Nice NDA001 Programming Manual

NDA001

Programmable functions

STF NDA001 – Rev00
Firmware: DA02

using the Oview programmer

COMMON FUNCTIONS

Name

This parameter enables the user to assign the automation with a name other than the original, to facilitate identication (e.g. northern gate).
A name comprising maximum 24 characters, including spaces, is admitted.

Series

This parameter can be set with a value from 0 to 63; the factory setting is “0”.
The series is a number that has to be assigned to each gearmotor, receiver or other device potentially connectable on a BusT4 network, to dene its “clas-

sication area”. Subsequently, when using automations in a complex system, all devices with the same series number can be controlled simultaneously.

Address

This parameter can be set with a value from 1 to 128; the factory setting is “2” for Receivers and 3 for Control Units.

The address is a number that has to be assigned to each gearmotor, receiver or other device potentially connectable on a BusT4 network, to distinguish it

from other devices in a series. Therefore all devices within a series must have a different address from one another.

Group

This parameter can be set with a value from 1 to 14, or “None”; the factory setting is “None”.
The function enables the user to assign a number to a device to be controlled (for example a gearmotor or other device potentially connectable to a BusT4

network), which enables this device to belong to a specic “command group”.
Several devices, even if they belong to different series, can form part of the same group. Up to 14 groups of devices can be created and, in particular, the

same device may be inserted in 4 different groups.

In a device network, use of this function enables:

- simultaneous control of different devices inserted in a group, even if some of these belong to different series;

- use of a single receiver, installed in one of the devices belonging to the group, to control all the devices belonging to the group.

Firmware version (not modiable)

This function enables the display of the version of the rmware present in a device.

Hardware version (not modiable)

This function enables the display of the version of the hardware present in a device.

Serial number (not modiable)

This function enables the display of the serial number identifying a specic device. This number is different for each device, even if of the same model.

Password management:

This function is useful to restrict access by unauthorised personnel to all or some of the programming functions of a device. If a device is password protected,

the user must perform the “log in” procedure to proceed with a programming session, followed by the “log out” procedure on completion of the programming

procedure. Note – the “log out” procedure enables the user to prevent access by unauthorised personnel, by re-activating the existing password. Caution!
– In programming the password on multiple devices (for example, on the Oview, control unit, receiver, etc.), it is advisable to use the same password for all
devices, including the Oview. This will avoid the need to repeat the login procedure each time the device is changed during use of Oview and the connected
Software.

Two types of password can be programmed on the devices (including Oview).

- the user password, containing 6 alphanumeric characters maximum. Caution! – Do not use uppercase letters.

- the installer password, containing 6 alphanumeric characters maximum. Caution! – Do not use uppercase letters.

CONTROL UNIT FUNCTIONS

Installation

Bluebus search (0x0a)

This function enables start-up of the procedure for learning the devices connected to the Bluebus input and the HALT input of the control unit of an automa-

tion. Important – To activate the device search, press “Start”.

Position programming

• reverse rotation (0xa3)

This parameter type is ON/OFF; the factory setting is “OFF” (standard motor rotation). This function
reverses the rotation direction of the encoder to align it with the direction of the motor; the factory setting is “OFF” (standard rotation direction of the encoder).

Important – When you modify this parameter, you must then run the open/close position learning procedure.

• open (0x18)

This function is expressed in encoder pulses. During an opening manoeuvre, this enables programming of the precise point (position) of the door opening
travel limit. To do so, use the hold-to-run ”open” and ”close” buttons; this enables you to determine the desired position and save it with the “OK” button. If
the motor has a mechanical limit switch, the position is not displayed.

• open deceleration (inverters only) (0x24)

This function is expressed in encoder pulses. During the opening manoeuvre this enables programming of the precise point (position) at which the door should
start decelerating before reaching the limit switch. To do so, use the hold-to-run ”open” and ”close” buttons; this enables you to determine the desired posi­tion and save it with the “OK” button.

• partial open 1 (0x1b)

This function is expressed in encoder pulses. During the opening manoeuvre this enables programming of the precise point (position) at which the door stops
travel (partial open). To do so, use the hold-to-run ”open” and ”close” buttons; this enables you to determine the desired position and save it with the “OK”
button. If the motor has a mechanical limit switch, the position is not displayed, but the closing time is displayed instead.

• partial open 2 (0x1c)

This function is expressed in encoder pulses. During the opening manoeuvre this enables programming of the precise point (position) at which the door stops
travel (partial open). To do so, use the hold-to-run ”open” and ”close” buttons; this enables you to determine the desired position and save it with the “OK”
button. If the motor has a mechanical limit switch, the position is not displayed, but the closing time is displayed instead.

• partial open 3 (0x1d)

This function is expressed in encoder pulses. During the opening manoeuvre this enables programming of the precise point (position) at which the door stops
travel (partial open). To do so, use the hold-to-run ”open” and ”close” buttons; this enables you to determine the desired position and save it with the “OK”
button. If the motor has a mechanical limit switch, the position is not displayed, but the closing time is displayed instead.

• close deceleration (inverters only) (0x25)

This function is expressed in encoder pulses. During the closing manoeuvre this enables programming of the precise point (position) at which the door should
start decelerating before reaching the limit switch. To do so, use the hold-to-run ”open” and ”close” buttons; this enables you to determine the desired posi­tion and save it with the “OK” button.

• close (0x19)

This function is expressed as a percentage. During a closing manoeuvre, this enables programming of the precise point (position) of the door closing travel
limit. To do so, use the hold-to-run ”open” and ”close” buttons; this enables you to determine the desired position and save it with the “OK” button. If the
motor has a mechanical limit switch, the position is not displayed.

Deceleration (inverters only) (0x44)

This parameter can be set with a value from 20% to 100%; the factory setting is 20%. This function enables you to program the speed of the motor while
learning the open and close positions and during the nal phase of deceleration. Important – Always set this to the minimum speed required to operate the
door. Setting too high a speed can make it difcult to precisely determine the stop position.

Braking level (0x35)

This parameter sets a delay for the activation/deactivation of the brake when starting a cycle. The range is 0 to 2.5s; the factory setting is 0s.
The parameter is divided into 4 items numbered 1 - 4 at the top right of the Oview screen. Select the delay time in “ms” for brake deactivation for:

- Value 1: start opening

- Value 2: start closing

- Value 3: stop opening

- Value 4: stop closing

Board version (0x03)

This displays the type of control unit and motor. The following board versions are available:

❒ Mechanical limit switch, three-phase
❒ Electronic limit switch (encoder), three-phase
❒ Mechanical limit switch, single-phase
❒ Electronic limit switch (encoder), single-phase
❒ Electronic limit switch, inverter, single-phase

Delete data (0x0c)

This function enables the user to delete the conguration of a control unit and the relative stored data, selecting items from a series. These items are:

❒ bluebus devices – enables deletion of the conguration of the Bluebus devices and the STOP input;
❒ positions – enables deletion of all memorised positions;
❒ function values – enables deletion of all values and settings of functions envisaged on the control unit;
❒ all – deletes all data in the control unit memory, except for the reserved parameters: series, address, hardware version, software version, serial number. It

also loads the default values for sectional doors and shutters.

❒ all fast action doors (0x7C) – deletes all data in the control unit memory, except for the reserved parameters: series, address, hardware version, software

version, serial number. It also loads the default values for fast action doors.

Basic parameters

Automatic closure (0x80)

This parameter is ON/OFF; the factory setting is “OFF”. The function enables the auto close function after an open manoeuvre in the control unit. If the function
is active (ON) the automatic closure manoeuvre starts at the end of the wait time programmed in the function “pause time”. If the function is not active (OFF)
the Control unit operation mode is “semiautomatic”. Note: auto close does not operate in hold-to-run close mode.

Pause time (0x81)

This parameter is expressed in seconds and can be set with a value from 0 to 250 sec.; the factory setting is 40 sec. This function enables programming on
the Control unit of the required wait time which must pass between the end of an Opening manoeuvre and the start of a Closing manoeuvre. IMPORTANT
– This function is only enabled if the “automatic closure” function is active.

Close again after photo (0x86)

• active (0x84)

This parameter is ON/OFF; the factory setting is “OFF”. The function enables the automation to remain in the Open position only for the time required for a
vehicle or person to transit. When this interval elapses the Automatic Closure manoeuvre is activated automatically, which in turn is started after a time as set
in the function “wait time”. Important – When the function is active (ON), operation varies according to the parameter set in the function “Automatic closure”:

❒ with the function “Automatic closure” active (ON), the Opening manoeuvre is stopped immediately after disengagement of the photocells and, after the

wait time set in “wait time”, the automation starts up the Closure manoeuvre.

❒ with the function “Automatic closure” not active (OFF), the automation completes the entire Opening manoeuvre (even if the photocells are disengaged

beforehand) and, after the wait time set in “wait time”, the automation starts up the Closure manoeuvre.

Caution! – The function “close again after photo” is disabled automatically if a Stop command is sent during the manoeuvre in progress, to stop the ma­noeuvre. It does not work in hold-to-run close mode.

• mode (0x86)

This parameter is factory set on the mode “open until disengage”. The function has 2 operating modes:

❒ open all – when this mode is enabled, if the safety devices (photocells) are activated during a Closure manoeuvre, the automation starts to perform a

complete Opening manoeuvre. On the other hand, if the safety devices are disengaged, the automation starts the automatic closure manoeuvre after the

wait time as programmed in the function “closure delay time” has elapsed;

❒ open until disengage – when this mode is enabled, if the safety devices (photocells) are activated during a Closure manoeuvre, the automation starts to

perform an Opening manoeuvre, which proceeds until the photocells are disengaged. At this point the manoeuvre is shut down and the automation starts
the closure manoeuvre after the wait time as programmed in the function “closure delay time” has elapsed. Note – If the “Automatic closure” function is
not active, the Control unit switches to “open all” mode.

Wait time (0x85)

This parameter is expressed in seconds and can be set with a value from 0 to 250 sec.; the factory setting is 5 sec. This function enables programming on
the Control unit of the required wait time to pass between the end of an Opening manoeuvre and the start of a Closing manoeuvre.

Always close (0x87)

• active (0x86)

This parameter is ON/OFF; the factory setting is “OFF”. This function is useful in the event of a power failure, even brief. In fact, during an Opening manoeuvre
if the automation shuts down due to a power failure and the function is active (ON), the Closure manoeuvre is performed normally when the electrical power
is restored. On the contrary, if the function is not active (OFF), the automation remains stationary when the power is restored. Note – For reasons of safety,
when the function is active, the Closure manoeuvre is preceded by a wait time as programmed in the function “pre-ashing time”. Note: auto close does not
operate in hold-to-run close mode.

• mode (0x8a)

This parameter is factory set on the mode “always close”. The function has 2 operating modes:

❒ standard – For this mode, refer to the function “active” under the item “always close”;
❒ save automatic closure - Enabling this mode, you may obtain two results when power is restored after a power failure: a) execution of automatic closure,

observing the time as programmed in the function “pre-ashing time”, if the timeout interval of this time was in progress at the time of the power failure;
b) execution of closure manoeuvre if the automatic closure was in progress at the time of the power failure and the manoeuvre had not been completed.

Note – If the automatic closure manoeuvre was cancelled before the power failure (for example, by sending the Halt command), the Closure manoeuvre is
not performed when the power is restored.

Wait time (0x89)

This parameter is expressed in seconds and can be set with a value from 0 to 20 sec.; the factory setting is 5 sec. This function enables programming on the
Control unit of the required wait time to pass between the end of an Opening manoeuvre and the start of a Closing manoeuvre.

Pre-ashing (0x93)

• active (0x94)

This parameter is ON/OFF; the factory setting is “OFF”. When this function is set to “ON” it enables the activation of a ashing time, which passes between
activation of the ashing light and the start of an Opening or Closing manoeuvre. This time is adjustable and useful to for an advance indication of a hazardous
situation. Important – When this function is not active (OFF), the ashing light is switched on at the same time as the start of the manoeuvre.

• time in opening (0x95)

This parameter is expressed in seconds and can be set with a value from 0 to 10 sec.; the factory setting is 3 sec. This function programs the ashing time
which indicates the imminent start of an Opening manoeuvre: it is associated with the pre-ashing function.

• time in closing (0x99)

This parameter is expressed in seconds and can be set with a value from 0 to 10 sec.; the factory setting is 3 sec. This function programs the ashing time
which indicates the imminent start of a Closing manoeuvre: it is associated with the pre-ashing function.

Block automation (0x9a)

This parameter is ON/OFF; the factory setting is “OFF”. This function enables automation operation to be disabled, by setting the value to “ON”. In this case
no type of command is acknowledged or performed, with the exception of “High priority step-step”, “Release”, “Release and close” and “Release and open”.

Block keys (0x9c)

This parameter is ON/OFF; the factory setting is “OFF”. This function disables operation of the keys present on the control unit.

Test mode (0xA9)

This parameter automatically sets the behaviour of inputs and outputs when using specic safety devices. The following modes are available at this time:

0: all inputs and outputs use their factory settings or settings made by the installer;
1: operation with photocell barriers with test device.

This mode uses ING1 input (as the photocell input) and the trafc light OUT-TL1 output. When starting a closing manoeuvre, a test is run which activates the
output and checks that the input deactivates. Normal operation is then restored. Important – if the mode is reset to 0, OUT-TL1 returns to its set value, while
ING1 is set to not connected to avoid unintentional commands.

Brake mode (0x36)

This parameter sets the parking brake's operating mode. There are 3 modes:

0: brake disabled (not powered);

1: brake negative. During the manoeuvre, the brake is powered to release it and allow the motor to run. When the manoeuvre is completed,
power to the brake is shut off, thus automatically engaging it.

2: brake positive. During the manoeuvre the brake is not powered and the motor is free to run. When the manoeuvre is completed, the brake
is powered up, thus engaging it.

3: brake negative. For 208V three-phase power

4: brake positive. For 208V three-phase power

The factory setting is mode 1.

Short inversion value (0x31)

This parameter is expressed in seconds and can be set with a value from 0,1 to 5 seconds; the factory setting is 3 seconds. This function enables program­ming of the brief inversion activated by the control unit as a safety manoeuvre following detection of an obstacle or delivery of a “Stop” command.

Exclusion position (0xa4)

This parameter is expressed in seconds and can be set with a value from 0 to 300 seconds; the factory setting is 50 seconds. Note – the “0” setting is con­sidered the fully closed position of the automation. This function enables the programming of the maximum limit, over which the control unit automatically
disables the inversion manoeuvres envisaged in the obstacle detection functions, if the latter are active.

FOTO exclusion position (0xaf)

This parameter is expressed in seconds and can be set with a value from 0 to 4000 seconds; the factory setting is 0 seconds. Note – the “0” setting is con­sidered the fully closed position of the automation. This function programs the maximum limit within which the control unit automatically inhibits monitoring
of the photocells (FOTO address).

Position compensation (0xfc)

• automatic compensation (0x97)

This parameter is ON/OFF; the factory setting is “OFF”. This function is useful if using a 8K2 resistive type or OSE optical type sensitive edge. The function
enables recovery of the extension of metal ropes of the automation usually caused by wear over prolonged operation. If the sensitive edge trips at the fully
closed position, the control unit will stop the motor a few encoder pulses (compensation value) earlier the next time the door is closed.

• compensation value (0x2e)

This parameter can be set with a value from 0 to 20; the factory setting is “2”. This parameter enables programming of a number of encoder pulses on the
control unit, required for the “position compensation” function. This parameter is only effective if the parameter “automatic compensation” is active (ON).

Work time (0xa7)

Sets the maximum duration of the manoeuvre. When it times out, the manoeuvre is aborted.

• mode

❒ manual: in this mode, the work time is taken from the congurable parameter “maximum work time”.
❒ automatic: in this mode, the control unit measures the time taken to complete the manoeuvre after position learning, and sets a slightly higher value.

• maximum time

This parameter ranges from 0 to 120s, and represents the maximum time within which a manoeuvre must be completed in the manual mode; the default

value is 60s.

❒ value 1: opening time
❒ value 2: closing time

Advanced parameters

INPUT conguration

This item covers the commands available and associable with inputs 1-2-3 present on the control unit of an automation. The commands available for each
input are described in Table 1; while the command categories and relative operating modes are described in Tables 1a, 1b, 1c etc. Important – For correct
operation of the control unit, the command programmed on an input must be associated with the corresponding command category and lastly the required
operating mode.

For congure an input, proceed as follows:

01. In the section “Advanced parameters” select the item “input conguration” and then the input to be programmed. Select the command and conrm with
“OK”.

02. Then, still in ”Advanced parameters”, select “command conguration” and select the category of the command selected in step 01. Finally, select the
operating mode. There are three available inputs:

• Input 1

This programs Input 1, by assigning a command from among those listed in Table 1. Input 1 is factory set to “step-by-step” command, with the “Industrial
Mode” operating mode for sectional doors – with “open - stop - close - open” mode for high-speed doors.

• Input 2

This programs Input 2, by assigning a command from among those listed in Table 1. Input 2 is factory set to “open”, “opening” category and “open-stop­open” mode.

• Input 3

This programs Input 1, by assigning a command from among those listed in Table 1. Input 3 is factory set to “close” command, with the “Industrial Mode”
operating mode for sectional doors – with “open - stop - close - open” mode for high-speed doors.

TABLE 1: INPUT CONFIGURATION

COMMAND COMMAND CATEGORY DESCRIPTION

No command Does not perform any command.
Step-by-step Step-by-step Program the desired mode from

those given in Table 1-A (“Command conguration”
> “step-by-step” > operating mode ...)

Partial open 1 Partial open Program the desired mode from those

listed in Table 1-B (“Command conguration” >
“partial open” > mode ...)

The command is factory assigned to Input 1, with
the “Industrial Mode” operating mode for sectional

doors – with “open - stop - close - open” mode for
high-speed doors.

When the command is sent, the control unit

makes the automation run the manoeuvre follow-

ing that previously (or still) in execution, according

to the order of manoeuvres given in the pro-

grammed sequence. Input congured as normally
open.

When this command is sent the control unit acti-

vates the application to complete the Opening ma­noeuvre until the position is reached as set in the

function “partial open 1”(Control unit functions >
installation > positions > partial open 1). Input con­gured as normally open.

Partial open 2 Partial open Program the desired mode from those

listed in Table 1-B (“Command conguration” >
“partial open” > mode ...)

Partial open 3 Partial open Program the desired mode from those

listed in Table 1-B (“Command conguration” >
“partial open” > mode ...)

Open Opening Program the desired mode form those

listed in Table 1-C (“Command conguration” >
“opening” > mode ...)

Close Closure Program the desired mode from those list-

ed in table 1-B (“command conguration” > “clo­sure” > mode ...)

Stop Stop Program the desired mode from those listed

in Table 1-E (“command conguration” > “stop” >
mode ...)

High priority step-by-step Step-by-step Program the desired mode from

those given in Table 1-A (“Command conguration”
> “step-by-step” > operating mode ...)

Open and block Opening Program the desired mode form those

listed in Table 1-C (“Command conguration” >
“opening” > mode ...)

Close and block Closure Program the desired mode from those

listed in Table 1-D (“command conguration” >
“closure” > mode ...)

Block When this command is sent, the control unit is

Release When this command is sent, the control unit is re-

Timed Courtesy light This command enables activation of the courtesy

When this command is sent the control unit acti­vates the application to complete the Opening ma­noeuvre until the position is reached as set in the

function “partial open 2”(Control unit functions >
installation > positions > partial open 2). Input con­gured as normally open.

When this command is sent the control unit acti-

vates the application to complete the Opening ma­noeuvre until the position is reached as set in the

function “partial open 3”(Control unit functions >
installation > positions > partial open 3). Input con­gured as normally open.

This command is factory assigned to Input 2, in

mode “open - stop - open”. When this command

is sent the control unit activates the application to
complete the Opening manoeuvre until the position

is reached as set in the function “opening” (Control
unit functions > installation > positions > opening).
Input congured as normally open.

This command is factory set to Input 3, with oper­ating mode “close - stop - close”. When this com­mand is sent the control unit activates the applica­tion to complete the Closing manoeuvre until the
position is reached as set in the function “closing”

(Control unit functions > installation > positions >
closing). Input congured as normally open.

When this command is sent, the control unit stops

the manoeuvre in progress gradually and in a short

time (not instantly). Input congured as normally
open.

When this command is sent, the control unit acti-

vates the application to complete the next manoeu-

vre following the previous one (or still in progress)
according to the sequence of manoeuvres as en­visaged in the programmed sequence. Important
– This command is performed even if the control
unit is set with the command “block” (see Table 1).
Input congured as normally open

When this command is sent the control unit acti-

vates the application to complete the Opening ma­noeuvre until the position is reached as set in the

function “opening” (Control unit functions > instal­lation > positions > opening). Input congured as
normally open.

When this command is sent the control unit acti-

vates the application to complete the Closing ma­noeuvre until the position is reached as set in the

function “closing”(Control unit functions > installa­tion > positions > closing) and the automation is
then blocked. Input congured as normally open.

blocked and does not perform any type of com­mand, with the exception of “High priority step­step”, “Release”, “Release and close” and “Release

and open”. Input congured as normally open.

leased restoring normal operating status (all com­mands sent can be performed). Input congured as
normally open.

light on the control unit and that programmable on

Output 1. The courtesy light remains active for the

time as programmed in the function “courtesy light

time” (Control unit functions > advanced parameters
> output conguration > courtesy light time). For the

courtesy light connected to Output 1, the command
is only enabled when this output is programmed in

“courtesy light” mode (Control unit functions > ad­vanced parameters > output conguration > output
1 (ash) > courtesy light). Note – When the courtesy

light is already active and the “courtesy light timer”
is sent again, the time set in “courtesy light time” is

reset. Input congured as normally open.

Courtesy light: on/off This command enables activation and deactivation

Apartment block Step-by-step Program the required operating

Stop Stop in closure Program the desired mode from

Emergency stop (0x28) When this command is sent, the door opens re-

Interlocking (0x29) When this command is sent, the control unit stops

Apartment block open Opening Program the required operating mode,

Photo
Safety function

Photo 1
Safety function

Photo 2
Safety function

Photo 3
Safety function

Release and open When this command is sent, the control unit is re-

Release and close When this command is sent, the control unit is re-

Automatic opening active This command enables the activation or deactiva-

Deactivate automatic opening This command enables deactivation of the “auto-

mode, ss apartment block 1 (“command congura­tion” > “step-by-step” > operating mode: ss apart-

ment block 1)

those listed in Table 1-L (“command conguration”
> “Stop in closure” > mode ...)

apartment block 1 open (“command conguration”

> “opening” > operating mode apartment block 1

open)

Photo Program the desired mode from those listed
in Table 1-F (“command conguration” > “photo”
> mode ...)

Photo 1 Program the desired mode from those list­ed in table 1-G (“command conguration” > “photo
1” > mode ...)

Photo 2 Program the desired mode from those list­ed in table 1-H (“command conguration” > “photo
2” > mode ...)

Photo 3 Program the desired mode from those list­ed in table 1-I (“command conguration” > “photo
3” > mode ...)

of the courtesy light on the control unit and that

programmable on Output 1. For the courtesy light

connected to Output 1, the command is only ena­bled when this output is programmed in “courtesy

light” mode (Control unit functions > advanced pa­rameters > output conguration > output 1 (ash)
> courtesy light). CAUTION! – The courtesy light is

switched off automatically if the relative time interval
elapses, as programmed in the function “courtesy

light time” (Control unit functions > advanced pa­rameters > output conguration > courtesy light
time). Input congured as normally open.

This command is factory set to Input 1, with oper­ating mode “ss apartment block 1” and operating

sequence “open- stop - close - open”. When the

command is sent, the control unit makes the auto­mation run the manoeuvre following that previously

(or still) in execution, according to the order of ma­noeuvres given in the programmed sequence. Note
– This apartment block step-by-step command is

used for apartment blocks and in general envisag­es programming of all apartment block transmitters

with a single “apartment block step-by-step” key.
Input congured as normally open.

When this command is sent, the control unit stops

the manoeuvre in progress and activates the ap-

plication to execute the set operating mode. Input
congured as normally closed.

gardless of its position. The input must remain
active. The safety equipment is ignored and all
close commands are also ignored (button press,
automatic closure, etc.). Only the hardware safe­ties remain active. The door's operation is restored
when the input is deactivated. Input congured as
normally closed.

the manoeuvre in progress. Input congured as
normally closed. It is used together with an output
congured as Interlocking (see Interlocking output)

When this command is sent, the control unit acti-

vates the application to perform the opening ma-

noeuvre only until the limit switch is reached. Note
– This command is useful when using control pho­tocells or a magnetic detector loop. Input cong­ured as normally open.

When this command is sent, the control unit acti-

vates the application according to the selected ma-

noeuvre type. Input congured as normally closed.
When this command is sent, the control unit acti-

vates the application according to the selected ma-

noeuvre type. Input congured as normally closed.
When this command is sent, the control unit acti-

vates the application according to the selected ma-

noeuvre type. Input congured as normally closed.
When this command is sent, the control unit acti-

vates the application according to the selected ma-

noeuvre type. Input congured as normally closed.

leased (restoring normal operating status) and ac-

tivates the application to execute an Opening ma-

noeuvre. Input congured as normally open.

leased (restoring normal operating status) and acti-

vates the application to execute a Closing manoeu-

vre. Input congured as normally open.

tion of the function for bluebus control photocells

and inputs congured in “apartment block open”
mode. Note – the factory setting of this function is
“active”. For example, if this function is active, when

the control photocells are engaged, the control unit
activates the application to execute an Opening

manoeuvre. Input congured as normally open.

matic opening active” mode described above. In­put congured as normally open.

COMMAND CONFIGURATION

This item covers the command categories associable with inputs 1 - 2 - 3 (refer to the section “input conguration - Table 1” to check the commands avail­able). Each command category features various operating modes as described in a table (1-A, 1-B, etc.):

Step-by-step

In this command category the user can select one of the operating modes specied in Table 1-A.

TABLE 1-A: COMMAND CONFIGURATION

MODE DESCRIPTION

Industrial mode This runs the sequence “open in semiautomatic- close in hold-to-run”.
Open - stop - close - stop This executes the above sequence.
Open - Stop - Close - Open Operating mode set in factory (Input 1 - “step-by-step” command). This ex-

Open - Close - Open - Close This executes the above sequence.
Apartment block 1 step-by-step Runs the sequence “close - stop - open - open”, until it reaches the fully open

Apartment block 2 step-by-step Runs the sequence “close - stop - open - open” until the fully open position

Step-by-step 2 This executes the sequence “open - stop - close - open”. Important – When

Hold-to-run The Opening or Closing manoeuvre is executed exclusively if the transmitter

Partial open

In this command category the user can select one of the operating modes specied in Table 1-B.

ecutes the above sequence.

position. Note – If another command is sent after this one, the application
executes the Closing manoeuvre with the same sequence.

is reached. Note – If another command is sent after this one, the application
executes the Closing manoeuvre with the same sequence.

Important – When sending a command, if the transmitter key is held down for
more than 2 seconds, the control unit activates a Stop.

sending a command, if the transmitter key is held down for more than 2 sec-

onds, the control unit activates a “partial open 1” command (input congura­tion > Table 1).

key is held down (hold-to-run).

TABLE 1-B: COMMAND CONFIGURATION

MODE DESCRIPTION

Open - stop - close - stop Operating mode set in factory. This executes the above sequence.
Open - Stop - Close - Open This executes the above sequence.
Open - Close - Open - Close This executes the above sequence.
Apartment block 1 step-by-step This executes the sequence “close - stop - partial open 1- partial open 1”

Apartment block 2 step-by-step This executes the sequence “close - stop - partial open 1 - partial open 1”

Hold-to-run The Partial open 1 or Closing manoeuvre is executed exclusively if the trans-

Industrial mode This runs the sequence “open in semiautomatic- close in hold-to-run”.

Open

In this command category the user can select one of the operating modes specied in Table 1-C.

until the position is reached as programmed in the function “Partial Open 1”.
Note – If another command is sent after this one, the application executes the
Closing manoeuvre with the same sequence.

until the position is reached as programmed in the function “Partial Open 1”.
Note – If another command is sent after this one, the application executes
the Closing manoeuvre with the same sequence. Important – When sending

a command, if the transmitter key is held down for more than 2 seconds, the

control unit activates a Stop.

mitter key is held down (hold-to-run).

TABLE 1-C: COMMAND CONFIGURATION

MODE DESCRIPTION

Open - Stop - Open Operating mode set in factory (Input 2 - “open” command). This executes the

Apartment block 1 This executes the sequence “open - open”. Important – When sending a com-

Apartment block 2 This executes the Opening sequence.
Open 2 Important – When sending a command, if the transmitter key is held down for

Hold-to-run Open The Opening manoeuvre is executed exclusively if the transmitter key is held

Close

In this command category the user can select one of the operating modes specied in Table 1-D.

above sequence.

mand, if the transmitter key is held down for more than 2 seconds, the control

unit activates a Stop.

more than 2 seconds, the control unit activates a “partial open 1” command

(input conguration > Table 1).

down (hold-to-run).

TABLE 1-D: COMMAND CONFIGURATION

MODE DESCRIPTION

Close - stop - close Operating mode set in factory (Input 3 - “close” command). This executes the

Apartment block 1 close This executes the sequence “close - close”.
Apartment block 2 close This executes the sequence “close - close”. Important – When sending a

Hold-to-run close The Closing manoeuvre is executed exclusively if the hold-to-run command

Stop

In this category, you can choose one of the operating modes listed in table 1-E.

above sequence.

command, if the transmitter key is held down for more than 2 seconds, the

control unit activates a Stop.

is used.

TABLE 1-E: COMMAND CONFIGURATION

MODE DESCRIPTION

Stop Operating mode set in factory. When the control unit receives the command,

Stop and brief inversion When the control unit receives the “stop” command, it stops the manoeuvre

Photo

In this category, you can choose one of the operating modes listed in table 1-F.

it stops the manoeuvre in progress gradually and in a short time (not instantly).

in progress and activates the application to perform a brief inversion in the

opposite direction.

TABLE 1-F: COMMAND CONFIGURATION

MODE DESCRIPTION

Stop and inversion Operating mode set in factory. When the control unit receives the command,

Stop and brief inversion When the control unit receives the command, it stops the Closing manoeuvre

Stop When the control unit receives the command is stop the current Close ma-

Photo 1

In this category, you can choose one of the modes listed in table 1-G.

it stops the Closing manoeuvre in progress and activates a total inversion

(Opening). Caution! – During execution of the Opening manoeuvre, this com­mand is ignored.

in progress and activates the application to perform a brief inversion in the

opposite direction (Opening). Caution! – During execution of the Opening ma­noeuvre, this command is ignored.

noeuvre. Caution! – During execution of the Opening manoeuvre, this com­mand is ignored.

TABLE 1-G: COMMAND CONFIGURATION

MODE DESCRIPTION

Stop When the control unit receives the command is stop the current Close ma-

Temporary stop When the control unit receives the command, it stops the Closing manoeuvre

Photo 2

In this category, you can choose one of the modes listed in table 1-H.

noeuvre. Caution! – During execution of the Opening manoeuvre, this com­mand is ignored.

for the entire time that the command remains active. Otherwise, when the

command is no longer active, the control unit activates the application to

perform an Opening manoeuvre. Caution! – During execution of the Opening
manoeuvre, this command is ignored.

TABLE 1-H: COMMAND CONFIGURATION

MODE DESCRIPTION

Stop and inversion Operating mode set in factory. When the control unit receives the command,

Stop and brief inversion When the control unit receives the command, it stops the Opening manoeu-

Stop When the control unit receives the command, it stops the Opening manoeu-

Photo 3

In this category, you can choose one of the modes listed in table 1-I.

it stops the Opening manoeuvre in progress and activates a total inversion

(Closing). Caution! – During execution of the Opening manoeuvre, this com­mand is ignored.

vre in progress and activates the application to perform a brief inversion in

the opposite direction (Closing). Caution! – During execution of the Opening
manoeuvre, this command is ignored.

vre in progress. Caution! – During execution of the Opening manoeuvre, this
command is ignored.

TABLE 1-I: COMMAND CONFIGURATION

MODE DESCRIPTION

Temporary stop Operating mode set in factory. When the control unit receives the command,

Stop When the control unit receives the command, it stops the manoeuvre in pro-

Alt in opening

In this category, you can choose one of the modes listed in table 1-L.

it stops the Closing manoeuvre for the entire time that the command remains

active. Otherwise, when the command is no longer active, the control unit
activates the application to perform an Opening manoeuvre.

gress.

TABLE 1-L: COMMAND CONFIGURATION

MODE DESCRIPTION

None
Stop Operating mode set in factory. When this type of function is set, when the

Stop and brief inversion When the control unit receives the command, it stops the Opening manoeuvre

Alt and inversion When the control unit receives the command, it immediately stops the Closing

Stop in closure

In this category, you can choose one of the modes listed in table 1-M.

control unit receives the command, it stops the Opening manoeuvre in pro-

gress immediately.

in progress immediately and activates the application to perform a brief inver-

sion in the opposite direction (Closing).

manoeuvre in progress and activates the application to perform a total inver-

sion of the manoeuvre in the opposite direction (Opening).

TABLE 1-M: COMMAND CONFIGURATION

MODE DESCRIPTION

None
Stop Operating mode set in factory. When the control unit receives the command,

Stop and brief inversion When the control unit receives the command, it stops the Closing manoeuvre

Alt and inversion When the control unit receives the command, it immediately stops the Closing

Stop in pre-closure (0x6e)

In this category, you can choose one of the modes listed in table 1-N for sensitive edge intervention within the inhibition position

it stops the Closing manoeuvre in progress.

in progress immediately and activates the application to perform a brief inver-

sion in the opposite direction (Opening).

manoeuvre in progress and activates the application to perform a total inver-

sion of the manoeuvre in the opposite direction (Opening).

TABLE 1-N: COMMAND CONFIGURATION

MODE DESCRIPTION

Stop Operating mode set in factory. When the control unit receives the command,

None The edge is ignored and the manoeuvre continues until the door reaches the

it immediately stops the Closing manoeuvre in progress.

set closed position.

OUTPUT CONFIGURATION

This item covers the functions available and associable with Outputs 1 (ash) - 2 - 3 present on the control unit of an automation. Each output has various
functions as described in a table (Table 2, Table 3, etc.):

OUTPUT

Trafc Light Output

The following connections are available:

8. Common 24V

9: output OUT-TL1
10: output OUT-TL2
11: output OUT-TL3

TABLE 1: OUTPUT CONFIGURATION

FUNCTION DESCRIPTION

Red trafc light (0x0d) This function indicates activity of the application during the phases of a Clos-

ing manoeuvre.
slow ashing = execution of Closing manoeuvre;
light permanently on = application in maximum Closing position;
light off = application in other positions.
The OUT-TL2 output at 24V DC / max 5W is used

Green trafc light (0x0e) This function indicates activity of the application during the phases of an

One way trafc light (0x1a) This function operates as follows:

One-way trafc light ashing (0x1b) This function operates as follows:

Two-way alternating trafc light (0x1a) This function operates as follows:

Door status (0x1e) This function operates as follows:

When the door is open, OUT-TL2 is activated and all others remain off.

sca (0x01) The programmed light indicates the operating status of the control unit.

Gate open (0x02) The programmed light indicates the operating status of the control unit.

Gate closed (0x03) The programmed light indicates the operating status of the control unit.

Service light (0x04) The programmed light indicates the count of manoeuvres completed and

Flasher at 24V (0x17) This function enables the ashing light to indicate execution of a manoeuvre in

Electric lock 1 (0x07) With this function programmed, when an Opening manoeuvre is performed

Electric block 1 (0x09) With this function programmed, when an Opening manoeuvre is performed

Opening manoeuvre.
slow ashing = execution of Opening manoeuvre;
light permanently on = application in maximum Opening position;
light off = application in other positions.
The OUT-TL3 output at 24V DC / max 5W is used

OUT-TL2 and OUT-TL3 are active when the door is open, and deactivated in

all other conditions.
The function uses outputs OUT-TL2 and OUT-TL3 at 24V / 5W

OUT-TL2 ashes when opening and stays active with the door open, deacti­vated in all other conditions.

OUT-TL3 ashes when closing and stays active with the door stationary in any
position other than fully open; deactivated in all other conditions.

The function uses outputs OUT-TL2 and OUT-TL3 at 24V / 5W

When an open command is sent from inside, OUT-TL2 (green trafc light) is
activated, giving priority to the person inside.

When an open command is sent from outside, OUT-TL3 (green trafc light) is
activated, giving priority to the person outside.

When the door is closed or closing, both trafc lights are deactivated (red
trafc light).

For the system to operate in this mode, the commands must be sent to the
control unit as follows:

Commands from inside: Input 2 congured as Open
Commands from outside: Input 3 congured as Open
The function uses outputs OUT-TL2 and OUT-TL3 at 24V / 5W

When the door is closed, OUT-TL1 is activated and all others remain off.

When a door is in any position other than fully open or closed, OUT-TL3 is
activated and all others remain off.

The function uses outputs OUT-TL1, OUT-TL2 and OUT-TL3 at 24V / 5W

light off = application in maximum Closing position;
slow ashing = application Opening manoeuvre execution phase;
quick ashing = application Closing manoeuvre execution phase;
light permanently on = application in maximum Opening position.
The OUT-TL1 output at 24V DC / max 5 W is used

light on = application in maximum Opening position;
light off = application in other positions.
The OUT-TL1 output at 24V DC / max 5 W is used

light on = application in maximum Closing position;
light off = application in other positions.
The OUT-TL1 output at 24V DC / max 5 W is used

therefore the need (or not) for system maintenance operations.
light on for 2 sec at start of Opening manoeuvre = number of manoeuvres

less than 80%;

light ashing during execution of entire manoeuvre = number of manoeuvres

between 80 and 100%;

light always ashing = number of manoeuvres over 100%.
The OUT-TL1 output at 24V DC / max 5 W is used

progress with ashes at regular intervals (0.5 sec ON, 0.5 sec OFF).
The OUT-TL2 output at 24V DC / max 5 W is used

the electric lock is activated for a time as set in the function “electric lock time

– output conguration”.
The OUT-TL2 output at 24V DC / max 5 W is used

the electric lock is activated for a time as set in the function “electric lock time

– output conguration”.
The OUT-TL2 output at 24V DC / max 5 W is used

Suction cup 1 (0x0b) With this function programmed, the suction cup is activated when the appli-

Courtesy light (0x06) This function type is ON/OFF. Important – For safety reasons, as the light is

Radio channel 1 (0x0f) When a transmitter sends a command, this output is activated. This mode is

Radio channel 2 (0x10) When a transmitter sends a command, this output is activated. This mode is

Radio channel 3 (0x11) When a transmitter sends a command, this output is activated. This mode is

Radio channel 4 (0x12) When a transmitter sends a command, this output is activated. This mode is

cation is in the maximum Closing position. Note – The suction cup is disabled
in all other situations. When the suction cup is disabled, before an Opening

manoeuvre is started, the time interval as programmed in the function “suc-

tion cup time – output conguration” is activated, which delays the start of
the manoeuvre.

The OUT-TL2 output at 24V DC / max 5 W is used

not controlled by a timer, use of an adequate light, able to withstand the heat
of the light emitted, is recommended.

The OUT-TL3 output at 24V DC / max 5 W is used

useful if installing external devices (for example, an auxiliary light) in the same
system to be controlled with a single transmitter. CAUTION – If this channel is

not free on the control unit's receiver, due to having been previously memo­rised with a command, when the channel is activated by the transmitter, the
control unit only activates the programmed output, and ignores the motor

command.
The OUT-TL3 output at 24V DC / max 5 W is used

useful if installing external devices (for example, an auxiliary light) in the same
system to be controlled with a single transmitter. CAUTION – If this channel is

not free on the control unit's receiver, due to having been previously memo­rised with a command, when the channel is activated by the transmitter, the
control unit only activates the programmed output, and ignores the motor

command.
The OUT-TL3 output at 24V DC / max 5 W is used

useful if installing external devices (for example, an auxiliary light) in the same
system to be controlled with a single transmitter. CAUTION – If this channel is

not free on the control unit's receiver, due to having been previously memo­rised with a command, when the channel is activated by the transmitter, the
control unit only activates the programmed output, and ignores the motor

command.
The OUT-TL3 output at 24V DC / max 5 W is used

useful if installing external devices (for example, an auxiliary light) in the same
system to be controlled with a single transmitter. CAUTION – If this channel is

not free on the control unit's receiver, due to having been previously memo­rised with a command, when the channel is activated by the transmitter, the
control unit only activates the programmed output, and ignores the motor

command.
The OUT-TL3 output at 24V DC / max 5 W is used

output 1 (ash)

In this output the user can select one of the functions specied in Table 2.

TABLE 2: OUTPUT CONFIGURATION

MODE DESCRIPTION

Not specied The output is never activated
sca (= gate open indicator) The programmed light indicates the operating status of the control unit.

Sca1 The programmed light indicates the operating status of the control unit.

Sca2 The programmed light indicates the operating status of the control unit.

gate open The programmed light indicates the operating status of the control unit.

light off = application in maximum Closing position;
slow ashing = application Opening manoeuvre execution phase;
quick ashing = application Closing manoeuvre execution phase;
light permanently on = application in maximum Opening position.
Output active 24 Vdc / max 10 W

light permanently on = application in maximum

Opening or Closing position;

slow ashing = application Opening manoeuvre execution phase;
quick ashing = application Closing manoeuvre execution phase;
light off = application stationary, in a different position than maximum Closing
or maximum Opening.
Output active 24 V DC / max 10 W

light permanently on = application in maximum Closing position;
slow ashing = application Opening manoeuvre execution phase;
quick ashing = application Closing manoeuvre execution phase;
light off = application stopped in maximum Opening position.
Output active 24 V DC / max 10 W

light on = application in maximum Opening position;
light off = application in other positions.
Output active 24 Vdc / max 10 W

gate closed The programmed light indicates the operating status of the control unit.

maintenance indicator light The programmed light indicates the count of manoeuvres completed and the-

Flasher This function enables the ashing light to indicate execution of a manoeuvre in

Flasher 1 This function enables the asher to ash constantly at regular intervals (0.5

Flasher at 24V This function enables the ashing light to indicate execution of a manoeuvre in

courtesy light This function type is ON/OFF. Important – For safety reasons, as the light is

Always on This function enables the indicator light to remain constantly lit both during a

electric lock 1 With this function programmed, when an Opening manoeuvre is performed

electric block 1 With this function programmed, when an Opening manoeuvre is performed

suction cup 1 With this function programmed, the suction cup is activated when the appli-

red trafc light This function indicates activity of the application during the phases of a Clo-

green trafc light This function indicates activity of the application during the phases of an Ope-

Interlocking (0x22) This output is used to create the interlocking system between 2 doors. This

radio channel no.1 If this radio channel is set for the conguration of output 1 (ash), this channel

light on = application in maximum Closing position;
light off = application in other positions.
Output active 24 Vdc / max 10 W

refore the need (or not) for system maintenance operations.
light on for 2 sec at start of Opening manoeuvre = number of manoeuvres

less than 80%;

light ashing during execution of entire manoeuvre = number of manoeuvres

between 80 and 100%;

light always ashing = number of manoeuvres over 100%.

progress with ashes at regular intervals (0.5 sec ON, 0.5 sec OFF).
Output active 12 Vdc / max 21 W

sec ON; 0.5 sec. OFF) both during a manoeuvre and when the pole is sta­tionary.
Output active 24 V DC / max 10 W

progress with ashes at regular intervals (0.5 sec ON, 0.5 sec OFF).
Output active 24 V DC / max 10 W

not controlled by a timer, use of an adequate light, able to withstand the heat
of the light emitted, is recommended.
Output active 24 Vdc / max 10 W

manoeuvre and when the pole is stationary.
Output active 24 V DC / max 10 W

the electric lock is activated for a time as set in the function “electric lock time

– output conguration”.
Output active 24 Vdc / max 10 W

the electric lock is activated for a time as set in the function “electric lock time

– output conguration”.

Output active 24 dc/ max 10 VA

cation is in the maximum Closing position. Note – The suction cup is disabled
in all other situations.
When the suction cup is disabled, before an Opening manoeuvre is started,
the time interval as programmed in the function “suction cup time – output
conguration” is activated, which delays the start of the manoeuvre.
Output active 24Vdc / max 10 W

sing manoeuvre.
slow ashing = execution of Closing manoeuvre;
light permanently on = application in maximum Closing position;
light off = application in other positions.
Output active 24Vdc / max 10 W

ning manoeuvre.
slow ashing = execution of Opening manoeuvre;
light permanently on = application in maximum Opening position;
light off = application in other positions.
Output active 24Vdc / max 10 W

use enables the user to open one door, only if the other one is closed. The

output changes status when all the following conditions are valid:

- the door is closed;

- it receives a command to open;

- no safety device prevents the manoeuvre.

The output is always active when the door is any position other than totally

closed.

To establish the connection, a 24Vdc connection interface relay must be used

between this output and an input congured as Interlocking on the second
control unit.

is activated when a command is set with the transmitter. It is useful if installing
external devices (for example, an auxiliary light) in the same system to be
controlled with a single transmitter.
WARNING – If this channel is not free on the control unit receiver, as previously

memorised with a command, the control unit activates exclusively the pro­grammed output when the channel is activated with the transmitter, ignoring

the command to the motor.
Output active 24Vdc / max 10 W

radio channel no.2 If this radio channel is set for the conguration of output 1 (ash), this channel

radio channel no.3 If this radio channel is set for the conguration of output 1 (ash), this channel

radio channel no.4 If this radio channel is set for the conguration of output 1 (ash), this channel

Control unit status (0x1f) This output copies the operation of the Bluebus led which determines the

is activated when a command is set with the transmitter. This mode is useful
if installing external devices (for example, an auxiliary light) in the same system
to be controlled with a single transmitter.
WARNING – If this channel is not free on the control unit receiver, as previously

memorised with a command, the control unit activates exclusively the pro­grammed output when the channel is activated with the transmitter, ignoring

the command to the motor.
Output active 24Vdc / max 10 W

is activated when a command is set with the transmitter. This mode is useful
if installing external devices (for example, an auxiliary light) in the same system
to be controlled with a single transmitter.
WARNING – If this channel is not free on the control unit receiver, as previously

memorised with a command, the control unit activates exclusively the pro­grammed output when the channel is activated with the transmitter, ignoring

the command to the motor.
Output active 24Vdc / max 10 W

is activated when a command is set with the transmitter. This mode is useful
if installing external devices (for example, an auxiliary light) in the same system
to be controlled with a single transmitter.
WARNING – If this channel is not free on the control unit receiver, as previously

memorised with a command, the control unit activates exclusively the pro­grammed output when the channel is activated with the transmitter, ignoring

the command to the motor.
Output active 24Vdc / max 10 W

status of the control unit, including the diagnostics. In addition, the output is
deactivated when the safety chain (ALT, motor thermal cutout, SAFE, STOP
key on cover) is interrupted.
Output active 24 V DC / max 10 W

output 2

In this output the user can select one of the functions specied in Table 2.

output 3

In this output you can choose one of the functions described in Table 2, except for the ”asher 24” and ”control unit status” functions.

electric lock time

This parameter is expressed in seconds and can be set with a value from 0.1 to 10 sec.; the factory setting is 2 sec. This function enables programming on
the Control unit of the required time interval to pass between the end of a Closing manoeuvre and the start of an Opening manoeuvre.

suction cup time

This parameter is expressed in seconds and can be set with a value from 0.1 to 10 sec.; the factory setting is 2 sec. This function enables programming on
the Control unit of the required time interval to pass between the end of a Closing manoeuvre and the start of an Opening manoeuvre, when the suction cup
is disengaged.

Courtesy light time

This parameter is expressed in seconds and can be set with a value from 0 to 250 sec.; the factory setting is 60 sec. This function programs the courtesy
light on time for the various outputs.

It disables short circuit control on outputs (0xa6)

This parameter is of the ON/OFF type; the factory setting is “OFF”. When this function is set to ON it allows the short circuit control on outputs 1 and 2 to

be disabled

Inverter (inverters only) (0xfe)

• Inverter mode (0xad)

This parameter is of the ON / OFF type; the factory setting is “OFF”. When set to “ON”, it activates the operating logic of motors with MEIN series on-board
inverters. Important – After activating this function, you must run device learning again.

Speed management (inverters only)

• Open speed (0x42)

This parameter can be set with a value from 20% to 180%; the factory setting is 100%. The function enables programming of the required motor speed dur­ing an Opening manoeuvre. Important – After setting this parameter, you must run a few manoeuvres to allow the system to recalculate the decelerations.

• opening deceleration (0x45)

This parameter can be set with a value from 20% to 180%; the factory setting is 45%. The function enables programming of the required motor speed dur­ing the initial deceleration phase of an opening manoeuvre. Important – After setting this parameter, you must run a few manoeuvres to allow the system to
recalculate the decelerations.

• closing speed (0x43)

This parameter can be set with a value from 20% to 180%; the factory setting is 100%. The function enables programming of the required motor speed
during a Closing manoeuvre. Important – After setting this parameter, you must run a few manoeuvres to allow the system to recalculate the decelerations.

• closing deceleration speed (0x46)

This parameter can be set with a value from 20% to 180%; the factory setting is 45%. The function enables programming of the required motor speed dur­ing the initial deceleration phase of an opening manoeuvre. Important – After setting this parameter, you must run a few manoeuvres to allow the system to
recalculate the decelerations.

• deceleration speed (0x44)

This parameter can be set with a value from 20% to 100%; the factory setting is 20%. This function enables you to program the speed of the motor while
learning the open and close positions and during the nal phase of deceleration. Important – Always set this to the minimum speed required to operate the
door. Setting too high a speed can make it difcult to precisely determine the stop position.

Start up (0x8f)

The parameter can be set from 0 to 70V; the factory setting is 30V. The function sets the voltage at the start of a manoeuvre, to ensure sufcient torque at
low motor speeds. Important – This parameter must be set the value required for the motor to actually start the manoeuvre. Too high a setting can damage
the inverter and the motor by increasing the voltage too much.

Minimum frequency (0xac)

The parameter can be set from 2 to 7Hz; the factory setting is 2Hz. This sets the minimum start and stop frequency for the manoeuvre and, combined with
the start-up parameters, determines the automation's ability to start and stop moving the door. Important - Too high a setting can damage the inverter and
the motor by increasing the voltage too much.

Acceleration (0x5e)

This parameter can be set from 30 to 300rad/s2. The function sets the initial acceleration. Important - Too high a setting can damage the inverter and the
motor by increasing the voltage too much.

Deceleration (0x5f)

This parameter can be set from 30 to 300rad/s2. The function sets the deceleration. Important - Too high a setting can damage the inverter and the motor
by increasing the voltage too much.

Stop deceleration (0xae)

This parameter can be set from 50 to 500rad/s2. The function sets the emergency deceleration, when the door stops because of a safety device trip. Impor­tant - Too high a setting can damage the inverter and the motor by increasing the voltage too much.

Motor heating (0x9e)

This parameter is of the ON / OFF type; the factory setting is “OFF”. When set to “ON”, it activates heating the motor when the ambient temperature is below
5°C.

Reserved 1 (0xaa)

This parameter accesses the inverter overcurrent controls. To modify this setting, contact Nice technical service.

Reserved 2 (0xab)

This parameter accesses the inverter protection equipment. To modify this setting, contact Nice technical service.

DIAGNOSTICS

Automation position

Indicates the physical position of the encoder in encoder pulses.

Inputs / Outputs

This function enables the display of the operating status of all inputs and outputs present on the control unit. The functions of the inputs and outputs are
described in Table 4.

TABLE 4: Input/output DIAGNOSTICS

This function enables the display of the device type, operating

status, and conguration of the devices connected to the Bluebus

output.

Diagnosis 1 - IN

RADIO INPUTS (On / Off):

Channel 1 Indicates when radio receiver channel 1 is active.
Channel 2 Indicates when radio receiver channel 2 is active.
Channel 3 Indicates when radio receiver channel 3 is active.

Channel 4 Indicates when radio receiver channel 4 is active.

SERIAL RADIO INPUTS Indicates when the control unit receives a serial command via BusT4 from

BOARD KEYS:
no. 1 Indicates when key 1 is pressed (= OPEN) on the control unit.
no. 2 Indicates when key 2 is pressed (= STOP) on the control unit.
no. 3 Indicates when key 3 is pressed (= CLOSE) on the control unit.
DIRECTION SELECTION Indicates the status of the direction selector for a manoeuvre.
INPUT STATUS:
inp 1 Indicates when input 1 is active.
inp 2 Indicates when input 2 is active.
inp 3 Indicates when input 3 is active.
inp alt Indicates when the alt input is active.
ALT CONFIGURATION Indicates the type of connection on the alt terminal. The connections are of

MOTOR 1 (On / Off):

Limit switch on opening Indicates when motor 1 reaches the maximum opening position.
Limit switch on closing Indicates when motor 1 reaches the maximum closing position.
MANOEUVRE THRESHOLD: Indicates the operating status of the manoeuvre limiter, expressed in levels:

DESCRIPTION

a radio receiver; these commands range from minimum 1 to maximum 15.

three types: not congured; NC; NO; 1 8K2 resistive edge; 2 8K2 resistive
edges; 1 OSE optical edge; out of range.

Level 1: OK;
Level 2: THRESHOLD 1; the manoeuvre is started with a 2 second delay;
Level 3: THRESHOLD 2; the manoeuvre is started with a 5 second delay;

Level 4: MOTOR ALARM; the manoeuvre is only enabled with the hold-to-run

control.

LAST 8 MANOEUVRES Indicates any malfunctions occurring during normal operation of the applica-

AUTOMATIC OPENING Indicates if this function is active.
Diagnosis 1 - OUT
GENERIC DATA:
Stand-by Indicates when the automation is in the standby status.
POWER: Indicates the type of electrical power used by the automation: mains (120/230

MEMORY ERRORS:
Map M1 Indicates whether there is an error in the memorised data, related to the val-

Rego Indicates whether there is an error in the memorised data on the control unit

Functions Indicates whether there is an error in the memorised data regarding the func-

Stop Indicates whether there is an error in the memorised data regarding the con-

Bluebus Indicates whether there is an error in the memorised data regarding the con-

Positions Indicates whether there is an error in the memorised data regarding positions.
ENCODER STATUS:
Abs M1 Indicates whether there is a reading error or operating malfunction on the

OUTPUTS:
Out 1 Indicates when output 1 is active. Caution – 12/24 V DC voltage present.
Out M1 Indicates when motor 1 is in operation.
ALARMS:
Out 1 overload Indicates an electrical overload or short circuit on output 1 or on the courtesy

Out 2 overload Indicates an electrical overload or shortcircuit at output 2.
M1 low overtravel Indicates that the absolute encoder of motor 1 is in a position close to the

M1 high overtravel Indicates that the absolute encoder of motor 1 is in a position close to the

tion, showing the last 8 manoeuvres completed.

V AC) or backup battery (24 V DC)

ues for the force required by motor 1 to complete a manoeuvre.

regarding settable parameters.

tions programmable with Oview.

guration of the alt input.

guration of the devices connected to the bluebus input.

absolute encoder of motor 1.

light of the control unit.

minimum limit (0%), below which the motor does not function.

maximum limit (100%), over which the motor does not function.

other parameters

This function enables display of the operating status of some parameters measured by the control unit. These parameters are described in Table 5.

TABLE 5: DIAGNOSTICS of other parameters

PARAMETER DESCRIPTION

Diagnostics 2
MISCELLANEOUS PARAMETERS:
Courtesy light Indicates the timer for shutoff of the courtesy light.
Pause time Indicates the timer for counting the pause time between one manoeuvre and

Service voltage Indicates the voltage supplied to external devices.
Bus medium current Indicates the current absorption of the devices connected to the bluebus out-

MOTOR 1:
Torque Indicates the torque generated by motor 1 during the manoeuvre, calculated

Speed Indicates the speed of motor 1 during the manoeuvre, calculated as a per-

Voltage Indicates the mean voltage to be supplied to motor 1 during the manoeuvre,

Position Indicates the physical encoder position, as a percentage: the limits imple-

bluebus device diagnostics

This function displays the type, operating status and conguration of devices connected ot the Bluebus output. These parameters are described in Table 6.

the next.

put, calculated as a percentage.

as a percentage.

centage.

calculated as a percentage.

mented are the encoder minimum limit (equal to 0 = 0%) and the encoder
maximum limit (equal to 4096 = 100%). This data is useful to understand
whether the encoder is in an overtravel position, i.e. outside the operating
zone of the absolute encoder.

TABLE 6: DIAGNOSTICS of bluebus devices

PARAMETER DESCRIPTION

Bluebus
PHOTOCELLS
PHOTO Indicates whether the photocell is present, the relative operating status and

PHOTO II Indicates whether the photocell is present, the relative operating status and

PHOTO 1 Indicates whether the photocell is present, the relative operating status and

PHOTO 1 II Indicates whether the photocell is present, the relative operating status and

PHOTO 2 Indicates whether the photocell is present, the relative operating status and

PHOTO 2 II Indicates whether the photocell is present, the relative operating status and

PHOTO 3 Indicates whether the photocell is present, the relative operating status and

FT A Indicates whether the sensitive edge is present, the relative operating status

FT B Indicates whether the sensitive edge is present, the relative operating status

FT C Indicates whether the sensitive edge is present, the relative operating status

OPEN PHOTO Indicates whether the control photocell is present, the relative operating status

OPEN PHOTO II Indicates whether the control photocell is present, the relative operating status

COMMANDS:
CMD 1 Indicates whether the control photocell is present, the relative operating status

CMD 2 Indicates whether the control photocell is present, the relative operating status

CMD 3 Indicates whether the control photocell is present, the relative operating status

CMD 4 Indicates whether the control photocell is present, the relative operating status

CMD 5 (SEM1) Indicates whether the “trafc light 1” control device and whether it is memo-

CMD 6 (SEM2) Indicates whether the “trafc light 2” control device and whether it is memo-

OTHER:
GATE Indicates the operating status of the application.
BLOCK AUTOMATION Indicates when the automation is blocked following a “Block” command.
MEMORY Indicates a problem regarding the data related to bluebus devices, memo-

BUS Indicates whether there is a short circuit on the bluebus output.
STAND-BY Indicates when the control unit is in standby status.
OTHER DEVICES:
COURTESY LIGHT Indicates whether the control device is present, the relative operating status

SUCTION CUP Indicates whether the control device is present, the relative operating status

LOCK Indicates whether the control device is present, the relative operating status

TRAFFIC LIGHTS:
TRAFFIC LIGHT 1 Indicates the operating status of the device.
TRAFFIC LIGHT 2 Indicates the operating status of the device.

the correct memorisation in the control unit.

the correct memorisation in the control unit.

the correct memorisation in the control unit.

the correct memorisation in the control unit.

the correct memorisation in the control unit.

the correct memorisation in the control unit.

the correct memorisation in the control unit.

and the correct memorisation in the control unit.

and the correct memorisation in the control unit.

and the correct memorisation in the control unit.

and the correct memorisation in the control unit.

and the correct memorisation in the control unit.

and the correct memorisation in the control unit.

and the correct memorisation in the control unit.

and the correct memorisation in the control unit.

and the correct memorisation in the control unit.

rised correctly in the control unit.

rised correctly in the control unit.

rised in the control unit.

and whether it is memorised correctly in the control unit.

and whether it is memorised correctly in the control unit.

and whether it is memorised correctly in the control unit.

MAINTENANCE

Manual alarm threshold

A value from 0 to 16777215 (manoeuvres) can be assigned to this parameter; the factory setting is 10000 (manoeuvres). This function enables programming
of a reference limit, over which automation maintenance is required.

Partial count

This function enables the user to check the number of manoeuvres performed by an automation since it was last serviced.

Delete maintenance

This parameter is ON/OFF; the factory setting is “OFF”. This function enables deletion of the “partial count” value; this is required after performing maintenance
on the automation.

ADVANCED FUNCTIONS

Event log

This function enables the display of the events generated or received by the control unit. An “event” is a condition which changes the operating status of the
control unit, such as: activation of an input, end of a manoeuvre, photocell or stop input tripped, etc. This section displays the date and type of an event.

Firmware updates

The function can be carried out solely when the “o-view desktop” software is used, together with the O-view programmer with bluetooth module.

User permits

This function enables the installer to decide which functions and parameters are to be selected for display and modications by the user. For example, for
safety reasons, the installer can decide to prevent the user from modifying the parameters related to automation motor force and speed.

User permissions can be managed exclusively by using the “installer password” (password management, common functions). Note – All parameters of the
various functions of a control unit or receiver are factory set as disabled.