CrossOver GPR Antenna Series
A state-of-the-art dual-channel 2D GPR solution
CrossOver is a general-purpose series of GPR-systems, in three different housings and with 6 separate frequencies in the range 70- to 800MHz. It is designed for the professional-geo community. It may be pulled or pushed in dedicated carts, by hand or by means of vehicles, at any speeds. Each system comes as a true-dual frequency antenna with inbuilt control electronics and GPS-modules. The systems are controlled via Android-pads over a wireless link.
Description
First dual-channel RTS antenna
CrossOver is a general-purpose series of GPR-systems, in three different housings and with 6 separate frequencies in the range 70- to 800MHz. It is designed for the professional-geo community. It may be pulled or pushed in dedicated carts, by hand or by means of vehicles, at any speeds.
Each system comes as a true-dual frequency antenna with inbuilt control electronics and GPS-modules. The systems are controlled via Android-pads over a wireless link. It is based on real-time-technology which gives excellent depth penetration and bandwidth. Low power consumption gives 7 hours operational time, on one battery.
Meeting your application needs
The CrossOver frequency options are optimized to cover a wide-range of applications from shallow to deep investigations, with the benefit of dual-channel (LF & HF) operation.
CrossOver CO4080 (400 & 800 MHz) is suited for applications requiring shallow to medium depth penetration.
CrossOver CO1760 (170 & 600 MHz), is suited for applications medium to deep depth applications.
CrossOver CO730 (70 & 300 MHz) is suited for deep.
CrossOver® benefits
Real-Time-Sampling (RTS) based GPR antenna designs have much better performance (increased dynamic range, sensitivity and depth penetration) than conventional GPR antenna designs. ImpulseRadar’s revolutionary dual-channel GPR antenna design takes it to the next level.
The unique range of dual-channel solutions reduces the need for investments in multiple single-channel antennas to achieve the same objectives. Whilst the high-speed performance increases productivity.
An Android-driven user interface offers flexibility in your choice of the acquisition and control device (tablet/ smartphone) giving you more options to suit specific needs and budget.
Wireless, but secure data transfer between the antenna and user interface simplifies set-up and practical use.
Specifications
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General
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Application Type
Pipes & Cables, Concrete Structure, Road/Bridges Inspection, Archaelogical & Environmental, Mining & Geology, Object Detection (search& Resque, bomb detection)
Mounting
Handheld, Carriage
Year of initial introduction
2017
Max Power Consumption {W}
16
Power type
DC
Number of Channels
2
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Antennae
-
Type
Dipole
Antenna Technology
Real Time Sampling
Certificates and Standards
CE, ETSI-EN302066, FCC
Bits per Sample
16 bit, 32 bit
Shielding
Shielded
Central Frequency (MHz)
See specific antenna
Frequency Range
See specific antenna
Number of frequencies
2
Max acquisition speed (@ standard scan interval)
> 100 km/h
Bandwidth (GHz)
See specific antenna
Antenna Seperation (cm)
0
Antenna Coupling
-
Control Module
-
Type
Integrated in antenna assembly
Pulse Repetition Frequency (Hz)
625000
Time Window (ns)
See specific antenna
Power consumption
Not Applicable
Samples Per Trace
2000
Number Of Antennas Connections
1
Hardware Amplification
N
Hardware Filtering
N
-
Datalogger
-
Type
Handheld
Operating System
Android
Display Type
LED
Data format
Proprietary
Power consumption [W]
3
Minimum Operating Temperature (Celsius)
-20
Maximum Operating Temperature (Celsius)
50
Weight (kg)
1.1
Display Size (inches)
10.1
Storage Size (GB)
32
Storage Type
Both
Display Resolution
1920x1200
Wireless Connection
Y
-
Positioning
-
Type
Odometer, Wheel, GPS, Total Station