average beam angle of 112.9 degrees.
This document provides specifications for the Lisun Electronics Inc. Rotation Luminaire Goniophotometer (LSG-1600BCCD). Key details include:
- It measures photometric parameters of luminaires like intensity distribution curves and efficiency.
- Testing meets standards like CIE, IEC, IES. Angular accuracy is 0.2 degrees and photometry accuracy is Class A.
- The luminaire under test rotates ±180 degrees horizontally and ±180 degrees vertically. Intensity is measured from 0.001 to 10,000 lux.
Rotation Luminaire GoniospectroradiometerLisun Group
Test Spatial CCT and intensity distribution curve in 3D & export IES files for DiaLux. Applicated with Taiwan motor, Angle Coder and Constant Temperature Class A Detector to keep high accuracy. B-Beta & C-Gamma test for all lamps up to 1.6m and 40kg
High precision-rotation-luminaire-goniospectroradiometer世满 江
Lisun Electronics provides high-precision goniospectroradiometers for measuring the photometric properties of lighting fixtures. Their models include the LSG-1800XCCD, LSG-1800BCCD, and LSG-1700BCCD. The document provides details on the system configuration, working principle, functions, specifications, laboratory requirements, software, and applications of Lisun's goniospectroradiometer systems.
High precision-rotation-luminaire-goniospectroradiometer世满 江
LSG-1800BCCD goniophotometer is high precision automatic goniophotometric instrument for luminous intensity distribution measurement with facility for rotating the light source.
High precision-rotation-luminaire-goniospectroradiometer世满 江
LSG-1800BCCD Goniospectroradiometer is high precision automatic goniophotometric instrument for luminous intensity distribution measurements with facility for turning the light source. The LSG-1800BCCD can do the spatial CCT test when do the intensity distribution test. It is for industrial laboratory measurements the photometric data of luminaires such as LED luminaries, HID lamps, fluorescent lamps and so on.
High precision-rotation-luminaire-goniophotometer世满 江
This document provides information on Lisun Electronics Inc., including contact information for their global offices in Hong Kong, Shanghai, Los Angeles, and Hangzhou. It also summarizes the specifications and functions of Lisun's high precision rotation luminaire goniophotometers, including models LSG-1700B, LSG-1800B, and LSG-1800X. The goniophotometers are used to measure photometric parameters of luminaires like lighting distribution curves and luminaire efficiency.
This document provides a photometric test report for an LED street lamp model LED-L120W produced by Yaming Lighting Shanghai. Key details and results include:
- The lamp has a rated power of 120W, tested flux of 10,659 lm, and maximum intensity of 170.2 cd/klm.
- The average and center illuminance values are provided at various heights from 1.5m to 12m from the lamp.
- Distribution diagrams in C-planes show intensity patterns and an average beam angle of 112.9 degrees.
- Additional data includes efficiency, upward/downward light ratios, and electrical parameters.
Test intensity distribution curve in 3D & export IES files for DiaLux. Applicated with Japanese motor, Angle Coder and Constant Temperature Class A Detector to keep high accuracy. Both B-Beta & C-Gamma test for all luminaires up to 1.4m and 40kg
LSG-2000 Goniophotometer with Rotating Mirror also called the Moving Mirror Goniophotometer. The LSG-2000 is an automatic light distribution intensity 3D curve testing system. The measuring distance is from 5m to 30m. It can measure all types of lighting sources, LED or HID luminaires such as indoor and outdoor luminaires, roadway luminaires, street lamps, flood lights and other kinds of luminaires.
This document describes the Lisun Electronics Inc. LSG-2000CCD Goniophotometric system for measuring the spatial luminous intensity distribution of luminaires. The system uses a rotating mirror and photometer to measure intensity across angles in both the horizontal and vertical planes. It provides precise measurements that meet international standards for characterizing properties such as luminous flux, beam angle, and color distribution of lighting products.
LSG-2000 Goniophotometer with Rotating Mirror is also called the Moving Mirror Goniophotometer. It is an automatic light distribution intensity 3D curve testing system.
LSG-1800/LSG-1700 goniophotometer is high precision automatic goniophotometeric instrument for the luminous intensity distribution measurement with facility for rotating the light source. The LSG-1800 is an update version for LSG-1700.
LISUN Near field-type-c-goniophotometer LSG-1900B世满 江
LSG-1900B Goniophotometer is near field Type C automatic goniophotometric instrument for luminous intensity distribution measurement. The LSG-1900B uses a constant temperature detector. It is for industrial laboratory photometric data measurements of small luminaires, such as down light, bulb light, etc.
LSG-5000 Moving Detector Goniophotometer completely meets LM-79 Clause 9.3.1 and EN13032-1 clause 6.1.1.3 goniophotometer type 4 requirements. The LSG-5000 is an automatic light distribution intensity 3D curve testing system for measuring light. The measuring distance is from 5m to 30m. It can measure all types of lighting sources, LED or HID luminaires such as indoor and outdoor luminaires, roadway luminaires, street lamps, flood lights and other kinds of luminaires.
This document provides information about the Lisun Electronics Inc. Moving Mirror Goniospectroradiometer (LSG-2000CCD). It can measure the spatial luminous intensity distribution, color properties, and electrical parameters of luminaires. The LSG-2000CCD meets various international photometry standards and can export data in common lighting software formats. It is suitable for measuring floodlights, street lights, and interior lights.
Lisun Electronics produces the LSG-1800CCD and LSG-1700CCD rotation luminaire goniospectroradiometers. The systems measure photometric parameters of luminaires like intensity distribution curves, luminance limitation curves, and luminous flux. They meet various industry standards. The LSG-1800CCD can test in B-Beta and C-Gamma modes while the LSG-1700CCD tests in C-Gamma mode. Both systems rotate luminaires 360 degrees horizontally and vertically to map intensity distributions.
LSG-5000 Moving Detector Goniophotometer is full meet LM-79 Clause 9.3.1 request. The tested lamp will keep burning position and be fixed, near field detector move together with the big mirror in a line, and the far field detector will move with the big mirror synchronously. The detector will always sense the light directly from the luminaries.
The document summarizes the European Commission's Eco-Design regulation for electricity transformers. It established efficiency tiers in 2015 and 2021 to reduce transformer losses and greenhouse gas emissions. By optimizing transformer designs, the regulation is expected to save 16.2 TWh of energy per year by 2025, reducing CO2 emissions by 3.7 million tons. The regulation standardized transformer types and significantly reduced the allowed losses for new transformers to meet the tiers. This led manufacturers to offer fewer, more efficient transformer models.
Equipo de medicion de contornos con software para evaluacion del perfil, se pueden medir radios, angulos, distancias, cuerdas etc.
Jenoptik Industrial Metrology
Marc van wonterghem | E-Rational - value for heatGreenbridge nv
E-RATIONAL is a division of BEP Europe that manufactures organic Rankine cycle systems for recovering waste heat from industrial processes and other sources. Some key applications mentioned in the document include recovering waste heat from aluminum production to generate 30-70kW of power, and recovering low pressure steam from a chemical plant to generate 200kW of power. The document provides details on E-RATIONAL's ORC product lines and their specifications, as well as case studies of ORC systems installed at various customer sites.
The document describes AMO GmbH's AMOSIN inductive angle measuring systems. It discusses the measuring principle, which uses inductive sensors and integrated electronics to scan precision graduations photo-lithographically etched onto steel scales. This provides high accuracy below +/-2μm arc length. The systems output 1 Vpp sine/cosine signals or RS-422 square waves and are not sensitive to environmental factors or electromagnetic interference. They can be used for applications from slow precise positioning to high-speed machine spindles.
This document summarizes the test results of an LED street lamp from Lisun Group. It provides the photometric test report, intensity distribution diagrams, average and center illuminance values at various heights, zonal flux diagram and other test details like test date, system used, and manufacturer information. The lamp was tested to have a total flux of 10659 lm, efficiency of 49.3%, and average beam angle of 112.9 degrees.
This document provides specifications for the Lisun Electronics Inc. Rotation Luminaire Goniophotometer (LSG-1600BCCD). Key details include:
- It measures photometric parameters of luminaires like intensity distribution curves and efficiency.
- Testing meets standards like CIE, IEC, IES. Angular accuracy is 0.2 degrees and photometry accuracy is Class A.
- The luminaire under test rotates ±180 degrees horizontally and ±180 degrees vertically. Intensity is measured from 0.001 to 10,000 lux.
Rotation Luminaire GoniospectroradiometerLisun Group
Test Spatial CCT and intensity distribution curve in 3D & export IES files for DiaLux. Applicated with Taiwan motor, Angle Coder and Constant Temperature Class A Detector to keep high accuracy. B-Beta & C-Gamma test for all lamps up to 1.6m and 40kg
High precision-rotation-luminaire-goniospectroradiometer世满 江
Lisun Electronics provides high-precision goniospectroradiometers for measuring the photometric properties of lighting fixtures. Their models include the LSG-1800XCCD, LSG-1800BCCD, and LSG-1700BCCD. The document provides details on the system configuration, working principle, functions, specifications, laboratory requirements, software, and applications of Lisun's goniospectroradiometer systems.
High precision-rotation-luminaire-goniospectroradiometer世满 江
LSG-1800BCCD goniophotometer is high precision automatic goniophotometric instrument for luminous intensity distribution measurement with facility for rotating the light source.
High precision-rotation-luminaire-goniospectroradiometer世满 江
LSG-1800BCCD Goniospectroradiometer is high precision automatic goniophotometric instrument for luminous intensity distribution measurements with facility for turning the light source. The LSG-1800BCCD can do the spatial CCT test when do the intensity distribution test. It is for industrial laboratory measurements the photometric data of luminaires such as LED luminaries, HID lamps, fluorescent lamps and so on.
High precision-rotation-luminaire-goniophotometer世满 江
This document provides information on Lisun Electronics Inc., including contact information for their global offices in Hong Kong, Shanghai, Los Angeles, and Hangzhou. It also summarizes the specifications and functions of Lisun's high precision rotation luminaire goniophotometers, including models LSG-1700B, LSG-1800B, and LSG-1800X. The goniophotometers are used to measure photometric parameters of luminaires like lighting distribution curves and luminaire efficiency.
This document provides a photometric test report for an LED street lamp model LED-L120W produced by Yaming Lighting Shanghai. Key details and results include:
- The lamp has a rated power of 120W, tested flux of 10,659 lm, and maximum intensity of 170.2 cd/klm.
- The average and center illuminance values are provided at various heights from 1.5m to 12m from the lamp.
- Distribution diagrams in C-planes show intensity patterns and an average beam angle of 112.9 degrees.
- Additional data includes efficiency, upward/downward light ratios, and electrical parameters.
Test intensity distribution curve in 3D & export IES files for DiaLux. Applicated with Japanese motor, Angle Coder and Constant Temperature Class A Detector to keep high accuracy. Both B-Beta & C-Gamma test for all luminaires up to 1.4m and 40kg
LSG-2000 Goniophotometer with Rotating Mirror also called the Moving Mirror Goniophotometer. The LSG-2000 is an automatic light distribution intensity 3D curve testing system. The measuring distance is from 5m to 30m. It can measure all types of lighting sources, LED or HID luminaires such as indoor and outdoor luminaires, roadway luminaires, street lamps, flood lights and other kinds of luminaires.
This document describes the Lisun Electronics Inc. LSG-2000CCD Goniophotometric system for measuring the spatial luminous intensity distribution of luminaires. The system uses a rotating mirror and photometer to measure intensity across angles in both the horizontal and vertical planes. It provides precise measurements that meet international standards for characterizing properties such as luminous flux, beam angle, and color distribution of lighting products.
Lisun Goniospectroradiometer with Moving Mirror can test luminaries rotating in the presscribed burning position and around the vertical axle and a reflecting mirror rotates around the horizontal axle, meanwhile, a synchronous axle will rotate toward the opposite direction synchronously.
Lisun Electronics provides a brochure describing their LSG-2000CCD Goniospectroradiometer with Moving Mirror system. The system measures the spatial luminous intensity distribution of luminaires and includes a goniometric rotating console, high reflective moving mirror, photometer, and software. It meets various international standards for goniophotometric testing of luminaires.
This document provides information about Lisun Electronics Inc., a manufacturer of lighting and electrical test instruments. It includes contact information for Lisun's global offices in Hong Kong, Shanghai, and Los Angeles. The document then describes Lisun's LSG-2000 Goniophotometer with Moving Mirror system for measuring the light distribution of luminaires. Key features and specifications of the system are listed, along with laboratory requirements and typical customers. Measurement principles, functions, and an example test report are also summarized.
Lisun Electronics provides lighting test instruments including a moving detector goniospectroradiometer (LSG-5000CCD) for measuring the spatial luminous intensity distribution and other photometric parameters of luminaires. The LSG-5000CCD system rotates a luminaire and detects light with two moving mirrors and a detector to directly measure light from the luminaire. It can test in accordance with various lighting standards and export data for use in lighting design software.
LSG-5000 CCD Moving Detector Goniophotometer is full meet LM-79 Clause 9.3.1 request. The tested lamp will keep burning position and be fixed, near field detector move together with the big mirror in a line, and the far field detector will move with the big mirror synchronously. The detector will always sense the light directly from the luminaries.
This document provides information on Lisun Electronics Inc., including contact information for their global offices in Hong Kong, Shanghai, and Los Angeles. It also describes Lisun's Near Field Type C Goniophotometer (LSG-1900B) and provides specifications and test results for the device. The goniophotometer is used to measure the photometric parameters of luminaires, such as spatial intensity distribution curves.
LSG-1900B Goniophotometer is high precision auto matic goniophotometric instrument for luminous intensity distribution measurements with facility for turning the light source. The LSG-1900B use a constant temperature detector Japanese Motor which keeps high test accuracy. It is for industrial laboratory measurements the photometric data of luminaires.
Lisun Electronics Inc. provides lighting and electrical test instruments including a Rotation Luminaire Goniospectroradiometer. The quotation includes a goniometric rotating console, control instruments, photometer, detectors, software, spectroradiometer, tripod, standard lamp, power sources, power meter, and carrying case. The system measures photometric parameters of luminaires such as intensity distribution and flux. It meets various industry standards.
The document provides information about the Lisun Electronics Inc. Moving Detector Goniophotometer (LSG-5000), including:
1. The LSG-5000 can precisely measure the spatial light distribution of luminaires and provides photometric test results.
2. It has components like a rotating console, moving mirror, and photometer that allow testing of luminaires from 0-360 degrees.
3. Test results include luminous intensity, efficiency, and distribution that meet various international standards.
Similar to LISUN High precision-rotation-luminaire-goniophotometer LSG-1800B (20)
This document provides information about the Xenon lamp aging test Chamber (XD-80LS) produced by Lisun Electronics Inc. It includes contact information for Lisun's global offices, a description of the chamber's components and capabilities, such as its ability to control temperature, humidity, and simulate sunlight. Specifications of the chamber such as its size, temperature and humidity ranges, and power requirements are also listed.
Lisun Electronics Inc. is a leader in lighting and electrical test instruments with global offices in Hong Kong, Shanghai, Los Angeles, and Hangzhou. The document describes Lisun's Water Pressure Test Apparatus (WPD-A) which is used to pressure test water storage type water heaters in compliance with IEC60335/GB4706.12 standards. The WPD-A features a 900L water storage tank, temperature control from 5-85°C, pressure testing up to 2.5MPa controlled automatically via PLC and interface. It includes stainless steel and aluminum construction, power and control systems, flow and pressure sensors, and touch screen interface.
The document is a brochure for the UV-263LS UV aging test chamber manufactured by Lisun Electronics Inc. It describes the features and specifications of the chamber, which is designed to evaluate how materials hold up under simulated sunlight and other weather conditions. Key details include its internal dimensions, temperature and humidity ranges, UV lamp specifications, sample holder sizes, and automatic controls for temperature, lighting, condensation, and spraying cycles. Safety devices and features of the heating, humidity, and temperature control systems are also outlined.
The document is a brochure for the JL-UL UL Water Spray Test Device produced by Lisun Electronics Inc. It describes the device as testing electrical and electronic products under simulated rainy conditions according to UL standards. The device consists of three nozzles above and one nozzle below to test for UL rain and 45-degree sprinkler conditions. It provides specifications such as dimensions, adjustable height range, number of nozzles, flow rates, and pressure requirements.
This brochure describes the Thermal Resistance & Spectroradiometer System for LED (TRS-1000) from Lisun Electronics Inc. The TRS-1000 allows for integrated testing of optical, color, electrical, and thermal parameters of LEDs. It monitors parameters like junction temperature, thermal resistance, chromaticity, and luminous flux in real-time as temperature is varied from 5-90°C. The system configuration includes an LED spectroradiometer, thermal and electrical performance analyzer, temperature control device, standard light source, and integrating sphere.
Lisun Electronics Inc. is a leader in lighting and electrical test instruments. The document provides information on test corners, which are used for temperature rise testing. It lists the technical specifications of the test corners including dimensions, thermocouple details, temperature measuring points, and materials. Basic configuration and installation/operation instructions are also included.
Lisun Electronics produces a line of spectrophotometers under the HSCD series for measuring color. The brochure provides contact and location information for Lisun's global offices and factories. It also summarizes the key features and technical specifications of the HSCD spectrophotometer models, including their measurement capabilities, sensors, color indicators, repeatability, and optional accessories.
This document is a brochure for Lisun Electronics Inc. that describes their line of spectral colorimeters. It provides contact and location information for Lisun's global offices in Hong Kong, Shanghai, and Los Angeles. The brochure then describes the technical specifications and features of four models of spectral colorimeters - SCD-380, SCD-385, SCD-386, and SCD-388. It provides details on their illumination sources, sensors, measurement capabilities, data storage and display options, and other technical details.
Lisun Electronics provides a full suite of lighting test instruments including a scientific grade CCD spectroradiometer, integrating spheres, power supplies, and software. The document describes the company's spectroradiometer, optical fibers, power supplies, power meters, AC power sources, integrating spheres, standard lamp sources, and cabinet options for creating a complete LED testing system.
Lisun Electronics Inc. is a leader in lighting and electrical test instruments with global offices in Hong Kong, Shanghai, Los Angeles, and Hangzhou. The document describes Lisun's Energy Dispersive X-ray Fluorescence Spectrometer (EDX-2) which can detect and analyze over 75 chemical elements and fully meet the RoHS testing requirements to restrict pollution from electronic waste. The 6-page brochure provides specifications, installation instructions, operating procedures, and an example test report for the EDX-2.
This document is a brochure for Lisun Electronics Inc. that provides information about their portable CCD spectroradiometer product line. It lists contact information for their global offices in Hong Kong, Shanghai, and Los Angeles. It then describes the key features and specifications of their LMS-6000 series of devices that can measure parameters like illuminance, color temperature, chromaticity coordinates, and spectral distributions. It provides example interface screenshots and an example test report output.
This document provides information about Lisun Electronics Inc., a leader in lighting and electrical test instruments. It includes contact information for Lisun Group's global offices in Hong Kong, Shanghai, Los Angeles, and Hangzhou. The second page describes the CHL-5LED Phosphor Relative Brightness Tester, which tests the phosphor relative brightness and forward voltage of LED light sources. It lists the tester's specifications, working principles, and provides a diagram of the testing process.
Lisun Electronics Inc. is a leader in lighting and electrical test instruments with global offices in Hong Kong, Shanghai, Los Angeles, and Hangzhou. The brochure describes the Oxygen Bomb (YD-KD) aging tester, which tests wire, cable, rubber, and polymer materials under pressure and temperature conditions in oxygen or compressed air. The Oxygen Bomb has a maximum working pressure of 4.0MPa, safety blasting pressure of 2.7-3.3MPa, temperature range of 0-200°C, and tank volume of 4000cm3. It meets the testing requirements of IEC60335-1.
Lisun Electronics provides an optical radiation safety test system that measures the safety of lighting and electrical devices according to international standards. The system includes a spectroradiometer, retinal radiance meter, motorized goniometer, calibration sources, and software. It tests for hazards like UV exposure, blue light, and thermal radiation from 200-3000nm. The system identifies maximum exposures and classifies products' safety levels.
The document is a brochure for Lisun Electronics Inc. that provides information about their LSG-3000CCD Moving Detector Goniospectroradiometer system. It includes specifications for the system such as measurement capabilities, accuracy standards, and laboratory requirements. It also lists contact information for Lisun Electronics' global offices and describes features of the system like measurement principles and data output formats.
The document provides information on the Lisun Electronics Inc. LSG-3000 Moving Detector Goniophotometer system for measuring the spatial distribution of luminous intensity of luminaires. The system meets various industry standards and can test luminaires such as floodlights, street lights, and interior lights. It provides measurement of photometric properties such as luminous intensity, illuminance, luminance, beam angles, and luminous flux.
Lisun Electronics provides a brochure describing their LSG-5000 Moving Detector Goniophotometer system for measuring the photometric properties of luminaires. The system includes a goniometric rotating console, photometer, software and various accessories. It is capable of measuring properties such as luminous intensity distribution, beam angles, efficiency and more in accordance with various international standards. The document provides details on system components, measurement principles, specifications, laboratory requirements and applications.
The brochure describes Lisun Electronics Inc., a leader in lighting and electrical test instruments, and their UV Lamp Test System which uses a high precision UV spectroradiometer, dark testing case, and other accessories to test the spectrum, radiant power, efficiency, color rendering index, correlated color temperature, and electric parameters of UV lamps. The system provides testing of UV lamps' spectral power distribution, radiant irradiance, peak wavelength, half bandwidth, UVA, UVB, and UVC output as well as the lamp's voltage, current, power, and power factor. An example test report is also included showing results for a sample
Lisun Electronics produces LED power driver test instruments including the WT2080. The WT2080 can measure input/output characteristics of LED drivers including voltage, current, power, power factor, harmonics, and startup characteristics. It tests according to industry standards and is used with other Lisun test equipment. The document provides details on the WT2080 specifications, functions, and an example test report showing results from testing an LED driver.
The document is a test report from Lisun Electronics evaluating the lumen maintenance and color stability of white LED samples from OSRAM Lighting over 6,000 hours of operation. Key findings include:
- The samples maintained over 96% of their initial lumen output after 6,000 hours and were predicted to reach L70 and L50 ratings of over 33,000 hours based on TM-21 projections.
- Chromaticity shift was small, within a du'v' range of -0.0001 to 0.0018 over the test period.
- No sample failures occurred and performance was stable under the test conditions of 55°C case temperature and 6,000 hour duration.
Digital Marketing Trends in 2024 | Guide for Staying AheadWask
https://www.wask.co/ebooks/digital-marketing-trends-in-2024
Feeling lost in the digital marketing whirlwind of 2024? Technology is changing, consumer habits are evolving, and staying ahead of the curve feels like a never-ending pursuit. This e-book is your compass. Dive into actionable insights to handle the complexities of modern marketing. From hyper-personalization to the power of user-generated content, learn how to build long-term relationships with your audience and unlock the secrets to success in the ever-shifting digital landscape.
This presentation provides valuable insights into effective cost-saving techniques on AWS. Learn how to optimize your AWS resources by rightsizing, increasing elasticity, picking the right storage class, and choosing the best pricing model. Additionally, discover essential governance mechanisms to ensure continuous cost efficiency. Whether you are new to AWS or an experienced user, this presentation provides clear and practical tips to help you reduce your cloud costs and get the most out of your budget.
Trusted Execution Environment for Decentralized Process MiningLucaBarbaro3
Presentation of the paper "Trusted Execution Environment for Decentralized Process Mining" given during the CAiSE 2024 Conference in Cyprus on June 7, 2024.
TrustArc Webinar - 2024 Global Privacy SurveyTrustArc
How does your privacy program stack up against your peers? What challenges are privacy teams tackling and prioritizing in 2024?
In the fifth annual Global Privacy Benchmarks Survey, we asked over 1,800 global privacy professionals and business executives to share their perspectives on the current state of privacy inside and outside of their organizations. This year’s report focused on emerging areas of importance for privacy and compliance professionals, including considerations and implications of Artificial Intelligence (AI) technologies, building brand trust, and different approaches for achieving higher privacy competence scores.
See how organizational priorities and strategic approaches to data security and privacy are evolving around the globe.
This webinar will review:
- The top 10 privacy insights from the fifth annual Global Privacy Benchmarks Survey
- The top challenges for privacy leaders, practitioners, and organizations in 2024
- Key themes to consider in developing and maintaining your privacy program
Generating privacy-protected synthetic data using Secludy and MilvusZilliz
During this demo, the founders of Secludy will demonstrate how their system utilizes Milvus to store and manipulate embeddings for generating privacy-protected synthetic data. Their approach not only maintains the confidentiality of the original data but also enhances the utility and scalability of LLMs under privacy constraints. Attendees, including machine learning engineers, data scientists, and data managers, will witness first-hand how Secludy's integration with Milvus empowers organizations to harness the power of LLMs securely and efficiently.
Skybuffer AI: Advanced Conversational and Generative AI Solution on SAP Busin...Tatiana Kojar
Skybuffer AI, built on the robust SAP Business Technology Platform (SAP BTP), is the latest and most advanced version of our AI development, reaffirming our commitment to delivering top-tier AI solutions. Skybuffer AI harnesses all the innovative capabilities of the SAP BTP in the AI domain, from Conversational AI to cutting-edge Generative AI and Retrieval-Augmented Generation (RAG). It also helps SAP customers safeguard their investments into SAP Conversational AI and ensure a seamless, one-click transition to SAP Business AI.
With Skybuffer AI, various AI models can be integrated into a single communication channel such as Microsoft Teams. This integration empowers business users with insights drawn from SAP backend systems, enterprise documents, and the expansive knowledge of Generative AI. And the best part of it is that it is all managed through our intuitive no-code Action Server interface, requiring no extensive coding knowledge and making the advanced AI accessible to more users.
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
Programming Foundation Models with DSPy - Meetup SlidesZilliz
Prompting language models is hard, while programming language models is easy. In this talk, I will discuss the state-of-the-art framework DSPy for programming foundation models with its powerful optimizers and runtime constraint system.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
Let's Integrate MuleSoft RPA, COMPOSER, APM with AWS IDP along with Slackshyamraj55
Discover the seamless integration of RPA (Robotic Process Automation), COMPOSER, and APM with AWS IDP enhanced with Slack notifications. Explore how these technologies converge to streamline workflows, optimize performance, and ensure secure access, all while leveraging the power of AWS IDP and real-time communication via Slack notifications.
Letter and Document Automation for Bonterra Impact Management (fka Social Sol...Jeffrey Haguewood
Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on automated letter generation for Bonterra Impact Management using Google Workspace or Microsoft 365.
Interested in deploying letter generation automations for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
GraphRAG for Life Science to increase LLM accuracyTomaz Bratanic
GraphRAG for life science domain, where you retriever information from biomedical knowledge graphs using LLMs to increase the accuracy and performance of generated answers
Monitoring and Managing Anomaly Detection on OpenShift.pdfTosin Akinosho
Monitoring and Managing Anomaly Detection on OpenShift
Overview
Dive into the world of anomaly detection on edge devices with our comprehensive hands-on tutorial. This SlideShare presentation will guide you through the entire process, from data collection and model training to edge deployment and real-time monitoring. Perfect for those looking to implement robust anomaly detection systems on resource-constrained IoT/edge devices.
Key Topics Covered
1. Introduction to Anomaly Detection
- Understand the fundamentals of anomaly detection and its importance in identifying unusual behavior or failures in systems.
2. Understanding Edge (IoT)
- Learn about edge computing and IoT, and how they enable real-time data processing and decision-making at the source.
3. What is ArgoCD?
- Discover ArgoCD, a declarative, GitOps continuous delivery tool for Kubernetes, and its role in deploying applications on edge devices.
4. Deployment Using ArgoCD for Edge Devices
- Step-by-step guide on deploying anomaly detection models on edge devices using ArgoCD.
5. Introduction to Apache Kafka and S3
- Explore Apache Kafka for real-time data streaming and Amazon S3 for scalable storage solutions.
6. Viewing Kafka Messages in the Data Lake
- Learn how to view and analyze Kafka messages stored in a data lake for better insights.
7. What is Prometheus?
- Get to know Prometheus, an open-source monitoring and alerting toolkit, and its application in monitoring edge devices.
8. Monitoring Application Metrics with Prometheus
- Detailed instructions on setting up Prometheus to monitor the performance and health of your anomaly detection system.
9. What is Camel K?
- Introduction to Camel K, a lightweight integration framework built on Apache Camel, designed for Kubernetes.
10. Configuring Camel K Integrations for Data Pipelines
- Learn how to configure Camel K for seamless data pipeline integrations in your anomaly detection workflow.
11. What is a Jupyter Notebook?
- Overview of Jupyter Notebooks, an open-source web application for creating and sharing documents with live code, equations, visualizations, and narrative text.
12. Jupyter Notebooks with Code Examples
- Hands-on examples and code snippets in Jupyter Notebooks to help you implement and test anomaly detection models.
System Design Case Study: Building a Scalable E-Commerce Platform - Hiike
LISUN High precision-rotation-luminaire-goniophotometer LSG-1800B
1. High Precision
Rotation Luminaire Goniophotometer
(LSG-1700B/LSG-1800B/LSG-1800X)
Brochure
Global Office of Lisun Electronics Inc.
http://www.Lisungroup.com
Lisun Group (Hong Kong) Limited
Add: Room C, 15/F Hua Chiao Commercial Center, 678 Nathan Road, Mongkok, Kowloon,
Hong Kong
Tel: 00852-68852050 Fax: 00852-30785638
Email: SalesHK@Lisungroup.com
Lisun Electronics (Shanghai) Co., Ltd
Add: 113-114, No. 1 Building, Nanxiang Zhidi Industry Park, No. 1101, Huyi Road, Jiading
District, Shanghai, 201802, China
Tel: +86(21)5108 3341 Fax: +86(21)5108 3342
Email: SalesSH@Lisungroup.com
Lisun Sales Rep Office (USA)
Add: 445 S. Figueroa Street, Los Angeless, CA 90071, U.S.A.
Email: Sales@Lisungroup.com
Lisun China Factory
Add: NO. 37, Xiangyuan Road, Hangzhou City, Zhejiang Province, China
Tel: +86-189-1799-6096
Email: Engineering@Lisungroup.com
Lead in CFL & LED Test Instruments
Global Office of Lisun Electronics Inc.
http://www.Lisungroup.com
Lisun Group (Hong Kong) Limited
Add: Room C, 15/F Hua Chiao Commercial Center, 678 Nathan Road, Mongkok, KL, HK
Tel: 00852-68852050 Fax: 00852-30785638
Email: SalesHK@Lisungroup.com
Lisun Electronics (Shanghai) Co., Ltd
Add: 113-114, No. 1 Building, Nanxiang Zhidi Industry Park, No. 1101, Huyi Road, Jiading
District, Shanghai, 201802, China
Tel: +86(21)5108 3341 Fax: +86(21)5108 3342
Email: SalesSH@Lisungroup.com
Lisun Electronics Inc. (USA)
Add: 445 S. Figueroa Street, Los Angeless, CA 90071, U.S.A.
Email: Sales@Lisungroup.com
Lisun China Factory
Add: NO. 37, Xiangyuan Road, Hangzhou City, Zhejiang Province, China
Tel: +86-189-1799-6096
Email: Engineering@Lisungroup.com
Lead in CFL & LED Test Instruments
Rev. 2/21/2019
2. Lisun Electronics Inc. Sales@Lisungroup.com www.Lisungroup.com
-Page 1 -
1. System Configuration
A. Goniophotometric System:
Goniometric Rotating Console:
1) LSG-1800X/LSG-1800B: Japanese Mitsubishi Motor and German Angle
encoder System to keep the test accuracy to 0.1degree
2) LSG-1700B: Taiwan Motor and Angle encoder System to keep the test
accuracy to 0.2degree
The LSG-1800X/LSG-1800B has Goniometric Rotating Control Instrument in
19inch cabinet: It connects to the PC and was controlled by the software.
The LSG-1800X/LSG-1800B has Goniometric Rotating Control Instrument in dark
room: This can allow the customer to control the rotating in the dark room when
install the lumainires but no need to control in the PC.
Double Channel & High Precision Photometer
Class A Constant Temperature Photo Detector (Option is Class L)
Cross-beam Laser System for Calibrating
English Measuring Software
Two sets of luminaries Clamps: multi-functions
Oversea Delivery and Packing: all of the instruments and accessories will be
packed with Fumigation free three plywood, include the delivery cost to Shanghai
sea port
B. SLS-150W DC Standard Light Intensity Lamp
C. Digital Power Meter:
1) LSG-1800X/LSG-1800B has LS2010 Digital Power Meter: High Accuracy to
measure AC voltage, current, power and PF, also measure harmonic.
2) LSG-1700B has LS2012 Digital Power Meter: High Accuracy to measure AC
and DC voltage, current, power and PF
D. DC3010 CC & CV DC Power Source: DC3010 output is 30V/10A, Option can be
DC6010 (output is 60V/10A) and DC12010 (output is 120V/10A)
E. AC Power Source: communicate with PC via software
1) LSG-1800X/LSG-1800B has LSP-1KVAS AC Power Source
2) LSG-1700B has LSP-500VAS AC Power Source
F. CASE-19IN 19inch Standard Instruments Cabinet.
Full View for High Precision Rotation Luminaire Goniophotometer
Note: PC and Printer prepared by the customer (request at least two USB ports)
2. Working Principle
Goniophotometric System carries out measuring methods of fixed location and rotating
3. Lisun Electronics Inc. Sales@Lisungroup.com www.Lisungroup.com
-Page 2 -
luminaires. The measured luminaire is installed on the rotating supported, the center of which
is in line with the rotating supporter center with the help of Laser sight. The fixed photometry
detector is testing the luminous intensity in various horizontal directions, while the light source
rotating. The mechanical equipment allows turning the tested luminaires around a vertical axis
and a horizontal axis. When tested luminaires turn around horizontal axis, the detector which is
at the same level with rotating table will measure the intensity of each direction at this surface.
When rotating with vertical axis, the detector will measure the intensity at the vertical surface.
The vertical and horizontal axis can be rotated continuously at -180°~ +180°. According to
the measurement requirements, the system can be operated in B-β, A-α and C-γ
coordinates. When getting intensity distribution data, computer will calculate other
photometric parameters automatically.
Double pillars structure (B-β, A-α coordinate system)
This type is applied to fixed grille lamp. The symmetry axis of lamp and the horizontal of
rotating supporter is coaxial, in the B-β coordinate system, and the two is vertical Cross, in
the A-α coordinate system.
Single pillar structure (C-γcoordinate and Conic coordinate)
The single column structure will be gotten when the assistant column is taken down from
double columns structure. This type is applied to fixed tube lamp, spot lamp etc. The axis
radiation of lamp and the horizontal of rotating supporter is coaxial.
3. System Functions
LSG-1800X/LSG-1800B/LSG-1700B Goniophotometer is high precision automatic
4. Lisun Electronics Inc. Sales@Lisungroup.com www.Lisungroup.com
-Page 3 -
goniophotometric instrument for luminous intensity distribution measurements with facility for
turning the light source. The LSG-1800B use a constant temperature detector, Japanese Motor
and Germany precision angle coder which keeps high test accuracy. It is for industrial
laboratory measurements the photometric data of luminaires.
Be utilized to measure photometric parameters of luminaires for LED road lighting fixture, room
lighting fixture and projecting lighting fixture, such as spatial intensity distribution curve, spatial
iso-intensity curve, intensity distribution curve on each section (represent by right-angled
coordinates or polar coordinates, luminance limitation curve, luminaire efficiency, glare grade,
effective beam angle, upward luminous flux ratio, downward luminous flux ratio, total luminous
flux, effective luminous flux, utilization factor and electric parameters voltage, current, wattage,
power factor and etc. The measured data meets IES standard format and can be applied for
lighting design by lighting design software. The measurement system fully satisfies the
requirement of lighting design work.
4. Specifications
Meets the requirements of CIE, IEC, IES LM-79 & GB standards
5. Lisun Electronics Inc. Sales@Lisungroup.com www.Lisungroup.com
-Page 4 -
Reaching many measurement ways such as B-βand C-γ
The tested luminaries rotates around an angle of (γ)±180°(or 0-360°) and the tested
luminaries rotates around itself with an angle of (C)±180°(or 0-360°)
Luminosity Testing Range: Illuminance 0.001lx~99,999lx; Light Intensity 1.0cd ~
107
cd(detector)
Angle accuracy: LSG-1800X/LSG-1800B is 0.1°, LSG-1700B is 0.2°
Photometry Accuracy: CIE Class A (Class L is option)
Testing Accuracy: 2%(Under Standard lamp); Stray Light: less than 0.1%
English version software can run in Win7, Win8 or Win10
5. Laboratory Requirements
Room Requirements according to CIE
Model Dark Room (W*H*L) Operation Room(W*L)
LSG-1800X 4*4*15~30m 3*3m
LSG-1800B 4*2.5*8~30m 3*3m
LSG-1700B 3*2.5*8~30m 3*3m
The wall, ceiling and floor should be all coated with dull black paint or be covered by black
cloth and black carpet.
Air-conditioner should be set in the dark room to control the temperature around lamps to
the standard value upon the CIE requirements
LISUN engineer dept will submit the Lab Design support documents according to the
customer’s lab size after the formal purchase order was confirmed
6. Typical oversea market customers:
---------------------------------------------------------------------------------------------------
There are many world famous companies and lab institute choose Lisun Goniophtometer,
Model Number
The max size for the Testing Lamp(Unit: mm)
Max
WeightC-Gamma Test with one Pillar B-Beta Test with two Pillars
LSG-1800X ∅2500×550(Diameter*Depth) 700*600(Length*Width) 60kg
LSG-1800B ∅1600×550(Diameter*Depth) 700*600(Length*Width) 50kg
LSG-1700B ∅1600×550(Diameter*Depth) 700*600(Length*Width) 40kg
6. Lisun Electronics Inc. Sales@Lisungroup.com www.Lisungroup.com
-Page 5 -
Please get the reference customers’ information from Lisun Group Oversea Sales Dept.
7. Design Standard of Device
The construction, technical parameter, test & operate steps as well as data processing software
of goniophotometer meet the following requirements:
3.1 CIE Pub. NO.70,”The Measurement of Absolute Luminous Intensity Distributions”
3.2 CIE D IV.Ⅱ-TC10,”Photometry of Luminaires”
3.3 IES LM-35-1989,”IES Approved Method for Photometric Testing of Floodlights”
3.4 IES LM-31,”IES Approved Method for Photometric Testing of Roadway Luminaires”
3.5 IES-LM-79, “Electrical and Photometric Measurements of Solid-State Lighting”
3.6 GB/T 7002-1986,“Luminosity Test of Flood Luminaires”
3.7 GB/T 9467-1988, “Luminosity Test of Indoor Luminaires”
3.8 GB/T 9468-1988, “Luminosity Test of Street Luminaires”
3.9 IES 61341 “Method of Measurement of Center Beam Intensity and Beam Angle(s) of
Reflector Lamp”
3.10 CIE Pub.NO.76, “Photometry-the CIE System of Physical Photometry”
8. Application Software
All control of the goniophotometer operations can be realized by the software, including
gonophotometer movement, data acquisition and processing, real-time display on screen,
report print and etc, thus enabling the measurement easy and secure.
This system can export data files as following formats:
This kind of format files can be transferred by other illumination and luminaire design software
such as DiaLux
Application software can also implement essential calculation for lighting design as
iso-illuminance distribution curve on a working plane, luminance limitation curve, luminaire
efficiency, effective beam angle, upward luminous flux ratio, downward luminous flux ratio,
effective luminous flux, utilization factor curve etc.
The Next Page is the Test Report by software
7. Lisun Electronics Inc.
http://www.Lisungroup.com
Tel: +86(21)51083341
Fax: +86(21)51083342 Page 1 of 28 Pages
Report No.: LS1127 Test Time: 2017-08-31 13:12
Luminaire Property
Luminaire Manufacturer: W.K.LIGHTING
Luminaire Category: WK-71-83-8077-85-IP65
Lamp Catalog: LUMINUS Lamp Description: Philips
Number of Lamps: 1 Lumens per Lamp: 700
Luminous Length (mm): 8.5 Luminous Width (mm): 8.5
Luminous Height (mm): 12 Voltage: 220.6 V
Current: 0.071 A Power: 8.69 W
Power Factor: 0.559
Photometric Results
CIE Class: Direct Total Rated Lamp Lumens: 700.0 lm
Measurement Flux: 641.8 lm Efficiency: 91.69%
Downward Ratio: 91.69% Upward Ratio: 0.00%
Horizontal Diffuse Angle(50%): H34.6
Vertical Diffuse Angle(50%): V34.1
Luminaire Efficacy Rating (LER): 73.91 Central Intensity: 1617.64 cd
Max. Intensity: 1620.79 cd Pos of Max. Intensity: H22.5 V1
S/MH(C0/C180): 0.57 S/MH(C90/C270): 0.56
Picture Of Luminaire Luminous Intensity Distribution Curve
0
180
9090
1010
170170
2020
160160
3030
150150
4040
140140
5050
130130
6060
120120
7070
110110
8080
100100
2025
1620
1215
810
405
Average Diffuse Angle(50%): 34.3°
C0-C180 C90-C270
Unit: cd
C Plane (°):0.0-360.0: 22.5 Gamma Plane (°):0.0-90.0:1.0
Test Lab: LISUN Test Device: LSG-1800B
Test Type: TYPE C Distance: 8.300 m
Temperature: 24.5 Humidity: 60%
Operator: Joye Inspector:
8. Lisun Electronics Inc.
http://www.Lisungroup.com
Tel: +86(21)51083341
Fax: +86(21)51083342 Page 2 of 28 Pages
Luminous Intensity Distribution Curve
0
180
9090
1010
170170
2020
160160
3030
150150
4040
140140
5050
130130
6060
120120
7070
110110
8080
100100
2025
1620
1215
810
405
-180 -120 -60 0 60 120 180
0
405
810
1215
1620
2025
C0-C180 C90-C270 Unit: cd
C Plane (°):0.0-360.0: 22.5 Gamma Plane (°):0.0-90.0:1.0
Test Lab: LISUN Test Device: LSG-1800B
Test Type: TYPE C Distance: 8.300 m
Temperature: 24.5 Humidity: 60%
Operator: Joye Inspector:
9. Lisun Electronics Inc.
http://www.Lisungroup.com
Tel: +86(21)51083341
Fax: +86(21)51083342 Page 3 of 28 Pages
Luminous Intensity Distribution Curve(cd/klm)
0
180
9090
1010
170170
2020
160160
3030
150150
4040
140140
5050
130130
6060
120120
7070
110110
8080
100100
2894
2315
1736
1157
578
cd/klm
C0-C180
C90-C270
¦Ç=91.69%
LUMINUS/Philips
C Plane (°):0.0-360.0: 22.5 Gamma Plane (°):0.0-90.0:1.0
Test Lab: LISUN Test Device: LSG-1800B
Test Type: TYPE C Distance: 8.300 m
Temperature: 24.5 Humidity: 60%
Operator: Joye Inspector: