Capacitive Touch Screen Monitors

capacitive touch screen monitor

A capacitive touch screen monitor recognizes the location of your touch by measuring the amount of resistance that changes when you press your finger or stylus against the screen. The monitor then uses a processor to calculate the change and determine where your touch is located. The result is a clear and unmistakable display of what you’re doing. Using a capacitive touch screen monitor can be highly beneficial for any type of business.


There are pros and cons to both infrared and capacitive touch screen monitors. Capacitive touch screens are typically more accurate than IR, allow for greater touch-point detection, and require smaller bezels for easier cleaning. Capacitive touch screens are also more durable and resistant to scratches, but they’re also more expensive than their IR counterparts. Unlike IR, they also work only with bare fingers, so a thick surgical glove will not work.

The main advantages of infrared on capacitive touch screen panels are their flexibility and low cost. These displays can be installed in many different environments. For example, you can use them in schools and other environments where students or staff need to interact with the screen. IR touchscreens can be very sensitive, and can even be used in public settings like cafeterias, theaters, and retail environments.


In today’s world, there are several different types of touchscreen monitors available. One type, called resistive touch, requires a physical force to activate the screen. The other type, called capacitive touch, can be activated by simply touching the monitor. These types of monitors can be found on LCD, TFT, GTT, Intelligent, and Parallel displays. Read on to learn more about these touchscreen monitor types.

There are many advantages of resistive touch screen monitors. These are great for point-of-sale opportunities. However, some users have concerns about breakage of glass. The capacitive screen monitors have a larger footprint and do not require any special cleaning. They are also more resistant to scratches and have a protective casing. This type of touchscreen monitor is also available in touchscreen PCs. The LCD panel is much more durable than a resistive touchscreen monitor.

Surface capacitive

A capacitive touch screen monitor detects changes in voltage generated by human body resistance when pressed against it. This is done by using conductive threads or a finger. The processor then interprets the coordinates of the change to determine where the touch took place. Then, the device can display the desired content. Surface capacitive touch screen monitors are more sensitive than other touch screen technologies. A common example of a capacitive touch screen monitor is a touchscreen used in a computer.

One of the main drawbacks of a capacitive touch screen monitor is that it requires a bare finger to activate. In some environments, people may use a stylus to operate a surface capacitive touch screen monitor. Additionally, this type of screen is susceptible to EMI/RFI, so it’s not a good choice for workplaces with a lot of EMI/RFI.

Projected capacitive

The Green Touch Projected Capacitive Touch Screen Monitor is an ideal solution for customers around the world looking for a reliable touch display. Its outstanding image resolution, light transmission, and drift-free operation ensure it has an extremely precise touch response. The sample’s after-sales service is excellent and its production processes are fully under the responsibility of the company. The projector has undergone more than 20 rigorous reliability tests and features an international premium A+ grade LED screen.

This touch screen is similar to the surface capacitive touchscreen monitor, but features additional features that make it stand out from its competition. It has multi-touch capabilities and is scratch-resistant. The screen is made up of a sheet of glass embedded with electrode films and an IC chip that generates an electrostatic field around the electrodes. Each touch point is detected by an electrical current, which the monitor recognizes.