If you have just 1 motor then:
#6 <- Black (or Brown) & one capacitor wire
#7 <- Brown (or Black) & other capacitor wire
#8 <- Grey
You have to test if Black should be connected to #6 or #7 (leaving Brown to be connected to the other contact).
If you have 2 motors then the primary motor (the one connected to 6, 7 & 8 as per above) should be the one that attaches to the gate leaf that can open without being obstructed by the other leaf (this would also be the leaf that should open first and close last).
The secondary motor (the motor on the other leaf) is connected as follows:
#9 <- Brown (or Black) & one capacitor wire (2nd capacitor)
#10 <- Black (or Brown) & other capacitor wire (2nd capacitor)
#11 <- Grey
Now for the check:
Move both leaves midway (half-open), engage the operators (so that the leaves can be moved by the motors) and connect power to the control board. Now, proceed, more or less, as described in 'OPENNING TIME PROGRAMMING':
1) To enter in programming press P2 for 2+ seconds - the LED L3 should turn on
2) Press PG1 and verify that the primary leaf opens (if it closes, cut power and switch black and brown wires in contacts #6 and #7, then start over)
3) Press PG2 and verify that the secondary leaf opens (if it closes, cut power and switch black and brown wires in contacts #9 and #10)
4) Stop both leaves by cutting power, before reaching their end positions.
This is not a full learning cycle - just a test to see if we have got the black and brown wires in the right contacts (using a trial-and-error procedure).
Now you have to perform the learning cycle (starting from the closed posistion and going all the way to the fully open positioon for each leaf) as described in the manual.
Tips:
1) be sure to follow the installation instructions in regards with distances of the fixed pivot point of the operator from the axis of the hinges
2) the gate should have mechanical endstops for the fully open and fully closed positions of each leaf (limiting the opening angle to the maximum one prescribed for the installation geometry you chose)
#6 <- Black (or Brown) & one capacitor wire
#7 <- Brown (or Black) & other capacitor wire
#8 <- Grey
You have to test if Black should be connected to #6 or #7 (leaving Brown to be connected to the other contact).
If you have 2 motors then the primary motor (the one connected to 6, 7 & 8 as per above) should be the one that attaches to the gate leaf that can open without being obstructed by the other leaf (this would also be the leaf that should open first and close last).
The secondary motor (the motor on the other leaf) is connected as follows:
#9 <- Brown (or Black) & one capacitor wire (2nd capacitor)
#10 <- Black (or Brown) & other capacitor wire (2nd capacitor)
#11 <- Grey
Now for the check:
Move both leaves midway (half-open), engage the operators (so that the leaves can be moved by the motors) and connect power to the control board. Now, proceed, more or less, as described in 'OPENNING TIME PROGRAMMING':
1) To enter in programming press P2 for 2+ seconds - the LED L3 should turn on
2) Press PG1 and verify that the primary leaf opens (if it closes, cut power and switch black and brown wires in contacts #6 and #7, then start over)
3) Press PG2 and verify that the secondary leaf opens (if it closes, cut power and switch black and brown wires in contacts #9 and #10)
4) Stop both leaves by cutting power, before reaching their end positions.
This is not a full learning cycle - just a test to see if we have got the black and brown wires in the right contacts (using a trial-and-error procedure).
Now you have to perform the learning cycle (starting from the closed posistion and going all the way to the fully open positioon for each leaf) as described in the manual.
Tips:
1) be sure to follow the installation instructions in regards with distances of the fixed pivot point of the operator from the axis of the hinges
2) the gate should have mechanical endstops for the fully open and fully closed positions of each leaf (limiting the opening angle to the maximum one prescribed for the installation geometry you chose)
