MRCL700 Electrified 2D/3D Microscope and Modular Imaging System
Supports full-dimensional imaging in 2D, 3D, and cross-section.
7. Motor with feedback for precise and stable electric control
Modular and reconfigurable, enabling rapid customization of experimental protocols.
A wide range from 1 μm to 10 cm, accommodating both micro- and macro-scale observations.
Three LED light sources, compatible with multiple material samples.
4K HD camera with micrometer-level high-resolution imaging
Compact body + USB-C, suitable for multiple usage scenarios
Product Introduction
Introduction to the MRCL700 3D Imager Pro
General Introduction
The MRCL700 3D Imager Pro is Microqubic’s flagship modular 2D/3D imaging microscopy system, designed for specialized applications such as research, precision manufacturing, microfabrication, and electronic inspection. It delivers comprehensive optical observation and analysis capabilities across all dimensions. Breaking free from the limitations of conventional microscopes—namely, limited imaging angles and rigid functionality—the MRCL700 integrates motorized precision control, multi-mode illumination, and high-definition imaging. It enables full-range imaging, from minute features at the micrometer scale to large specimens spanning centimeters, covering an observation range from 1 μm to 10 cm and meeting both high-precision inspection and macroscopic observation needs.
The product features an optomechatronic modular design, with core optical, mechanical, and electronic modules that can be flexibly combined and reconfigured. Users require no specialized modification expertise to quickly set up and tailor experimental protocols, significantly enhancing equipment reuse and configuration flexibility. The fully electric control system is equipped with seven position-feedback motors, enabling automated, high-precision control of zoom, focus, sample stage movement, and dual-axis tilting. Paired with Bluetooth wireless communication, it supports remote operation via PC or smartphone, making it suitable for both laboratory and field-testing applications. The instrument is outfitted with an 8-megapixel 4K HD camera and three LED matrix illumination sources, capable of accommodating samples made from various materials—including silicon, glass, and PDMS—while effectively eliminating reflections and shadow interference to ensure exceptional image clarity. The compact body measures just 8 cm × 25 cm, is powered by a 5 V USB‑C port, and is adaptable to a wide range of operating environments. Order lead times are 2–4 weeks, meeting typical procurement needs.
Working Principle
The MRCL700 3D Imager Pro centers on optical imaging and integrates precision motorized control, multi-dimensional data acquisition, and digital image processing technologies. Through the coordinated operation of four key stages—light-source adaptation, optical imaging, motorized control, and 3D reconstruction—it delivers comprehensive 2D/3D/cross-sectional imaging across all dimensions.
In the illumination subsystem, the instrument is equipped with three built-in LED matrix light sources that can switch between reflected-light and transmitted-light modes. The illumination angle and brightness can be adjusted for samples of different materials to eliminate imaging artifacts and ensure that sample details are rendered with exceptional clarity. In the optical imaging subsystem, an 8-megapixel 4K camera (with a 1/2-inch sensor) is paired with quick-change objective lenses to convert the optical signals from the sample into digital images. High-speed USB 3.0 transmission enables two-dimensional imaging with sub-micron resolution, allowing even the tiniest features to be captured.
Electric precision control is the core of 3D imaging: seven position-feedback motors independently drive the zoom, focus, electric X‑Y‑R sample stage, and a 180/360° dual-axis tilting mechanism. The sample stage enables translation and rotation, while the tilting mechanism allows the sample to be rotated at multiple angles. A position-feedback module provides real-time calibration of motion accuracy, ensuring comprehensive, dead-zone-free acquisition of multiple two-dimensional images. Finally, a programmable control system integrates multi-angle image data and, using 3D reconstruction algorithms, generates volumetric models and cross-sectional images, thereby completing analysis of the sample’s three-dimensional structure. A Bluetooth module enables remote control and data exchange, supporting fully automated operation and reducing human error.
Advantages and Key Features
The MRCL700 3D Imager Pro’s core advantages lie in its modular design, omnidirectional imaging, precise control, and scene adaptability, making it more feature-rich, easier to operate, and more versatile than traditional equipment.
In terms of hardware configuration, an 8-megapixel 4K camera ensures high-resolution imaging; seven position-feedback motors deliver sub-millimeter motion accuracy; a dual-axis tilt mechanism enables full-azimuth observation; and three LED illumination sources are compatible with a wide range of sample materials, overcoming the limitations of single-source imaging. The modular, reconfigurable design allows flexible disassembly and reassembly of core components, enabling instrument customization within minutes, reducing modification and maintenance costs, and permitting individual module replacement in case of failure without requiring complete system overhaul.
In terms of operational control, full electrification replaces manual adjustment, enhancing both efficiency and precision; multi-mode control via Bluetooth wireless connectivity, local touch switches, and a 4-axis joystick meets the needs of both remote and on-site operations; programmable functions allow pre-setting imaging workflows, enabling automated batch analysis of samples and significantly boosting work efficiency.
In terms of scene adaptability, the 1 μm–10 cm imaging range seamlessly bridges microscopic and macroscopic observation, supporting 2D/3D and cross-sectional imaging as well as contact angle measurement and macro photography—along with a suite of extended functionalities. This makes it suitable for a wide array of applications, including microfluidics, MEMS, microfabrication, electronic inspection, and precision manufacturing. Its compact design combined with USB‑C power supply eliminates constraints related to space and power, enabling deployment in diverse settings such as laboratories, workshops, and field environments.
Application Areas and Case Studies
The MRCL700 3D Imager Pro, with its omnidirectional imaging and high-precision inspection capabilities, is widely used in microfluidics/MEMS, microfabrication, biology, electronics, precision manufacturing, quality control, education, and other fields, addressing key challenges in observation and inspection across diverse applications.
In the microfluidics/MEMS field, 3D imaging can be performed on silicon-based and glass/PDMS substrates, providing clear visualization of chip channels and MEMS device structures to assess design feasibility and identify fabrication defects, thereby supporting sensor R&D with robust data. In the microfabrication domain, it is used for 2D scanning and 3D inspection of planar surfaces, such as micro-etched structures on semiconductor wafers and the surface quality of precision components, ensuring that machining accuracy meets specified tolerances.
In the field of biology, it supports bright-field imaging of biological samples for observing the morphology of insects, plant tissues, and microorganisms, thereby supporting scientific research (not for medical or clinical applications). In the electronics sector, it is used to inspect solder joints on circuit boards, chip packaging, and the appearance of miniature components, identifying issues such as cold solder joints and physical damage to ensure component quality. In precision manufacturing, it performs 3D dimensional inspection of miniature bearings, gears, and other components to guarantee assembly accuracy.
In the field of quality control, it is used for anti-counterfeiting labeling of jewelry and handicrafts as well as for batch inspection of the appearance of industrial products; in education, it serves as laboratory teaching equipment to help students understand the principles of optical imaging; and in macro photography, it enables the capture of microscopic details of large-sized objects, making it ideal for visualizing and presenting research outcomes.
Equipment Parameters
| Base dimensions | 16x25cm |
| Camera |
4K camera, 1/2-inch image sensor, Full HD at 60 frames per second or 4K at 30 frames per second. |
| Lighting source | Three LED matrix light sources, with reflection/transmission illumination modes. |
| Imaging | 3D imaging, biaxial tilt and position feedback |
| X-Y axis positioning | 16 µm step resolution and position feedback |
| Rotate | 1-degree resolution, with position feedback and a customizable chuck |
| Zoom and Focus |
Electric zoom and focus can be controlled via joystick, touch switch, computer, or smartphone. |
| Objective lens | The objective lens can be quickly swapped, with an imaging range spanning from 10 cm to 1 µm. |
| Drive System | Seven position-feedback motors drive zoom, focus, the sample stage, and dual-axis tilt. |
| Sample Table | Electric X‑Y‑R, supports translation and rotation. |
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Electrified 2D/3D Microscopes and Modular Imaging Systems
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2D/3D Microscopic Imaging and Measurement Demonstration
Electrified 2D/3D Microscopes and Modular Imaging Systems
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