A touch sensor is a device that detect physical contact or touch. This sensor is used in a wide range of applications, from smartphones and tablets to industrial automation and robotics.
touch sensor provide a user-friendly interface for interacting with electronic devices. This is intuitive and easy to use and can be integrated into a wide range of applications. In addition, touch sensor is durable and reliable, and can withstand heavy use in industrial and commercial settings.
Furthermore, touch sensor can be used in a wide range of environmental conditions. Many touch sensor is designed to withstand high temperatures, humidity, and other environmental factors, making them suitable for use in harsh industrial environments.
The increasing popularity of smartphones and tablets is one of the major drivers of the touch sensor market, as this device is equipped with touch sensor which allow users to interact with the device using simple gestures, such as tapping, swiping, and scrolling. As the demand for smartphones and tablets continues to grow, which according to the World Economic Forum, is expected to surpass 1,500 million units by 2050, the market for touch sensor is also expected to grow. Furthermore, the increasing use of touchscreens in public spaces such as retail stores, hotels, and transportation hubs is another driver of the touch sensor market. These touchscreens are used for various purposes, including wayfinding, interactive advertising, and customer service. As more and more businesses look to improve customer experience and engagement through technology, the market for touch sensor in public spaces is expected to grow. Also, the increasing use of touch sensor in automotive applications drives the touch sensor market. Automakers increasingly use touch sensor in cars to enable features such as touch-based infotainment system, navigation system, and climate control system. As the trend toward autonomous vehicles continue to grow, it is expected that the use of touch sensor in cars will also increase.
Limited durability is one of the key restraints that may impact the growth of the touch sensor market. Some touch sensor may not withstand exposure to harsh environmental conditions such as high temperatures, humidity, and vibration in heavy industrial and commercial settings. This could cause downtime and maintenance costs and make it difficult for manufacturers to ensure a long-term, reliable performance, which may make them less attractive to customers. For example, in industrial automation settings, touch sensor is used to control machines and equipment. These machines may operate in harsh environments such as factories, mines, and oil & gas rigs. If the touch sensor used in these machines are not durable enough, they may fail prematurely, causing downtime, and maintenance costs.
Limited flexibility is a restraint for the touch sensor market. Some touch sensor need to be more flexible to adapt to different applications or environments, which may limit their adoption in certain applications. For example, a touch sensor designed for a dry environment may not be suitable for use in a humid environment, as the humidity may cause the touch sensor to malfunction. Similarly, a touch sensor designed for use on a flat surface may not be suitable for use on a curved surface, this will limit their adoption in certain applications, and manufacturers will have to develop new touch sensor that can work on a curved surface.
The increasing use of touch sensor in virtual and augmented reality (VR/AR) applications presents an opportunity for the touch sensor market. As VR/AR technology continues to advance, the demand for touch sensor that can accurately and effectively enable user interactions in these environments is expected to grow. For example, it can enable hand and finger tracking in VR gaming, allowing players to interact more naturally, and intuitively with virtual objects. In VR training and simulation applications, it can enable users to interact with virtual equipment and environments realistically and accurately. In AR, touch sensor can enable interactions with digital objects overlaid in the real world, such as in industrial maintenance, retail, and medical training. For example, in industrial maintenance, touch sensor can enable technicians to interact with virtual equipment overlaid on real-world equipment, allowing them to perform repairs and maintenance more efficiently.
New Product Launches:
On 5 January, 2022, Omnivision, a leading global developer of semiconductor solutions, announced the launch of a new touch and display driver integration (TDDI) product for smartphones at CES 2022. The new TD4377 TDDI enables 1080 pixel full high definition resolution, up to 144 Hz display frame rate with the touch report rate doubling the display frame rate in LCD display and touch solutions. This new technology development in the touch sensor market presents an opportunity for Omnivision to establish long-term relationships with tier-one display module manufacturers and smartphone OEMs and leverage their best-in-class quality and stable supply chain to provide an added advantage for customers. The TD4377 TDDI is a significant upgrade from the TD4375, which was in mass production in millions of tier-one OEM phones, supports higher performance in display and touch with much lower power consumption.
In Oct 2022, IIT Madras researchers developed a new touchscreen display technology called interactive touch active display that allows users to feel textures from images as they move their finger across the touch surface. This next-generation touch display technology uses software to create different textures, such as crisp edges, switches, and rich textures that range from smooth to gritty. The technology is based on electric fields through a physical phenomenon known as "electroadhesion," which modulates friction locally as fingers travel across a smooth plane. This new technology could significantly impact electronic appliances, such as online shopping platforms, by allowing customers to touch and feel products before making a purchase. A small device similar to a computer mouse is planned to be developed, with field testing and feedback currently being conducted. The technology has potential application in automotive, consumer electronics, home automation, medical, industrial, and gaming, and other areas.
Segmental Overview
By technology: The touch sensor market is divided into resistive, capacitive, and infrared. Resistive touch sensor is made of two layers of conductive material separated by a small gap. When a user applies pressure to the top layer, it comes into contact with the bottom layer, and the sensor detects the point of contact. This sensor is inexpensive and can be used with a stylus or finger. This is commonly found in point-of-sale terminals, medical equipment, and other industrial applications. Capacitive touch sensor work by detecting changes in capacitance, which occurs when a user touches the sensor with their finger. This sensor is typically more accurate and responsive than resistive sensor, and they can detect multiple touch points simultaneously. This is commonly found in smartphones, tablets, and other consumer electronic devices. Infrared touch sense infrared light and detects changes in the light when a user touches the sensor. This sensor can detect touch with a finger, stylus, or any other object, and they can detect multiple touch points simultaneously. This is commonly found in interactive displays, kiosks, and other public applications.
By application: The touch sensor market is divided into smartphones, laptops, tablets, and monitors. Smartphones are one of the largest application segments for touch sensor. The high adoption rate of smartphones, along with the increasing number of touch-enabled features such as mobile payments, and fingerprint recognition, is driving the demand for touch sensors in this segment. Laptops are another major application segment for touch sensor. The increasing trend of two-in-one laptops, which can be used as tablets and laptops, is driving the demand for touch sensor in this segment. Tablets are also a significant application segment for this. The increasing adoption of tablets in consumer and enterprise applications drives the demand for touch sensors in this segment. Monitors are also a significant application segment for this. The increasing adoption of touch-enabled monitors in consumer and enterprise applications drives the demand for it in this segment.
By industry: The touch sensor market is divided into IT and telecommunication, media and entertainment, education, and others. The IT and telecommunications industry is one of the largest application segments for touch sensor. The increasing adoption of touch-enabled devices such as smartphones and tablets in this industry is driving the demand for touch sensor. In addition, the increasing use of touch-enabled devices in the telecommunications industry, such as customer service kiosks, is also driving the demand for touch sensor. The increasing use of touch-enabled devices in the media and entertainment industry, such as interactive displays, digital signage, and gaming devices, is driving the demand for touch sensor in this segment. The increasing use of touch-enabled devices in the education industry, such as interactive whiteboards and tablets, is driving the demand for it in this segment.
By region: The touch sensor market is segmented into North America, Europe, Asia-Pacific, Latin America, Middle East, and Africa. North America and Europe are significant markets for touch sensors, driven by the region's high adoption rate of smartphones, tablets, and laptops. In addition, the increasing use of touch sensor in the automotive, healthcare, and industrial sectors is also driving the demand for touch sensor in this region. Furthermore, Asia-Pacific is a rapidly growing market for touch sensor, driven by the increasing adoption of smartphones, tablets, and laptops in the region.
Competitive Analysis
Competitive analysis and profiles of the major players Atmel, NXP Semiconductors, Fujitsu Ltd., Honeywell International Inc., Infineon Technologies, ON Semiconductor Corporation, Qualcomm Incorporated, Siemens AG, STMicroelectronics, and Texas Instruments Inc. are included in this report. Major players have adopted product launch and acquisition as key developmental strategies to improve the product portfolio of the touch sensor market.
touch sensor provide a user-friendly interface for interacting with electronic devices. This is intuitive and easy to use and can be integrated into a wide range of applications. In addition, touch sensor is durable and reliable, and can withstand heavy use in industrial and commercial settings.
Furthermore, touch sensor can be used in a wide range of environmental conditions. Many touch sensor is designed to withstand high temperatures, humidity, and other environmental factors, making them suitable for use in harsh industrial environments.
The increasing popularity of smartphones and tablets is one of the major drivers of the touch sensor market, as this device is equipped with touch sensor which allow users to interact with the device using simple gestures, such as tapping, swiping, and scrolling. As the demand for smartphones and tablets continues to grow, which according to the World Economic Forum, is expected to surpass 1,500 million units by 2050, the market for touch sensor is also expected to grow. Furthermore, the increasing use of touchscreens in public spaces such as retail stores, hotels, and transportation hubs is another driver of the touch sensor market. These touchscreens are used for various purposes, including wayfinding, interactive advertising, and customer service. As more and more businesses look to improve customer experience and engagement through technology, the market for touch sensor in public spaces is expected to grow. Also, the increasing use of touch sensor in automotive applications drives the touch sensor market. Automakers increasingly use touch sensor in cars to enable features such as touch-based infotainment system, navigation system, and climate control system. As the trend toward autonomous vehicles continue to grow, it is expected that the use of touch sensor in cars will also increase.
Limited durability is one of the key restraints that may impact the growth of the touch sensor market. Some touch sensor may not withstand exposure to harsh environmental conditions such as high temperatures, humidity, and vibration in heavy industrial and commercial settings. This could cause downtime and maintenance costs and make it difficult for manufacturers to ensure a long-term, reliable performance, which may make them less attractive to customers. For example, in industrial automation settings, touch sensor is used to control machines and equipment. These machines may operate in harsh environments such as factories, mines, and oil & gas rigs. If the touch sensor used in these machines are not durable enough, they may fail prematurely, causing downtime, and maintenance costs.
Limited flexibility is a restraint for the touch sensor market. Some touch sensor need to be more flexible to adapt to different applications or environments, which may limit their adoption in certain applications. For example, a touch sensor designed for a dry environment may not be suitable for use in a humid environment, as the humidity may cause the touch sensor to malfunction. Similarly, a touch sensor designed for use on a flat surface may not be suitable for use on a curved surface, this will limit their adoption in certain applications, and manufacturers will have to develop new touch sensor that can work on a curved surface.
The increasing use of touch sensor in virtual and augmented reality (VR/AR) applications presents an opportunity for the touch sensor market. As VR/AR technology continues to advance, the demand for touch sensor that can accurately and effectively enable user interactions in these environments is expected to grow. For example, it can enable hand and finger tracking in VR gaming, allowing players to interact more naturally, and intuitively with virtual objects. In VR training and simulation applications, it can enable users to interact with virtual equipment and environments realistically and accurately. In AR, touch sensor can enable interactions with digital objects overlaid in the real world, such as in industrial maintenance, retail, and medical training. For example, in industrial maintenance, touch sensor can enable technicians to interact with virtual equipment overlaid on real-world equipment, allowing them to perform repairs and maintenance more efficiently.
New Product Launches:
On 5 January, 2022, Omnivision, a leading global developer of semiconductor solutions, announced the launch of a new touch and display driver integration (TDDI) product for smartphones at CES 2022. The new TD4377 TDDI enables 1080 pixel full high definition resolution, up to 144 Hz display frame rate with the touch report rate doubling the display frame rate in LCD display and touch solutions. This new technology development in the touch sensor market presents an opportunity for Omnivision to establish long-term relationships with tier-one display module manufacturers and smartphone OEMs and leverage their best-in-class quality and stable supply chain to provide an added advantage for customers. The TD4377 TDDI is a significant upgrade from the TD4375, which was in mass production in millions of tier-one OEM phones, supports higher performance in display and touch with much lower power consumption.
In Oct 2022, IIT Madras researchers developed a new touchscreen display technology called interactive touch active display that allows users to feel textures from images as they move their finger across the touch surface. This next-generation touch display technology uses software to create different textures, such as crisp edges, switches, and rich textures that range from smooth to gritty. The technology is based on electric fields through a physical phenomenon known as "electroadhesion," which modulates friction locally as fingers travel across a smooth plane. This new technology could significantly impact electronic appliances, such as online shopping platforms, by allowing customers to touch and feel products before making a purchase. A small device similar to a computer mouse is planned to be developed, with field testing and feedback currently being conducted. The technology has potential application in automotive, consumer electronics, home automation, medical, industrial, and gaming, and other areas.
Segmental Overview
By technology: The touch sensor market is divided into resistive, capacitive, and infrared. Resistive touch sensor is made of two layers of conductive material separated by a small gap. When a user applies pressure to the top layer, it comes into contact with the bottom layer, and the sensor detects the point of contact. This sensor is inexpensive and can be used with a stylus or finger. This is commonly found in point-of-sale terminals, medical equipment, and other industrial applications. Capacitive touch sensor work by detecting changes in capacitance, which occurs when a user touches the sensor with their finger. This sensor is typically more accurate and responsive than resistive sensor, and they can detect multiple touch points simultaneously. This is commonly found in smartphones, tablets, and other consumer electronic devices. Infrared touch sense infrared light and detects changes in the light when a user touches the sensor. This sensor can detect touch with a finger, stylus, or any other object, and they can detect multiple touch points simultaneously. This is commonly found in interactive displays, kiosks, and other public applications.
By application: The touch sensor market is divided into smartphones, laptops, tablets, and monitors. Smartphones are one of the largest application segments for touch sensor. The high adoption rate of smartphones, along with the increasing number of touch-enabled features such as mobile payments, and fingerprint recognition, is driving the demand for touch sensors in this segment. Laptops are another major application segment for touch sensor. The increasing trend of two-in-one laptops, which can be used as tablets and laptops, is driving the demand for touch sensor in this segment. Tablets are also a significant application segment for this. The increasing adoption of tablets in consumer and enterprise applications drives the demand for touch sensors in this segment. Monitors are also a significant application segment for this. The increasing adoption of touch-enabled monitors in consumer and enterprise applications drives the demand for it in this segment.
By industry: The touch sensor market is divided into IT and telecommunication, media and entertainment, education, and others. The IT and telecommunications industry is one of the largest application segments for touch sensor. The increasing adoption of touch-enabled devices such as smartphones and tablets in this industry is driving the demand for touch sensor. In addition, the increasing use of touch-enabled devices in the telecommunications industry, such as customer service kiosks, is also driving the demand for touch sensor. The increasing use of touch-enabled devices in the media and entertainment industry, such as interactive displays, digital signage, and gaming devices, is driving the demand for touch sensor in this segment. The increasing use of touch-enabled devices in the education industry, such as interactive whiteboards and tablets, is driving the demand for it in this segment.
By region: The touch sensor market is segmented into North America, Europe, Asia-Pacific, Latin America, Middle East, and Africa. North America and Europe are significant markets for touch sensors, driven by the region's high adoption rate of smartphones, tablets, and laptops. In addition, the increasing use of touch sensor in the automotive, healthcare, and industrial sectors is also driving the demand for touch sensor in this region. Furthermore, Asia-Pacific is a rapidly growing market for touch sensor, driven by the increasing adoption of smartphones, tablets, and laptops in the region.
Competitive Analysis
Competitive analysis and profiles of the major players Atmel, NXP Semiconductors, Fujitsu Ltd., Honeywell International Inc., Infineon Technologies, ON Semiconductor Corporation, Qualcomm Incorporated, Siemens AG, STMicroelectronics, and Texas Instruments Inc. are included in this report. Major players have adopted product launch and acquisition as key developmental strategies to improve the product portfolio of the touch sensor market.
Touch Sensor Market, by Technology Report Highlights
| Aspects | Details |
 By Technology |
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 By Application |
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 By Industry |
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 By Region |
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 Key Market Players | Honeywell International Inc., STMicroelectronics, Infineon Technologies, NXP Semiconductors, Fujitsu Ltd., Qualcomm Incorporated, Texas Instruments Inc., Siemens AG, ON Semiconductor Corporation, Atmel |
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