1. Product Name and Purpose

2. Product Features

Electrodynamic Vibration Shaker

• Precise Vibration Control
  • The electrodynamic vibration shaker is capable of generating a wide range of vibration frequencies, typically from 5 Hz to 2000 Hz. This broad frequency spectrum allows for the simulation of different types of vibrations that solar PV products may experience during transportation, such as the low - frequency vibrations from road travel or the high - frequency vibrations caused by rough handling. The vibration amplitude can be accurately adjusted, with a range of 0.1 mm to 100 mm (peak - to - peak), enabling the reproduction of various levels of vibration intensity.
  • It can generate vibrations in multiple axes, usually including vertical, horizontal, and sometimes rotational axes. This multi - axis capability is vital as solar PV products may be subjected to complex vibration patterns in different directions during transportation and installation. For example, solar panels may experience vibrations in multiple axes when being transported on a truck or during the installation process.
• Customizable Vibration Profiles
  • Operators have the flexibility to create custom vibration profiles according to specific test requirements. These profiles can include continuous vibrations, intermittent shocks, or complex sequences that mimic the actual vibration scenarios solar PV products encounter. For instance, a profile can be designed to simulate the vibrations during a long - distance transportation of solar panels, including vibrations on different road surfaces and during loading and unloading.
• High - Performance and Durable Design
  • The electrodynamic vibration shaker is constructed with high - quality materials and components to ensure long - term reliability and performance. The shaker's frame is made of sturdy steel, providing a stable and rigid platform for generating vibrations. The electromagnetic drive system is engineered to be efficient and precise, delivering consistent vibration levels over extended periods of testing.

Climate Test Chamber

• Wide Climate Range
  • The climate test chamber integrated with the vibration shaker can achieve a broad range of temperature, humidity, and solar radiation conditions. The temperature can typically be adjusted from - 40°C to + 85°C, allowing for the simulation of extreme cold and hot environments that solar PV products may face in different geographical regions. The humidity control can maintain relative humidity levels from 10% to 95%, enabling the testing of how products respond to different moisture levels.
  • Additionally, the chamber can simulate various levels of solar radiation, typically ranging from 0 W/m² to 1200 W/m². This is crucial as solar PV products need to perform optimally under different sunlight intensities, and the ability to replicate these conditions in a controlled environment helps in evaluating their performance and durability.
• Fast Climate Transitions
  • The chamber is capable of rapid temperature, humidity, and solar radiation transitions. For example, it can achieve temperature transition rates of up to 5°C/min, humidity transition rates of up to 5%/min, and can quickly adjust the solar radiation levels. This is essential for simulating sudden changes in the environment, such as a cloud passing over a solar panel or a change in weather conditions.
• Uniform Climate Conditions
  • The interior of the climate test chamber is designed to provide uniform temperature, humidity, and solar radiation conditions throughout the test volume. The temperature variation within the chamber is typically within ±1°C, the humidity variation is within ±5% relative humidity, and the solar radiation uniformity is within ±5% of the set value. This ensures that all parts of the solar PV products being tested are exposed to the same environmental conditions, providing reliable and consistent test results.

Integrated Control and Monitoring

• User - Friendly Interface
  • The entire test system is controlled through a user - friendly interface that simplifies the operation process. The interface allows operators to easily set and adjust the test parameters for both the vibration shaker and the climate test chamber. It provides a clear display of the current test status, including vibration frequencies, amplitudes, temperature, humidity, solar radiation levels, and elapsed test time.
• Comprehensive Data Acquisition and Analysis
  • Equipped with a comprehensive data acquisition system, the test system records all relevant data during the test. This includes vibration measurements, temperature and humidity profiles, solar radiation data, and any observed product failures or performance changes. The data can be stored in a secure database and analyzed using advanced software tools. The system can generate detailed test reports, including graphs, charts, and statistical analysis, to help engineers and researchers understand the test results and make informed decisions.
• Remote Monitoring and Control
  • Many models of this combined test system offer remote monitoring and control capabilities. This feature enables operators to monitor the test progress and adjust the test parameters from a remote location, such as a control room or an off - site office. It is particularly useful for large - scale testing operations or when immediate access to the testing system is not possible.

3. Specific Parameters

• Electrodynamic Vibration Shaker Parameters

  • Rated Sine Force	300kgf- 8000kg.f
    Frequency Range	DC-3000Hz
    Max. Displacement p-p	51-100mm
    Max acceleration	100g
    Max. Velocity (m/s)	2.0
    Max. Payload	300-5000kg

• Climate Test Chamber Parameters

  • Model	CTHC-80	CTHC-150	CTHC-225	CTHC-408	CTHC-800	CTHC-1000
    Inside dimension(W x D x H) cm	40 x 50 x40	50 x 60 x 50	50 x 75 x 60	60 x 85 x 80	100 x 100 x 80	100 x 100 x 100
    Outside dimension(W x D x H) cm	95 x 140 x 95	105 x 150 x 105	105 x 165 x 115	115 x 175 x 140	155 x 190 x 140	155 x 190 x 160
    Internal material	#304 Stainless Steel
    External material	Powder coated #304 Stainless Steel
    Temperature range	+ 150℃~ - 70 ℃
    Humidity range	10% ~ 98% R. H
    Temperature Uniformity ℃	0.01
    Humidity Uniformity % R. H.	0.1
    Temperature stability ℃	±0.3
    Humidity stability % R. H.	±2
    High temperature ℃	100	100	100	100	100	100
    Heating time (min)	20	30	30	30	30	30
    Low temperature	0, -40, -70	0, -40, -70	0, -40, -70	0, -40, -70	0, -40, -70	0, -40, -70
    Cooling time (min)	20, 50, 70	20, 50, 70	20, 50, 70	20, 50, 70	20, 50, 70	20, 50, 70
    Air circulation system	Mechanical convection system
    Cooling system	Imported compressor, fin evaporator, gas condenser
    Heating system	Sus304 Stainless steel High-speed heater
    Humidification system	Steam Generator
    Humidification water supply	Reservoir, Sensor-controller solenoid valve, recovery-recycle system
    Controller	Touch panel
    Electrical power requirements	Please contact us for requirements of specific models
    Accessories	Multi-layer enhanced glass window,test hole, action indicator light, case lighting barrier shelf x2
    Safety device	Circuit system load protection, compressor load protection, control system load protection, humidifier load protection, overtemperature load protection, fault warning light

4. Product Functions

• Reliability Testing
  • By subjecting solar PV products to combined mechanical vibrations and climate stress, the system helps manufacturers identify potential weaknesses and failure points. This allows for the improvement of product designs to enhance reliability and durability, reducing the risk of component failures during transportation, installation, or long - term operation.
• Performance Evaluation
  • The data collected from the tests provides valuable insights into how solar PV products respond to different environmental conditions. Engineers can use this information to evaluate the performance of products under various scenarios, such as different levels of solar radiation, temperature, and humidity. This helps in optimizing the design and operation of solar PV systems to maximize their energy output and efficiency.
• Quality Control
  • The system serves as a crucial tool for quality control in the solar PV industry. By testing products before they are released to the market, manufacturers can ensure that they meet the required quality standards. This helps to prevent costly recalls and customer complaints due to product failures, and also builds trust in the brand.
• Compliance Testing
  • The solar PV industry is subject to various international and national standards and regulations regarding product performance and durability. The electrodynamic vibration shaker combined with a climate test chamber enables manufacturers to conduct compliance testing to ensure that their products meet these requirements. For example, standards may specify the maximum vibration levels and temperature - humidity - solar radiation ranges that a solar PV product must withstand.

5. Production and Quality Assurance

• Stringent Manufacturing Process
  • The manufacturing of this combined test system follows strict quality control procedures. Each component, from the vibration shaker's electromagnetic drive system and the climate test chamber's sensors to the control electronics and structural frame, is sourced from reliable suppliers and undergoes thorough inspection and testing. The assembly process is carried out by highly trained technicians in a clean and controlled environment. The system is calibrated and verified at multiple stages during production to ensure its accuracy and performance.
• Quality Certification and Validation
  • Our test system has obtained relevant quality certifications, such as ISO standards for testing equipment and solar - specific certifications. It has also been validated by independent testing laboratories to ensure that it meets industry standards and provides accurate and reliable test results. We continuously update and improve our product based on the latest technological advancements and customer feedback to maintain its high quality and performance.

6. Application Areas and Success Stories

• Solar Panel Testing
  • A leading solar panel manufacturer used the system to test a new series of high - efficiency solar panels. The panels were subjected to a combination of vibrations, temperature variations, humidity changes, and different levels of solar radiation. The testing revealed that the soldering joints of the panel's cells were prone to failure under high - vibration and extreme - temperature conditions. By improving the soldering process and adding additional reinforcement to the cell connections, the manufacturer was able to enhance the durability and reliability of the solar panels, increasing their lifespan and performance.
• Inverter Testing
  • A company manufacturing solar inverters utilized the system to test the performance of its new models. The inverters were exposed to a variety of environmental conditions, including high - temperature and high - humidity scenarios, as well as mechanical vibrations. The testing showed that the inverter's cooling system was insufficient under high - load and high - temperature conditions, leading to overheating and reduced efficiency. By optimizing the cooling design and improving the heat dissipation capabilities, the company was able to improve the inverter's performance and reliability, ensuring stable power conversion for solar PV systems.
• Charge Controller Testing
  • A startup developing charge controllers for solar PV systems used the system to test the durability and performance of its products. The charge controllers were subjected to vibrations, temperature fluctuations, and different levels of solar radiation to simulate the conditions they would experience in real - world applications. The testing identified that the controller's electronic components were sensitive to high - humidity environments, which could lead to short - circuits and malfunction. By improving the enclosure design and using moisture - resistant components, the startup was able to enhance the charge controller's reliability and performance, making it suitable for a wide range of solar PV systems.

7. Service and Support

• Pre - Sales Technical Consultation
  • Our team of solar PV testing experts provides in - depth technical consultations to help customers understand the capabilities and suitability of the system for their specific testing needs. We offer demonstrations and training sessions to familiarize customers with the operation and functionality of the system before purchase. We also assist in selecting the appropriate test parameters and accessories based on the solar PV products to be tested.
• After - Sales Service and Maintenance
  • We offer comprehensive after - sales service, including on - site installation and commissioning. Our team of experienced technicians is available for regular maintenance, calibration, and emergency repairs. We provide genuine spare parts and timely upgrades to ensure the long - term performance and reliability of the testing system. We also offer service contracts that include preventive maintenance and priority technical support.
• Training and Technical Support
  • We conduct training programs for new users to ensure they can effectively operate the testing system and interpret the test results. Our technical support team is available 24/7 to answer questions, provide troubleshooting assistance, and offer guidance on test method optimization. We also provide software updates and support for the data acquisition and analysis systems to keep the system up - to - date with the latest features and technologies.