Can be used with 95 cm offset dish antenna.
Why Usals Engine:
USALS is a technology developed by the Italian firm STAB and distributed for free to all manufacturers of computers, digital satellite receiver cards and satellite receivers. It stands for"Universal Satellite Automatic Location System" and is designed for moving antennas to automatically find the positions of different satellites and make it easy to adjust the moving dish. Many companies have applied this software to their devices. Thanks to this, the satellite receiver can calculate the positions of all satellites in orbit in terms of the location of the installation and with an accuracy of more than 0.1 degrees. For this purpose, the adjustment of the dish according to all satellites occurs automatically without any adjustment information. The USALS program is not an alternative to the DiSEqC1.2 communication protocol. It is software that works on satellite receivers. The DiSEqC1.2 protocol array operates the engines in "rotate to angle position" mode. In fact, this is the only command USALSın uses. The Usals program is a slightly more advanced alternative to the DiSEqC1.2 protocol.
If you are in the northern hemisphere and you cannot find the right southern direction, it is difficult to search for satellites with a standard DiSEqC1.2 engine system. Finding the correct southern direction manually searching and finding all satellites one by one, selecting borders, v.s. . If using one of these bowls USALSda said, the engine is also given for the correct departure that dish after adjusting the angle, the receiver on the left on the screen as it does to you related to the Longitude and latitude of your location data from all visible satellites to calculate your location as you enter the eastern question whether the northern or southern hemisphere, and in return Make in +/- degrees to determine their position with an accuracy of 0,05. Because USALS also decides the direction of return itself. When you select a satellite close to the top and its signal is strong, you immediately find the broadcast by simply turning the dish left and right after the engine stops spinning. In this way, you capture not only this satellite, but also the entire satellite (GEO)belt along with all other satellites. It also makes it very easy to fine-tune.
Everything is automatically found and monitored from the screen on the devices used in USALS software. In DiSEqC1.2 mode, the location information of all satellites was stored on the memory chips in the engine unit, and therefore each satellite had to be manually searched and found and placed in memory. In USALS mode, when you put a satellite in place in the belt, all other satellites will be automatically found without any other memory operations, because all location information is located in the memory inside the satellite receiver.
In DiSEqC 1.2 mode, the user necessarily needed expert support to be able to adjust the device when the satellite's position changed or when a new satellite was activated. In USALSda, all it takes is to write the name and location of the new satellite to the list of satellites. when a frequency is selected from this satellite, the engine will precisely return to the new satellite. Incorrect memory or accidental errors, which are the main reason for not getting good results with moving antennas and are usually difficult to find and fix their source, are also now eliminated. Because with this system, there are no functions that the user enters manually.
Communication Protocol DiSEqC1. 2
Antenna maximum diameter 95 cm
Maximum antenna weight 10 kg
Support pole diameter 35 ÷ 68 mm
Lunghezza Perno mobile 145 mm
Moving pin diameter 42 mm
Rotation Angle ± 65°
Rotation speed 2.4° / s (18 v); 1.5° / s (13 V)
13 Working Voltage / 18 Watt
Standby consumption 40 mA
Working suction 180 mA
Maximum consumption 350 mA
Operating Temperature -40°C ÷ + 80°C
Maximum Relative Humidity 100 %%
Adjustable positions (DiSEqC1.2) 49 satellites
Preset positions (DiSEqC1.2) 28 satellites
Unlimited adjustable positions (USALS)
Type F connectors
Connection coaxial cable
Mechanical Limits ± 70°
Adjustable Electronic Limits 5 ° ÷ 65°
0.1° fine rotation of pulses
Tilt Of Rotor To Pole 10 ° ÷ 70°
Weight 2600g