TD2C68E Series Microscopic Thermal Imaging Camera In-line

Product Description

Minimum resolution of 35um in macro mode
Temperature measurement accuracy up to ±1°C
7x24 hour online monitoring
Detects the thermal distribution of integrated circuits (ICs), transistors, and PCBs to locate excessive hot spots, short circuits, or design defects.
Study of thermal changes in response to cellular metabolic activity, inflammatory responses, or drug effects.
Lithium-ion battery research: monitoring the micro thermal runaway phenomenon of electrodes and diaphragms to optimize battery safety.
Basic thermodynamic studies: e.g., microscale heat transfer, Seebeck effect in thermoelectric materials, etc.

In-line microcameras are able to accurately detect the temperature distribution of objects at the micron scale by combining microscopic magnification with infrared thermography, and are mainly used in..:
Electronics & Semiconductor Industry: Analyze the thermal defects of chips and PCBs to optimize the thermal design, analyze the thermal conductivity of packaging materials to evaluate the thermal design
materials science: Study of thermal conductivity, coating uniformity and failure mechanisms of nanomaterials;
biomedical: Monitoring cellular metabolism, vascular lesions, and thermal effects of surgical instruments;
Energy: Diagnose cell thermal runaway, solar cell efficiency loss;
precision manufacturing: Monitor micromachining temperatures to enhance process safety. Its non-contact, high-resolution features make it a key tool for microscopic thermal behavior analysis in scientific research, industry and healthcare, and it is particularly suitable for reliability assessment and optimization of micro devices and materials.

TD2C68E series is an on-line high-precision microscopic temperature measurement thermal imaging camera, a professional temperature measurement device capable of 7x24 hours on-line monitoring, designed for infrared thermal imaging and temperature measurement of micron-level targets. It combines infrared thermal imaging technology with microscopic optical system, which can realize non-contact temperature distribution detection for tiny electronic components, material surfaces, biological samples, etc. It is suitable for scientific research, industrial quality inspection and failure analysis.

No need to disassemble to change lensesThe observation mode can be switched with a simple twist.Minimum resolution of 35um in macro modeThe temperature measurement accuracy can reach ±1℃. 10 seconds start-up, a series of charts; lightweight and easy to integrate. The accuracy of temperature measurement can reach ±1℃, breaking through to realize the high level of the industry. 10 seconds to boot, a series of pictures; one-handed installation, lightweight and easy to integrate. With the powerful self-developed client software, it can easily meet the rapid and professional temperature measurement needs of various industries.

(1) High spatial resolution
Optical magnification: Integrated microscope head to support micron-level observation (e.g., 10μm~100μm targets).
IR Resolution: Highly sensitive IR detectors (e.g. 640 x 512 pixels) are standard to ensure clear thermal image details.

(2) Precise temperature measurement
Temperature range: Typically covers -20°C to 1500°C (depending on configuration).
Temperature measurement accuracy: ±1°C or ±1% (depending on model and environmental calibration conditions).
Thermal sensitivity (NETD): ≤50mK, can detect small temperature difference.

(3) Multi-functional analysis software
Real-time display of temperature field distribution, line scanning, area temperature measurement, and dynamic temperature tracking.
Supports 3D heat map, data export (Excel/image/video) and customized alarm thresholds.

(4) Adaptability
Available with microscope stands, motorized stages or integrated into automated inspection systems.
Supports external triggering, multi-spectral fusion (optional visible camera).