Request Quote
Scan the QR code below to connect with us on WhatsApp.
Request Quote
Scan the QR code below to connect with us on WhatsApp.
Dry Bath LE-DB301 offers a temperature setting range of 0℃ to 100℃. It is a compact, microprocessor-controlled bath essential for sample preservation, DNA amplification, and electrophoresis processes. Equipped with precise temperature control, it ensures reliable and consistent experimental results. Our Dry Bath provides clear visibility of the process, making monitoring simple and convenient.
Specifications
| Temp. setting range | 0℃ to 100℃ |
| Temp. control range | RT to 100℃ |
| Timing range | 1 sec to 999 sec |
| Temp. accuracy | ≤ ±0.3℃ |
| Display accuracy | 0.1℃ |
| Heating time | ≤ 20 min (from 40℃ to 100℃) |
| Auto running | Yes |
| Auto resume to run | Yes |
| Power Consumption | 40 Watt |
| Power Supply | DC 24V / 1.67A |
| Dimensions | 145 × 113 × 110 mm |
| Weight | 0.5 kg |
Features
Applications
Function Implementation Molecular biology labs 0℃ to 100℃ temperature setting range supports DNA amplification Clinical research settings ±0.3℃ temperature accuracy enables repeatable experimental results Industrial testing facilities 40 Watt power consumption allows for continuous operation Quality control environments 1 sec to 999 sec timing range supports flexible testing protocols Research institutions ≤ 20 min heating time from 40℃ to 100℃ facilitates rapid sample processing
Catalog
1: Which laboratory tasks are best suited for this model?
The LE-DB301 is ideal for sample preservation, DNA amplification, enzyme reactions, and electrophoresis preparation.
2: What makes this dry bath more convenient for researchers?
These features such as its compact design, portability, and clear digital interface make it simple to use in any lab setting.
3: How does the system maintain reliable results?
They achieve this through a microprocessor-based control system, ensuring consistent temperature accuracy within ±0.3°C.
4: What is the biggest advantage of using this model in small labs?
Our Dry Bath provides efficient performance with low power consumption while remaining lightweight and portable.
5: How easy is it to start experiments with this equipment?
It offers rapid heating with programmable settings, allowing users to quickly adjust temperature and timing for precise workflows.
6: What is a Dry Bath Incubator used for?
A Dry Bath Incubator is used to uniformly heat samples in a laboratory setting, commonly for applications like enzyme reactions, DNA denaturation and cell culture incubation.
7: What is the purpose of the calibration screw on a Dry Bath Incubator?
The calibration screw allows for fine-tuning the temperature setting, ensuring that the actual block temperature matches the displayed temperature, which is critical for sensitive experiments.
8: What is a PID controller and how does it benefit the Dry Bath Incubator?
A PID controller continuously monitors and adjusts the temperature to maintain a stable setpoint. This ensures high-precision heating with minimal fluctuation, which is essential for consistent experimental results.
9: How does the Dry Bath Incubator ensure uniform heat distribution?
Our system uses advanced heating elements and block design that evenly distribute heat across the entire surface, ensuring all sample wells reach and maintain the same temperature.
10: How easy is it to operate the Dry Bath Incubator?
Dry Bath Incubator are designed with a user-friendly interface and intuitive controls, allowing users to quickly set temperature, time and other parameters without complex navigation.
Lab Expo Dry Bath Incubators support precision heating workflows where uniform block temperature control and repeatable setpoints are required for sample processing. The system operates with PID-regulated dry heating and interchangeable blocks to maintain stable thermal conditions across multiple samples. Dual-zone temperature control enables independent block management, while digital controls and calibration adjustment ensure controlled operation and consistent heating outcomes for routine incubation and preparation tasks.
