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MedicalBurn-in Test Systems
Burn-in is the process by which components of a system are exercised before being placed in service and often time prior to the system being completely assembled from those components. This testing process will force certain failures to occur under supervised conditions so an understanding of load capacity of the product can be established. The intention to carry out burn-in test is to detect those particular components that would fail as a result of the initial, high-failure rate portion of the bathtub curve of component reliability. If the burn-in period is made sufficiently long (and, perhaps, artificially stressful), the system can then be trusted to be mostly free of further early failures once the burn-in process is complete.
UV Curing Equipment
UV curing is a process which ultraviolet light and visible light is used to initiate a photochemical reaction that generates a crosslinked network of polymers. UV curing is highly adaptable to be implemented in applications of printing, coating, decorating, stereo lithography and assembling of a variety of products and materials owing to some of its key attributes. It is a low temperature process, a high speed process, and a solvent-less process. The process of curing is by polymerization rather than by evaporation. UV curing technology is utilized for drying inks, coatings, adhesives and other UV sensitive materials through polymerization. UV LED improves on that existing process by enabling thinner, heat-sensitive substrates while reducing harmful byproducts such as ozone, and improving workplace safety. Additionally, UV LEDs can be turned on and off instantly, and input power can be utilized efficiently to enable lower operation costs over the application lifetime.
Laser Processing Equipment
Laser, as a novel light source, possesses characteristics such as high coherence, monochromaticity, intensity, and directionality. In recent years, laser precision processing has found increasing applications in industries such as new energy, information technology, biomedicine, new materials, and electronics. Processes including cutting, marking, welding, drilling, engraving, ablation, 3D printing, annealing, and cleaning all require the use of laser technology. MEAN WELL's 3+N system power supply, suitable for serving as the main AC-DC power supply for various laser applications including CO2 lasers, fiber lasers, and diode lasers, meets the driving source requirements necessary for laser industry applications. These often entail high-speed PWM switching, fast response speed, high efficiency, low ripple, and multiple control functions. To meet the diversified demands of laser driving sources, MEAN WELL offers a variety of three-phase, three-wire high-power power supplies, including the RST and SHP series, providing customers with comprehensive solutions for system power supply to meet the power requirements of diode laser applications.
Horticulture Lighting
Recently, horticulture lighting is one of the popular lighting applications. Not only can it replace conventional high-pressure sodium lamps, but it also can be used on the different color of LEDs with necessary tuning, so that wavelengths required for every stage of plants growth can be supplied. Horticulture lighting can be divided into top lighting and inter lighting. Top lighting supplies common plants basic light source for photosynthesis while inter lighting supplies extra light for the purpose of expediting fruit growth. By now, MEAN WELL has accumulated a variety of field cases in horticulture lighting application and will be ready to launch centralized system power solution to fulfill power needs of horticulture lighting in the near future.
Fishing Lighting
LED fishing lighting is a relatively new market segment in product application. Conventional MHL (Metal-Halide lamp) has issues of high power consumption and radiated heat, and it is harmful to fishers working in a long time and being close to the lights. Moreover, the issue of conventional light sources having high power consumption results in a burden of fuel consumption to a power generator. More than that, traditional fishing lights are exposed to critical environments of high/low temperature, high humidity, and high salinity. Thus, it results in shortened product life of LED drivers and inevitably increases overall maintenance expenses. With a view to the benefit of lower cost on maintenance, using centralized power solution would be a choice in the long run.
Building Decoration Lighting
The decorative lighting of buildings has been used for partial and single-color lighting of residential buildings. Till now, it is widely used in the large-area lighting on skyscrapers. The international metropolis is full of buildings, large public buildings, and bridges with decorative lighting projected on them. From Berlin, New York, Moscow, London, Taipei, Shanghai Pudong, Hong Kong, Bangkok, to Jakarta.., there are lots of examples of local decorative lighting which is totally different from that on residential or public buildings. In contrast with partial building decorative lighting that was used for residence or public buildings in the past, nowadays building decorative lighting has to cover a much wider area and the color temperature of the lamp is colorful. Thus, the installation and maintenance costs will be much higher if choose traditional wiring method that employs using the independent LED drivers. Due to the aforementioned pain point, the industry began to try to use the centralized power supply to drive decorative lighting projected onto buildings. At the moment, together with DMX lighting controllers and lamps requiring 12-24Vdc working voltage, MEAN WELL's 24Vdc system power supply solution easily gives the control over color temperature emitted from the luminaires and the benefit of reducing maintenance costs.
EV Charging Station
Electric vehicle charging station, also called EV charging station, is an element in an infrastructure that supplies electric power for the recharging of electric vehicles, such as plug-in electric vehicles, including electric cars, neighborhood electric vehicles and plug-in hybrids. At home or at work, some electric vehicles have onboard converters that can plug into a standard electrical outlet or a high-capacity appliance outlet. Others either require or can use a charging station that provides electrical conversion, monitoring, or safety functionality. These stations are also needed when traveling, and many support faster charging at higher voltages and currents than are available from residential EVSEs. Public charging stations are typically on-street facilities provided by electric utility companies or located at retail shopping centers and operated by many private companies.
Information and Communication
In the past, information and communication technology (ICT) belonged to two different segments. With the evolution and development of technology, the two segments gradually merged into one. In the past, information systems and communication systems have different power requirements and gradually integrated into similar or identical specifications. In addition to the increasing demands on power from ICT products and stricter requirements on electrical specifications by the industry, Mean Well continues to develop new products and expand product lines to satisfy power needs for different applications in ICT market segment.
Medical Application
The appropriate medical power supplies shall be selected based on the end systems electrical requirements, such as 2x MOPP isolation requirement, built-in or external installations, low touch current, multiple output voltages to drive different sub-systems and etc. MEAN WELL can provide medical power solutions with 3~55VDC and power ratings ranging from 400 to 1200W. In the existing product line-up, NMP and UMP series are all suitable for BF rated medical systems that whenever those are in use, in most cases normally sensors shall be attached to patients through wires or instruments are very close to human bodies. Therefore, a safe and reliable power solution is required. Moreover, among usage scenarios in medical world, configurable power supply perfectly fits power requirements for Diagnostic Imaging System, Medical Treatment Equipment, Medical Aesthetic Device, Biochemistry and Immunity Analysis, Electrical Assistive Device and much more.
| SERIES | CHARACTERISTIC | POWER SELECTION |
|---|---|---|
| NMP Series | The NMP series is a medical grade modular power supply, specifically designed for systems that require multiple DC voltages and have limitations in space. Front-end include 650W and 1200W models and will pair with DC output modules for a complete system. In order to simplify the design, there are only 5V, 12V, 24V, and 48V four types of output modules that can cover 3V~55V voltage applications. Each module can output up to 240W and has built-in voltage and current adjustment functions. Key product features include: modular design with flexible output configurability, 1U low profile enclosure, compliance to ITE (62368-1) and medical (60601-1) dual safety, 2xMOPP isolation level, 5 years warranty. Suitable for many types of ITE equipment and medium to high power medical systems, NMP is the perfect power solution for medical systems. |  650W  1200W |
| UMP Series | UMP series cannot only can be used as a single enclosed PSU, but also a multiple outputs PSU if installs the available NID35/65/100 series DC-DC converter module cards into the UMP-400 PCB. In our planning, UMP-400 as a standard product it just supplies single output rail, either 24 or 48V. When you need multiple output rails, please contact MEAN WELL. We can provide customized services immediately. Up to 4 rails of output voltage can be provided. |  400W |
| RCP Series |
|  1000W  1600W  2000W  RCB-1600  RCP-1U  RHP-1U  RKP-1U  RCP-MU |
| NCP Series |
|  3200W |
| CMU2 Series |
|  CMU2 |
| DRP Series |
|  3200W  DHP-1UT  DBR-3200 |
Complete rack mountable front end solution: rectifier and charger