Visible Light Range Scientific Camera Market by Type (sCMOS, sCMOS (Backthinned), CCD, CCD (Backthinned), EMCCD), Camera Resolution (Less than 4 MP, 4 MP to 5 MP, 6 MP to 9 MP, More than 9 MP), Camera Price and Region Global Forecast 2023 – 2030

Visible Light Range Scientific Camera Market: Overview

The visible light range scientific camera market is projected to reach USD 0.6 billion by 2030 from USD 0.4 billion in 2023; it is expected to grow at a CAGR of 7.9% from 2023 to 2030.

The visible light range scientific camera market refers to the market for cameras that are used to capture images in the visible spectrum of light, which ranges from approximately 400 nanometers (nm) to 700 nm. These cameras are used in a wide range of scientific applications, including microscopy, biology, astronomy, and more. The market for visible light range scientific cameras is driven by various factors, including the increasing adoption of these cameras in research and development activities, the growing demand for high-resolution imaging systems, and the need for advanced imaging technologies in various industries.

COVID-19 Impact:

The visible light range scientific camera market has been impacted by the COVID-19 pandemic in several ways. Firstly, the pandemic has caused disruptions in the global supply chain, leading to delays in the delivery of camera components and other materials needed for production. This has caused a shortage of camera products in the market, leading to a decrease in sales and revenue. Secondly, the pandemic has resulted in the closure of several research laboratories and academic institutions, which has impacted the demand for scientific cameras. The shutdown of these institutions has led to a decrease in the research and development activities that require the use of scientific cameras. On the other hand, the pandemic has also created new opportunities for the scientific camera market. With the increase in remote work and virtual meetings, there has been a rise in demand for webcams and other video conferencing tools, which also use visible light range cameras. This has led to an increase in the demand for visible light range cameras in the consumer market.

Visible Light Range Scientific Camera Market Drivers:

With the continuous advancements in technology, the capabilities of scientific cameras are increasing. New technologies are allowing for higher resolution, faster image acquisition, and better sensitivity, which are key factors in the scientific camera market. Scientific cameras are used in a wide range of industries, including life sciences, material sciences, and microscopy. As these industries continue to grow and demand higher quality imaging solutions, the demand for scientific cameras will increase. With the increasing focus on research and development activities in various industries, the demand for high-quality scientific cameras is also increasing. Researchers and scientists require accurate and reliable imaging solutions to conduct their experiments and studies. With the growing demand for imaging solutions in healthcare, scientific cameras are increasingly being used in medical research and clinical settings. This includes applications such as fluorescence imaging, confocal microscopy, and other imaging techniques that require high-quality scientific cameras. Automation is becoming increasingly important in scientific research, and scientific cameras play a key role in automated imaging solutions. As automation continues to grow, the demand for scientific cameras will also increase. Overall, the visible light range scientific camera market is driven by a combination of technological advancements, growing demand in various industries, increasing research and development activities, growing need for imaging solutions in healthcare, and increasing demand for automation.

Visible Light Range Scientific Camera Market: Restraints

Scientific cameras, particularly those designed for research applications, can be expensive. This can limit their adoption in certain research fields or for smaller research projects. While visible light cameras are widely used, they are limited in terms of sensitivity compared to other imaging technologies, such as infrared or ultraviolet cameras. This can limit their ability to capture faint or low-contrast signals. While visible light cameras can capture high-resolution images, their resolution is still limited compared to other imaging technologies, such as electron microscopy. This can limit their ability to capture fine details in certain samples. Some scientific cameras have a limited field of view, meaning that they can only capture a small area of a sample at once. This can make it difficult to capture a complete picture of a sample, particularly if it is large or complex. Scientific cameras can be complex to operate, particularly if they require specialized software or data analysis tools. This can limit their adoption in certain research fields or for researchers who lack specialized training.

Visible Light Range Scientific Camera Market: Segmentation

The market can be segmented based on several factors, including camera type, application, end-user, and geography. Camera types may include CCD, CMOS, and sCMOS cameras. Applications may include microscopy, astronomy, material science, life science, and others. End-users may include academic and research institutes, biotechnology and pharmaceutical companies, and others. North America and Europe are the major markets for visible light range scientific cameras, owing to the presence of major research and academic institutes in these regions. The Asia-Pacific region is also expected to grow significantly in the coming years due to increasing investments in research and development activities in countries like China, India, and Japan.

Visible Light Range Scientific Camera Market: Regional Landscape

The North American market for visible light range scientific cameras is expected to witness significant growth owing to the presence of major players and research institutions in the region. The United States is the major contributor to the growth of this market in North America. The European market is expected to witness steady growth owing to the increasing adoption of scientific cameras in the region. Countries such as Germany, France, and the United Kingdom are expected to contribute significantly to the growth of the market in Europe. The Asia-Pacific region is expected to witness the highest growth rate owing to the increasing adoption of scientific cameras in research and development activities, and the presence of a large number of research institutes and pharmaceutical companies in the region. China, Japan, and India are the major contributors to the growth of the market in Asia-Pacific. The Latin American market is expected to witness moderate growth owing to the increasing adoption of scientific cameras in research and development activities in the region. Brazil and Mexico are the major contributors to the growth of the market in Latin America. The Middle East and Africa market is expected to witness steady growth owing to the increasing adoption of scientific cameras in research and development activities and the growing investment in the healthcare sector. South Africa and the United Arab Emirates are the major contributors to the growth of the market in the region.

Visible Light Range Scientific Camera Market: Competitive Landscape

Some of the main competitors dominating the global Visible Light Range Scientific Camera Market include- Hamamatsu Photonics, Andor Technology, Teledyne Photometrics, Olympus Corporation, and more.

Recent Developments

     In 2021

  • Hamamatsu Photonics launched a new scientific CMOS camera, the ORCA-Fusion BT, which is a back-thinned scientific CMOS camera for fluorescence imaging.
  • In March 2021, Teledyne Imaging launched a new scientific camera, the Zyla 5.5 HFCL, which is a high-speed, high-sensitivity camera designed for low-light imaging applications.
  • PCO AG, a leading camera manufacturer, announced its collaboration with Nanoscope Technologies LLC, a developer of super-resolution microscopy systems, to integrate PCO's high-speed camera technology into Nanoscope's super-resolution microscopy systems.
  • Andor Technology, a manufacturer of scientific cameras and microscopy systems, announced the launch of the iXon Ultra 888, a high-speed, low-noise EMCCD camera for fluorescence microscopy applications.

 In 2020

  • Hamamatsu Photonics released a new scientific CMOS camera, the Orca-Fusion BT, which is designed for high-speed and low-noise imaging applications.
  • Teledyne Photometrics launched a new sCMOS camera, the Prime 95B, which has improved sensitivity and speed compared to its predecessor.
  • Andor Technology introduced a new EMCCD camera, the iXon Ultra 888, which has a higher resolution and faster readout speed than previous models.
  • PCO released the pco.panda 4.2, a compact sCMOS camera with a high dynamic range and low noise for demanding scientific imaging applications.

Global Visible Light Range Scientific Camera Market is segmented as follows:

  • Type:
  • CCD (Charge-Coupled Device) cameras
  • CMOS (Complementary Metal-Oxide-Semiconductor) cameras
  • EMCCD (Electron Multiplying Charge-Coupled Device) cameras
  • sCMOS (Scientific Complementary Metal-Oxide-Semiconductor) cameras
  • InGaAs (Indium Gallium Arsenide) cameras
  • Application:
  • Life sciences (microscopy, fluorescence imaging, bioluminescence imaging, etc.)
  • Material sciences (surface inspection, defect analysis, etc.)
  • Astronomy (stellar imaging, planet observation, etc.)
  • Industrial (machine vision, quality control, etc.)
  • Others (art conservation, forensic investigation, etc.)
  • End-user: Research institutes b. Pharmaceutical and biotechnology companies c. Academic institutions d. Industrial manufacturing companies e. Others (government agencies, museums, etc.)

By Region

  • North America
  • The U.S.
  • Canada
  • Mexico
  • Europe
  • France
  • The UK
  • Spain
  • Germany
  • Italy
  • Rest of Europe
  • Asia Pacific
  • China
  • Japan
  • India
  • New Zealand
  • Australia
  • South Korea
  • Southeast Asia
  • Rest of Southeast Asia
  • The Middle East & Africa
  • Saudi Arabia
  • UAE
  • Egypt
  • Kuwait
  • South Africa
  • Rest of the Middle East & Africa
  • Latin America
  • Brazil
  • Argentina
  • Rest of Latin America

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Report Detail

  • Status:Published
  • Report Code:NNRR 98
  • No. of Pages:168
  • Published DateJune 2023
  • Category:Semiconductor and Electronic
  • Delivery Timeline:48 hrs

Customized

  • => Region Level Market Share
  • => Import Export Analysis
  • => Additional Company Profiles
  • => Region Specific Market Dynamics
  • => Production Analysis
  • => Additional Countries (Apart From Mentioned Countries)
  • => Country/Region-specific Report