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Is resistive touch screen cheap?

Apr. 29, 2024

Resistive Touchscreens: Low-Cost Solution vs. Capacitive ...

Touchscreens are everywhere. From the coffee maker in the breakroom to the smartwatch on your child’s wrist to the in-flight entertainment system on your commuter flight, touchscreen technologies are a part of our everyday lives. As touchscreens continue to become intertwined in our culture, they help make everyday tasks that much simpler and improve the ease of use for all kinds of electronics.

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For example, airport kiosks with fully integrated touchscreens have helped make checking luggage a painless process. After a few taps on an airplane’s GPS screen, a captain can enter new latitude and longitude coordinates. With a few swipes on a smartphone, a family member can send a 200-character text message. Touchscreens are used in nearly all industries including medical devices , military and aerospace equipment , industrial equipment , and consumer products .

For those that remember the days of T9 predictive text (which thanks to touchscreens is no longer required), creating text messages with a 9-button keypad was less than efficient. Looking further into the past, touchscreens developed in the 1980s were considered futuristic with only a handful of products available. Most were resistive style overlays that were paired with CRT monitors. These devices were bulky, wildly expensive, and offered limited functionality. The smartphone revolution of the late 2000s helped catapult touchscreens into our daily lives while driving down costs. Electronics owners are now able to interface with their devices faster, with fewer steps or taps, and with increased efficiency. Considering the net benefit to the User’s experience, many are willing to pay a premium for devices with touchscreens.

Surprisingly, custom touchscreen technologies can be quite affordable and a viable option for prototype manufacturing

ATMs are frequently designed with resistive touchscreen interfaces.

Resistive vs Capacitive Touchscreens

Touchscreens range in complexity and cost. The most common types of touch panels are resistive and capacitive touchscreens . While most touchscreens on the market today are the capacitive touch variety, this type requires specialty microcontrollers and firmware to integrate within the next higher assembly. Capacitive style touchscreens function by detecting a change in capacitance.

Capacitive touch displays are designed to respond to a human finger, a stylus, or another conductive instrument. One of the drawbacks to using capacitive touchscreens is that they seldom function with heavy gloves or electrically insulating mitts.

Resistive touchscreens can be operated with a simple calibration step and any instrument that can apply a point force to the screen. Resistive touch panels function no matter what type of gloves are worn by the user. They can successfully operate while covered in contaminants like dirt, salt deposits, and condensation. If the end-user is expected to be wearing heavy gloves, or the end application is especially dirty, resistive style touchscreens are a worthy solution and should be considered.

Resistive touch panels are available in a handful of different architectures, each with their own set of pros and cons. Of the three types of resistive touch panels (4-wire, 5-wire, and 8-wire), the 5-wire design is one of the most common and represents a high-performance and low-cost design solution. Epec recommends 5-wire designs when no specific design architecture is specified.

Resistive touch panels are comprised of glass and electrically conductive films separated by a small air gap. The touchscreen layers contain a transparent conductive coating, usually Indium Tin Oxide (ITO) that is deposited across the surface of the film. The panel is sectioned into quadrants, and each is electrically connected to a small flexible tail extending off one of the edges. This tail can be plugged directly into the mating control board for operation.

Resistive touchscreens function by applying a slight point force to the screen. When a finger or stylus touches the panel, a small amount of current is drawn to the contact point creating a voltage drop. The current flow from each quadrant is proportional to the distance to the location depressed on the screen. The location on the screen is then interpolated using a known algorithm that equates the measured resistance to a known calibration table.

Resistive Touchscreen Customization

With limited off-the-shelf choices for resistive touchscreens, designers should note custom production runs are a viable option when the required touchscreen solution cannot be found. When designed using readily available materials and processes, these devices can be extremely inexpensive and built within lead times comparable to circuit board assemblies.

Though many touchscreen overlays + LCD displays can be bought together as an off-the-shelf pair, the overlay can be designed separately from the LCD/LED/OLED display that they intend to be assembled with. Resistive touchscreens are matched to the size of the corresponding display. Custom-sized resistive touchscreens are common and straightforward designs as long as specs are available for the paired display. Custom touchscreens are manufactured from dimensional information on the LCD display’s datasheet. The information required to make a custom resistive touchscreen includes: the outline dimensions, the screen’s viewing area, and the touch-sense activation area. Custom resistive overlays can be produced in sizes of less than 3 inches, and larger than 21 inches. Most projects require a small non-recurring tooling expense to launch production.

Touchscreens are considered low voltage devices that typically operate at less than 5VDC and only milliamps of current. Customization measures can include adding anti-UV coatings, EMI shielding, and discrete components like LEDs or surface-mounted devices to the frame. The flexible tails used to connect the overlay to the primary PCBA are usually 1mm pitch Zero Insertion Force (ZIF) tails. The exact pin count, pin pitch, and ZIF tail stiffener geometries can be customized to the mating ZIF connector. Customers can specify their preferred board-mounted connector and Epec will develop a ZIF tail to properly match. To validate the design, Epec supplies a detailed manufacturing drawing that defines the pinout, dimensional information, and all performance requirements.

Custom manufactured resistive touchscreens with ZIF tail.

Summary

Considering that many electronics distributors carry standard-sized touchscreens in stock, buying a few for early prototyping is good engineering practice and can be accomplished for less than $50. Once the design is matured to a point where system requirements can be expanded, a full-service manufacturing partner like Epec can design and fabricate custom touchscreens to the exact size and level of function that the project demands.

Many of the design challenges that exist when considering touch overlays can be quickly remedied with a custom solution. Whether it’s extending the length of a ZIF tail, adding shielding, or reducing the activation area, touchscreen manufacturers like Epec can help drive risk out of the process. Starting that process early is always recommended, especially in times of global supply chain struggles.

Capacitive vs Resistive Touch

Touchscreen displays have become a standard piece of technology in our daily lives. Many LCD and OLED applications now include touchscreen technology to improve functionality or enhance user experience.

However, there is not a universal touchscreen for every application. You'll need to decide which touchscreen is suitable for your project. Like deciding between OLED and LCD, choosing the right touch screen will depend on your application's requirements.

Related: Touch Panel Details and Integration Guide

Capacitive Touchscreen Displays

A capacitive touchscreen panel is made of an insulator, usually glass, that is coated with a transparent conductor.  Capacitive touchscreen displays respond to conductive inputs like a fingertip and don't require pressure to activate a "touch event."

Capacitive touch panels are the more modern and advanced touchscreen option because of their advanced capabilities. They are commonly found in consumer products like smartphones, tablets, appliances, and monitors.

Suggested reading:
Gilong T2 5 Wire Resistive Touch POS System

Link to Touch-China

Related: What's an IPS Display

How do capacitive touchscreens work?

A capacitive touchscreen detects and responds to changes in capacitance caused by the screen's electrostatic field when the screen's surface is touched.

Capacitive touchscreen diagram

Capacitive Touchscreen Advantages

Capacitive touchscreen displays allow for touch gestures and respond to multi-touch inputs. You’ll typically be able to enter one to five touch inputs simultaneously, but some capacitive touchscreens can process even more.

Capacitive touchscreens deliver brighter, higher contrast images due to the makeup of their panels. Displays with capacitive touch screens are more durable than resistive touch screens because they are designed with cover glass on their top layer. In fact, all of our capacitive TFT displays have standard 0.7mm thick built-in cover glass and can be further customized for extra durability.

Related: LCD Cover Glass Impact Test

Capacitive Touchscreen Disadvantages

The cost of a capacitive touchscreen is slightly higher than a resistive touchscreen panel due to more complicated manufacturing processes.

While the cost is currently higher than resistive touchscreens, capacitive touchscreens are quickly becoming the industry standard in touchscreen technology.

The enhanced responsiveness can be a downside depending on how and where the display is used. For example, a capacitive touchscreen would not easily respond to the user while wearing certain types of gloves. Although capacitive touchscreens don’t respond to inorganic inputs, they can still be accidentally activated by other conductive elements. One of the the most common elements that causes interruptions is water.

Rain, humidity, and condensation on the surface of capacitive touchscreens will often cause accidental inputs and reduced accuracy until the water is removed. This is one of the main reasons why a resistive touchscreen would be chosen over a capacitive touchscreen in certain situations.

Related: LCD Screen Types

When to Choose a Capacitive Touchscreen

Any device that utilizes touch gestures like swiping, pinching, or multi-touch will require a capacitive touchscreen. These features often help make capacitive touchscreen displays more intuitive and user-friendly than resistive touchscreens. Capacitive touchscreens are best suited for applications requiring improved touch responsiveness with better image brightness and contrast.

Resistive Touchscreen Displays

Resistive touchscreen panels sense pressure on the display's top layer and send a signal to the circuit layer to activate the touchscreen functionality. Because they use pressure to activate the touch inputs, resistive touchscreen displays can be used with a stylus, gloves, and other items. Resistive touchscreens are built without cover glass and made of plastic, making them more susceptible to dents and scratches.

Resistive touch panels were the original touchscreen to enter the market and are still widely used.

How do resistive touchscreens work?

Resistive touchscreens are made of two resistive coating layers with a gap or space layer between them. A "touch event" occurs when these two layers make contact with each other (closing the circuit) by the user's action of pressing into the soft, semi-flexible top layer. Each layer consists of horizontal and vertical lines (x,y matrix) that detects the exact location of the touch.

The gap or space layer typically consists of air or inert gas and some spacers whose only purpose is to separate the soft top layer from the bottom layer.

Resistive touchscreen diagram

Resistive Touchscreen Advantages

Resistive touchscreens are often seen as the less advanced variety of touch panel compared to capacitive touch panels. However, being able to interact with non-organic inputs keeps these touchscreens relevant in specific industries.

Resistive touchscreen displays are less sensitive than capacitive touchscreen displays. This is considered an advantage in some cases and is why they’re chosen for specific applications. Resistive touchscreens will not respond to accidental inputs from the environment, so they won’t be interrupted by things like water spills or lightweight debris landing on the screen.

This type of touchscreen requires more intentional inputs from the user, making them more reliable in rugged and unstable environments. For example, a resistive touchscreen is the perfect solution on a construction site where water or debris might land on the screen. They’re also the best touchscreen display option for situations where the user is wearing gloves.

Resistive Touchscreen Disadvantages

Resistive touchscreen panels are unfortunately more susceptible to dents and scratches. Their poor visibility in direct sunlight does not make them ideal for outdoor applications. Their inability to respond to multi-touch inputs can be a disadvantage in fast-paced applications requiring such. Because resistive touchscreens rely on the pressure applied to the top layer, they tend to be abused and mishandled, which makes them less durable over time than capacitive touchscreens.

Related: How to Clean an Electronic Display

When to Choose a Resistive Touchscreen

Resistive touchscreen technology is ideal for low-cost applications involving rugged environments, indirect sunlight, and simple touch features. Fewer accidental touch inputs, better resistance to heat and moisture, and the ability to be operated with pretty much anything (stylus, pen, gloves, fingers, etc.) make this touchscreen technology a more reliable solution when user input is crucial.

Capacitive vs Resistive Comparison Table

  Capacitive Resistive Activation type Light touch (conductive) Pressure touch Cost Higher manufacturing cost Lower manufacturing cost Touch sensitivity More sensitive Less sensitive Brightness and contrast Best Good Durability Best Good Capable of multi-touch Yes No Can gloves, pen or stylus be used? Yes (but Limited) Yes Uses Multi-touch, accurate applications. Rugged environments with simple touch features.

Conclusion

While it’s clear that capacitive touchscreens are dominating the consumer electronics market, resistive touchscreens still have an advantage in some ways.

If you’re looking for a cost-effective touchscreen that can operate with simple tap inputs in rugged environments, resistive is the way to go. For more advanced and intuitive touchscreen technology with higher quality applications, choose capacitive touchscreens.

To learn more about touchscreen displays, or anything related to display technology, we’re always here to help!  Get in touch with our engineers today.

If you are looking for more details, kindly visit 24 Inches Resistive Touch Screen.

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