ARTECO Everywhere 3.0 User manual
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ARTECO-Everywhere 3.0
USER MANUAL
Copyright © Arteco S.u.r.l. 2020
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The information contained in this manual is property of Arteco s.u.r.l.
Duplication and redistribution of this manual, in whole or in part, without the written permission of Arteco s.u.r.l. is prohibited.
All specifications are subject to change without notice. This manual is updated and reviewed regularly. Although every effort has been
made to make the information contained in this manual complete and correct Arteco cannot be held responsible for any incorrect or
missing information that may be contained in this manual.
Any suggestions should be directed to Arteco s.u.r.l. concerning this manual and will be evaluated for future versions.
Limitation of Liability
This device cannot be used as emergency equipment or life support, or used in conjunction with equipment where a malfunction can
cause damage to human life, without the prior written permission of Arteco s.u.r.l ..
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Chapter 1 –General .......................................................................................................................5
Unpacking the Unit .............................................................................................................................. 5
Environmental Conditions....................................................................................................................5
Links....................................................................................................................................................5
Supply .................................................................................................................................................5
Installation ..........................................................................................................................................5
Chapter 2 –Connections ................................................................................................................6
Names and Functions of Connectors.....................................................................................................6
Chapter 3 –Web Client...................................................................................................................8
Web Client...........................................................................................................................................8
Control ................................................................................................................................................9
Functions............................................................................................................................................. 9
Email ................................................................................................................................................. 10
I/O Tests and Timings......................................................................................................................... 12
Custom Commands............................................................................................................................ 14
Mirroring........................................................................................................................................... 15
Micro PLC .......................................................................................................................................... 18
Section 3: Menus (Micro PLC Schedule Management) ......................................................................... 21
Network ............................................................................................................................................ 23
Network Settings ............................................................................................................................... 23
DDNS Settings.................................................................................................................................... 24
Network Monitor............................................................................................................................... 25
Settings ............................................................................................................................................. 26
Date&Time ........................................................................................................................................ 27
User Account ..................................................................................................................................... 27
System............................................................................................................................................... 27
System Restore.................................................................................................................................. 28
Firmware Update............................................................................................................................... 29
Lock................................................................................................................................................... 29
Names............................................................................................................................................... 29
Calendar............................................................................................................................................ 30
Chapter 4 –Reset to factory settings .............................................................................................34
Chapter 5 –CGI Command Interface ...........................................................................................35
“info” Command................................................................................................................................ 35
“monitor” Command.......................................................................................................................... 36
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“io” Command................................................................................................................................... 37
“set” Command ................................................................................................................................. 38
“byte” Command............................................................................................................................... 41
“var” Command................................................................................................................................. 42
“input” Command.............................................................................................................................. 43
“seq” Command................................................................................................................................. 44
“mirror” Command............................................................................................................................ 44
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Chapter 1 –General
Unpacking the Unit
Inspect the packaging that the Arteco Everywhere comes in to ensure it is not damaged.
In the case it is, do not take the device out of the box and inform the courier.
Take all necessary precautions against the risk of damage to the unit due to electrostatic discharge.
Environmental Conditions
Storage
from -10° to +55°C (non-condensing)
Operation
from +5° to +50°C (non-condensing)
Humidity
from 30% to 90% (non-condensing)
Altitude
2000m max
Links
The device is provided with spring contacts for rapid insertion to accept section conductors between 0.4 and 0.8
mm in diameter (AWG 26 to AWG20).
To connect the wires to the device, lower the orange latch, insert the wire, then release the latch.
The device has a standard RJ45 connector for connectivity and PoE.
Supply
The device can be powered from a PoE source as it is a PD class 2. Alternatively, it can be supplied from a
SELV source (optional) with a voltage of 12 or 24 VDC.
The max 12V consumption is about 300 mA, 24 V 150 mA. See Chapter 2 - CONNECTIONS for more details.
Installation
The device must be installed on a DIN rail in a closed container with no dust or moisture according to the limits
stated above. (See Environmental Conditions).
IN ORDER TO PERFORM A SAFE AND PROPER INSTALLATION PLEASE READ
THIS MANUAL VERY CAREFULLY
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Chapter 2 –Connections
Names and Functions of Connectors
Refer to Figure 1 for connections to form Arteco Everywhere:
Figure 1 –Connections
To the left of the P1 connector is a LED that flashes during normal operation at 1 second intervals.
Starting in the lower left hand side you have:
P1
oOutput Relay 0-3 (pins 01,02,03,04,05,06,07,08): The first four outputs of the module;
connected here The first four loads to be controlled (for example Out 0 consists of the terminals
01 and 02).
Each output can bear a maximum current of 24V @ 1A with resistive load. At load or inductive
loads exceeding the allowed limits it is recommended inferfacing with the power relay.
Each output (Out “N”) also has an internal green light visible through the transparent window on
the front panel showing the status (Off = output non-energized, ON: output energized)
oInput 0-3 (pins 09,10,11,12): These are the first four inputs of the module. These are
configured as Dry contacts. A dry contact, also called a volt-free contact, is a set of switch
contacts that have no other circuit or voltage wired to them.
In other words, a dry contact simply detects whether or not an input switch is open or closed.
LOW STATUS: input pin open
HIGH STATUS: input pin closed to common input pin.
oInput Common terminal (pins 13, 14): Contacts that are referenced by all of the module’s
inputs. The common reference terminals are the contacts 13:14 “common input” (they are
equivalent to each other).
oSupply 12-24VDC (pins 15,16,17,18): This terminal consists of the pins 15,16,17 and 18
which serve to supply power the module. Pins 15 and 18 are related to the "grounding" of the
module that is used to control any over-voltage present at the inputs. The pins 16 and 17
instead relate to the DC module. The pin 16 is connected to the "-" power supply while pin 17 is
connected to the "+". The DC voltage supplied via must be, as stated, 12 or 24V.
P2
oOutput Relay 4-7 (pins 19,20,21,22,23,24,25,26): These are the remaining four outputs of the
module; The remaining four loads connect here to control. Each output can support a maximum
current of 24V @ 1A with resistive load; In the case of loads exceeding the allowed limits, it is
recommended to use an inductive interface with power relay. Each output (Out "N") also has an
internal green light that is visible through the transparent window on the front panel showing the
status (Off = output non-energized, ON: output energized).
oInput 4-7 (pins 27,28,29,30): They are the remaining four module inputs; These are configured
as Dry contacts. A dry contact, also called a volt-free contact, is a set of switch contacts that
have no other circuit or voltage wired to them.
In other words, a dry contact simply detects whether or not an input switch is open or closed.
LOW STATUS: input pin open
HIGH STATUS: input pin closed to common input pin.
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WIRING
Everywhere has dry contact inputs.
If you need to connect a device equipped with relay or "dry-contact" outputs, it can be connected
directly to the module input. See image below.
If a device with a digital voltage output (12/24 Vdc) is to be connected, an external relay must be used
1. Connect the output of the device to the relay input coil
2. Connect the relay output between the input pin and the common input
Things to take into account when connecting the device:
The conductor cross section must be adequate.
oFor the device’s power supply to the P1 Connector, use cables with a minimum diameter of 0.5
mm²
oUse the same wire type as conductors for the P3 and P4 connectors.
oDepending on the type of installation, you may have to take into account other
recommendations. The installer is required to comply with all provisions that apply in the
country where the device is used.
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Chapter 3 –Web Client
The device has an integrated web server that provides the user with complete control via its client in the
browser. With it you can set the network parameters, assign each I / O a name, set the web client password
protection itself, activate the Dynamic DNS, update the firmware of the device, etc.
You can obviously also read the status of the input channels and enable or disable the outputs.
The choice of a function whatever, in any case, requires the entry (for the first time only) of the user name and
the password.
The default IP address of the module is 192.168.10.96
The default user name is 'admin' and the default password is 'arteco'
Place them correctly in the appropriate fields and click OK to proceed.
Note: Access to the web interface of the Arteco-Everywhere can be restricted in the event that an antivirus is
installed. In case of access problems, check the antivirus settings and disable the web control, or alternatively
add the IP address / URL Arteco Everywhere into the antivirus exceptions.
Web Client
Figure 2 –Web Client Homepage
In Fig. 2 you can see the embedded web server’s home page: see above the name "Home" with the module
name (hostname). This is useful for identifying the module to which you are connected in the event there are
multiple modules. This information is repeated on every page.
Note also the "HELP" button, which leads to convenient online help resources.
You can also operate on the I / O channels without using the Web interface, but if using CGI via http
commands, refer to the chapter titled "Command interface for CGI Everywhere" for more information.
A useful feature of the firmware is the ability to use the "label", which are essentially a collection Boolean
variables, and therefore can be in the state of TRUE or FALSE.
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Many Everywhere functions can manipulate labels, status or undertake various actions depending on the state
of the label. There is a mechanism to connect the functions available in the Everywhere, to create new
functionality depending on the needs of the user.
Available variables are 26 characters in length and are represented by the letters of the alphabet from A to Z.
Further information on usage are provided throughout the manual, where applicable.
Control
The first option available, starting from the left, is "Control".
Figure 3 –Control
This page allows you to check the current status of the inputs and control the outputs. To control the outputs
click on the relevant lever.
You can use this screen to recognize the state of the I / O according to the indicators LED type, which light up
when the state is ON, and off when it is OFF.
If the names related to I / O channels have been changed, they will appear here instead of the default names
shown in Figure 5.
This page automatically updates the status of input and output every 500 ms.
Functions
From this menu, you can configure the system so that it carries out certain functions, all the way from sending
notifications of the configuration of the outputs to the programming of sequential actions, and more. In the next
sections will now describe them one by one.
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Figure 4 –Functions
Email
From this screen, you can configure the Everywhere module for sending email notifications to one or more
email addresses.
In order to send email, it is necessary that the module is connected to the Internet. Then you must fill in
the various fields properly, according to the data provided by the ISP or you System Administrator.
Figure 5 –Email Settings
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EMAIL notification settings
Everywhere can send notification emails only using a third-party SMTP server (ie. Exchange, company
email) properly configured
Everywhere does not support TLS encrypted SMTP protocol to send notification emails.
Nowadays, the majority of online SMTP servers (such as GMAIL, HOTMAIL, YAHOO) require TLS
encrypted SMTP protocol and do not allow to send email using NON-Encrypted SMTP protocol (port
25) or SSL only encrypted SMTP protocol (port 465).
IMAP and POP protocol are not supported.
In addition to the configuration of the email, in the "Recipients" field you can insert more than one recipient
address, separated by a semi-colon ";".
In the "From" field, you can indicate the mail or customize the sender's name.
In the "Subject" field, you can customize the subject of the email.
Under the table, however, you can define what are the conditions necessary for the system to send the email
notification, selecting from:
Figure 6 –Email Settings (cont.)
BOOT: send an email when the module reboots
INPUTS: send an email when there is a change of status for a selected input. You can also select whether the
notification must be made when the input has a rising or falling edge.
OUTPUTS: send an email alerting the change of status of a selected output. You can also select whether the
item must be made when the output is activated (rising edge) or off (falling edge).
CALENDAR: The calendar sends an email when one or more outputs, among those selected, change state due
to the inserted programming. When the calendar is active, the LED to the left of the network connector blinking
making three quick flashes followed by a pause.
At the end of the settings you can also make a submission test, by clicking the appropriate button, to check that
the data is correct.
Once configured, click on the "Save" button.
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I/O Tests and Timings
This feature allows you to change the output function depending on whether each of them is set to "switch" or
"button" function.
Figure 7 –I/O Tests
When an output is in "switch" mode, its behavior follows the commands sent, whether they come from a CGI
command or from a web interface.
However, when you change an output to "button" mode, a check on the output status is activated that prevents
it from remaining "ON" (relay energized) for longer than the time set on the menu page "Settings-> Timings".
Figure 8 –I/O Timings
In particular the setting that controls the output is related to "pulse time": for example, if the output is 0 in the
"button" and the value set in the "Pulse" column for the exit 0 returns the value 10, the same output is not
permitted to remain in the state of "ON" for more than 1 second. After this time, the output is reset to "OFF" and
remains there until the arrival of a new command that switches it back to "ON".
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This command affects the execution of all the commands that act on the outputs: for example, if you set for exit
0 to "blink" with a period of 5 seconds ON and 3 seconds OFF, and a PULSE time equal to 1 second (times are
set from the menu "Output timing setup") and at the same time you activate “button” mode, you will have the
output follow a cycle that will turn it ON for 1 second.
The function will then reset 4 seconds after remaining in the period “ON” and the output will turn "OFF". At this
point you will run the "OFF" period lasting 3 seconds, as had been set. At the next cycle the output will again
turn to "ON" but again only for 1 second, and so on.
Figure 9 –Follow Input
The "follow" input is selected by clicking the "Setup" button, whose function is influenced by the setting of
"switch" or "button" mode: If you set the "switch mode" function, "follow_input" works on the input signal level
only if it conversely switches to the "button" function. "follow_input" then automatically changes its operation and
acts on the input signal edges.
In addition to the ON, OFF, Blink, Pulse and Follow, there is an intuitive user input feature called LINK, which
allows you to program two types of actions when an input is activated (i.e. the face of rising input). The first
programmable action allows you to reverse (toggle) the status of the outputs that have been selected to each
rising edge. This allows you to control equipment locally, while maintaining the ability to control them remotely.
An application of this feature in a home automation system provides that the Everywhere inputs are connected
to the lighting power buttons, and the relay outputs that activate the lighting itself. The Everywhere directly
controls the lighting in this way, both locally and remotely sparing the user from buy leased units.
The second programmable action allows you to implement a pattern on Everywhere outputs when the selected
input has the rising edge. In this mode, you have over eight combinations of outputs, each of which will be
implemented when the corresponding input will see a rising edge. The use of this function is to set a single
action of the scenarios, i.e. the predetermined configuration of the outputs. For instance, you can enable
external lighting simultaneously by inserting an alarm system using a single button.
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Custom Commands
This feature allows you to send to one or more remote devices over HTTP commands that are user-definable.
Figure 10 –Custom Commands
The settings related to a certain command (IP address of the recipient, the command syntax, credentials, etc.)
is set as a "rule", with a maximum of eight rules that can be defined.
Remote devices are all those devices that accept HTTP commands for the execution of some functions.
A remote device can also be another Arteco Everywhere.
This command is "triggered" by different types of events, as described in step 2.
For the activation of a "rule" the information must be entered as follows:
1. The number of the rule itself (from 0 to 7)
2. The type of change that triggers the rule: it is possible to transmit the command following a positive
edge, negative or opposite of any output, or to TRUE by passing one of the first eight labels, selectable
( from A to H). Leaving this field on the "disabled" value of course it will prevent from sending the
associated command. If you decide to send a command after switching the label to TRUE in the
system, possibly after run, it will reset the same variable to prevent multiple submissions of the
command. To send a new command, the user must again carry the label selected in the TRUE state.
3. The input number or the label whose change (defined in the previous field) should cause the
transmission of the command.
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4. The address of the remote device that is to receive the command. Here you can enter an IP address
(eg. 192.168.10.76) or a URL like "http: //IP_address.xxx" (the "http: //" should be omitted in this field,
so just type “IP_adress.xxx"). In this case, check that the network gateway parameters and DNS
settings are suitable in order for valid and proper host name resolution.
5. In this field, enter the port number on which the remote device is listening and on which port the
command itself will be sent.
6. Enter into this field the command you want to execute from the remote device. It must always be
preceded by the "/" character.
7. If the remote device requires authentication, check the appropriate box. It will send using "basic
authentication".
8. If you were asked to authenticate a specific username, enter it here.
9. If you were asked to authenticate a specifig password, enter it here..
10. You can enter an optional comment as a reminder for the position.
At this point press the "SAVE" button to store the rule.
It is then possible to force-send the command by pressing the “test” button.
If there are more rules you set, they are sent at least every 200 ms.
This is the minimum interval of time between sending and sending the next, but sampling of the inputs occurs
every 100 ms. It is possible that events which control an input for a time less than this will not give rise to a
transmission and will be lost.
Within these limits, all events that are caught are placed in a queue, and then are transmitted every 200 ms.
The event queue can hold about 1000, but it is possible that as the queue fills every 0.1 seconds and emptied
every 0.2 seconds, an excessive number of events can fill the queue. In this case, subsequent events will not
be stored (nor its command sent) until at least one place in the queue is released.
This type of operation is used to manage event queues which succeed more quickly than 200 ms, but for a
limited time.
NOTE:
This adds the ability to trigger the sending of an HTTP command when a label (A to H) is TRUE. This allows
you to connect this function to all other functions implemented by the Everywhere using the label.
Mirroring
This feature allows you to manage inputs and outputs of a module Arteco Everywhere "slave" from another
"master" module.
It is possible to make sure that the slave module reproduces on its outputs, the status of the master module
inputs or outputs, depending on what you select in the configuration page.
With the mirroring function enabled, it establishes a continuous dialogue between master and slave even
without changes to the inputs or outputs, namely the master module will send a "refresh" command to the slave
every second.
Custom commands can also be inserted, in the case of the master module this is a numeric IP address or a
URL.
If authentication is required and not switched off, then you need to enter into the fields the username and
password of the master module similar to those set on the slave module, so that the same commands are
accepted. Failure to enter the credentials, or the insertion of incorrect credentials, will cause failure in
performing mirroring.
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Figure 11 –Mirroring
By entering the appropriate values, you can have the functions of master and slave simultaneously active, either
between two modules that between three or more modules.
Figure 12 –Mirroring (cont.)
Some of the possible configurations are:
•A master module and a slave: slave replicates on its outputs, the status of the inputs (or outputs) of the
master.
•Two of each of the other slave modules: in this case an input that goes to 1 raises the corresponding
area in the output.
•Three modules, namely a master, a slave and another slave module, of which the first and the third are
masters: in this case, by configuring the master to mirror of the inputs on the second, the second as a
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slave of the first and the third master (mirrored outputs), which would have inputs of the first module
that switch to status 1 when you close the relay on both the second and the third module.
•The master has the possibility to send the status of its outputs instead of inputs. You can then replicate
remotely what the local module (Master) is doing.
•The possibility for the slave to apply the data that comes from the master but not to its outputs or its
inputs. In this way, it’s as if the master module outputs were connected to the slave inputs, the LEDs of
the slave module inputs will light up and the module will behave exactly as if its local input were
controlled by the master remote module data.
•The possibility for the slave module to decide which of its channels of input or output should respond to
the mirroring commands: in this way, if you did not need to have all the mirrored channels with the
master, you can use the remaining channels for any other function.
Please be careful and do not create incompatibilities (eg. Two master with the same slave).
A feature can be used both as master and slave on the eight-channel modules in order to reserve output 7 to
report connection errors or timeouts when sending and receiving states from device to mirror: the output can be
used locally for activating an optical or acoustic signal. You can also take advantage of the alarm pulse mode
and the possibility of reversing the logic, to reset and/or restart a possible network device that is not functioning.
Figure 13 –Mirroring (cont.)
For example, as we mentioned, by inverting the output status 7 and enabling the use of it in case of error, if
done correctly, relay 7 would be closed: it will be possible to contact a router or other network equipment.
In the presence of a network fault that does not allow the exchange of packets between the two modules, one or
both can turn the hardware connected to them off and on: simply program the ON and OFF times with output 7
to allow sufficient time for the defective hardware to restart: if an error occurs in the module will send from the
network hardware, and then turn on again, giving it time to restore the connection, at which point the output will
remain in the state 7 ON, keeping the broken hardware.
If the malfunction were to continue, the module will continue to reset and restart the hardware to re-establish the
network connection.
This last feature is not present on the form 4 + 4 I / O.
The following configuration describes how to set up two Everywhere modules for mutual Mirroring mode.
The mutual mirroring requires that the inputs of an "A" enabled form the output of the "B" form and vice versa.
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Micro PLC
This feature allows the user to write sequences of actions using the hardware resources of an Everywhere and
then execute them in sequence.
The actions include the activation and deactivation of the outputs, the insertion of pauses while executing
commands, as well as command execution conditional on the state of the inputs or outputs.
It also includes the ability to set a label to a state and affect command execution by the state of the label value.
In this way, the micro-PLC can activate other features of the Everywhere (i.e. sending email), and in turn the
Everywhere features may affect the implementation of the micro-plc action sequences.
It requires no particular skill in programming, and indeed there is no need to learn any programming language.
The user simply has to select the actions they want to perform, one after the other.
The unique concept, very simply, is to "step." One step is a unit of execution that contains predefined basic
actions, for example the excitation or de-excitation of the outputs, the control of the inputs, the execution of
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breaks and so on. Each step may contain up to six different actions, and you can program the Everywhere for a
maximum of 64 steps.
At any time, you can activate and deactivate the execution of the micro-plc, as well as download the
configurations onto a PC in the form of a text file and reload them, for example, onto another Everywhere.
From the first step, the actions are executed in order from first to sixth, then switch to the first action of the
second step and so on; after the last action of the last step, the cycle begins again automatically and
indefinitely.
All execution occurs in parallel to the normal conduct of other features with which, as previously written, the
micro-PLC can interact.
Note: the sequential execution of the steps may suffer exceptions if you use the jump instruction, conditional or
not, available at every step.
Micro PLC - Edit Mode
When you log on for the first time and navigate to the micro-PLC menu, nothing is set yet, and then shows the
edit page, which is the programming interface.
Figure 14 –Micro PLC
The page consists of two sections and two groups of buttons, referred to as "step options" or "menus".
The following line enables us to position ourselves on any of the 64 steps to add, edit or delete it.
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To gain access to these functions it is necessary that the checkbox "Enable this step for execution" is selected.
Section 1: Step Programming
This section contains all the operations that can be performed within a single step. Every action, to be carried
out, it must first be enabled by checking the Enable checkbox at the beginning of each line.
We describe the individual actions that can be enabled in each step:
# 1 if label (a-> z) is true then goto execute step (1-> 64)
This action makes a check of the label value selected from the list. If the value is TRUE, the execution will jump
to the first action of the programmed step, otherwise the execution will continue with the second action of the
current step. It is basically a conditional jump from the value of the label.
# 2 wait here while input 0-> 7 is active / inactive
If enabled, this action ensures that the selected input is in the state chosen: If this is true then the execution is
suspended until the continuation and implementation of subsequent action does not allow the selected input
status in the current step .
# 3 pauses execution for x milliseconds
This action suspends the execution of the micro-plc for the duration included in "milliseconds" field.
NOTE: All Everywhere features continue to function, only the execution of the micro-plc is suspended for the
specified time.
# 4 turn off / on output 0-> 7
This action switches the output selected in the ON or OFF states. ON means that the contacts of the selected
output relays are closed.
# 5 set label a-> z to true / false.
This action sets the value of the label selected to the state indicated. In conjunction with the action # 1, it is
useful to perform (or not perform) the actions planned in one step depending on the value of the label.
# 6 if input / output 0-> 7 is inactive / active / do not care then go to execute step 1-> 64
This action verifies that the currently selected input or output was indeed programmed. If this occurs, then the
execution will be transferred to the selected step, instead of continuing to the next step. It 'a conditional jump
from the value of an input or an output.
If the drop-down menu you select "do not care" instead of "inactive" or "active" then the execution will be
transferred unconditionally to the indicated step, whatever the input or output value selected.
Section 2: Step Options
SAVE CURRENT: This button stores the programmed step and switches the view in LIST MODE (see below) to
have suffered from a global view of the statements entered so far.
THE CURRENT: This button deletes the current step and, as above, switches the view in LIST MODE.
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