EMCI PLUS's IMU-MGS MODULAR CONDUCTED IMMUNITY GENERATOR UP TO 5KV.

Are you finding a modular generator for Immunity Testing, Which can help to test the immunity of electronic devices? Then Emci Plus has a conducted immunity testing generator (IMU-MGS). The IMU-MGS (Isolated Measurement Unit - Medium Voltage Generator Switchgear) Upto 5KV EFT/Burst and Surge Compact Generator is designed with the latest technology and innovation. This conducted immunity generator complies with Electromagnetic Compatibility (EMC) test standards for Surge up to 5kV and EFT up to 5kV.

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Expert EMI/EMC Testing Services for Reliable and Compliant Products

Ensure your products meet stringent electromagnetic compatibility (EMC) and electromagnetic interference (EMI) standards with our state-of-the-art testing services. At our cutting-edge laboratory, we offer comprehensive EMI/EMC testing to help you achieve regulatory compliance and product reliability. Partner with us for precise testing, expert analysis, and swift certification, ensuring your electronic devices perform flawlessly in any environment. Contact us today to learn how our EMI/EMC testing services can support your product development and compliance needs.

Astute Labs Spearheading Innovation in Medical Device Testing

In the dynamic landscape of healthcare, the demand for precision and reliability in medical devices is paramount. Astute Labs emerges as a beacon of excellence, pioneering cutting-edge methodologies and technologies in medical device testing. With an unwavering commitment to quality and safety, Astute Labs stands at the forefront of ensuring the efficacy and compliance of medical devices. Here’s a closer look at how Astute Labs is shaping the future of medical device testing.

Redefining Standards: Astute Labs doesn’t just meet industry standards; it sets new benchmarks. By leveraging state-of-the-art equipment and innovative techniques, Astute Labs continuously pushes the boundaries of what’s possible in medical device testing. From initial concept to final product, every step is meticulously scrutinized to ensure optimal performance and safety.

Comprehensive Testing Solutions: Astute Labs offers a comprehensive suite of testing services tailored to meet the diverse needs of medical device manufacturers. Whether it’s biocompatibility testing, sterilization validation, or performance evaluation, Astute Labs provides end-to-end solutions that instill confidence in the reliability and efficacy of medical device testing laboratories.

Expertise and Experience: At the heart of Astute Labs is a team of seasoned professionals with unparalleled expertise in medical device testing. With years of experience and a deep understanding of regulatory requirements, the team at Astute Labs offers invaluable insights and guidance throughout the testing process, ensuring seamless navigation of complex regulatory landscapes.

Innovation and Adaptability: In an industry that’s constantly evolving, innovation and adaptability are essential. Astute Labs remains at the forefront of technological advancements, constantly exploring new methodologies and approaches to enhance testing efficiency and accuracy. By staying ahead of the curve, Astute Labs enables medical device manufacturers to bring innovative products to market faster and more confidently.

A Trusted Partner: Beyond just a testing laboratory, Astute Labs is a trusted partner to medical device manufacturers worldwide. With a reputation for excellence and reliability, Astute Labs fosters long-term relationships built on trust, integrity, and mutual success. From startups to multinational corporations, clients turn to Astute Labs for unparalleled expertise and support at every stage of the product lifecycle.

Astute Labs is not just a testing laboratory; it’s a catalyst for innovation and excellence in the field of medical device testing. With a relentless pursuit of quality, precision, and reliability, Astute Labs continues to shape the future of healthcare by ensuring that medical devices meet the highest standards of safety and efficacy. As the industry evolves, Astute Labs remains committed to empowering medical device manufacturers with the insights and solutions they need to succeed in a rapidly changing landscape.

SwRI adds new chamber for spacecraft-related EMC, EMI testing

Southwest Research Institute (SwRI) has added a semi-anechoic shielded enclosure for electromagnetic compatibility and interference (EMC/EMI) testing for spacecraft. The test chamber is the next step in SwRI’s plans to create a turnkey spacecraft integration and test center within its 74,000-square-foot Space System Spacecraft and Payload Processing Facility.

The 400-square-foot EMC/EMI Chamber is semi-anechoic, or free of echo, and shielded from electromagnetic interference. It supports performance of standard emissions and susceptibility testing with an upper frequency limit of 40 gigahertz (GHz) (Ka-band) and also provides the ability to perform spacecraft self-compatibility testing, which ensures that spacecraft subsystems and components work correctly and do not interfere with each other. The chamber will also evaluate radio frequency performance and compliance, important capabilities for wireless and telecommunications operations.

“This new chamber performs tests that indicate how a spacecraft will respond to a space environment. It incorporates significant automation, allowing us to test satellites and instruments more quickly and efficiently while maintaining appropriate cleanliness levels,” said Institute Engineer John Stone. “Locating the EMC/EMI chamber adjacent to other test facilities will also reduce the time lost and risk incurred while moving the test articles between buildings on the SwRI campus.”

The chamber is part of a 11,000-square-foot environmental testing facility within SwRI’s Space System Spacecraft and Payload Processing Facility, which also includes a high-decibel acoustic test chamber. The same building is home to 20,000 square feet of integration facilities, including two ISO 7 class 10,000 cleanrooms with 5-ton overhead bridge cranes and two ISO 8 class 100,000 high-bay cleanrooms outfitted with 7.5-ton bridge cranes.

In late September, the chamber performed EMC and EMI testing for four satellites that comprise the Polarimeter to UNify the Corona and Heliosphere (PUNCH) spacecraft. PUNCH, a SwRI-led NASA mission that will image how the Sun’s outer corona becomes the solar wind, is set to launch in February 2025.

“This chamber is an exciting addition, and we plan to continue to grow the capabilities of this facility as a site for comprehensive spacecraft integration and testing,” Stone said.

IMAGE: SwRI’s new semi-anechoic shield enclosure is designed to perform electromagnetic compatibility and interference and radio frequency testing for spacecraft. The wall and ceiling coverings absorb radio frequencies, allowing researchers and engineers to measure the performance of various electronic components. Credit Southwest Research Institute

7 Essential EMC Tests for Electric Vehicles

As electric vehicles (EVs) become more popular, it's crucial to ensure they are reliable and safe. A key part of this is making sure they work well with other electronic devices, which is where electromagnetic compatibility (EMC) comes in. EMC testing checks that EVs don't interfere with other electronics and can resist external electromagnetic interference (EMI). Let us look at seven important EMC tests for electric vehicles. These tests help manufacturers create high-quality, compliant products.

Radiated Emissions

Radiated emissions testing measures the electromagnetic energy emitted by the vehicle into its surroundings. This test ensures that the emissions stay within acceptable limits to prevent interference with other electronic devices, like radios, GPS systems, and mobile phones. Testing is typically conducted in an anechoic chamber, a room specially designed to absorb reflections of electromagnetic waves, isolating the vehicle from external noise and ensuring accurate measurements. Maintaining low radiated emissions is crucial for minimizing potential disruptions to communication and navigation systems both inside and outside the vehicle.

Radiated Immunity

Radiated immunity testing evaluates how well the vehicle can withstand electromagnetic interference (EMI) from external sources. It simulates real-world scenarios where the vehicle might encounter high levels of EMI, such as near broadcast towers or powerful transmitters. Ensuring strong radiated immunity is essential for the reliable operation of critical vehicle systems, including navigation, braking, and communication. Vehicles that pass this test are better equipped to handle electromagnetic disturbances without affecting their performance or safety.

Conducted Emissions

Conducted emissions testing focuses on the electromagnetic energy conducted through the vehicle's power lines and wiring harnesses. This test ensures that emissions remain within permissible limits, preventing interference with the vehicle's own systems and external electrical infrastructure. Effective conducted emissions testing helps preserve the integrity of the vehicle's electrical components and ensures compliance with regulatory standards, ensuring safe operation and reducing the risk of interference with other vehicles or electrical devices.

Harmonics Emissions

Harmonics emissions testing evaluates the distortion of electrical current within the vehicle's power system. Harmonic distortion can lead to excessive heating in electrical components and reduce the efficiency of the power system. By identifying and mitigating harmonic emissions, manufacturers can enhance the reliability and efficiency of electric vehicles. Minimizing harmonic distortions contributes to longer-lasting components and improved overall performance, ensuring that the vehicle operates efficiently and reliably over its lifespan.

Flicker Emissions

Flicker emissions testing assesses variations in voltage caused by the vehicle's electrical loads. Rapid changes in voltage can result in flickering lights and disruptions in the power supply, affecting both the vehicle and connected infrastructure. This test ensures that electric vehicles maintain a stable and consistent electrical environment, minimizing the potential for power quality issues. By reducing flicker emissions, manufacturers enhance the overall user experience and ensure reliable operation of electrical systems within and around the vehicle.

EFT/Burst Immunity

Electrical Fast Transient (EFT) or burst immunity testing evaluates the vehicle's ability to withstand sudden, high-frequency bursts of electrical energy. These bursts can occur due to switching operations, relay contacts, or other abrupt changes in the vehicle's electrical system. Ensuring strong EFT immunity is essential for protecting sensitive electronic components and maintaining reliable operation under real-world conditions. Vehicles that pass this test demonstrate robust resilience against transient disturbances, ensuring consistent performance and longevity of critical systems.

Surge Immunity

Surge immunity testing examines the vehicle's capacity to endure high-energy surges, such as those caused by lightning strikes or power line switching. These surges can pose a significant threat to electronic components and disrupt the vehicle's operation. By validating robust surge immunity, manufacturers safeguard critical systems and enhance the safety and reliability of electric vehicles in extreme conditions. Vehicles that withstand surge tests effectively are better equipped to handle unpredictable electrical events, ensuring uninterrupted operation and protecting both passengers and equipment.

About RF Electronics

RF Electronics is your one-stop shop for all RF-related needs, offering a comprehensive range of products and services to support your EMC testing requirements. From high-quality components and advanced test equipment to expert technical support and custom solutions, RF Electronics is dedicated to helping you achieve the highest standards of performance and compliance in your electric vehicle projects.

Ensuring the electromagnetic compatibility of electric vehicles is essential for their safe and reliable operation. By focusing on these seven essential EMC tests, manufacturers can deliver high-quality, compliant vehicles that perform well in real-world conditions. With the right tools and expertise, you can navigate the complexities of EMC testing and achieve success in the rapidly evolving electric vehicle market.

Electromagnetic Interference (EMI) is a critical issue in electronic device design and manufacturing, as it can disrupt the functionality of both the device itself and nearby equipment. Conducted and radiated interference tests are essential components of the electromagnetic test process, ensuring that devices comply with regulatory standards. This paper explores the use of the electromagnetic test system, specifically the LISUN EMI-9KB EMI Test Receiver, in evaluating conducted and radiated EMI. Detailed methodologies, key test parameters, and real-world applications in various industries are discussed. Introduction With the increasing complexity of electronic devices, EMI poses a growing challenge in ensuring that products meet compliance standards and do not interfere with other devices. EMI testing is vital for manufacturers to identify and mitigate interference, ensuring that devices meet regulatory requirements such as CISPR, FCC, and other international standards. The electromagnetic test encompasses both conducted and radiated EMI testing, crucial for evaluating a device’s electromagnetic compatibility (EMC). The LISUN EMI-9KB EMI Test Receiver is a versatile instrument designed for comprehensive EMI testing. Its advanced features make it suitable for both conducted and radiated interference measurements, providing accurate and reliable data that helps manufacturers address EMI issues early in the design and production stages. Overview of Electromagnetic Test Electromagnetic tests for EMI involve two primary components: conducted and radiated interference testing. • Conducted EMI Testing: Measures the electromagnetic noise that is transferred from the device under test (DUT) to the power lines or other connected cables. This type of interference can affect other devices connected to the same power network. • Radiated EMI Testing: Assesses the electromagnetic energy emitted through the air from the DUT, which can impact the operation of nearby electronic devices. These tests are essential to ensure that electronic products are safe and function as intended in their operational environments. LISUN EMI-9KB EMI Test Receiver The LISUN EMI-9KB EMI Test Receiver is a high-precision instrument designed for electromagnetic test applications, particularly in detecting and analyzing conducted and radiated EMI. It complies with international standards, including CISPR 16-1, GB/T 6113-1, and EN 55016-1-1, making it suitable for global compliance testing requirements. Key Features: • Frequency Range: 9 kHz to 30 MHz for conducted emissions and up to 1 GHz for radiated emissions. • High Sensitivity and Accuracy: The receiver provides precise measurements with low noise levels, crucial for detecting subtle interference. • Automated Testing: Integrated software automates the test process, enhancing efficiency and reducing human error. • Data Analysis and Reporting: The system offers comprehensive data logging and reporting capabilities, facilitating in-depth analysis of EMI test results. Applications in Conducted EMI Testing Conducted EMI testing is performed to ensure that the DUT does not introduce harmful interference into the power lines. The LISUN EMI-9KB system uses a Line Impedance Stabilization Network (LISN) to provide consistent impedance and measure the noise generated by the DUT. Case Study: Testing Household Appliances Household appliances such as washing machines and refrigerators are prone to generating conducted emissions due to their motor-driven components. The LISUN EMI-9KB can evaluate these emissions to ensure compliance with standards such as CISPR 14-1. Test Parameter Value  Standard Pass/Fail Criteria Frequency Range 150 kHz – 30 MHz CISPR 14-1 Emissions Peak Detector Level Read the full article

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Electromagnetic Interference (EMI) is a critical issue in electronic device design and manufacturing, as it can disrupt the functionality of both the device itself and nearby equipment. Conducted and radiated interference tests are essential components of the electromagnetic test process, ensuring that devices comply with regulatory standards. This paper explores the use of the electromagnetic test system, specifically the LISUN EMI-9KB EMI Test Receiver, in evaluating conducted and radiated EMI. Detailed methodologies, key test parameters, and real-world applications in various industries are discussed. Introduction With the increasing complexity of electronic devices, EMI poses a growing challenge in ensuring that products meet compliance standards and do not interfere with other devices. EMI testing is vital for manufacturers to identify and mitigate interference, ensuring that devices meet regulatory requirements such as CISPR, FCC, and other international standards. The electromagnetic test encompasses both conducted and radiated EMI testing, crucial for evaluating a device’s electromagnetic compatibility (EMC). The LISUN EMI-9KB EMI Test Receiver is a versatile instrument designed for comprehensive EMI testing. Its advanced features make it suitable for both conducted and radiated interference measurements, providing accurate and reliable data that helps manufacturers address EMI issues early in the design and production stages. Overview of Electromagnetic Test Electromagnetic tests for EMI involve two primary components: conducted and radiated interference testing. • Conducted EMI Testing: Measures the electromagnetic noise that is transferred from the device under test (DUT) to the power lines or other connected cables. This type of interference can affect other devices connected to the same power network. • Radiated EMI Testing: Assesses the electromagnetic energy emitted through the air from the DUT, which can impact the operation of nearby electronic devices. These tests are essential to ensure that electronic products are safe and function as intended in their operational environments. LISUN EMI-9KB EMI Test Receiver The LISUN EMI-9KB EMI Test Receiver is a high-precision instrument designed for electromagnetic test applications, particularly in detecting and analyzing conducted and radiated EMI. It complies with international standards, including CISPR 16-1, GB/T 6113-1, and EN 55016-1-1, making it suitable for global compliance testing requirements. Key Features: • Frequency Range: 9 kHz to 30 MHz for conducted emissions and up to 1 GHz for radiated emissions. • High Sensitivity and Accuracy: The receiver provides precise measurements with low noise levels, crucial for detecting subtle interference. • Automated Testing: Integrated software automates the test process, enhancing efficiency and reducing human error. • Data Analysis and Reporting: The system offers comprehensive data logging and reporting capabilities, facilitating in-depth analysis of EMI test results. Applications in Conducted EMI Testing Conducted EMI testing is performed to ensure that the DUT does not introduce harmful interference into the power lines. The LISUN EMI-9KB system uses a Line Impedance Stabilization Network (LISN) to provide consistent impedance and measure the noise generated by the DUT. Case Study: Testing Household Appliances Household appliances such as washing machines and refrigerators are prone to generating conducted emissions due to their motor-driven components. The LISUN EMI-9KB can evaluate these emissions to ensure compliance with standards such as CISPR 14-1. Test Parameter Value  Standard Pass/Fail Criteria Frequency Range 150 kHz – 30 MHz CISPR 14-1 Emissions Peak Detector Level Read the full article

Wireless Charger CE-EMC Certification Test Item:

1. LVD ;

The LVD input voltage range;

AC (AC) 75-1500V;

DC (DC) 50-1000V;

Note: All those powered through the USB interface are 5V.

2. EMC , EMC = EMI + EMS;

That is: CE = LVD + EMC;

Low voltage products only need to do EMC, high pressure products to do EMC + LVD;

Safeguarding Telecom Innovation with EMI/EMC Testing

Sunren Technical Solutions ensures that innovation and safety go hand in hand with our advanced EMI/EMC testing services. As a NABL-accredited and TEC-designated laboratory, we specialize in detecting and mitigating electromagnetic interference (EMI) and ensuring electromagnetic compatibility (EMC) to meet stringent industry and regulatory standards. Our proactive testing approach helps manufacturers identify potential risks early, ensuring reliable performance and seamless compliance. By safeguarding telecom solutions with rigorous testing, we empower you to bring groundbreaking innovations to market confidently. Trust Sunren to protect your telecom products, ensuring they are built for excellence, safety, and long-term success.

Ensuring Safety and Efficacy: The Critical Role of Medical Device Testing

In the realm of healthcare, the development and deployment of medical devices play a pivotal role in patient care and treatment outcomes. However, the journey from concept to market-ready product involves rigorous testing and validation processes to ensure both safety and efficacy. This is where Astute Labs step in, offering comprehensive testing services to manufacturers, researchers, and regulatory bodies.

Importance of Medical Device Testing

The significance of medical device testing cannot be overstated. Every device, from simple syringes to complex implantable devices, must undergo meticulous testing to assess its performance, reliability, and safety. These tests encompass a wide array of evaluations, including biocompatibility, mechanical testing, electrical safety, and usability assessments.

Compliance with Regulatory Standards

One of the primary objectives of medical device testing is to ensure compliance with stringent regulatory standards set forth by authorities like the FDA (Food and Drug Administration) in the United States or the European Union's CE marking requirements. Adhering to these standards is imperative for gaining market approval and instilling confidence among healthcare professionals and end-users regarding the device's safety and efficacy.

Comprehensive Testing Services by Astute Labs

Astute Labs specializes in providing a comprehensive suite of testing services tailored to the unique needs of Medical Device Testing Laboratories. Their team of experts utilizes state-of-the-art facilities and cutting-edge methodologies to conduct various tests, including:

Biocompatibility Testing: Assessing the device's compatibility with biological systems to ensure it doesn't cause adverse reactions when in contact with living tissues.

Mechanical Testing: Evaluating the device's structural integrity, durability, and performance under various mechanical stresses.

Electrical Safety Testing: Verifying the device's electrical components to ensure they meet safety standards and pose no risk of electric shock or fire hazards.

Usability Testing: Examining the device's user interface and ergonomics to assess its ease of use, user comprehension, and error prevention features.

Advancing Patient Safety and Innovation

By partnering with Astute Labs for medical device testing, manufacturers and innovators can not only expedite the development process but also enhance the overall quality and safety of their products. Through rigorous testing protocols and adherence to regulatory requirements, Astute Labs contributes to advancing patient safety and driving innovation in the healthcare industry.

Medical device testing is a critical component of the product development lifecycle, serving as a safeguard against potential risks and ensuring the delivery of safe and effective healthcare solutions. Astute Labs' expertise in this domain empowers stakeholders to navigate the complexities of regulatory compliance and quality assurance with confidence, ultimately leading to improved patient outcomes and advancements in medical technology.