What is this technology?
We use well-defined thermal analysis procedures to verify our LCD displays and Panel PC systems to meet the harsh environment applications. Especially in fanless cooling design, we develop a heat-sink or heat-pipe solution to conduct the heat and the airflow for the best thermal solution. In the fan cooling system, we will analyze the system's thermal profiles before we design it to make sure the most efficient heat convection.
How does this technology work?
The Panel PC combines the display with an industrial motherboard inside.
In the idea analysis stage, we develop a low power consumption motherboard (fan/ fanless) and provide dedicated thermal analysis technology by using thermal analysis software. Before production, we use an Infrared thermal video system (TVS) to check if our thermal design works.
We use the above Thermal Profile to select the critical monitoring points for Thermal testing. And we will also check if the measured temperatures exceed the defined specification of operating temperature for each individual component.
Technology/ Function Diagrams
- Thermal Cycle settings: 30℃/45℃/50℃ ±3℃
- Humidity setting:0 + 5%RH
- AC Power: 110/220 VAC, 60/50Hz
- Test Times: Each Temperature 2 Hours
Fanless and low power consumption meets harsh environment applications.
Versatile fan cooling design with thermal analysis
Low noise, well airflow convection with fan/fanless design .
- Industrial Automation
- Outdoor Kiosks
- Environmental & Utility Monitoring
Fanless design is a design approach that eliminates the need for a cooling fan in electronic devices. This design is becoming increasingly popular due to its many advantages over traditional fan-based cooling systems. In this article, we will explore the top 10 benefits of fanless design.
The first and most obvious benefit of fanless design is its silent operation. Fan-based cooling systems generate a significant amount of noise, which can be distracting and annoying to users. By eliminating the need for a cooling fan, fanless devices operate in complete silence, providing a more pleasant user experience.
The second benefit of fanless design is improved reliability. Cooling fans are mechanical devices that can wear out and fail over time. With fewer moving parts, fanless devices are more reliable and have a longer lifespan.
The third benefit of fanless design is increased resistance to dust and dirt buildup. Cooling fans can become clogged with dust and dirt, reducing their efficiency and increasing the risk of overheating. Fanless devices are less susceptible to these problems, as there is no fan to clog up.
The fourth benefit of fanless design is better energy efficiency. Cooling fans consume a significant amount of power, which can reduce battery life and increase operating costs. Fanless devices consume less power, resulting in better energy efficiency and longer battery life.
The fifth benefit of fanless design is improved portability. Fanless devices are typically smaller and lighter than fan-based devices, making them easier to carry around and more convenient for on-the-go use.
The sixth benefit of fanless design is enhanced durability. Without a cooling fan, fanless devices can be made more rugged and durable, making them suitable for use in harsh environments.
The seventh benefit of fanless design is reduced maintenance. With fewer moving parts, fanless devices require less maintenance and are easier to service.
The eighth benefit of fanless design is better thermal management. Fanless devices rely on passive cooling techniques such as heat sinks, which can provide more efficient thermal management than a cooling fan.
The ninth benefit of fanless design is increased design flexibility. Fanless designs allow for greater design flexibility, as there is no need to account for the space required by a cooling fan.
The tenth and final benefit of fanless design is improved user experience. By eliminating the distracting noise and vibration of a cooling fan, fanless devices provide a more pleasant and user-friendly experience.
Fanless design is a highly beneficial approach to cooling electronic devices that is becoming increasingly popular in today's market. As technology continues to evolve, electronic devices are becoming smaller, more powerful, and more complex, which presents new challenges, particularly in terms of heat dissipation. To address this issue, Winmate's fanless tablet PCs are an excellent example of this innovative design approach.
One of the key benefits of Winmate's fanless tablet PCs is their silent operation. With no fans to generate noise, these devices offer a quiet computing experience, which is essential in environments where noise can be disruptive, such as classrooms or libraries. This feature significantly enhances the user experience and improves productivity.
Moreover, fanless design improves the overall reliability and durability of the device. Cooling fans are prone to failure, especially in harsh or dusty environments, and are often a common point of failure in electronic devices. By eliminating the need for fans, Winmate's tablet PCs are more robust and less prone to failure, resulting in fewer downtime and reduced maintenance costs.
Another benefit of fanless design is that it eliminates the need for moving parts inside the device, which translates into improved durability. Without fans or other mechanical components, there is less risk of damage from drops, bumps, or other physical shocks. This makes Winmate's tablet PCs ideal for use in a range of environments, from factories and warehouses to outdoor fieldwork and transportation.
Fanless design also results in improved energy efficiency. Cooling fans consume a significant amount of power, which can reduce battery life and increase operating costs. By eliminating fans, Winmate's tablet PCs consume less power, resulting in better energy efficiency and longer battery life. This is particularly important for mobile users who need to work for extended periods without access to a power outlet.
Winmate's fanless tablet PCs exemplify how innovative design can enhance the performance, reliability, and durability of electronic devices. Fanless design offers numerous benefits, including silent operation, improved reliability, enhanced durability, and better energy efficiency. As technology continues to evolve, it is likely that fanless design will become increasingly prevalent in electronic devices of all kinds.