YBM - 3D BILLBOARD

Discover Our Range LED Display

LED displays have become the epitome of stylish and high-quality marketing and advertising. 3D Billboards are modern electronic displays used primarily for advertising and promotional purposes. They replace traditional printed posters with dynamic, high-definition screens that can display multimedia content such as videos, animations, and slideshows.

3D Billboards

Supports up to 4K FHD resolution with seamless synchronized playback, dynamic content changes via external triggers, Picture-in-Picture overlay, and loop-in/loop-out compatibility across DVI, DP, and HDMI formats. Designed for 24/7 operation with a commercial-grade panel.

Video Wall LED Screen

upports up to 4K FHD resolution with seamless content synchronization, external triggers for dynamic updates, Picture-in-Picture overlay, and loop-in/loop-out compatibility across DVI, DP, and HDMI. Built for 24/7 operation with a commercial-grade panel.

Active Indoor & Outdoor LED Screen

We offer a diverse range of Active LED displays, from high-resolution indoor video walls to large-scale outdoor solutions for public spaces and sporting venues, ensuring seamless visuals of any size.

Active Indoor LED Display

Active Outdoor LED Display

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Complete Guide to LED Display Components:

Complete Guide to LED Display Components: Module, LED Lamp Size, Cabinet, Processor, Receiving Card, Electricity Power Supply, Flexible Power Cables, Nits Brightness, Refresh Rate and More.

Key Technical Specifications to Consider When Choosing LED Modules

1- How to Choose LED Modules Based on Pixel Pitch (P)

When selecting LED modules, pixel pitch (P) plays a critical role in determining the display’s resolution, image quality, and ideal viewing distance. Here’s how to choose the right LED module based on pixel pitch:

  1. Small Pixel Pitch (P1.8, P2, P2.5):

    • Best for: Indoor displays where viewers are close to the screen, such as in shopping malls, control rooms, or retail environments.
    • Why Choose: Smaller pixel pitch offers higher resolution and sharper images, ensuring detailed visuals even at short viewing distances.
  • Medium Pixel Pitch (P3, P4, P5)

    • Best for: Conference rooms, auditoriums, and corporate lobbies where moderate viewing distances are required.
    • Why Choose:
      • Balances image clarity and cost-effectiveness.
      • Suitable for medium-scale indoor applications.

    Large Pixel Pitch (P6, P8, P10, P16)

    • Best for: Outdoor billboards, stadium screens, and digital signage where viewers are farther away.
    • Why Choose:
      • Provides high visibility over long distances.
      • More cost-effective for large-scale displays.
      • Suitable for high-brightness outdoor conditions.

    Conclusion

    • Smaller pixel pitch = higher resolution & closer viewing.
    • Larger pixel pitch = best for long-distance viewing & outdoor use.
    • Choosing the right pixel pitch ensures optimal display performance for your specific needs.

 

Explore the Full Potential of P Modules: In-Depth Insights and Key Features

P1.8 (1.8mm pixel pitch):

  • Pixel Pitch: 1.8mm
  • Distance between Pixels: Pixels are spaced 1.8mm apart.
  • Ideal Viewing Distance: 0.6m – 2m (2 to 6 feet)
  • Use: Ideal for close-up indoor displays, such as retail environments or control rooms, where high resolution is required even at very short distances.

P2 (2mm pixel pitch):

  • Pixel Pitch: 2mm
  • Distance between Pixels: Pixels are spaced 2mm apart.
  • Ideal Viewing Distance: 1m – 3m (3 to 10 feet)
  • Use: Perfect for indoor displays with close viewing distances, such as conference rooms, museums, or high-end digital signage in stores.

P2.5 (2.5mm pixel pitch):

  • Pixel Pitch: 2.5mm
  • Distance between Pixels: Pixels are spaced 2.5mm apart.
  • Ideal Viewing Distance: 1.5m – 4m (5 to 13 feet)
  • Use: Great for applications requiring good image quality at moderate distances, like retail advertising or exhibitions.

P3 (3mm pixel pitch):

  • Pixel Pitch: 3mm
  • Distance between Pixels: Pixels are spaced 3mm apart.
  • Ideal Viewing Distance: 2m – 6m (7 to 20 feet)
  • Use: Versatile for both indoor and outdoor applications. Suitable for mid-range viewing, such as event displays, sports arenas, and trade shows.

P4 (4mm pixel pitch):

  • Pixel Pitch: 4mm
  • Distance between Pixels: Pixels are spaced 4mm apart.
  • Ideal Viewing Distance: 3m – 8m (10 to 26 feet)
  • Use: Ideal for medium to larger indoor displays, where you need good resolution at a moderate viewing distance, such as large conference rooms, airports, or shopping malls.

P5 (5mm pixel pitch):

  • Pixel Pitch: 5mm
  • Distance between Pixels: Pixels are spaced 5mm apart.
  • Ideal Viewing Distance: 4m – 10m (13 to 33 feet)
  • Use: Commonly used for both indoor and outdoor displays, providing good image quality over moderate to long distances, such as in public spaces, exhibitions, or stadiums.

P6 (6mm pixel pitch):

  • Pixel Pitch: 6mm
  • Distance between Pixels: Pixels are spaced 6mm apart.
  • Ideal Viewing Distance: 5m – 15m (16 to 49 feet)
  • Use: Best suited for outdoor applications with larger displays, such as stadium scoreboards, outdoor billboards, and public advertising.

P8 (8mm pixel pitch):

  • Pixel Pitch: 8mm
  • Distance between Pixels: Pixels are spaced 8mm apart.
  • Ideal Viewing Distance: 8m – 20m (26 to 66 feet)
  • Use: Great for larger outdoor displays, where the viewing distance is typically longer, such as highway billboards, outdoor signs, and large public displays.

P10 (10mm pixel pitch):

  • Pixel Pitch: 10mm
  • Distance between Pixels: Pixels are spaced 10mm apart.
  • Ideal Viewing Distance: 10m – 30m (33 to 98 feet)
  • Use: Common for large outdoor displays with extended viewing distances, such as stadium signage, freeway billboards, and large-scale advertising.

Explore the Full Potential of P Modules: In-Depth Insights and Key Features

2- LED Lamp Size in Modules: How to Choose & Why It Matters

  • What is LED Lamp Size in Modules?

    LED lamp size refers to the physical dimensions of individual LED chips in an LED module. It impacts brightness, viewing quality, and durability.

    How to Choose the Right LED Lamp Size?

    • Small LED Lamps (12x12mm, 15x15mm):
      • Best for indoor displays with higher pixel density.
      • Provides sharp images for close viewing distances.
    • Medium LED Lamps (19x21mm, 25x25mm, 27x27mm):
      • Suitable for P6 outdoor LED modules.
      • Balances brightness and resolution.
    • Large LED Lamps (32x32mm, 35x35mm):
      • Best for outdoor billboards & stadium screens.
      • Higher brightness and better visibility in sunlight.

    Types of LED Lamp Sizes

    1. SMD (Surface-Mounted Device) LEDs – Used for indoor & fine-pitch displays.
    2. DIP (Dual In-Line Package) LEDs – Used for outdoor, high-brightness applications.

    Why LED Lamp Size Matters?

    • Smaller LED lamps = Better resolution for close viewing.
    • Larger LED lamps = Higher brightness for outdoor displays.
    • Choosing the right size ensures clarity, efficiency, and durability.

3- How to ChooseBest LED processors

VX1

VX1 Processor:

  • Capacity: Suitable for smaller LED walls, such as retail displays or small event setups.
  • Best Use: This processor can be used for basic video scaling and display management where high-end processing is not required.

VX 1000

VX1000 Processor:

  • Capacity: Suitable for medium to large size LED walls, like corporate events or medium-sized 3D billboards.
  • Best Use: This processor is ideal for managing higher resolution and complex video content.

VP210

VP210 Processor:

  • Capacity: Designed for medium-sized LED walls where real-time video processing and scaling are necessary.
  • Best Use: It is suitable for general events and interactive displays.

VP410

VP410 Processor:

  • Capacity: Ideal for large LED walls that require managing high-resolution content and multiple video sources.
  • Best Use: This processor is preferred for concerts, large-scale exhibitions, and 3D billboards.

HDA4/3A

HDA4/3A Processor:

  • Capacity: Suitable for very large LED walls and specialized installations that demand high-fidelity video and color reproduction.
  • Best Use: It can be used for 3D billboards, outdoor displays, and immersive installations.

4- Receiving Card

What is a Receiving Card in LED Displays?

A Receiving Card is an essential component in LED display systems. It receives video signal data from the sending card or video processor and distributes it to individual LED modules inside a cabinet. The receiving card controls the brightness, refresh rate, grayscale, and synchronization of the display, ensuring a smooth and high-quality output.

  • How Does a Receiving Card Work?

    1. Signal Transmission:
      • The sending card (connected to a PC or video processor) transmits display data via an Ethernet cable to the receiving card.
    2. Processing Data:
      • The receiving card decodes the signal and converts it into instructions for the LED modules.
    3. Module Control:
      • The card distributes the data to each LED module within a cabinet, ensuring synchronization.
    4. Brightness & Color Adjustment:
      • It manages color calibration, grayscale levels, brightness control, and refresh rate adjustments.
    5. Error Detection & Monitoring:
      • Some advanced receiving cards provide temperature, voltage, and signal status monitoring to ensure optimal performance.

    Required Specifications for One Cabinet

    For a 576mm x 576mm LED cabinet with 9 modules (192mm x 192mm each), the following specifications are required:

    1. Receiving Card Model

    • NovaStar MRV336 / MRV328 / A5s Plus (for high-performance displays)
    • Supports: 12-bit grayscale, 7680Hz refresh rate

    2. Power Requirements

    • Power Supply: 60A (ROM Electric)
    • Voltage: 5V DC per module
    • Typical Power Consumption: ~180-250W per cabinet (varies based on brightness and content)

    3. LED Module Configuration

    • Module Size: 192mm x 192mm
    • Total Modules per Cabinet: 9
    • Pixel Pitch:
      • Outdoor P6: 6mm
      • Indoor P3.6/P4.8: 3.6mm / 4.8mm

    4. Data Ports & Connectivity

    • Ethernet Input: Standard RJ45 connection
    • HUB75 Support: Connects to the LED module’s data interface
    • Backup Signal Port: Some cards support dual backup for redundancy

    5. Refresh Rate & Brightness Control

    • Low Refresh Rate: ~1920Hz
    • High Refresh Rate: ~3840Hz
    • Ultra Refresh Rate: ~7680Hz
    • Brightness:
      • Indoor: 450-600 Nits
      • Outdoor: 4500-10000 Nits

    6. Other Features

    • Cabinet Calibration: Stores color & brightness correction data
    • Temperature Monitoring: Some advanced models have built-in sensors

    How Many Receiving Cards Are Needed Per Cabinet?

    • Generally, one receiving card per cabinet is used.
    • If the cabinet is larger or uses a high-resolution screen, multiple receiving cards may be required.

    Conclusion

    A receiving card is crucial for LED display operation, ensuring that the signal is processed and displayed correctly. Choosing the right model with a high refresh rate, grayscale support, and robust connectivity ensures a smooth and high-quality display performance.

    Would you like recommendations for specific NovaStar receiving cards based on your project?

5- Understanding Nits, Refresh Rate, and Their Importance in LED Displays

1. What is Nits (Brightness Level)?

  • Definition: Nits measure the brightness of an LED display. One nit equals one candela per square meter (cd/m²).
  • Importance: The higher the nits, the brighter the screen, making it visible in different lighting conditions.
  • Usage:
    • Indoor Displays: 450-600 Nits (low brightness, suitable for controlled lighting)
    • Outdoor Displays: 4500-10,000 Nits (high brightness for sunlight visibility)

 

Example:

  • A mobile phone screen typically has 500-800 nits.
  • Outdoor LED billboards require 5,000+ nits to remain visible in sunlight.

2. What is Refresh Rate?

  • Definition: The refresh rate is the number of times an LED display updates per second, measured in Hertz (Hz).
  • Common Refresh Rates:
    • Low Refresh Rate: 1920Hz – Basic displays (visible flickering in cameras)
    • High Refresh Rate: 3840Hz – Standard for smooth visuals (less flickering)
    • Ultra Refresh Rate: 7680Hz – Premium quality for high-end applications

Why Refresh Rate Matters?

  • Higher refresh rates make content look smoother and flicker-free, especially in videos and animations.
  • Lower refresh rates cause flickering, which is visible in camera recordings.

3. When is High Nits or High Refresh Rate Required?

ScenarioNits RequirementRefresh Rate Requirement
Indoor LED Displays (Malls, Airports)450-600 Nits1920Hz to 3840Hz
Outdoor Billboards (Sunlight exposure)5,000-10,000 Nits3840Hz to 7680Hz
Broadcasting & Live Events3,000-6,000 Nits7680Hz (to avoid flickering in recordings)
Stage & Concert LED Walls3,000-8,000 Nits3840Hz+ (for smooth visuals)
Retail & Advertising1,000-3,000 Nits3840Hz+
Sports Stadium Screens6,000-10,000 Nits7680Hz

4. Summary

  • Nits = Brightness (Higher for outdoor, lower for indoor)
  • Refresh Rate = Smoothness & Flicker-Free Display (Higher for better video quality, especially in recordings)

6-How to Choose Cabinet

LED Display Cabinet Types Based on Application

LED Display Cabinet Types Based on Application

LED display cabinets are categorized based on their intended use. Here are the two main types:

Indoor LED Display Cabinets
Designed for indoor installations, these cabinets are lightweight, slim, and cost-effective. They feature a simpler construction as they don’t need to withstand harsh environmental conditions.

Outdoor LED Display Cabinets
Built for durability, outdoor LED cabinets are designed to withstand weather elements like moisture, wind, rust, and dust. Their robust construction ensures long-lasting performance in outdoor environments.

LED Display Cabinet Types According to Material

The LED screen cabinet plays a crucial role in the performance of the device, influencing both its capabilities and limitations. When choosing an LED display cabinet, several factors deserve careful consideration. Cabinets are classified based on the materials used in their construction. These include Sheet Metal Aluminum, Sheet Metal Iron, Sheet Metal Steel, Die-Cast Aluminum, Plastic or Resin Composite, Magnesium Alloy, Nano-Polymer, and Carbon Fiber.

LED Display Cabinet Types According to Shape

Straight

Straight LED display cabinets are the standard models available in the market. They typically come in square or rectangular shapes with straight edges and frames.

Curved

Curved LED screen cabinets feature a bent frame, designed to support curved LED screens. These can be either inward or outward-facing, depending on the display requirements.

Circular

Circular LED display cabinets offer a modern and stylish design, where screens are mounted along the outer curve of the circular frame. These are ideal for large-scale displays and advertising

Spherical

Spherical LED display cabinets resemble a globe, with multiple screens distributed across their curved surface. To maintain seamless visuals, flexible LED screens are required to adapt to the spherical shape.

One-sided

A single-sided LED display cabinet features a clear front panel where the screen is installed, making it the most common type.

Double-sided

A double-sided LED display cabinet supports screens on both the front and back, offering greater flexibility, wider visibility, and a sturdy central structure for support.

Specific P3.6 and P4.6 Cabinet Details

Outdoor P6 LED Display

  • Pixel Pitch: 6mm
  • Application: Weddings, Events
  • Module Size: 192mm x 192mm
  • Cabinet Size: 576mm x 576mm (Contains 9 Modules)
  • Control System: NovaStar Card
  • Power Supply: ROM Electric 60A
  • Features:
    • High brightness (4500 to 10000 Nits)
    • Refresh Rate: 7680 on 6000 Nits

Indoor P3.6 and P4.8 LED Displays

  • Pixel Pitch:
    • P3.6: 3.6mm
    • P4.8: 4.8mm
  • Control System: NovaStar A5s Plus Card
  • Pricing:
    • P3.6: ₹26,500 per cabinet
    • P4.8: ₹22,000 per cabinet
  • Features:
    • Uses NationStar LED lamps
    • Flexible power cable
    • Pixel and lamp size impact display quality
      • P6 Lamp Size: 25x25mm
      • Indoor Small Pixel: 15x15mm / 12x12mm

Flexible Tiles & Advertisement Displays

  • Flexible Module Size: 320mm x 160mm (Indoor Use)
  • Wall Configurations:
    • 8×12 (24 Panels) in 4 Boxes: ₹4,30,000 (P6)
    • Includes: NovaStar VX1 Processor (Worth ₹20,000)
    • 20×10 (50 Panels)

Technical Specifications & Support

  • Warranty:
    • 1 Year on Accessories
    • 2 Years on Complete Panel
  • Software Support: AnyDesk for Remote Assistance
  • Brightness:
    • Indoor: 450-600 Nits
    • Outdoor: 4500-10000 Nits
  • Refresh Rate:
    • Low, High, and Ultra Refresh Rate Options
    • Higher Brightness Uses Bigger LED Lamps for Better Visibility

 

Importance in Advertising

Digital Display Billboard play a crucial role in modern advertising strategies due to their:

  • Visibility and Impact: They attract attention with vibrant visuals and interactive elements, enhancing brand recall and message retention.
  • Flexibility: Advertisers can customize content based on audience demographics, time of day, and specific marketing campaigns.
  • Technology Integration: Integration with analytics and customer interaction data enables targeted advertising strategies.

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