Table 3 System configuration registers
16
13.
SETTING REGISTERS
The registers are the electronic “containers” in which the
characteristics and information required for operation of the
automation are written. The registers are identified by a
number and consist of 8 bits each.
Each bit has a specific meaning and its setting (possible
values 0 and 1) modifies the behaviour of the automation.
Ever y time a programming cycle is perfor med, the
FAACTOTUM automatically sets the registers according to
the selections that have been made in the various menus.
However, by entering Advanced Programming, it is possible
to modify the settings of the registers directly.
Some registers are devoted to defining the effect of the pulse
according to the gate state. These are the so-called “Logic
registers”. By modifying these registers it is possible to create
customised operating logics and save them in the
FAACTOTUM memor y. The other “System configuration
registers” contain parameters which determine operation
of the automation regardless of the type of logic.
To modify a register, refer to its number to select it and
identify the bit to be set by following the tables given: the
meanings of the 0 and 1 settings are given for each bit.
A value expressed in seconds must be entered in the registers
containing times.
REGISTER NO.
VALUE
MEANING
DEFAULT
1
0XXXXXXX
50 Hz mains power supply
50 Hz
1XXXXXXX
60 Hz mains power supply
30
XXXXXXX0
FAILSAFE on input FSW-CL disabled
disabled
XXXXXXX1
FAILSAFE on input FSW-CL enabled
XXXXXX0X
FAILSAFE on input FSW-OP disabled
disabled
XXXXXX1X
FAILSAFE on input FSW-OP enabled
XXXXX0XX
FAILSAFE on input SAFE-CL disabled
disabled
XXXXX1XX
FAILSAFE on input SAFE-CL enabled
XXXX0XXX
FAILSAFE on input SAFE-OP disabled
disabled
XXXX1XXX
FAILSAFE on input SAFE-OP enabled
32
SECONDS
LEAF 1 opening time
25
33
SECONDS
LEAF 1 opening deceleration time
0
34
SECONDS
LEAF 1 closure time
25
35
SECONDS
LEAF 1 closure deceleration time
0
36
SECONDS
LEAF 2 opening time
25
37
SECONDS
LEAF 2 opening deceleration time
0
38
SECONDS
LEAF 2 closure time
25
39
SECONDS
LEAF 2 closure deceleration time
0
40
SECONDS
LEAF 2 opening delay
2
41
SECONDS
LEAF 1 closure delay
5
42
SECONDS
Pause time
25
44
SECONDS
Reduced pause time (delay on closure command while gate is on pause)
5
45
SECONDS
Opening 1 pre-flashing time
0
46
SECONDS
Closure 1 pre-flashing time
0
47
SECONDS
Opening 2 pre-flashing time (see safety logic registers)
0
48
SECONDS
Closure 2 pre-flashing time (see safety logic registers)
0
49
SECONDS
Timed opening time (upon activation of safety edge and/or Gatecoder anti-crushing safety)
2
50
SECONDS
Timed closure time (upon activation of safety edge and/or Gatecoder anti-crushing safety)
2
51
SECONDS
Final opening time at full speed (opening over-pushing stroke)
0
52
SECONDS
Final closure time at full speed (closure over-pushing stroke)
0
53
SECONDS
Obstacle recognition time (at full speed)
1
54
SECONDS
Stop recognition time (during deceleration)
4
55
SECONDS
Reversing stroke duration
1
56
SECONDS
Electric lock activation time (must always be less than leaf opening/closing delay)
1
