netvox R718KA2 Wireless 2 Input mA Current Meter Interface 4-20mA User Manual
- June 9, 2024
- netvox
Table of Contents
R718KA2 Wireless 2 Input mA
Current Meter Interface 4-20mA
**User Manual
**
Introduction
R718KA2 is a 2-way current detection device for Netvox Class A type devices
based on LoRaWAN open protocol.
The device is suitable for detecting 4mA to 20mA current, and R718KA2 is
compatible with LoRaWAN protocol.
LoRa Wireless Technology:
LoRa is a wireless communication technology famous for its long-distance
transmission and low power consumption. Compared with other communication
methods, LoRa spread spectrum modulation technique greatly extend the
communication distance. It can be widely used in any use case that requires
long-distance and low-data wireless communications. For example, automatic
meter reading, building automation equipment, wireless security systems,
industrial monitoring. It has features like small size, low power consumption,
long transmission distance, strong anti-interference ability and so on.
LoRaWAN:
LoRaWAN uses LoRa technology to define end-to-end standard specifications to
ensure interoperability between devices and gateways from different
manufacturers.
Appearance
Main Features
- Compatible with LoRaWAN
- Simple operation and setting
- 2 ER14505 lithium batteries in parallel power supply (3.6V / section)
- IP Rating: IP65
- 4mA to 20mA current meter interface
- Compatible with LoRaWAN ™Class A
- The base is attached with a magnet that can be attached to a ferromagnetic material object
- Frequency hopping spread spectrum
- Configuration parameters can be configured via a third-party software platform, data can be read and alerts can be set via SMS text and email (optional)
- Applicable to third-party platforms: Activity/Thing Park, TTN, Devices/Cayenne
- Low power consumption and long battery life
Battery Life:
⁻ Please refer to web: http://www.netvox.com.tw/electric/electric_calc.html
⁻ At this website, users can find battery life time for variety models at
different configurations.
Set up Instruction
On/Off
Power on | Insert batteries. (users may need a screwdriver to open) |
---|---|
Turn on | Press and hold the function key for 3 seconds till the green |
indicator flashes once.
Turn off (Restore to factory setting)| Press and hold the function key for 5
seconds till green indicator flashes 20 times.
Power off| Remove Batteries.
**** Note:| 1. Remove and insert the battery; the device is at off
state by default. Turn on the device to use again.
2. On/off interval is suggested to be about 10 seconds to avoid the
interference of capacitor inductance and other energy storage components.
3. 5 seconds after power on, the device will be in engineering test mode.
Network Joining
**** Never joined the network| Turn on the device to search the network
to join. The green indicator stays on for 5 seconds: success The green
indicator remains off: fail
---|---
Had joined the network (not at factory setting)| Turn on the device to
search the previous network to join. The green indicator stays on for 5
seconds: success
The green indicator remains off: fail
Fail to Join The Network| Suggest to check the device verification
information on the gateway or consult your platform **** server provider.
Function Key
Press and hold for 5 seconds| Restore to factory setting / Turn off The green
indicator flashes for 20 times: success The green indicator remains off: fail
---|---
**** Press once| The device is in the network: green indicator flashes once
and sends a report
The device is not in the network: green indicator remains off
Sleeping Mode
**** The device is on and in the network| Sleeping period: Min Interval.
When the report change exceeds setting value or the state changes: send a data
report according to Min Interval.
---|---
Low Voltage Warning
Low Voltage | 3.2V |
---|
Data Report
After power on, the device will immediately send a version packet report and
an attribute packet report.
The device sends data according to the default configuration before any other
configuring.
Default Setting:
Maximum time: 900s (15min)
Minimum time: 900s (15min)
Battery Change: 0x01 (0.1V)
Current Chang:0x02 (2mA)
Note:
- The cycle of the device sending the data report is according to the default.
- The interval between two reports must be the MinTime
- If there is special customized shipment, the setting shall be changed according to customer requirements.
Please refer Netvox LoRaWAN Application Command document and Netvox Lora Command Resolver http://www.netvox.com.cn:8888/page/index to resolve uplink data.
Data report configuration and sending period are as following:
Min. Interval
(Unit:second)| Max. Interval(Unit:second)| Reportable Change| Current
Change≥Reportable Change| Current Change<Reportable Change
---|---|---|---|---
Any number between1~65535| Any number between1~65535| Can not be 0.| Reportper
Min. Interval| Reportper Max. Interval
5.1 Example of Report DataCmd
FPort:0x06
Bytes | 1 | 1 | 1 | Var(Fix=8 Bytes) |
---|---|---|---|---|
Version | Device Type | Report Type | Netvox Payload Data |
Version– 1 byte –0x01——the Version of NetvoxLoRaWAN Application Command
Version
DeviceType– 1 byte – Device Type of Device
The devicetype is listed in Netvox LoRaWAN Application Devicetype doc
ReportType – 1 byte –the presentation of the NetvoxPayLoadData,according the
devicetype
NetvoxPayLoadData– Fixed bytes (Fixed =8bytes)
Device| Device Type| Report Type|
NetvoxPayLoadData
---|---|---|---
R718KA2| 0x44| 0x01| Battery(1Byte) unit:0.1V| Current1(1Byte) unit:1mA|
Current2(1Byte) unit:1mA| FineCurrent1(1Byte) unit:0.1mA| FineCurrent2
(1Byte) unit:0.1mA)| Reserved (3Bytes) fixed 0x00
Uplink:014401240E0F9298000000
Byte | Value | Attribute | Result | Resolution |
---|---|---|---|---|
1st | 01 | Version | 1 | – |
2nd | 44 | Device Type | 44 | – |
3rd | 01 | ReportType | 1 | – |
4th | 24 | Battery | 3.6v | 24(HEX)=36(DEC),36*0.1v=3.6v |
5th | 0E | Current 1 | 14 mA | 0E(HEX)=14(DEC),14*1mA=14mA- |
6th | 0F | Current 2 | 15 mA | 0F(HEX)=15(DEC),15*1mA=15mA |
7th | 92 | FineCurrent 1 | 14.6 mA | 92(HEX)=146(DEC),146*0.1mA=14.6mA |
8th | 98 | FineCurrent 2 | 15.2mA | 98(HEX)=152(DEC),152*0.1mA=15.2mA |
9th~11th | 000000 | Reserved | 0 | – |
5.2 Example of ConfigureCmd
FPort:0x07
Bytes | 1 | 1 | Var (Fix =9 Bytes) |
---|---|---|---|
CmdID | DeviceType | NetvoxPayLoadData |
CmdID– 1 byte
DeviceType– 1 byte – Device Type of Device
NetvoxPayLoadData– var bytes (Max=9bytes)
Description| Device| Cmd ID| Device Type|
NetvoxPayLoadData
---|---|---|---|---
Config ReportReq|
R718KA2
| 0x01| 0x44| MinTime (2bytes Unit:s)| MaxTime (2bytes Unit:s)| Battery Change (1byte Unit:0.1v)| Current Change (1byte Unit:1mA)| Reserved (3Bytes,Fixed
0x00)
Config
ReportRsp
|
0x81
| Status(0x00_success)| Reserved (8Bytes,Fixed 0x00)
ReadConfig
ReportReq|
0x02
| Reserved(9Bytes,Fixed 0x00)
ReadConfig ReportRsp|
0x82
| MinTime
(2bytes Unit:s)| MaxTime (2bytes Unit:s)| BatteryChange
(1byte Unit:0.1v)| CurrentChange (1byte Unit:1mA)| Reserved
(3Bytes,Fixed 0x00)
-
Configure the device parameter MinTime = 1min, MaxTime = 1min, BatteryChange = 0.1v, CurrentChange= 5mA
Downlink: 0144003C003C010A000000
Device Return:
8144000000000000000000 (configuration success)
8144010000000000000000 (configuration failure) -
Read the device parameter
Downlink: 0244000000000000000000
Device Return:
8244003C003C010A000000 (device current parameter)
5.3 Example for MinTime/MaxTime logic
Example#1 based on MinTime = 1 Hour, MaxTime= 1 Hour, Reportable Change i.e.
BatteryVoltageChange=0.1V
Note:
MaxTime=MinTime. Data will only be report according to MaxTime (MinTime)
duration regardless BatteryVoltageChange value.
Example#2 based on MinTime = 15 Minutes, MaxTime= 1 Hour, Reportable Change
i.e. BatteryVoltageChange= 0.1V Example#3 based on MinTime = 15 Minutes,
MaxTime= 1 Hour, Reportable Change i.e. BatteryVoltageChange= 0.1V
Notes:
- The device only wakes up and performs data sampling according to MinTime Interval. When it is on sleeping mode, it does not collect data.
- The data collected is compared with the last data reported. If the data variation is greater than the ReportableChange value, the device reports according to MinTime interval. If the data variation is not greater than the last data reported, the device reports according to MaxTime interval.
- We do not recommend to set the MinTime Interval value too low. If the MinTime Interval is too low, the device wakes up frequently and the battery will be drained soon.
- Whenever the device sends a report, no matter resulting from data variation, button pushed or MaxTime interval, another cycle of MinTime/MaxTime calculation is started.
Installation
-
Wireless Current Meter Interface (R718KA2) has the built-in magnet (as the figure below). When installed, it can be attached to the surface of an object with iron which is convenient and quick. To make the installation more secure, use screws (purchased) to secure the unit to a wall or other surface (as the figure below).
Note : Do not install the device in a metal shielded box or in an environment with other electrical equipment around it to avoid affecting the wireless transmission of the device. -
Connect the sampling line of the current meter interface sensor to the transmitter according to the wiring method shown in figure. There are two connection modes, 2-wire and 3-wire.
-
When the current meter interface sensor detects the current value according to the configured time or by pressing the button, it sends the data immediately.
Wireless Current Meter Interface (R718KA2)
It can also be applied to the following scenarios:
- Pressure transmitter
- Differential pressure transmitter
- Level transmitter
- Flow transmitter
The transmitter with 4-20mA output signal
Information about Battery Passivation
Many of Netvox devices are powered by 3.6V ER14505 Li-SOCl2 (lithium-thionyl
chloride) batteries that offer many advantages including low self-discharge
rate and high energy density.
However, primary lithium batteries like Li-SOCl2 batteries will form a
passivation layer as a reaction between the lithium anode and thionyl chloride
if they are in storage for a long time or if the storage temperature is too
high. This lithium chloride layer prevents rapid self-discharge caused by
continuous reaction between lithium and thionyl chloride, but battery
passivation may also lead to voltage delay when the batteries are put into
operation, and our devices may not work correctly in this situation.
As a result, please make sure to source batteries from reliable vendors, and
it is suggested that if the storage period is more than one month from the
date of battery production, all the batteries should be activated.
If encountering the situation of battery passivation, users can activate the
battery to eliminate the battery hysteresis.
ER14505 Battery Passivation:
7.1 To determine whether a battery requires activation
Connect a new ER14505 battery to a resistor in parallel, and check the voltage
of the circuit.
If the voltage is below 3.3V, it means the battery requires activation.
7.2 How to activate the battery
a. Connect a battery to a resistor in parallel
b. Keep the connection for 5~8 minutes
c. The voltage of the circuit should be ≧3.3, indicating successful
activation.
Brand| Load Resistance| Activation Time| Activation
Current
---|---|---|---
NHTONE| 165 Ω| 5 minutes| 20mA
RAMWAY| 67 Ω| 8 minutes| 50mA
EVE| 67 Ω| 8 minutes| 50mA
SAFT| 67 Ω| 8 minutes| 50mA
Note:
If you buy batteries from other than the above four manufacturers, then the
battery activation time, activation current, and required load resistance
shall be mainly subject to the announcement of each manufacturer.
Important Maintenance Instruction
Kindly pay attention to the following in order to achieve the best maintenance of the product:
- Keep the device dry. Rain, moisture and various liquids or water may contain minerals that can corrode electronic circuits. In case the device is wet, please dry it completely.
- Do not use or store in dusty or dirty areas. This way can damage its detachable parts and electronic components.
- Do not store in excessive heat place. High temperatures can shorten the life of electronic devices, destroy batteries, and deform or melt some plastic parts.
- Do not store in excessive cold place. Otherwise, when the temperature rises to normal temperature, moisture will form inside which will destroy the board.
- Do not throw, knock or shake the device. Treating equipment roughly can destroy internal circuit boards and delicate structures.
- Do not wash with strong chemicals, detergents or strong detergents.
- Do not paint the device. Smudges can make debris block detachable parts up and affect normal operation.
- Do not throw the battery into the fire to prevent the battery from exploding. Damaged batteries may also explode.
All the above suggestions apply equally to your device, batteries and accessories.
If any device is not operating properly, please take it to the nearest authorized service facility for repairing.
Copyright©Netvox Technology Co., Ltd.
This document contains proprietary technical information which is the property
of NETVOX Technology. It shall be maintained in strict confidence and shall
not be disclosed to other parties, in whole or in part, without written
permission of NETVOX Technology. The specifications are subject to change
without prior notice.c
References
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