2024 Update Coming Soon
Published- May 2023
Number Of Pages -99
Image sensor wafers are used in a variety of consumer electronics devices, such as smartphones, digital cameras, tablets, and laptops. These devices use image sensor wafers to capture high-resolution images and videos.
Image sensor wafers are used in a variety of automotive applications, such as advanced driver assistance systems (ADAS), self-driving cars, and parking assistance systems. These systems use image sensor wafers to detect and track objects on the road, such as other vehicles, pedestrians, and traffic signs.
Image sensor wafers are used in a variety of security and surveillance applications, such as CCTV cameras, facial recognition systems, and intrusion detection systems. These systems use image sensor wafers to monitor areas for suspicious activity and identify individuals.
CMOS image sensors are the most common type of image sensor used today. They are made using the same manufacturing process as conventional integrated circuits, which makes them relatively inexpensive to produce. CMOS image sensors also have a number of advantages over CCD image sensors
An image sensor is a component that enables the camera to translate photons, or units of light, into the electrical impulses the device can understand. The first digital cameras had charge-coupled technology, which allowed the electrical charge to travel across the device more easily and be manipulated.
Among the several image sensor types, CMOS sensors attract the attention of modern vision system experts. The data of each pixel may be read independently thanks to CMOS, or complementary metal oxide semiconductor.
AI and ML are being increasingly used in various applications, such as image recognition, facial recognition, and object detection. This is driving the demand for high-performance image sensors with the ability to capture and process high-resolution images in real time.
The Global Image sensor wafer market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The growing expenditure on security & surveillance in public places across the globe and the rising adoption of technologies for improving anti-terror equipment and mitigating security lapses are expected to drive the image sensor market over the predicted years. The demand for higher-resolution image sensors with increased pixel density is a significant trend in the market.
Advancements in nanometer technology allow for the fabrication of smaller pixels, enabling image sensors to capture more detailed and sharper images.
Sony is the market leader in the image sensor wafer industry, with a market share of over 48%. The company offers a wide range of Image Sensor Wafers for various applications, including smartphones, automotive, Security & surveillance, and industrial
The emerging markets, such as China and India, are expected to drive the growth of the global image sensor wafer market in the coming years. This is due to the increasing disposable income and the growing demand for electronic devices in these markets.
Sony is planning to invest $7 billion in a new image sensor plant in Japan. The plant is expected to start production in 2025 and will create around 2,000 jobs.
Samsung is developing a new image sensor with a stacked architecture. The new sensor is expected to have improved image quality and low-light performance.
SK Hynix is planning to invest $10 billion in a new semiconductor fab in South Korea. The fab is expected to start production in 2025 and will produce image sensor wafers and other semiconductor products.
The market share of each player can vary depending on the application area and region. For example, Sony dominates the smartphone image sensor market, while TSMC has a strong presence in the industrial and automotive markets.
CMOS image sensors are becoming increasingly popular due to their advantages over CCD image sensors, such as lower power consumption, higher integration, and smaller form factor. As a result, the market share of CMOS image sensors is expected to increase in the coming years.
ON Semiconductor is planning to launch a new image sensor for industrial applications. The new sensor is expected to have improved image quality and durability.
OmniVision is planning to launch a new image sensor for automotive applications. The new sensor is expected to have improved image quality and reliability. The growing adoption of image sensors in medical applications, such as endoscopy, X-ray, and MRI, is also expected to drive the growth of the market.
Sony launched the IMX989 in April 2023. It is a 1-inch type stacked CMOS image sensor with a resolution of 50.1MP. The IMX989 is designed for high-end smartphones and offers excellent image quality and low-light performance.
Samsung launched the ISOCELL HP3 in June 2023. It is a 1/1.22-inch type stacked CMOS image sensor with a resolution of 200MP. The ISOCELL HP3 is designed for high-end smartphones and offers excellent image quality and low-light performance.
OmniVision launched the OV64B in May 2023. It is a 1/2-inch type stacked CMOS image sensor with a resolution of 64MP. The OV64B is designed for mid-range smartphones and offers good image quality and performance at a competitive price.
SK Hynix launched the Hi1337 in July 2023. It is a 1/2.55-inch type stacked CMOS image sensor with a resolution of 50MP. The Hi1337 is designed for mid-range and entry-level smartphones and offers good image quality and performance at a competitive price.
ON Semiconductor launched the AR0234CS in September 2022. It is a 1/2.7-inch type stacked CMOS image sensor with a resolution of 2MP. The AR0234CS is designed for automotive applications and offers good image quality and performance in low-light conditions.
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