Saluki ADS2100C User manual
ADS2100C Base Station Active Guarded Device
User Manual
Saluki Technology Inc.
2
www.salukitec.com
Content
1. Overview...................................................................................................................................................... 3
1.1 Brief Introduction......................................................................................................................................3
1.2 Key Features........................................................................................................................................... 3
1.3 Specifications.......................................................................................................................................... 3
1.4 Standard Package....................................................................................................................................3
2. Installation Instructions................................................................................................................................4
2.1 Interface Introduction................................................................................................................................4
2.2 Installation Instruction............................................................................................................................... 4
2.3 Commissioning and Testing Scheme..........................................................................................................5
2.4 Exception Solution....................................................................................................................................6
3. Equipment Deployment and Implementation Solution.................................................................................. 7
3.1 Deployment Point Selection...................................................................................................................... 7
3.2 Infrastructure Structure Design.................................................................................................................. 7
3.3 Equipment Support Bar Design..................................................................................................................8
3
www.salukitec.com
1. Overview
1.1 Brief Introduction
Saluki ADS2100C Base Station Active Guarded Device blocks the satellite navigation components of the navigation-type black
flying drone by transmitting milliwatt-level defense control signals, and forms a spherical defense space with a radius of more
than 500 meters, which can effectively realize the functions that the UAV in the fixed defense area cannot take off, actively drive
away, and the drones outside the area cannot fly into the defense area.
The deployment and use of ADS2100C device does not require the configuration of radar detection equipment. It has the
all-weather, all-day, all-round drone active defense capability, and drone cluster defense drive-off capability.
1.2 Key Features
Capable of comprehensive defense against multi-target drones.
Milliwatt level signal power which has less impact on the surroundings.
Do not rely on detection equipment, can be used independently, low cost solution.
Apply to identify a variety of drones using satellite navigation technology, wide coverage.
Easy to use, capable of 24/7 unattended defense.
Controllable protection area.
Can be jointly deployed and controlled with multiple defensive base stations.
1.3 Specifications
Working frequency
GPS L1, GLONASS L1
Effective distance
≤ 1000m (without occlusion)
Signal transmitting power
1mW
Power consumption
50W
Start-up time
< 5min
Size
Φ536mm, H:300mm
Weight
10kg
Power
110V - 220V, 50Hz - 60Hz
Monitoring interface
Ethernet, RJ45
Working temperature
-20℃to +50℃
Relative humidity
95%
1.4 Standard Package
No.
Item
Schematic Diagram
Qty.
Note
4
www.salukitec.com
1
Main machine
1
Generate defense signals
2
Power cord
1
Powering the device
3
Screw
4
For product installation and fixing
2. Installation Instructions
2.1 Interface Introduction
The external interfaces of this product are all on the bottom of the host, as shown in the Figure 2.1.
Figure 2.1 Interfaces
1RJ45, debugging interface
2Power socket
3USB, debugging interface
2.2 Installation Instruction
1) Set up the device
Install the positioning screws. As shown in the Figure 2.2, install 4 positioning screws on the bottom of the host to fix the host.
5
www.salukitec.com
Figure 2.2 Install the screws
Install the power cord, as shown in the Figure 2.3, plug the power cord into the power socket on the bottom of the device.
Figure 2.3 Install the power cord
2) Power on
Plug the power cord into a 220V AC power supply and wait for 6 to 10 minutes before the device automatically goes into
operation.
2.3 Commissioning and Testing Scheme
The ADS2100C device has the characteristics of transmitting GPS and GLONASS satellite navigation deception jamming
signals. After confirming that the equipment is working properly and broadcasting the signal, you can use the mobile phone map
(or other navigation signal detection software) to check whether the navigation signals are affected by the deception jamming
signals and the positioning is biased Shift situation.
The following figures are the screenshot of the U-CENTER 8.29 receiver software. The upper left corner of the software
screenshot represents the satellite asterisk diagram received at the current position, and the middle represents the movement
track diagram of the current positioning point.
When the signal is turned off, Ublox-M8T is positioned to the sky normally.
6
www.salukitec.com
Figure 2.4 Software screenshot of signal turn off
When the signal is on, Ublox-M8T deception positioning diagram is as below.
Figure 2.5 Ublox-M8T deception positioning diagram
After the signal is turned on, the number of GPS / GLO positioning stars is significantly increased. After the signal is turned on,
the GPS / GLO is affected by the deceptive signal, and the positioning point follows the device to deceive the signal to move.
2.4 Exception Solution
1) After the system is powered on, it cannot enter the working state.
Check whether the power supply of the device is normal and whether the power cord is tightly connected.
Check whether the surrounding environment meets the requirements for product use.
2) After the system is powered on, the signal output cannot be detected.
Check whether the surrounding environment meets the requirements for product use.
Check if the system startup is complete. It usually takes 6 to 10 minutes for the system to start, and no signal will be output
7
www.salukitec.com
during this period.
If the problem cannot be solved after taking the above measures, please contact us for after-sales service.
3. Equipment Deployment and Implementation Solution
3.1 Deployment Point Selection
Try to set it up at the highest point, choose a wide field of vision, and deploy it at a location without high buildings nearby;
Keep away from high-power radio transmitting sources (such as TV stations, radio stations, microwave stations, etc.), and
the distance should not be less than 200m;
Keep away from high-voltage power lines and microwave radio signal transmission channels, and the distance should be
greater than 50m as far as possible;
The ground foundation is stable, which facilitates long-term installation of facilities;
The point selection is based on the basic requirements of the point selection, and is selected on the main bearing pillar of
the building. For other buildings that cannot be determined or the main bearing pillar can be selected on the main bearing
beam;
The device has the characteristics of transmitting GPS and GLONASS satellite navigation deceptive interference signals,
and has the ability to interfere with normal navigation users and important national infrastructure navigation equipment
(GPS, GLONASS).
3.2 Infrastructure Structure Design
The infrastructure uses a concrete base structure.
Concrete pier is constructed by on-site casting method of reinforced concrete. The amount of cement, sand, stones and
other additives in the concrete casting process and the requirements for concrete construction are implemented in
accordance with the requirements.
The reinforced skeleton in the concrete pier uses threaded steel bars with a diameter of ≧10mm. When using it, it must
be bent inwardly at a distance of 10cm from both ends (curved into a curved shape at the lower end of the foot tendon at
30cm). Wrapping tendons use ordinary steel bars with a diameter ≧6mm.
Pour the concrete to half the depth of the foundation when the foundation is constructed. After fully tamping, put the
bundled reinforced skeleton of the foundation, and place the bundled columnar reinforced skeleton vertically in the center
of the foundation. The frameworks are bundled together, and the concrete is poured to the top surface of the foundation,
which is fully tamped and the concrete top surface is level.
After the foundation concrete is hardened and solidified (about 12h at room temperature), observe the pier stone model
slabs vertically in the center of the foundation, pour concrete and fully tamp it. 0.2m below the ground, east and south of
the foundation Place a stainless steel lower level sign on each of the four sides of the west, north and west. When the
concrete is poured 0.10m below the top surface of the column model board, a compulsory centering sign will be placed.
The 12’ circular level bubble indicates the adjustment sign. After the sign is completely level, concrete is poured to the top
surface of the pillar model slab and fully tamped. After the concrete has set initially (about 1h at room temperature), smooth
the top surface of the concrete. At this time, adjust the sign again with circular level bubbles until the sign surface is
completely level. The concrete surface of the central part of the adjusting marker stone shall be as flat as the surface of the
fixing nut used as the protective cover of the mark. The work of adjusting the sign to make the sign surface completely
8
www.salukitec.com
level should be until the sign is completely solidified (about 12h at room temperature).
When the concrete is poured to 0.2 meters below the ground, the outer wall of the observation pier should be embedded
with a rigid pipe (steel or plastic) with a diameter of 25mm or more suitable for the cable entry and exit for the installation of
cable protection lines.
3.3 Equipment Support Bar Design
Infrastructure and concrete pier are fixed by Q235 carbon steel flange. The size of the flange is φ450×15mm. The flange is
evenly distributed with 8 M20 threaded holes.
The support rod is made of Q235 steel structure, the exterior is painted white, the outside diameter of the rod is φ90mm,
and the thickness is 4mm.
The waterproof box is mainly used to place switches, power adapters and other devices; the waterproof box is fixed to the
support bar mounting plate with 4 M8 screws. The size of the waterproof box should be greater than 300mm×200mm
×140mm.
The flange of the supporting rod is fixed to the flange of the equipment, and the detection equipment and interference
equipment are fixed by four M6 screws.
- End of Document -
Table of contents
Popular Accessories manuals by other brands
Dometic
Dometic LA-03 installation instructions
Paramount Fitness
Paramount Fitness Ultra UV 004-422-2025-00 Installation & operation manual
Madison
Madison U3M-148 instruction manual
Rapsodo
Rapsodo HITTING 2.0 user manual
IFM
IFM PN01 A Series operating instructions
fafnir
fafnir torrix Technical documentation
Apogee Instruments
Apogee Instruments SU-100 owner's manual
Dytran Instruments
Dytran Instruments 3312A2T operating guide
SAGEMCOM
SAGEMCOM Fast Pack Multi 501 Quick installation guide
Simon
Simon 10002214-039 manual
Integrated Visual Data Technology Inc.
Integrated Visual Data Technology Inc. ED3-UT-IM SkidWeigh Plus Series Installation & Calibration Manual
Summit Treestands
Summit Treestands Climbing System instructions