Moonleds Opto-electronics helps customers to get the highest levels of performance in LED Lighting. We manufacture best in class LEDs including SMD LED, COB LED, High Power LED, UV LED, IR LED, PCB design and SMT service, which are widely applied to various applications such as general lighting, horticulture, sterilization, studio lighting, landscape & and architectural lighting.

- High luminous output up to 170lm - Reliable ceramic base and branded chip raw material - Supporting high current work condition max 1000mA - Good choice for Architectural lighting, Outdoor landscape, LED light therapy, Emergency warming light, etc

With increased power output, high power LEDs generate more heat. Efficient heat dissipation is crucial to maintaining the performance and longevity of LEDs. High power LEDs require advanced heat sink designs and thermal management systems to prevent overheating, which can lead to a decrease in efficiency and lifespan. Normal LEDs, having lower power outputs, generate less heat and are generally easier to manage in terms of thermal considerations.

The most evident distinction between high power LEDs and normal LEDs lies in their power output. High power LEDs are designed to emit a significantly higher amount of light compared to normal LEDs. This increased power output results from advancements in LED chip design, thermal management, and packaging techniques. Normal LEDs, on the other hand, have a lower power output, making them suitable for applications where a moderate amount of light is sufficient.

Light Emitting Diodes (LEDs) have revolutionized the lighting industry with their energy efficiency, longevity, and versatility. As technology has advanced, LEDs have been categorized into different types based on their power output and capabilities. Two prominent categories are High Power LEDs and Normal LEDs. Let's delve into the differences between these two types and explore their applications, advantages, and considerations.

• Available in a low- and a mid-power version and features compact dimensions of 3.5 mm x 3.5 mm. • Beam angle 60 degree and 120 degree optional. • With a wavelength of 275 nanometers, both versions are ideal for disinfection applications. • Complete·radiant intensity version from 3 milliwatts to 50milliwatts.

High power LEDs generally have higher efficiency compared to normal LEDs in terms of light output per watt of electrical power consumed. This efficiency makes high power LEDs suitable for applications where maximizing brightness while minimizing power consumption is crucial. Normal LEDs have lower efficiency but can still provide adequate illumination for their intended uses without excessive power consumption.

Rosemount 1495

- 12W High Power Ceramic LED - UV Color 365nm, 370nm, 380nm, 395nm, 405nm, and 60 degree, 120 degree available - Low energy consumption, fast startup and no pollution - Widely used in medical field, industrial field, agricultural field, environmental field.

• Package Size: 5.0(L) ×5.2(W) ×1.1(H) mm • Silicone Packed, milky Diffused • Full Color RGBW 4 in 1 • RoHS compliant, EN62471 • Super long lifetime: > 50000 hrs • Consistent Color and Smooth light quality • Suitable for different working environment

- Double Color combination, White and Infrared 740nm, 850nm, 940nm - High Power Density and Uniform Emission - Industry standard package configurations (3.45*3.45 SMT) - Low thermal resistance, High efficacy

Indicators and Displays: Normal LEDs are widely used as indicator lights on electronic devices, appliances, and control panels. They are also used in digital displays and signage.

• Sunlike full spectrum version • High efficiency 140-150lm/w with 98 CRI • Industry standard footprint for drop-in replacement designs • Consistent Color, Smooth light quality, Tight color control • Spectrum engineered products with accurate phosphor blending to enable the right lighting for specific application

SMD LED (Surface Mount Device Light-Emitting Diode) is a type of LED that is widely used in various applications due to its small size, efficiency, and versatility.

Rosemount1595manual

• 4in1 RGBW LED • High cost performance • Ceramic base • Thermal-electric isolation • High thermal conductivity • Good air-tightness for tough conditions • Reflow soldering available • Excellent color mixing performance

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With the deep understanding of photographyand filmapplication, Moonleds develops its high CRI SMD LED with a technical balance of spectrum between biological vision and electronic induction.Meanwhile advanced led packaging technique makes two different color in one possible.

Emerson 1495

• 3in1 RGB LED • High cost performance • Ceramic base • high thermal conductivity • Reflow soldering available • Excellent color mixing performance

LED grow lights have revolutionized the way plants are grown indoors. Among them, full spectrum LED grow lights are becoming increasingly popular.

Outdoor Lighting: High power LEDs are preferred for outdoor applications such as floodlights, landscape lighting, and architectural lighting, where their bright and focused output is beneficial.

- Invisible infrared spectrum 810nm, 830nm, 850nm, 880nm - Single wavelength and multi-color combination customization - Low power consumption, environmentally friendly and harmless - Used in Physical treatment, LED light therapy, Thermotherapy, Hyperthermia, medical beauty, etc

High power LEDs tend to be more expensive due to their advanced chip designs, heat dissipation requirements, and packaging technologies. Additionally, the installation and management of high power LEDs can be more complex due to their higher power demands and heat generation. Normal LEDs are more cost-effective and easier to manage, making them a popular choice for simple lighting applications.

Both high power LEDs and normal LEDs are known for their long lifespans compared to traditional lighting technologies. However, the lifespan of high power LEDs might be affected if proper heat dissipation is not ensured. Normal LEDs, having lower power outputs, are generally less prone to thermal issues, leading to a potentially longer lifespan.

In summary, the primary differences between high power LEDs and normal LEDs lie in their power output, luminous intensity, heat dissipation requirements, applications, efficiency, cost, and complexity. High power LEDs are designed for applications that demand intense and efficient illumination, while normal LEDs are more suited for indicators, displays, and decorative lighting. The choice between these two types depends on the specific requirements of the application, considering factors such as brightness needs, power consumption constraints, and budget considerations. As LED technology continues to evolve, both high power LEDs and normal LEDs will play significant roles in shaping the future of lighting solutions across various industries.

Light Emitting Diodes (LEDs) have revolutionized the lighting industry with their energy efficiency, long life, and small size.

​​​​​​​As an experienced provider of LED lighting solutions, is proud to announce the launch of three new COB LED products that offer exceptional performance and energy efficiency.

LED COB (Chip on Board) lighting is becoming increasingly popular due to its high efficiency, long lifespan, and versatility.

- 3W 3535 SMD LED - Green Color 520-530nm LED Chip - Ceramic base, Epileds, and Sanan Chip - Super high lumen output 240-260lm - Max forward current 1000mA - >50000 hrs

The number of watts required for an LED aquarium light will depend on various factors such as the size of the aquarium, the type of aquatic plants or animals in the tank, and the desired lighting intensity.

1195pds

High power LEDs produce a higher luminous intensity, which refers to the amount of visible light emitted per unit solid angle. This increased luminosity allows high power LEDs to illuminate larger areas or provide brighter illumination in specific applications. Normal LEDs, due to their lower power output, have lower luminous intensity and are more suited for decorative or indicator purposes.

3535 RGB SMD LED, 3 in 1 multicolor led chip, with flat frosted slicone lens, delivers excellent color mixing performance and creates great color uniformity. It's widely used in landscape lighting, and architectural lighting.

Rosemountpds

Moonleds high power intensity Red Copper COB 100W 150W 200W with mirror coating delivers excellent light efficacy 180lm/w. Pure gold wire bonding and branded chips applied ensures great reliability of the COB LED Chip.

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Automotive Lighting: High power LEDs are used for headlights, brake lights, and indicators in vehicles due to their brightness and efficiency.

Purpose: To investigate the use of antibiotics in hospitals, to explore drug-related problems (DRPs) linked to antibiotics and to introduce a novel way of expressing the risks accompanying use of various antibiotics.

High power LEDs find applications in various sectors where strong and efficient illumination is essential. These include:

• 4 in 1 RGBW 5050 SMD LED • Super high lumen output • High Power Ceramic Packaging • Forward current up to 1A available • Epileds, Sanan brand chip

Decorative Lighting: Normal LEDs are often used for decorative purposes, such as in string lights, Christmas lights, and mood lighting.

3051SFCpds

-SMD LED 3535 standard package -Pure and nice Amber light 590-595nm -Suitable for architechtural and industrial lighting

Backlighting: Normal LEDs are used as backlighting for LCD screens, keyboards, and other devices where a uniform and low-intensity light source is needed.

Emerson Orifice

Moonleds 5w 3535 SMD LED in standard package 3.45mm x 3.45mm, is designed for high flux output applications. The advanced eutectic technology and low thermal resistance achieve high reliability. Super high lumen output up to 600lm at rated current 1.5A makes it the most reliable and efficient choice for industrial lighting.

COB LED (Chip-on-Board LED) lights have gained significant popularity in recent years due to their numerous advantages over traditional lighting solutions.

Choosing the right color rendering index (CRI) is essential when it comes to selecting the appropriate lighting solution for a particular space or application.

Conclusions: Nearly half of the hospitalised patients were prescribed antibiotics and antibiotic associated DRPs occurred frequently. The drug risk ratio for the different antibiotic groups varied with a factor of six from the lowest to the highest. A high drug risk ratio would alert of antibiotics which require heightened awareness when going to be used in clinical practice.

- High CRI 98, TLCI of 95, True color reproduction - Super lumen output, bright, pure and consistent white - Outstanding efficiency lm/W at rated forward current - 3 Volts & 6 Volts & 9 Volts options - Video shooting, photography, studio and film lighting

Phosphor Converted LED Super efficiency lm/W PC Amber LED low CCT 1700-1800K; High reliability 5050 EMC package design; 5050 LED 24V, 6V and other voltage options; Low thermal resistance material. > 50000 hrs

1199PDS

General Lighting: High power LEDs are used in applications where they can replace traditional lighting sources like incandescent or fluorescent bulbs. They are commonly employed in street lighting, stadium lighting, and industrial lighting.

- High luminous output up to 170lm - Reliable ceramic base and branded chip raw material - Supporting high current work condition max 1000mA - Good choice for Architectural lighting, Outdoor landscape, LED light therapy, Emergency warming light, etc

Methods: Patients from internal medicine departments in four Norwegian hospitals were prospectively included in 2002. Demographics, drugs used, medical history, laboratory data and clinical/pharmacological risk factors were recorded. DRPs were identified by clinical pharmacists and assessed in multidisciplinary hospital teams. A new term, the drug risk ratio, was established and defined as the number of times the antibiotic was associated with DRPs in relation to the number of times it was used.

Results: Out of the 668 patients included, 283 patients (42%) used antibiotics (AB users). AB users were older (76.2 vs. 73.9), used more drugs on admission (5.1 vs. 4.4) and had more DRPs (3.0 vs. 2.2) than non-users. The DRP categories no further need for drug, non-optimal drug and non-optimal dose were most frequently observed. The drug risk ratio, calculated for 12 antibiotic groups, was highest for aminoglycosides (0.77), beta-lactamase-resistant penicillins (0.56), macrolides (0.54) and quinolones (0.48) and lowest for first- and third-generation cephalosporins, 0.17 and 0.13, respectively.

SMD LED chips are the most commonly used type of LED chips in the market. SMD stands for Surface Mounted Device, which refers to the way the chip is packaged.

Moonleds high power Ceramic 3w 3535 Blue LED features high reliability and color consistency, wavelength from 440nm to 485nm, is suitable for specific lighting solutions which require different blue lights.

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