inveo Nano POE Manuale utente

User manual
Nano Temperature Sensor POE
Nano Temperature Sensor
Soft >= 1.21
INVEO s.c.
ul. Rzemieślnicza 21
43-340 Kozy
tel: +48 33 444 6 87
www.inveo.com.pl

Dear Customer!
Thank you very much for choosing our product. Before its use, please read these
instructions carefully. Here you find the most appropriate ways of dealing with this
device, the basic principles of safety and maintenance. Please, also keep the user manual
so that you can read it during later use.
Attention!
The manufacturer is not liable for an damage caused b improper use of
the device which differ from its intended purpose, or improper handling, as well
as a fault of driver resulting from improper use.
User manual Nano Temperature Sensor PoE / Nano Temperature Sensor Page 2 of 29
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Contents:
1 PRELIMINARY INFORMATION...................................................................................................................4
2 APPLICATION OF THE DEVICE..................................................................................................................5
3 WARRANTY AND LIABILITY OF THE MANUFACTURER...................................................................5
4 SAFETY GUIDELINES.....................................................................................................................................6
4.1 STORAGE, WORK AND TRANSPORT CONDITIONS.........................................................................................................6
4.2 INSTALLATION AND USE OF THE DEVICE..................................................................................................................6
4.3 DECOMMISSIONING OF THE DEVICE.........................................................................................................................6
5 CONSTRUCTION OF THE DEVICE..............................................................................................................7
5.1 NANO TEMPERATURE SENSOR POE.......................................................................................................................7
5.2 NANO TEMPERATURE SENSOR..............................................................................................................................9
6 CONFIGURATION OF THE DEVICE.........................................................................................................11
6.1 CHANGING THE DEVICE S IP ADDRESS BY DISCOVERER APPLICATION.........................................................................11
6.2 CHANGING THE PC S SUBNET ADDRESS, FOR THE DEVICE CONFIGURATION..................................................................12
6.3 SECURITY SETTINGS AND ADMINISTRATION............................................................................................................14
7 THE DEVICE FUNCTIONS...........................................................................................................................15
7.1 PREVIEW OF THE MEASURED TEMPERATURE...........................................................................................................15
7.2 ALARMS..........................................................................................................................................................15
7.3 DESTINATION CLIENT........................................................................................................................................17
7.4 SNMP CONFIGURATION....................................................................................................................................21
7.5 WINDOWS COMMAND LINE SOFTWARE..................................................................................................................22
7.6 LINUX CONTROL PROGRAM.................................................................................................................................22
7.7 MODBUS TCP.................................................................................................................................................23
7.8 MQTT INVEO.................................................................................................................................................24
7.9 COMMUNICATION WITH MODULE USING HTTP......................................................................................................25
7.10 DESCRIPTION OF THE COMMUNICATION PROTOCOL................................................................................................27
8 COMMUNICATION WITH THE MODULE FROM THE E TERNAL NETWORK...........................28
9 CHECKING THE IP ADDRESS.....................................................................................................................28
10 DHCP................................................................................................................................................................28
11 RESTORING FACTORY DEFAULTS........................................................................................................29
12 FIRMWARE UPDATE..................................................................................................................................29
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1 Preliminar information
Before starting work with the device, read The User manual and follow the
instructions contained therein!
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 device
Important information and guidelines
Following this guidelines makes the use of the device easier
Attention: The screenshots in this manual can be dissimilar from actual images at
the time of the device purchase. Due to continuous development of the devices software,
some of the functions may differ from these in the manual. The manufacturer claims no
responsibility for any undesirable effects (misunderstanding) caused by changes of
the software.
User manual Nano Temperature Sensor PoE / Nano Temperature Sensor Page 4 of 29
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2 Application of the device
NANO Temperature Sensor module is used to read temperature over different LAN
protocols. The temperature readout is possible using built in www website, HTTP GET,
Modbus TCP, SNMP and MQTT protocols. This module can communicate with other Inveo
modules and e.g. trigger relay actions.
3 Warrant and liabilit of the manufacturer
The manufacturer provides a 2-year warranty on the device. The manufacturer also
provides post-warranty service for 10 years from the date of the introducing the device
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,
the device is operated in accordance with the recommendations outlined in this
manual,
the device is used as intended.
The manufacturer assumes no responsibility for consequences resulting from improper
installation, improper use of the device, not following this manual and the repairs of the
device by individuals without permission.
This device doesn’t contain serviceable parts.
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4 Safet guidelines
The device has been designed and built 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 a high-
quality plastic.
4.1 Storage, work and transport conditions
The device has to be stored in enclosed rooms which are free of caustic vapors and
substances and also meet the requirements:
surrounding temperature from -30°C to +60°C,
humidity from 2 to 90%,
atmospheric pressure from 700 to 1060hPa.
The device working conditions:
surrounding temperature from -10°C to + °C,
relative humidity from 30% to 7 %,
atmospheric pressure from 700 to 1060hPa.
Recommended transport conditions:
surrounding temperature from -40°C to +8 °C,
relative humidity from % to 9 %,
atmospheric pressure from 700 to 1060hPa.
4.2 Installation and use of the device
The device should be used following the guidelines shown in next part of the
user manual.
4.3 Decommissioning of the device
When it becomes necessary to recycle the device (for instance, to decommission the
device from service), please contact the manufacturer or its representative, who are
obliged to respond, appropriately, i.e. collecting the device from the user. You can also
ask the companies involved in recycling of electrical or computer equipment. Under no
circumstances should you place the device along with other waste material.
User manual Nano Temperature Sensor PoE / Nano Temperature Sensor Page 6 of 29
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5 Construction of the device
5.1 ano Temperature Sensor PoE
Technical data:
Power supply::
PoE: 33- 7V POE IEEE 802.3af
DC: 10-24VDC (screw terminals 3, mm)
Power consumption: max 1, W
Inputs:
1 input: input type: 1-wire bus
type of sensor: DS18B20
temperature measured: - °C do +12 °C
screw connection
Communication:
1 port Ethernet: 10Mbps
PoE IEEE 802.3af
Housing:
IP Code: 30
Dimensions:
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General features:
The device has a 7-segment display.
There are several ways to communicate with the module:
•using built in WWW server via any web browser,
•Windows / Linux command line programs,
•MODBUS TCP protocol,
•SNMP protocol,
•MQTT Inveo protocol,
•User application – TCP protocol available for user.
Description of the module connectors:
•LAN – LAN connection and PoE IEEE 802.3af power supply,
•RESET – switch used to enabling DHCP service, checking the current IP address
and restoring the module to the factory settings.
•1-WIRE – screw connection for connection of the temperature sensor,
•POWER – power connector. An additional power connector used in the event of a
PoE power failure. Supply voltage 10-24VDC.
User manual Nano Temperature Sensor PoE / Nano Temperature Sensor Page 8 of 29
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5.2 ano Temperature Sensor
Technical data:
Power supply:
The module is adapted to 12-24VDC power supply.
Power is supplied through the PoE adapter.
Inputs:
1 input: input type: 1-wire bus
type of sensor: DS18B20
temperature measured: - °C do +12 °C
screw connection
Communication:
1 port Ethernet: 10Mbps
passive PoE 12-24VDC power supply
Housing:
IP Code: 30
Dimensions:
User manual Nano Temperature Sensor PoE / Nano Temperature Sensor Page 9 of 29
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General features:
The device has two LEDs. LEDs indicate power supply and temperature reading.
There are several ways to communicate with the module:
•using built in WWW server via any web browser,
•Windows / Linux command line programs,
•MODBUS TCP protocol,
•SNMP protocol,
•MQTT Inveo protocol,
•User application – TCP protocol available for user.
Description of the module connectors:
•LAN – LAN network and Passive PoE power supply,
•RESET – switch used to enabling DHCP service and restoring the module to the
factory settings.
•1-WIRE – screw connection for connection of the temperature sensor.
User manual Nano Temperature Sensor PoE / Nano Temperature Sensor Page 10 of 29
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