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GL-DY003
Asialeren
8517710000
| Quantity: | |
|---|---|
| PDF Export | |
4G Screw Antenna | |
GL-DY003-4G | |
Electrical Index | |
Frequency-MHz | 698-960/1710-2690 |
VSWR | <1.5 |
Nominal Impedance -Ω | 50 |
Polarization | Liner |
Mechanical Index | |
Cable Length-mm | |
Connector | SMA male |
Antenna Dimension-mm | φ46.6*14.5 |
Installation Way | Screw |
Ingress Protection | IP65~IP67(exclude cable outlet) |
Vibration | 10 to 55Hz with 1.5mm amplitude 2hours |
Environmentally Friendly | ROHS Compliant |
Temperature-℃ | -40~+85 |
Humidity-﹪ | 5~95 |
A 4G Screw Antenna with the specifications you've mentioned is designed for mounting purposes and is compatible with a wide range of devices that require 4G connectivity. Here's a breakdown of the features:
Frequency Range: The antenna operates within the 698-960 MHz and 1710-2690 MHz bands, which are commonly used for 4G LTE services in many regions around the world. This allows it to support multiple generations of mobile networks, including 3G and 4G.
Linear Polarization: This means the antenna transmits and receives signals in a straight line, perpendicular to the plane of propagation. Linear polarization can improve signal strength and reduce interference compared to circular polarization in certain environments.
SMA Male Connector: SMA (SubMiniature version A) connectors are widely used in RF applications due to their small size and reliability. An SMA male connector indicates that the antenna will have a male connector on the end, which can be connected to a device or cable with an SMA female connector.
Screw Installation Way: This refers to the method of mounting the antenna. It typically involves using screws to attach the antenna to a surface or structure. This type of mounting is often preferred for its stability and ease of installation in various environments.
When selecting this antenna, ensure that it is compatible with your specific device's requirements and that it meets any regulatory standards for your region. Additionally, consider factors such as the antenna's gain, radiation pattern, and environmental conditions that might affect its performance.
4G Screw Antenna | |
GL-DY003-4G | |
Electrical Index | |
Frequency-MHz | 698-960/1710-2690 |
VSWR | <1.5 |
Nominal Impedance -Ω | 50 |
Polarization | Liner |
Mechanical Index | |
Cable Length-mm | |
Connector | SMA male |
Antenna Dimension-mm | φ46.6*14.5 |
Installation Way | Screw |
Ingress Protection | IP65~IP67(exclude cable outlet) |
Vibration | 10 to 55Hz with 1.5mm amplitude 2hours |
Environmentally Friendly | ROHS Compliant |
Temperature-℃ | -40~+85 |
Humidity-﹪ | 5~95 |
A 4G Screw Antenna with the specifications you've mentioned is designed for mounting purposes and is compatible with a wide range of devices that require 4G connectivity. Here's a breakdown of the features:
Frequency Range: The antenna operates within the 698-960 MHz and 1710-2690 MHz bands, which are commonly used for 4G LTE services in many regions around the world. This allows it to support multiple generations of mobile networks, including 3G and 4G.
Linear Polarization: This means the antenna transmits and receives signals in a straight line, perpendicular to the plane of propagation. Linear polarization can improve signal strength and reduce interference compared to circular polarization in certain environments.
SMA Male Connector: SMA (SubMiniature version A) connectors are widely used in RF applications due to their small size and reliability. An SMA male connector indicates that the antenna will have a male connector on the end, which can be connected to a device or cable with an SMA female connector.
Screw Installation Way: This refers to the method of mounting the antenna. It typically involves using screws to attach the antenna to a surface or structure. This type of mounting is often preferred for its stability and ease of installation in various environments.
When selecting this antenna, ensure that it is compatible with your specific device's requirements and that it meets any regulatory standards for your region. Additionally, consider factors such as the antenna's gain, radiation pattern, and environmental conditions that might affect its performance.
