GeoAstra ANT501 high-precision built-in GNSS antenna (L1 L5 multi-frequency, multi-feed point)
GeoAstra ANT501 high-precision built-in GNSS antenna (L1 L5 multi-frequency, multi-feed point)
GeoAstra ANT501 high-precision built-in GNSS antenna (L1 L5 multi-frequency, multi-feed point)

GeoAstra ANT501 high-precision built-in GNSS antenna (L1 L5 multi-frequency, multi-feed point)

Regular price
$93.00
Regular price
Sale price
$93.00
Unit price
per 
Availability
Sold out

The ANT501 high-precision GNSS antenna features a multi-feed point design for stable signals and reduced errors. Supporting GNSS L1/L5, GPS, GLONASS, Beidou, GALILEO, and L-band differential signals, it offers high passive gain and a wide pattern beam for excellent low elevation reception. With pre-filtering technology, low noise coefficient, and strong anti-interference capability, the ANT501 is ideal for intelligent driving, surveying, precision agriculture, and digital machinery operations, providing reliable and accurate GNSS data.

Key Features:

Multi Feed Point Technology

Multi Feed Point Technology: This technology involves using multiple feed points in the antenna design. Each feed point is where the signal enters or exits the antenna. By having multiple feed points, the antenna can ensure more uniform and balanced signal reception and transmission.

Right-Handed Circular Polarization (RHCP): This polarization helps the antenna to better align with the polarization of GNSS signals, which are typically right-handed circularly polarized. This alignment is crucial for accurately receiving satellite signals.

Phase Center Performance: The phase center is the point in the antenna where the signal appears to originate. Stability of the phase center is critical for accurate positioning. Multi feed point technology helps maintain a stable phase center, reducing errors in the positioning data.

Reduction of Measurement Error: With a stable phase center and uniform signal reception, the antenna minimizes measurement errors, leading to more accurate and reliable GNSS data.

High Passive Gain and Wide Pattern Beam

High Passive Gain: Passive gain refers to the antenna’s ability to concentrate received signals without the use of an amplifier. A high passive gain means the antenna can effectively receive weak signals from satellites, enhancing its overall sensitivity and performance.

Wide Pattern Beam: This refers to the antenna’s ability to receive signals from a wide range of angles. A wide pattern beam ensures that the antenna can capture signals from satellites at low elevations (near the horizon), which are often more challenging to receive. This increases the number of satellites the antenna can use for positioning, thereby improving accuracy and reliability.

Reception Effect of Low Elevation Signals: Ensuring good reception of low elevation signals means the antenna can maintain connectivity with satellites that are low on the horizon. This is important for comprehensive satellite coverage and continuous positioning accuracy, especially in environments with obstructions.

Pre-Filtering, Low Noise Coefficient, and Strong Anti-Interference Ability

Pre-Filtering: Pre-filtering technology involves filtering out unwanted signals and noise before they reach the main amplification stage. This process helps to ensure that only the desired GNSS signals are amplified, reducing the impact of out-of-band interference.

Low Noise Coefficient: The noise coefficient, or noise figure, indicates how much noise an amplifier adds to the signal it processes. A low noise coefficient means the amplifier adds very little noise, preserving the quality of the received signal. This is crucial for maintaining high precision in GNSS data.

Strong Anti-Interference Ability: This feature ensures that the antenna can effectively reject or minimize the impact of interfering signals from other sources (such as other communication systems). Strong anti-interference capability is important

Technical Specifications:

GPS

L1/L5

GLONASS

L1

BEIDOU

B1/B2a

GALILEO

E1/E5a

Peak Gain

≥ 3.5 dBi @Fc, with 100 mm ground plane

Polarization

RHCP (Right-Hand Circular Polarization)

Axial Ratio @ Zenith

≤ 1.5 dB

Azimuth Coverage

≤ 1.5 dB

Impedance

50 ohm

Frequency Range

1176.45 ± 10.23 MHz

1559 MHz ~ 1606 MHz

LNA Gain (dB)

28 ± 2 dB (Typ. @ 25°C)

Noise Figure (dB)

≤ 2.0 dB @ 25°C

Output VSWR

1.8:1 typ. 2.0:1 max

Operation Voltage

3.0 ~ 16V DC

Operation Current

< 45 mA

ESD Circuit Protection

15 kV air discharge

Product Size

55 mm * 55 mm * 16 mm

Connector

SMA-J

Weight

< 80 g

Cable Length

15 cm 

Operating Temperature

-40°C ~ +85°C

Storage Temperature

-45°C ~ +85°C

Humidity

95% non-condensing

Vibration

3 axis, sweep = 15 min, 10 to 200 Hz sweep: 3G

Shock

Vertical axis

 

Dimensions (mm):