375
CAPRI
CAPRI
CONTROL UNITS
CONTROL UNITS
D811282_03
reposition the jumper J1 on pin 1 and 2 of the connector JP3 otherwise the
parameters stored in the board will not be protected from accidental
overwriting.
13) STATISTICS
By connecting a programmer compatible with the
EElink
protocol it is
possible to read some statistical parameters of the system such as:
Board version:
indicates the name and version of the board.
List description:
indicates the description assigned to the system.
This description can be inserted or modified by means of the
UNIPRO
terminal.
Number of manoeuvres:
indicates the number of manoeuvres that the
board has performed since its installation.
Number of manoeuvres since maintenance:
indicates the number of
manoeuvres performed since last maintenance operation, including any
configuration operation of the board and self-diagnosis.
Maintenance date:
indicates the date of the last maintenance
operation performed.
Maintenance updating:
allows the number of manoeuvres to be updated
since last maintenance operation.
Zone executors (advanced statistics) “Address16”:
indicates the number
of the actuators belonging to the same master zone (it is updated by the
master boards only).
Total executors “Configuration 17”:
indicates the total quantity of the
actuators connected (it is updated by the master boards only).
14) SELF-DIAGNOSIS
The board features a luminous diode DL1 which indicates the current state
according to the table given below:
On Leds
Diagnosis
DL1 Off or On for more than 10s
Microprocessor fault.
DL1 On for less than 10s
Key in stand-by for storage of a
radio-control or erasure of storage.
DL1 1Hz flashing
Active board in stand-by or command
execution.
DL1 2Hz flashing
Activation of code storage
DL1 5Hz flashing
Activation of total storage erasure.
DL1 10Hz flashing
Transmitter reception in course.
Besides the signals given by the LED, the
CAPRI
board provides the self-
diagnosis functions offered by the
EElink
protocol. When performing the
self-diagnosis by means of the
UNIPRO
terminal it is possible to obtain a
diagnostic message identifying the active inputs, that is the ones in a state
different from the stand-by position.
The stand-by position is defined as a condition in which no control signals
are active and no safety devices have stepped in.
15) MAINTENANCE AND DEMOLITION
The maintenance of the system should only be carried out by qualified
personnel regularly.
The materials making up the set and its packing must
be disposed of according to the regulations in force.
Batteries must be properly disposed of.
16) SUMMARY OF DIP-SWITCH FUNCTIONS
The control unit comprises 8 dip-switches, which allow to select the
operation modes according to the table given below:
n
°
DIP Description
1,2
Anemometer
See paragraph 6
3
Hold-to-run control
ON:
The opening and closing
controls are hold-to-run type and
only local. The operation of the serial
unit and the radio functions receiver
are not included.
OFF:
The opening and closing
controls are semi-automatic and all
configurated are operative.
4
Open/closed loop
ON:
The connections marked with a
(for master boards
broken line in fig.5 have been made,
only, leave Off for
the advanced statistics are being
slave boards)
managed.
OFF:
The connections marked with
a broken line in fig.5 have not been
made, the advanced statistics are
not being managed.
5
Master / Slave
ON:
The board sends global and
zone commands to the telephone
pair
OFF:
The board performs the global
and zone commands received by
the telephone pair.
6,7,8 Zone address
0=OFF, 1=ON
0,0,0
All system
0,0,1
Zone 1
0,1,0
Zone 2
0,1,1
Zone 3
1,0,0
Zone 4
1,0,1
Zone 5
1,1,0
Zone 6
1,1,1
Zone 7
The descriptions and illustrations contained in the present manual
are not binding. The Company reserves the right to make any alterations
deemed appropriate for the technical, manufacturing and commercial
improvement of the product, while leaving the essential product
features unchanged, at any time and without undertaking to update
the present publication.
