MarCom GW-IMP-WEB-4 Web Counter Datalogger User Manual
- June 4, 2024
- MarCom
Table of Contents
MarCom GW-IMP-WEB-4 Web Counter Datalogger
Revision Table
| Release No. | Date | Revision Description |
|---|---|---|
| Rev. 1 | 11/04/19 | Nuovo formato guida |
| Rev. 1.1 | 28/06/19 | Modificata sezione FTP setup. Aggiunta sezione guida |
download file FTP.
Rev. 1.2| 13/01/2020| From GW-IMP-WEB-4 v1.8
Manual downloadable at:
https://shop.marcomweb.it/en/shop-online/remote-control/datalogger/gw-imp-
web-4-pulse-counter-web-datalogger-18-di-eth-l-dettagli.html
GENERAL INFORMATION
System
The web pulse counter datalogger is able to count pulses on the digital inputs
(2 expandable by default). Via the web interface it is possible to display
counting values, change pulse weight and enter an offset in case of
misalignment or post installation of the counter. All data can be displayed
via the web interface or accessed via MODBUS TCP connection (on request also
via MODBUS RTU). As an optional feature, the data logger can be ordered with
time-based saving of the counters to a csv file in the internal memory or to
an SD card. The files can be downloaded via ftp server functionality.
This version of the datalogger has a maximum of 18 countable inputs and
provides the values on:
- RS232 MODBUS RTU slave port;
- RS485 MODBUS RTU slave port;
- Ethernet MODBUS TCP Server port (max 3 client connection);
Features
Connections
The gateway has:
- -2 x RS232 serial port for reading data from a Modbus RTU master
- 1 x RS485 serial port for reading data from a Modbus RTU master, identified by the word FIELDBUS
- 1 x Ethernet port for reading data from a Modbus TCP master
- SD card slot for saving data
- 1 x screw connector for power supply 10-30 VDC (min. 2 W)
- LED indicators on the front for communication diagnostics
- 2+16 x Digital Input (*)
- 2+8 x Digital Output ()
() Their status is mapped in Modbus registers.
I/O Connections
Serial connections
RS232 and RS485 serial connection (FIELD BUS):
CONFIGURATION AND MODBUS MAP
TCP Connection
In order to view the web pages containing the data, it is necessary to connect
the datalogger to the Ethernet network via the RJ45 port available. Using a
web browser, simply type in the default address: 192.168.0.122; if there is no
connection, check that your network card has an address on the 192.168.0.X
subnet.
This will take you to the main datalogger screen with the counter values..
Web Pages
Home datalogger
From this page, through the links at the top of the page, the following pages can be accessed:
- Historical data; Page containing the last 5 datalogger values and setting the save time.
- IO Status; Page to check the status of the inputs and to set the outputs available to the datalogger.
- Setting pulse; Page for setting pulse counter parameters such as pulse weight and count offset.
- Hardware setup; Page to change the hardware parameters of the pulse counter such as IP address and Modbus communication parameters.
- Time setup; Page to change the time or activate the NTP protocol.
- FTP Setup; Page to configure the automatic sending of files to an FTP server.
- System; Page for logging in to enable changes and to reboot the system.
Historical data
Data is stored at fixed intervals, set in the Save interval field. This value must be between 30 seconds and 86400 seconds (corresponding to one day) and indicates every how many seconds the data is stored starting at 00:00 on the first day of the month. If the Save interval value is set to 0, saving is disabled.
IO Status
On the IO Status page you can check the status of the digital inputs, view and set (after login) the status of the digital outputs and the percentage value of the analogue inputs..
Setting pulse
On the Setting datalogger page, it is possible to reset counter values, change pulse weights and offsets.
Hardware setup
- The parameters that can be changed in the Hardware Setup page depend on the version of the counter.
- The RS232 serial port corresponds to COM0, while the RS485 serial port corresponds to COM2.
- After changing and saving the parameters, the device must be restarted.
- This can also be done from the System page.
Time setup
In the Time setup page it is possible to change the device time and enable the
update from NTP server.
The device does not have a realtime clock, so if the NTP update is not
enabled, each time the device is restarted it resets to zero time (1/1/1970
00:00:00).
FTP setup
The fields User FTP and Password FTP must be filled in, otherwise the file
will not be sent successfully.
If the FTP server sending is enabled, a new file is created every day at the
indicated time, with the saves of the last 24 hours. This file is saved in the
SD memory. Every day at the indicated time the datalogger tries to send the
file to the FTP server adding to the name the prefix set, if the sending is
not successful the datalogger tries again the next day.
System
On this page it is possible to login (Username = Admin, Password = Admin), which is necessary to modify the parameters, and to force a restart of the device..
Modbus area map
The data read from the counter are placed in the Holding Register memory area.
A copy of the values in the following table is present from register 4×20000.
Modbus addresses are base 1 and double word values may need to be swapped.
Variabile Name| Type| MODBUS
Address
| Note
---|---|---|---
DIGITAL INPUT 1| UINT| 4×40001| Digital Input (0= contact opened,
1=contact closed )
DIGITAL INPUT 2| UINT| 4×40002
DIGITAL INPUT 3| UINT| 4×40003
DIGITAL INPUT 4| UINT| 4×40004
DIGITAL INPUT 5| UINT| 4×40005
DIGITAL INPUT 6| UINT| 4×40006
DIGITAL INPUT 7| UINT| 4×40007
DIGITAL INPUT 8| UINT| 4×40008
DIGITAL INPUT 9| UINT| 4×40009
DIGITAL INPUT 10| UINT| 4×40010
DIGITAL INPUT 11| UINT| 4×40011
DIGITAL INPUT 12| UINT| 4×40012
DIGITAL INPUT 13| UINT| 4×40013
DIGITAL INPUT 14| UINT| 4×40014
DIGITAL INPUT 15| UINT| 4×40015
DIGITAL INPUT 16| UINT| 4×40016
DIGITAL INPUT 17| UINT| 4×40017
DIGITAL INPUT 18| UINT| 4×40018
DIGITAL OUTPUT 1| UINT| 4×41500| Digital Output (0= contact opened,
1=contact closed )
DIGITAL OUTPUT 2| UINT| 4×41501
DIGITAL OUTPUT 3| UINT| 4×41502
DIGITAL OUTPUT 4| UINT| 4×41503
DIGITAL OUTPUT 5| UINT| 4×41504
DIGITAL OUTPUT 6| UINT| 4×41505
DIGITAL OUTPUT 7| UINT| 4×41506
DIGITAL OUTPUT 8| UINT| 4×41507
DIGITAL OUTPUT 9| UINT| 4×41508
DIGITAL OUTPUT 10| UINT| 4×41509
| | |
RESET| UINT| 4×40000| Reset of actual counters
CONTATORE 1| REAL| 4×41024| Counter total
CONTATORE 2| REAL| 4×41026
CONTATORE 3| REAL| 4×41028|
---|---|---|---
CONTATORE 4| REAL| 4×41030
CONTATORE 5| REAL| 4×41032
CONTATORE 6| REAL| 4×41034
CONTATORE 7| REAL| 4×41036
CONTATORE 8| REAL| 4×41038
CONTATORE 9| REAL| 4×41040
CONTATORE 10| REAL| 4×41042
CONTATORE 11| REAL| 4×41044
CONTATORE 12| REAL| 4×41046
CONTATORE 13| REAL| 4×41048
CONTATORE 14| REAL| 4×41050
CONTATORE 15| REAL| 4×41052
CONTATORE 16| REAL| 4×41054
CONTATORE 17| REAL| 4×41056
CONTATORE 18| REAL| 4×41058
PESO_IMP_1| REAL| 4×41074| Weight assigned for pulses on the respective
counter 1
PESO_IMP_2| REAL| 4×41076
PESO_IMP_3| REAL| 4×41078
PESO_IMP_4| REAL| 4×41080
PESO_IMP_5| REAL| 4×41082
PESO_IMP_6| REAL| 4×41084
PESO_IMP_7| REAL| 4×41086
PESO_IMP_8| REAL| 4×41088
PESO_IMP_9| REAL| 4×41090
PESO_IMP_10| REAL| 4×41092
PESO_IMP_11| REAL| 4×41094
PESO_IMP_12| REAL| 4×41096
PESO_IMP_13| REAL| 4×41098
PESO_IMP_14| REAL| 4×41100
PESO_IMP_15| REAL| 4×41102
PESO_IMP_16| REAL| 4×41104
PESO_IMP_17| REAL| 4×41106
PESO_IMP_18| REAL| 4×41108
OFFSET_1| REAL| 4×41124| Offset added to total
OFFSET_2| REAL| 4×41126
OFFSET_3| REAL| 4×41128
OFFSET_4| REAL| 4×41130
OFFSET_5| REAL| 4×41132
OFFSET_6| REAL| 4×41134
OFFSET_7| REAL| 4×41136
OFFSET_8| REAL| 4×41138|
---|---|---|---
OFFSET_9| REAL| 4×41140
OFFSET_10| REAL| 4×41142
OFFSET_11| REAL| 4×41144
OFFSET_12| REAL| 4×41146
OFFSET_13| REAL| 4×41148
OFFSET_14| REAL| 4×41150
OFFSET_15| REAL| 4×41152
OFFSET_16| REAL| 4×41154
OFFSET_17| REAL| 4×41156
OFFSET_18| REAL| 4×41158
NUMERO IMPULSI 1| UDINT| 4×41174| Total number of pulses
NUMERO IMPULSI 2| UDINT| 4×41176
NUMERO IMPULSI 3| UDINT| 4×41178
NUMERO IMPULSI 4| UDINT| 4×41180
NUMERO IMPULSI 5| UDINT| 4×41182
NUMERO IMPULSI 6| UDINT| 4×41184
NUMERO IMPULSI 7| UDINT| 4×41186
NUMERO IMPULSI 8| UDINT| 4×41188
NUMERO IMPULSI 9| UDINT| 4×41190
NUMERO IMPULSI 10| UDINT| 4×41182
NUMERO IMPULSI 11| UDINT| 4×41194
NUMERO IMPULSI 12| UDINT| 4×41196
NUMERO IMPULSI 13| UDINT| 4×41198
NUMERO IMPULSI 14| UDINT| 4×41200
NUMERO IMPULSI 15| UDINT| 4×41202
NUMERO IMPULSI 16| UDINT| 4×41204
NUMERO IMPULSI 17| UDINT| 4×41206
NUMERO IMPULSI 18| UDINT| 4×41208
GUIDE TO DOWNLOADING FILES FROM SD
The following section contains instructions for FTP connection to the
datalogger to download files or delete older files already transferred to the
FTP server..
File Explorer
-
Open a new File Explorer window
-
In the address bar, type ftp://Admin:[email protected] and pusch Enter
-
Access the D folder
Total Commander
-
Open FTP Connect…
-
Create a new connection; Username = Admin, Password = Admin
-
In the “Connect to ftp server” window, click on Connect and after connecting, access the folder [D:].
FileZilla
-
Open Site Manager and create a new site.
-
Enter the IP address (Default 192.168.0.122) in the Host field, the connection port (Default 21) in the Port field, set Logon Type to Normal, User is Admin and Password is Admin
-
Connect the server and access the D:
PHYSICAL CHARACTERISTICS
The gateway’s dimensions are:
Documents / Resources
|
MarCom GW-IMP-WEB-4 Web Counter
Datalogger
[pdf] User Manual
GW-IMP-WEB-4, Web Counter Datalogger, GW-IMP-WEB-4 Web Counter Datalogger,
Counter Datalogger, Datalogger
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