PCR Thermal Cycler LBN-PT153 is designed with 3 independently controlled gradient blocks, each featuring 32 wells for 0.2 ml PCR tubes. It utilizes advanced Peltier technology, offering up to 1,00,000 thermal cycles for long-lasting and consistent performance. Equipped with a large 10.1 full-color touch screen and unlimited storage for over 15,000 PCR programs. Integrated with PC remote control capability for managing up to 50 units and a smart top-open lid design for smooth, low-pressure operation. Our PCR Thermal Cycler is ideal for PCR amplification, gene expression analysis, clinical diagnostics, and molecular biology research.
| Capacity | 96-Wells |
| Reaction Volume | 0.2 ml |
| Tube Type | 0.2 ml PCR Tube, Strip with Flat & Dome Cap |
| Block Temperature Range | 0°C to 105°C |
| Heat Lid Temperature Range | 30°C to 112°C |
| Temperature Accuracy | ≤±0.1°C |
| Temperature Uniformity | ≤±0.2°C |
| Gradient Range | 30°C to 105°C |
| Program | 15,000+ Programs 30 Steps; up to 10,000 Cycles |
| Display Resolution | 0.1°C |
| Display | 10.1 |
| USB & Backup | Unlimited via USB Flash Drive; Backup Supported |
| Communication Ports | USB2.0 & LAN |
| Max. Heating Rate | 7.5°C/s |
| Max. Cooling Rate | 6.5°C/s |
| Ramping Rate Adjustment | 0.1°C to 5°C/s |
| Technology | Advanced Peltier 1,000,000 cycles |
| Power Supply | 100V to 240V, 50 to 60Hz |
| Power Consumption | 600W |
| Dimension | 355 × 270 × 277 mm |
| Packaging Dimension | 375×270×277mm |
| Net Weight | 10.5 kg |
Computer
PCR Thermal Cycler LBN-PT153 is ideal for PCR amplification, gene expression analysis, clinical diagnostics, and molecular biology research.
PCR Thermal Cycler LBN-PT153 is ideal for PCR amplification, gene expression analysis, clinical diagnostics, and molecular biology research.
Most Frequently Asked Questions
1. How does a PCR thermal cycler work?
Ans. It works by repeatedly heating and cooling samples to specific temperatures, enabling DNA denaturation, primer annealing, and extension to create multiple copies of the target DNA sequence.
2. What are the main components of a PCR thermal cycler?
Ans. The main components include a thermal block to hold samples, a heating/cooling system for temperature changes, and a control panel for programming cycling parameters.
3. Why is precise temperature control important in a PCR thermal cycler?
Ans. Precise temperature control ensures accurate DNA amplification by maintaining optimal conditions for denaturation, annealing, and extension during the PCR process.
4. How long does a PCR reaction take?
Ans. A standard PCR reaction usually takes 1 to 3 hours, depending on the number of cycles, annealing temperature, and type of DNA polymerase used.
5. How many samples can be processed at once in a PCR thermal cycler?
Ans. The capacity depends on the model, but most thermal cyclers can hold 24, 48, or 96 reaction tubes in a single run.
PCR Thermal Cycler LBN-PT153 is designed with 3 independently controlled gradient blocks, each featuring 32 wells for 0.2 ml PCR tubes. It utilizes advanced Peltier technology, offering up to 1,00,000 thermal cycles for long-lasting and consistent performance. Equipped with a large 10.1 full-color touch screen and unlimited storage for over 15,000 PCR programs. Integrated with PC remote control capability for managing up to 50 units and a smart top-open lid design for smooth, low-pressure operation. Our PCR Thermal Cycler is ideal for PCR amplification, gene expression analysis, clinical diagnostics, and molecular biology research.
