Introduction
Real Time PCR is a fast thermal system with heating rates over 6.1°C/s and cooling rates over 5.0°C/s. Equipped with software-controlled Peltier technology, it ensures precise thermal cycling and reliable performance. Integrated with a 10.4-inch touchscreen and built-in PC software configuration for flexible operation. Our Real Time PCR supports quantitative analysis, SNP detection, and melting curve analysis in research and diagnostics.
Applications
Real-Time PCR applied, clinical diagnostics, food safety, and environmental testing.
Specifications
| Fluorescence Channels | 4 |
| Fluorescence Scanning Time | 7 Second |
| Heating Method | Peltier |
| Max Heating Rate | ≥ 6.1°C/s |
| Max Cooling Rate | ≥ 5.0°C/s |
| Uniformity of Thermo Control | ± 1℃ |
| Accuracy of Thermo Control | ≤ 1℃ |
| Gradient Interval Range | 1°C to 40°C |
| Gradient Block | 12 Rows |
| Special Temperature Protocol | Thermal Gradients PCR, Long PCR, |
| Sample Testing Linearity and Repeatability | Linear Correlation: r Greater than 0.999; Repeatability: Cycle Threshold (Ct) Value |
| Light Source | High-Brightness, Long-Life and Maintenance-Free LED Light Source, |
| Detector | Photodiode (PD), Top Scanning |
| Excitation Range | CH1: 4650m CH2:527mm CH3:580mm |
| Detection Range: | CH1:510mm CH2 565mm CH3:616nm |
| Fluorescence Dynamic Range | Adjustable |
| Sample Dynamic Range | 1 to 1010 Copies |
| Control Modes | PC Direct Control |
| Power Failure Protection | Automatically Start Running Experiments After Power Supply, No |
| Data Storage and Transmission | Upload and Download Through USB Disk, 1000 Results Can be Stored in |
| Reporting Function | Templates Reserved Customized |
| Power Supply and Power Consumption | AC 100 to 240V, 50 to 60Hz,900VA |
| Instrument Dimension (W × L × H) | 355 × 475 × 484 mm |
| Packing Dimension | 670 × 580 × 580 mm |
| Gross Weight | 38kg |
Features
Power failure protection design.
Dual configuration control options.
Advanced software data analysis.
96 samples scanned in 7 seconds.
Efficient temperature control.
FAQs
1. What are Real Time PCR Systems used for?
Real Time PCR Systems are used for genetic amplification and real-time analysis of DNA samples.
2. How do Real Time PCR Systems control temperature accurately?
Real Time PCR Systems use Peltier-based temperature control to ensure precise and stable thermal cycling.
3. How is DNA amplification monitored in Real Time PCR Systems?
Real Time PCR Systems use fluorescence-based detection to monitor DNA amplification in real time.
4. What display and operation features are included in Real Time PCR Systems?
Real Time PCR Systems feature digital displays that provide clear visibility with quiet and smooth operation.
5. How do Real Time PCR Systems ensure consistent results?
Real Time PCR Systems are designed to deliver reliable and reproducible results in DNA detection and evaluation.
6. Where are Real Time PCR Systems commonly used?
Real Time PCR Systems are commonly used in clinical testing, forensic science, and environmental analysis.
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