Product Code
Polarisation
Design Type
Application Category
RF Category
This multiband omnidirectional antenna operates 1710 to 2170 MHz covering 4G Private LTE cellular bands with a high 8.6 dBi gain and high radiation efficiency. This unobtrusive 32 mm ø fibreglass antenna has a 3° electrical downtilt ideal for LTE small cell and in-fill deployments. Machined brass collinear radiators provide controlled azimuth and elevation patterns, ensuring predictable and reliable omnidirectional transmission.
VCOL-1721-8 is a popular choice for Private LTE operating on B1, B2, B3, and B4. Its multiband collinear design permits common 2C carrier aggregation modes such as CA_1A-3A.
N and 4.3-10 Female connector options available.
- Ideal for LTE small cell deployment
- Extremely stable azimuth and elevation patterns
- Multiband performance across B3 1800, B2 1900, and B1 2100 MHz cellular bands
- N and 4.3-10 connector options available
- Excellent VSWR response
- High antenna efficiency.
Antenna Technical Data
Physical Characteristics | |||
---|---|---|---|
Construction Material |
Polyvinyl Chloride (PVC)
Aluminium
|
RF Connections |
1
|
Radome Colour |
Other - Grey
|
Environmental Rating | No Data |
Dimensions |
985 x 40 mm (H x ø)
|
Operating Temperature | -40 °C to 60 °C |
Weight |
0.6600 kg
|
Mounting |
U-bolt, 30 to 80 mm ø pole
|
Collinear Cellular Element
Electrical Specifications | Mechanical Specifications | ||
---|---|---|---|
Input Impedance | 50 Ω | Input Connector | |
Polarisation | Input Connector Gender |
Female
|
|
Max. Input Power | 100 W | Cable Series | - |
PIM, 3rd Order | - | Cable Length | - |
Documents
HB Radiofrequency

HB Radiofrequency forms an essential part of the Halberd Bastion enterprise. Clients requiring OEM manufacturing and custom designed components not available through existing manufacturers can leverage the HB Radiofrequency brand. This service allows clients to manufacture without undertaking the arduous process of marketing their own brand, and protecting confidential manufacturing information.