Detail
The AAG1 is a radio frequency field strength tester with the ability to detect very weak signals (down to ambient levels of radiation that exist around us. The ambient radiation level is usually due to local FM and TV broadcasts.) The AAG1 detects signals spanning the microwave, UHF, VHF and high frequency spectrum, covering a 1 MHz to 8+ GHz bandwidth. This includes 5.8, 5.2, 4.5, 3.5, 2.4 and 1.2 GHz covert cameras and bugs, 2.4, 1.8, and 0.9 GHz cell phones and wireless phones; 300-400 MHz walkie-talkies, car keys and garage door openers; 70-150 MHz FM transmission; 49 MHz bugs and even 27 MHz citizen-band transmissions. Detection at 2.4 GHz is so sensitive, it will detect an operating “sealed” microwave oven at 12 meters away and pick-up 2.4 GHz transmitting bugs at 8 meters distance.
Kenmerk
- Fixed internal antennas requiring no adjusting
- Detects bugs and hidden camera
- Identifies hot and cold spots
- Discovers hacker-site locations
- Directional signals measurement
- For wireless - security installations
- Locates cable leaks and connector problems
- For use at 5,8, 5,2, 3,5, 2,4, 1,2, and 0.9 Ghz
- Measures weak signal levels 5,8 and 2,4 Ghz signals measured at 30+ feet
- A 1 MHz to 8 GHz bandwidth
- A switched external Coaxial SMA antenna connector for special antennas or frequency-defining filters
- A directional Log Periodic antenna for 3X enhanced high frequency detection
- Differentiation between Digital and Analog signals
Info
The unique feature of the AAG1 is the ability to use special antennas and band pass filters through a SMA coaxial input connector. Depending upon the frequency and directionality of the externally connected antenna, the AAG1 becomes a highly directional frequency-specific instrument which is ideal for counter-surveillance detection and for aligning transmitter/receiver antennas over far distances. The 1.8 – 6.4 GHz Log-Periodic Antenna available with the AAG1 boosts the sensitivity by 3 times. It also narrows the directional detection characteristics of the AAG1 to a longer, thinner scan pattern directed along the long axis of the antenna. With prior instrumentation it was necessary to “sweep” a room by moving the detection device from 30 to 70 cm away from the walls, ceiling and floor in a raster scanning mode, similar to the travel of an electron-beam in a television CRT. That is time consuming and back-straining work! Using the AAG1 with antenna, the covert device can be initially detected from 8+ meters away. That is outside the room or at the door. Then, from the door itself, the walls, ceiling and floor can be scanned by pointing the directional antenna and hand-sweeping the room. Now we can “SWEEP THE ROOM FROM THE DOOR”, detecting the direction of the covert transmitter from a distance. Once the direction of the covert device is detected, we move closer to it while decreasing the gain using the sensitivity controller, keeping the signal measurement within the limits of the meter scale. When we are so close that the meter reading is constantly at the highest level, we reset the AAG1 to a wider-dynamic-range by switching to the MID or LOG detection mode. In the LOG mode it is possible to pinpoint the bug up to a few cm away without overwhelming the instrument by the high signal level at such close proximity. If the signal is too strong, use the SMA connector to screw on an external attenuator in series between the antenna and the AAG1. Use as many attenuators as necessary to control the signal level for accurate detection. Now we can identify that tiny hole in the wall as the pinpoint opening to a covert camera or microphone! The frequency specificity and directionality of the AAG1 is controlled by the external antenna connected to its SMA input. The 1.8-6.4 GHz LOG Periodic Antenna works well in this manner. Using a 50 cm long 2.4 GHz Yagi antenna improves the sensitivity about 7-8 fold at 2.4 GHz and narrows the detection width to about 5 degrees. The AAG1 can be directly connected to such antennas or connected using a flexible cable. Avoid measuring transmitted signals which are directly connected to the SMA input. The signal levels of such devices can be large enough to damage the sensitive receiver input of the AAG1. Directional antennas usually have increased sensitivity along their longer axis. Pointing the front of the antenna towards the transmitting device gives the strongest pickup – but there is also an enhanced pickup 180 degrees away from that direction to the rear of the antenna. The differences between the front and rear sensitivities are usually specified by the front to back ratio in dB. More directional antennas, (usually longer in length), tend to have higher front to back ratios. When specifying the direction of the signal source, be aware of the diminished signal enhancement directed from the rear of the antenna. The AAG1 is an extremely sensitive instrument which detects signals that are coupled to it in any manner. In this way the AAG1 is more like a wideband receiver with an antenna input. The proximity to a metal cabinet, desk, or automobile can affect the reading. Also, the proximity of your hand or body may increase the reading, acting as the antenna and coupling a stronger signal to the input. It is even possible to reflect signals directed toward your body and redirect them to the AAG1. Be aware that although an external antenna is optimized to enhance reception within a particular band of frequencies, it is also capable of detecting stronger signals from out-of-band frequencies. When initially using the AAG1, it is often perplexing why detected signals appear so fickle. By moving closer to the window, the signal strength increases (the walls of the room tend to shield the outside signals). The walls of the room define a resonant cavity – the room itself. Radio waves bounce off the walls, ceiling and floor to give enhanced “hot” spots (where the signals converge) or “cold” spots which are devoid of signals. Different frequencies have their own hot and cold spots. When moving the AAG1 just a few cm the detected signals may change dramatically due to these intensified and rarefied signal regions. Polarization effects may also be apparent with the AAG1, especially when an external antenna is used. Polarization effects are noted when rotating the antenna from a horizontal to a vertical plane. The change in signal strength gives an indication of the polarization of the transmitting source. It is even possible to note changes in signal intensity in outdoor wide-open spaces. Buildings, trees, people, mountains, etc. all reflect signals that produce variations in signal strength. It is important to consider these other factors when detecting and locating weak covert signals. Experience with use will overcome many of the hurdles. The AAG1 speeds up and simplifies the installation of wireless devices – from security cameras to wireless computer networks. With wireless installations the AAG1 verifies the signal strength of the transmitting device. It identifies the hot and cold spots in the region. Hot and cold spots are usually undesirable as transmitters or receiver sites. It measures the baseline level of RF at these sites and detects any interfering signals (RFI) that may occur. Besides detecting the RFI, the AAG1 also can identify its source. The AAG1 with directional antenna optimizes the radio link between a wireless transmitter and receiver. It is also helpful in selecting a hub site for solid communication with its multiple secondary WLAN sites. Corporate security officers use the Zap Checker to identify potential hacker-sites outside their facilities and to help shield and position wireless transmitters to eliminate those hacker-sites. The AAG1 is instrumental in identifying radio frequency interference sources from coronas and arcing insulators on utility poles. By using a directional antenna on the AAG1 an offending insulator can be located from the ground. This enables utility personnel to quickly and easily identify the problem from a safe distance (Even bolts of lightning are detected by this instrument).
Specificatie
Sensitivity: | 45 uV (~-75 dBm) at 2.4 GHz |
Bandwidth: | 1 MHz to 8 GHz |
Antenna inputs: | Manual/electronic switching |
Internal fixed antenna: | 2 |
External antenna input: | 50 ohm impedance, DC isolated |
Switch: | For internal antennas |
Adjustable sensitivity control: | 20 dB variable attenuator |
3 Detection modes: | Linear – displaying 12 dB of the weakest signals.- For detecting weak signals |
| LOG – displaying 60 dB of signal strengths.- For pinpointing signal sources |
| MID – intermediate sensitivity and dynamic range.- For moderate signal readings |
2 Display Modes: | Analog meter and colored LED’s (which are readable from a distance and at nighttime |
Modulated mechanical vibration: | ON/OFF |
Log Periodic Antenna: | 1.8 – 6.4 GHz |
Power supply: | 2 AA alkaline batteries |
Dimensions: | 5.6 cm wide x 13 cm high x 3.1 cm thick |
Weight: | Less than 150 g. with batteries installed |
Goedkeuring: | CE, RoHS en WEEE |
Content
- AAG1 Veld sterkte meter 1 MHz - 8 GHz externe antenne
- 1.8-6.4 GHz Log Periodic antenna
- GB10 Gebruiksaanwijzing
Prijs
860,31 € (711,00 € exclusief BTW) per stuk
Prijzen zijn per stuk, exclusief 21% BTW en gelden voor levering af magazijn Voorthuizen. Bij levering in Nederland of in België worden verzendkosten altijd in rekening gebracht tot maximaal EUR 25,00. Ditzelfde geldt voor expreskosten en/of rembourskosten. Bij de producten trainingen en cursussen is na het bevestigen van de cursusdatum, bij het niet verschijnen van de deelnemer(s), de verplichting ontstaan tot volledige betaling. Het volgen op een latere datum ingeval van niet verschijnen is in overleg mogelijk, maar wordt uitsluitend gezien als service. Hieruit kan geen enkel recht uit worden onttrokken.