Name: 4G LTE Cat M1 Antenna High-Gain Flexible Antenna Design - PCB Antenna Design
SKU: CTRF-ANTENNA-FPC-7027-6050-IPEX

Description

What is a 4G LTE Cat M1 Antenna High-Gain Flexible Antenna?

The 4G LTE Cat M1 Antenna High-Gain Flexible Antenna CTRF-ANTENNA-FPC-7027-6050-IPEX is an Omnidirectional dipole design 60x50mm size Ipex connector flex PCB antenna covering LTE Cat-M1/NB-IoT FPC antenna manufactured by C&T RF Antennas Inc for IoT applications.

Why is LTE Cat M1 used in IoT applications?

LTE Cat M1 is a low-power wide-area (LPWA) technology specifically designed for IoT and M2M applications. LPWA technologies offer lower maintenance costs, with greater efficiency and reliability by reducing power consumption, and provide deeper penetration compared to standard cellular technologies.

The 4G LTE Cat M1 Antenna Flex PCB Antennas are supplied by C&T RF Antennas Inc, the internal antennas & external antennas 2G 3G 4G 5G 6G antennas manufacturer in China.

C&T RF Antennas Inc provides wireless antennas with PCB & Flex PCB & Omni antenna types, covering the below frequencies:

5G NR PCB Antennas, LTE PCB Antennas, GSM PCB Antennas, Wifi PCB Antennas, NB-IoT PCB Antennas, LoRa PCB Antennas, GPS PCB Antennas;

5G NR FPC Antennas, 4G FPC Antennas, 3G FPC Antennas, NB-IoT FPC Antennas, Wifi FPC Antennas, GPS FPC Antennas, LoRa FPC Antennas;

5G Omni Antennas, 4G Omni Antennas, Wifi Omni Antennas, LoRa Omni Antennas; etc.

Contact us for more information on the 4G LTE Cat M1 Antenna Flex PCB Antenna such as LTE Cat M1 Antenna FPC Antenna datasheet, LTE Cat M1 Antenna Flexible PCB Antenna pricing, LTE Cat M1 Antenna High-Gain FPCB Antenna inventory, or other 4G LTE Cat M1 antenna designs.

4G LTE Cat M1 Antenna Flex PCB Antenna Specifications

4G LTE Cat M1 Antenna High-Gain Flexible Antenna Electrical Specifications
RF Antenna Type	Embedded FPC Antenna
Model	CTRF-ANTENNA-FPC-7027-6050-IPEX
Frequency	700-960MHz, 1710-2700MHz
Gain	6dBi/8dBi
VSWR	≤2.0
Impedance	50 Ω
Polarization	Vertical Polarization
Cable Type	RG1.13
Connector	U.FL/IPEX
Cable Length	130mm
Lightning Protection	DC-Ground
4G LTE Cat M1 Antenna High-Gain Flexible Antenna Mechanical Specifications
FPC Board Dimension	60*50mm
Weight	Approx. 8g
Material	FPCB + RG Cable + U.FL connector
Operation Temperature	-40˚C ~ +85˚C
Storage Temperature	-40˚C ~ +80˚C
Color	Black
Antenna Design	Dipole Array
Mounting	Connector
SafetyEmission and other	RoHS Compliant
Applications	ISM/SCADA/Utilities, IoT/NB-IoT/LoRa, 2G/3G/4G/LTE/LTE-IoT/GSM/GPRS/UMTS/DCS/PCS, etc

Cellular IoT Field Testing – Verifying Real-World Performance

The advent of the Internet of Things (IoT) presents a number of challenges for network operators as well as vertical industry customers and M2M connectivity providers.

What levels of Quality of Service (Q0S) and Service Level Agreements (SLAs) can they achieve and commit to?

Are there performance differences between network equipment manufacturers, IoT device manufacturers, and different operators?

How is the network configured and planned for optimal performance?

Is the service coverage network wide enough to reach even deep inside buildings?

What is the battery life of IoT devices?

The answers to these questions depend on the out-of-field performance of commercial network equipment and IoT devices, interoperability between devices, and the design and configuration of the network.

The 3GPP specification defines the performance and operating limits of the IoT, but actual outfield performance is largely influenced by device implementation and network design. Therefore, we need to perform outfield measurements to get definitive answers.

Technical Specifications and Commercial Implementations

The 3GPP standard defines various technologies for delivering key IoT functions, however, each vendor has its own exclusive approach to the use and implementation details of these technologies.

In addition, device antennas and enclosures have a significant impact on the actual performance that can be achieved.

Therefore, to validate the interoperability and performance of the devices to be deployed, it is important to test and evaluate the network equipment manufacturers as well as the devices available in the market.