What is a Low-profile GSM LTE Aerial PCB Antenna?
The Low-profile GSM LTE Aerial PCB Antenna CTRF-ANTENNA-PCB-8221-3208-IPEX antenna is a 2 dBi gain LTE PCB Antenna indoor GSM antenna manufactured by C&T RF Antennas Inc for GSM LTE cellular wireless network applications.
The High-performance Low-profile GSM LTE Aerial PCB Antenna has a small PCB size of 32x8mm, a 2dBi gain, and an Ipex/u.FL connector, indoor antenna for 2G 3G GSM UMTS LTE bands applications.
C&T RF Antennas Inc, the IoT & M2M antenna internal-external antennas manufacturer in China, manufactures High-performance Low-profile GSM LTE Aerial PCB Antennas.
C&T RF Antennas Inc provides antenna types such as Through-hole Mount Antennas, Magnetic Mount Antennas, Rubber Duck Antennas, Fiberglass Antennas, PCB Antennas, FPC Antennas, Spring Coil Antennas, Sector Antennas, Yagi antennas, etc.
C&T RF Antennas Inc provides the internal-external IoT & M2M antenna with many radio frequency bands such as Cellular, 6G, 5G, 4G, 3G, NB-IoT, GNSS, GPS, Dual-band Wifi, 5.8 GHz, 2.4 GHz, 169MHz, 230MHz, 315MHz, 433MHz, 868MHz, 915MHz LoRa, UWB, RFID, ADS-B, etc.
C&T RF Antennas Inc provides single-band, dual-band, and multi-band antennas for Wi-Fi And Bluetooth, GPS And GNSS, LoRa And ISM, IoT, And M2M applications.
Contact us for details on the High-performance Low-profile GSM LTE Aerial PCB Antenna, such as the GSM LTE PCB Antenna datasheet, GSM LTE PCB Antenna pricing, GSM LTE PCB Antenna inventory, etc.
Or the other internal & external GSM LTE Antenna types.
High-performance Low-profile GSM LTE Aerial PCB Antenna Specifications
High-performance Low-profile GSM LTE Aerial PCB Antenna Electrical Specifications | |
| RF Antenna Type | Built-in PCB Antenna |
| Model | CTRF-ANTENNA-PCB-3208-8221-IPEX |
| Frequency Range | 824-960MHz; 1710-2170MHz |
| Gain | 2±1dBi |
| Radiation Pattern | Omnidirectional |
| VSWR | ≤2.0 |
| Impedance | 50 Ω |
| Polarization | Vertical Polarization |
| Cable Type | RG1.13 |
| Cable Length | 100mm |
| Connector | U.FL/IPEX |
| Lightning Protection | DC-Ground |
High-performance Low-profile GSM LTE Aerial PCB Antenna Mechanical Specifications | |
| PCB Board Dimension | 32*8mm |
| Weight | Approx. 5g |
| Material | PCB |
| Operation Temperature | -40˚C ~ +85˚C |
| Storage Temperature | -40˚C ~ +80˚C |
| Color | Green |
| Antenna Design | Dipole Array |
| Connector Pull Test | >= 1 Kg |
| SafetyEmission and other | RoHS Compliant |
| Applications | ISM/SCADA/Utilities, IoT/NB-IoT/LoRa, LTE-M/Cat-M, 2G/3G/GSM/UMTS |
LTE (Long Term Evolution) Technology
Because the interface of LTE is incompatible with 2G and 3G networks, LTE needs to operate in a separate frequency band from the original network.
LTE is a long-term evolution of the UMTS technology standard developed by the 3GPP organization.
LTE system introduces OFDM (Orthogonal Frequency Division Multiplexing) and MIMO (Multi-Input & Multi-Output) and other key transmission technologies that Significantly increase the spectrum efficiency and data transmission rate, and support a variety of bandwidth allocation: 1.4MHz, 3MHz, 5MHz, 10MHz, 15MHz and 20MHz, etc.
And keep the global mainstream 2G/3G bands and some new bands, so the spectrum allocation is more flexible, and the system capacity and coverage are significantly improved.
LTE system network architecture is flatter and more superficial, reducing network nodes and system complexity, thus reducing system latency and network deployment and maintenance costs.
LTE system supports interoperability with other 3GPP systems. LTE system has two standards: FDD-LTE and TDD-LTE, i.e. frequency division duplex LTE system and time division duplex LTE system. The main difference between the two technologies lies in the physical layer of the air interface (like frame structure, time division design, synchronization, etc.).
FDD-LTE system air interface upstream and downstream transmission adopts a pair of symmetrical frequency bands to receive and send data. At the same time, TDD-LTE systems upstream and downstream use the same frequency band to transmit on different time slots. Compared with FDD duplex mode, TDD has higher spectrum utilization.
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