Bluebus; Stop Input; Photocells; Edsp Digital Selector And Proximity Reader For Etpb Transponder Cards - Nice M3BAR Instructions And Warnings For Installation And Use

9.2.1 BlueBUS

BlueBUS is a technique that allows for connecting compatible
devices with only two wires which carry the electrical power and
the communication signals. All devices are connected in paral-
lel on the same 2 BlueBUS wires and without having to observe
the polarities; each device is recognised because it is assigned
a univocal address during the installation phase.
The following devices can be connected to the BlueBUS: photo-
cells, safety devices, control buttons, signalling lights, etc. The
control unit recognises all the connected devices individually
through an appropriate learning phase, and can detect all pos-
sible anomalies with absolute precision.
For this reason, whenever a device is connected to or removed
from BlueBUS, the learning phase must be carried out on the
control unit, as described in the "Learning of other devices"
paragraph.

9.2.2 STOP input

STOP is the input that causes immediate stoppage of the ma-
noeuvre followed by its brief reversal. Devices with output fea-
turing normally open "NO" and normally closed "NC" contacts,
as well as devices with 8.2 kΩ fixed resistor output, such as
sensitive edges, can be connected to this input.
As with the BlueBUS, the control unit recognises the type of
device connected to the STOP input during the learning phase
(see the "Learning of other devices" paragraph); subsequent-
ly the control unit gives a STOP command when it detects a
variation with respect to the recognised status.
Multiple devices, even of different types, can be connected to
the STOP input if suitable arrangements are made:
– Any number of NO devices can be connected to each other
in parallel.
– Any number of NC devices can be connected to each other
in series.
– Two devices with 8.2 kΩ fixed resistor output can be connect-
ed in parallel; if there are more than 2 devices then they must
all be connected in cascade, with a single 8.2 kΩ terminating
resistor.
– It is possible to combine two NO and NC contacts by placing
them in parallel, while also mounting a 8.2 kΩ resistor in series
with the NC contact (this also allows for combining 3 devices:
NA, NC and 8.2 kΩ).
a
If the STOP input is used to connect devices with
safety functions, only those devices with 8.2 kΩ
fixed resistor guarantee Category 3 safety against
faults in accordance with the EN 13849-1 standard.

9.2.3 Photocells

To allow the control unit to recognise the devices connected
through the "BlueBUS" system, these devices must be ad-
dressed.
This operation can be carried out by correctly positioning the
electrical jumper present in each device (also refer to the in-
struction manual of each device). Shown below is an address-
ing diagram for photocells, based on their type.
l
It is possible to connect two photocells to the "Blue-
bus" input with the "FA1 open" and "FA2 open"
command function (jumper A on the back of the TX
and RX boards must be cut). When these photocells
intervene, the control unit commands an opening
manoeuvre. For further information, refer to the in-
struction manual for the photocells.
34 – ENGLISH
46
1
F O T O
F A 2
F A 1
PHOTOCELL ADDRESSES
Photocell
FOTO (PHOTO)
Photocell h = 50 activated during the
closing phase (stops and reverses the
gate's movement)
FOTO II (PHOTO II)
Photocell h = 100 activated during the
closing phase (stops and reverses the
gate's movement)
FOTO 1 (PHOTO 1)
External photocell h = 50 activated during
the closing phase (stops and reverses the
gate's movement)
FOTO 1 II (PHOTO 1 II)
External photocell h = 100 activated
during the closing phase (stops and
reverses the gate's movement)
FA1
Photocell for opening command
(cut jumper A on the back of the TX and
RX boards)
FA2
Photocell for opening command
(cut jumper A on the back of the TX and
RX boards)
m
At the end of the installation procedure, or after
photocells or other devices have been removed,
it is necessary to complete the learning procedure
(see the "Device learning" paragraph).
9.2.4 EDSP digital selector and proximity reader for ETPB
transponder cards
The "Bluebus" system allows for connecting up to four EDSP
digital selectors or four ETPB transponder card readers.
With EDSP it is possible to command the automation by entering
on the keyboard one of the memorised numerical combinations.
With ETPB it is possible to command the automation by simply
moving the memorised transponder card close to the sensor.
These devices are equipped with a unique code that it learned
and memorised by the control unit during the learning phase of
all the connected devices (see paragraph "Device learning").
This prevents any fraudulent attempt to replace a device and
any unauthorised person from commanding the automation. For
further information, consult the EDSP and ETPB instruction man-
ual.
1 I I
F O T O
F A 2
F A 1
Table 15
Position of the
jumpers