In the fast-evolving landscape of industrial manufacturing, precise control over temperature and pressure is critical for ensuring product quality, process stability, and energy efficiency. One technology gaining increasing attention is the Vacuum Temperature Controller, a highly specialized system designed to regulate temperature in vacuum environments. But how exactly does it improve efficiency in industrial processes?
In order to meet evolving market demands and enhance user convenience, Shanghai PEAKS has recently developed a new bio-safety cabinet controller based on technical feedback from the market. This upgraded model covers the technical requirements of most B2 and A2 models, significantly improving product performance and applicability while complying with regulatory standards.
With the continued advancement of medical technology, Ventilator Controllers are emerging as a critical innovation in respiratory care, offering enhanced precision and automation in intensive care units worldwide. These intelligent systems serve as the core control unit of mechanical ventilators, managing airflow, pressure, and oxygen delivery with real-time adaptability.
In today’s fast-paced industrial and home automation environments, maintaining precise temperature control is critical for safety, efficiency, and product quality. From manufacturing lines and laboratory equipment to home brewing systems and aquariums, temperature controllers are essential for regulating heating and cooling systems. But with a wide variety of models and features available, many users are left wondering: what is the best temperature controller?
Digital temperature controllers play a crucial role in maintaining precise temperatures across various applications, from industrial machines and laboratory equipment to home brewing and aquariums. However, like all electronic devices, these controllers may occasionally require a reset to restore functionality or fix calibration issues. So, how do I reset my digital temperature controller? Here’s a comprehensive guide to help users reset their devices safely and effectively.
In scientific laboratories, maintaining a stable and sterile environment is critical—especially when working with sensitive cell cultures, tissue samples, or microbiological studies. A key component that ensures this stability is the CO₂ incubator controller. But what does a CO₂ incubator controller do, and why is it so essential in lab environments?
In industries and homes alike, maintaining precise temperatures is essential for safety, comfort, and efficiency. While both thermostats and temperature controllers are widely used for this purpose, they serve different roles and offer varying levels of precision. So, what is the difference between a thermostat and a temperature controller? Understanding this distinction is crucial for selecting the right device for your application.
New place, a new starting point, Peaks team will still uphold ingenuity, and you create a new chapter in the laboratory instrument industry.
On November 20, 2024, the three-day Analytica china 2024 came to a successful end, and Peaks brought a number of new products to the scene.
On November 18-20, 2024, the biennial industry event 2024 Analytica China will be grandly opened at the Shanghai New International Expo Center.
The oven should not be used as an incubator. Ovens are mainly used for drying and heat treatment, while incubators are used for biological culture, and there are significant differences in purpose and function between the two.
A research team from California Institute of Technology and UCLA's Samurai Institute of Technology has demonstrated a promising method for effectively converting carbon dioxide into ethylene, which can be widely used globally to produce plastics, solvents, cosmetics, and other important products.
