– Overview of Advanced Energy
Advanced Energy: Empowering Global Industries with Unparalleled Power Solutions
Advanced Energy, a pioneer in the field, is revolutionizing the way power is harnessed, distributed, and managed across the globe. With decades of unwavering dedication, our company has perfected power conversion, measurement, and control solutions, catering to the diverse needs of mission-critical applications and processes. Advanced energy previously known as Tegam.
Our range of highly engineered products is meticulously designed to meet the demands of even the most complex applications. With an unwavering focus on precision and reliability, we ensure that our solutions not only fulfill industry requirements but also surpass customer expectations.
Powering the Semiconductor Industry’s Technological Advancements
The semiconductor industry thrives on constant innovation and technological advancements. At Advanced Energy, we understand the critical role of power conversion and control in semiconductor equipment. Our state-of-the-art solutions empower semiconductor manufacturers to optimize their processes, enhance efficiency, and drive the next wave of technological breakthroughs.
Industrial Manufacturing: A Seamless Power Experience
In the industrial sector, where productivity and efficiency are paramount, Advanced Energy’s power solutions excel. Our products provide the foundation for seamless operations, enabling manufacturers to streamline their processes, reduce downtime, and maximize output. With our expertise and reliable support, industries can confidently navigate the challenges of a rapidly evolving market.
Reliable Power Solutions for the Telecommunications Sector
Telecommunications is an ever-expanding field that demands reliable power solutions. Advanced Energy’s products play a vital role in ensuring uninterrupted communication networks. Whether it’s powering critical infrastructure or facilitating the smooth functioning of telecommunication equipment, our solutions guarantee a robust and resilient power supply.
– Importance of test, measurement, and calibration instruments in various industries
|Industry||Importance of Test, Measurement, and Calibration Instruments|
|Manufacturing||– Ensuring quality and compliance by validating product performance and functionality|
|– Minimizing defects, reducing waste, and optimizing production efficiency|
|Engineering and Construction||– Achieving accurate measurements for structural integrity and adherence to safety regulations|
|– Enhancing the quality and longevity of engineering and construction projects|
|Healthcare and Medical Research||– Diagnosing illnesses, monitoring patient conditions, and advancing scientific discoveries|
|– Improving patient care, enhancing medical interventions, and facilitating ground-breaking research|
|Telecommunications and Information Technology||– Ensuring reliable communication networks and efficient data transmission|
|– Analysing network performance, verifying compliance, and minimizing downtime|
|Energy and Environment||– Optimizing energy efficiency, ensuring regulatory compliance, and promoting sustainability|
|– Monitoring energy consumption, emissions, air and water quality|
|– Reducing energy waste, minimizing pollution, and promoting a greener future|
2. Advanced Energy: Company Profile
AE is a global leader in innovative power and control technologies for high-growth, precision power. For four decades, Advanced Energy has worked to improve power, enabling innovations in design and fostering expansion for top semiconductor and industrial clients. Our very precise power and control technologies, together with our expertise in application development, promote strong collaborations and ongoing innovation in thin-film and industrial manufacturing.
Since its founding in 1981, Advanced Energy has developed a varied and international business, providing cutting-edge power and control solutions to clients in a variety of industries. For thin-film and industrial manufacturing, the AE team, which is spread out across North America, Europe, and Asia, offers technical expertise as well as quick and flexible power solutions.
|Some Locations (Asia)|
|Hong Kong, China||New Tapei City, Taiwan|
|At this location: Sales, Design||At this location: Service, Sales|
|Artesyn Embedded Power||Advanced Energy Taiwan, Ltd.|
|14/F, Lu Plaza, 2 Wing Yip Street,||10F, No. 110, Chung Shan Rd., Sec 3, Chungho District|
|Kwun Tong, Kowloon, Hong Kong||New Taipei City, Taiwan 23544, R.O.C.|
|Open in Google Maps||Open in Google Maps|
|Phone: +852 2176 3333||Phone: +886.2.8221.5599|
|At this location: Manufacturing, Design||At this location: Manufacturing|
|Artesyn Embedded Power||Advanced Energy Industries (Malaysia) Sdn. Bhd.|
|104 Laguna Blvd., Laguna Technopark, Don Jose, Santa Rosa, 4026 Laguna,Philippines||PMT 1112, Jalan Perindustrian Bukit Minyak 8|
|Open in Google Maps||Taman Perindustrian Bukit Minyak|
|+63 7976 3100 (Manila Line)||14100 Simpang Ampat|
|+63 49 5440525 (Laguna Line)||Pulau Pinang, Malaysia|
|Open in Google Maps|
|Pune, India||Shenzhen, China|
|At this location: Manufacturing, Service ,Sales ,Design||At this location: Manufacturing ,Service|
|AEI Power India Pvt. Ltd.||Advanced Energy Industries (Shenzhen) Co., Ltd.|
|LumaSense Equipments India Pvt. Ltd.||3rd Floor, Building 1, Great Wall Technology|
|Khanna’s House, Ground Floor,||High Tech Park, Nan Shan District|
|Plot No. 39 and 40||Shenzhen 518057 P.R. China|
|Nehru Nagar Road, Pimpri, Pune – 411018||Open in Google Maps|
|Open in Google Maps||Phone: +86.755.26728187|
|At this location: Service||At this location: Service,Sales|
|Advanced Energy Japan K.K.||AES Global Holdings PTE Ltd.|
|1F Iwasaki Nishikicho Bldg.,||18 Tai Seng|
|1-6-6 Nishikicho, Tachikawa-shi, Tokyo||#05-07|
|〒190-0022 Japan||Singapore 539775|
|Open in Google Maps||Open in Google Maps|
|Phone: +81.42.512.8440||Phone: 65.6561.6482 | 65.6561.0282|
|For Other locations||Click here (https://www.advancedenergy.com/contact-us/)|
3. Specialization in the design, manufacture, and support of instruments
Solution 1: Analytical Instrumentation: Gain access to the industry’s best performance, precision, and dependability needed for critical analytical instrumentation applications.
Your applications need great performance in terms of accuracy, stability, and low noise in small form factors. Mass spectrometry, scanning electron microscopy, electron beam lithography, gel and capillary electrophoresis, and many more analytical applications all depend on dependable high-voltage power supplies. We are the perfect partner because of Advanced Energy’s experience and skill in power supplies. In order to choose the best product for your analytical instrumentation systems, our power supply specialists collaborate with you. Reduce operational costs while easily meeting changing application needs for system size, noise, and ripple.
Solution 2: Profit from the low cost of off-the-shelf products with the ease of customization. Mission-critical aerospace, defense, and high-reliability industries are included. These procedures must achieve high performance and system reliability, yet cutting costs and shortening the product-design cycle are incompatible goals. It might be time to think at commercial off-the-shelf (COTS) solutions since full-custom power solutions might no longer be able to satisfy time- and cost-sensitive needs.
Low voltage power supply systems from Advanced Energy offer COTS advantages while also allowing for user and field configuration in accordance with system requirements. Your time to market is shortened, performance is improved, and costs are decreased thanks to our adaptable, high-efficiency, compact power supply.
Solution 3: Industrial Electronics: Increase functionality, improve performance, and cut expenses.
Due to the sensitivity of the equipment and processes (such as factory automation equipment, semiconductor processing, etc.), industrial electronics require good power quality. You have to deal with shifting safety rules, higher performance and functionality standards, rising costs, and size reduction needs as a power system designer.
Advanced Energy pioneered small, user-configurable power sources, setting the bar for adaptability, effectiveness, and dependability. You may increase functionality, save costs, and optimize performance with the help of our low-voltage power supplies’ compactness, high density, and flexibility. Profit from our knowledge and commitment to compliance.
Solution 4: Semiconductor Manufacturing
The Deposition, Etch, Implant & RTP, and Inspection processes are among the semiconductor manufacturing solutions that Advanced Energy specializes in. Use our semiconductor manufacturing production solutions to provide sophisticated plasma process control through very precise power delivery, frequency tweaking, and multi-level pulsing.
New techniques and materials are used to create transistors and memory cells for cutting-edge integrated circuits (ICs). Extreme process control is necessary due to shrinking feature size and atomic-level precision. Additionally, the demand for multi-patterning (double and quadruple) is driven by new device architectures (3D-NAND and Fin FETs), necessitating the development of novel etch and deposition techniques.
The trends in the semiconductor manufacturing business are well-known to Advanced Energy. We are the industry leader in temperature measuring technologies, power delivery and control solutions, and crucial etching, deposition, inspection, implantation, and annealing processes.
– Importance of accurate RF power measurement
The Significance of Accurate RF Power Measurement in Modern Communication Systems
Accurate RF (Radio Frequency) power measurement is of utmost importance in today’s communication systems. As wireless technologies continue to advance, the ability to precisely measure and monitor RF power levels becomes crucial for ensuring optimal performance, regulatory compliance, and efficient resource allocation. In this article, we will delve into the significance of accurate RF power measurement and its impact on various aspects of modern communication systems.
Ensuring Signal Quality and System Performance
Accurate RF power measurement is essential for assessing signal quality and ensuring the overall performance of communication systems. By precisely measuring the power levels of transmitted or received RF signals, engineers and technicians can evaluate the strength and integrity of the signals. This enables them to identify and address potential issues such as signal degradation, interference, or inadequate power levels. Through accurate measurement, signal quality can be maintained, leading to enhanced communication reliability, reduced error rates, and improved user experience.
Optimizing Transmission Efficiency and Range
In wireless communication systems, accurate RF power measurement plays a critical role in optimizing transmission efficiency and maximizing the coverage range. By precisely measuring the power levels of transmitted signals, engineers can fine-tune the transmitter’s output power to operate at the optimal level. This ensures efficient utilization of resources and minimizes power wastage. Moreover, accurate measurement enables the adjustment of transmission parameters to achieve the desired coverage range, balancing signal strength and minimizing interference. By optimizing transmission efficiency and range, accurate RF power measurement contributes to improved spectral efficiency, reduced energy consumption, and expanded network coverage.
Compliance with Regulatory Standards
Accurate RF power measurement is vital for ensuring compliance with regulatory standards and guidelines. Regulatory bodies impose specific limits on RF power emissions to prevent interference with other systems and maintain a safe electromagnetic environment. By accurately measuring and monitoring RF power levels, communication operators can verify that their systems adhere to the prescribed limits. Compliance not only avoids potential penalties and legal issues but also promotes a harmonious coexistence of different communication systems, ensuring uninterrupted service for users and maintaining a reliable communication infrastructure.
Network Planning and Optimization
Accurate RF power measurement plays a crucial role in network planning and optimization. Through comprehensive power measurements, engineers can assess signal propagation characteristics, identify coverage gaps or areas with excessive power, and optimize antenna placement and configuration. This information aids in designing efficient network layouts, minimizing signal attenuation, and maximizing network capacity. Additionally, accurate power measurements enable network operators to monitor and fine-tune power levels in real time, ensuring balanced resource allocation and efficient utilization of the available spectrum.
Troubleshooting and Maintenance
In the event of communication system issues or failures, accurate RF power measurement serves as a valuable troubleshooting and maintenance tool. By accurately measuring power levels at different points in the system, technicians can identify potential faults, signal blockages, or equipment malfunctions. This allows for targeted repairs, timely maintenance, and efficient problem resolution, minimizing downtime and ensuring continuous service availability.
– Advanced Energy’s calibration systems
Calibration Sources: Verify your pyrometers’, thermal imaging systems, heat-flux measurement systems, or spectrographic analysis systems’ output signals for accuracy. We provide distinctive and extremely accurate Mikron® calibration sources. Modern emissivity values, uniform emission regions, and a range of diverse aperture sizes are all features of our blackbodies. Also promised are quick heat-up times and great temperature stability.
– Applications and benefits of RF power sensor calibration systems
- Reduce operating costs by reducing production errors and unexpected downtime.
- Provide certainty and confidence in the results recorded with your devices.
- Eliminate product defects and process inconsistencies due to uncelebrated equipment.
- Increase yield by optimizing processes and continuously improving.
- See consistent results every time through improved tool repeatability.
- Extend the life of your tools by consistently operating within design specifications.
- Meet company quality regulations for measurement equipment.
- Improve tool to tool and chamber-to-chamber reproducibility across your fab.
## III. Product Offerings
Below Products are available on Aimil.com
Attenuation & Signal Measurement
Attenuation refers to the decrease in signal strength as it travels through a medium. It can occur due to factors such as distance, interference, and the characteristics of the medium itself. This reduction in signal strength can lead to degradation and loss of information.
Signal measurement involves the quantification of signal strength and quality. It entails measuring various parameters, including amplitude, frequency, and phase. Signal measurement plays a significant role in several fields such as telecommunications, electronics, and audio engineering. It ensures accurate and reliable signal transmission and aids in diagnosing and troubleshooting signal transmission issues.
Application: Testing standard and step attenuators for RF and microwave equipment manufacturers. Brochure focusing on attenuation and signal measurement.
AC/DC Safety Voltmeter (1000V)
The AC/DC Safety Voltmeter (1000V) is a versatile tool specifically designed for measuring voltage levels in diverse electrical systems. It offers accurate and reliable measurements for both AC and DC voltages within its maximum voltage range of 1000V.
One of the prominent features of this safety voltmeter is its capability to measure high voltage levels safely. It incorporates essential safety components such as insulated probes and a protective casing, ensuring that users are safeguarded against potential electrical hazards during the measurement process.
The AC/DC functionality enables the measurement of both alternating current (AC) and direct current (DC) voltages, making it suitable for a wide array of applications. Whether there is a need to test voltage levels in AC or DC systems, this voltmeter proves to be a reliable choice.
Applications: With its ability to measure both AC and DC voltages, the AC/DC Safety Voltmeter finds extensive applications across various industries and scenarios. The Tegam Model 110A Safety Voltmeter mentioned is listed as C-UL-US certified and capable of testing AC and DC volts up to 1000V, providing further reliability and compliance with safety standards.
Micro Ohm Meter
A micro-ohm meter, also known as a micro ohmmeter or micro-ohmmeter, is a specialized instrument utilized for measuring extremely low electrical resistance values. It is specifically designed to provide accurate measurements within the micro-ohm (μΩ) range.
The working principle of a micro-ohm meter involves passing a known current through the test sample and measuring the resulting voltage drop across it. By employing Ohm’s law (V = I × R), where V represents voltage, I represents current, and R represents resistance, the micro-ohm meter can determine the resistance value accurately.
Micro-ohm meters are equipped with a high-current source capable of generating substantial currents. This feature enables precise measurements of low-resistance values. The instrument utilizes four-wire resistance measurement techniques to minimize errors caused by lead resistances and contact resistances.
The applications of micro-ohm meters include:
– Electrical and electronic component testing: They are employed to measure contact resistances, bonding resistances, and resistance of connectors, switches, and relays.
– Cable and wire testing: Micro-ohm meters are used to measure the resistance of cables, wires, and conductors for quality control and maintenance purposes.
– Transformer and motor winding testing: They assess the resistance of windings in transformers, motors, and generators to identify potential faults or issues.
– Circuit breaker testing: Micro-ohm meters can measure the resistance of circuit breaker contacts, aiding in determining the condition and functionality of the breaker.
– Welding quality control: They measure the resistance of welds to ensure the quality of the welding process.
Micro-ohm meters are highly precise instruments, typically displaying measurements digitally. Some models may offer additional features such as data logging, temperature compensation, and various test modes to accommodate different applications.
RF Power Sensor Calibration System and Transfer Standards
Power sensor calibration up to 50 GHz made easier with the PM Series calibrator. It simplifies the time-consuming and complex process of RF power sensor calibration. The PM Series uses the 1830A metrology grade RF Power Meter and is compatible with all known types of thermistor sensors, including TEGAM, Agilent, Weinschel, Hughes, and Millitech. It supports sensors from all major manufacturers up to 50 GHz and is faster than the direct comparison method. It also has the lowest total uncertainty and is a national metrology institute class thermistor reference standard. The complete automation is provided by SureCAL.