English 
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Russian It is 4:45 PM, and the sun is low on the horizon, shining directly into the face of a traffic light. Meanwhile, a driver approaches at 60 km/h and, looking up, notices that the red light is technically OFF and the green light is ON. But because the sunlight floods the traffic light head, reflecting off the internal mirror, and bouncing back out through a standard lens, it appears as if all three lights are on.
At the moment, the driver hesitates or, worse, assumes the traffic light is broken, or misinterprets the “Phantom” red for a real red light and slams on the brakes, causing a rear-end collision.
This phenomenon is called the Sun Phantom Effect, which is one of the most dangerous, yet overlooked, risks in traffic engineering. At Sinowatcher, we believe that if a driver has to squint to guess the signal, the hardware has already failed. Here’s the physics behind phantom signals, and why high-engineering lens design is not a luxury, but a safety requirement.
That’s why we don’t just claim “high contrast”, we certify it.
The Science of the “False Positive”
To the human eye, a traffic light appears “ON” when it is significantly brighter than the sunlight reflecting off it.
Low-manufactured traffic lights use standard, smooth outer lenses and highly reflective internal reflectors to maximize brightness. This works fine at night, but during the day, this design creates a trap.
When sunlight enters a standard traffic light head, it hits the internal reflector and bounces back out. If the lens is not engineered to filter this light, the sun’s reflection creates a “glare” or a “false ON” indication.
The result?
- False on: The driver cannot distinguish between the active signal and the inactive ones.
- Washout: The active light looks too dim to be distinguished
For city planners and traffic engineers, this isn’t just an annoyance; it’s a huge risk. To solve this, a traffic light must have a high Phantom Class Rating.
The Solution: It’s All in the Geometry and the Tint
You can’t turn off the sun, but you can design a lens that ignores it. To prevent phantom signals, two specific engineering solutions are required, which we integrate into every high-performance Sinowatcher module:
- Geometric Deflection(The Cobweb): Our lens surface features a complex, angled pattern. When sunlight hits it, the light is deflected downwards or sideways rather than reflecting into the driver’s eyes.
- Deep-Tint Technology: We use mass-tinted polycarbonate that acts as a filter, absorbing broad-spectrum sunlightwhile allowing the specific wavelength of our High-Flux LEDs to pass through with zero resistance.
The Checklist: Is Your Infrastructure “Sun-Proof”?
For traffic management authorities and procurement officers, upgrading to LED isn’t enough- optical performance must be specified.
Likewise, if you are upgrading your city’s infrastructure, don’t accept a traffic signal without verifying its Phantom Class. Also, when evaluating a manufacturer, ask these questions to ensure you aren’t installing a future accident:
(1)What is the Phantom Classrating?
Does it meet EN12368 standards regarding phantom signal luminosity?
If the manufacturer can’t provide the lab data, walk away.
(2)Is the lensdesign standard or dispersive?
Smooth lenses are outdated. Look for geometric patterning (Cobweb or Fresnel variants) that physically disperse incoming light.
(3)How does the unit handle low-angle sunlight?
This is the “golden hour” test. The best signals have visors (cowls) and lensesthat work together to shield the signal face from direct sunlight.
The Proof: Our Certification Results
At Sinowatcher, we subject our LED traffic signal modules to rigorous independent testing to verify their safety under the EN 12368. The results confirm that our optical technology not only meets the standard but also exceeds the requirements for the most critical signals.
(1) Achieving “Phantom Class 5” on Green
The most dangerous phantom signal is a “False Green”, where a driver thinks they have the right of way when they actually don’t.
Our high-performance modules have achieved Phantom Class 5 for the Green signal; this is the highest performance tier available under the standard. Testing has measured a contrast ratio (Is: Iph) of 22.8 for our green modules, meaning that the light emitted by our Green LED is over 22 times brighter than the strongest possible reflection of the sun. Even in direct glare, there is zero ambiguity.
(2) High-Contrast Red and Yellow
For Red and Yellow signals, our specialized lens design ensures maximum visibility, achieving a solid Phantom Class 4. The Red Signal achieved a contrast ratio of 8.15, and the Yellow Signal achieved a contrast ratio of 14.26. This ensures that when the light is red, it looks red, and when it is off, it looks black.
The Bottom Line
A traffic light has one job: Communication, and if sunlight distorts that message, the system fails.
At Sinowatcher, we treat the lens as a precision optical instrument, not just a plastic cover. Because when the sun is glaring, and a family is driving through that intersection, clarity is the only thing that matters. Safety isn’t just a promise. It’s a calculation.
Are your city’s intersections affected by sun glare? Upgrade to Sinowatcher’s high-contrast LED modules. Designed for safety and certified performance.
