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garvind25

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SMD LED size for beginners

« on: September 10, , 03:48:56 pm » Hi,

  This is the first time I will be using SMD LEDs for a project. Can anyone suggest a size of LED which beginners can start off with.

Thanks,
Arvind Gupta

stmdude

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Re: SMD LED size for beginners

« Reply #1 on: September 10, , 03:57:48 pm » There's so much information missing here..

Have you worked with SMD components before?  If so, what sizes?

Do you want/need RGB diodes?  Is the intensity of the light a factor (bigger LEDs = More light) ?

I'll use myself as an example. I'm working with components all the time, and thinking of going to . However, I'm using LEDs, as I like the amount of light coming from them (not quite as "sharp" as s).

If you have good eyes, you could probably solder without a microscope. The following users thanked this post: garvind25

garvind25

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Re: SMD LED size for beginners

« Reply #2 on: September 11, , 06:46:03 am » Thanks for you reply. Intensity of light is not a factor-- using LEDs as indicators only; though lesser the current the better (about 8 to 10 mA). Colour-- the one which has minimum voltage drop; I suppose it is red colour. Yes I have soldered OP07 smds before.

Regards,
Arvind Gupta

Kjelt

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Re: SMD LED size for beginners

« Reply #3 on: September 11, , 07:54:53 am » Indicator only then it does not matter much. I like the personally since they also fit snugly between TH prototype board pads, so they can be use also for normal prototyping.
If you only want it for SMD pcbs then are good.

Voltage drop and color:  http://www.lumex.com/article/led-color-guide

Note that the human eye is the most sensitive to green so although it has a slightly higher voltage drop you need less current to make it more easy to detect by the human eye. The following users thanked this post: ratio, garvind25

grifftech

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Re: SMD LED size for beginners

« Reply #4 on: September 11, , 06:03:39 pm » biggest one you can find The following users thanked this post: ludzinc

stj

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Re: SMD LED size for beginners

« Reply #5 on: September 11, , 07:33:00 pm » so 's then! 

suicidaleggroll

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Re: SMD LED size for beginners

« Reply #6 on: September 11, , 07:52:12 pm » I typically use your typical green LEDs for indication, eg:
https://www.digikey.com/product-detail/en/wurth-electronics-inc/VS/732--1-ND/

Feed it 0.1-1.0 mA and you're set.  They get a little dim running at 1.8v, but you can still see them clearly, and at 2.5V or higher drive voltage with the resistor sized for around a milliamp they're more than bright enough.

If you're not comfortable soldering then you'll want to go larger, naturally.  We don't know what your capabilities are. « Last Edit: September 11, , 07:56:00 pm by suicidaleggroll »

NivagSwerdna

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Re: SMD LED size for beginners

« Reply #8 on: September 11, , 08:14:10 pm » So many choices... e.g. look at http://www.kingbrightusa.com/category.asp?catalog_name=LED&category_name=KCSMD+LED

For single colour SMD boring LED... (very standard on Arduino boards or the like) or (very standard where tight for space).

The dual LEDs are rather nice too...

Small things eg tend to be much cheaper.

alank2

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Re: SMD LED size for beginners

« Reply #9 on: September 12, , 02:58:44 am » I tend to use sized parts because they are easier to work with.  If I need to make something smaller, then I'd go smaller.

garvind25

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Re: SMD LED size for beginners

« Reply #10 on: September 12, , 02:31:00 pm » Thanks for all your replies. I suppose being a rookie, I will stick to size. As far as colour is concerned, I will will go for red (as the cheap PCBs have green colour finishing). Just 2 more things:

** How much current should I feed a red LED. I suppose 1-2 mA will be quite less.

** In eevblog forum, once I have seen a post, how do I get back to it again. I couldnt find a link which indicates 'my posts'/ 'my recent activity' etc. Presently, I have to rewind myself to remember in which forum topic I had posted my query and then search the list. It takes quite an effort

Again, thanking all,

Arvind Gupta.

stj

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Re: SMD LED size for beginners

« Reply #11 on: September 12, , 03:26:38 pm » datasheets are your friend here,
different leds produce different output for the same current.
KingBright is probably the company that you will run across the most.
all the sellers stock them.
http://www.kingbright.com/

garvind25

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Re: SMD LED size for beginners

« Reply #12 on: September 12, , 03:50:38 pm » OK thanks. I checked the kingbright site for IV curves of SMD LEDs for and red colour. The current required seems very high for 2 v drop across led.

/ --> 30 mA for 2v

So I suppose thats too high ! Pls. help (or maybe something is wrong in my understanding).

link --> http://www.kingbright.com/attachments/file/psearch/000/00/00/KPHCM-SURCK(Ver.12A).pdf
link ---> http://www.kingbright.com/attachments/file/psearch/000/00/00/KPT-SURCK(Ver.19A).pdf

Regards,
Arvind Gupta

alank2

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Re: SMD LED size for beginners

« Reply #13 on: September 12, , 03:54:52 pm » My favorites for reasonable current are APTCGCK and APTSURCK.

Then there is the HELI2 series from kingbright, all have 2mA current listed for the test condition:

https://www.digikey.com/products/en/optoelectronics/led-indication-discrete/105?k=&pkeyword=&s=&FV=ffe&mnonly=0&ColumnSort=0&page=1&stock=1&quantity=0&ptm=0&fid=0&pageSize=100

DaJMasta

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Re: SMD LED size for beginners

« Reply #14 on: September 12, , 04:30:29 pm » Though you have plenty of input:

I've sort of standardized around parts because they're a nice mix of inexpensive, small, and still fine to work with by hand.  LEDs tend to be just a bit more challenging than other parts of the same size (usually the pads on the end are a tiny bit smaller and you always have to remember how their polarity is marked on the top side  ), but are still plenty doable by hand.  You run slightly higher risk using smaller and smaller parts in that you can't heat them for as long while soldering, but honestly, it's pretty rare that you have to apply heat for very long to an SMD part, and I can't remember the last time I burned out something with just the iron.

For indicators, I also end up using 5mA or less, usually... and blue/white LEDs, with their much higher voltage drop, often need considerably less to not stick out like a sore thumb.  Red/orange LEDs are great for low voltage, low current operation, but sometimes you just need more than one color.

Ian.M

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Re: SMD LED size for beginners

« Reply #15 on: September 12, , 04:31:42 pm » Forum navigation:
At the top, just below 'Hello '
you will see 'Show new replies to your posts.'  Click it for a list of UNREAD replies to your posts.   If you need to go back to something you posed to but have already read, goto your profile and use show posts, find the last post you made to the topic in question and click the link to get back to the actual topic.   If you need to 'bookmark' a post to reread and don't want to reply you can simply use the button to thank it, as show posts also has a section for stuff you've thanked.

Many SMD LEDs are excessively fragile if hand soldered, and really need  reflowing with a well controlled temperature profile for reliability.  It is possible to hand-solder many packages but even slight pressure on the package when its hot can result in failure, and manual hot air reflow may cook the LED.  Damaged bond wires may not initially cause a problem if they are still making contact but may cause the LED to start blinking due to intermittent contact, or fail totally a considerable time later.  As such whenever manual assembly is a requirement its worth choosing a package and laying out the board for easy assembly - extra pad length so you've got room to get the iron tip on it without nudging the LED, and try to avoid small packages, and ones that have a substrate heatsinking pad under the package. The following users thanked this post: NivagSwerdna

suicidaleggroll

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Re: SMD LED size for beginners

« Reply #16 on: September 12, , 06:56:37 pm »

OK thanks. I checked the kingbright site for IV curves of SMD LEDs for and red colour. The current required seems very high for 2 v drop across led.

/ --> 30 mA for 2v

That's the absolute maximum current, you need considerably less than that to turn it on.  I would start with 1mA, but buy a few extra resistors of different sizes in case you want to go brighter/dimmer.

Kjelt

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Re: SMD LED size for beginners

« Reply #17 on: September 12, , 09:36:41 pm » Use a low ohm resistor say 100 ohm in series with a ten turn trimpot of 2k or 5k ohms in series with your led and see which brightness you like, then measure the total resistance and take the first E12 value that comes nearest to that.

westfw

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Re: SMD LED size for beginners

« Reply #18 on: September 14, , 06:35:44 am » I bought a bunch of resistors and PLLC2 LEDs when I was first contemplating using SMT, and while they're pretty easy to solder, I find them to be depressingly "not any smaller than 0.1in TH components" (vertically mounted resistors, or 3mm LEDs) when it comes to PCB footprint.  So more recently I've been working with components, which seem to be a better compromise.

As for current, most LEDs are still RATED for 20 to 30mA, even though they're much brighter than the 30mA LEDs of 40 years ago.  For indicator LEDs... I usually throw 1k resistor in series (3-5mA current) with LEDs (mostly because I'm a big believer in using lots of same-value components), and that's plenty to too-much for any modern LED.  There are a bunch of development boards (TI Launchpad!) where I've drawn over the LEDs with sharpie, because they're painfully bright otherwise... 
One thing to watch out for is power rating of the resistors - 30mA through a 100ohm resistor is 0.09W, which is a little close to the max rating of 0.1W for a typical resistor.

mariush

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Re: SMD LED size for beginners

« Reply #19 on: September 14, , 06:45:40 am » Also don't forget to check out the VIEWING ANGLE

A very narrow angle will make your led behave like a laser pointer and burn the person's eyes   Could be desired if you have for example light guides  / light bars / light pipes

Otherwise for simple indication (on/off , etc) you may want wide viewing angle.

Kjelt

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Re: SMD LED size for beginners

« Reply #20 on: September 14, , 06:48:56 am »

One thing to watch out for is power rating of the resistors - 30mA through a 100ohm resistor is 0.09W, which is a little close to the max rating of 0.1W for a typical resistor.

is usually 0,05-0,06W power rating however half their body is drowned in solder which is a great heatsink so I always wonder how far one can get away with that 
For reliable long life designs I would definitely stick to the power rating,use two resistors in series if necessary or larger ones.

What is an SMD LED? Categories, Applications, Best Brands

SMD LED refers to an ultra-compact LED chip mounted directly onto a printed circuit board (PCB) using surface-mount technology (SMT). With its small size, high lighting efficiency, and energy-saving performance, SMD LED is widely used in modern lighting. This article will walk you through its structure, how it works, different types, major advantages, and top-rated manufacturers to help you choose the right solution.

What is an SMD LED?

An SMD LED, short for Surface-Mounted Device Light-Emitting Diode, is a type of LED designed to be mounted directly onto a printed circuit board (PCB) using surface-mount technology (SMT). Unlike traditional LEDs that require wire leads for connection, SMD LEDs use tiny metallic contacts to be soldered directly, simplifying the assembly process and conserving space on the circuit.

SMD LEDs represent a refined version of traditional LEDs, offering several enhanced features. They typically appear as small rectangular chips (parallelepiped shape), with yellow or orange surfaces that produce warm or cool white light depending on the materials and design.

Each SMD LED consists of several key components: a LED chip, printed circuit board (pcb), thermal adhesive, aluminum base and an outer encapsulation made of epoxy resin or silicone for protection.

The main difference between SMD LEDs and traditional LEDs lies in their construction and mounting methods. While conventional LEDs are typically mounted through holes with long wire leads, SMD LEDs are affixed directly to the surface of the PCB without wires.

This results in a more compact, energy-efficient, and flexible design that is easier to integrate into modern electronic systems. For this reason, SMD LEDs are widely used in applications like decorative lighting, screen backlighting, and smart lighting solutions.

Structure of SMD LED

The SMD (Surface-Mount Device) LED is designed for efficient light output, stable performance, and long-term durability. Each component plays a crucial role in light generation, thermal management, and mechanical protection. Below are the key elements that make up its structure:

• Phosphor Layer: A thin coating of phosphor material applied over the LED chip (primarily for blue chips in RGB SMD LEDs when producing white light).
• Lens: Covers the LED chip to direct and diffuse light output effectively.
• Printed Circuit Board (PCB): Serves as the foundation for the LED chip and other components, offering mechanical support and electrical connectivity. Made from laminated copper and insulating materials, it enhances safety, shock resistance, and longevity.
• LED Chip: The core of the SMD LED, containing a semiconductor layer between the anode (P-type) and cathode (N-type). Electroluminescence occurs when an electrical current passes through, producing visible light. Many SMD LEDs use FLIP-CHIP technology, which improves sealing, independent chip operation, and uniform illumination.
• Bond Wire: Connects the LED chip to the electrical circuit, ensuring stable operation.
• Heat Sink: A heat sink is a device that dissipates heat away from the LED light source. It prevents overheating and protects the light from damage. Thus, it also expands the life expectancy of any LED.

How does an SMD LED work?

Traditional LEDs (such as LED DIP) typically use three to four high-powered chips with beam angles ranging from 25 to 40 degrees to generate a single point of light. In contrast, SMD LEDs adopt a more compact approach, utilizing five or fewer lower-power chips, each with narrower beam angles around 20 degrees, positioned closely together in clusters.

The proximity of these chips allows their light outputs to overlap and blend, producing a broader and more intense beam than that of isolated individual chips. Despite each chip drawing less power, their combined effect results in brighter illumination and greater energy efficiency.

Because of these advantages, SMDs have become the preferred choice in high-density LED strip applications. With more low-wattage chips distributed across a single strip, users can achieve enhanced brightness while maintaining relatively low production costs and extended service life.

Common Types of SMD LED

When browsing LED products, you’ll often come across four-digit codes like , , or . These numbers aren't random, they indicate the physical dimensions of the LED chip. Specifically, the first two digits represent the width, and the last two represent the length, both in tenths of a millimeter. For instance, a LED measures 3.5mm x 2.8mm, while a LED is 5.0mm x 5.0mm.

In general, larger LED packages can handle more power due to increased surface area for heat dissipation. However, that’s not a fixed rule, modern designs like the can outperform older packages of the same size by using improved thermal structures and advanced materials such as PPA, PCT, or ceramic substrates.

Beyond size codes, SMD LEDs are classified based on various other criteria to better suit diverse lighting, decorative, and electronic applications. These include chip structure, light emission direction, and application-specific requirements. Below are the most common classification types used in the industry.

1 - Classification by Chip Code

SMD LED Code Size (mm) Reference Power (Watt) CRI Luminous Flux Key Features 5.0 x 5.0 0.2W - 0.24W per chip (3 chips) 80 - 95 18 - 28 High brightness, RGB capable, used in LED strips, floodlights and high-output lighting 5.6 x 3.0 0.5W - 0.6W 92 - 95 28 Super bright, suitable for ceiling and panel lights 5.7 x 3.0 0.5W - 0.7W 80 - 95 60 - 75 Upgrade of , high efficiency, used in high-lumen applications 2.8 x 3.5 0.1W - 0.5W 80 - 98 10 - 60 Excellent heat dissipation, long lifespan, more energy-efficient than , ideal for for ceiling and panel lights 3.0 x 1.4 0.1W - 0.2W 80 - 90 10 - 14 Uniform light, ideal for LED strips and decorative lighting 2.1 x 1.0 0.1W - 0.2W 80 - 95 8 - 10 Ideal for home interiors, commercial spaces, exhibitions, vehicles, signage, and architectural lighting 3.5 x 2.8 0.06W - 0.08W 80 - 90 7 - 9 Moderate brightness, used in backlighting or smaller LED strips, indicator lights, lighting for ambiance, etc 0.6 x 0.3 0.06W - 0.08W 80 - 90 20 - 48 Ultra-compact, used in indicator lights and small backlighting 0.8 x 0.5 0.08W - 0.1W 80 80 - 200 Brighter than , used in button backlighting and home décor lighting 1.0 x 1.0 0.05W - 0.1W 90 70 - 105 Small size, medium brightness, suitable for compact applications

In addition to the commonly used codes like , , and , there are several other SMD chip codes designed for more specialized applications in LED strip lighting:

• SMD: Known for their circular light-emitting surface, these chips are compatible with secondary optics and lensing. Designed to operate at high currents (300 mA and up, up to 1.0W), they are typically underdriven in LED strips due to thermal constraints.
• 315 SMD: Often used in inside-emitting strip lights, these chips work at 12V or 24V and commonly emit white light.
• SMD: A preferred choice for RGB LED strips, especially in outdoor and decorative lighting applications due to their compact size and color capabilities.
• SMD: Found in RG, BW, dual white, and dual color LED strips, these chips offer adaptive color tuning and can simulate natural daylight for more dynamic lighting control.

2 - Classification by Structure & Emission Direction

Beyond size codes, SMD LEDs are also categorized by their structure and light emission direction, broadening their applications in electronics, interior lighting, and modern design solutions.

• Chip SMD LEDs: The most common type, featuring a flat, compact design that can be mounted directly onto a circuit board. With good heat dissipation and ease of mass production, these are widely used in consumer electronics and lighting devices.
• Top SMD LEDs: Designed to emit light directly upward, this type is ideal for applications requiring large surface illumination or focused lighting, such as ceiling lights, signage, or spotlights.
• Side View SMD LEDs: This type emits light sideways, parallel to the circuit board, making it suitable for edge-lighting applications like backlit keyboards or displays. Thanks to its unique light direction, it fits well into slim lighting designs or narrow illumination uses.

3 - Classification by Color Temperature & Color Options

SMD LED strips are available in a wide range of color temperatures: warm white (K - K), neutral white (K - K), and cool white (K - K), offering tailored lighting atmospheres for different settings. For visual effects or signage, SMD strips also come in mono-color options like red, green, blue, and yellow. Additionally, RGB and addressable RGB variants enable dynamic, color-changing lighting for creative and commercial applications.

4 - Classification by Waterproof Rating

Depending on use conditions, SMD LED strips are available in non-waterproof (IP20) types for indoor dry areas, and waterproof options like IP65 (silicone coating/tube), IP67 (hollow extrusion), and IP68 (silicone filled/extruded). These protective layers make them ideal for outdoor environments, kitchens, bathrooms, or any area exposed to moisture or dust.

5 - Classification by Input Voltage

SMD LED strips operate on DC or AC power. DC-powered LED strips (commonly 12V or 24V) offer safety and energy efficiency and are widely used in home and decorative lighting. AC-powered LED strips, on the other hand, can connect directly to standard household power sources, making them more convenient for large installations or commercial lighting systems without external power converters.

Advantages & Disadvantages of SMD LED

SMD LEDs have increasingly become a top choice in many lighting applications due to their superior performance, energy efficiency, and design adaptability. Below are some of their most prominent advantages compared to others LED lights:

• High Energy Efficiency: SMD LEDs consume significantly less electricity than traditional lighting technologies, while also generating less heat. This enhances overall energy conservation and reduces operational costs in the long term.
• Compact Size: Thanks to their surface-mount design, SMD LED chips can be attached directly to circuit boards without the need for additional leads, making them ideal for thin and lightweight devices.
• Long Lifespan: With an average lifespan ranging from 50,000 to 65,000 hours, SMD LEDs offer reliable and long-term illumination with minimal risk of flickering or electrical failure.
• High Brightness and Wide Beam Angle: The close placement of multiple small LED chips enables intense and uniform lighting across wide surfaces, outperforming traditional LEDs in both brightness and coverage.
• Design Versatility: SMD LEDs can be seamlessly integrated into a variety of product designs, including slim displays, portable devices, and flexible lighting installations. This makes them ideal for creative lighting applications, especially in tight or unconventional spaces like coves, corners, and beneath cabinets.
• Customization: SMD LED strips can be customized to align with the specific demands of your project. From modifying brightness levels and adjusting strip lengths to choosing connector types or fine-tuning color temperatures, you can customize to ensure optimal compatibility and performance for any intended use.
• Support for Miniaturization: Their small footprint and mounting efficiency align well with modern product trends focused on compact, streamlined design.
• Lower Production Costs and Time: The automated assembly process of SMD LEDs reduces manufacturing time and labor costs, contributing to higher overall production efficiency.
• Wide Range of Applications: SMD LEDs are suitable for a diverse range of applications, from residential lighting and consumer electronics to advertising and architectural installations, thanks to their rich color options and adaptability.

Thanks to outstanding advantages such as high brightness, compact size, and the ability to display a wide range of colors, SMD LED lights are widely used in epoxy lamp products. These features make it easier to design layered images and clearly showcase various color tones within each lamp design.

However, like any technology, SMD LEDs come with their own set of limitations that should be taken into account:

• Dot effect and uneven lighting: The spacing between individual diodes can sometimes result in visible light dots or inconsistent illumination, which may be problematic in precision lighting environments.
• Thermal management challenges: While each chip emits minimal heat, the collective heat from densely packed LEDs can reduce efficiency if not properly dissipated through adequate thermal design.
• Difficult to repair: Since the components are firmly mounted onto the PCB, maintenance and repairs can be complex and more costly compared to COB or DIP-based LED solutions.
• Not ideal for high-end applications: In professional-grade settings requiring anti-glare, anti-static, or waterproof features, SMD LEDs may fall short of meeting the rigorous technical requirements.
• Moisture Sensitivity: Exposure to humidity can lead to internal corrosion and degradation of the chip’s performance over time. To ensure long-term reliability, strict moisture control during storage and careful handling during assembly are crucial.
• Electrostatic Discharge (ESD): SMD LEDs are highly sensitive to electrostatic discharge, which can irreversibly damage the internal circuitry and lead to early component failure. Implementing robust ESD protection protocols such as grounding wrist straps, antistatic workstations, and proper packaging which is essential throughout manufacturing and installation processes.

Application of SMD LED

With outstanding luminous efficiency, compact structure, long lifespan, and remarkable adaptability, SMD LED technology is now widely used across various areas of modern life.

In industrial settings

If you want to learn more, please visit our website Smd Led Design.

Factories and warehouses often adopt SMD LED lighting systems to ensure optimal illumination during operations. The stable and evenly distributed light supports precision in industrial tasks, while also facilitating supervision and control of production processes. Furthermore, SMD LED lighting helps cut down significantly on electricity bills and long-term maintenance costs.

Urban lighting and public infrastructure

In modern urban environments, SMD LED chips are widely used in streetlights, traffic signals, and surveillance systems due to their brightness and durability. Stadiums and shopping malls also utilize SMD LED displays for information delivery and brand promotion.

These displays offer quick content switching and vivid visuals, making them ideal for high-traffic public areas. Government buildings benefit from the technology as well, using LED screens for announcements and administrative guidance.

Interior and exterior lighting

SMD LEDs are frequently found in the lighting systems of commercial buildings, medical facilities, religious institutions, and private residences. Their modern design, space-saving profile, and efficient performance make them a favorite choice for both decorative and functional purposes. Common lighting solutions like LED downlights, LED tubes, LED bulbs, and aluminum LED strips take advantage of SMD chips to offer enhanced user experiences and energy savings.

In residential settings, SMD LED-based lighting solutions such as Hirosart’s Epoxy lamp illustrate the seamless blend of modern technology with artistic craftsmanship. Handcrafted with aesthetic precision, the lamp delivers gentle and stable light ideal for living rooms, bedrooms, or personal workspaces.

Thanks to the versatility and efficiency of SMD technology, these LEDs can be flexibly embedded into various materials like wood, resin, or plastic to create unique lighting designs. If you're looking to bring home a piece that fuses innovation with artistic elegance, check out our handcrafted SMD LED epoxy lamps here and experience lighting reimagined:

• Headphone Stand
• Video Game Lamp
• Movie Themed Lamp
• Anime Lamp

What is the difference between SMD LED and LED?

In the lighting industry, LED (Light Emitting Diode) and SMD LED (Surface Mounted Diode LED) are two commonly used technologies. However, there are significant differences between them in terms of structure, performance, installation, and application. Below are the key comparative factors between these types:

Comparison Criteria Traditional LED SMD LED Structure A single semiconductor diode with two leads (anode, cathode). Multiple small LED chips directly soldered onto a PCB via surface-mount technology. Size Larger, with protruding leads. Compact and space-saving, no long external leads. Light Output Performance Moderate brightness with limited beam angle. Higher brightness with wider beam due to clustered chip arrangement, along with multi-color capability for dynamic and customizable lighting effects Outdoor Brightness Capable of high brightness but struggles with uniformity. Achieves more than 5,000 nits, ensuring visibility under direct sunlight, ideal for outdoor use. Power Consumption Requires more energy to match SMD brightness levels. Consumes up to 40% less power, extending battery life in portable applications. Lifespan Typically less than 50,000 hours. Often exceeds 50,000 hours; premium models last up to 100,000 hours. Common Applications Indicators, indoor lighting, simple signage. LED strips, large displays, outdoor digital signage, traffic information boards, color-changing systems Integration Capability Limited to simple, standalone uses. Easily combined into powerful, uniform lighting systems (architectural lighting systems, LED panel lights, under-cabinet kitchen lighting,...) Cost per Lumen Higher when measured by brightness per unit cost. More cost-effective for the level of brightness delivered.

How to choose a SMD LED?

Selecting the right SMD LED is a critical step in ensuring the effectiveness and longevity of any lighting or display system. To ensure proper performance, users must evaluate various technical and environmental factors before making a decision.

1 - Define the Application

Start by identifying the intended use of the LED in the project. Is it for general lighting, signage, indicators, or a specialized application? Each use case requires different brightness levels, colors, and power specifications.

2 - Key Technical Factors to Consider

To accurately select an SMD LED chip that suits your needs, users need to consider a series of important technical factors to ensure optimal lighting performance and long-term durability.

• Brightness: Measured in lumens (lm) or millicandela (mcd), brightness should be selected based on application needs. For outdoor displays, a high brightness level (above 5,000 nits) is essential, while indoor indicators can function with lower levels.
• Color: SMD LEDs come in a variety of colors, including red, green, blue, yellow, white, and RGB. The appropriate color should align with the application’s visibility and aesthetic requirements.
• Forward Voltage (Vf): This is the operating voltage required by the LED. The selected LED’s forward voltage must be compatible with the power supply to ensure safe operation.
• Viewing Angle: Determines how wide the light is distributed. Applications requiring broad visibility (e.g., outdoor signage) will benefit from a wide viewing angle, while targeted lighting needs narrower angles.
• Forward Current (If): The current needed for LED operation. The power source must supply sufficient current while staying within the LED’s rated limits to preserve lifespan.
• Package Size (Footprint): Sizes such as , , , , , , and reflect physical dimensions. Selecting the right size ensures compatibility with PCB layout and assembly processes.
• Thermal Management: High-brightness or continuous-use LEDs generate heat. Effective heat dissipation must be designed to prevent performance degradation and ensure safe operation.
• Lifespan and Reliability: Rated in operating hours, lifespan varies by quality. Choosing LEDs from reputable manufacturers helps ensure long-term reliability and performance.
• Dimming Compatibility: Some applications require brightness adjustment using techniques such as PWM (Pulse Width Modulation). Compatibility should be verified if dimming is needed.
• Environmental Conditions: In environments exposed to moisture, heat, or dust, specialized LEDs with protective features should be selected for durability.

3 - Review the Datasheets

Datasheets offer detailed specifications including voltage, current, brightness, color, and thermal characteristics. Reviewing this technical documentation is essential to making an informed decision.

4 - Choose a Reputable Manufacturer

Reputable manufacturers such as Moonleds deliver high-performance LED solutions with quality assurance. Their offerings include SMD LED, COB LED, high-power LEDs, UV/IR LEDs, and related PCB design and SMT services for a wide range of lighting applications.

5 - Sample and Test Before Bulk Purchase

Sampling allows real-world validation of the LED’s performance, color accuracy, and thermal behavior. This step helps avoid compatibility issues in large-scale implementations.

6 - Consider Quantity and Cost

Bulk purchases often come with discounts. However, comparing suppliers and verifying product consistency remains essential to balance cost-effectiveness with quality.

7 - Integration Into Circuit Design

Once the suitable SMD LED is selected, proper integration into the system through correct surface-mount soldering and thermal management, ensures consistent and reliable operation over time.

Reputable SMD LED Chip Manufacturers

Choosing LED chips from trusted manufacturers ensures stable performance and durability. Below are four leading global brands in this field:

• Cree (USA): A pioneer in the LED industry since , Cree offers a broad power range suitable for both residential and industrial lighting. With a CRI of 80 - 85 and a wide color temperature range, Cree’s LEDs are known for delivering high brightness and consistent color quality.
• Nichia (Japan): Known for producing all its chips exclusively in Japan, Nichia ensures full control over its manufacturing processes. The brand is praised for its high color rendering accuracy, stability, and long lifespan – making it ideal for applications requiring precision lighting.
• Osram (Germany): As one of the oldest names in the field, Osram provides LED chips with outstanding performance and luminous intensity, particularly effective in compact or demanding environments. Osram’s products are widely used in specialized and industrial-grade lighting systems.
• Epistar (Taiwan): The largest LED chip manufacturer in Taiwan, Epistar focuses on cost-effective, high-volume production. It offers popular SMD models like , , and , with CRI > 70. These chips are commonly found in general lighting, signage, and commercial display solutions.

FAQs

Is SMD better than LED?

Yes. SMDs are not only brighter than traditional LEDs but also more energy-efficient and cost-effective. That’s why most LED lights and strip lights today use SMD technology.

What is the lifespan of SMD LED?

With proper thermal management, SMD LEDs can last over 50,000 hours. Instead of burning out suddenly, they gradually dim over time. They also outlast LED tubes.

Which type of LED is best?

LED bulbs that meet Energy Star standards and consume less than 9 watts, like Feit LEDs, are considered among the most efficient and reliable options today.

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