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Factory automation image sensors are used in a variety of applications, including quality control, process control, material handling, and safety. They are typically equipped with high resolution, high speed, wide dynamic range, insensitivity to noise, and resistance to vibration.
These features allow them to capture detailed images of objects, capture images quickly, capture images in a variety of lighting conditions, capture clear images even in noisy environments, and operate in harsh environments.
Factory automation image sensors are an essential part of many manufacturing processes, helping to improve quality, efficiency, and safety.
Here are some additional details about factory automation image sensors: Sensors can be used to inspect products for defects in a variety of ways, such as by measuring dimensions, checking for cracks or other anomalies, and inspecting for foreign objects.
Sensors can be used to identify and sort materials by their properties, such as size, shape, color, or composition. Sensors can be used to detect hazards, such as leaks, spills, or fires. Sensors can help to improve quality by reducing the number of defects, efficiency by automating tasks, and safety by preventing accidents.
Sensors are a cost-effective way to improve manufacturing processes by reducing waste, improving quality, and increasing efficiency.
The Global Factory Automation Image Sensor Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Gpixel has introduced the GL3516, a high-speed, 16K resolution line scan CMOS image sensor with 3.5 m pixels, a 57.3 mm picture diagonal, and a line rate of 120 kHz. It has a full well capacity of 5.6ke and read noise of 8.2 e-, with a dynamic range of 56.6 dB. It is equipped with a Global shutter.
The 10-bit pixel data from the sensor is output through 25, 13, 7 or 4 Sub-LVDS channels, each operating at 120 kHz in single-line mode or 60 kHz in dual-line mode. The GL3516 is backwards compatible with Gpixel’s current GL7008 8K line scan sensor and comes in monochrome and color variants.
It is straightforward to integrate and may be used for industrial inspection applications that need high-speed scanning and 16K resolution.
The Hyperlux vehicle image sensor series has been launched by onsemi (Nasdaq: ON), a pioneer in intelligent power and sensing technology.
The Hyperlux family provides high performance, speed, and advanced features to propel the next generation of Advanced Driver Assistance Systems (ADAS) forward, with a 2.1 m pixel size, industry-leading 150dB ultra high dynamic range (HDR), and LED flicker mitigation (LFM) across the full automotive temperature range.
It also allows for a smooth transition to Level 2+ driving automation, which demands the driver to take control only when the technology alerts them.
The Hyperlux line includes devices with resolutions ranging from 3 megapixels (MP) to 8 megapixels (MP) and greater, addressing both sensing and viewing camera applications. It captures high-quality images with an HDR of 150 dB.
photos in the most severe lighting circumstances without sacrificing low light sensitivity. The platform’s LFM capabilities ensures that pulsed light sources do not seem to flicker, avoiding flicker-induced machine vision difficulties.
The Hyperlux product line, which reinforces onsemi’s position as a market leader in automotive-grade image sensors, has the industry’s lowest power consumption and shortest footprint.
The automotive image sensors provide energy-efficient designs with the lowest system material cost by consuming up to 30% less power and having a 28% smaller footprint than comparable devices.
As more electronic content, including image sensors, is added to automobiles, it is critical that the content be as tiny as possible in order to fit into current designs while not interfering with the interior and exterior styling of the vehicle.
