1.4 inch height 5×8 LED dot matrix | Green

Article No:

BL-M14A581G

Color: 

Green

Weight:(g/pcs)

Dimension:(mm)

x x

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Article No
color
material
wavelength
apperance
v_typ
v_max
luminous_min
luminous_typ
degree
ultra Blue
InGaN/SiC
470
4.2
25
55
Super Red
GaAlAs/DH
660
2.2
75
115
Ultra Red
AlGaInP
660
2.5
110
Ultra Green
AlGaInP
574
2.5
130
Orange
GaAsP/GaP
635
2.5
55
95
Orange
GaAsP/GaP
635
2.5
90
Green
GaP/GaP
570
2.5
95
Green
GaP/GaP
570
2.5
60
100
Ultra Pure Green
InGaN/SiC
525
4.2
115
155
Hi Red
GaAlAs/SH
660
2.2
65
105
Super Red
AlGaInP
660
2.5
100
Green
GaP/GaP
570
2.5
95
ultra Blue
InGaN/SiC
470
4.2
35
75
Ultra Orange
AlGaInP
630
2.5
65
105
Ultra Orange
AlGaInP
630
2.5
100
Ultra Green
AlGaInP
574
2.5
130
Ultra Green
AlGaInP
574
2.5
105
135
Ultra Red
GaAlAs/DDH
660
2.2
95
125
Ultra Yellow
AlGaInP
590
2.5
65
105
Ultra White
InGaN
-
4.2
105
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Product Series information
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Product Series
Series No:BL-M14A581
Specification Download:
Dimension
23.4 × 37.4 × 7.95 mm
Description:
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1.4 inch height 5x8 LED dot matrix

Features

 
  • Matrix Height: 1.4 inch Matrix Height(35.90mm)
  • Matrix Size: The matrix has a height of 23.4mm and a width of 23.40mm, offering a compact yet effective display area.
  • Dot Characteristics: Each dot is 3.00mm in size and circular in shape, providing clear and distinguishable points of light.
  • Column and Row Configuration: With 5 columns and 8 rows, the matrix facilitates a variety of display possibilities in a smaller scale.
  • Low Current Operation: Designed to operate on low current, it is energy-efficient, ideal for sustained use without high power consumption.
  • High Contrast and Brightness: The high contrast and light output ensure that the display is easily readable, even in well-lit conditions.
  • Code Compatibility: Compatible with both ASCII and EBCDIC codes, making it versatile for a range of programming and display needs.
  • Horizontal Stackability: The matrix can be stacked horizontally, allowing for the creation of wider display setups.
  • Anode/Cathode Flexibility: Available with both column cathode and anode options, it provides flexibility in designing electronic circuits.
  • Mounting Ease: The design facilitates easy mounting on printed circuit boards or sockets, enhancing its adaptability in various projects.
  • Luminous Intensity Categorization: The LED dots are categorized for luminous intensity, ensuring consistent brightness across the display.
  • Durability: The matrix is technically rugged, ensuring durability and reliability for various applications.
  • Aesthetics: It features a standard gray surface with white dots, offering a sleek and professional appearance.
  • Environmental Responsibility: Being RoHS compliant, it adheres to environmental standards, reducing harmful electronic waste.

Applications

  • Compact Electronic Displays: Suitable for applications where space is limited but a clear display is needed, such as small electronic devices.
  • Customized Indicators: Ideal for creating customized indicators or readouts in machinery, appliances, or other electronic equipment.
  • Educational Tools: Can be used in educational settings for teaching basic programming, electronics, or for creating simple interactive displays.
  • Interactive Art Projects: Suitable for artists or hobbyists looking to create small-scale interactive or dynamic art pieces.
  • DIY Projects: Perfect for hobbyists or DIY enthusiasts for building custom gadgets, lighting solutions, or experimental projects.
  • Informational Signage: Appropriate for small-scale informational displays in public areas, offices, or retail environments.
  • Portable Devices: Its compact size and low power consumption make it ideal for portable electronic devices.
  • Prototyping: Useful for prototyping smaller electronic components or systems where display information is necessary.
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Dimension and Circuit Drawing:
Related Information

Soldering

When soldering, leave a minimum of 2mm clearance from the base of the base of the lens to the soldering point. Dipping the lens into the solder must be avoided.

Do not apply any external stress to the lead frame during soldering while the LED is at high temperature.

Recommended soldering conditions:

 

IR Reflow Soldering (for SMD display)Wave SolderingSoldering Iron
Pre-Heat150-180°CPre-Heat100°C Max.Temperature300°C Max.
Pre-Heat Time120sec Max.Pre-Heat Time60sec Max.
Peak Temperature260°C Max.SolderWave260°C Max.Soldering Time3sec Max.(one time only)
Soldering Time10 sec Max.Soldering Time5sec Max.

Note: Excessive soldering temperature and/or time might result in deformation of the LED lens or failure of the LED

ESD(Electrostatic Discharge)

Static Electricity or power surge will damage the LED.

Suggestions to prevent ESD (Electrostatic Discharge):

n Use a conductive wrist band or anti-electrostatic glove when handling these LEDs

n All devices, equipment, and machinery must be properly grounded

n Work tables, storage racks, etc. should be properly grounded

n Use ion blower to neutralize the static charge which might have built up on surface of the LED’s

 plastic lens as a result of friction between LEDs during storage and handling

ESD-damaged LEDs will exhibit abnormal characteristics such as high reverse leakage current, 

low forward voltage, or “no light on” at low currents. To verify for ESD damage, check for “light on” 

and Vf of the suspect LEDs at low currents.

The Vf of “good” LEDs should be>2.0V@0.1mA for InGaN product and >1.4V@0.1mA for AlInGaP

 product.

antistatic notice-smd led

When selecting power for LED systems, it’s essential to understand several key parameters to ensure safe operation, longevity, and optimal performance. Here are some steps and considerations for LED power selection:

  • Determine the Forward Voltage (Vf) of the LED(s):

Each LED has a forward voltage, which is the voltage at which the LED operates when the current is flowing through it. This value can typically be found in the LED’s datasheet.

  • Determine the Forward Current (If) of the LED(s):

The forward current is the current at which the LED is designed to operate. Running an LED at higher than its rated current can reduce its lifespan and increase the heat it produces.

  • Decide on the Configuration:

Series Configuration: When LEDs are connected in series, the forward voltages add up, but the current remains the same.

Parallel Configuration: When LEDs are connected in parallel, the forward voltage remains the same, but the currents add up. This configuration can be risky because if one LED fails or has a slightly lower forward voltage, it can cause the other LEDs to draw more current.

Calculate Total Power Requirements:

Power (W) = Total Forward Voltage (V) x Total Forward Current (A)

For example, if you have three LEDs connected in series, each with a forward voltage of 3V and a forward current of 20mA, the total power requirement would be:

Power = (3V + 3V + 3V) x 20mA = 9V x 0.02A = 0.18W

  • Select an Appropriate Power Supply:
  • Voltage Rating: The power supply voltage should match or slightly exceed the total forward voltage of your LED configuration.
  • Current Rating: The power supply’s current rating should meet or exceed the total forward current of your LED configuration.
  • Safety Margin: It’s a good practice to select a power supply that can provide at least 20% more power than your calculated requirement. This ensures the power supply isn’t operating at its maximum capacity, which can extend its life and ensure safer operation.
  • Consider Additional Features:
  • Dimming Capability: If you want to control the brightness of your LEDs, choose a power supply with dimming capabilities.
  • Overcurrent and Overvoltage Protection: To protect your LEDs, select a power supply with built-in protection mechanisms.
  • Thermal Management: Ensure that the power supply has adequate cooling, especially if it will be enclosed or in a location with limited airflow.
  • Regulation and Efficiency:A power supply with good regulation will maintain a consistent voltage output despite variations in the load. High efficiency ensures minimal power is wasted as heat.
  • Physical Size and Form Factor:Depending on where you plan to place the power supply, its size and shape may be critical factors.

In summary, when selecting power for LED systems, understanding your LED’s requirements and the configuration you plan to use is essential. Then, pick a power supply that meets those needs with some added safety margin, keeping in mind any additional features or constraints relevant to your project.

Here are some well-regarded brands in the industry:

  • Mean Well: One of the most recognized brands in the LED power supply industry, Mean Well offers a wide range of products suitable for both indoor and outdoor applications. Their units often come with features like overcurrent protection, dimming capabilities, and high efficiency.
  • Tridonic: A global leader in lighting technology, Tridonic offers LED drivers and power supplies that cater to various lighting solutions, from simple setups to advanced smart lighting systems.
  • Philips Advance Xitanium: Philips is a well-known brand in the lighting industry, and their Xitanium series of LED drivers are known for reliability and performance. They cater to both indoor and outdoor LED applications.
  • Osram: Another giant in the lighting industry, Osram offers a range of LED drivers and power supplies suitable for various applications, including architectural and street lighting.
  • LIFUD: Specializing in LED drivers, LIFUD is known for its high-quality products that cater to both commercial and residential LED lighting solutions.
  • MOSO: This brand offers a variety of LED drivers, especially for outdoor and industrial applications. Their products are known for durability and performance.
  • TDK-Lambda: With a history in power electronics, TDK-Lambda offers a range of power supplies and LED drivers suitable for various applications, emphasizing reliability and advanced features.
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