The IF Smart LED Signage Series
Model Specifications
100,000
Operating Hours
1.5 mm
Pixel Pitch
800 nit
Brightness
| IF015H | IF020H | IF025H | |||
| Physical Parameters |
Pixel Pitch | 1.5 mm | 2.0 mm | 2.5 mm | |
| Pixel Configuration | 1 Red, 1 Green, 1 Blue | 1 Red, 1 Green, 1 Blue | 1 Red, 1 Green, 1 Blue | ||
| Pixel Density | 444,444 m2 / 41,290 ft2 | 250,000 m2 / 23,225 ft2 | 160,000 m2 / 14,864 ft2 | ||
| Cabinet/Module Configuration (L x H) | 320 x 360 Pixels | 240 x 270 Pixels | 192 x 216 Pixels | ||
| Diode Type | Surface Mount Device (SMD) | Surface Mount Device (SMD) | Surface Mount Device (SMD) | ||
| Dimensions (L x H x D) | 18.8" x 21.2" x 2.5" (per Cabinet) | 18.8" x 21.2" x 2.5" (per Cabinet) | 18.8" x 21.2" x 2.5" (per Cabinet) | ||
| Weight | 13.2 lbs. | 13.2 lbs. | 13.2 lbs. | ||
| Package Dimensions (L x H x D) | 23.9" x 26.4" x 7.24" | 23.9" x 26.4" x 7.24" | 23.9" x 26.4" x 7.24" | ||
| Package Volume | 2.65 cubic feet | 2.65 cubic feet | 2.65 cubic feet | ||
| Package Weight | 19.4 lbs. | 19.4 lbs. | 19.4 lbs. | ||
| Optical Parameters |
Max Brightness (After Calibration) | 800 nits | 1,200 nits | 1,200 nits | |
| Peak Brightness | 1,600 nits | 2,400 nits | 2,400 nits | ||
| Contrast Ratio | 5,000:1 | 5,000:1 | 5,000:1 | ||
| Viewing Angle - Horizontal / Vertical | 160° / 160° | 160° / 160° | 160° / 160° | ||
| Bit Depth | 14-bit Per Color | 14-bit Per Color | 14-bit Per Color | ||
| Color Wavelength | Red: 630nm, Green: 530nm, Blue: 468nm | Red: 630nm, Green: 530nm, Blue: 468nm | Red: 630nm, Green: 530nm, Blue: 468nm | ||
| Color Temperature - Default | 6,500K | 6,500K | 6,500K | ||
| Color Temperature - Adjustable | 2,800 - 10,000K | 2,800 - 10,000K | 2,800 - 10,000K | ||
| Electrical Parameters |
Video Rate | 50 / 60 Hz | 50 / 60 Hz | 50 / 60 Hz | |
| Input Power Range | 100~240 VAC, 50/60 Hz | 100~240 VAC, 50 / 60 Hz | 100~240 VAC, 50 / 60 Hz | ||
| Power Consumption - Max (W / m2) | 772 (W/m2) / 200 (With Cabinet) | 694 (W/m2) / 180 (With Cabinet) | 617 (W/m2) / 160 (With Cabinet) | ||
| Power Consumption - Typical (W / m2) | 257 (W/m2) / 67 (With Cabinet) | 231 (W/m2) / 60 (With Cabinet) | 205 (W/m2) / 53 (With Cabinet) | ||
| Heat Generation - Max (BTU / SF) | 245 BTU / SF per Hour | 220 BTU / SF per Hour | 196 BTU / SF per Hour | ||
| Heat Generation - Average (BTU / SF) | 82 BTU / SF per Hour | 73 BTU / SF per Hour | 65 BTU / SF per Hour | ||
| Refresh Rate | 1,920 Hz – 3,840 Hz | 1,920 Hz – 3,840 Hz | 1,920 Hz – 3,840 Hz | ||
| Operation Conditions |
Working Temperature | 32°F ~ 104°F | 32°F ~ 104°F | 32°F ~ 104°F | |
| IP Rating | IP20 | IP20 | IP20 | ||
| LED Lifetime | 100,000 Hours | 100,000 Hours | 100,000 Hours | ||
| Certification | Certification | EMC Class A, Safety 60950 | EMC Class A, Safety 60950, ESD | EMC Class A, Safety 60950, ESD | |
| Service | Front Access | Yes | Yes | Yes | |
| Rear Access | Yes | Yes | Yes | ||
Key Features
FAQ
Direct View LED displays eliminate the LCD panel, instead using a surface array of LEDs as the actual display pixels. This allows for incredible contrast, vibrant colors, and brightness levels several times that of LCDs.
Pixel pitch describes the density of the pixels (LED clusters) on an LED Display and correlates with resolution. Sometimes referred to as pitch or dot pitch, the pixel pitch is the distance in millimeters from the center of a pixel to the center of the adjacent pixel. Since pixel pitch indicates the amount of space between two pixels, a smaller pixel pitch means there is less empty space between pixels. This equates to higher pixel density and improved screen resolution.
- Pixel pitch refers to the density of pixels
- A smaller pixel pitch indicates higher pixel density and higher resolution
- Pixel pitch is important because it influences viewing distance
- The smaller the pixel pitch, the closer the viewing distance
- The optimal viewing distance of your screen informs the pixel pitch value
From our partners at Planar
Smaller pixel pitch universally provides greater resolution, but is more expensive. Materials and production costs are higher for smaller pixel pitch since more LED clusters are required to create a higher pixel density.
Consumers can get the best value for their LED screen by determining the optimal viewing distance of their screen. The optimal viewing distance is the point where image fidelity is retained, but if the observer moved much closer, the image quality would decrease or the screen would appear pixelated.
For example, a display with interactive touch solutions will need a low pixel pitch to produce crisp images for the nearby audience. On the other hand, an LED screen displayed above viewers, like one hung in an arena, could get away with a higher pixel pitch. The short answer is that a smaller pixel pitch will always give you better quality image, but the investment will not be fully appreciated if the screen is not seen from a sufficiently close enough distance.
There are three methodologies used in the industry to determine acceptable viewing distance:
- 10x Rule - this is a shorthand method for calculating an approximate estimate of the Visual Acuity Distance.
The calculation is: Pixel Pitch x 10 = Approximate Viewing Distance in Feet - Visual Acuity Distance – also known as retina distance, this is a formulated calculation of the distance a person with 20/20 vision must move away from an LED screen to see a coherent image that is not pixelated.
The calculation is: Pixel Pitch x 3438 = Visual Acuity in Millimeters. - The Average Comfortable Viewing Distance – this is an estimate of what would be a comfortable viewing distance for most people. This is a subjective estimate and will take into account variables like a person’s eye sight, resolution of content and type of content.
From our partners at Planar
Talk with one of our Project Managers for additional guidance: (866) 469-7111.
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