Description
What is a 433Mhz Antenna Ipex High-gain Internal FPC Antenna?
The 433Mhz Antenna Ipex High-gain Internal FPC Antenna CTRF-ANTENNA-FPC-0433-7317-IPX is an embedded antenna flexible PCB antenna Ipex mounted 433Mhz antenna manufactured by C&T RF Antennas Inc for 433mhz RF Receiver and transmitter Module For Wireless Remote Controls.
The internal Antenna 433Mhz Antenna Ipex High-gain Internal FPC Antenna is supplied by C&T RF Antennas Inc, the leading 433 MHz antenna manufacturer。
C&T RF Antennas Inc provides internal & external antennas with the antenna radio frequencies such as NFC, 169MHz, 230MHz, 315MHz, 433MHz, 868MHz, 915MHz, VHF&UHF, Lora, NB-IoT, ADS-B, GSM, GNSS, Wifi 2.4GHz, 5.8GHz, Cellular 2G 3G 4G LTE, GPS, 5G NR, 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 the 433Mhz Antenna Ipex High-gain Internal FPC Antenna datasheet, 433Mhz Antenna Ipex Antenna pricing, and inventory on the 433Mhz Antenna Ipex Antenna, or other 433Mhz Antenna Ipex Antenna styles.
433Mhz Antenna Ipex High-gain Internal FPC Antenna Applications
433MHz is a commonly used frequency band for all types of equipment that require little power, such as garage door openers, headphones, baby phones, and remote controls. Also, many inexpensive transmitters and receivers for switching devices and light dimmers operate on the 433MHz band.
The CTRF-ANTENNA-FPC-0433-7317-IPX high-gain antenna item is a 433Mhz Antenna Ipex High-gain 470MHz FPC Antenna with a 73x17mm size flex PCB board trace internal antenna for wireless modules, RFID, Lora, ISM, IoT, M2M industries.
433Mhz Antenna Ipex High-gain Internal FPC Antenna specifications
433Mhz Antenna Ipex High-gain Internal FPC Antenna Electrical Specifications |
|
| RF Antenna Type | Embedded FPC Antenna |
| Model | CTRF-ANTENNA-FPC-0433-7317-IPX |
| Frequency Center | 433MHz |
| Gain | 5dBi |
| VSWR | ≤1.8 |
| Impedance | 50 Ω |
| Polarization | Vertical Polarization |
| Cable Type | RG1.13 |
| Connector | IPEX/u.FL |
| Cable Length | 100mm |
| Lightning Protection | DC-Ground |
433Mhz Antenna Ipex High-gain Internal FPC Antenna Mechanical Specifications |
|
| FPC Board Dimension | 73*17mm |
| 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/Peel-and-Stick |
| Safety Emission and other | RoHS Compliant |
| Applications | Public Safety/LMR/P25/TETRA, ISM/SCADA/Utilities, RFID, IoT/NB-IoT/LoRa, etc |
Flex PCB Antenna Features
Flexible Antenna FPC Antenna Features
How to strengthen the transmission distance of 433MHz wireless transceiver signals?
433MHz is a dedicated frequency band for security, suitable for linear transmission at short distances, and has poor diffraction ability during transmission.
Its propagation is directly related to the antenna used in the system. Whip antennas and whip antennas have almost no directivity, while parabolic antennas have strong directionality.
To increase the signal transmission distance of the wireless router, the transmit power of the wireless router must first be qualified, that is, reach the standard 100 milliwatts.
In addition, since the transmission power of the wireless router is specified at 100 milliwatts, the signal transmission distance of a wireless router is limited.
At this time, two or more wireless routers can be used to work at the same time. One of the routers is connected to the Internet cable, and the others are connected to the power source to form a large area of signal coverage. Major restaurants, airports, and campuses adopt this model.
In addition, the signal of the wireless router has the characteristics of light, and it is transmitted in a straight line. If it is a visible distance, the transmission distance will be very far. If there are obstacles, especially metal obstacles, signal attenuation is of interest.
Enlarge the antenna. Of course, it is best to use a spectrum analyzer to adjust the best transmitting and receiving power. The components near the antenna are fatal.
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