FCC ID: AU792U18H30862 MTCDTIP-LAT1-275x-915, MTCDTIP-LVW2-275x-915

MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 MULTICONNECT CONDUIT IP67 BASE STATION GETTING STARTED GUIDE MultiConnect Conduit IP67 Base Station Getting Started Guide Models: MTCDTIP-xxx-266x-xxx, MTCDTIP-xxx-267x-xxx, MTCDTIP-xxx-270x-xxx, MTCDTIP-xxx-275x-xxx Part Number: S000665, Version 2.2 Copyright This publication may not be reproduced, in whole or in part, without the specific and express prior written permission signed by an executive officer of Multi-Tech Systems, Inc. All rights reserved. Copyright 2019 by Multi-Tech Systems, Inc. Multi-Tech Systems, Inc. makes no representations or warranties, whether express, implied or by estoppels, with respect to the content, information, material and recommendations herein and specifically disclaims any implied warranties of merchantability, fitness for any particular purpose and non-

infringement. Multi-Tech Systems, Inc. reserves the right to revise this publication and to make changes from time to time in the content hereof without obligation of Multi-Tech Systems, Inc. to notify any person or organization of such revisions or changes. Trademarks and Registered Trademarks MultiTech, MultiConnect, and the MultiTech logo are registered trademarks and Conduit is a trademark of Multi-Tech Systems, Inc. All other products and technologies are the trademarks or registered trademarks of their respective holders. Legal Notices The MultiTech products are not designed, manufactured or intended for use, and should not be used, or sold or re-sold for use, in connection with applications requiring fail-safe performance or in applications where the failure of the products would reasonably be expected to result in personal injury or death, significant property damage, or serious physical or environmental damage. Examples of such use include life support machines or other life preserving medical devices or systems, air traffic control or aircraft navigation or communications systems, control equipment for nuclear facilities, or missile, nuclear, biological or chemical weapons or other military applications (Restricted Applications). Use of the products in such Restricted Applications is at the users sole risk and liability. MULTITECH DOES NOT WARRANT THAT THE TRANSMISSION OF DATA BY A PRODUCT OVER A CELLULAR COMMUNICATIONS NETWORK WILL BE UNINTERRUPTED, TIMELY, SECURE OR ERROR FREE, NOR DOES MULTITECH WARRANT ANY CONNECTION OR ACCESSIBILITY TO ANY CELLULAR COMMUNICATIONS NETWORK. MULTITECH WILL HAVE NO LIABILITY FOR ANY LOSSES, DAMAGES, OBLIGATIONS, PENALTIES, DEFICIENCIES, LIABILITIES, COSTS OR EXPENSES (INCLUDING WITHOUT LIMITATION REASONABLE ATTORNEYS FEES) RELATED TO TEMPORARY INABILITY TO ACCESS A CELLULAR COMMUNICATIONS NETWORK USING THE PRODUCTS. The MultiTech products and the final application of the MultiTech products should be thoroughly tested to ensure the functionality of the MultiTech products as used in the final application. The designer, manufacturer and reseller has the sole responsibility of ensuring that any end user product into which the MultiTech product is integrated operates as intended and meets its requirements or the requirements of its direct or indirect customers. MultiTech has no responsibility whatsoever for the integration, configuration, testing, validation, verification, installation, upgrade, support or maintenance of such end user product, or for any liabilities, damages, costs or expenses associated therewith, except to the extent agreed upon in a signed written document. To the extent MultiTech provides any comments or suggested changes related to the application of its products, such comments or suggested changes is performed only as a courtesy and without any representation or warranty whatsoever. Contacting MultiTech Knowledge Base The Knowledge Base provides immediate access to support information and resolutions for all MultiTech products. Visit http://www.multitech.com/kb.go. Support Portal To create an account and submit a support case directly to our technical support team, visit: https://support.multitech.com. Support Business Hours: M-F, 8am to 5pm CT Country Europe, Middle East, Africa:

U.S., Canada, all others:

By Email support@multitech.co.uk support@multitech.com By Phone

+(44) 118 959 7774

(800) 972-2439 or (763) 717-5863 Warranty To read the warranty statement for your product, visit www.multitech.com/warranty.go. For other warranty options, visit www.multitech.com/es.go. World Headquarters Multi-Tech Systems, Inc. 2205 Woodale Drive, Mounds View, MN 55112 Phone: (800) 328-9717 or (763) 785-3500 Fax (763) 785-9874 2 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 CONTENTS Contents Chapter 1 MultiConnect ConduitTM IP67 Base Station........................................................................................ 5 Installation..................................................................................................................................................................... 5 Advanced Information .................................................................................................................................................. 5 V2.1 Features ................................................................................................................................................................ 5 Chapter 2 Getting Started with mLinux Models..................................................................................................... 7 Accessing the Terminal Interface.................................................................................................................................. 7 Setting Time Zone, Time, and Date............................................................................................................................... 7 Setting the Custom IP Address, Network Information, and Ethernet Internet Access ................................................ 8 Configuring the Cellular Connection............................................................................................................................. 8 Starting Cellular Connection on Boot ......................................................................................................................... 10 Configuring the LoRa Network Server for mLinux ...................................................................................................... 10 Configuring the LoRa Packet Forwarder ..................................................................................................................... 11 Additional LoRa and mLinux Information ................................................................................................................... 11 Chapter 3 Getting Started with AEP Models........................................................................................................ 12 Logging in to AEP......................................................................................................................................................... 12 Setting the Password .................................................................................................................................................. 12 Setting Date and Time................................................................................................................................................. 12 Configuring PPP........................................................................................................................................................... 12 Setting Up PPP Authentication ................................................................................................................................... 13 Entering IP Address and Network Information........................................................................................................... 13 Configuring Access ...................................................................................................................................................... 13 Finishing Configuration ............................................................................................................................................... 14 Using DeviceHQ for Device Management................................................................................................................... 14 Chapter 4 Specifications and Related Information............................................................................................... 15 MultiConnect Conduit IP67 Base Station Specifications............................................................................................. 15 All Models ................................................................................................................................................................. 15 LoRa Specifications.................................................................................................................................................... 15

-LAT1 Models ............................................................................................................................................................ 16

-LEU1 Models ............................................................................................................................................................ 17

-LEU1 Frequency Bands ............................................................................................................................................ 18

-LVW2 Models........................................................................................................................................................... 18

-LAT3 Models ............................................................................................................................................................ 19

-LVW3 Models........................................................................................................................................................... 19 Dimensions.................................................................................................................................................................. 21 V1.5 Power Draw ........................................................................................................................................................ 22 V2.1 Power Draw ........................................................................................................................................................ 22 LE910 Telit Transmission Output Power..................................................................................................................... 23 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 3 CONTENTS LoRa Transmission Output Power............................................................................................................................... 24 868 Models ............................................................................................................................................................... 24 915 Models ............................................................................................................................................................... 24 I2C Addresses.............................................................................................................................................................. 24 IO Exp V2.1 Board ....................................................................................................................................................... 25 Chapter 5 Regulatory Information....................................................................................................................... 26 47 CFR Part 15 Regulation Class B Devices ................................................................................................................. 26 FCC Notice................................................................................................................................................................... 26 Industry Canada Class B Notice................................................................................................................................... 26 Chapter 6 Safety Notices..................................................................................................................................... 28 EMC, Safety, and R&TTE Directive (RED) Compliance ............................................................................................... 28 Installation Safety ....................................................................................................................................................... 28 Warnings and Cautions ............................................................................................................................................ 28 Lithium Battery ........................................................................................................................................................... 29 User Responsibility...................................................................................................................................................... 30 Device Maintenance ................................................................................................................................................... 30 Vehicle Safety.............................................................................................................................................................. 30 Notice regarding Compliance with FCC, EU, and Industry Canada Requirements for RF Exposure........................... 31 Radio Frequency (RF) Safety ....................................................................................................................................... 31 Scurit relative aux appareils radiofrquence (RF)................................................................................................ 31 Interference with Pacemakers and Other Medical Devices ...................................................................................... 32 Potential interference............................................................................................................................................... 32 Precautions for pacemaker wearers ........................................................................................................................ 32 Chapter 7 Environmental Notices........................................................................................................................ 33 Waste Electrical and Electronic Equipment Statement .............................................................................................. 33 WEEE Directive.......................................................................................................................................................... 33 Instructions for Disposal of WEEE by Users in the European Union ........................................................................ 33 Restriction of the Use of Hazardous Substances (RoHS) ............................................................................................ 33 REACH Statement ....................................................................................................................................................... 34 Registration of Substances........................................................................................................................................ 34 Substances of Very High Concern (SVHC) ................................................................................................................ 34 Information on HS/TS Substances According to Chinese Standards (in Chinese) ...................................................... 35 Information on HS/TS Substances According to Chinese Standards ......................................................................... 36 4 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 MULTICONNECT CONDUITTM IP67 BASE STATION Chapter 1 MultiConnect ConduitTM IP67 Base Station The MultiConnect Conduit IP67 Base Station (MTCDTIP) is a LoRa IoT gateway device designed for outdoor deployments. Installation An installation guide ships with the MCDTIP and is also available at www.multitech.com andwww.multitech.net. Advanced Information For additional information on the mLinux platform, go to http://www.multitech.net/developer/software/mlinux/

For additional information on the AEP platform, go to http://www.multitech.net/developer/software/aep/

V2.1 Features V2.1 refers to the Semtech reference design; the previous reference design was V1.5. Models MTCDTIP xxx266x-xxx and xxx-267x-xxx are V1.5. Models MTCDTIP xxx270x-xxx and xxx-275x-xxx are V2.1. The V2.1 hardware design differs from the previous V1.5 design in the following ways:

The custom, single purpose Semtech RF front-end ASIC was replaced by a popular wideband general purpose single-chip RF front-end from Analog Devices the AD9361. This change transitioned Semtech's LoRa offering from a purely custom chipset to an SDR (Software-Defined Radio) architecture. The Semtech SX1301 baseband processor chips were retained in the design, but now provide much more limited functionality, essentially becoming hardware accelerator blocks whose purpose is to detect and synchronize the preamble (fixed symbol sequence present at the start of every LoRa packet) for incoming packets on multiple frequency slots with multiple spreading factors. This necessary functionality (essentially multiple concurrent FFTs) was more economical in the original ASICs than in an FPGA or a set of general-purpose DSPs. Following a popular pattern for SDR architectures, a large FPGA (a lower-end, but still relatively large Altera / Intel part) is at the center of the system, with all the other system components, including the Analog Devices RF front-end, the Semtech SX1301 ASICs, and a set of TI OMAP-L138 ARM/DSP SoC chips connected to it. The DSP core of the TI SoCs are used for packet symbol detection, decoding, etc. At system startup, the FPGA must first be configured from its associated SPI Flash memory device. The same SPI flash device also contains code which will run on the TI DSPs. After the FPGA is configured, a state machine within the FPGA reads this code from the Flash memory, loads it into the DSP memory space, and starts the DSP. The V2.1 design includes provisions to connect a 48-Channel Extension Board, which increases the number of simultaneous receive channels from 16 to the US maximum of 64. Note that the current LoRa V2.1 reference design allows only simultaneous transmit channels, provided by the two SX1301s on the main V2.1 board only. MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 5 MULTICONNECT CONDUITTM IP67 BASE STATION The V2.1 design includes a GPS receiver module to provide timing synchronization between geographically-dispersed gateways. The high-accuracy one-pulse-per-second (PPS) output from this receiver module maintains an accurate internal 250 MHz (4 ns period) timing counter within the FPGA. The GPS receiver and the associated high-speed counter were added specifically to enable a server-

layer application to estimate the physical location of a node based on the Time Difference-of-Arrival

(TDOA) of the same packet transmitted by the node at multiple (at least three) gateways. This TDOA geolocation scheme works successfully, but accuracy is limited by topography and the number of gateways providing timing information. Multi-path (reflected) signals constitute the primary challenge for this scheme since they arrive at different times based on the different path lengths. For this initial V2.1 release:

V2.1 hardware supports geolocation. To get the fine timestamp for geolocation, you will need the AES keys. These can be obtained from Semtech, which has licensed the geolocation resolver software. Multitech supplies the chip ID that can be used by the network service providers for obtaining the AES keys. The packet format of the LoRa V2.1 is not backward-compatible with the LoRa V1.5 packet format. Therefore, packet processing at the server layer (which sends/receive packets to/from LoRa gateways) fails for V2.1 packets if the code has not been upgraded to handle them. Our MultiTech server code has not been upgraded yet, and therefore cannot be used to process LoRa V2.1 packets. Therefore, if the customer does not have additional server-layer support, the MultiTech LoRa V2.1 gateway can only be used as a packet forwarder. Also, unlike the previous LoRa V1.5 packet format (and packet processing source code), this information is not publicly available. Only LoRa operators or service providers having NDA agreements with Semtech currently have the information required for processing V2.1 packets. 6 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 GETTING STARTED WITH MLINUX MODELS Chapter 2 Getting Started with mLinux Models Accessing the Terminal Interface After connecting Ethernet and power, access the terminal interface:

1. On your PC, configure a static IP address for the network interface that is connected to the device within the following range:

192.168.2.2 - 192.168.2.254 2. Open an SSH connection and log in. Default IP address: (DHCP is disabled) 192.168.2.1 Default credentials for mLinux version 3: username:

root and password:

root Default credentials for mLinux version 4: username:

mtadm and password:

root Note: The above credentials do NOT have root privileges. As a result, many commands may not work unless you use sudo (for super user permissions). To use sudo, either execute :

sudo [command]

or start the root shell:

sudo -s Then enter the mtadm password. The prompt changes to mtcapmtcdtmtcdtip:/home/mtadm#

For tips on using sudo, go to http://www.multitech.net/developer/software/mlinux/using-mlinux/log-in-

as-an-admin-post-production/. The following commands require sudo:

ln -sf /usr/share ... hwclock ifdown ifup mlinux-set-apn pppd killall

/etc/init.d/lora-packet-forwarder Setting Time Zone, Time, and Date To set the time zone, date, and time:

1. Create a symbolic link from the zone info file for your location to /etc/localtime:

MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 7 GETTING STARTED WITH MLINUX MODELS ln -fs /usr/share/zoneinfo/Europe/Zurich /etc/localtime 2. Update the date and time to the current time:

date "2016-12-11 14:58:01"

3. Update the hardware clock:

hwclock -u -w Setting the Custom IP Address, Network Information, and Ethernet Internet Access Network configuration is defined in /etc/network/interfaces. 1. 2. 3. 4. 5. To change the static IP, change the address and netmask fields in /etc/network/interfaces, (use vi or nano). To apply changes, either reboot the device or issue:

ifdown eth0 && ifup eth0 Note: You will lose your SSH session by doing this. To enable DHCP with default settings, edit /etc/udhcpd.conf (using vi or nano) by entering, starting, and ending IP addresses for DHCP range. mlinux-dhcpd start Issue this command to start DHCP:

mlinux-dhcpd start Note: To stop or restart, issue:

mlinux-dhcpd stop or mlinux-dhcpd restart To configure Internet access via the Ethernet port, modify /etc/network/interfaces as follows:

a. b. Add gateway 192.168.2.254 beneath the netmask line, where 192.168.2.254 is the IP address of your network router. To apply changes, either reboot the device or issue:

ifdown eth0 && ifup eth0 Note: You will lose your SSH session by doing this. c. Test Internet access with ping 8.8.8.8. Configuring the Cellular Connection To establish a cellular data link, you must configure and initiate a PPP connection. Sample options, files, and chat scripts are provided in the ppp peers directory /etc/ppp/peers. Anything specific to the network or connection should be placed in one of these files. Global options should be placed in /etc/ppp/options. 1. Set up a cellular data connection. 8 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 GETTING STARTED WITH MLINUX MODELS Note: With a Sprint SIM, your device uses Sprint's OTA activation to register the SIM to their network. Sprint automatically sets the correct APN values automatically. For more information, go to Sprint Device Activation. Set "APN" to the APN for your cellular provider. (Not necessary for Verizon SIMs)

# mlinux-set-apn APN

# Before establishing PPP connection, modify the file, /etc/ppp/options sudo -s echo -e '+ipv6\nipv6cp-use-ipaddr' >>/etc/ppp/options

# Dial the connection (using /etc/ppp/peers/xxx# config)

# pppd call xxx#

(where xxx# is your radio, LSP3 for Sprint or LEU1 for EuropeLSP3 for SprintLEU1 for Europe) 2. Use the Linux route utility to verify ppp0 is up.

# route Kernel IP routing table Destination Gateway 33.140.12.1 8

*

default 33.140.12.1 8 192.168.2.0 *

Genmask 0.0.0.0 Flags Metri c 0 UG 255.255.255.25 5 255.255.255.0 U UH 0 0 Ref Use Iface 0 0 0 0 0 0 ppp0 ppp0 ethp0 The Linux ifconfig utility can be used to inspect the ppp0 interface details.

# ifconfig ppp0 ppp0 P:33.140.12.18 Link encap:Point-to-Point Protocol inet addr:33.140.12.18 P-t-

UP POINTOPOINT RUNNING NOARP MULTICAST MTU:1500 Metric:1 RX packets:7 errors:0 dropped:0 overruns:0 frame:0 TX packets:8 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:3 RX bytes:106 (106.0 B) TX bytes:145 (145.0 B) Mask:255.255.255.255 Additionally, you can view the pppd logs in /var/log/messages to see the modem dialing and assigned IP address or errors if the connection was unsuccessful. To Stop a PPP Connection

# send SIGTERM to pppd, which causes it to hang up and exit cleanly

# killall pppd MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 9 GETTING STARTED WITH MLINUX MODELS Starting Cellular Connection on Boot Automatically starting pppd on boot requires (1) setting the peer file to use and (2) telling the system to run the ppp init script on boot. 1. 2. To see the available peers files (leu1) to set the peer file, issue:

ls /etc/ppp/peers Edit /etc/ppp/ppp_on_boot (with vi or sudo) and change:

#PPPD call provider to your desired provider (where xxx# is your radio, LSP3 for Sprint or LEU1 for EuropeLSP3 for SprintLEU1 for EuropeLNA3 for North America.)

#PPPD call xxx#

3. Manually start the init script and check your Internet connection to test your change. ppp_on_boot

# /etc/init.d/ppp start To set init script to auto start, issue:

# update-rc.d ppp defaults Restart and test your connection. 4. 5. Stop Automatic Start Up To stop ppp from automatically starting, issue:

# update-rc.d -f ppp remove Configuring the LoRa Network Server for mLinux Note: This section applies to LoRaWAN V1.5 devices only. To configure the LoRa Network Server:

1. Install the LoRa mCard. Refer to http://www.multitech.net/developer/products/multiconnect-

conduit-platform/accessory-cards/installing-an-accessory-card/. Attach the LoRa antenna to the LoRa mCard. 2. 3. Use the power cable to connect power to the Conduit and wait for the Conduit to boot up. 4. Log in to the console. Refer to http://www.multitech.net/developer/software/mlinux/getting-started-

with-conduit-mlinux/ if needed. Issue these commands:

# cp /opt/lora/lora-network-server.conf.sample /var/config/lora/lora-

network-server.conf Edit /var/config/lora/lora-network-server.conf and modify these settings as needed (use vi or nano). 5. 6. Field lora["frequencyBand"]:

lora["channelplan"]:

lora["frequencySubBand"]:

LoRa-915 (NA, AU, AS, KR)

"915"

"US915", "AU915", "AS923", or

"KR920"

(integer. 1 to 8) LoRa-868 (EU, IN)

"868"

"EU868" or "IN865"

Not applicable 10 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 Field lora["frequencyEU"]:

LoRa-915 (NA, AU, AS, KR) Not Applicable GETTING STARTED WITH MLINUX MODELS LoRa-868 (EU, IN) default 869500000 range: [863500000 - 867500000] and

[869100000 - 869500000]

network["name"]

network["passphrase"]

network["public"]

network["joinDelay"]:

Name of your LoRa network (string, 8-character minimum, case-sensitive). Security passphrase for your LoRa network (string, 8-character minimum, case-sensitive). Choose from 0: Private MTS, 1: Public LoRaWAN or 2: Private LoRaWAN, Private Options use SyncWord 012 vs Public SyncWord 034. Set to desired Join Delay, default 5 seconds 7. 8. Restart the network server.

# /etc/init.d/lora-network-server restart Start mosquitto client.

# mosquitto_sub -t lora/+/+ -v For advanced LoRa settings, go to http://www.multitech.net/developer/software/lora/conduit-mlinux-lora-

communication/conduit-mlinux-advance-lora-configuration/. Configuring the LoRa Packet Forwarder 1. 2. 3. Log in to the console, if you are not logged in. Establish an Internet connection via Ethernet or cellular. Edit the packet forwarder configuration as necessary by modifying /opt/lora/globallocal_conf.json

(version 2.1) or /opt/lora/local_conf.json (version 1.5) with vi or nano. gateway_conf["server_address"]

gateway_conf["serv_port_up"]

gateway_conf["serv_port_down"]

Set your LoRa network server address Set the up port used by your LoRa network server Set the down port used by your LoRa network server 4. Start the packet forwarder:

# /etc/init.d/lora-packet-forwarder start Additional LoRa and mLinux Information For additional information, including how to configure LoRa devices to communicate with your gateway, visit http://www.multitech.net. For help using LoRa, go to: http://www.multitech.net/developer/software/lora/

For an introduction to Lora, go to : http://www.multitech.net/developer/software/lora/introduction-to-lora/

For getting started with LoRa, go to http://www.multitech.net/developer/software/lora/getting-started-

with-lora-conduit-mlinux/

For help using mLinux, go to: http://www.multitech.net/developer/software/mlinux/. For additional packet forwarder information, go to:

http://www.multitech.net/developer/software/lora/conduit-mlinux-convert-to-basic-packet-forwarder/

MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 11 GETTING STARTED WITH AEP MODELS Chapter 3 Getting Started with AEP Models Logging in to AEP After connecting and powering up your device, log in to AEP:

1. Open an Internet browser. In the browsers address field, enter the device's default address for the device:

http://192.168.2.1 The login page appears. 2. 3. 4. Type the default user name: admin. Type the default password: admin. Click Login to start the First Time Setup Wizard. NOTE: For AEP firmware, the DHCP client is enabled by default. If no address is acquired within 20 seconds, then the device switches to static IP address 192.168.2.1 for 20 seconds. If no access to the Web UI Initial Setup Wizard is made, then the device tries the DHCP client again for 20 seconds and alternates back and forth like this until either an address is acquired through DHCP or the Web UI is accessed. Setting the Password Note: For security reasons, we recommend changing the default password. To set a new password:

1. 2. 3. 4. 5. Click Next on the Welcome panel. In the Current Password field, enter the default password, admin. In the New Password field, enter a new password. Re-type the new password in the Confirm Password field. Click Next. Setting Date and Time To set date and time:

1. 2. 3. 4. Type todays Date in the format shown or use the calendar (data picker). Type the current Time (24-hour format). Select the Time Zone in which the Conduit operates. Click Next. Configuring PPP Note: For models with cellular radios only. To configure the Cellular PPP:

1. 2. To use PPP, check Enable. When enabled, your device functions as a cellular device. If using two cellular antennas, check Diversity. Do not check this option if using one antenna. 12 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 GETTING STARTED WITH AEP MODELS 3. To enable dial-on-demand, check Dial-on-Demand. This tells the device to only make a PPP connection when there is outgoing IP traffic, and it brings the PPP connection down after a given idle timeout. The default Idle timeout is 180 seconds. If desired, you can enter a different value. Type the APN (Access Point Name). The APN is assigned by your wireless service provider. Leave the APN, the radio gets the APN from the carrier when the device registers. 4. 5. 6. Note: When the LSP3 radio registers, the APN is usually set on dial context #2, but it can be set on context #3. To use the correct context, you need to know which context Sprint set the APN on. By default, the LSP3 script uses context #2. Click Next. 7. Setting Up PPP Authentication To set up cellular PPP authentication:

1. 2. 3. 4. Select an authentication protocol Type used to negotiate with the remote peer: pap, chap, or pap-chap. The default is None. Type the Username for the remote peer to use for authentication. Optional. Username is limited to 60 characters. Type the Password for the remote peer to use for authentication. Optional. Password is limited to 60 characters. Click Next to exit the wizard. Entering IP Address and Network Information Set the IP address and network information for the Ethernet port:

Note: Leave the interface static unless using a DHCP server on the network that the device is connecting to. If you select DHCP client, you need to know which address is assigned to the Conduit. For information on DHCP settings, refer to DHCP in the AEP Help. 1. 2. 3. 4. 5. 6. Type the device's IP Address Enter the network Mask. Enter the Gateway address (optional and not displayed when Cellular is enabled). Enter the Primary DNS server address (optional and not displayed when Cellular is enabled). Enter the Secondary DNS server address (optional and not displayed when Cellular is enabled). Click Next. Configuring Access When Cellular is disabled, the default settings enable HTTPRedirect to HTTPs via LAN. Note: Enabling HTTPs via WAN can increase security risk including allowing web users to access the WAN interface. 1. Under HTTP Redirect to HTTPs, check Enabled to turn on or uncheck to turn off. 2. 3. 4. Under HTTPs, enter Port or use default value. Enter Port or use default value. Check either Via LAN or Via WAN. MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 13 GETTING STARTED WITH AEP MODELS 5. Click Finish. Finishing Configuration Complete the following steps after you have finished entering the basic settings. 1. 2. 3. To save and apply the settings, click Save and Restart near the top of the left sidebar. The device restarts. After restart, log back into the AEP interface. On the Dashboard under Cellular, the PPP state displays Link is Up. You may have to wait for short time. To configure a LoRa Network, refer to Getting Started with LoRa Using DeviceHQ for Device Management DeviceHQ is a cloud-based device management tool for remote monitoring, upgrades, and configuration AEP devices. For information on creating and using a DeviceHQ account, go to the http://www.multitech.net/developer/software/devicehq/. 14 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 Chapter 4 Specifications and Related Information SPECIFICATIONS AND RELATED INFORMATION MultiConnect Conduit IP67 Base Station Specifications MultiConnect Conduit IP67 Base Station specifications depend on the hardware configuration for your model. All Models Category General USB SIM Physical Description Weight USB Port with Type A Receptacle, USB Interface is CDC-ACM compliant Micro-SIM Holder Description Dimensions Environment

*Operating Temperature Humidity Power Requirements Input Power V1.5: 5.15 lbs (2.34 kg) V2.1: 5.65 lbs (2.56 kg) Refer to Dimension Drawing.

-30 C to +70 C 20%-90% RH, non-condensing Power over Ethernet 37-57 Volts DC.

*Please consult with MultiTech if interested in extended temperatures. LoRa Specifications Depending on the model, your device has one or two LoRa radios. If the model number includes -868/2 or -915/2, the device has two LoRa radios. Category General Standards Radio Frequency Certifications and Compliance Description LoRaWAN 1.0.2 specifications 915 MHz ISM band for US, AU, and Canada, 868 MHz for Europe, 865 MHz for India, 923 MHz for Japan, and 920 MHz for Korea MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 15 SPECIFICATIONS AND RELATED INFORMATION Category EMC and Radio Compliance Safety Compliance

-LAT1 Models Category General Standards TCP/IP Functions Frequency Bands Speed Data Speed SMS SMS Description EN 55032:2012 RSS-210 FCC 15.247 FCC 15.109 FCC 15.109(g) FCC 15.107 ICES-003 EN 61000-3-3:2013 EN 61000-3-2:2006 (Amended by A1:2009 and A2:2009) EN 55022:2010 EN 300 220-1 v3.1.1 EN 300 220-2 v3.1.1 EN 301 489-1 v2.2.0 EN301 489-3 V2.1.1 (2017-3) UL 60950-1 2nd ED cUL 60950-1 2nd ED IEC 60950-1 2nd Ed. Am.1 and Am.2 Description LTE 3GPP Release 9 HSPA+ 21/GPRS fallback FTP, SMTP, SSL, TCP, UDP 4G: 700 (B17)/850 (B5)/AWS 1700 (B4)/1900 (B2) 3G: 850 (B5)/1900 (B2) 2G: 850/1900 LTE: 100 Mbps downlink/50 Mbps uplink HSPA+: 21 Mbps downlink/5.76 Mbps uplink Point-to-Point messaging Mobile-Terminated SMS Mobile-Originated SMS 16 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 SPECIFICATIONS AND RELATED INFORMATION Category Certifications and Compliance EMC and Radio Compliance Safety Compliance Network Compliance Carrier Environment

-LEU1 Models Category General Standards TCP/IP Functions Frequency Bands Speed Data Speed Interface SMS SMS Certifications and Compliance EMC and Radio Compliance Description FCC Part 15 Class B FCC Part 22, 24, 27 UL 60950-1 2nd ED cUL 60950-1 2nd ED IEC 60950-1 2nd ED PTCRB AT&T IEC/CSA/UL60950-22 and IP67 Description LTE 3GPP Release 9 HSPA+ 21/GPRS fallback FTP, SMTP, SSL, TCP, UDP Refer to the following Frequency Bands table for details. LTE: 100 Mbps downlink/50 Mbps uplink HSPA+: 42 Mbps downlink/5.76 Mbps uplink Point-to-Point messaging Mobile-Terminated SMS Mobile-Originated SMS EN55032:2012 EN 301 511 v12.5.1 EN 301 908-1 v11.1.1 EN 301 908-2 v11.1.1 EN 301 489-1 v2.1.1 EN 301 489-52 v1.1.0 CE RED Radio/SAR MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 17 SPECIFICATIONS AND RELATED INFORMATION Category Safety Compliance Environment Description IEC 60950-1 2nd ED AS/NZS 60950.1 IEC/CSA/UL60950-22 and IP67

-LEU1 Frequency Bands Mode Freq. TX (MHz) Freq. RX (MHz) Channels 0 - 124 975 - 1023 512 - 885 Tx: 4132 - 4233 Rx: 4357 - 4458 Tx: 2712 - 2863 Rx: 2937 - 3088 Tx: 9612 - 9888 Rx: 10562 - 10838 Tx: 24150 - 24449 Rx: 6150 - 6449 Tx: 19200 - 19949 Rx: 1200 - 1949 Tx: 20750 - 21449 Rx: 2750 - 3449 EGSM900 DCS1800 WCDMA850 (band V) 890 - 915 880 - 890 1710 - 1785 824 - 849 935 - 960 925 - 935 1805 - 1880 869 - 894 WCDMA900 (band VIII) 880 - 915 925 - 960 WCDMA2100 (band I) 1920 - 1980 2110 - 2170 LTE800 (band XX) 832 - 862 791 - 821

>LTE1800 (band III) 1710 - 1785 1805 - 1880

>LTE2600 (band VII) 2500 - 2570 2620 - 2690

-LVW2 Models Category General Standards TCP/IP Functions Frequency Bands Speed Data Speed SMS Description LTE 3GPP Release 9 USB Interface is CDC-ACM compliant FTP, SMTP, SSL, TCP, UDP 4G: 700 (B13) / AWS 1700 (B4) LTE: 100 Mbps downlink/50 Mbps uplink TX - RX offset

(MHz) 45 45 95 45 45 190

-41 95 120 18 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 SPECIFICATIONS AND RELATED INFORMATION Category SMS Description Point-to-Point messaging Mobile-Terminated SMS Mobile-Originated SMS Certifications and Compliance EMC and Radio Compliance FCC Part 15 Class B FCC Part 27 UL 60950-1 2nd ED cUL 60950-1 2nd ED IEC 60950-1 2nd ED Verizon IEC/CSA/UL60950-22 and IP67 Description LTE FDD Cat 1, 3GPP release 9 compliant HSPA+ 21/GPRS fallback SMS is based on CS/Packet-Switched (PS) domain of GSM and WCDMA FTP, SMTP, SSL, TCP, UDP 4G: 700 (B12/B13)/850 (B5)/AWS 1700 (B4)/1900 (B2) 3G: 850 (B5)/1900 (B2) LTE: 10 Mbps downlink/5 Mbps uplink HSPA+: Up to 21 Mbps downlink/5.76 Mbps uplink Safety Compliance Carrier Environment

-LAT3 Models Category General Standards TCP/IP Functions Frequency Bands Speed Data Speed Safety Compliance Environment

-LVW3 Models Category General Certifications and Compliance EMC and Radio Compliance FCC Part 15 Class B FCC Part 22, 24, 27 UL 60950-1 2nd ED cUL 60950-1 2nd ED IEC/CSA/UL60950-22 and IP67 Description MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 19 SPECIFICATIONS AND RELATED INFORMATION Category Standards Frequency Bands Speed Data Speed Certifications and Compliance EMC and Radio Compliance Description LTE FDD Cat 1, 3GPP release 9 compliant 4G: 1900 (B2) / 700 (B13) / AWS 1700 (B4) LTE: 10 Mbps downlink / 5 Mbps uplink FCC Part 15 Class B FCC Part 22 FCC Part 24 UL 60950-1 2nd Edition cUL 60950-1 2nd Edition Am. 1 and Am. 2 IEC/CSA/UL60950-22 and IP67 Safety Compliance Environment 20 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 Dimensions SPECIFICATIONS AND RELATED INFORMATION MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 21 SPECIFICATIONS AND RELATED INFORMATION V1.5 Power Draw Power draw for model MTCDTIP-LAT3-267A-915/2 with two LoRa cards and an LTE radio with power over Ethernet:

Voltage Cellular Call Box Connection No Data Measured Current at Maximum Power1 68 mA 88 mA 187 mA 246 mA 56.0 42.0 (Safety testing limit) Note:

TX Pulse 2(AVG) Amplitude Current for GSM850 or Peak Current for HSDPA 256 mA 316 mA Total Inrush Charge3 Measured in MilliCoulombs 213 mC 230 mC 1Maximum Power: The continuous current during maximum data rate with the radio transmitter at maximum power. 2TX Pulse: The average peak current during a GSM850 transmission burst period or HSDPA connection. The transmission burst duration for GSM850 can vary, depending on what transmission scheme is being deployed. 3Inrush Charge: The total inrush charge at power on. V2.1 Power Draw Power draw for model MTCDTIP-LAT1-275L-915:

Voltage Radio Protocol Sleep Mode Current (If Applicable Cellular Call Box Connection No Data LTE LTE 56.0 Volts 42.0 Volts

(Safety Testing Limit) NA NA 154 mA 207 mA IP Connection to Cellular Call Box with Data:

(AVG) Measure Current at Max Power 246 mA 332 mA TX Pulse

(AVG) Amplitude Current for GSM850 or Peak Current for HSDPA 312 mA 404 mA Total Inrush Charge Measured in Millicoulombs 4.93 mC 4.4 mC Tx Pulse: The average peak current during a GSM850 transmission burst period or HSDPA connection. The transmission burst duration for GSM850 can vary depending on what transmission scheme is being deployed (GPRS Class 8, Class 10, GSM, etc.). Max Power: The continuous current during maximum data rate with the radio transmitter at maximum power. Inrush Charge: The total inrush charge at power on. 22 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 SPECIFICATIONS AND RELATED INFORMATION LE910 Telit Transmission Output Power Band GSM 850/900 MHz DCS 1800, PCS 1900 MHz EDGE, 850/900 MHz EDGE, 1800/1900 MHz WCDMA/FDD 800/850/900, 1900/2100 MHz LTE FDD 700/800/850/900, 1800/1900/2100/2600 MHz Power Class 4 (2W) 1 (1W) E2 (0.5W) Class E2 (0.4W) Class 3 (0.25W) Class 3 (0.2W) MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 23 SPECIFICATIONS AND RELATED INFORMATION LoRa Transmission Output Power 868 Models Max output 25 dBm Power Frequency On Power-up (dBm) 18 Hours After 27 27 869.525 MHz 869.525 MHz 24.18 24.18 915 Models Max output 27 dBm Power 26 26 26 Frequency 923.3 MHz 925.1 MHz 927.5 MHz I2C Addresses Component I2C Address (V2.1 Board) 0100000 1001001 1011100 TCA9535 I/O Expander LM 75AIM Temp Sensor LPS25HB Pressure Sensor 24C04 EEPROM TMP102A Temp Sensor (U2) TMP102A Temp Sensor (U94) TMP102A Temp Sensor (U95) TMP102A Temp Sensor (U96) GPS Receiver On Power-up (dBm) 18 Hours After 26.58 26.76 27.22 I2C Address (48-

Channel Extension Board) 0100001 1001011 1011101 Power-up (dBm) 25 24.83 Power-up (dBm) 25.88 26.34 26.8 Bandwidth 125 kHz 250 kHz Bandwidth 500 kHz 500 kHz 500 kHz I2C Address

(Processor Board) Comments 101011x 1001000 1001001 1001010 1001011 LSB is A8 memory address bit Not populated Not populated Not populated 1000010 (default) Can be changed by software 24 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 IO Exp V2.1 Board Pin Name P00 Signal Name FPGA_nCE Direction Output FPGA_nCONFIG Output FPGA_RSTn GPS_RSTn Output Output FPGA_CONF_DONE Input Output Output CPU_EPCS_EN EXT_EPCS_EN FPGA_EXT_RSTn Output EXT_SPI_PROG NA EXT_CONF_DONE Input P01 P02 P03 P04 P05 P06 P07 P10 P11 P12 P13 P14 P15 P16 P17 Outputs are active-low. SPECIFICATIONS AND RELATED INFORMATION Where Used V2.1 board 48-Channel extension board Comments FPGA configuration chip enable (active low) Pull low to begin FPGA configuration Input to FPGA Input to FPGA Goes high to indicate the FPGA configuration is complete (V2.1 board) Enables SPI programming data to V2.1 band Enables SPI programming data to 48-channel extension board Input to FPGA on 48-

channel extension board Not used (test point on 48-

channel extension board only Goes high to indicate the FPGA configuration is complete (48-channel extension board) MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 25 REGULATORY INFORMATION Chapter 5 Regulatory Information 47 CFR Part 15 Regulation Class B Devices This equipment has been tested and found to comply with the limits for a Class B digital device, 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 instructions, 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 or 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 to this unit not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. FCC Notice Per FCC 15.19(a)(3) and (a)(4) 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. This device is open development based product that contains a sub GHz radio technology. MultiTech has certified for compliance with US and Foreign compliance bodies including FCC, R&TTE and others. (e.g. FCC 15.247:2015 &

IC RSS-210:2010) MultiTech provides software code meant to operate the radio to a level that maintains compliance with the operating modes under which these radio devices were certified. To ensure this level of compliance, the software code is provided in binary form only. Users are prohibited from making any changes that affect the operation of the radio performance. Accessing or controlling the radio through any means other than the provided binary software will require the user to obtain their own intentional radiator license from the certification body governing their locality, as all pre-certification provided with Conduit Base Station IP67 mDot will have been made invalid. Industry Canada Class B Notice This Class B digital apparatus meets all requirements of the Canadian Interference-Causing Equipment Regulations. Cet appareil numrique de la classe B respecte toutes les exigences du Reglement Canadien sur le matriel brouilleur. This device complies with Industry Canada license-exempt RSS standard(s). The operation is permitted for the following two conditions:

1. 2. the device may not cause interference, and this device must accept any interference, including interference that may cause undesired operation of the device. 26 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 REGULATORY INFORMATION Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes:

1. 2. l'appareil ne doit pas produire de brouillage, et lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 27 SAFETY NOTICES Chapter 6 Safety Notices EMC, Safety, and R&TTE Directive (RED) Compliance The CE mark is affixed to this product to confirm compliance with the following European Community Directives:

Council Directive 2011/65/EU on the restriction of the use of certain hazardous substances in electrical and electronic equipment;

and Council Directive 2014/53/EU on radio equipment and telecommunications terminal equipment and the mutual recognition of their conformity. and Council Directive 2014/35/EU on the harmonization of the laws of Member States relating to Electrical Equipment designed for use within certain voltage limits. MultiTech declares that this device is in compliance with the essential requirements and other relevant provisions of Directive 2014/53/EU. The declaration of conformity may be requested at https://support.multitech.com. Installation Safety This information is also available in the Installation Guide. Warnings and Cautions Warning and Caution symbols mean potential danger. You are in a situation that could cause bodily injury. Before working on any equipment, be aware of hazards in the installation area and be knowledgeable about electrical circuitry. Be familiar with standard practices for preventing accidents. For translations of key cautions and warnings, refer Appendix A. Warning: Only trained and qualified personnel should install, replace, or service this equipment. Installation must comply with local and national electrical codes. When installing or replacing the unit, the ground connection must always be made first and disconnected last. Disconnect POE power (Ethernet POE port) before servicing IP67 Base Station. Do not work on the system or connect or disconnect cables during periods of lightning activity. This device is not designed or approved to be used in any Hazardous Locations. Do not install or operate device if area is known to be an explosive environment. Externally ground this equipment using a customer-supplied ground wire before applying power. Contact an electrician if you are uncertain that suitable grounding is available. Refer to Installing the Ground Wire instructions. < All wall mounting installations are subject to the acceptance of local jurisdiction. Do not locate antenna near overhead power lines or other electric light or power circuits, or where it can come into contact with such circuits. When installing the antenna, take extreme 28 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 SAFETY NOTICES care not to come into contact with such circuits, because they may cause serious injury or death. For proper installation and grounding of the antenna, please refer to national and local codes. CAUTION:

Power over Ethernet (PoE) Certification does not apply or extend to voltages outside of standard PoE range. Any PoE voltages beyond 0vdc to 60Vdc have not been evaluated by UL or MULTITECH. Nominal PoE voltage is 48Vdc to 57 VDC. The end user supplies the PoE cable. If the cable is to be used outdoors, the cable must be certified for outdoor or burial use. For models:

MTCDTIP-270x-xxx, MTCDTIP-275x-xxx Recommended PoE: 802.3bt-compliant Type 4 Class 7 Power-over-Ethernet (PoE) Powered Devices (PDs) and require PoE Power Supply Equipment (PSE) that is 802.3bt-compliant with minimum 60W output power capability. For models:

MTCDTIP-266x-xxx, MTCDTIP-xxx-266x-xxx, MTCDTIP-267x-xxx, MTCDTIP-xxx-267x-xxx Recommended PoE: 802.3at-compliant Type 2 Class 4 Power-over-Ethernet (PoE) Powered Devices (PDs) and require PoE Power Supply Equipment (PSE) that is 802.3at-compliant with minimum 25.5W output power capability. Ethernet port is not designed to be connected to a public Telecommunication (PSTN) or any other connection other than IEEE 802.3-2012 power over Ethernet devices. Do not remove product labels. Warning:

HOT SURFACE DO NOT TOUCH Note: This symbol is included on the serial label. UL evaluated this device to a safety and outdoor certification temperature of -30c to +70c. Lithium Battery A lithium battery (3V, coin cell, CR1632) located within the product provides backup power for the timekeeping. This battery has an estimated life expectancy of ten years. When this battery starts to weaken, the date and time may be incorrect. Battery is not user replaceable. If the battery fails, the device must be sent back to MultiTech Systems for battery replacement. Lithium cells and batteries are subject to the Provisions for International Transportation. Multi-Tech Systems, Inc. confirms that the Lithium batteries used in the MultiTech product(s) referenced in this manual comply with Special Provision 188 of the UN Model Regulations, Special Provision A45 of the ICAO-TI/IATA-

DGR (Air), Special Provision 310 of the IMDG Code, and Special Provision 188 of the ADR and RID (Road and Rail Europe). MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 29 SAFETY NOTICES CAUTION: Risk of explosion if this battery is replaced by an incorrect type. Dispose of batteries according to instructions. Attention: Risque d'explosion si vous remplacez la batterie par un modle incompatible. Jetez les piles usages selon les instructions. User Responsibility Respect all local regulations for operating your wireless device. Use the security features to block unauthorized use and theft. Device Maintenance Do not attempt to disassemble the device. There are no user serviceable parts inside. When maintaining your device:

Do not misuse the device. Follow instructions on proper operation and only use as intended. Misuse could make the device inoperable, damage the device and/or other equipment, or harm users. Do not apply excessive pressure or place unnecessary weight on the device. This could result in damage to the device or harm to users. Do not use this device in explosive or hazardous environments unless the model is specifically approved for such use. The device may cause sparks. Sparks in explosive areas could cause explosion or fire and may result in property damage, severe injury, and/or death. Do not expose your device to any extreme environment where the temperature or humidity is high. Such exposure could result in damage to the device or fire. Refer to the device specifications regarding recommended operating temperature and humidity. Do not expose the device to water, rain, or spilled beverages. Unless the device is IP67 rated, it is not waterproof. Exposure to liquids could result in damage to the device. Do not place the device alongside computer discs, credit or travel cards, or other magnetic media. The information contained on discs or cards may be affected by the device. Using accessories, such as antennas, that MultiTech has not authorized or that are not compliant with MultiTech's accessory specifications may invalidate the warranty. If the device is not working properly, contact MultiTech Technical Support. Vehicle Safety When using your device in a vehicle:

Do not use this device while driving. Respect national regulations on the use of cellular devices in vehicles. If incorrectly installed in a vehicle, operating the wireless device could interfere with the vehicles electronics. To avoid such problems, use qualified personnel to install the device. The installer should verify the vehicle electronics are protected from interference. Using an alert device to operate a vehicles lights or horn is not permitted on public roads. UL evaluated this device for use in ordinary locations only. UL did NOT evaluate this device for installation in a vehicle or other outdoor locations. UL Certification does not apply or extend to use in vehicles or outdoor applications. 30 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 SAFETY NOTICES Notice regarding Compliance with FCC, EU, and Industry Canada Requirements for RF Exposure The antenna intended for use with this unit meets the requirements for mobile operating configurations and for fixed mounted operations, as defined in 2.1091 of the FCC rules for satisfying RF exposure compliance. This device also meets the European RF exposure requirements of EN 62311. If an alternate antenna is used, consult user documentation for required antenna specifications. Compliance of the device with the FCC, EU and IC rules regarding RF Exposure was established and is given with the maximum antenna gain as specified above for a minimum distance of 35 cm between the devices radiating structures (the antenna) and the body of users. Qualification for distances closer than 35 cm (portable operation) would require re-certification. Wireless devices could generate radiation. Other nearby electronic devices, like microwave ovens, may also generate additional radiation to the user causing a higher level of RF exposure. Radio Frequency (RF) Safety Due to the possibility of radio frequency (RF) interference, it is important that you follow any special regulations regarding the use of radio equipment. Follow the safety advice given below. Operating your device close to other electronic equipment may cause interference if the equipment is inadequately protected. Observe any warning signs and manufacturers recommendations. Different industries and businesses restrict the use of cellular devices. Respect restrictions on the use of radio equipment in fuel depots, chemical plants, or where blasting operations are in process. Follow restrictions for any environment where you operate the device. Do not place the antenna outdoors. Switch OFF your wireless device when in an aircraft. Using portable electronic devices in an aircraft may endanger aircraft operation, disrupt the cellular network, and is illegal. Failing to observe this restriction may lead to suspension or denial of cellular services to the offender, legal action, or both. Switch OFF your wireless device when around gasoline or diesel-fuel pumps and before filling your vehicle with fuel. Switch OFF your wireless device in hospitals and any other place where medical equipment may be in use. Scurit relative aux appareils radiofrquence (RF) cause du risque d'interfrences de radiofrquence (RF), il est important de respecter toutes les rglementations spciales relatives aux quipements radio. Suivez les conseils de scurit ci-dessous. Utiliser l'appareil proximit d'autres quipements lectroniques peut causer des interfrences si les quipements ne sont pas bien protgs. Respectez tous les panneaux d'avertissement et les recommandations du fabricant. Certains secteurs industriels et certaines entreprises limitent l'utilisation des appareils cellulaires. Respectez ces restrictions relatives aux quipements radio dans les dpts de carburant, dans les usines de produits chimiques, ou dans les zones o des dynamitages sont en cours. Suivez les restrictions relatives chaque type d'environnement o vous utiliserez l'appareil. Ne placez pas l'antenne en extrieur. teignez votre appareil sans fil dans les avions. L'utilisation d'appareils lectroniques portables en avion est illgale: elle peut fortement perturber le fonctionnement de l'appareil et dsactiver le rseau cellulaire. S'il MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 31 SAFETY NOTICES ne respecte pas cette consigne, le responsable peut voir son accs aux services cellulaires suspendu ou interdit, peut tre poursuivi en justice, ou les deux. teignez votre appareil sans fil proximit des pompes essence ou de diesel avant de remplir le rservoir de votre vhicule de carburant. teignez votre appareil sans fil dans les hpitaux ou dans toutes les zones o des appareils mdicaux sont susceptibles d'tre utiliss. Interference with Pacemakers and Other Medical Devices Potential interference Radio frequency energy (RF) from cellular devices can interact with some electronic devices. This is electromagnetic interference (EMI). The FDA helped develop a detailed test method to measure EMI of implanted cardiac pacemakers and defibrillators from cellular devices. This test method is part of the Association for the Advancement of Medical Instrumentation (AAMI) standard. This standard allows manufacturers to ensure that cardiac pacemakers and defibrillators are safe from cellular device EMI. The FDA continues to monitor cellular devices for interactions with other medical devices. If harmful interference occurs, the FDA will assess the interference and work to resolve the problem. Precautions for pacemaker wearers If EMI occurs, it could affect a pacemaker in one of three ways:

Stop the pacemaker from delivering the stimulating pulses that regulate the heart's rhythm. Cause the pacemaker to deliver the pulses irregularly. Cause the pacemaker to ignore the heart's own rhythm and deliver pulses at a fixed rate. Based on current research, cellular devices do not pose a significant health problem for most pacemaker wearers. However, people with pacemakers may want to take simple precautions to be sure that their device doesn't cause a problem. Keep the device on the opposite side of the body from the pacemaker to add extra distance between the pacemaker and the device. Avoid placing a turned-on device next to the pacemaker (for example, dont carry the device in a shirt or jacket pocket directly over the pacemaker). 32 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 ENVIRONMENTAL NOTICES Chapter 7 Environmental Notices Waste Electrical and Electronic Equipment Statement Note: This statement may be used in documentation for your final product applications. WEEE Directive The WEEE Directive places an obligation on EU-based manufacturers, distributors, retailers, and importers to take-

back electronics products at the end of their useful life. A sister directive, ROHS (Restriction of Hazardous Substances) complements the WEEE Directive by banning the presence of specific hazardous substances in the products at the design phase. The WEEE Directive covers all MultiTech products imported into the EU as of August 13, 2005. EU-based manufacturers, distributors, retailers and importers are obliged to finance the costs of recovery from municipal collection points, reuse, and recycling of specified percentages per the WEEE requirements. Instructions for Disposal of WEEE by Users in the European Union The symbol shown below is on the product or on its packaging, which indicates that this product must not be disposed of with other waste. Instead, it is the user's responsibility to dispose of their waste equipment by handing it over to a designated collection point for the recycling of waste electrical and electronic equipment. The separate collection and recycling of your waste equipment at the time of disposal will help to conserve natural resources and ensure that it is recycled in a manner that protects human health and the environment. For more information about where you can drop off your waste equipment for recycling, please contact your local city office, your household waste disposal service or where you purchased the product. July, 2005 Restriction of the Use of Hazardous Substances (RoHS) Multi-Tech Systems, Inc. Certificate of Compliance 2011/65/EU Multi-Tech Systems, Inc. confirms that its embedded products comply with the chemical concentration limitations set forth in the directive 2011/65/EU of the European Parliament (Restriction of the use of certain Hazardous Substances in electrical and electronic equipment - RoHS). These MultiTech products do not contain the following banned chemicals1:

Lead, [Pb] < 1000 PPM Mercury, [Hg] < 1000 PPM MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 33 ENVIRONMENTAL NOTICES Hexavalent Chromium, [Cr+6] < 1000 PPM Cadmium, [Cd] < 100 PPM Polybrominated Biphenyl, [PBB] < 1000 PPM Polybrominated Diphenyl Ether, [PBDE] < 1000 PPM Environmental considerations:

Moisture Sensitivity Level (MSL) =1 Maximum Soldering temperature = 260C (in SMT reflow oven) 1Lead usage in some components is exempted by the following RoHS annex, therefore higher lead concentration would be found in some modules (>1000 PPM);

- Resistors containing lead in a glass or ceramic matrix compound. REACH Statement Registration of Substances After careful review of the legislation and specifically the definition of an article as defined in EC Regulation 1907/2006, Title II, Chapter 1, Article 7.1(a)(b), it is our current view that Multi-Tech Systems, Inc. products would be considered as articles. In light of the definition in 7.1(b) which requires registration of an article only if it contains a regulated substance that is intended to be released under normal or reasonably foreseeable conditions of use, our analysis is that Multi-Tech Systems, Inc. products constitute nonregisterable articles for their intended and anticipated use. Substances of Very High Concern (SVHC) Per the candidate list of Substances of Very High Concern (SVHC) published October 28, 2008 we have reviewed these substances and certify the Multi-Tech Systems, Inc. products are compliant per the EU REACH requirements of less than 0.1% (w/w) for each substance. If new SVHC candidates are published by the European Chemicals Agency, and relevant substances have been confirmed to be greater than 0.1% (w/w), Multi-Tech Systems, Inc. will provide updated compliance status. Multi-Tech Systems, Inc. also declares it has been duly diligent in ensuring that the products supplied are compliant through a formalized process which includes collection and validation of materials declarations and selective materials analysis where appropriate. This data is controlled as part of a formal quality system and will be made available upon request. 34 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 ENVIRONMENTAL NOTICES Information on HS/TS Substances According to Chinese Standards (in Chinese)

(MII) (EIP) 39 RoHS, Multi-Tech Systems, Inc.

(TS) (HS)

(PB) (Hg) (CD) (CR6+)

////

/

ICs

/

LEDs

-

/ CD O X X O O O O X O O O O O O X O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O

(PBB) O O O O O O O O O O O O O O O O O O O

(PBDE) O O O O O O O O O O O O O O O O O O O X / SJ/Txxx-2006 O MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1 35 ENVIRONMENTAL NOTICES Information on HS/TS Substances According to Chinese Standards In accordance with China's Administrative Measures on the Control of Pollution Caused by Electronic Information Products (EIP) # 39, also known as China RoHS, the following information is provided regarding the names and concentration levels of Toxic Substances (TS) or Hazardous Substances (HS) which may be contained in Multi-Tech Systems Inc. products relative to the EIP standards set by China's Ministry of Information Industry (MII). Hazardous/Toxic Substance/Elements Name of the Component Lead

(PB) Mercury

(Hg) Cadmium

(CD) Hexavalent Chromium

(CR6+) Printed Circuit Boards Resistors Capacitors Ferrite Beads Relays/Opticals ICs Diodes/ Transistors Oscillators and Crystals Regulator Voltage Sensor Transformer Speaker Connectors LEDs Screws, Nuts, and other Hardware AC-DC Power Supplies Software /Documentation CDs Booklets and Paperwork Chassis O X X O O O O X O O O O O O X O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O Polybromi nated Biphenyl

(PBB) O O O O O O O O O O O O O O O O O O O Polybrominat ed Diphenyl Ether (PBDE) O O O O O O O O O O O O O O O O O O O X Represents that the concentration of such hazardous/toxic substance in all the units of homogeneous material of such component is higher than the SJ/Txxx-2006 Requirements for Concentration Limits. O Represents that no such substances are used or that the concentration is within the aforementioned limits. 36 MultiConnect ConduitTM Base Station IP67 Getting Started Guide for Versions 1.5 and 2.1