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| Brand | Applied NanoFluorescence |
|---|---|
| Origin | USA |
| Manufacturer Type | Authorized Distributor |
| Import Status | Imported |
| Model | Nano Spectralyzer NS3 |
| Pricing | Available Upon Request |
| Brand | ADVANCE RIKO |
|---|---|
| Origin | Japan |
| Model | F-PEM |
| Operating Atmosphere | Ambient Air |
| Temperature Range | Room Temperature to 600 °C (Heating Zone) |
| Sample Size | Square, 40 mm × 40 mm × (5–30) mm Thickness |
| Power Supply | AC200V, 5 kW (Main Unit) |
| Dimensions | W600 × D600 × H1700 mm |
| Weight | ~120 kg |
| Contact Force | Up to 160 kgf (via Constant-Pressure Spring Mechanism) |
| Measured Parameters | Maximum Output Power (P<sub>max</sub>), Heat Flow Rate (Q), Thermoelectric Conversion Efficiency (η) |
| Brand | ADVANCE RIKO |
|---|---|
| Origin | Japan |
| Model | PEM-2 |
| Maximum Temperature Gradient | 500 °C (up to 800 °C heating surface) |
| Sample Geometry | Square, 20/30/40 mm × 5–30 mm thickness |
| Contact Pressure | 2 MPa (at 30 mm square sample) |
| Atmosphere | Inert gas compatible |
| Measurement Method | One-dimensional heat flux input method |
| Measured Parameters | Thermoelectric conversion efficiency (η), electrical power output (P), thermal input flux (Q) |
| Heating System | High-precision infrared gold-mirror furnace |
| Cooling System | Integrated water-cooled lower stage |
| Load Control | Automated variable resistive load adjustment |
| Software | Fully integrated control with thermal stability detection, real-time data logging, and automated test sequencing |
| Brand | ADVANCE RIKO |
|---|---|
| Origin | Japan |
| Model | ZEM-d |
| Temperature Range | Up to 200 °C (sample surface) |
| Sample Cross-Section | Ø20 mm (max) |
| Sample Thickness | 10 µm – 20 mm |
| Measured Properties | Seebeck coefficient (S), electrical resistivity (ρ) |
| Atmosphere | Air or inert gas (N₂, Ar) |
| Measurement Orientation | Through-thickness (z-direction) |
| Brand | Advance Riko |
|---|---|
| Origin | Japan |
| Model | Peltier Evaluation System |
| Measurement Atmosphere | Vacuum |
| Temperature Range | 27–80 °C |
| Sample Dimensions | Square, 10–25 mm side length, thickness ≤ 3 mm |
| Measured Parameters | ΔTₘₐₓ (maximum temperature difference), Qc,ₘₐₓ (maximum cooling power), COP (coefficient of performance) |
| Compliance | Designed for thermoelectric module characterization per ISO 14405-1 and ASTM D5470 practices |
| Brand | Advance Riko |
|---|---|
| Origin | Japan |
| Model | ZEM-3 |
| Temperature Range | 50–800 °C (ZEM-3M8) / 50–1000 °C (ZEM-3M10) |
| Sample Geometry | Square (2–4 mm × 6–22 mm L) or Circular (Ø2–4 mm × 6–22 mm L) |
| Heating Method | Infrared gold-coated furnace with micro-heater for ΔT control |
| Max. Sample ΔT | 50 °C |
| Atmosphere | Ultra-high-purity helium (99.999%) |
| Automation | Fully computer-controlled measurement with background EMF compensation |
| Contact Verification | Real-time V–I curve analysis for ohmic contact validation |
| Optional Accessories | Thin-film adapter, cryogenic module (−100 to 200 °C), high-resistivity kit (up to 10 MΩ) |
| Brand | Advance Riko |
|---|---|
| Origin | Japan |
| Model | Mini-PEM |
| Operating Temperature Range (Hot Side) | 50–500 °C |
| Sample Dimensions | 2–10 mm × 1–20 mm (square/rectangular bulk) |
| Atmosphere | Vacuum-compatible |
| Measured Parameters | Thermoelectric conversion efficiency (η), electrical power output, heat flux |
| Measurement Principle | Simultaneous four-probe electrical characterization + calibrated heat flux sensor (thermopile-based) |
| Compliance | Designed for ASTM E3049–22 (Standard Practice for Measuring Thermoelectric Module Efficiency) and ISO 14405-1:2016 (Geometrical product specifications) alignment |
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