Earlier resistive and capacitive touch screens had a strong foothold in the touch screen market. However, as the demand for touch applications spurred, more technologies have been introduced to streamline the production process with all kinds of needs. Infrared (IR) touch screens are one of those technologies that become an excellent alternative for applications where capacitive or resistive touch technology doesnt fit right.
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What is IR-Infrared Touch Screen Technology?
An infrared touch screen is composed of an LCD monitor and an IR touch frame. The touch frame outfitted with LEDs and photodetectors, consists of an optical bezel or protective cover that enables LEDs to emit infrared beams but are invisible to the naked eye. This process creates an optical grid on the displays surface, and during the touch event, it blocks some of the light beams, allowing photodetectors to detect these interruptions.
Given their reliability, accuracy, and durability, IR-Infrared Touch Screens are used for a variety of interactive applications, including retail, gaming, healthcare, and manufacturing. However, the traditional IR touch sensor technology also has a few limitations.
Limitations of Infrared Touch Screens
Susceptibility to from Bright Light Interference:
Ambient light can cause problems with infrared touch screens. Touch detection can be hampered by strong sources of infrared light, such as strobing sunlight or bright interior illumination.
Restricted Touch Detection in Some Conditions:
When a user operates a touch application using a stylus which is too narrow to interrupt light beams, the screen may become inactive. Styluses must be wide enough to break at least one of the light beams to trigger a touch event.
Power Consumption is Higher Than Other Touch Technologies:
Traditional infrared touch screens require more power than other touch screen technologies, such as capacitive or resistive. The demand for continuous infrared light emission quire often requires a more robust power supply.
Overcoming These Limitations with A D Metros LCIR Touch Technology:
Considering these limitations and challenges of using traditional infrared touch screens, A D Metro has engineered an advanced IR touch sensor known as linear correlating infrared (LCIR) touch technology. A D Metros patented linear correlating infrared (LCIR) touch technology delivers highly responsive, precise, glove-compatible, two-touch, zero-force operation.
The LCIR design improves over traditional infrared touch systems in several ways. Traditional infrared touch systems include rectangular sensor frames, LEDs, and photodetectors, optionally enclosed by a bezel or cover which also includes the controller interface. Whereas LCIR touch systems consist of a sensor frame and a separate external controller board. This makes the touch frame very compact and easy to integrate into most displays where other makes are quite large with restricting frame heights and widths which can make integration a challenge. Also, LCIR does not use a glass substrate panel to mount the optics frame onto to keep narrow beam optics used in standard IR optically aligned. Such a glass panel can interfere with the clarity and transmissivity of the display. If the display has contrast enhancements applied, this glass panel will greatly diminish the effectiveness of such enhancements like anti-reflective films or circular polarizers and produce a lot of reflectance and reduce transmissivity.
The linear correlation technology does not look at just one light beam at a time but look at a group of 5 simultaneously as the groups progress across each plane of the screen. This allows for wider beam optics and negates the need for a glass panel to keep narrow beam optics aligned so there is nothing between the users eyes and the display itself. This type of touch detection also provides complete ambient light immunity no matter if its strong sunlight or strobing light or both. The LCIR design provides two-touch performance by employing optical scans at different angles across the touch sensing area ideal for pinch, zoom, and rotate actions.
The revolutionary LCIR solution from A D Metro is an excellent alternative for applications that demand multi-touch functionality but struggle to integrate projected capacitive (PCAP) touch sensors because of their operational limitations. Even in harsh settings like high radio frequency interference (RFI) and full sunlight interference, LCIR technology provides:
Conclusion:
A D Metros patented LCIR touch technology helps improve the usability of traditional IR-infrared touch screens for a variety of interactive applications. Most importantly, the LCIR touch screens are an excellent solution for defense, automotive, aviation, and medical applications and all markets where ultra-reliable touch screen function is critical.
Mar. 15,
Link to IRTOUCH
Industrial touch display or monitor has a variety of touch modes, three common types are capacitive, resistive and infrared touch. Many customers know little about infrared touch display, here we will make brief introduction about the features and applications of infrared touch display .
The advantage of an infrared touch screen is that it can be touched with a finger or pen.The disadvantage of infrared touch screen is that it feels bad when it is used on spherical display. This is because the infrared raster matrix on which it works obviously requires to be on the same plane. Therefore, there is a large distance between the real sensing touch plane and the arc-shaped display screen, especially in the corner, but this disadvantage is not exsit in flat display, such as liquid crystal display.
It can be said that infrared touch screen has considerable advantages in flat panel display. Infrared detection technology can obtain a simple infrared detection method by using the same wavelength infrared emitter and infrared receiver tube
As long as there are objects blocking the connection between infrared tubes, the received signal will drop sharply. Therefore, infrared can detect the blockage of objects, and it is widely used in anti-theft system, automatic induction system, counter and other systems.
If infrared is used in short distance, the blocking degree can also be detected according to the attenuation condition of the received signal. This is the so-called analog mode. The analog mode uses a dense receiver array at the receiving end and can also be used for imaging. In order to prevent interference, infrared detection can also adopt pulse mode.
That is to say, the infrared emitter transmits a fixed frequency signal, and the receiver only detects this frequency, so the anti-jamming ability of pulse mode is very strong. If the pulse mode modulates the signal on the working frequency, it can also be used in digital communication. This is the famous infrared communication. The remote control of household appliances, infrared communication of computers, and even the fastest optical fiber communication are all related to this. Infrared communication has no effect on human body.
Above is brief introduction for infrared touch display. More information for IR touch monitor, please consult Touch Think.
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