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2.4G Spring Antenna Wi-Fi/Bluetooth/Zigbee Built-in Antenna

2.4G Spring Antenna (Wi-Fi/Bluetooth/Zigbee Built-in Antenna) with compact size and simple structure.
  • 50Ω

  • DL-T021-2.4GW

  • 2.4~2.5GHz

  • 1W


2.4~2.5GHz Spring Antenna with High Gain (3 dBi)

Antenna Introduction:

Spring coil antenna is a built-in antenna with compact size and simple structure. It has high reliability in various low-power wireless communication applications.  The principle of a spring antenna is composed of a folding spring and a matching circuit. The material of our spring antenna is brass, or phosphorous copper, and  some will be quipped with a heating shrink tube to prevent oxidation. All are produced from new pure copper materials and can pass the ROHS test. The diameter  of the spring and the number of coils are important parameters for controlling the antenna frequency.

The length of each coil is based on /4 units, It is the wavelength of the operating frequency. By increasing the number of coils in the spring, the frequency of the  antenna can be reduced, while reducing the number of coils can increase the frequency. The length of a spring antenna is usually multiple of /4, otherwise it will  cause reflection and waveform distortion issues. Therefore, when the spring length is not in the case of multiples of /4, a tuning component must be used to  match the impedance.

Download Center:

DL-T021-2.4GW Spring Antenna Specification V1.0 do

Antenna Characteristics:

● High gain

● Strong compati bility

● Good stability

Application Field:

● Smart Express Cabinet

 Security alarm

 Smart buildings, smart buildings

 Smart home

 Power monitoring

● Smart Industry

 Traffic monitoring equipment

 Smart Agriculture

Temperature and humidity monitor


 Medical automation

 Wireless module

Application & Design Guidance :


Note: When making the antenna design, many factors need to be considered, such as the product  appearance structure, the position of the RF module’s signal input and output interface, the location  of interference sources inside the product, etc. After taking all these factors into consideration, we  can then determine the antenna location, angle, distance from the paved ground, and height from the  PCB substrate. 

Please reserve a π-type network to match the antenna. When debugging the antenna, be sure to  provide a complete product shell and internal PCBA function board, calculate the external  interference source and parasitic capacitance into the matching, so that the antenna can achieve the  best performance indicators and work efficiency. 

The PCB trace of the matching network refers to the 0.5mm line width, and the grounding on both  sides of the network refers to the 0.35mm spacing to maintain good impedance characteristics.

Electrical Test Report:

Frequency 2400~2500MHz
Impedance 50Ω
V.S.W.R ≦1.5
Band Width 100MHz
Gain 3dBi
Linear polarization Vertical
Power 1W
Material Phosphor bronze; Gold-plated
Operating temperature -40 ~ 85 °C
Storage temperature -40 ~ +85℃