HP5010A GPS/GNSS Antenna by Taoglas

HP5010A GPS/GNSS Antenna by Taoglas

HP5010A GPS/GNSS Antenna by Taoglas

The HP5010A from Taoglas is an Embedded Passive Patch Antenna that supports GPS, GLONASS, Galileo, and BeiDou. The antenna has been tuned and tested on a 70 x 70 mm ground plane, working at GPS L1: 1575.42 MHz, L2: 1227.6 MHz, and L5: 1176.45 MHz. This patch is made from Terrablast, a revolutionary new material developed to meet the unique needs of the UAV and automotive industries. It uses a patent-pending antenna technology which results in a much lighter weight antenna and is built to withstand greater impacts. This right-hand circularly polarized antenna delivers an average gain of over 4.98 dB with an efficiency of up to 78.5%.

The HP5010A is mounted via a pin and double-sided adhesive. This antenna works well without modifications in most environments but can be tuned and further optimized to different ground planes and enclosures if required. This RoHS & REACH compliant antenna measures 50 x 50 x 10 mm and is ideal for transportation, defense, e-mobility, agriculture, and UAV navigation applications.

Product Details

  • Part Number: HP5010A
  • Manufacturer: Taoglas
  • Description: Embedded Passive Patch Antenna for GNSS Applications

General Parameters

  • Active/Passive: Passive
  • Application Industry: Military, Drone
  • Application Type: Transportation, Defence, E-Mobility, Agriculture, Uav Navigation
  • Type: Patch, Embedded
  • Frequency Bands: L1, L2, L5, E5a, E5b, E4, E2, B1, B2
  • Frequency: 1176.45 / 1227.6 / 1561 / 1575.42 / 1602 MHz
  • Gain: 3 to 4 dBi (Antenna Gain) / 4.98 to 17.1 dB (Avg Gain)
  • Constellation: GPS, GLONASS, BeiDou, Compass, SBAS
  • Efficiency: 58.4 to 78.5 %
  • VSWR: 2.0:1
  • Impedance: 50 Ohms
  • Dimension: 50 x 50 x 10.5 mm
  • Directionality: Omni-Directional
  • Integration: None
  • Mounting Type: Pin and Double-Sided Adhesive
  • Mounting: Adhesive Mount
  • Polarization: RHCP
  • Weight: 59.5 g
  • Operating Temperature (°C): -40 to 85 Degree C

Courtesy of everything RF

share post: