Used GSSI 350 HS Utility Scan GPR Antenna, fully operational and ready to working order, including Batteries, Panasonic Toughpad FZ-G1, Ethernet Cable, Three wheel Utility Cart.
Technology Benefts
- Patented HyperStacking technology
- Digital GPR antenna
- High resolution data
- RF noise immunity
- Better depth penetration than traditional GPR antennas
350 HS Data
The 350 HS is a state-of-the-art digital antenna using our patented HyperStacking technology and works seamlessly with GSSI’s SIR 4000 control unit or customized Panasonic G1 tablet. It is easily configurable to accommodate a variety of applications including archaeology, geophysics, utility locating, and more. Our HyperStacking technology greatly improves the performance of traditional RTS technologies. Illustrated below is data collected along the edge of a soccer field in low-loss soils. Compared to a traditional GPR antenna, we can see a clearer image in addition to a 50% improvement in depth penetration.
GSSI 350 HS Utility Scan GPR Antenna Specifications | |
Center Frequency | 350 MHz |
Typical Range | 20 ft / 6 m |
Maximum Range | 40 ft / 12 m |
Compatible GSSI Controllers | SIR 4000 Customized Panasonic Toughpad FZ-G1 |
Downloads
- GSSI-350HS-Antenna-Brochure.pdf
- GSSI-UtilityScan-HS-Quick-Start-Guide.pdf
GSSI 350 HS is a state-of-the-art digital antenna using our patented HyperStacking technology and works seamlessly with GSSI’s SIR 4000 control unit or customized Panasonic G1 tablet. It is easily configurable to accommodate a variety of applications including archaeology, geophysics, utility locating, and more. HyperStacking technology greatly improves the performance of traditional RTS technologies. Illustrated below is data collected along the edge of a soccer field in low-loss soils. Compared to a traditional GPR antenna, we can see a clearer image in addition to a 50% improvement in depth penetration.
HyperStacking Technology Explained
HyperStacking (HS) is a revolutionary real-time sampling (RTS) technique patented by GSSI, which
greatly improves the receive performance of a GPR system while maintaining the measurement
speed and radiated emission limits. It is achieved by a method of averaging (i.e., stacking) the
results of many individual scans that allows for clearer images.
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