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Interface for Yaesu G-5400 and G-5600 Antenna-rotators

 

  
  

I started to deal with Earth-Moon-Earth communications in 
the middle of 2005. I had to realize, that my two-bay 
DJ9BV (2.1 wavelength boom length each) antenna array is 
not enough for this mode of communications. It seemed to 
be an obvious solution to improve the boom length of the 
existing antennas which are otherwise consisting of mod-
ules. Unfortunately, after modifying the antennas it became 
evident, the original display solution using Deprez meters 
can not meet the new requirements. To solve this problem 
this interface was born, which beside the exact display 
makes it possible to rotate the antenna by computer control, 
so it is a great help in providing satellite communications as 
well. Those who use shorter antenna for satellite tracking 
only, can build the interface without digital display. The 
interface was made in two versions. One of them makes use 
of a parallel port the other uses a serial port for communica-
tions with the rotator. Both solutions have advantages and 
disadvantages. The version making use of a parallel port 
has a great disadvantage because the port can handle eight 
bits only; hence the best possible definition is 1.4 degree. 
On the other hand, while the serial ports are generally in 

use for different communication purposes, parallel ports are not utilized i.e. later printer models are made for 
USB ports. The base of both versions is a PIC16F870 microprocessor which includes a ten-bit A/D converter 
and a serial port driver too. 

  

Interface for the parallel port 

  

Operation 

  
This interface uses the protocol of the FODTRACK pro-
gram. This driver can be freely downloaded from the Inter-
net. Latest software like WXTRACK is able to handle an 
interface like this, by default. The co-ordinates of azimuth 
and elevation are calculated in eight bit accuracy. AUTO-
FEED output decides which data is active at a given time. 
The high level output of STROBE shows the validity of 
data. The processor continuously checks STROBE signal 
and in its active state it decides depending on the level of 
AUTOFEED signal, whether data is to be applied as azi-
muth or as elevation. According this, it puts data into a 
variable. In case the content of variables does not corre-
spond with the momentary position of the antenna then it 
gives an instruction to turn the antenna until it reaches the 
required position. In this version the maximum elevation of 
the antenna can be 90 degrees. The FLIP function of satel-
lite-tracking software is disabled. To turn the antenna into a 
position exactly without climbing the tower or mast, the 
interface is equipped with two variable resistors to make it 
possible to correct the difference between the displayed 
values and the real position of the antenna. These adjust-
ments can be done by connecting STROBE and AUTO-
FEED inputs to low logic level before the interface is 

Содержание G-5400

Страница 1: ...ot utilized i e later printer models are made for USB ports The base of both versions is a PIC16F870 microprocessor which includes a ten bit A D converter and a serial port driver too Interface for the parallel port Operation This interface uses the protocol of the FODTRACK pro gram This driver can be freely downloaded from the Inter net Latest software like WXTRACK is able to handle an interface ...

Страница 2: ...on and start with final adjustments Interface for serial ports Operation In case we are intended to use a serial port instead of a parallel port we have to adjust voltage levels prop erly For this task a well known circuit MAX232 can be used Since the change to a serial port we can save some connections on the microprocessor In this case we can decide ourselves whether to utilize FLIP func tion PO...

Страница 3: ...ot work properly In this case we have to use tantalum capacitors or depending on the production technology smaller capacitor values can be chosen which may be as low as 100 nF for a CMOS product In case of appropriate operation on pin 2 of MAX232 9 4 V while on pin 6 9 4 V must be measured If the voltages are equal to these values adjust the variable resistors into middle position Display Operatio...

Страница 4: ...ents because it would not be possible to repair foil under integrated circuits Shift registers are placed onto the foil side while LED displays are to be inserted onto the component side Final adjustments Final adjustments are similar in case of both versions First step is to adjust the two variable resistors named OUT VOLTAGE ADJUST on the back side of the rotator to produce maximum voltage on th...

Страница 5: ... direction as in default position Now adjust 180 degrees azimuth by P2 again Then we will have finished horizontal adjustments In the vertical plane the procedure is the same but the display must show 0 in default position and 180 in the end position P1 We will than have basic adjustments finished If the antenna does not point to the direction shown on the display we can correct shifts by variable...

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