Product Details
Place of Origin: Hefei Anhui China
Brand Name: FeiChun™
Certification: Meets MIL-DTL-17
Model Number: Coaxial Cable
Payment & Shipping Terms
Minimum Order Quantity: 800 Meter
Price: 8-10 USD per meter, price varies according to specifications
Packaging Details: Cable Reels or Packaging Bags
Delivery Time: 15-30 Days
Payment Terms: T/T, Western Union
Supply Ability: 18,000 meters per week
Product Name: |
Heat-Resistant Cables |
Operating Temperature: |
Electrical Wire-65°C To +250°C |
Test Voltage: |
According To The Operating Voltage |
Length: |
100m/roll |
Product Name: |
Heat-Resistant Cables |
Operating Temperature: |
Electrical Wire-65°C To +250°C |
Test Voltage: |
According To The Operating Voltage |
Length: |
100m/roll |
In today's rapidly evolving industrial and aerospace sectors, ensuring reliable and efficient communication systems is crucial. One key element that plays a pivotal role in these systems is the high temperature microwave low loss coaxial cable.
Designed for extreme environments, these cables offer superior performance in situations where regular cables would fail.
Whether it's for satellite communications, radar systems, or industrial heating equipment, a high temperature microwave coaxial cable ensures that signals are transmitted with minimal loss, even in harsh conditions.
This article will dive into the unique features, benefits, and applications of these specialized cables, providing a comprehensive guide to help you select the right solution for your needs.
High temperature microwave low loss coaxial cables are designed for applications where regular cables cannot withstand extreme heat and demanding environments. The key reasons why these cables are essential include:
In many industrial and aerospace applications, temperatures can soar, especially in equipment like engines, turbines, or industrial ovens. Standard cables tend to degrade or fail at these high temperatures.
High temperature coaxial cables are built with materials that can endure heat without losing their performance characteristics.
Feature | Description |
---|---|
Heat Resistance | Can withstand extreme temperatures without degradation |
Best Use | Applications like engines, turbines, and industrial ovens |
Temperature Range | Typically rated for temperatures up to 200°C or higher |
When transmitting high-frequency signals, it’s vital to minimize signal loss. Microwave coaxial cables are designed to ensure low loss or low attenuation, making them perfect for radar systems, satellite communications, and microwave transmission in industrial applications.
Feature | Description |
---|---|
Low Loss | Minimizes signal attenuation for long-distance transmission |
Frequency Range | Effective for microwave frequencies, ensuring stable signals |
Best Use | Ideal for radar, satellite, and long-range communication systems |
In both industrial and aerospace environments, cables are exposed to a range of mechanical stresses, including bending, vibrations, and even potential abrasions.
High temperature microwave coaxial cables are made to be durable and flexible, ensuring they remain reliable over long periods of use, even in challenging conditions.
Feature | Description |
---|---|
Durability | Resistant to physical wear and tear |
Flexibility | Can be bent and routed without damaging signal integrity |
Applications | Used in mobile systems like drones, satellites, and aircraft |
In aerospace systems, communication and signal transmission must be flawless. Whether it’s a satellite orbiting Earth or an aircraft flying at high altitudes, high temperature microwave coaxial cables are essential for transmitting data between systems efficiently and with minimal loss.
The extreme environments that aerospace systems operate in—such as high temperatures and strong vibrations—require the durability and low attenuation that these specialized cables offer.
Application | Description |
---|---|
Satellite Systems | Ensures clear, long-distance signal transmission in high-temperature environments |
Aircraft Communication Systems | Provides stable communication between onboard systems despite high vibrations and temperature changes |
Radar systems, used in everything from military defense to weather forecasting, rely on microwave signals for long-range detection. Low loss coaxial cables are critical in these systems, as they ensure that radar signals are transmitted with minimal interference or loss.
Application | Description |
---|---|
Military Radar | Ensures accurate signal transmission for long-range detection |
Weather Radar | Provides clear and reliable signal for weather forecasting and analysis |
In industries such as manufacturing, construction, and energy, high temperature microwave cables are frequently used in environments where extreme heat is generated, such as industrial heating equipment, ovens, and machinery.
These cables are also used in high-frequency transmission systems, ensuring that signals remain strong even in difficult conditions.
Application | Description |
---|---|
Industrial Heating | Used in systems that require microwave transmission under extreme heat |
Factory Automation | Ensures reliable communication between automated systems in harsh conditions |
When selecting the right high temperature microwave low loss coaxial cable for your project, it's essential to understand the key specifications that impact performance. These include:
The most critical factor is the cable's ability to withstand high temperatures without degradation. Different materials are used to insulate and protect the cable, depending on the required operating temperature.
Cable Type | Temperature Rating |
---|---|
Standard Coaxial Cable | Up to 85°C |
High Temperature Coaxial Cable | 150°C to 200°C or higher |
Signal loss, or attenuation, measures how much signal is lost as it travels through the cable. In microwave systems, low attenuation is essential for maintaining clear and reliable signal transmission.
Frequency | Signal Loss (dB/100m) |
---|---|
1 GHz | 4.5 dB |
5 GHz | 9.8 dB |
10 GHz | 15.2 dB |
Impedance is another key specification, and for most microwave coaxial cables, a characteristic impedance of 50 ohms is standard. This ensures that the cable is optimized for microwave transmission systems.
Impedance | Description |
---|---|
50 Ohms | Standard for high-frequency applications like radar and satellite systems |
When choosing a high temperature microwave coaxial cable, it's important to consider factors such as the environment in which it will be used, the frequency of the signals, and the cable's mechanical properties.
Here’s a breakdown of the key considerations:
Ensure that the cable supports the required frequency range for your application. For microwave systems, cables must handle frequencies from 1 GHz up to 10 GHz or more.
If the cable will be used in harsh industrial or aerospace environments, ensure that it is both flexible and durable enough to withstand extreme temperatures, vibrations, and physical wear.
Consideration | Details |
---|---|
Flexibility | Ensure the cable can be bent and routed without losing performance |
Mechanical Resistance | Resistance to abrasions, cuts, and other mechanical stresses |
Make sure that the cable meets industry standards and certifications. Aerospace applications, in particular, may require compliance with specific standards to ensure safety and reliability.
Certification | Description |
---|---|
AS9100 | Certification for aerospace components |
MIL-SPEC | Military standards for cables used in defense applications |
One notable example of the successful use of high temperature microwave coaxial cables comes from a recent satellite communication project.
The project required a low loss coaxial cable that could withstand the extreme temperatures experienced during a satellite's orbit while maintaining signal integrity for high-frequency microwave transmission.
Using a specialized high temperature microwave cable, the satellite was able to maintain clear communication with ground stations, even during prolonged exposure to the sun's intense heat.
The cable's low attenuation and heat-resistant insulation ensured that no signal loss occurred, making the mission a success.
In industries where reliable signal transmission is critical—such as aerospace, radar, and industrial applications—the need for high temperature microwave low loss coaxial cables cannot be overstated. These cables provide superior performance, minimal signal loss, and long-term durability, even in the most demanding environments.
Whether you're developing a new radar system, installing industrial heating equipment, or working on a satellite communication system, choosing the right high temperature coaxial cable will ensure your system performs efficiently and safely.
If you're looking for the best high temperature microwave coaxial cables for your project, reach out to our team today for expert guidance and custom solutions tailored to your specific needs.
This article provides detailed insights into the critical features and applications of high temperature microwave low loss coaxial cables, offering a comprehensive understanding of how these cables can benefit your industrial or aerospace projects.
Note: This is just part of the standard parameters of our products. Please contact our Engineer if you need more. And the information contained within this webpage is for guidance only and is subject to change without notice or liability. All dimensions and specifications are nominal and are subject to normal manufacturing tolerances. All pictures shown are for illustration purposes only. The actual product may vary. All the information is provided in good faith and is believed to be correct at the time of publication.