Dual-block Gradient Thermal Cycler FM-GTC-B200 features two 48 × 0.2 mL blocks for simultaneous dual-protocol runs and high-throughput efficiency. It offers a temperature range of 0°C to 105°C, providing optimal conditions for accurate PCR amplification. It supports 0.2 mL tubes, 8×0.2 mL strips, and 48-well plates, providing versatile sample handling. It features an advanced Peltier system with three high-precision Peltiers per block, ensuring fast and uniform thermal control. It features a color touchscreen display for clear visualization and easy operation.
| Capacity | Double 48×0.2 ml |
| Tubes Applied | 0.2 ml PCR tube, 8×0.2 ml strip, 48-well plate |
| Temperature Control Ways | Block/Tube |
| Block Temperature Range | 0 to 105°C |
| Timer | 1s to 9:99:99 or 0 (infinite duration) |
| Block Temperature Accuracy | ≤ ±0.2°C |
| Block Temperature Uniformity | ≤ ±0.25°C |
| Heating Up Rate (Max.) | 6°C/s |
| Cooling Down Rate (Max.) | 5°C/s |
| Adjustable Range of Heating Up/Cooling Down | 0.1 to 6°C/s |
| Temperature Display Accuracy | 0.1°C |
| Gradient Temperature Range | 30 to 105°C |
| Gradient Set Span | 0.130°C (across 2 blocks), 0.115°C (across 1 block) |
| Gradient Temperature Uniformity | ≤ ±0.3°C |
| Gradient Temperature Accuracy | ≤ ±0.3°C |
| Number of Gradient Zones | 12 |
| Heating Lid Temperature Range | 30°C to 110°C |
| Timer Increasing/Decreasing Range | -599s to 599s |
| Temperature Increasing/Decreasing Range | -9.9°C to 9.9°C |
| Touchdown PCR | Yes |
| Long PCR | Yes |
| Programs Stored | >10000 |
| Max. Cycles | 100 |
| Max. Steps | 30 |
| Power Failure Recovery | Yes |
| Pause Function | Yes |
| 16°C Temperature Holding Function | Infinite Duration |
| LCD Display | Touch screen display |
| Touch Screen Type | Capacitive |
| Operating System | Linux |
| Communication Port | USB2.0 |
| Power Consumption | 1000W |
| Power Supply | 100 to 240V, 50/60Hz |
| Dimensions (W × D × H) | 400 × 260 × 228 mm |
| Net Weight | 9 kg |
Dual-block Gradient Thermal Cycler FM-GTC-B200 is ideal for a wide range of PCR-based applications, including gene expression analysis, genotyping, mutagenesis, and sequencing preparation.
