6 December 2024

The Motic PMS-1000 Microscope is a modular microscopy system used in semiconductor industry applications. It features a three-lens design that allows for easy transition to laser operation, making it versatile for various optical and laser-based analyses. Below are the key specifications and features of the system:

Key Features:

• Modular Design: The system’s modular nature allows it to be customized for specific tasks, making it suitable for a wide range of applications in semiconductor analysis and other industries.
• Laser-Compatible Microscope: Equipped with a laser-compatible system, it can seamlessly integrate with laser sources for advanced optical analysis.
• Lasing Spectrum: The system is standardly equipped to work with lasers spanning the following wavelengths:
  • 355 nm [UV]
  • 532 nm [Green]
  • 1064 nm [IR]
• Lens Turret: The microscope is equipped with a 3-lens turret for easy switching between objectives during operation.
• Objectives:
  • 1x objective for UV and infrared (IR) applications.
  • 2x objective for visible light observations.
• Aperture Range: The diaphragm has an adjustable depth and contrast range, with an aperture range from 0.8 mm to 6 mm.
• Magnification: The microscope offers a wide magnification range, from 20X to 2000X, allowing for both broad field and detailed views of semiconductor components.
• Focus Adjustment:
  • Coaxial coarse and fine focusing wheels (right/left) with a 50 mm travel range.
  • Fine adjustment provides 0.1 mm per turn, and other adjustments allow for 4 mm per turn.
• Inter-lens Distance: The distance between lenses is adjustable, ranging from 55 mm to 70 mm, ensuring flexibility for various sample sizes.
• Optical Tube Weight: The optical tube has a loading weight of 20.5 kg, providing stability and durability for precise measurements.

Applications:

• Semiconductor Industry: Suitable for inspecting and analyzing microelectronic components, including integrated circuits, photonic devices, and semiconductor materials.
• Laser Microscopy: The laser operation capabilities make it ideal for advanced optical techniques, such as laser-based spectroscopy, micro-lithography, and high-resolution imaging.
• Material Characterization: Perfect for material science applications, including the study of surface structures, coatings, and interfaces in semiconductors.

Benefits:

• The modular and laser-compatible design ensures the microscope can easily adapt to various tasks, providing high flexibility.
• Wide magnification range and adjustable aperture depth offer detailed views of semiconductor devices and materials, making it suitable for both low and high magnification analysis.
• The ability to seamlessly integrate with lasers and adjust between different wavelengths enhances the system’s capabilities for optical analysis and laser characterization of materials.

This microscope system is crucial in semiconductor research, development, and quality control, offering detailed imaging and analysis for critical components in high-tech industries.