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Views: 6 Author: Site Editor Publish Time: 2026-03-16 Origin: Site
OCT200 Cablerevolutionizes antenna feeder installation by eliminating common deployment challenges through its advanced engineering and MIL-C-17 compliance. This high-performance coaxial cable simplifies field connections with standard hand tools, reduces signal loss through superior shielding design, and accelerates project timelines with consistent 50-ohm impedance characteristics. The dual-layer shielding system and foam PE dielectric ensure reliable performance in demanding industrial environments, making complex antenna feeder installations straightforward and cost-effective for procurement teams seeking dependable RF solutions.
This OCT200 cable is a big step forward in RF transmission technology. It was specially designed to meet the complex needs of current antenna feeder systems. This coaxial cable is the same as the industry standard LMR200. It has an exact 50-ohm impedance and provides excellent signal security across wireless communication networks.
The complex construction of the cable starts with an inner conductor made of bare copper or copper-clad metal. This makes sure that the cable works well and sends signals. Foam polyethylene (PE) technology is used in the dielectric layer. This gives it better shielding qualities while keeping the important 84% propagation rate needed for high-frequency uses.
The dual-shielding method makes OCT200 different from other cables. The aluminum tape shield on the primary side completely blocks electromagnetic interference, and the tin-copper braid on the secondary side adds more safety and power. This setup gets very high shielding efficiency, which is important for keeping signal quality high in places with a lot of electromagnetic activity.
The OCT200 cable meets the strict MIL-C-17 military standard, which makes sure that it works the same way in any situation. There are different types of outer jackets, each made for a different climate. These include PVC, PE with UV protection, and Low Smoke Zero Halogen (LSZH). The versions that are resistant to UV light last a very long time when installed outside, while the LSZH versions are safe for indoor uses where fire safety rules are very important.
The cable can handle a voltage of up to 1200 volts DC and has a jacket spark value of 3100 volts RMS. This gives high-power antenna feeder uses a lot of safety margins. Because of these specs, OCT200 is perfect for networks that need to be very reliable, like those in telecommunications infrastructure, aerospace systems, and industrial automation.
When installing a traditional antenna feeder, big problems often come up that delay the job, make it less reliable in the long run, or both. When procurement workers understand these problems, they can better understand how OCT200 cable changes the installation process.
Especially for longer runs and higher frequencies, traditional wires often have trouble with signal loss that is too high. The optimized foam PE dielectric and precision-engineered shape of OCT200 cable solve this important problem. The low-loss design keeps the signal strong over long distances, so signal boosters are not needed. This makes the system layout simpler.
The cable's high return loss (≥20 dB) makes sure that signals don't get reflected too much, which is important for keeping the antenna system working well. This trait is especially useful in complicated setups with lots of link points that could make reflection losses worse.
The OCT200 cable makes installation much easier in the field because it works with common hand tools and easy-to-find stripping equipment. The flexible design of the cable makes it easier to route through tight areas while still meeting the minimum bend radius standards needed to keep the cable's electrical properties.
Standardized connection compatibility with N-type, SMA, TNC, and BNC interfaces takes away the guessing that comes with choosing a connector. Installation teams can use tools and methods they are already familiar with, which cuts down on the need for training and the chance of mistakes during installation.
Environmental exposure is a big problem for installing antenna feeders, especially in factories where wires are exposed to chemicals, high temperatures, and a lot of water. The tough jacket materials on the OCT200 protect it well from these external stressors, which increases its useful life and lowers the need for upkeep.
The cable meets international safety standards, such as RoHS and REACH certifications, so sites meet government rules without having to take extra steps to make sure they are following the rules. These speeds up the approval process for projects that involve government contracts or places that have to follow strict environmental rules.
When procurement professionals look at different types of coaxial cable for antenna feeder uses, they need to think about a number of performance factors to make sure the system works well and lasts a long time.
When it comes to electrical properties, OCT200 cable is better than older choices like RG-58. The capacitance value of 80.1 pF/m is the best mix between the speed at which signals are sent and the amount of power that can be handled. This standard makes it possible to move signals quickly while keeping the 50-ohm impedance that is needed for RF system matching.
At 84%, the speed of transmission is faster than many standard lines. This cuts down on signal delay and improves the accuracy of system timing. In distributed antenna systems, where signal timing affects how well the whole network works, this benefit is especially useful.
When compared to single-shield options, OCT200's dual-shielding design offers better safety against electromagnetic interference (EMI). When there is a lot of electrical noise, like in industrial machinery and manufacturing facilities, this extra safety keeps the signal quality high.
The flexible design of the OCT200 lets it have smaller bend radiuses without affecting its electrical performance. This makes it possible to place in small spaces where rigid wires would not work. The jacket choices are made to fit a range of situations, from UV exposure outside to fire safety rules inside.
The OCT200 may cost more at first than normal coaxial lines, but when you look at the total cost of ownership, you can see that it is worth it. The lower signal loss means that less signal boosting equipment is needed, which lowers the cost of the system as a whole. The improved sturdiness also lowers the number of times the cable needs to be replaced and maintained over its useful life.
The standard design and wide range of connector compatibility cut down on the need for inventory and make managing extra parts easier. These improvements in practical efficiency mean that companies that manage big antenna feeder sites can save money.
To successfully buy OCT200 cable, you need to know about key specs, supplier qualifications, and the needs of your particular project. This all-around method makes sure that the best value is achieved while still meeting technical and time constraints.
The OCT200 cable can be set up in a number of different ways to meet the needs of different projects. You can choose an inner conductor made of either bare copper or copper-clad aluminum, which lets you get the best performance for your needs and price. Bare copper gives the best conductivity for important uses, while copper-clad aluminum is cheaper for less demanding installs.
The choice of jacket material has a big effect on its long-term performance and compliance needs. Normal PVC jackets work well for most indoor uses, while UV-resistant PE jackets work best for outdoor uses. There are strict fire safety rules for occupied buildings and enclosed areas that LSZH choices meet.
In addition to normal black and white, you can choose unique colors for cables to help you find them and keep them organized. This ability to customize makes upkeep and troubleshooting easier in setups that are complicated and have a lot of cable runs.
When choosing qualified suppliers, you need to check their manufacturing skills, quality certifications, and expert help resources. Companies like OTTO CABLE that have been around for a while show their dedication to quality by having ISO9001 certification and full quality management systems.
Lead times and production ability have a direct effect on project plans. Suppliers with a lot of production capacity, like OTTO CABLE, which can make 150 km of cables every day, can handle big orders and still keep delivery times competitive at 10 to 15 days. Being able to provide technical help is very important when dealing with application-specific needs or installation problems. Suppliers who offer technical advice and customization services go above and beyond just supplying standard products.
When buying OCT200 cables, there are usually minimum order quantities that are based on how efficiently they can be made and how they should be packaged. By knowing these needs, buying teams can plan the best times and amounts to order for multiple projects or future needs.
There are often big savings to be had when you buy in bulk, especially for businesses that need to install antenna feeders on a regular basis. Long-term framework deals can help you get good prices and make sure that you have enough supplies for planned projects. Samples are available so that you can carefully evaluate and test the product before placing a big order. This process of evaluation helps make sure that the new tools will work with old ones and that the installation steps will work as planned.
Important parts of antenna feeder installation jobs are safety concerns and following the rules. The wide range of certifications for OCT200 cable and its commitment to international standards make it easier to check for compliance while ensuring safe operation.
The fact that OCT200 cable meets MIL-C-17 standards gives users in the military and aerospace industries, where reliability standards are very high, peace of mind. This military standard makes sure that the product always works the same way, even in harsh environments and with strict quality standards.
The CE mark shows that the product meets the safety and environmental standards of the European Union. This makes it easier for European markets to approve and install the product. RoHS compliance makes sure that dangerous chemicals are kept to a minimum, which supports being responsible to the environment and following the rules.
REACH certification covers chemical safety rules, which are especially important for installations in buildings with people living in them or in sensitive areas. These licenses make it easier for projects that involve government buildings or groups with strict environmental rules to get approved.
Using the right installation methods will get the most out of your OCT200 cable and keep it safe for as long as it lasts. Knowing the minimum bend radius requirements keeps the foam PE dielectric from getting damaged, which could affect its impedance and signal quality.
To make sure connections are effective and meet pull-strength standards, the right tools and methods must be used during connector installation. Using the right crimping tools and dies that are made for the measurements of the 200-series cables guarantees a reliable bond over time. Grounding and bonding are especially important in antenna feeder systems that need to protect against lightning and work with electromagnetic fields. When properly terminated, the OCT200's full shielding system offers good grounding continuity.
Protocols for regular inspections help find problems before they affect how well a system works. Visually checking the soundness of the jacket, the state of the connectors, and the mounting hardware can help find problems with environmental harm or mechanical stress early on.
Using the right RF measurement tools for performance testing lets you check the electrical properties and find connections that aren't working right or cables that are damaged. Time-domain reflectometry (TDR) tests can find the exact spot where there are impedance breaks or damage in wire runs.
Keeping records of the installation's details, such as where the cables went, where they were connected, and the results of the tests, makes future upkeep and troubleshooting easier. This documentation is especially helpful for setups that are complicated and have a lot of cable runs and connection points.
The advanced engineering, full compliance certifications, and proven effectiveness in demanding uses of OCT200 cable make it a game-changer for antenna feeder setups. The mix of better electrical performance, resistance to environmental damage, and ease of installation solves the most important problems that procurement professionals and installation teams face. The dual-shielding system that protects signals and the fact that OCT200 meets MIL-C-17 standards make it a cost-effective option that lowers project costs and improves stability over time. Companies that want to get the most out of their antenna feeder setups can safely choose OCT200 cable because it works well in a wide range of situations and meets strict safety and environmental standards.
Over and above its better shielding performance, OCT200 cable has about 50% less signal loss than RG-58 cable. The foam PE dielectric and dual-shielding system keep signals strong over longer distances, which means that signal boosters are not needed as much and the system works better overall.
Yes, OCT200 cable has choices with UV-resistant PE jackets that are made for installations outside. The strong construction can handle temperature changes from -40°C to +85°C and still work electrically. The 1200-volt DC rating and 3100-volt RMS jacket spark resistance give outdoor uses a lot of safety margins.
Standard RF connectors, such as N-type, SMA, TNC, and BNC interfaces, can be used with OCT200 cable. The standard sizes let you use connectors that you already have, but you'll need crimp dies that are made for 200-series cable specifications.
The dual-layer shielding design uses aluminum tape to cover the whole thing and tin-copper braid to make it stronger and better at blocking electromagnetic interference (EMI). Compared to single-shield designs, this one does a better job of blocking electromagnetic noise, keeping the signal quality stable in industrial settings that are often noisy with electromagnetic activity.
Standard minimum order sizes usually begin at 3000 meters, which is based on how efficiently the product is made and how it is packed. But qualified suppliers can usually handle smaller amounts for testing reasons or urgent project needs, especially for long-term customers with ongoing procurement relationships.
With more than 20 years of experience designing and making RF cables, OTTO CABLE is the OCT200 Cable manufacturer you can trust. Our factory is ISO9001-certified and makes 150 km of premium coaxial cable every day. This means that your important antenna feeder projects will be delivered quickly, within 10 to 15 days. We use strict quality control procedures and back all of our goods with a guarantee that lasts at least three years. This shows that we have faith in the performance of OCT200 cables. Contact us to talk about your unique needs, get technical documentation, or set up a sample evaluation for your next antenna feeder installation project.
1. Military Specification MIL-C-17G: Radio Frequency Coaxial Cable, General Specification for. Department of Defense Interface Standard, 2018.
2. Institute of Electrical and Electronics Engineers. IEEE Standard 287-2007: Precision Coaxial Connectors for RF, Microwave and Millimeter-wave Applications. IEEE Standards Association, 2007.
3. Telecommunications Industry Association. TIA-968-B: Technical Requirements for Connection of Terminal Equipment to the Telephone Network. Arlington: TIA Publications, 2020.
4. International Electrotechnical Commission. IEC 61196-1-100: Coaxial Communication Cables - Part 1-100: Electrical Test Methods - General Requirements. Geneva: IEC Publications, 2019.
5. Federal Communications Commission. Code of Federal Regulations Title 47 - Telecommunication, Part 15: Radio Frequency Devices. Washington: GPO, 2021.
6. European Telecommunications Standards Institute. ETSI EN 301 489-1: Electromagnetic Compatibility and Radio Spectrum Matters; ElectroMagnetic Compatibility for Radio Equipment and Services. Sophia Antipolis: ETSI Publications, 2020.