• Silicon phototransistors sense and respond to both visible and infrared light across a spectral range, but can not differentiate between the two.
• The presence of infrared (from any source) at the phototransistor has the negative effect of causing the phototransistor to respond to more than just visible light. The resulting false light level reading causes the photocontrol to respond inaccurately.
• The higher the ratio of infrared to visible light, the greater the error in control accuracy.
• Most photocontrols use an optical plastic filter behind the window to filter out infrared, but they only filter the infrared component of light coming through the sensor window.
• Optical plastic filters do not filter the potentially substantial amounts of infrared coming through the photocontrol cover, or the infrared emanating from the photocontrol’s own internal electronics, or the infrared coming from the luminaire itself.
• Over time, Ultraviolet (UV) Light fades and/or deteriorates the filter causing inadequate accuracy.
Solution - Ripley’s Tru-Filter® InfraRed-Filtering Photocontrol
• Tru-Filter® completely eliminates the photocontrol’s reaction to infrared from all internal and external sources.
• A single phototransistor precisely senses ambient light, while simultaneously filtering out all infrared from all sources (not just that which passes through the sensor window), to mirror the spectral sensitivity of the human eye.
Tru-Filter® relative spectral sensitivity matches that of the Human Eye; while competitor’s Silicon Photodetector is far from accurate.
A single infrared-filtering phototransistor in Tru-Filter®, filters out all sources of infrared to mirror the spectral sensitivity of the human eye, and provide highly accurate control across the entire visual light spectrum. Thus, Turn-ON / Turn-OFF events occur with much greater precision than that of competitor models utilizing silicon photodetectors and plastic infrared filters.