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Overview
RMS-1000S High-Temp Semiconductor Material Resistivity Measurement System provides comprehensive solutions for bulk semiconductor characterization. As a dedicated semiconductor test system supplier, we offer precise four-wire measurement for silicon, germanium, GaAs, InSb, and compound semiconductors. The patented spring-loaded electrode fixture with heat dissipation design ensures stable contact and accurate temperature control from RT-1000°C, serving universities, research institutes, and semiconductor manufacturers worldwide.
Specifications
| Parameter | Value |
| Measurement Principle | Four-wire resistivity measurement method |
| Main Measurement | Resistance & resistivity vs temperature/time |
| Max Furnace Temperature | Up to 1100°C |
| Temperature Control Accuracy | ±0.5°C |
| Atmosphere | Inert/oxidizing/reducing; vacuum |
| Notable Features | Spring + self-weight contact; beginner-friendly software; fault diagnosis |
| Temperature Range | RT-600°C / 1000°C |
| Temperature Control Method | PID precision control (multi-stage) |
| Heating Rate | 0-10°C/min (typical 3°C/min) |
| Resistance Range | 0.1mΩ ~ 100MΩ |
| Resistivity Range | 1mΩ.cm ~ 10MΩ.cm |
| Sample Specification | Ø<20mm, d<5mm |
| Measurement Method | Four-wire method for semiconductors |
| Electrode Material | Platinum (upper/lower) |
| Patent No. | 2019204156568 |
| Display | 10.1" color touchscreen |
| Data Interface | USB |
| Data Storage | TXT format |
| Dimensions (L×H×W) | 630×640×450mm |
| Weight | 42.5kg |
| Power Supply | 220V±10%, 50Hz, 2.6kW |
| Working Environment | 5°C to +40°C |
| Standards | ASTM standards |
Applications
- RMS-1000S is designed for bulk semiconductor materials including silicon (Si), germanium (Ge), gallium arsenide (GaAs), indium antimonide (InSb), ternary compounds (GaAsAl, GaAsP), and solid solution semiconductors (Ge-Si, GaAs-GaP). Essential for PTC/NTC thermistor development, power semiconductor research, and temperature sensor manufacturing.
More Details
Stable High-Temperature Measurement
Spring + self-weight contact design reduces contact issues and data jumps.
Control & Diagnostics
Multi-stage PID control and fault diagnosis indicators help keep temperature and contacts stable.
FAQ
What is the primary measurement principle of RMS-1000S?
RMS-1000S utilizes the four-wire resistance measurement method (Kelvin method) under varying temperature conditions. This eliminates lead and contact resistance to achieve high-precision resistivity measurements at the nΩ level.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 RMS-1000S 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.
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