Monnit Corporation 的 Wireless Sensors, Ethernet Gateway Guide 规格书

Monnit Wireless Sensors
and Ethernet Gateway
Users Guide
For Use With iMonnit Online Software
and iMonnit Express PC Software
MonnitLink Ethernet Gateway Quick Start
• Create a Monnit user account with assigned wireless gateways and sensors.
Attach the antenna to the antenna connector on the back panel of the Ethernet gateway
(make sure the connection is snug, but do not overtighten).
• Plug an Ethernet cable with internet connectivity into the gateway.
• Plug the power supply into a power outlet then connect to the gateway.
• Once all three lights turn green, your network is ready to bring sensors online.
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I. CREATE AN IMONNIT USER ACCOUNT
If this is your first time using the iMonnit online system site, you will need to create a new
account. If you have already created an account, you can skip to the “Logging into the
Online System” section. The following instructions will guide you through the account.
1. Open iMonnit in your mobile app or web browser.
2. Navigate your cursor down to the bottom of the login box and select “Add Account”.
3. Next you will be asked to enter your account information in the following fields.
Note: If this is a Free Trial, you may not have recieved a subscription code yet. Leave the box blank and proceed.
4. When completed, select the “Next” button.
5. This step will complete the user registration process and lead you into registering your
device. You will be able to log out and log back in with your credentials to complete the
setup at any time.
LOGGING INTO THE ONLINE SYSTEM
1. Open iMonnit in your mobile app or web browser.
2. Enter your user name and password.
3. Select the “Login” button.
REGISTERING THE DEVICE
1. You will need to enter the Device ID and the Security Code from your device in the corre-
sponding text boxes.
2. Use the camera on your smartphone to scan the QR code on your Gateway.
3. If you do not have a camera on your phone, or the system is not accepting the QR code,
you may enter the Device ID and Security Code manually.
The Device ID is a unique number logated on each device label. It will be labeled
as “ID” on your gateway.
Next you’ll be asked to enter the Security Code (SC) on your device. A security
code will be all letters, no numbers. It can also be found on the barcode label of
your gateway.
4. When completed, select the “Submit” button.
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II. USING THE MONNITLINK ETHERNET GATEWAY
1. Understanding the Ethernet Gateway Lights
Front of Ethernet Gateway
1 2 3
Light 1 - Indicates the Ethernet cable is plugged in. A green light indicates ready and
working, a red light indicates there is a problem.
Light 2 - Indicates the Ethernet has internet connectivity and can reach the online
monitoring system. A green light indicates ready and working, a red light
indicates there is a problem. A flashing green light indicates network traffic to
the internet.
Light 3 - Indicates sensor network activity. A green light indicates ready and working,
a red light indicates there is a problem. A flashing green light indicates radio
traffic from the sensors.
For help troubleshooting Ethernet gateway lights view:
http://www.monnit.com/support/hardware/gateways/ethernet/troubleshooting-a-monnitlink-eth-
ernet-gateway
2. Ethernet Gateway Controls
RP SMA Antenna ConnectorEthernet PortPower Plug Control Button
Back Panel
Using the Control Button:
1) A short press will trigger the gateway to immediately send all stored sensor messages to
the online system and download any pending system messages to deliver to the sensors.
(The default heartbeat for the Ethernet gateway is 5 minutes.)
2) Press and hold to reset the gateway to factory settings. Factory settings will be reset to
defaults, including the heartbeat setting of 5 minutes on both the gateway and in the online
system. DHCP, server addressing and port are all restored to default settings, for example.
You will need to login to the online system after resetting the gateway to reconfigure the
gateway to your desired settings.
Note: If your gateway powers up with the lights scrolling from left to right, it has entered into
boot loader mode accidentally. Make sure the button is free from obstruction and reboot the
gateway by removing the power plug, waiting for 10 seconds then reinserting the power plug.
3. Configuring The Ethernet Gateway
The Ethernet Gateway collects data from all sensors within range and is preconfigured to
batch deliver the sensor messages to the online system every 5 minutes.
The Ethernet Gateway uses DHCP (Dynamic Host Configuration Protocol) to
automatically acquire a network address from the LAN (Local Area Network). In the event
that it needs to have an address manually assigned to it, you can assign an IP address as
well as a gateway mask and default DNS through the online interface. For more information
on configuring the Monnit Ethernet Gateway please view the support documentation at http://
www.monnit.com/pdf/Ethernet_Gateway_Configuration.pdf.
Note: This advanced configuration is NOT required in most instances. In the event that it is
required, you can initialize the gateway on a network that uses the default DHCP settings,
or you can follow the instructions for changing the configuration settings on a PC, which are
included later in this User’s Guide.
Upon logging into the online system as an administrator, select “My Account” then
choose the edit icon next to your sensor network. From there you can alter the heartbeat
of the Ethernet Gateway as well as edit any other configurations available. There is also
a quick link to reset all gateway settings to factory defaults.
III. USING YOUR MONNIT SENSORS
Important: Make sure your sensors are at least 3ft. away from the wireless sensor
adapter.
Insert batteries into commercial type sensors or use switch on industrial type sensors to
power them on.
Note: It will take 10 - 20 seconds for the sensor to power up. Configurations for your sensors can be changed in
iMonnit. Your new modifications will take effect on the next heartbeat. More immediate results can be achieved
by power cycling the sensor. Power cycling is accomplished by removing then re-inserting batteries or using the
power switch to cycle the power.
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IV. USING THE IMONNIT ONLINE WIRELESS SENSOR SYSTEM
UNDERSTANDING THE ONLINE INTERFACE
When you log into the online system, the default view shows all of your sensors last
recorded data.
Menu System
Details - Displays a graph of recent sensor data.
History - List of all past hearbeats and readings.
Events - List of all events attached to this sensor.
Settings - Editable levels for your sensor.
Calibrate - Reset readings for select sensors (Not available for all sensor types).
Scale - Change the scale of readings for your sensor (Not available for all sensor types).
Sensor Overview
Directly under the tab bar is an overview of your sensor. This allows you to see the signal
strength and the battery level of the selected sensor.
inticates the sensor is checking in and within user defined safe parameters.
indicates the sensor has met or exceeded a user defined threshold or triggered event.
indicates that no sensor readings are being recorded, rendering the sensor inactive.
Note: The data shown on the chart, event, history, and export file is based on the date range indicated on the
upper right side of the sensor detail information. To change the date range, click the inside of the date box.
HISTORY VIEW
Clicking on the “History” tab within the tab bar allows you to view the sensor’s data history
as time stamped data.
CONFIGURING SENSOR SETTINGS
To edit the operational settings for a sensor, choose the “Sensor” option in the main navigation
menu then select the “Settings” tab to access the configuration page.
The sensor edit panel allows you to set the primary
configurations for the sensor. When you have
finished making changed, press the “Save” button at
the bottom of this section.
Note: Be sure to select the “Save” button anytime you make a
change to any of the sensor parameters. All changes made to the
sensor settings will be downloaded to the sensor on the next sensor
heartbeat (check-in). Once a change has been made and saved, you
will not be able to edit that sensor’s configuration again until it has
downloaded the new setting.
SENSOR AND/OR GATEWAY NOTIFICATION(S)
Notifications for a single sensor or gateway can be created, deleted, and edited by clicking
the “Events” tab in the senor tab bar.
You can toggle the Event Trigger on or off by selecting the switch under Current Event
Triggers.
Creating an Event
Events are triggers or alarms set to let you know when a sensor reading identifies that
immediate attention is needed. Types of events include sensor readings, battery level,
device inactivity, and scheduled data. Any one of these can be set to send a notification
or trigger an action in the system. This guide will walk you through creating two types
of events. First a sensor reading notification for a temperature sensor, then an inactivity
notification configured for all sensors.
1. Select Events in the main navigation menu.
2. A list of previously created events will display on the screen. From here, you have the
ability to filter, refresh, and add new events to the list.
Note: If this is your first time adding an event, the screen will be blank.
3. From the Events page, tap “Add Event” in the left hand corner.
4. The dropdown menu will have the following options for Event Types:
Sensor Reading: Set alerts based
on sensor activity or reading.
Battery Level: This is where you can
set to be notified whend the battery
level drops below a percentage. 15%
is the default setting.
Device Inactivity: Alerts when the
device doesn’t communicate for an
extended period of time.
Advanced: Alerts based on
advanced rules, such as comparing
past data points with current ones.
Scheduled: These are notifications
that fire at a time set basis.
5. Select Sensor Reading from the dropdown menu.
6. A second dropdown menu will appear. From here, you will be able to see a list of the
different type of sensors registered to your account. Choose Temperature in the dropdown
menu.
7. Next, you will be asked to input the trigger
settings. You have the option of setting this trigger for
greater than or less than a temperature reading
8. Press the “Save” button.
If you don’t have a temperature sensor, the option in this
example won’t be available, select any variable output
sensor and follow along.
Variable output sensors can have multiple event triggers
created.
Example: A temperature sensor used in a freezer.
You may want to be notified if the temperature goes
below 0° or above 30° Fahrenheit. You would create
two events.
• Event 1- Trigger Set for temperatures LESS THAN
0°F.
• Event 2 - Trigger set for temperatures GREATER
THAN 30° F.
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9. The Event Information page has a series of tabs across the top.
A. History: A table of all past alert notifications for this specific event.
B. Schedule: Here you can schedule the event only to be active at certain times or
certain days.
C. Trigger: This is where you can review your trigger settings.
D. Actions: Where you set the action you want to happen when an alert state is
triggered.
10. Choose the Trigger tab.
11. The Trigger Sensors section sits below “Trigger Conditions.” If you have multiple
sensors for the same type (Example: five temperature sensors), this is where they will be
listed. There should be at least one sensor in this section.
12. By default, the sensor(s) will not be assigned to the event conditions you’ve just set. To
assign a sensor, find the device(s) you want to designate for this event and select. Selected
sensor boxes will turn green when activated. Choose the sensor box again to unassign the
sensor from the event.
13. Continue toggling the sensor(s) corresponding to this new event until you are satisfied
with your selection. These can be adjusted later by returning to this page.
14. Press the “Save” button.
17. Choose Notification Action from the notification list.
15. Select the Actions tab.
16. Press the Add Action button under the Event Information header and available action
types are presented in a select list.
Notification Action: Specify account users to recieve notications when this event
triggers.
System Action: Assign actions for the system to process when this event triggers.
A. Configure the subject for the notification.
B. Customize the message body.
C. Save button commits any changes to message
content fields.
D. Recipient list identifies who will recieve the
notification.
Select the icon next to a user to configure
how they will be notified
Choose if you want notifications sent
immediately when triggered or if you want
a delay before it is sent and press Set.
A green icon indicates the users that will
not recieve the notifications.
If a delay has been selected, the delay
time will display beside the icon.
18. Select System Action from the select list under the Event Information header.
19. Scroll down to the System Action section.
20. The Action to be Done select list has the
following options.
Acknowledge: Automatically signal
that you have been notified of an event
and take action. When an event has
been triggered, actions will continue
processing until the event returns to a
value that no longer triggers an event.
Full Reset: Reset your trigger so it is
armed for the next reading.
Activate: Enable an event trigger.
Deactivate: Disable an event trigger.
EXPORTING SENSOR DATA
1. Select Sensors from the main navigation menu.
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2. Choose the sensor you need an export for in the list.
3. Pick the History tab.
4. On the far right of the sensor history data is a cloud icon. Selecting this icon will
export an excel file for your sensor into your download folder.
Note: Make sure you have the date range for the data you need input in the “From” and “To” text boxes. This will be
the most recent week by default. Only the first 2,500 entries in the selected date range will be exported.
The data file will have the following fields:
MessageID: Unique identifier of the message in our database.
SensorID: If multiple sensors are exported you can distinguish which reading was from
which using this number even if the names for some reason are the same.
Sensor Name: The name you have given the sensor.
Date: The date the message was transmitted from the sensor.
Value: Data presented with transformations applied but without additional labels.
Formatted Value: Data transformed and presented as it is shown in the monitoring portal.
Battery: Estimated life remaining of the battery.
Raw Data: Raw data as it is stored from the sensor.
Sensor State: Binary field represented as an integer containing information about the state
or the sensor when the message was transmitted. (See “Sensor State Explained” below).
Gateway ID: The Identifier of the gateway that relayed the data from the sensor.
Alert Sent: Boolean indicating if this reading triggered a notification to be sent from the
system.
Signal Strength: Strength of communication signal between the sensor and the gateway,
shown as percentage value.
Voltage: Actual voltage measured at the sensor battery used to calculate battery percent-
age, similar to Received Signal you can use one or the other or both if they help you.
State
The integer presented here is generated from a single byte of stored data. A
byte consists of 8 bits of data that we read as Boolean (True (1)/False (0)) fields.
Using a temperature sensor as an example.
If the sensor is using factory calibrations the Calibrate Active field is set True (1) so the bit
values are 00010000 and it is represented as 16.
If the sensor is outside the Min or Max threshold, the Aware State is set True (1) so the bit
values are 00000010 and it is represented as 2.
If the customer has calibrated the sensor this field the Calibrate Active field is set False
(0) AND the sensor is operating inside the Min and Max Thresholds, the bits look like
00000000 this is represented as 0.
If the sensor is using factory calibrations and it is outside the threshold the bit values are
00010010 and it is represented as 18 (16 + 2 because both the bit in the 16 value is set
and the bit in the 2 value is set).
Note: These two are the only bits that typically observed outside of our testing procedures.
CALIBRATING SENSOR DATA
Certain wireless sensors can be calibrated for more accurate readings (Example: For
Temperature sensors). If calibration is possible for a sensor, the “Calibrate” tab will be
visible in the tab bar.
A. Go to the tab to open the sensor calibration settings window.
B. To calibrate a sensor, you will want to ensure that the environment of the sensor and
other calibration device is stable. Note the “Expected Next Check-in” time for the sensor
you are calibrating and take a reading from your calibration device a few minutes prior to
the sensors next check-in.
C. Enter the actual (accurate) reading from the calibration device into the text field.
D. If you need to change the unit of measurement you can do that here.
E. Press “Calibrate”.
To ensure that the calibration command is received prior to the sensors next check-in,
press the control button on the back of the gateway, once, to force communication (Cellular
and Ethernet gateways).
After pressing the "Calibrate" button and choosing the gateway button, the server will send
the command to calibrate the specified sensor to the gateway. When the sensor checks-in,
it will send the pre-calibration reading to the gateway, then receive the calibration command
and update it’s configuration. When the process is completed, it will send a “Calibration
Successful” message. The server will display the sensor’s last pre-calibrated reading for
this check-in, then all future readings from the sensor will be based on the new calibration
setting.
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It is important to note that after calibrating the sensor, the sensor reading returned to the
server is based on pre-calibration settings. The new calibration settings will take affect on
the next sensor heartbeat.
Note: If you would like to send the changes to the sensor right away, please remove the battery(s) for a full 60
seconds, then re-insert the battery(s). This forces the communication from the sensor to the gateway and this the
message to make a change from the gateway back to the sensor. (If the sensors are industrial sensors, turn the
sensor off for a full minute, rather than removing the battery).
MANAGE SENSOR NETWORKS
To view or edit information about your wireless sensor network(s), select the Networks box
in the account overview page.
The following network list page allows you to edit details, create new sensor tetworks, and
manage wireless gateways and sensors for your network(s). Find the network you wish to
modify in the list and select it to be taken to to the network edit page.
The network edit page will give the option of
changing the name of your network, enable
notifications, enable holding, and review the
Install Tech Access Cut-off Date.
Remember, you must press the “Save”
button after making any changes in this
section.
Below this section is a list of sensors and
gateways attached to the account. Choosing
the icon of a trashcan beside each sensor
will delete it from the network. Selecting
the icon directly above the sensor section
will allow new devices to be added to the
network. Review the steps on registering a
new device on page 3 of this user guide.
Note: A sensor or gateway cannot be recovered once it
has been deleted from the network. It is reccomended that
you export a sensor’s data history before clearing it from
the list.
V. Advanced Settings and Interfacing with the Monnit Ethernet
Gateway Through iMonnit.
1. Navigate to the main menu and select “Gateways.”
When you enter the gateway page, you will see all the gateways registered to your account.
The settings for any of these can be adjusted and edited by choosing the gateway you wish
to edit.
2. Choose the Enterprise Gateway.
The page will open to the history tab. This is where you can view all previously recorded
data for the Enterprise Gateway.
3. Select the “Settings” tab.
General Settings will be the first fields open for
editing. The gateway name can be changed to
whatever you prefer. The heartbeat and poll rate
minutes are also adjustable here. This will automat-
ically be set to force transmit on an Aware State.
The heartbeat is the interval in minutes when your
Enterprise Gateway communicates with the server.
Exceptions to this include Aware State messages
received from your sensors. Remember to press
the “Save” button after making your changes or
they will not take effect.
The Local Area Network is where you can view the MAC
Address and change your IP Address. Your IP Address
will be set to “Dynamic” by default. To set it to “Static”
drag the switch to the left, then fill in the text boxes for
Static IP, Nework Mask, Default Gateway, and Default
DNS Server. Then press the “Save” button.
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Interface Activation is where SNMP, Modbus, and Real Time TCP Interfaces can be activated.
Upon activation, setttings for these will appear in the above menu. Multiple interfaces can be
active at one time. All interfaces require the DHCP to set to a static IP address.
Real Time TCP Interface
Poll on the gateway’s assigned port to retrieve gateway and sensor data. The default port is
3500, but can be edited.
Modbus TCP Interface
Use Modbus TCP software to pull in gateway and sensor data. Monnit provides a register
map. The Modbus TCP Interface will store all data values in 16-bit registers. The registers
and their data fields are mapped below:
Field Description Register Data
Address
GATEWAY Gateway ID_High The first 16 bytes of a 32 byte
serial ID number
40001 0
REGISTERS Gateway ID_Low The last 16 bytes of a 32 bytes
serial ID number
40002 1
Gateway Version The version of gateway
firmware on the device
40003 2
Gateway Device
Count
The number of devices (sensors &
gateways) in its network
40004 3
SENSOR Sensor ID_High The first 16 bytes of a 32 byte
serial ID number
40101 100
REGISTERS Sensor ID_Low The last 16 bytes of a 32 bytes
serial ID number
40102 101
Device Type The unique type identifier for the
sensor profile
40103 102
Data Age The number of seconds that have
elapsed since the last data was
retrieved
40104 103
Is Device Active 0 indicates no data for this slot 40105 104
Is Aware Becomes aware when a sensor
threshold has been breached
40106 105
Voltage Battery voltage 40107 106
RSSI Signal Strength indicator
0-100%
40108 107
Data 1 Sensor Data Field 1 40109 108
Data 2 Sensor Data Field 2 40110 109
Data 3 Sensor Data Field 3 40111 110
Data 4 Sensor Data Field 4 40112 111
Data 5 Sensor Data Field 5 40113 112
Data 6 Sensor Data Field 6 40114 113
Data 7 Sensor Data Field 7 40115 114
Data 8 Sensor Data Field 8 40116 115
SNMP Poll and Trap Interface
Use SNMP software to pull in gateway and sensor data. Monnit provides a .MIB file. There
are four available interfaces. Set the SNMP Interface Address for each one the address of
the device sending the SNMP request). Mark the interface Active and Save.
The MIB file is available through here:
resources.monnit.com/content/downloads/MonnitEGW-MIB_v1
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Ethernet Gateway MIB tree with a short description of each field:
EGW Data Description
*GW Section Gateway Section
*GW Serial Gateway Serial ID
*Version Gateway Firmware Version
*WD Count Wireless Device Count
*WNetSection Wireless Network Seciont
*WD Entry Wireless Device Entry
*Index Index Number
*Serial Wireless Device Serial ID
*Type Device Type (eg temp, water, motion sensor, etc)
*Age Number of seconds since last data recording
*Active Indicates if the wireless device is reporting in as expected
*Alarming Indicates if the wireless device has detected data that is urgent or
breaches a threshold
*Voltage Battery voltage recorded at the time of data reading
*RFSignal Signal Strength recorded on data reading delivery
*Data1 Data recorded by wireless device (eg temperature, water detect-
ed, motion detected, etc)
*Data2 Data recorded by wireless device (eg temperature, water detect-
ed, motion detected, etc)
*Data3 Data recorded by wireless device (eg temperature, water detect-
ed, motion detected, etc)
*Data4 Data recorded by wireless device (eg temperature, water detect-
ed, motion detected, etc)
*Data5 Data recorded by wireless device (eg temperature, water detect-
ed, motion detected, etc)
*Data6 Data recorded by wireless device (eg temperature, water detect-
ed, motion detected, etc)
*Data7 Data recorded by wireless device (eg temperature, water detect-
ed, motion detected, etc)
*Data8 Data recorded by wireless device (eg temperature, water detect-
ed, motion detected, etc)
VI. Setting up the Ethernet gateway for use with iMonnit Express
iMonnit Express (PC Software) Setup
Visit http://www.monnit.com/support/downloads/ to download and install the iMonnit
Express software.
Launch the iMonnit Express installer and follow the on-screen instructions.
Launch the iMonnit Express program.
Activate the Express software with the code you received when purchasing.
Add the gateway(s) and wireless sensors to the software.
Contains FCC ID: ZTL-RFSC1
and IC: 9794A-RFSC1
This device complies with Part 15 of the
FCC Rules. Operation is subject to the
following two conditions:
(1) this device may not cause harmful
interference and
(2) this device must accept any interference
received, including interference that may
cause undesired operation.
ID: ######
Code: XXXXXX
Verify that the gateway was added successfully by checking the Gateways list.
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Click on “About”, then “Local IP Addresses” and make note of the IP address that your
computer is using on your network.
Connect the Ethernet Gateway directly to the Ethernet port of your PC using a standard
Ethernet cable. Confirm that the PC has no other internet connection (turn off Wi-Fi).
Confirm the PC firewall does not prohibit an inbound connection. Plug power cable into
the Ethernet gateway.
Plug in the power cable.
While the device is booting, press and hold the Reset Button on the back of the
gateway. The button must be held in the down position by the time the third green light
illuminates, or else another attempt will need to be made. When the device finishes
booting, all three lights will toggle red, green. Release the button and the device is in
local configuration mode. Do not hold the Reset button for more than four seconds (that
will factory reset the device).
The lights will flash green once every other second while the device attempts to resolve
Ethernet Link State. The lights will flash green once every second while the device
attempts to resolve IP addresses with the host PC. Finally, the lights will flash green
twice every second when device is waiting for valid web traffic.
Once the PC has setup the direct network, use a web browser (e.g. Chrome) and go to
“192.168.100.1”. The Ethernet gateway Setup screen should now be displayed.
Note: The lights will all turn solid green once this connection has been established.
Click on the “Data Interfaces” tab.
Under “Default Server Configuration” enter the IP address that you noted from the
iMonnit Express software into the primary and secondary server [URL/IP] boxes, and
use 3000 as the default communication port, then click “Save Changes”.
When finished, click the “Reboot” button on the top right side of the page to restart the
gateway.
When the lights begin flashing on the gateway, you can unplug the power to the gate-
way and disconnect it from the computer.
Reactivate the Wi-Fi or other Internet connection for the computer, so it can connect to
the network.
Plug your Ethernet gateway into your Internet router and power up the Ethernet
gateway. All three lights should go green now, and your gateway should report into
Monnit Express.
If it does not, check that the PC has the internet connection turned on, recheck your IP
Address, power up your gateway and make sure the gateway is added into Monnit
Express. (If you left your secondary set to point to sensorsgateway.com (which is
iMonnit) and the lights on your gateway are green, check iMonnit to see if the gateway
is reporting in there. If so, power cycle the gateway and try again.)
Error Reporting, Troubleshooting and Support
For technical support and troubleshooting tips please visit our support
library online at http://www.monnit.com/support/. If you are unable to
solve your issue using our online support, email Monnit support at
support@monnit.com with your contact information and a description
of the problem, and a support representative will call you within one
business day.
For error reporting, please email a full description of the error to
support@monnit.com.
Warranty Information
(a) Monnit warrants that Monnit-branded products will be free from defects in materials and
workmanship for a period of one (1) year from the date of delivery with respect to hardware
and will materially conform to their published specifications for a period of one (1) year with
respect to software. Monnit may resell sensors manufactured by other entities and are sub-
ject to their individual warranties; Monnit will not enhance or extend those warranties. Mon-
nit does not warrant that the software or any portion thereof is error free. Monnit will have
no warranty obligation with respect to Products subjected to abuse, misuse, negligence
or accident. If any software or firmware incorporated in any Product fails to conform to the
warranty set forth in this Section, Monnit shall provide a bug fix or software patch correcting
such non-conformance within a reasonable period after Monnit receives from Customer
(i) notice of such non-conformance, and (ii) sufficient information regarding such non-con-
formance so as to permit Monnit to create such bug fix or software patch. If any hardware
component of any Product fails to conform to the warranty in this Section, Monnit shall, at
its option, refund the purchase price less any discounts, or repair or replace non-conform-
ing Products with conforming Products or Products having substantially identical form, fit,
and function and deliver the repaired or replacement Product to a carrier for land shipment
to customer within a reasonable period after Monnit receives from Customer (i) notice of
such non-conformance, and (ii) the non-conforming Product provided; however, if, in its
opinion, Monnit cannot repair or replace on commercially reasonable terms it may choose
to refund the purchase price. Repair parts and replacement products may be reconditioned
or new. All replacement products and parts become the property of Monnit. Repaired or
replacement products shall be subject to the warranty, if any remains, originally applicable
to the product repaired or replaced. Customer must obtain from Monnit a Return Material
Authorization Number (RMA) prior to returning any Products to Monnit. Products returned
under this Warranty must be unmodified.
Customer may return all Products for repair or replacement due to defects in original mate-
rials and workmanship if Monnit is notified within ninety (90) days of customer’s receipt of
the product. Monnit reserves the right to repair or replace products at its own and complete
discretion. Customer must obtain from Monnit a Return Material Authorization Number
(RMA) prior to returning any products to Monnit. Products returned under this Warranty
must be unmodified and in original packaging. Monnit reserves the right to refuse warran-
ty repairs or replacements for any products that are damaged or not in original form. For
products outside the ninety-day warranty period repair services are available at Monnit at
standard labor rates for a period of one year from the Customer’s original date of receipt.
(b) As a condition to Monnit’s obligations under the immediately preceding paragraphs,
Customer shall return Products to be examined and replaced to Monnit’s facilities, in
shipping cartons which clearly display a valid RMA number provided by Monnit. Customer
acknowledges that replacement products may be repaired, refurbished or tested and found
to be complying. Customer shall bear the risk of loss for such return shipment and shall
bear all shipping costs. Monnit shall deliver replacements for Products determined by Mon-
nit to be properly returned, shall bear the risk of loss and such costs of shipment of repaired
products or replacements, and shall credit Customer’s reasonable costs of shipping such
returned Products against future purchases.
(c) Monnit’s sole obligation under the warranty described or set forth here shall be to repair
or replace non-conforming products as set forth in the immediately preceding paragraph, or
to refund the documented purchase price for non-conforming Products to Customer. Mon-
nit’s warranty obligations shall run solely to Customer, and Monnit shall have no obligation
to customers of Customer or other users of the Products.
Limitation of Warranty and Remedies.
THE WARRANTY SET FORTH HEREIN IS THE ONLY WARRANTY APPLICABLE TO
PRODUCTS PURCHASED BY CUSTOMER. ALL OTHER WARRANTIES, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE EXPRESSLY
DISCLAIMED. MONNIT’S LIABIITY WHETHER IN CONTRACT, IN TORT, UNDER ANY
WARRANTY, IN NEGLIGENCE OR OTHERWISE SHALL NOT EXCEED THE PURCHASE
PRICE PAID BY CUSTOMER FOR THE PRODUCT. UNDER NO CIRCUMSTANCES
SHALL MONNIT BE LIABLE FOR SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAG-
ES. THE PRICE STATED FOR THE PRODUCTS IS A CONSIDERATION IN LIMITING
MONNIT’S LIABILITY. NO ACTION, REGARDLESS OF FORM, ARISING OUT OF THIS
AGREEMENT MAY BE BROUGHT BY CUSTOMER MORE THAN ONE YEAR AFTER
THE CAUSE OF ACTION HAS ACCRUED.
IN ADDITION TO THE WARRANTIES DISCLAIMED ABOVE, MONNIT SPECIFICALLY
DISCLAIMS ANY AND ALL LIABILITY AND WARRANTIES, IMPLIED OR EXPRESSED,
FOR USES REQUIRING FAIL-SAFE PERFORMANCE IN WHICH FAILURE OF A PROD-
UCT COULD LEAD TO DEATH, SERIOUS PERSONAL INJURY, OR SEVERE PHYSICAL
OR ENVIRONMENTAL DAMAGE SUCH AS, BUT NOT LIMITED TO, LIFE SUPPORT OR
MEDICAL DEVICES OR NUCLEAR APPLICATIONS. PRODUCTS ARE NOT DESIGNED
FOR AND SHOULD NOT BE USED IN ANY OF THESE APPLICATIONS.
Certifications
United States FCC
This equipment has been tested and found to comply with the limits for a Class B digital
devices, pursuant to Part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference in a residential installation. This
equipment generates, uses, and can radiate radio frequency energy and, if not installed
and used in accordance with the instruction manual, may cause harmful interference to
radio communications. However, there is no guarantee that interference will not occur in
a particular installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and on, the
user is encouraged to try to correct the interference by one of more of the following
measures:
• Reorient or relocate the receiving antenna
• Increase the separation between the equipment and receiver
• Connect the equipment into an outlet on a circuit different from that to which
the receiver is connected.
• Consult the dealer or an experienced radio/TV technician for help.
Warning: Changes or modifications not expressly approved by Monnit could void
the user’s authority to operate the equipment.
RF Exposure
Monnit Wireless Sensors and Ethernet Gateway Contain: FCC ID: ZTL-RFSC1
This device has been designed to operate with an approved antenna listed below, and
having a maximum gain of 5.1 dBi. Antennas not included in this list or having a gain
greater than 5.1 dBi are strictly prohibited for use with this device. The required antenna
impedance is 50 ohms.
To reduce potential radio interference to other users, the antenna type and its gain should
be so chosen that the equivalent isotropically radiated power (EIRP) is not more than that
required for successful communication.
Approved Antennas
The following antennas are approved for use with Monnit devices.
• Hyperlink HG905RD-RSP (5.1 dBi Rubber Duck)
• Pulse W1063 (3.0 dBi Rubber Duck)
• ChangHong GSM-09 (2.0 dBi Rubber Duck)
• Specialized Manufacturing MC-ANT-20/4.0C (4” whip)
Canada (IC)
English
Under Industry Canada regulations, this radio transmitter may only operate using an anten-
na of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada.
To reduce potential radio interference to other users, the antenna type and its gain should
be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that
necessary for successful communication.
The radio transmitter (IC: 9794A-RFSC1) has been approved by Industry Canada to oper-
ate with the antenna types listed below with the maximum permissible gain and required
antenna impedance for each antenna type indicated. Antenna types not included in this list,
having a gain greater than the maximum gain indicated for that type, are strictly prohibited
for use with this device.
This device complies with Industry Canada licence-exempt RSS standard(s). Operation is
subject to the following two conditions: (1) this device may not cause interference, and (2)
this device must accept any interference, including interference that may cause undesired
operation of the device.
French
Conformément à la réglementation d’Industrie Canada, le présent émetteur radio peut
fonctionner avec une antenne d’un type et d’un gain maximal (ou inférieur) approuvé pour
l’émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage radioélec-
trique à l’intention des autres utilisateurs, il faut choisir le type d’antenne et son gain de
sorte que la puissance isotrope rayonnée équivalente (p.i.r.e.) ne dépasse pas l’intensité
nécessaire à l’établissement d’une communication satisfaisante.
Le présent émetteur radio (IC: 9794A-RFSC1) a été approuvé par Industrie Canada pour
fonctionner avec les types d’antenne énumérés ci-dessous et ayant un gain admissible
maximal et l’impédance requise pour chaque type d’antenne. Les types d’antenne non
inclus dans cette liste, ou dont le gain est supérieur au gain maximal indiqué, sont stricte-
ment interdits pour l’exploitation de l’émetteur.
Le présent appareil est conforme aux CNR d’Industrie Canada applicables aux appareils
radio exempts de licence. L’exploitation est autorisée aux deux conditions suivantes : (1)
l’appareil ne doit pas produire de brouillage, et (2) l’utilisateur de l’appareil doit accepter
tout brouillage radioélectrique subi, méme si le brouillage est susceptible d’en comprom-
ettre le fonctionnement.
Japan (ARIB)
All Monnit 920 MHz products have been tested and found to comply with ARIB STD-T108
standards.
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Additional Information and Support
For additional information or more detailed instructions on how to use your
Monnit Wireless Sensors or the iMonnit Online System, please visit us on the
web at http://www.monnit.com/support/.
Monnit, Monnit Logo and all other trademarks are property of Monnit, Corp.
© 2020 Monnit Corp. All Rights Reserved.
Monnit Corporation
3400 South West Temple
Salt Lake City, UT 84115
801-561-5555
www.monnit.com