LTE Antenna Design 4G FPC Antenna Design

Description

Who Provides the LTE Antenna Design 4G FPC Antenna Design?

LTE Antenna Design Specifications:

Frequency: 698-960MHz, 1710-2700MHz

Material: Flex Circuit PCB board / FPC

Cable Type: RG cable

Cable Length: Customized

Connector: U.FL, IPEX, MHF, etc

C&T RF Antennas Inc. provides the antenna tuning circuit design, inverted F antenna design, LTE antenna design, 4G antenna design, FPC design, embedded antenna design, custom antenna design, ground plane antenna design, chip antenna design, IFA antenna design, etc.

Includes the PCB LTE antenna design,  flex PCB LTE antenna design, rubber duck antenna LTE antenna design, fiberglass antenna LTE antenna design, magnetic mount antenna LTE antenna design, and through-hole mount antenna LTE antenna design, etc.

C&T RF Antennas Inc provides internal & external antennas with antenna radio frequencies such as NFC, 169MHz, 230MHz, 315MHz, 433MHz, 868MHz, 915MHz, VHF&UHF, Lora, NB-IoT, ADS-B, GSM, GNSS, GPRS, 1.2 GHz, 1.4 GHz, 1.8 GHz, Wi-Fi 2.4 GHz, 5.8 GHz, Cellular 2G, 3G, 3.5 GHz, 4G LTE, GPS, 5G NR, 6G, etc.

C&T RF Antennas Inc. provides RF antennae with Omni & Directional antenna types such as Dipole Antennas, Whip Antennas, Marine Antennas, Router Antennas, MIMO Antennas, Combo Antennas, PCB Antennas, FPC Antennas, Spring Antennas, Magnetic Antennas, Sector Antennas, Yagi Antennas, and Accessories, etc, for IoT & M2M industries.

Contact us for more LTE Antenna Design details such as LTE antenna design datasheet, LTE antenna design cost, and LTE antenna design price.

What is an Antenna?

An Antenna is a transducer that converts radio frequency (RF) fields into alternating current or vice versa. There are both receiving and transmission Antennas for sending or receiving radio transmissions.

Antennas play an important role in the operation of all radio equipment. They are used in wireless local area networks, mobile telephony, and satellite communication.

Antennas

An Antenna has an arrangement of metallic conductors with an electrical connection to a receiver or transmitter.

In a radio transmitter, the current is forced through these conductors by the transmitter to create an alternating magnetic field.

In a radio receiver, this field induces a voltage at the Antenna terminals, which are connected to the receiver input.

In remote transmission, the oscillating magnetic field is coupled with a similar oscillating electric field, which defines electromagnetic waves capable of propagating the signal for long distances.

Radio waves are electromagnetic waves that carry signals through space at the speed of light without any transmission loss. Antennas can be Omni-directional, directional, or arbitrary.

Main Types of Antennas

There are several different types of Antennas. The two most common are monopole and dipole Antennas, which originated from transmission line theory. A dipole is a half-wavelength, open-ended transmission line that is fed at the midpoint of the Antenna. A monopole is a quarter-wavelength-fed open-ended transmission line.

Antenna Design

Successful integration of an Antenna into a wireless device depends on the understanding that the entire device is part of the Antenna. The Antenna cannot be added at the end of the design phase; it must be designed from the very beginning of the product concept.

Fixing Antenna problems at the end or after prototyping at a testing facility is difficult, time-consuming, and expensive. The primary Antenna performance goal must be efficiency.

Antenna tuning and impedance issues can usually be adjusted to some degree during development. However, an Antenna design with inherent low efficiency, most often because of size constraints imposed by the industrial design, will often require substantial product re-design for improvement.

Antenna design requires suitable test equipment and know-how to obtain optimal performance. It is strongly recommended to use the professional services of firms specializing in the design and placement of Antennas. C&T RF Antennas Inc and our partners can help in the design process.

Appropriate Antenna Selection

Antennas for indoor and outdoor applications.

Antennas for different frequencies, technologies covering the multi-band applications.

Antennas in different form factors like a chip, stick, flex, etc.

 

Customized LTE Antenna Design

Customized Antenna design support from the slight standard Antenna modification up to complete new design including cable assemblies.

PCB Antenna design support.

Matching circuit design support to achieve the best performance.

Antenna measurement and optimization services.

Simulation of Antenna performance.

Please contact the C&T RF Antennas Inc engineering antenna design team for the antenna designs, below are some of the existing LTE Antenna Design products.

32x7mm (FPC antenna) 700MHz LTE Antenna

32x8mm (FPC antenna) GSM 4G Antenna

40x15mm (FPC antenna) 2G 3G 4G Antenna

38x16mm (FPC antenna) 3G 4G LTE Antenna

80x21mm (FPC antenna) High Gain 4G LTE Antenna

52x24mm (FPC antenna) High Gain 4G Antenna

40x15mm (FPC antenna) Antenna LTE 4G

43x38mm (FPC antenna) 4G Antenna Extension Cable

60x8mm (FPC antenna) 4G LTE Antenna

59x68mm (FPC antenna) High Gain LTE Antenna

70x22mm (FPC Antenna) LTE Antenna Cable

95x24mm (FPC Antenna) 4G Network Receiver

60x50mm (FPC Antenna) Best 4G LTE Antenna

70x18mm (FPC Antenna) 3G 4G Antenna

70x18mm (FPC Antenna) 4G LTE Antenne

57x23mm (FPC Antenna) Antenna 4G LTE

57x23mm (FPC Antenna) 4G LTE Indoor Antenna

29x8mm FPC Antenna – – GSM 3G 4G Antenna Flexible PCB Antenna

34x12mm FPC Antenna – – Embedded 4G Antenna For Router Flex PCB Antenna

82x26mm FPC Antenna – – Indoor LTE Antenna Flexible Antenna 4G

70x21mm FPC Antenna – – 4G LTE Patch Antenna Ipex Antenna

99x14mm FPC Antenna – – 3G/4G LTE Antenna Flex PCB Antenna

105x15mm FPC Antenna – – High Gain Antenna 4G Flexible Antenna

 

Below are the LTE Antenna Design 4G PCB Antenna-designed styles for your reference.

           65x12mm PCB Antenna – – 4G Internal Antenna LTE PCB Trace Antenna

           35x8mm PCB Antenna – – 4G Omni Directional Antenna PCB Antenna

           40x40mm PCB Antenna – – Omni Directional 4G LTE Antenna PCB Antenna

            34x8mm PCB Antenna – – Indoor LTE Omnidirectional Antenna 4G PCB Antenna

            59x8mm PCB Antenna – – Internal PCB Router Antenna For 4G LTE Network

            105x14mm (Green) PCB Antenna – – Green High Gain Internal Antenna 4G LTE PCB Antenna

            105x14mm (Black) PCB Antenna – – 4G LTE High-gain Antenna Embedded PCB Antenna

            95x13mm PCB Antenna – – High Gain 4G Antenna Indoor PCB Antenna

            98x13mm PCB Antenna – – Good 4G LTE Antenna Internal PCB Antenna

            75x22mm PCB Antenna – – PCB Trace Antenna LTE 3G 4G Antenna

            75x5mm PCB Antenna – – Best 4G LTE Indoor Antenna PCB Trace Antenna

            125x14mm PCB Antenna – – High Gain LTE Antenna 4G PCB Antenna

            135x8mm PCB Antenna – – Best LTE Antenna 3G 4G PCB Trace Antenna

            35x6mm PCB Antenna – – LTE PCB Antenna Indoor 4G Antenna

            145x12mm PCB Antenna – – High Gain 2G 3G 4G LTE Antenna PCB Trace Antenna

            44x10mm PCB Antenna – – Internal PCB Antenna 3G 4G LTE Antenna

            32x8mm PCB Antenna – – GSM Antenna Design PCB Antenna

            31.5×7.5mm PCB Antenna – – Small GSM Patch Antenna Embedded Antenna

            40x15mm PCB Antenna – – PCB LTE Antenna 4G Internal Antenna

           60x16mm PCB Antenna – – 4G LTE Antenna PCB Trace Antenna

 

 

Please contact the C&T RF Antennas Inc. engineering antenna design team for the antenna designs, thank you.

LTE Antenna Design Flexible Antenna Features

 

 

 

 

 

 

 

 

 

 

RF Antenna Applications

 

 

Introduction of 4G LTE research

ID-LTE FDD-LE and other LE network systems are collectively referred to as 4GLTE, and because China’s network development is in a special period, 4GLTE in China generally refers to TD-LTE.

The so-called 4G is the abbreviation of the fourth generation of communication technology, which can meet the requirements of almost all users for wireless network services, the original third-generation mobile communication system is working in 2MHz broadband.

Theoretically, the rate can reach 2Mps, but in the actual provision of only 384kbps, despite the continuous development of 3G enhanced technology, but still difficult to meet the user demand for network rate, and can not provide the limitations of the 3G system are currently the hotspot of 4G development research, such as dynamic range multi-rate services.

In the era of the 3G communication system, there are many standards that cause some inconvenience to users, and the ITU-R development standards of 4G are reduced.

The interoperability of the network is enhanced, and the superiority of 4G is reflected in various aspects, such as networking and talk time, inter-network data transmission rate, communication data loss problem, cellular data coverage problem, etc.

Broadly speaking, the 4G era is notable for having larger transmission bandwidth and greater data capacity, sufficient for instant online delivery of HD streaming media.

4G’s highly intelligent system can provide users with richer applications, and faster and more convenient services, while the system’s seamless connection is highly compatible, greatly improving the quality of calls between different communication systems.

4G communication system is an integrated technical product of 3G and N, capable of transmitting high-quality video images. Although the third generation of mobile communication technology has also reached streaming media online for smooth playback and online video calls, the quality of images transmitted by 4G is higher, even comparable to high-definition TV images.

The 4G communication system is 2,000 times faster than the current plucked Internet, with a high download speed of 100Mbps and asymmetric data transmission capability of more than 2Mbit/s, including broadband wireless area networks, broadband wireless fixed access, interactive broadcast networks, and mobile broadband systems.

The billing method for users is also more convenient and flexible, the service can be developed through the user’s own needs, and the price is also similar to the fixed broadband network with a high degree of user acceptance.

The development of 4G communication technology, requires cheaper and cheaper, communication speed is faster and more intelligent, the coverage of the network is also more extensive, and 4G can also be deployed in places not covered by cable modems and DSL, and thus covered in the whole area, closer to personal communication than 3G.

It belongs to the multi-functional integrated broadband mobile communication system, using Broadband access to IP systems allows 4G users to connect to the network at any time and from anywhere through a variety of mobile terminals without restrictions, making it easy for users to choose applications, services, and networks according to their needs and enabling them to enjoy the high-end services of m-commerce.