MiSensors MNG-9-2A2V User manual
MiSensors Cellular Gateway Quick Start
• Create an MiSensors user account and assign wireless gateway and sensors.
• Plug the power supply into a power outlet then connect to the gateway.
• Turn the power switch on (battery backup models only).
• Once all three lights turn green, your network is ready to bring sensors online.
IMPORTANT!
DO NOT power up your Cellular Gateway until after you have created an account on
login.misensors.com and added your cellular gateway and wireless sensors to the account.
MiSensors Wireless Sensors
and Cellular Gateway
User’s Guide
For MiSensors Cellular Gateway
Use With MiSensors Online Software
1. Create a MiSensors User Account and Setup Sensor Network
If this is your rst time using the MiSensors 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
creation process.
1. In a web browser, navigate to https://www.login.misensors.com.
2. Click the “Get Started Here” button to create an account.
3. Follow the on-screen instructions to enter your account and contact
information.
4. After entering your account and contact information, you will be prompted to
create your rst sensor network. Simply enter a name for this network.
5. Add the information from your MiSensors gateway then click the
“Assign Gateway” button.
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
6a. Add the information from your rst MiSensors wireless sensor then click the
“Assign Sensor” button.
+
_
Back of Sensor
Peel
Contains: FCC ID: ZTL-RFSC1
IC: 9794A-RFSC1
Sensor ID: ######
Sensor Code: XXXXXX
6b. On the next screen, enter a name for the wireless sensor and use the
drop down to tell us how you are going to be using the wireless sensor.
(This allows us to suggest settings for your sensor.) When nished, click
the “Continue” button.
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7. Conrmation Screen.
When you have nished adding the sensor, you will see a conrmation screen. At this
point you can assign notications to the sensor (see Using The MiSensors Online Wire-
less Sensor System) , assign additional sensors to your account or click “Done” to go to
your sensors overview page.
2. Using the MiSensors Cellular Gateway
1. Using the MiSensors Cellular Gateway
• Attach the Antenna’s to the gateway (Sensor RF antenna on left, Cellular on right).
• Plug the power supply into a power outlet then connect to the gateway.
• Turn the power switch on (battery backup models only)
• Check that the three LED lights on the front of the gateway change to green. Once all
three lights turn green, your network is ready to use.
2. Understanding the Cellular Gateway Lights
Sensor communication problem
Communication with sensors is ok
Blinking: active communication between sensors and gateway
Last communication with MiSensors server was unsuccessful
Last communication with MiSensors server was ok
Blinking: active communication with MiSensors server
Cellular network connection error
Blinking Red: Network registration in progress
Connected to the cellular network
Blinking Green: Activating data session
Blinking Green / Red: Low cellular network signal
Note 1: The cellular gateway resets itself after receiving new conguration from the server
(ex. new HB), the LEDs will change colors briey, then each LED will ash red as the
gateway connects. When all LEDs have turned green, the reset cycle has completed.
Note 2: During SW upgrade, the middle LED will ash green. After successful upgrade all
LEDs will ash green, then the gateway will restart.
Note 3: Units with battery backup will turn o the LEDs when running on battery power to save on
power consumption. LEDs will ash to signify activity then go o again. When power is
restored, operation will return to normal.
CellularSensor RF
On Boot-up: The cell light begins flashing red. The flashing switches to green and
nally lands on a solid green when the link to the cell network is established. Next, the
middle light ashes green and then lands on solid green when the link to the server is
established. The wireless sensor light turns green indicating the gateway is ready to
listen to sensor trac.
During Operation: All lights are solid green. Activity from a sensor will cause the wire-
less sensor light to ash instantly. When the gateway is deliver messages to the server,
the cell light may illuminate and go through the sequence of acquiring a link to a tower if
it is not currently connected. The middle light ashes green on the gateway’s heartbeat,
or when an urgent message needs delivery.
2. Cellular Gateway Controls
Control Button
A short press of the control button while lights are all green, will force immediate
communication to server and exchange all sensor data currently stored in memory.
Press and hold to reset the gateway to factory settings (hold until all lights go red).
This resets the gateway heartbeat to 60 minutes. You will need to login to the online
system after resetting the gateway to recongure the gateway to your desired settings.
Note: If the gateway LEDs do not turn green, you may have a connectivity issue. Wait a few
minutes to see if the lights turn green. If they do not, power cycle the device by disconnecting
then reconnecting the power on standard gateways or toggling the power switch on gateways with
battery backup. If it still does not connect, reset the device to factory settings. If there is still an
issue, contact MiSensors customer support. If all three lights look amber, then there is an internal
hardware problem. If, left to right, the lights are red-green-green, there is a cell modem issue. If
red-red-green, there is a memory issue. For all of these cases, you will need to contact MiSensors
support at www.misensors.com/support or call 1.844.464.7367.
3. Conguring The Cellular Gateway
The cellular gateway collects data from all sensors within range and is precongured
to batch deliver the sensor messages to the online system at the specied heartbeat
(every 60 minutes by default factory settings).
You can access gateway settings by clicking on “View Gateways” in the top bar of the
“Overview” page. Clicking on a gateway in the list, opens the detail view. Click on the
“Edit” tab to access the gateway’s settings.
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3. Using Your MiSensors Wireless Sensors
Insert Batteries Into Wireless Sensors
Important: Make sure your sensors are at least 3ft. away from Ethernet Gateway.
Peel back the black sticker cover of the battery slot and slide the coin cell battery into
the sensor as shown in g.1. It will power on within 10-20 seconds. Once online, your
sensor is ready to be deployed. If you wish to change a sensor conguration, change the
parameter in the software. The new parameters will be transmitted to the sensor on the
next heartbeat. If you need a more immediate response from the sensor, power cycle the
sensor by removing the battery, waiting 60 seconds, then re-insert the battery.
Notes:
- If the sensor status indicator does not change, reset
the sensor by removing the battery.
- Wait 60 seconds then re-insert the battery.
- When inserting the battery, make sure to push the
battery all the way back using a paper clip.
- Note the proper orientation of battery in g.1
Warning: Your sensors ship with a 10-minute heartbeat.
It is recommended that unless you are using the AA battery
solution, you should set the heartbeat to no faster than one hour to preserve battery life. When
changing a sensor’s heartbeat, the new configuration information will be sent to the sensor on its next
heartbeat. If you want to update the sensors immediately you can reset them manually.
Manual Sensor Reset Process:
1 - Using the end of a paper clip, push the batteries out of the sensors through the small hole
in the top of the sensor
2 - Change the sensor heartbeat through the online system
3 - Re-insert the batteries into the sensors
+
_
Battery
Insertion
g.1
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4. Using The MiSensors Online Wireless Sensor System
1. Understanding The Online Interface
When you log into the online system, the default view shows all of your sensors last
recorded data.
View / Sort FeaturesMenu System
Sensor Details ViewSensors Overview
Date Range Selector
Menu System
Overview - Shows all sensors in the account and their last readings.
Notications - Manage sensor notications and show all sent notications.
Manage - Manage networks, sensors and gateways.
Reports - Printable account and sensor network reports.
Sensor Maps - Visual maps to help you track sensor placement.
Support - Support information for using sensors and software.
View / Sort Features
This section allows you to sort the sensors being viewed and search for sensors on
your account.
Sensor Overview
Displays sensors on your account with their last reading and status information.
Clicking on a sensor row expands the “Sensor Detail View” allowing you to view
detailed information for the selected sensor.
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To the left side of each sensor row is an indicator to help you understand the current
status of the sensor.
Sensor is checking in and within user-defined safe parameters.
Sensor has met or exceeded a user dened threshold or triggered event.
Sensor has not checked in (inactivity alert sent).
No sensor readings will be recorded (Inactive)
Sensor Details View
Clicking on a sensor row on the “Overview” page expands the row to include a detailed
sensor view for the selected sensor.
Select a tab to change between:
History - Displays a history of the selected sensor’s data.
Chart - Displays a graphical view of the selected sensor’s data.
Notications - Allows you to manage notications for the sensor.
Export - Allows you to archive data by exporting as a .csv le.
Edit - Allows you to manage sensor settings.
Calibrate - Available on certain sensor types to provide more accurate data.
Note: The data shown on the chart, notication, history and export tabs is based on the date
range indicated on the upper right side of the sensor detail information. To change the date
range, click inside the date box.
2. History and Chart Views.
Clicking on the “History” or “Chart” tabs within the sensor detail panel allows you to view
the sensor’s data history as time stamped data or in a graphical chart format.
Note: To change the date range of the viewable information, click on
the date range box at the top right of the sensor detail panel.
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3. Conguring Sensor Settings
To edit a sensors operation settings, click on the sensor overview row to display the
details view. Click on the “Edit” tab to access the sensor conguration panel.
The sensor edit panel allows you to set the primary configurations for the sensor.
Hovering your cursor over the question mark icon by each setting will provide an
explanation of that setting. When you have finished making changes, press the “Save”
button at the bottom of this section.
Note: Be sure to click 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 configurations again until the sensor has downloaded the new setting.
4. Sensor and/or Gateway Notication(s).
Notications for a single sensor can be created, deleted or edited by clicking the
“Notications” tab in a sensor’s detail view.
Notications can be created, deleted or edited for any sensor or group of sensors by
clicking on “Notications” in the main menu.
Toggle On/O Click to Open Detail View Send Test Edit Delete
When creating a notication, you will need to select the type of notication to create.
•Sensor Reading Notication - Reading notications are sensor specic (i.e. water
sensor = trigger alert when water present, temp sensor = trigger alert when temp
is above 70F, etc.). When creating a sensor reading notication, you will need to
choose the sensor type you are creating the alert for. The select box will only show
sensor types that are currently being used on your sensor network.
•Battery Notication - Allows users to dene a battery power percentage level that
will trigger an alert from the system, warning them to replace batteries.
•Inactivity Notication - Set-up “Inactivity” notications to alert you when your sen-
sors have stopped communicating with the servers. Failure to set up an “Inactivity”
notication will result in no email/SMS text being sent should your sensors stop
communicating with the servers.
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•Advanced Notications - Allows the user to set notications based on advanced
rules, such as comparing past data points with the current one to determine if a
notication should be sent.
•Existing Notications - Use notications that have already been created on your
account with the selected sensor.
Notication Settings
This area allows the user to set notication parameters such as naming the
notication, customizing the notication message and setting sensor conditions that will
trigger the notication.
People to Notify
The list on the left shows all available users on the account. You can type into the
search box to lter large lists of users. Select the user(s) to receive the notication and
click the arrow button to add them to the recipient list. By default, email notications are
activated. Clicking the notication delivery method icon toggles them on and o (green
is on, grey is o). If the user should receive text message notications, click on the
phone icon to turn it green.
Sent From
Allows you to assign devices (sensors and gateways) that will cause the notication
to be sent. When a notication is sent from the system, it will automatically include the
device name and the data that caused the notication to be sent. A single notication
can be assigned to multiple sensors or gateways. Sensor reading notications can only
be assigned to sensors of the same type. General notications such as “battery status”,
can be assigned to any or all sensors.
Devices to Notify
If you have a MiSensors Control or Notier A/V device on your network, you will also
see a “Devices to Notify” tab. This will allow the notication to interact with these types
of devices. Select a device from the list on the left and click the arrow button to add it to
the recipient list. Clicking the control icon toggles their setting.
Note: Control devices have two relays per device that are controlled separately. You can turn a
relay on, o or toggle the state. You can also set a duration by clicking on the timer icon. This will
perform the selected toggle (on/o/toggle) for a set duration, then change back.
5. Exporting Sensor Data
Clicking on the “Export” tab within the sensor data window allows you to export sensor data
to a comma separated value (.csv) le or send the sensor data to an external web source.
To export sensor data you must rst select the date range for the data you want to export.
Once the date range is selected, determine whether you want sensor data from the
selected sensor only, from all sensors in the network or all sensors assigned to the ac-
count. When you are nished, click on “Export Data” at the bottom of this window. The
data will be exported to a comma separated value (.csv) le format. Note: Only the rst 2,500
records within the selected date range will be exported.
You can alternately send your sensors’ incoming data to a 3rd party by clicking on the
“Congure data push” button at the bottom of the window. From this area you can pass
data from your wireless sensor network devices to another service in real time. This is
done by coding the data into a URL query then sending the data via http get request at the
time data is received. There is an extensive list of parameters that can be passed, as listed
in the viewed window, that allow you to send detailed information about both the data and
the sensor. PAGE 11
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6. Calibrating Sensor Data
Certain wireless sensors can be calibrated for more accurate readings (ex. temperature
sensors). If calibration is possible for a sensor, the “Calibrate” tab will be visible in the detail
view. To calibrate a sensor, replace the last reading with the more accurate reading and click
“Calibrate”. All future readings from the sensor will be based o the new calibration setting.
7. Manage Sensor Networks
To view or edit information about your wireless sensor network(s), click on “Manage” in the
main navigation. This area allows you to edit network details, create new sensor networks,
and manage wireless gateways and sensors for your network(s).
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Move device to
another network
Add a device
to the network
Create a
new network
Remove device
from network
Edit network
information
Clear sensor
history and data
Click to
Manage
Select which
network to view
Note: Some buttons and features are only visible if there is more than one sensor network setup on the
account, such as the network selection box in the upper right corner.
If more than one sensor network is setup on the account, you can easily move gateways and sensors from
one network to another by clicking on the “Move Device” button at the far right of the device’s “Status” sec-
tion.
If you clear a sensor’s data, the data history is deleted from the entire system and cannot be recovered. We
recommend exporting a sensor’s data history using the export function in the sensor details view
(“Overview” page) before clearing the sensor’s data if you want to have a record of the data.
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Antenna Orientation
In order to get the best performance out of your MiSensors Wireless Sensors and Gateways, it is
important to note proper antenna orientation and sensor positioning. Antennas should all be oriented
in the same direction, pointing vertically out of the sensor or gateway. If the device is mounted at on
a horizontal surface, you should bend the antenna so that it is pointing vertical. You should also make
the sensor’s antenna wire as straight as possible, avoiding any kinks and curving of the wire.
For optimum signal strength determine the height at which the majority of your sensors will be mount-
ed at and position the wireless gateway at the same height. The sensor signal strength will reduce if
the sensors are positioned higher than the wireless gateway. Also sensors should be at least 3 feet
away from each other and the wireless gateway to function properly.
Devices At Least 3 Feet Apart
Horizontally Mounted
Vertically Mounted
Vertically Mounted
Horizontal Surface
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MiSensors Cellular Gateway Specications
Included Antenna Articulating dipole
Connector: SMA
Gain (dBi): 2.0 dBi
Optional Battery Backup Battery Type: Rechargeable Lithium Polymer
Battery Duration: Up to 24 hours
Battery Cycle Life: 500 times
LEDs Cellular Status LED, Online Status LED, Sensor Network
Status LED
Device Memory: 50,000 sensor messages
(Sensor messages will be stored in the event of Internet
outage and transferred when connection is restored)
Enclosure Material ABS
Weight 7 ounces
Dimensions 5.004 in. x 3.8 in. x 1.51 in.
Operating Temperature -10 to +70 °C (14 to 158 °F)
Storage Temperature -20 to +85 °C (-4 to 185 °F)
CDMA Cellular Gateway Models Starting with MNG-9-2A2V
Frequency 1xRTT 800 / 1900 MHz
Input Power 5.5 VDC @ 900 mA
CDMA Cellular Gateway Models Starting with MNG-9-3C2S or MNG-9-3C2U
Frequency 1xRTT 800 / 1900 MHz
Input Power 5.5 VDC @ 900 mA
3G Cellular Gateways
Frequency UMTS 850 / 1700 / 1900 MHz
Input Power 5.5 VDC @ 2.5 A
2G Cellular Gateways
Frequency GSM/GPRS 850 / 900 / 1800 / 1900 MHz
Input Power 5.5 VDC @ 2.5 A
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MiSensors Wireless Sensors Technical Specications
Supply Voltage 2.0 - 3.6 VDC *
Current Consumption 0.7 µA (sleep mode)
2 mA (radio idle/o mode)
2 mA (measurement mode)
25 mA (radio RX mode)
35 mA (radio TX mode)
Operating Temperature Range
(Board Circuitry and Coin Cell)
-7°C to +60°C ( 20°F to +140°F )**
Optimal Battery Temperature
Range (Coin Cell)
+10°C to +50°C ( +50°F to +122°F )
Certications Industry
Canada
900 MHz product; FCC ID: ZTL- RFSC1 and IC:
9794A-RFSC1. 868 and 433 MHz product tested
and found to comply with: CISPR 22:2008-09 / EN
55022:2010 - Class B and ETSI EN 300 220-2 V2.4.1
(2012-05).
* Hardware cannot withstand negative voltage. Please take care when connecting a power device.
** At temperatures above 100°C, it is possible for the board circuitry to lose programmed memory.
PAGE 16
Warranty Information
(a) MiSensors warrants that MiSensors-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 specications for a period of one
(1) year with respect to software. MiSensors may resell sensors manufactured by other
entities and are subject to their individual warranties; MiSensors will not enhance or extend
those warranties. MiSensors does not warrant that the software or any portion thereof is
error free. MiSensors will have no warranty obligation with respect to Products subjected
to abuse, misuse, negligence or accident. If any software or rmware incorporated in any
Product fails to conform to the warranty set forth in this Section, MiSensors shall provide a
bug x or software patch correcting such non-conformance within a reasonable period after
MiSensors receives from Customer (i) notice of such non-conformance, and (ii) sucient
information regarding such non-conformance so as to permit MiSensors to create such
bug x or software patch. If any hardware component of any Product fails to conform to
the warranty in this Section, MiSensors shall, at its option, refund the purchase price less
any discounts, or repair or replace non-conforming Products with conforming Products or
Products having substantially identical form, t, and function and deliver the repaired or
replacement Product to a carrier for land shipment to customer within a reasonable period
after MiSensors receives from Customer (i) notice of such non-conformance, and (ii) the non-
conforming Product provided; however, if, in its opinion, MiSensors 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 MiSensors. 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 MiSensors a Return Material Authorization Number (RMA) prior to returning
any Products to MiSensors. Products returned under this Warranty must be unmodied.
Customer may return all Products for repair or replacement due to defects in original materials
and workmanship if MiSensors is notied within ninety (90) days of customer’s receipt
of the product. MiSensors reserves the right to repair or replace products at its own and
complete discretion. Customer must obtain from MiSensors a Return Material Authorization
Number (RMA) prior to returning any products to MiSensors. Products returned under this
Warranty must be unmodied and in original packaging. MiSensors reserves the right to
refuse warranty 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
MiSensors at standard labor rates for a period of one year from the Customer’s original date
of receipt.
(b) As a condition to MiSensors’ obligations under the immediately preceding paragraphs,
Customer shall return Products to be examined and replaced to MiSensors’ facilities, in
shipping cartons which clearly display a valid RMA number provided by MiSensors. 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. MiSensors shall deliver replacements for Products determined by
MiSensors 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) MiSensors’ 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.
MiSensors warranty obligations shall run solely to Customer, and MiSensors shall have no
obligation to customers of Customer or other users of the Products.
PAGE 17
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 MER-
CHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE EXPRESSLY DIS-
CLAIMED. MISENSORS LIABILITY 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 MISENSORS BE LIABLE FOR SPECIAL, INDIRECT OR CONSEQUENTIAL DAM-
AGES. THE PRICE STATED FOR THE PRODUCTS IS A CONSIDERATION IN LIMITING
MISENSORS’ 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, MISENSORS SPECIFICAL-
LY 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.
Certications
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 o 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 dierent from that to which
the receiver is connected.
• Consult the dealer or an experienced radio/TV technician for help.
Warning: Changes or modications not expressly approved by MiSensors could void
the user’s authority to operate the equipment.
RF Exposure
WARNING: To satisfy FCC RF exposure requirements for mobile
transmitting devices, the antenna used for this transmitter must not be
co-located in conjunction with any other antenna or transmitter.
Industry
Canada
United States FCC - Continued
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 com-
munication (listed below).
The system antenna(s) used for the following transmitters must be installed to provide a separation
distance of at least 20 cm from all the persons and must not be co-located or operating in conjunction
with any other antenna or transmitter.
All MiSensors Wireless Sensors Contain FCC ID: ZTL-RFSC1.
MiSensors Cellular Gateway Models Starting With; MNG-9-2A2V, MNG-9-3C2S, MNG-
9-3C2U, MNG-9-3C2I, MNG-9-3C3I and MNG-9-3C3N Contain FCC ID: ZTL-RFSC1.
Approved Antennas
The following antennas are approved for use with MiSensors devices (required antenna impedance is
50 ohms.)
• 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)
MiSensors Cellular CDMA Gateway Models Starting with MNG-9-2A2V Also Contain
CDMA Module: FCC ID: MIVCNN0301
• The system antenna(s) used with the device must not exceed the following levels:
• Band Class 0: the maximum gain is 2.2dBi.
• Band Class 1: the maximum gain is 8dBi.
MiSensors Cellular CDMA Gateway Models Starting with MNG-9-3C2S and MNG-9-
3C2U Also Contain CDMA Module: FCC ID: RI7CE910-DUAL
• The system antenna(s) used with the device must not exceed the following levels:
• CDMA BC0: the maximum gain is 5.12dBi.
• CDMA BC1: the maximum gain is 6.12dBi .
MiSensors Cellular 3G Gateway Models Starting with MNG-9-3C3N and MNG-9-3C3I
Also Contains Module: FCC ID: RI7HE910NA
• The system antenna(s) used with the device must not exceed the following levels:
• GSM 850/FDD V: 5.29 dBi
• PCS 1900/FDD II: 4.02 dBi
• FDD IV: 6.32 dBi
MiSensors Cellular 2G Gateway Models Starting with MNG-9-3C2I Also Contain
Module: FCC ID: RI7GE910
• The system antenna(s) used with the device must not exceed the following levels:
• GSM 850: 6.43 dBi
• PCS 1900: 2.75 dBi
PAGE 18
Canada (IC)
English
Under Industry Canada regulations, this radio transmitter may only operate using an
antenna 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 transmitters (IC: 9794A-RFSC1, IC: 4160a-CNN0301, IC: 5131A-CE910DUAL,
IC: 5131A-HE910NA IC: 5131A-GE910) have been approved by Industry Canada to oper-
ate with the antenna types listed on previous page 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 license-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 émetteurs radio (IC: 9794A-RFSC1, IC: 4160a-CNN0301, IC: 5131A-CE910D-
UAL, IC: 5131A-HE910NA et IC: 5131A-GE910) a été approuvé par Industrie Canada pour
fonctionner avec les types d’antenne gurant sur la page précédente et ayant un gain ad-
missible 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
strictement 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 MiSensors 920 MHz products have been tested and found to comply with ARIB STD-
T108 standards.
PAGE 19
R 210-103733
European Union - Directive 1999/5/EC
MiSensors International 2G Cellular Gateway models starting with MNG-8-3C2I or MNG-4-
3C2I have been evaluated against the essential requirements of the 1999/5/EC Directive.
Hereby, MiSensors Corp., declares that MiSensors International 2G Cellular Gateway
models starting with MNG-8-3C2I or MNG-4-3C2I are in compliance with the essential
requirements and other relevant provisions of Directive 1999/5/EC.
In order to satisfy the essential requirements of 1999/5/EC Directive, GE910 modules are
compliant with the following standards:
RF spectrum use (R&TTE art. 3.2) EN 301 511 V9.0.2; EN 62311:2008
EMC (R&TTE art. 3.1b) EN 301 489-1 V1.9.2
EN 301 489-7 V1.3.1
Health & Safety (R&TTE art. 3.1a) EN 60950-1:2006 + A11:2009 + A1:2010 +
A12:2011 + AC:2011
The conformity assessment procedure referred to in Article 10 and detailed in Annex IV of
Directive 1999/5/EC has been followed with the involvement of the following Notied Body
Notied Body:
MiSensors Corp.
17150 Via Del Campo Ste. 200
San Diego, CA. 92127
1.844.464.7367
www.MiSensors.com
Notified Body No: TBD
There is no restriction for the commercialization of MiSensors International 2G Cellular
Gateway models starting with MNG-8-3C2I or MNG-4-3C2I in all the countries of the
European Union.
Antennas
WARNING: ISM and GSM antennas are considered integral to the
MiSensors International 2G Cellular Gateway and should remain xed
within 3 meters of the device during operation.
PAGE 20
This manual suits for next models
5
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