Introduction to Goniophotometry

Goniophotometers are precision optical instruments designed to measure the spatial distribution of light emitted from a source. These devices play a critical role in industries where accurate photometric characterization is essential, including LED and OLED manufacturing, display testing, urban lighting design, and scientific research. By capturing luminous intensity, color uniformity, and angular light distribution, гониофотометры enable compliance with international standards such as IEC, CIE, and ANSI, ensuring product performance and regulatory adherence.

This article examines the technical principles, applications, and standards governing goniophotometric testing, with a focus on the ЛИСУН ЛСГ-6000 гониофотометр—a high-precision instrument engineered for advanced photometric analysis.

Fundamentals of Goniophotometric Measurement

Measurement Principle

A goniophotometer operates by rotating a light source or detector along one or more axes to capture luminous intensity at varying angles. The LSG-6000 employs a Type C (moving detector, fixed source) configuration, ensuring minimal measurement error due to thermal drift or mechanical instability. The system integrates a high-sensitivity spectrometer and photometer to record spectral power distribution (SPD), chromaticity coordinates (CIE 1931/1976), and correlated color temperature (CCT).

Key measured parameters include:

• Luminous Intensity (cd) – Angular light emission profile.
• Luminous Flux (lm) – Total radiant power adjusted for human eye sensitivity.
• Beam Angle (°) – Angular width where intensity drops to 50% of peak.
• Color Uniformity – Spatial consistency of chromaticity.

Optical and Mechanical Design

The LSG-6000 features a dual-axis robotic arm with a rotation range of 0–360° (horizontal) and -180° to +180° (vertical), achieving angular resolution as fine as 0.01°. The system incorporates a high-dynamic-range (HDR) photodetector with a spectral range of 380–780 nm, ensuring accurate measurements for LEDs, laser diodes, and high-intensity discharge (HID) lamps.

To minimize stray light interference, the instrument employs baffle tubes and black anodized surfaces, reducing reflectance to below 0.5%. Calibration traceability is maintained via NIST (USA) or PTB (Germany) certified reference standards.

Соответствие международным стандартам

The LSG-6000 adheres to stringent testing protocols, including:

For photovoltaic testing, the system aligns with IEC 60904-9 for angular response evaluation of solar cells. In medical lighting, compliance with ISO 15004-2 ensures spectral accuracy for surgical and diagnostic equipment.

Отраслевые приложения

1. LED and OLED Manufacturing

The LSG-6000 evaluates angular color shift (MacAdam ellipses) и lumen maintenance in solid-state lighting. For OLED panels, it measures viewing-angle uniformity, critical for display and automotive lighting applications.

2. Urban and Architectural Lighting

Municipalities rely on goniophotometric data to optimize streetlight distribution, minimizing glare and light trespass (per IESNA RP-8). The LSG-6000’s 3D ray-tracing simulation aids in designing energy-efficient luminaires.

3. Stage and Studio Lighting

Entertainment lighting demands precise beam shaping и color consistency. The LSG-6000 verifies compliance with ESTA E1.43, ensuring theatrical fixtures meet intensity gradients and flicker-free operation.

4. Optical Instrument R&D

Lens and reflector developers use the LSG-6000 to validate far-field radiation patterns и Fraunhofer diffraction effects, essential for laser collimation and sensor calibration.

Competitive Advantages of the LSG-6000

• Automated Multi-Axis Control – Reduces manual intervention, improving repeatability (±0.5%).
• Modular Spectrometer – Supports UV-VIS-NIR expansion (200–2500 nm) for specialized research.
• Real-Time Data Processing – Integrates with LISUN’s LMS-9000 software for immediate SPD and CRI analysis.
• Thermal Stabilization – Active cooling maintains detector stability under high-luminance loads (up to 200,000 cd/m²).

Frequently Asked Questions (FAQ)

Q1: How does the LSG-6000 correct for ambient light interference?
The system employs synchronous detection и optical shielding to eliminate ambient noise, with dark current compensation for high-accuracy readings.

Q2: Can the LSG-6000 test pulsed or dimmable light sources?
Yes, the high-speed sampling mode (1 MHz) captures transient behaviors, aligning with IEC 61000-3-2 for flicker analysis.

Q3: What is the maximum sample size supported?
The standard configuration accommodates luminaires up to 2 m in length и 50 kg in weight, with custom fixtures available.

Q4: Is the system compatible with third-party photometric software?
Data exports in IES, EULUMDAT, and XML formats ensure interoperability with DIALux, Relux, and AGi32.

Q5: How often should calibration be performed?
Annual recalibration is recommended, though high-usage environments may require semi-annual verification.

By integrating advanced robotics, optical precision, and compliance-driven design, the ЛИСУН ЛСГ-6000 establishes itself as an indispensable tool for photometric validation across diverse industries. Its adherence to global standards ensures reliable performance in research, manufacturing, and regulatory testing applications.