inveo NANO TEMP User manual
User manual
Temperature reading module
NANO TEMP
Soft >= 1.05
INVEO s.c.
ul. Rzemieślnicza 21
43-340 Kozy
tel: +48 33 444 5 87
www.inveo.com.pl
Dear Customer!
Thank you very much for choosing our product. Please carefully read this user
manual as it contains most appropriate ways of dealing with this device, taking into
account the basic principles of safety and maintenance. Please also keep the user
guide that you can use it during subsequent use.
Manufacturer iability!
The manufacturer is not liable for any damage caused by improper or
incompatible use of this device, as well for any faults to the device resulting
from improper use.
User manuald NANO TEMP Page 2 of 21
Contents:
1 PRELIMINARY INFORMATION....................................................................................................................4
2 DEVICE DESCRIPTION ...................................................................................................................................5
3 WARRANTY AND LIABILITY OF THE MANUFACTURER ...................................................................5
4 SAFETY GUIDELINES .....................................................................................................................................6
4.1 POWER SUPPLY....................................................................................................................................................6
4.2 STORAGE, WORKING ENVIRONMENT AND TRANSPORTATION..........................................................................................6
4.3 INSTALLATION AND USE OF THE MODULE..................................................................................................................6
4.4 UTILISATION OF THE MODULE.................................................................................................................................6
5 MODULE DESCRIPTION.................................................................................................................................7
5.1 GENERAL FEATURES.............................................................................................................................................7
5.2 TECHNICAL SPECIFICATION ....................................................................................................................................7
5.3 MODULE INPUT/OUTPUT TERMINAL DESCRIPTION.....................................................................................................7
6 MODULE CONFIGURATION..........................................................................................................................8
6.1 CHANGING THE PC SETTING FOR MODULE CONFIGURATION.........................................................................................8
6.2 CONFIGURATION OF THE MODULE MODULE THROUGH WEB BROWSER.............................................................................9
6.3 INPUT READOUT.................................................................................................................................................10
6.4 ACCESS CONFIGURATION.....................................................................................................................................11
6.5 SNMP CONFIGURATION.....................................................................................................................................13
6.6 MANAGING THE MODULE USING WINDOWS COMMAND LINE SOFTWARE........................................................................14
6.7 MANAGING THE MODULE USING LINUX COMMAND LINE SOFTWARE............................................................................14
6.8 MANAGING THE MODULE USING MODBUS TCP.................................................................................................15
6.9 COMMUNICATION WITH MODULE USING HTTP.......................................................................................................16
6.10 COMMUNICATION PROTOCOL DESCRIPTION............................................................................................................17
6.11 COMMUNICATION WITH MODULE FROM OUTSIDE NETWORK .....................................................................................18
7 DHCP...................................................................................................................................................................1
8 RESTORING FACTORY DEFAULTS ..........................................................................................................1
FIRMWARE UPDATE.....................................................................................................................................20
NOTES..................................................................................................................................................................21
User manuald NANO TEMP Page 3 of 21
1 Preliminary information
Before using the module please read the user manual carefully and follow the
instructions contained within!
Description of visual symbols used in this user manual:
This symbol is responsible for reviewing the appropriate place in the
user instructions, warnings and important information. Failure to
follow warnings could cause injury or damage to the module.
Important information and guidelines.
Following this guidelines makes the use of the module easier.
Attention: The appearance of the screen shots shown in this manual may differ
slightly from the actual work with the module. The differences may relate to the size
and font type and size of symbols. There are no differences in the content of the
information.
User manuald NANO TEMP Page 4 of 21
2 Device description
NANO TEMP module is used to read temperature over different LAN protocols. The
temperature readout is possible using built in www website, HTTP GET protocol, Modbus
TCP, SNMP. This module can communicate with other Inveo modules and trigger relay
actions
3 Warranty and liability of the manufacturer
The manufacturer provides a 2-year warranty on the module. The manufacturer also
provides post-warranty service for 10 years from the date of the introducing the module
on the market. The warranty covers all defects in material and workmanship.
The manufacturer undertakes to comply with the contract of guarantee, if the following
conditions are met:
All repairs, alterations, extensions and device calibrations are performed by the
manufacturer or authorized service,
supply network installation meets applicable standards in this regard,
device is operated in accordance with the recommendations outlined in this manual,
device is used as intended.
The manufacturer assumes no responsibility for consequences resulting from improper
installation, improper use of the module, not following this manual and the repairs of the
module by individuals without permission.
This device doesn’t contain serviceable parts. The repairs can be done only by
manufacturers approved repair service.
User manuald NANO TEMP Page 5 of 21
4 Safety guidelines
The module has been constructed using modern electronic components, according to the
latest trends in the global electronics.
In particular, much emphasis was placed on ensuring optimum safety and reliability
of control.
The device has a housing with high quality plastic.
4.1 Power supply
The module power supply must be in range of 10-24V AC or DC.
The power to module is delivered via POE adapter (Power Over Ethernet).
4.2 Storage, working environment and transportation
The module has to be used in closed environments free from fumes and corrosive
atmosphere.
Environmental conditions for storage:
Temperature: + 5°C to +45°C,
Relative humidity: <75%,
Atmospheric pressure: 700 – 10 0hPa.
Environmental conditions for use:
Temperature: +10°C to +30°C,
Relative humidity: 30% to 75%,
Atmospheric pressure: 700 to 10 0hPa.
Recommended conditions for transportation:
Temperature: -10°C to +45°C,
Relative humidity: 20 to 95%,
Atmospheric pressure 700 to 10 0hPa.
4.3 Installation and use of the module
The module should be used following the guidelines shown in next part of the
user manual.
4.4 Utilisation of the module
When it becomes necessary to liquidate the device (e.g., after the time of use), please
contact the manufacturer or its representative, who are obliged to respond appropriately,
i.e., collecting the module from the user. You can also ask the companies involved
in utilization and / or liquidation of electrical or computer equipment. Under
no circumstances should you place the device along with other garbage.
User manuald NANO TEMP Page 6 of 21
5 Module description
.1 General features
Overall view of the module is shown on the picture below.
There are several ways to communicate with the module:
•using built in WWW server via any web browser,
•MODBUS TCP protocol,
•SNMP protocol,
•HTTP protocol,
•User application – communication protocol available for user
NANO module is equipped with two LEDs indicators power and moment that temperature
is read.
.2 Technical specification:
Power supply voltage: 10-24VDC (POE)
Power consumption: 1.5 W
Input
Input type: 1-wire
Temperature measured : -55°C do +125°C
.3 Module input/output terminal description
Module NANO TEMP has two connection terminals:
•RJ45 socket – LAN network and POE
•Screw terminal – temperature sensor
User manuald NANO TEMP Page 7 of 21
NANO TEMP
6 Module configuration
If using the module for the first time it is needed to configure it as shown below
6.1 Changing the PC setting for module configuration.
After connecting the module to the network there is a need to change the PC setting. In
order to do that navigate to: Start->Control Panel->Network connections.
Then right click on the current network connection and click „Properties”.
The configuration screen as shown below should be visible on the screen:
Choose the „Internet Protocol (TCP/IP)” and press „Properties”:
TCP/IP example settings
Tick the box „Use the following IP address” and enter:
IP address: 192.168.111.1
Subnet mask: 255.255.255.0
The rest of the setting can be left blank.
Press OK to accept the changes.
User manuald NANO TEMP Page 8 of 21
6.2 Configuration of the module module through web browser
Start the web browser and enter the following address into address bar:
192.168.111.15.
The default user name is „admin” with password „admin00”
There are several fields used to configure the module network settings:
MAC Address – MAC address of the module,
Host Name – NETBIOS host name of the module,
Enable DHCP – When this box is ticked the module will get its address from DHCP
server,
IP Address – IP address of the module – when configured manually,
Gateway – Network gateway,
User manuald NANO TEMP Page 9 of 21
Network connection setup
Subnet Mask – Subnet mask of the module,
Primary DNS, Secondary DNS – DNS servers addresses,
Destination IP – Network address of the server that the module will connect to -
optional,
Destination Port – Network port of the server that the module can connect to.
After changing the configuration press the „Save Config” button.
6.3 Input readout.
Visualisation of input state is shown below.
Current temperature is displayed in Home Tab
User manuald NANO TEMP Page 10 of 21
Podgląd temperatury
6.4 Access configuration
Web site used to configure the access to the module is shown below.
These settings allow for changing the access password and to enable/disable particular
services.
Changing the password
Enter old password into Current Password field.
Enter new password into New Password field and into Re-type Password field then press
„Save Config” to save new passwords.
Enabling/disabling particular service
This function enables disables different services. By enabling the tick box next to a
service user can turn it on or off.
Module Access configuration
Enable user password – enables disables requirement for user password
Enable admin password – enables disables requirement for admin password
Enable Program Access – enables/disables the connection to the module via PC
software – Windows or Linux OS.
User manuald NANO TEMP Page 11 of 21
Ustawienia zabezpieczeń
Enable MODBUS TCP Protocol – enables/disables access using MODBUS TCP protocol.
Enable SNMP – enables/disables access using SNMP protocol.
Enable Destination client – enables/disables access using mode of operation
„customer”.
Enable TFTP bootloader – enables disables 10 second bootloader mode after module
reboot
User manuald NANO TEMP Page 12 of 21
6. SNMP configuration
The module is equipped with an SNMP v2c server.
To enable this feature go to Administration tab-> Enable SNMP.
SNMP protocol enables user to retrieve and set the output status and to read state of
inputs and counters.
The MIB file describing the structure can be downloaded the SNMP tab.
NANO TEMP module can send TRAP messages after input activation. Destination address
should be entered in Trap IP address field.
User manuald NANO TEMP Page 13 of 21
6.6 Managing the module using windows command line software
The module can be operated using windows command line software – the software is
delivered with the module.
Syntax is as follows:
TCPRel.exe [Parameters]
Parameter Description
-in=1 Input number
-host=[HOST] Module IP address
-port=[PORT] Module Port number
-readtemp Read temperature
Examples:
Read temperature from module at IP address 192.1 8.111.15 and port 97 1:
TCPRel -in=1 -host=192.168.111.15 -port=9761 -readtemp
6.7 Managing the module using Linux command line software
The module can be configured using Linux command line software – the software is
delivered with the module.
Syntax is as follows:
./TcpRel.exe [Parameters]
Parameter Description
-i 1 Input number
-h [HOST] Module IP address
-p [PORT] Module Port number
-t Read temperature
Przykłady:
Read temperature from module at IP address 192.1 8.111.15 and port 97 1:
./tcprel -i 1 -h 192.168.111.15 -p 9761 -t
User manuald NANO TEMP Page 14 of 21
6.8 Managing the module using MODBUS TCP
MODBUS TCP protocol is listening on port 502.
The module supports following functions of MODBUS protocol:
- 0x01 Read Coils,
- 0x03 Read Holding Register,
- 0x05 Write Single Coil,
- 0x0 Write Single Register,
- 0x0F Write Multiple Coils,
- 0x10 Write Multiple Registers.
The registers description is shown in tables below.
MODBUS TCP - Coils
Register Name Mode:
R-read
W-write
Description
1000 On1 R Over Temperature
1002 SensError R Sensor error (0-ok, 1-error)
MODBUS TCP - Holding Registers
Register Name Mode:
R- read
W-write
Description
4000 ThermostatL R/W Thermostat low setting
4001 ThermostatH R/W Thermostat high setting
4002 Alarm mode R/W 1-OFF (disabled)
2- ower (lower than)
3-Higher (higher than)
4- ower & Higher (lower and higher)
4004 Temperature x10 R Temperature x 10 (ie. 10,5st.C to 105)
4005 Temperature Int R Integral part of temperature
400 Temperature Frac R Decimal part of temperature
4007 MAC 0 R MAC Address
4008 MAC 1 R MAC Address
4009 MAC 2 R MAC Address
4010 MAC 3 R MAC Address
4011 MAC 4 R MAC Address
4012 MAC 5 R MAC Address
4013 StoreConfig W Entering 144 will save to configuration to
EEPROM
User manuald NANO TEMP Page 15 of 21
6.9 Communication with module using HTTP.
NANO TEMP modules can be controlled using HTTP. To read current state of the
module inputs/outputs access this address - http://192.1 8.111.15/stat.php – in web
browser.
XML file consist all of the information
<response>
<prod_name>PE-DS</prod_name>
<out>00000000</out>
<on>00000000</on>
<in>00000000</in>
<counter1>0</counter1>
<temp1>21.3</temp1>
</response>
Section Description
<prod_name>PE-DS</prod_name> Type of module
In this case PE_DS.
<out>00000000</out> Output state (enabled/disabled).
N/A in NANO TEMP
<on>00000000</on> Output state - N/A in NANO TEMP
<in>00000000</in> Input state (Active/Inactive)
N/A in NANO TEMP
<counter1>0</counter1> Counter inputs
N/A in NANO TEMP
<temp1>21.3</temp1> Temperature sensor reading
Temperature is 21.3 degrees
User manuald NANO TEMP Page 16 of 21
6.10 Communication protocol description
Byte 1 2 3 4 5 7 8 9 10 11
Name SOF CMD CH Data 1 Data 2 Data 3 Data 4 Data 5 Data Data 7 CRC Return
Command
Set output 15 1 0-7 Mode
[1-3]*
ON/OFF
[0,1]
TON
LSB*
TON
MSB*
TOFF
LSB*
TOFF
MSB*
Restart
state**
CRC ON or NO
Read
channel
parameters
15 2 0-7 x x x x x x x CRC
Set counter 15 10 0-7 [0:7] [8:15] [1 :23] [24:31] CRC
Read
counter
15 11 0-7 [0:7] [8:15] [1 :23] [24:31] CRC
WWW
control
15 99 x 1
-status
0x55 –
off
all
other -
on
x x x x x x CRC ON or NO
Read
channels
15 100 x x x x x x x x CRC CH7-CH0 Chx – 2
bytes; 1
output
state 2 coil
state
Read
channel
name
15 101 0-7 x x x x x x x CRC String
Read
device
name
15 200 x x x x x x x x CRC String
*only Lantick and PE-2-1
** only Lantick
*** - Reading parameters returns:
SOF CMD Ch Data 1 Data 2 Data 3 Data 4 Data 5 Data Data 7 CRC
15 2 0-7 Mode[1-3],
100-input
ON/OFF[0,1] TON
LSB
TON
MSB
TOFF
LSB
TOFF
MSB
Restart state CRC
Description Value State
ON/OFF 0 off
1 on
MODE 1 static
2 toggle
3 1-pulse
CRC Byte sum
As default modules are listening on port 97 1
Frame examples:
Enabling output 1 in static mode
SOF CMD CH Data 1 Data 2 Data 3 Data 4 Data 5 Data Data 7 CRC
15 1 0 0 1 1 0 0 0 0 18
Set counter 2 to 100
SOF CMD CH Data 1 Data 2 Data 3 Data 4 Data 5 Data Data 7 CRC
15 10 1 100 0 0 0 0 0 0 132
6.11 Communication with module from outside network
If the module is in the LAN network different than PC that connects to it, the redirection of
ports is necessary.
Depending on the form of communication different ports need to be redirected:
Using web interface:
port TCP/IP 80
Computer software or customer application:
1 port TCP/IP 97 1
Using MODBUS TCP protocol:
•port TCP/IP 502
Using SNMP protocol:
•port UDP 1 1
7 DHCP
To enable disable DHCP:
1. Press and hold RESET button for 5-10 seconds
2. Green LED will start flashing 2 times a second
3. Release RESET button
8 Restoring factory defaults
In order to restore the module to its factory defaults press and hold reset button for at least
10-15 seconds. The green LED will start flashing 4 times second
With factory defaults restored the module settings are as follows:
−IP address : 192.1 8.111.15
−IP mask : 255.255.255.0
−User name : admin
−Password: admin00
9 Firmware update
The module has the ability to update the firmware. The firmware is supplied as a file with .hex
extension.
Note! Improper use of the update feature may damage the module. Make sure that
undisturbed power is connected to the module for duration of programming.
To perform the programming operation, go to the Windows command line (Start-> Run-
> type 'cmd' and confirm with Enter).
Then navigate to the directory where the file resides and enter the command
tftp <module_ip_adress> PUT filename.hex
where: < module_ip_adress > is the IP address of the module
filename.hex – is the firmware supplied by Inveo s.c.
The programming takes about 1 minute and it’s confirmed by “File Transferred” message.
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