
Product categories
Overview
The Matmeas SMS-215 system is designed for accurate resistance measurement of gas-sensitive materials under high temperature conditions. It enables researchers to evaluate sensor performance, electrical properties, and stability of gas sensor materials. The system is widely used in laboratories, research institutes, and industrial development environments.
Specifications
| Parameter | Value |
| Measurement | Gas sensor resistance |
| Temperature | High temperature |
| Application | Sensor materials |
| Accuracy | High precision |
| Brand | Matmeas |
Applications
- Gas sensor material research
- Semiconductor sensors
- High temperature testing
- Environmental monitoring research
- Industrial R&D
FAQ
What is the primary measurement principle of SMS-215?
SMS-215 is designed using advanced electrical characterization methods to measure gas sensor resistance measurement with extreme precision, eliminating lead resistance and temperature fluctuations.What sample shapes and forms are supported?
The system supports standard sample geometries including solid blocks, circular thin-sheet discs, and rectangular bars with specialized test fixtures.Does SMS-215 comply with international laboratory standards?
Yes, all measurements fully align with international norms such as ASTM, IEEE, and GB/T standards to deliver publishable, research-grade data.
Related Products

HTS1000HR High Temperature Resistivity Measurement System
The HTS1000HR is an advanced, integrated testing platform specifically engineered to precisely evaluate the electrical conductivity and insulation properties of advanced materials at extreme temperatures up to 800℃. By supporting various atmospheric conditions and offering an ultra-wide resistance measurement range, it serves as an indispensable characterization tool for material research and industrial quality control.
View details →
Matmeas RMS-1000C High-Temp Conductive Material Resistivity System
RMS-1000C is designed for conductive materials resistivity measurement using 4-wire method, featuring nΩ-level precision, RT-1000°C temperature range, and vacuum/atmosphere environments for carbon, metal, and oxide materials.
View details →
Matmeas RMS-1000P High-Temp Four-Point Probe Resistivity System
RMS-1000P uses four-point probe method for thin film and wafer resistivity measurement, featuring dual-electrostatic measurement, 0.1mΩ~100MΩ range, and specialized fixture for semiconductor materials.
View details →
Matmeas RMS-1000S High-Temp Semiconductor Resistivity System
RMS-1000S is optimized for semiconductor bulk materials with four-wire method, offering 0.1mΩ~100MΩ measurement range, spring-loaded platinum electrodes, and multiple atmosphere environments for complex resistivity characterization.
View details →
RMS1650 Ultra-High Temperature Resistivity Measurement System
The RMS1650 Ultra-High Temperature Resistivity Measurement System is engineered for the rigorous electrical characterization of insulating and dielectric materials up to 1600°C. Utilizing a proprietary guarded three-terminal electrode configuration, the system enables in-situ acquisition of resistivity and leakage current kinetics under extreme temperatures, vacuum, and controlled gas atmospheres.
View details →