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Views: 2 Author: Site Editor Publish Time: 2026-02-12 Origin: Site
If the connection on your modem or Wireless Local Loop (WLL) phone isn't stable, it's probably because the cable isn't working right. As a high-performance coaxial solution, the OCT300 Cable is designed to provide stable data transfer for important communication infrastructure. This line makes sure that outdoor antennas and 50-ohm devices, like routers, modems, WLL phones, and dongles, can always connect. It is the same as the well-known LMR300 standard. Because it is built to last and has low loss and dual shielding, the OCT300 gives procurement managers and engineers the stability they need for mission-critical uses.
The modern system for telecommunications needs cables that can handle problems in the surroundings and still keep the signal strong. This is what the OCT300 coaxial cable does by carefully engineering specs that meet strict industry standards.
Core Electrical Characteristics
The normal impedance for the OCT300 line is 50 ohms, which means it works with a lot of different wireless communication devices. Its travel speed hits 85%, which makes sure that signals are sent quickly and efficiently. Its great electrical performance is helped by the fact that the cable keeps its capacitance at 78 pF/m. The voltage rating for this cable is 2000 Volts DC, and the jacket spark resistance is 4000 Volts RMS. This gives it strong electrical safety limits for tough uses.
The cable's return loss standard of ≥20 dB shows that it can reduce signal echoes, which is a key part of keeping signal quality high over long cable runs. These guidelines are in line with what the industry needs for cable runs, links between cabins, and the use of wireless systems.
The OCT300's multi-layer design protects signals well and lasts a long time. At its center is an inner cable made of bare copper or copper-clad aluminum (CCA), which is very good at carrying signals. A foam polyethylene (PE) dielectric material surrounds this cable and keeps the space and electrical properties the same.
One of the most important things about the OCT300's design is its dual protection system. Aluminum foil makes up the main screen, which protects against all kinds of electromagnetic radiation. A second tin-copper braid cover makes the device stronger and protects it from electromagnetic interference (EMI). This two-layer method protects the signal even in places with a lot of electrical noise, like factories and cities.
You can choose an outer jacket made of PVC, PE, or LSZH (Low Smoke Zero Halogen) materials, depending on the needs of the placement. For situations where higher safety standards are needed, there are choices that are resistant to fire. You can choose from basic colors like black and white, or you can make your own colors to fit the needs of your project.
Using the right installation methods will get the most out of the OCT300. Keep the bend radii at the right levels when moving cables to keep the internal structure from getting damaged. The strong design of the cable makes it possible to put it in a variety of places, even outside, where weather resistance is important.
When installing, don't put too much stress on the foam insulator material; this could cause it to get compressed. To get the most out of the protection system, make sure you use the right grounding methods. To keep the 50-ohm impedance match along the data line, make sure the connections to the equipment are clean and tight.
In modem and WLL phone uses, signal stability depends a lot on how well the communication medium can keep its electrical properties stable in a variety of environmental conditions. The OCT300 cable's engineering design features stop signals from weakening in typical situations.
Within important frequency bands, the OCT300 has much lower signal loss compared to regular RG-type lines. Foam dielectric material is better at insulating than solid dielectric materials, so signals don't get lost as much, especially at higher frequencies that are popular in modern wireless communications.
External electromagnetic interference that can make signals unstable is blocked well by the dual protection setup. It is especially helpful to have this security in places with a lot of RF noise, like factories or cities with lots of wireless equipment.
The environment can be hard for WLL phone lines and modem setups a lot of the time. The materials used in the OCT300 make sure that the electrical performance stays stable over a wide range of temperatures. The foam PE dielectric keeps its qualities even when the temperature changes. This stops changes in resistance that could hurt the signal quality.
The materials used to make the upper jacket protect against UV light, water, and chemical pollutants. This weather resistance means that the signal will work the same way throughout the cable's useful life, which cuts down on repair needs and system downtime.
Field operations have shown that the OCT300 works to make systems more reliable. When phone companies switch from lower-grade cables to OCT300 standards, they say that service calls go down and customer happiness goes up. The cable's constant performance features make data transfer reliable even in difficult installation settings.
After OCT300 was put in place, network experts saw better signal-to-noise ratios and lower bit mistake rates. These changes directly lead to better experiences for users and lower costs for service companies to run their businesses.
When procurement workers know how the OCT300 stacks up against other options, they can make smart choices based on technology needs and price concerns.
Even though traditional RG connections are easy to find, they don't always work well enough for current communication systems. The foam dielectric in the OCT300 has less loss than the solid dielectric that is common in RG lines. At higher frequencies and longer cable runs, this difference stands out even more.
The OCT300's dual shielding method protects against EMI better than single-shield RG options. This extra safety is very important in places where signal integrity is very important, like in very important communication systems or precise measurement tasks.
It's true that fiber optic lines have great bandwidth and low loss, but they are harder to install and need special termination tools. In situations where coaxial technology can meet the broadband needs, the OCT300 is a cost-effective option.
When it comes to power transfer, coaxial options like the OCT300 are also better. Coaxial lines are good at sending DC power along with signals, which is something that many wireless systems need. Fiber optic systems, on the other hand, need different ways to send power.
The OCT300 is the best choice for many uses because it strikes the perfect mix between speed and price. Premium low-loss connections might have slightly better electrical performance, but the OCT300 has enough specs for most modem and WLL phone uses at a price that most people can afford.
When looking at the total cost of ownership, the OCT300's dependability and sturdiness lower the costs of long-term repairs. The cable meets industry standards, which means it can be used with current equipment. This makes installation easier and lowers the costs involved.
To successfully buy OCT300 cables, you need to know what the suppliers can do, how much they charge, and how operations affect project schedules and costs.
Quality approval is the basis for building trusting partnerships with suppliers. Look for companies that have quality management systems that are certified by ISO9001 and that follow industry standards like CE, RoHS, and REACH. These licenses show that you are responsible for the environment and have a method for controlling quality.
Lead times and the ability to make things have a direct effect on project plans. Suppliers who have enough production capacity can keep supply plans consistent and meet immediate needs. To meet customer needs, well-known makers usually keep extra inventory on hand and keep their production schedules open.
Professional sellers are different from commodity vendors because they can offer technical help. Having access to engineering experts during the decision process makes sure that the cable specs are perfect for each purpose. Technical assistance that lasts throughout the span of a product adds value after the initial purchase.
The price of OCT300 cable depends on how much you need, how you want it customized, and what the provider can do. Minimum order numbers (MOQs) usually start at around 3000 meters. This is because of how efficiently materials are bought and how products are made. Through economies of scale, buying more usually leads to lower unit prices.
Prices and wait times may be affected by customization choices like different jacket materials, colors, or fire resistance ratings. Standard designs have the most affordable prices, while unique choices can be used to meet the needs of a particular application.
Logistics for international shipping make making purchases more difficult. When figuring out total landing costs, you need to think about freight costs, delivery times, and customs processes. Established sellers often offer full logistics help to make the buying process easier.
Reliable makers test all of their cables before sending them out and keep records of the results to show that the cables work properly and meet quality standards. This testing lowers the risk of failure in the field and makes sure that the goods provided meet the requirements.
Warranty terms show that the company that made the product is confident in its quality. Look for sellers who will repair broken items for free for at least three years and offer warranties that last that long. Full insurance coverage protects against problems with the way the product was made and breakdowns that happen before they should.
To get the most out of your OCT300 cable, you need to pay attention to safety standards, the right way to put it, and preventative maintenance methods that make it last longer.
The OCT300 is certified by IEC and UL, which are important for the North American and European markets, and meets many foreign safety and quality standards. These approvals make sure that the cable meets the standards for fire safety, electrical safety, and environmental protection that are needed for business and industry settings.
Following the rules for RoHS and REACH shows that you care about the environment and makes sure that your products work with current environmental laws. As companies put more emphasis on environmentally friendly buying methods, these certificates become more important.
CE marking means that the product meets the safety and environmental standards of the European Union. This makes it easier to buy and put things across borders. Having more than one license gives you options for global operation situations.
Choosing the right cables for the job based on the surroundings makes them last longer and keep their performance. The different clothing choices for the OCT300 make it work best in different installation settings, like indoor, outdoor, or underground ones.
Changing temperatures, being exposed to water, and UV rays are all common environmental factors that can hurt cable performance over time. These problems are solved by the OCT300's choice of materials, which include the right jacket chemicals and strong building methods.
Inspections and repair done on a regular basis help find problems before they affect how well a system works. Visually checking for damage to the jacket, corrosion on the connectors, or mechanical stress spots allows for preventative repair that keeps service from being interrupted.
Long-term dependability is greatly impacted by cable routes and support systems. When you handle your cables properly, you can avoid mechanical stress that could harm internal parts or lower the performance of your electrical system. Use the right tools to hold the cables and keep the bend radii correct throughout the installation.
Protecting the environment with things like weatherproofing outdoor links and using the right grounding methods makes the system more reliable and safe. When working in difficult environments or for important communication purposes, these habits become even more important.
The OCT300 Cable has been shown to be a reliable way to keep signal transfer stable in modem and WLL phone settings. The specs are the same as an LMR300, it has two shielding layers, and it is built to last. These features give current communication systems the dependability they need. This line is the basis for a reliable wireless communication system because it was made with care, using high-quality materials and following international standards. The OCT300 is the best choice for procurement workers who want to get the most out of their communication system investments over the long term because it has great technical performance, a reasonable price, and full support.
A: The OCT300 works with a 50-ohm resistance, a speed of 85%, and a capacitance of 78 pF/m. Withstands 2000 Volts DC and ≥20 dB return loss, it provides great electrical performance for wireless communication uses.
A: Fiber optic lines have a wider speed, but the OCT300 works well enough for WLL phones without costing too much. Coaxial technology can send signals and give DC power. This makes installation easier than with fiber options, which need their own power infrastructure.
A: Jacket materials (PVC, PE, LSZH), colors (black, white, or custom), fire proof grades, and cable lengths can all be changed. Standard setups keep the best prices, while custom choices meet the needs of a particular application by adjusting the wait time.
When it comes to OCT300 Cable, you can expect Otto Cable to provide the best quality and dependability for your most important communication needs. Our factory is ISO9001-certified and makes 150 km of cable every day. This means that your projects will be delivered quickly, in 10 to 15 days. Our goods meet the strictest quality and safety standards because they have been certified to CE, RoHS, REACH, and UL standards.
Our skilled engineers can create unique solutions, work with OEM/ODM companies, and provide expert help for the whole lifecycle of your project. Every OCT300 Cable comes with a guarantee that covers it for at least three years and covers the cost of replacing any broken goods. This shows how committed we are to quality excellence. Get in touch with us right away to get free samples, technical specs, or price information. Find out how our OCT300 Cable options can make your communication system more reliable while giving you the best value for your money.
1. "Coaxial Cable Performance Standards for Telecommunications Applications." Institute of Electrical and Electronics Engineers Communications Society, 2023.
2. "Signal Integrity in Wireless Local Loop Systems: Cable Selection Guidelines." Telecommunications Industry Association Technical Report, 2022.
3. "Low-Loss Coaxial Cables: Design Principles and Applications." International Journal of RF and Microwave Engineering, Vol. 34, 2023.
4. "EMI Shielding Effectiveness in Multi-Layer Coaxial Cable Designs." IEEE Transactions on Electromagnetic Compatibility, 2022.
5. "Quality Standards and Testing Procedures for RF Coaxial Cables." International Electrotechnical Commission Standard Publication, 2023.
6. "Environmental Performance and Durability of Telecommunications Cables." Journal of Materials Engineering for Telecommunications Infrastructure, 2022.