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In order to achieve optimal performance in a distributed antenna system (DAS) application, it is crucial to utilize components that have a low passive intermodulation (PIM) rating. This is especially important as the need for faster data speeds and the ability to stream video on mobile devices continues to grow. By using components with a low PIM rating of less than -153 decibels relative to the carrier (dBc), it becomes possible to meet the most stringent PIM requirements for LTE/4G/5G frequency bands.
The products are equipped with a highly adaptable feed system that enables users to configure the antenna for either Dual Polarization (Horizontal and Vertical) or X-Polarization (+45° and -45°). These antennas have been specifically designed to work seamlessly with MIMO radios such as the Ubiquiti Networks RocketM5®, Mikrotik BaseBox® 5, or Cambium ePMP™ series radios. Additionally, they are also compatible with the new generation WiFi 6E and WiFi 7 radios.
Furthermore, it is possible to include optional frequency bands such as 5G 1710-4000MHz, 2.4-2.5GHz, 4.9-5.85GHz, 4.9-7.125GHz, 5.925-7.125GHz, 7.125-8.5GHz, and 10.125-11.7GHz, among others. Additionally, customers have the option to customize a dish antenna with specific frequency, polarization, gain, reflector size, and mounting brackets according to their requirements.
The symmetrical horn antenna design is characterized by its horn-shaped structure, which allows for a wider beamwidth and better coverage compared to other types of antennas. This type of antenna is commonly used in outdoor WiFi deployments, such as in point-to-multipoint wireless links.
By using a WiFi 6e/7 symmetrical horn antenna, users can take advantage of the increased bandwidth and reduced interference that the 6 GHz frequency band offers. This can result in faster and more reliable wireless connections, especially in crowded areas where other WiFi bands may be congested.
The omnidirectional antennas are designed for professional use and are built to last. They have a thick fiberglass radome and a sturdy aluminum base, making them durable and able to withstand harsh weather conditions.
The colinear central feeding dipole array design of these antennas provides better performance compared to traditional omnidirectional designs. This means that they can receive and transmit signals over a wider range and with higher gain.
The PRO series of these antennas have internal solid brass elements, which further improves their performance. They also have integral N-female connectors, which are known for their high performance and durability. This means that the PRO series antennas can handle higher power levels and have a longer lifespan compared to other antennas.
A MIMO (Multiple-Input Multiple-Output) panel antenna is a type of antenna that is designed to improve the performance of wireless communication systems by utilizing multiple antennas to transmit and receive signals simultaneously.
The panel antenna consists of multiple antenna elements arranged in a panel or array. Each antenna element is connected to a separate radio channel, allowing for independent transmission and reception of signals. This enables the antenna to provide multiple spatial streams, increasing the capacity and throughput of the wireless system.
MIMO panel antennas are commonly used in wireless communication systems such as Wi-Fi, cellular networks, and point-to-point communication links. They are often deployed in outdoor environments, mounted on buildings, poles, or towers, to provide coverage over a wide area.
RFID antennas can be designed in various shapes and sizes depending on the application requirements. They can be built as linear polarized or circular polarized antennas. Linear polarized antennas emit radio waves in a specific direction, while circular polarized antennas emit radio waves in all directions, allowing for better tag reading in different orientations.
The performance of an RFID system largely depends on the design and placement of the RFID antenna. Factors such as the gain, beamwidth, polarization, and frequency range of the antenna can affect the read range and reliability of the system. Therefore, it is important to select the appropriate RFID antenna for a specific application to ensure efficient and accurate RFID tag reading.
The rubber duck antennas are designed to be compact and portable, making them suitable for use in handheld devices. They are usually omnidirectional, meaning they can transmit and receive signals in all directions. However, due to their short length, they have a limited range compared to larger, more powerful antennas.
While rubber duck antennas are convenient and easy to use, they are not as efficient as larger antennas. The short length limits their ability to pick up weak signals or transmit over long distances. In situations where a longer range is required, such as in professional radio communications or long-range Wi-Fi connections, larger and more powerful antennas are usually used.
Sanny Telecom provides a comprehensive range of antenna accessories with the most dependable supply chain in the market. We guarantee competitive prices and unwavering quality for all our products, including cable assemblies (pigtails), brackets for AP radios, brackets for antenna mounting, enclosures, and more. You can rely on us for all your sourcing needs as we offer a one-stop solution.
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