FCC ID: 2A8J7-DSGTPA-1W Ethernet Gateway 4

by Ethernet Gateway 4 User Guide IMPORTANT!

For best results, please wait to power on your Ethernet Gateway 4 until after you have registered an account on iMonnit and added your gateway and sensors to the online system. Table of Contents I. ABOUT THE ETHERNET GATEWAY 4 ALTA ETHERNET GATEWAY 4 FEATURES EXAMPLE APPLICATIONS II. GATEWAY COONECTION WITH EXTERNAL AMPLIFIER III. GATEWAY SECURITY SENSOR COMMUNICATION SECURITY DATA SECURITY ON THE GATEWAY SERVER COMMUNICATION SECURITY SNTP SECURITY SNMP SECURITY IV. GATEWAY REGISTRATION REGISTERING THE ETHERNET GATEWAY 4 V. USING THE ETHERNET GATEWAY 4 USING THE ETHERNET GATEWAY 4 UNDERSTANDING THE ETHERNET GATEWAY 4 LIGHTS ETHERNET GATEWAY 4 SETTINGS VI. INSTALLING MONNIT EXPRESS AND MINE INSTALLING MONNIT EXPRESS INSTALLING MONNIT MINE VII. USING THE LOCAL INTERFACE GATEWAY STATUS TAB GATEWAY OPTIONS TAB DATA INTERFACES TAB SUPPORT WARRANTY INFORMATION CERTIFICATIONS 1 1 1 2 3 3 3 3 3 3 4 4 5 5 5 6 11 11 11 12 12 13 15 20 20 22 PAGE II I. ABOUT THE ETHERNET GATEWAY 4 Monnits ALTA Ethernet Gateway 4 allows your Monnit Wireless Sensors to communicate with the iMonnit Online Wireless Sensor Monitoring and Notification System without the need for a PC. Simply provide power and plug the gateway into an open Ethernet network port with an Internet connection. It will then automatically connect with our online servers, providing the perfect solution for commercial locations where there is an active Internet connection. The Ethernet Gateway 4 allows your Monnit Wireless Sensors to communicate with the iMonnit system via Ethernet transmission. ALTA Ethernet Gateways are advanced wireless IoT gateways that enable fast time-to-market solutions. Monnits Ethernet Gateway 4 is specifically designed to respond to the increasing market need for global technology that accommodates a variety of vertical IoT application segments and remote wireless sensor management solutions. ALTA ETHERNET GATEWAY 4 FEATURES Wireless range of 1,200+ feet through 12+ walls *

Frequency Hopping Spread Spectrum (FHSS) **

Encrypt-RF Security (Diffie-Hellman Key Exchange + AES-128 CBC for sensor data Improved interference immunity messages) 15,000 sensor message memory Over the air updates (future proof) True plug & play, no hassles for Internet configuration set-up No PC required for operation Local status LEDs with transmission and online status indicators AC power supply

* Actual range may vary depending on environment.

** When paired with a Monnit data plan. EXAMPLE APPLICATIONS Remote Location Monitoring Shipping and Transportation Agricultural Monitoring Vacant Property Management Vacation Home Property Management Construction Site Monitoring Data Center Monitoring PAGE 1 II. GATEWAY CONNECTION WITH EXTERNAL AMPLIFIER The configuration EG4 with Power Amplifier intended for industrial and Commercial use. The installation is taken by expert professional only. The Gateway connection with external amplifier consists of:

1) External Power amplifier addition: Model 12-01 Make TELETRONICS International Inc. 2) Antenna: Part no. TLS.01.305111 Make: Taoglas. 3) Low Pass Filter: part no: CLPFL Make: CRYSTEK MICROWAVE Gateway is default configured for power setting +14dbm which is feed to DC injector and via dc injector RF signal is routed to RF amplifier to LPF and ANT. If power is more than 4mw the SmartAMP actively amplify power to 1W, for power less than 4mw SmartAMP will only receive signal. PAGE 2 III. GATEWAY SECURITY The ALTA Ethernet Gateway 4 has been designed and built to securely manage data from sensors monitoring your environment and equipment. Hacking from botnets are in the headlines, Monnit Corporation has taken strong measures to ensure your data security is handled with the utmost care and attention to detail. The same methods utilized by financial institutions to transmit data are also used in Monnit security infrastructure. Security features of the gateway include purpose-built operating system, data encryption, and bank-grade security. Monnits proprietary sensor protocol uses low transmit power and specialized radio equipment to transmit application data. Wireless devices listening on open communication protocols cannot eavesdrop on sensors. Packet level encryption and verification is key to ensuring traffic isnt altered between sensors and gateways. Paired with best-in-class range and power consumption protocol, all data is transmitted securely from your devices. Thereby ensuring a smooth, worry-free, experience. SENSOR COMMUNICATION SECURITY Monnit sensor to gateway secure wireless tunnel is generated using ECDH-256 (Elliptic Curve Diffie-Hellman) public key exchange to generate a unique symmetric key between each pair of devices. Sensors and gateways use this link specific key to process packet level data with hardware accelerated 128-bit AES encryption which minimizes power consumption to provide industry best battery life. Thanks to this combination, Monnit proudly offers robust bank-grade security at every level. DATA SECURITY ON THE GATEWAY The ALTA Ethernet Gateway 4 is designed to prevent prying eyes from accessing the data that is stored on the sensors and on iMonnit. The ALTA Ethernet Gateway 4 does not run on an off the shelf multi-function OS (operating system). Instead it runs a purpose specific real-time embedded state machine that cannot be hacked to run malicious processes. When fully secured after initial configuration steps, the gateway provides no active interface that can be used to gain access. The fortified gateway prevents snooping of sensor traffic, keeping your sensitive data from malicious parties and secures the gateway from becoming a relay for malicious programs. SERVER COMMUNICATION SECURITY Communication between your ALTA Ethernet Gateway 4 and iMonnit is secured by packet level encryption. Similar to the security between the sensors and gateway, the gateway and server also establish a unique key using ECDH-256 for encrypting data. The packet level data is encrypted end to end removing additional requirements to configure specialized VPNs. The gateway can still operate within a VPN if it is present. SNTP SECURITY The gateway can be set up to retrieve time from an SNTP server. An SNTP server can be set up on the same LAN as the gateway, such as on a router or a Linux computer. The gateway should be configured to retrieve time from only trusted servers, such as ones maintained by your ISP. Incorrect time can affect the delivery of sensor traffic. If the Monnit Server is active, it will be utilized for time synchronization in ordinary opera-

tion. So SNTP will be used as a backup. SNMP SECURITY SNMP stands for Simple Network Management Protocol) is an Internet application protocol that manages and monitors network device functionality. Monnit uses SNMP version 1. These settings can both be configured both on iMonnit and the local interface. PAGE 3 IV. GATEWAY REGISTRATION If this is your first time using the iMonnit online portal, you will need to create a new account. If you have already created an account, start by logging in. For instructions on how to register for an iMonnit account, please consult the iMonnit User Guide viewable at monnit.com/support/documentation. REGISTERING THE ETHERNET GATEWAY 4 To register your gateway on iMonnit, you will need to enter the Device ID and the Security Code from your Ethernet Gateway 4 in the corresponding text boxes. Use the camera on your smartphone to scan the QR code on your Gateway. If you do not have a camera on your phone, or you are accessing the online portal through a desktop computer, you may enter the Device ID and Security Code manually. The Device ID is a unique number located on each device label. Next youll be asked to enter the Security Code (SC) on your device. A security code will be all letters, no numbers. It can also be found on the barcode label of your gateway. When completed, select the Submit button. IMPORTANT: Add the gateway and all sensors to the iMonnit portal so that on boot, the gateway can download and whitelist the sensors from the configured sensor network. PAGE 4 V. USING THE ETHERNET GATEWAY 4 USING THE ETHERNET GATEWAY 4 The back of your gateway will look like the diagram below:

From left to right, we see:

Power: This is where your power cord will be plugged into. Network: This is the socket where your Ethernet cord will go. Utility Button: A short, five second, press of this button will enable the local interface. Pressing the utility button for fifteen seconds will reset the gateway. 1. Connect your antenna to the gateway. 2. Plug the power supply cord and the network cable into an outlet. 3. After the three LED lights switch to green, your gateway is ready to use. UNDERSTANDING THE ETHERNET GATEWAY 4 LIGHTS The gateway will enter three stages as it powers on:

Power-on stage: The gateway will analyze electronics and programming. The LED lights will flash red and green, before all becoming green for one second and entering a waterfall pattern. In case of failure, the light sequence will repeat after ten seconds. The gateway will continue trying to boot until it succeeds. Please contact technical support if the lights arent green after two minutes. Connection stage: When the LEDs turn solid green for 1.5 seconds, the power-on stage will be complete. After the Network Uplink Connectivity Indicator displays a solid green LED, the gateway will attempt to begin making connections to its default server and other configured surfaces. The gateway will attempt to settle all operational connections. As the gateway first connects to the network, all other lights will be dark. Operational stage: All of the lights will remain green while powered externally, unless there is an issue. A blinking link light is a signal that the gateway has encountered an issue in the network. Steady Green: Communication with sensors is normal. Blinking Green: Active communication with sensors. Steady Red: Gateway hardware may be faulty Steady Green: Communication with the default server is okay. Blinking Green: Active communication with the default server Steady Red: Last communication with the data interface was unsuccessful. This could signal an issue with the default server. Steady Green: Network connection successful. Steady Red: No Network connection has been made. PAGE 5 ETHERNET GATEWAY 4 SETTINGS ON IMONNIT The Ethernet Gateway 4 will receive data from all sensors assigned to the network and within range, then return this data to the iMonnit server in a series of heartbeats. You can access gateway settings by selecting Gateways in the main navigation panel. Choose the Ethernet Gateway 4 from the list of gateways registered to your account. Select the Settings tab to edit the gateway:

A. The Gateway Name field is where you assign your gateway a unique title. By default, the gateway name will be the type followed by the Device ID. B. The Heartbeat Minutes configures the interval that the gateway checks in with the server. The default is five minutes. So every five minutes your gateway will report to the server. C. Force Transmit on Aware means that if the sensors reach an aware state outside of the heartbeat interval, the gateway will immediately relay that data to the server instead of waiting the extra time it would take to reach the next heartbeat minute. PAGE 6 Commands Choose the bullet for Commands located just under the Settings title to access the commands page. A. Will Call Expiration is the number of hours that messages are kept in the internal memory for the Modbus TCP and SNMP interfaces before it is cleared out. B. This is the time in hours that the gateway will continuously operate before an automatic reset takes place. An auto reset takes about ten seconds. C. Selecting the Reform Network command will trigger the gateway to remove all sensors from the internal whitelist, and then request a new sensor list from the server. This command will force all sensors to reinitialize their connection with the gateway. Reforming the network cleans up communication when multiple networks are in range of each other so they are all in sync. This is especially useful if you must move sensors to a new network, and would like to clear these sensors from the gateways internal list. Reforming the network will place a new list of sensors that will continue to exchange data. D. Choosing the Reset Gateway to Factory Defaults button will erase all your unique settings and return the gateway to factory default settings. PAGE 7 Local Area Network Choose the Local Area Network bullet under the Settings title to open up the local area network configuration page. The Local Area Network includes the ability to switch your network IP address from DHCP to Static. DHCP will be the default network IP address. Multiple interfaces can be active, if using any of the polling interfaces we recommend using a static IP address on the Gateway. An IP address is a unique number typically formatted as XXX.XXX.XXX.X. To change your IP address to a Static IP, navigate to the network IP option and switch it from DHCP to Static. Then input your data for the Static IP, Network Mask, Default Gateway, and Default DNS Server. Static IP - A static Internet Protocol (IP) address is a numerical sequence assigned to a computer by a Network Administrator. This is different from a Dynamic IP Address in that a Static IP doesnt periodically change and remains constant. Network Mask - Also known as a subnet mask this number hides the network half of an IP address. The most common Network Mask number is 255.255.255.0. Default Gateway - This is the forwarding host a computer utilizes to relay data to the Internet. Default DNS Server - DNS Servers take alphanumerical data (like a URL address) and return the ip address for the server containing the information youre looking for. PAGE 8 Interface Activation There are additional interfaces available for activation on your Gateway Settings page. To activate them, choose the Interface Activation bullet. Toggle on each of the interfaces to access their individual settings. SNMP Interface SNMP stands for Simple Network Management Protocol) is an Internet application protocol that manages and monitors network device functionality. Monnit uses SNMP version 1. These settings can both be configured both on iMonnit and the local interface. Inbound IP Range Start and End - This is the IP address for the SNMP client. If you have one device to communicate with, the start and end IP addresses will be the same. Exchanging information with multiple machines will require a set of different start and end IP addresses. Inbound Port - This is the number for where specifically in the server data from the gateway is received. SNMP Community String This is used to support SNMPv1 protocol by giving access to a routers or other devices statistics. The default will be set to public. Trap Settings The switch for Trap Settings will be disabled by default. Enable to view the trap settings. Trap IP Address - The IP Address for the SNMP Server where the trap will be sent. Trap Port The server port where the trap alert state is sent when active. PAGE 9 Modbus Interface Modbus TCP (Transmission Control Protocol) is the Modbus RTU protocol with a TCP interface that runs on Ethernet. Monnit provides the Modbus TCP interface for you to pull gateway and sensor data. You can use Modbus without the server interface active. The data will not be sent to a server, but you can continue to poll for new data as it is received by the gateway. SNTP Interface SNTP is a synchronized computer clock on a network. An SNTP server can be set up on the same LAN as the gateway, such as on a router or a Linux computer. The gateway should be configured to retrieve time from only trusted servers, such as ones maintained by your ISP. Incorrect time can affect the delivery of sensor traffic. If the Monnit Server is active, it will be utilized for time synchronization in ordinary operation. So SNTP will be used as a backup If you disable the default server interface, you must configure the SNTP Interface. HTTP Interface The HTTP Interface allows you to set how long you wish the local interface to be active before being automatically disabled. For increased Security, your choices are to have the local HTTP interface disabled after 1 minute, 5 minutes, 30 minutes, or always active. See the next section for more on the local interface. PAGE 10 VI. INSTALLING MONNIT EXPRESS AND MINE Gateways can be used to locally monitor wireless sensors on a computer without needing an external Internet connection. In order to use an Ethernet Gateway 4 with the PC application, you need to make sure that both the gateway and PC are connected to the same network, and configure the gateway to talk directly to the computer software instead of using the Internet. INSTALLING MONNIT EXPRESS SOFTWARE When you purchase the iMonnit Express software you will receive an activation code. 1. Visit monnit.com/support/downloads/ to download and install the iMonnit Express software. When you finish installing the software, launch the program and click on Configuration then Enter Key. Enter your key in the box and select Activate. 2. Next, you will need to add your Ethernet gateway and any sensors you wish to use with the software. Go to imonnit.com/point. Enter the Gateway ID and Security Code included on the label directly under the QR code on the bottom of your gateway. Select the button for Gateway Server Settings. You must have an IP address to your server. Choose your port and whether this is a dynamic or static DHCP. Then press the Submit button. Enter the key code. INSTALLING MONNIT MINE SOFTWARE Monnit MINE is an open software platform that provides the ability to integrate Monnit wireless sensors and gateways with your own software system. Monnit wireless gateways can be unlocked, allowing them to be directed to a custom host or IP address, where an installation of Monnit MINE works as a translation application between Monnit wireless sensors networks and existing or custom software applications. When you purchase the Monnit MINE software, you will receive an activation code. Next, you will need to add your Ethernet gateway and any sensors you wish to use with the software. Go to imonnit.com/point. Enter the Gateway ID and Security Code included on the label directly under the QR code on the bottom of your gateway. Select the button for Gateway Server Settings. You must have an IP address to your server. Choose your port and whether this is a dynamic or static DHCP. Then press the Submit button. Enter the key code. PAGE 11 VII. USING THE LOCAL INTERFACE If using iMonnit is not an option, you can set up your gateway and sensors offline through the local interface. Connect the gateway to a router or network switch using an Ethernet cord. Plug in the gateway to a power outlet. Power on the gateway. While booting, the lights will scroll green. Press and hold the utility button. At the end of the boot process, all lights will be green for two seconds then shift to red. Release the button and the local configuration page will be temporarily enabled. Use a PC on the local network to access your routers configuration page first (see your router documentation). Use your routers web interface to determine the IP address it assigns your gateway. Use your web browser to connect to your gateway using the assigned IP address. You should be redirected to the Gateway Status page. Once the gateway interface has been reached, head over to the General Options tab and select the Miscellaneous System Configuration page. Enable the HTTP interface and set it to be available for one hour (3600 seconds). Select Save Changes when completed. Note that each time a page is refreshed or every time the gateway restarts the HTTP interface time resets. After it times out, the web interface will be disabled until either the gateway restarts with a non-zero timeout value, or the special restart mode is enabled using the utility button. After configuration set this to a small integer. GATEWAY STATUS TAB Ethernet Local Area Network Status This is a read only section listing the current conditions for your Local Area Network. Gateway MAC Address - This is the media control address of your gate-

way to exclusively identify the device to a Network Interface Controller. Gateway IP Address - This is a numerical identifier for your gateway when it is connected to the Internet. Router IP Address - This is a numer-

ical identifier for your router when it is connected to the Internet. Network Mask - Also known as a Subnet Mask, this masks the ip address by dividing it into the network address and the host address. DNS Address - A Domain Name System is the method employed by a URL of translating the alphabetic entry in an address bar into a numerical address associated with a server. PAGE 12 Data Interface Statuses Gateway data cache used - This percentage represents the amount of internal flash memory storage for holding sensor messages has been used out of the maximum (896 kb). Messages sent from wireless sensors are stored temporarily in the gateway cache until a data interface (i.e. Default Server, SNMP, Modbus, etc.) confirms the data has been stored or transmitted elsewhere. Status Table - These status fields indicate the current operation status for each data inter-

face. The Default Server field can contain Off, Off due to Settings Error, On and Server Error, or On. The SNTP field can contain Off, Off due to Settings Error, On and Synced, or On. The Modbus TCP field can contain Off, Off due to Settings Error, or On. The SNMP field can contain Off, Off due to Settings Error, On and Traps Ready, or On. Wireless Sensor Network Status This section list the number of gateways communicating with the server. A table below this number shows the exact slot number and device identification number associated with the gateway. There is a maximum of 256 available slots. GATEWAY OPTIONS TAB Ethernet Local Area Network Configuration From the Local Area Network Configuration tab, you can modify settings for your IP address, Network Mask, Default Gateway, and DNS Server. IP Address - A unique number typically formatted as XXX.XXX.XXX.X. It can be dynamic, meaning the IP address is constantly changing, or static, meaning the IP address stays the same. Router IP Address - This is a unique number identifying your router to the default server. Subnet Mask - This number hides the network half of an IP address. The most common Subnet Mask number is 255.255.255.0. DNS Server - DNS Servers take alphanumerical data (like a URL address) and return the IP address for the server containing the information youre looking for. PAGE 13 Wireless Sensor Network Configuration Slot Index - The slot index is an optional setting for assigning your gateway. If a Slot ID is entered, the device will be added to the appropriate slot in the Wireless Device List. If a slot ID is not entered, the device will be added to the first available slot. Device ID - This is a unique numerical identifier included with your gateway and listed on the back label. Security Code - This is an alphabetical six letter code included with your gateway and listed on the back label. Selecting the Reform Wireless Network button will remove all devices from the current Wireless Device List. System Time Configuration Simple Network Time Protocol (SNTP) synchronizes computer clocks on a network when the Monnit Interface is unavailable. PAGE 14 SNTP IP Address: This is the IP Address for the server the time is being pulled from. SNTP Resample Period: The time in seconds when the gateway will check the server for the correct time. Epoch between Default Server and SNTP: This is the difference in seconds between the standard NTP Epoch (start date 01/01/1900) and Monnits Epoch (start date 01/01/2012). System Reset Period: The time in hours it takes for the system to reset. Secondary Time Source Failover Period: The time in seconds that the gateway will continue to attempt to poll the Primary System Time Source unsuccessfully for an updated time before switching over and using time from the secondary time source. This time period should be longer than the SNTP Resample Period if SNTP is being used. Miscellaneous System Configuration HTTP Service Timeout: This is a security setting for allowing this web interface to be active. The default is 5 minutes. Setting the field to 0 will turn it off. Device Latest Data Retrieval: An expiration period for data before it is considered to be old meaning data interfaces will not report this sensor data. Clear Sensor Data button: Pressing this button will purge all old device messages from the gateway to start from a clean slate. You will lose all messages for all data interfaces. DATA INTERFACES TAB Default Server Configuration The default server is the Monnit server. It is the only option enabled by default. Many of the settings here are the same as they are in iMonnit. The Network Device List Refresh Period setting controls the amount of time before the gateway requests the network device list from the default server. The Disable Network on No Server setting controls whether the wireless device network is disabled after the gateway determines it cannot reach the default server. PAGE 15 Modbus Transmission Control Protocol Configuration Modbus TCP interface runs on an Ethernet connection. TCP makes sure all data is received. Modbus TCP is a non-streaming data interface standard. This means data must be requested in order for it to be received. The Modbus TCP Interface will store all data values in 16-bit registers. The registers and their associated data fields are mapped below. To access the sensor holding registers for a particular device, the assigned slot number for the device needs to be known. When reviewing added devices through the default server, the order in which devices are presented may not necessarily correspond to the order in which the devices are stored in the gateway network list as the default server will sort the devices based on their ID. To be certain which device is in a particular slot, go to the gateway local web interface wsn.htm page or status page and note which slot the desired device is assigned to. After the slot number(s) for the desired devices to read from are known, the following formula may be applied to determine the correct starting register to read from to retrieve the recorded data from the device: starting register=101+16(slot no.-1). Each reading will report the most recent message received from that device by the gateway, so the polling frequency should be greater than the device heartbeat frequency to avoid missing device updates. PAGE 16 Field Description GATEWAY HOLDING REGISTERS Gateway ID_High The first 16 bits of a 32-bit serial ID number. Gateway ID_Low The last 16 bits of a 32-bit serial ID number. Gateway Version Revision + Major The gateway firmware Revision and Major version numbers (1 byte each) Gateway Version Minor + Release The gateway firmware Minor and Release version numbers (1 byte each) Gateway Device Count The number of devices in its wireless network. SENSOR HOLDING REGISTERS Field Description Sensor ID_High The first 16 bits of a 32-bit serial ID number Sensor ID_Low The last 16 bits of a 32-bit serial ID number Device Type The unique type identifier for the sensor profile Data Age The number of seconds that have elapsed since the last data was retrieved Is Device Active 0 indicates no data for this slot Is Aware Voltage RSSI Data 1 Data 2 Data 3 Data 4 Data 5 Data 6 Data 7 Data 8 Becomes aware when a sensor threshold has been breached Battery voltage Signal Strength Indicator...0-100%

Sensor Data Field 1 Sensor Data Field 2 Sensor Data Field 3 Sensor Data Field 4 Sensor Data Field 5 Sensor Data Field 6 Sensor Data Field 7 Sensor Data Field 8 Sensor ID_High The first 16 bits of a 32-bit serial ID number Sensor ID_Low The last 16 bits of a 32-bit serial ID number Device Type The unique type identifier for the sensor profile Data Age The number of seconds that have elapsed since the last data was retrieved Is Device Active 0 indicates no data for this slot Is Aware Voltage RSSI Data 1 Becomes aware when a sensor threshold has been breached Battery voltage Signal Strength Indicator...0-100%

Sensor Data Field 1 Register Data Address 40001 40002 40003 40004 40005 0 1 2 3 4 Register Data Address 40101 40102 40103 40104 40105 40106 40107 40108 40109 40110 40111 40112 40113 40114 40115 40116 40117 40118 40119 40120 40121 40122 40123 40124 40125 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 PAGE 17 SNMP Configuration SNMP (Simple Network Management Protocol) settings for a gateway can be adjusted on the offline local interface. You can continue to use SNMP without the server interface active. The data will not be sent to a server, but you can continue to poll for the data as it is received by the gateway. Inbound IP Range Start and End - This is the IP address for the SNMP client. If you have one device to communicate with, the start and end IP addresses will be the same. Exchanging information with multiple machines will require a set of different start and end IP addresses. PAGE 18 Inbound Port This is the number for where specifically in the server data from the gateway is received. SNMP Community String This is used to support SNMPv1 protocol by giving access to a routers or other devices statistics. The default will be set to public. Trap Settings Trap IP Address The IP Address for the SNMP Server where the trap will be sent. Trap Port The server port where the trap alert state is sent when active. MIB-II System Configuration Strings Although it is not necessary, it is a good idea to set the contact, name, location and description strings available at the bottom of the SNMP configuration page on the local interface. PAGE 19 SUPPORT For technical support and troubleshooting tips, please visit our support knowledge base online at monnit.com/support. If you are unable to solve your issue using our online support, email Monnit support at support@monnit.com with your contact information and a description of the problem, and a support representative will contact you within about one business day. For error reporting, please email a full description of the error to support@monnit.com. WARRANTY INFORMATION

(a) Monnit warrants that Monnit-branded products (Product) will be free from defects in materials and workmanship for a period of one (1) year from the date of delivery with respect to hardware and will materially conform to their published specifications for a period of one (1) year with respect to software. Monnit may resell sensors manufactured by other entities and are subject to their individual warranties; Monnit will not enhance or extend those warranties. Monnit does not warrant that the software or any portion thereof is error free. Monnit will have no warranty obligation with respect to Products subjected to abuse, misuse, negligence or accident. If any software or firmware incorporated in any Product fails to conform to the warranty set forth in this section, Monnit shall provide a bug fix or software patch correcting such non-conformance within a reasonable period after Monnit receives from customer (i) notice of such non-conformance, and (ii) sufficient information regarding such non-conformance so as to permit Monnit to create such bug fix or software patch. If any hardware component of any Product fails to conform to the warranty in this section, Monnit shall, at its option, refund the purchase price less any discounts, or repair or replace nonconforming Products with conforming Products, or Products having substan-

tially identical form, fit, and function and deliver the repaired or replacement Product to a carrier for land shipment to customer within a reasonable period after Monnit receives from customer (i) notice of such non-conformance, and (ii) the non-conforming Product provided;

however, if, in its opinion, Monnit cannot repair or replace on commercially reasonable terms it may choose to refund the purchase price. Repair parts and replacement Products may be reconditioned or new. All replacement Products and parts become the property of Monnit. Repaired or replacement Products shall be subject to the warranty, if any remains, originally applicable to the Product repaired or replaced. Customer must obtain from Monnit a Return Material Authorization Number (RMA) prior to returning any Products to Monnit. Products returned under this warranty must be unmodified. Customer may return all Products for repair or replacement due to defects in original materials and workmanship if Monnit is notified within one year of customers receipt of the Product. Monnit reserves the right to repair or replace Products at its own and complete discretion. Customer must obtain from Monnit a Return Material Authorization Number

(RMA) prior to returning any Products to Monnit. Products returned under this Warranty must be unmodified and in original packaging. Monnit reserves the right to refuse warran-

ty repairs or replacements for any Products that are damaged or not in original form. For Products outside the one year warranty period repair services are available at Monnit at standard labor rates for a period of one year from the customers original date of receipt.

(b) As a condition to Monnits obligations under the immediately preceding paragraphs, customer shall return Products to be examined and replaced to Monnits facilities, in ship-

ping cartons which clearly display a valid RMA number provided by Monnit. Customer ac-

knowledges that replacement Products may be repaired, refurbished or tested and found to be complying. Customer shall bear the risk of loss for such return shipment and shall bear all shipping costs. Monnit shall deliver replacements for Products determined by Monnit to be properly returned. PAGE 20

(c) Monnits sole obligation under the warranty described or set forth here shall be to repair or replace non-conforming Products as set forth in the immediately preceding paragraph, or to refund the documented purchase price for non-conforming Products to customer. Mon-

nits warranty obligations shall run solely to customer, and Monnit shall have no obligation to customers of customer or other users of the products. Limitation of Warranty and Remedies. THE WARRANTY SET FORTH HEREIN IS THE ONLY WARRANTY APPLICABLE TO PRODUCTS PURCHASED BY CUSTOMER. ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE EXPRESSLY DISCLAIMED. MONNITS 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 MONNIT BE LIABLE FOR SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAG-

ES. THE PRICE STATED FOR THE PRODUCTS IS A CONSIDERATION IN LIMITING MONNITS LIABILITY. NO ACTION, REGARDLESS OF FORM, ARISING OUT OF THIS AGREEMENT MAY BE BROUGHT BY CUSTOMER MORE THAN ONE YEAR AFTER THE CAUSE OF ACTION HAS ACCRUED. IN ADDITION TO THE WARRANTIES DISCLAIMED ABOVE, MONNIT SPECIFICALLY DISCLAIMS ANY AND ALL LIABILITY AND WARRANTIES, IMPLIED OR EXPRESSED, FOR USES REQUIRING FAIL-SAFE PERFORMANCE IN WHICH FAILURE OF A PROD-

UCT COULD LEAD TO DEATH, SERIOUS PERSONAL INJURY, OR SEVERE PHYSICAL OR ENVIRONMENTAL DAMAGE SUCH AS, BUT NOT LIMITED TO, LIFE SUPPORT OR MEDICAL DEVICES OR NUCLEAR APPLICATIONS. PRODUCTS ARE NOT DESIGNED FOR AND SHOULD NOT BE USED IN ANY OF THESE APPLICATIONS. PAGE 21 CERTIFICATIONS United States FCC This equipment has been tested and found to comply with the limits for a Class B digital devices, pursuant to Part 15 of the FCC Rules. These limits are designed to provide rea-

sonable 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 commu-

nications. 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 recep-

tion, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of more of the following measures:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Warning: Changes or modifications not expressly approved by Monnit could void the users authority to operate the equipment. Exception: Letter to Relayr Inc. subject line Change of Identification Authorization. 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 antenna or transmitter. Monnit and ALTA Wireless Sensors, Wireless Sensor Adapters and Ethernet Gateways:

This equipment complies with the radiation exposure limits prescribed for an uncontrolled environment for fixed and mobile use conditions. This equipment should be installed and operated with a minimum distance of 23 cm between the radiator and the body of the user or nearby persons. All ALTA Gateways FCC ID:2A8J7-DSGTPA-1W. Approved Antennas Taoglas Antenna part number: TLS.90.205111 or TLS.01.305111 which is having gain less than 6dbi which meets the compliance with 15.203 antenna requirements. PAGE 22 SAFETY RECOMMENDATIONS READ CAREFULLY Be sure the use of this product is allowed in the country and in the environment required. The use of this product may be dangerous and has to be avoided in the following areas:

Where it can interfere with other electronic devices in environments such as hospitals airports, aircrafts, etc. Where there is risk of explosion such as gasoline stations, oil refineries, etc. It is responsibility of the user to enforce the country regulation and the specific environment regulation. Do not disassemble the product; any mark of tampering will compromise the warranty validity. We recommend following the instructions of this user guide for correct setup and use of the product. Please handle the product with care, avoiding any dropping and contact with the internal circuit board as electrostatic discharges may damage the product itself. The same precau-

tions should be taken if manually inserting a SIM card, checking carefully the instruction for its use. Do not insert or remove the SIM when the product is in power saving mode. Every device has to be equipped with a proper antenna with specific characteristics. The antenna has to be installed with care in order to avoid any interference with other electronic devices and has to guarantee a minimum distance from the body (23 cm). In case this re-

quirement cannot be satisfied, the system integrator has to assess the final product against the SAR regulation. The European Community provides some Directives for the electronic equipments intro-

duced on the market. All the relevant informations is available on the European Community website: http://ec.europa.eu/enterprise/sectors/rtte/documents/

Additional Information and Support For additional information or more detailed instructions on how to use your Monnit Wireless Sensors or the iMonnit Online System, please visit us on the web at monnit.com/support. PAGE 23

ID: 966996 SC: IMNVAJ 900 MHz EHTHERNET GATEWAY 4 RYG2-9-EGW-CCE-UNLK MAC: 8C1F6494EC03 FCC ID: 2A8J7-DSGTPA-1W 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.

900 MHz EHTHERNET GATEWAY 4 SC: IMNVAJ RYG2-9-EGW-CCE-L MAC: 8C1FG6454EC03 FCC ID: 2A48J7-DSGTPA-1LW 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.

Contactname Designation JessicaPoliner ChiefExecutiveOfficer Address:SouthWackerAvenue311,Suite4950 CompanyName:RelayrInc. EMailID:

Jessica.Poliner@relayr.io Chicago,Illinois,UnitedStateZip:60606 ContactNo:+1(617)5575916 Date:10092022 AuthorizationtoActasAgent Onourbehalf,I/WeappointMr.RaghavendraKulkarniofTUVRheinlandIndiaLtd.27/B,2ndcrossroad, Electronic City, Phase 1 Hosur Road Bangalore 560 100. INDIA to act as my/our agent in the preparation/signingofthisapplicationforequipmentcertificationforthefollowingFCCID:2A8J7DSGTPA 1W. I/We certify that the submitted documents properly describe the device or system for which equipmentcertificationissought.I/Wealsocertifythateachunitmanufactured,importedormarketed, asdefinedinFCCsregulations,willhaveaffixedtoitalabelidenticaltothatsubmittedforapprovalwith thisapplication. Date:

AgencyAgreementExpirationDate:05092023 By:

________________________________ Signature Name:

Title:

Phone: +1 (617) 557-5916 DocuSign Envelope ID: A08EF119-5051-4F37-B7E9-D9216956CC1EJessica PolinerSeptember 10, 2022CEO

Shockwave Part No:

TLS.01.305111 Description:

Shockwave 600-6000MHz Permanent Mount External Antenna with 3m CFD-200 SMA(M) Features:

Applicable for 5G/4G, Cat M1 & NB-IoT bands Over 45% efficiency and 2.2 dBi gain Mechanically robust for indoor/outdoor applications Height: 79.45mm (3.13"); Diameter: 42mm (1.65") IP67 and IP69K Waterproof IK10 Rated Enclosure Cable: Low loss CFD-200 cable, 3 meters Connector: SMA(M) RoHS & Reach Compliant SPE-15-8-063-G 1. 2. Introduction Specifications 3. Antenna Characteristics 4. Radiation Patterns 5. Mechanical Drawing 6. 7. Installation Guidelines Packaging 8. Application Note Changelog 3 4 6 8 18 19 20 21 23 Taoglas makes no warranties based on the accuracy or completeness of the contents of this document and reserves the right to make changes to specifications and product descriptions at any time without notice. Taoglas reserves all rights to this document and the information contained herein. Reproduction, use or disclosure to third parties without express permission is strictly prohibited. SPE-15-8-063-G www.taoglas.com 2 1. Introduction 1. Introduction 1. Introduction 1. Introduction 1. 1. 1. Introduction The Shockwave TLS.01.305111 is a permanent mount, waterproof, external 5G/4G cellular wideband antenna operating at 600-6000MHz with an N type male connector. It has been designed to be used on a Ground Plane. It can be used in mobile and fixed applications for 4G LTE wireless such as:

Public safety HD Video Streaming Introduction Utilities and Smart Cities Fleet Management Agricultural Industrial Introduction This antenna has superior performance over wide-bands compared to traditional whip antennas. Up to 77%

efficiency and with a minimum 2.2dBi peak gain over all cellular bands result when mounted on a 30x30 cm ground plane. Stable radiation patterns over low angles provides consistent gain in the horizontal plane, meaning that it is especially suitable for cellular applications. Introduction 1. A unique indent tab on the base of the antenna allows a wrench to be used to solidly lock the antenna on top of its mounting location while tightening up the nut beneath the metal panel. Waterproof O-rings around the bottom base prevent water from leaking under the antenna. The TLS.01 antenna is IP67 waterproof and IP69K resistant against high pressure water jets in commercial cleaning environments, which makes the antenna ideal for 5G/4G applications either in indoor or in harsh outdoor environments. For more information contact your regional Taoglas customer support team. SPE-15-8-063-G www.taoglas.com 3 2. Specifications 3. Antenna Characteristics2. Electrical Specifications Frequency

(MHz) Efficiency

(%) Average Gain

(dB) Peak Gain

(dBi) Impedance Max Input Power Polarization Radiation Pattern Band 5GNR/4G Band 71 617~698 43

-3.2 3. Antenna Characteristics 698~806 57.7

-0.2 4G/3G Band 12,13,14,17,28,29 4G/3G/NB-IoT/Cat M Band 5,8,18,19,20,26,27 824~960 71.4

-0.7

-1 3.1 3.2 5GNR/4G Band 21,32,74,75,76 4. Antenna Radiation Patterns3. Antenna 50 1427~1518 56.8

-1.4 2.9 Characteristics2. 4G/3G Band 1,2,3,4,9,23,25,35,39,66 1710~2200 Specifications 45.9

-1.8 4G/3G Band 7,38,41 2490~2690 42.9

-2 3. Antenna Characteristics2. 5GNR/4G Band 22,42,48,77,78 3300~3800 26.8

-4.1 2.7 3.4 Specifications 2.5 100W Vertical Omni-Directional LTE5200/

Wi-Fi 5800 5150~5925 8.9

-3.4 5.3

*Measured on 30*30cm ground plane 3. Antenna Characteristics Mechanical Dimension (mm) Connector Height: 79.45mm(3.13") ; Diameter : 42mm(1.65") SMA(M)ST 4. Antenna Radiation Patterns3. Antenna Cable 3m CFD-200 Housing Material Characteristics Base Material Weight (g) 4. Antenna Radiation Patterns Rec. Torque for Mounting Max. Torque for Mounting UV Resistant ABS Nickel Plated Zinc Alloy 270 4.018 Nm 9.8 Nm Environmental 4. Antenna Radiation Patterns3. Antenna Waterproof Rating IP67 and IP69K Characteristics Operation Temperature Humidity Housing Rating

-40C to 85C Non-condensing 65C 95% RH IK10 4. Antenna Radiation Patterns3. Antenna Characteristics2. SPE-15-8-063-G Specifications www.taoglas.com 4 Band Number 5GNR / FR1 / LTE / LTE-Advanced / WCDMA / HSPA / HSPA+ / TD-SCDMA / Cat M / NB-IoT 5G/4G Bands Uplink Downlink 1 2 3 4 5 7 8 9 11 12 13 14 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 35 38 39 40 41 42 43 48 66 71 74/75/76 77 78 79 UL: 1920 to 1980 UL: 1850 to 1910 UL: 1710 to 1785 UL: 1710 to 1755 UL: 824 to 849 UL: 2500 to 2570 UL: 880 to 915 UL: 1749.9 to 1784.9 UL: 1427.9 to 1447.9 UL: 699 to 716 UL: 777 to 787 UL: 788 to 798 UL: 704 to 716 UL: 815 to 830 UL: 830 to 845 UL: 832 to 862 UL: 1447.9 to 1462.9 UL: 3410 to 3490 UL:2000 to 2020 UL:1625.5 to 1660.5 UL: 1850 to 1915 UL: 814 to 849 UL: 807 to 824 UL: 703 to 748 UL: -

UL: 2305 to 2315 UL: 452.5 to 457.5 UL: -

DL: 2110 to 2170 DL: 1930 to 1990 DL: 1805 to 1880 DL: 2110 to 2155 DL: 869 to 894 DL:2620 to 2690 DL: 925 to 960 DL: 1844.9 to 1879.9 DL: 1475.9 to 1495.9 DL: 729 to 746 DL: 746 to 756 DL: 758 to 768 DL: 734 to 746 DL: 860 to 875 DL: 875 to 890 DL: 791 to 821 DL: 1495.9 to 1510.9 DL: 3510 to 3590 DL: 2180 to 2200 DL: 1525 to 1559 DL: 1930 to 1995 DL: 859 to 894 DL: 852 to 869 DL: 758 to 803 DL: 717 to 728 DL: 2350 to 2360 DL: 462.5 to 467.5 DL: 1452 1496 1850 to 1910 2570 to 2620 1880 to 1920 2300 to 2400 2496 to 2690 3400 to 3600 3600 to 3800 3550 to 3700 UL: 1710-1780 DL: 2110-2200 617 to 698 1427 to 1518 3300 to 4200 3300 to 3800 4400 to 5000 Covered SPE-15-8-063-G www.taoglas.com 5 3. Antenna Characteristics 3.1 Return Loss 4. Antenna Radiation Patterns3. Antenna Characteristics 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns3. Antenna Characteristics 4. Antenna Radiation Patterns3. Antenna Characteristics Efficiency 3.2 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns3. Antenna Characteristics 4. Antenna Radiation Patterns3. Antenna SPE-15-8-063-G www.taoglas.com 6 Characteristics 3.3 Average Gain 3.4 Peak Gain i B d SPE-15-8-063-G www.taoglas.com 7 4. Radiation Patterns 4. 4. Antenna Radiation Patterns 4.1 Test Setup 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 30*30cm Ground Plane SPE-15-8-063-G www.taoglas.com 8 4.2 652MHz 3D and 2D Radiation Patterns XY Plane XZ Plane YZ Plane SPE-15-8-063-G www.taoglas.com 9 4.3 751MHz 3D and 2D Radiation Patterns XY Plane XZ Plane YZ Plane SPE-15-8-063-G www.taoglas.com 10 4.4 890MHz 3D and 2D Radiation Patterns XY Plane XZ Plane YZ Plane SPE-15-8-063-G www.taoglas.com 11 4.5 1470MHz 3D and 2D Radiation Patterns XY Plane XZ Plane YZ Plane SPE-15-8-063-G www.taoglas.com 12 4.6 1805MHz 3D and 2D Radiation Patterns XY Plane XZ Plane YZ Plane SPE-15-8-063-G www.taoglas.com 13 4.7 1920MHz 3D and 2D Radiation Patterns XY Plane XZ Plane YZ Plane SPE-15-8-063-G www.taoglas.com 14 4.8 1990MHz 3D and 2D Radiation Patterns XY Plane XZ Plane YZ Plane SPE-15-8-063-G www.taoglas.com 15 4.9 2595MHz 3D and 2D Radiation Patterns XY Plane XZ Plane YZ Plane SPE-15-8-063-G www.taoglas.com 16 4.10 3550MHz 3D and 2D Radiation Patterns XY Plane XZ Plane YZ Plane SPE-15-8-063-G www.taoglas.com 17 5. Mechanical Drawing (Units: mm) 6. Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging 7. Application Note 7. Application Note6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing SPE-15-8-063-G www.taoglas.com 18 6. Installation Guidelines 4. Antenna Radiation Patterns3. Antenna Characteristics 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns3. Antenna Characteristics 4. Antenna Radiation Patterns3. Antenna Characteristics 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns3. Antenna Characteristics 4. Antenna Radiation Patterns3. Antenna SPE-15-8-063-G www.taoglas.com 19 Characteristics 7. Packaging 8. Packaging 6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing 6. Packaging 6. Packaging 7. Application Note6. Packaging5. Mechanical 7. Application Note6. Packaging5. Mechanical Drawing Drawing 6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing 6. Packaging 6. Packaging 7. Application Note6. Packaging 7. Application Note6. Packaging 7. Application Note 7. Application Note 7. Application Note6. Packaging 7. Application Note6. Packaging 7. Application Note6. Packaging5. Mechanical 7. Application Note6. Packaging5. Mechanical Drawing Drawing 6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing SPE-15-8-063-G www.taoglas.com 20 8. Application Note 8. Packaging 6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing Efficiency 8.1 6. Packaging 6. Packaging 7. Application Note6. Packaging5. Mechanical 7. Application Note6. Packaging5. Mechanical Drawing Drawing 6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing 6. Packaging 6. Packaging Peak Gain 8.2 7. Application Note6. Packaging 7. Application Note6. Packaging 7. Application Note 7. Application Note 7. Application Note6. Packaging 7. Application Note6. Packaging 7. Application Note6. Packaging5. Mechanical 7. Application Note6. Packaging5. Mechanical Drawing Drawing 6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing SPE-15-8-063-G www.taoglas.com 21 8.3 Average Gain SPE-15-8-063-G www.taoglas.com 22 Changelog for the datasheet SPE-15-8-063 TLS.01.305111 Revision: G (Current Version) Date:

2018-12-03 Changes:

Installation Guide Amended Changes Made by:

Jack Conroy Previous Revisions Revision: F Date:

2019-08-21 Changes: Mechanical Drawing Revision: A (Original First Release) Date:

2015-11-27 Notes:

Changes Made by:

Russell Meyler Author:

Jack Conroy Revision: E Date:

2019-01-14 Changes: Mechanical Drawing Changes Made by:

Jack Conroy Revision: D Date:

Changes:

2018-03-27 Installation Guide Amended Changes Made by:

Jack Conroy Revision: C Date:

Changes:

2017-03-30 Bands Updated Changes Made by:

Andy Mahoney Revision: B Date:

2016-11-29 Changes:

Packaging Details Updated Changes Made by:

Andy Mahoney SPE-15-8-063-G www.taoglas.com 23 www.taoglas.com SPE-15-8-063-G www.taoglas.com Taoglas 24

Shockwave 868/915MHz Part No:

TLS.90.205111 Description:

Shockwave 868/915MHz Permanent Mount External Antenna With 2m TGC-200 Cable & SMA(M) Connector Features:

High Efficiency 868/915MHz Permanent Mount Antenna Mechanically Robust for Indoor/Outdoor Applications Vandal Resistant Height: 79.5mm (3.13") Diameter: 42mm (1.65") IP69K Rating Connector: SMA Male Cable: 2m Low loss TGC-200 RoHS & REACH Compliant SPE-19-8-096-A 1. 2. Introduction Specifications 3. Antenna Characteristics 4. 2D & 3D Radiation Patterns 5. Mechanical Drawing 6. 7. Packaging Installation 8. Application Note Changelog 3 4 5 7 14 15 16 17 19 Taoglas makes no warranties based on the accuracy or completeness of the contents of this document and reserves the right to make changes to specifications and product descriptions at any time without notice. Taoglas reserves all rights to this document and the information contained herein. Reproduction, use or disclosure to third parties without express permission is strictly prohibited. Copyright Taoglas SPE-19-8-096-A www.taoglas.com 2 1. Introduction SMA Male Connector 1. Introduction 1. Introduction 1. Introduction 1. Introduction The Shockwave TLS.90.205111 is a mechanically robust, IP69K rated, external antenna operating at both 868MHz and 915MHz with 2 meter of low loss TGC-200 and SMA(M) connector. It has been designed to be used on a Ground Plane. 1. Introduction Typical applications include:

Public safety Smart meters Mesh networks Transportation 1. Introduction The antenna has greater than 60% efficiency and 1.58dBi peak gain at 868MHz 64% efficiency and 1.9dBi peak gain at ISM 915MHz on a 30x30 cm ground plane. Stable radiation patterns over low angles provide consistent gain in the horizontal plane, meaning that it is especially suitable for mesh networks or hot spots. 1. Introduction A unique indent tab on the base of the antenna allows a wrench to be used to solidly lock the antenna on top of its mounting location while tightening up the nut beneath the metal panel. Waterproof O-rings around the bottom base prevent water from leaking under the antenna. The TLS.90 antenna is IP69K rated against high pressure water jets in commercial cleaning environments, which makes the antenna ideal for 868 &

915MHz applications in harsh outdoor environments. The Cable and Connector are fully customizable, for more information or installation instructions please contact your regional Taoglas Customer Support Team. SPE-19-8-096-A www.taoglas.com 3 2. Specifications 3. Antenna Characteristics2. Frequency (MHz) 868 850 Specifications 902 880 915 928 Peak Gain (dBi) Electrical 1.58 1.57 1.61 1.9 2.46 1.67 With Ground plane(30x30cm) Antenna Characteristics With Ground plane(30x30cm)

-2.04 Average Gain (dBi)

-2.17

-2.26

-2.22

-1.89

-1.35 Antenna Radiation Patterns3. With Ground plane(30x30cm) 60.67 62.52 Specifications Efficiency (%) Characteristics2. Return Loss (dB) Impedance Antenna 59.98 59.43 64.71 73.28

< -20 50 3. 4. 3. Polarization Antenna Characteristics2. Radiation Pattern Linear Specifications Omni-Directional Input Power 100W 3. Antenna Characteristics Height Base Diameter Mechanical Height: 79.45mm (3.13") 42mm (1.65") Weight (g) 4. Antenna Radiation Patterns3. 245g Antenna Housing: UV Resistant ABS, Base: Nickel Plated Zinc Alloy SMA Male 2 meters TGC-200 Material Characteristics Connector Cable Rec. Torque for Mounting 4. Antenna Radiation Patterns Max. Torque for Mounting 4.018N.m 9.8N.m Environmental 4. Waterproof Rating Antenna Radiation Patterns3. Temperature Range IP67 and IP69K Antenna

-40C to 85C Characteristics Humidity Non-condensing 65C 95% RH 4. Antenna Radiation Patterns3. Antenna Characteristics2. SPE-19-8-096-A Specifications www.taoglas.com 4 3. Antenna Characteristics 3.1 4. 0 Return Loss Antenna Radiation Patterns3. Antenna Characteristics

-5 TLS.90 with 2 meters cable length

-10

-15

-20 4. Antenna Radiation Patterns

) B d

-25 4.

-30 Antenna Radiation Patterns3. Antenna Characteristics

-35

-40

-45

-50 4. Antenna Radiation Patterns3. Antenna 600 625 650 675 700 725 750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1075 1100 1125 1150 1175 1200

(MHz) Characteristics Efficiency 3.2 4. 4.

4. 4. 100 90 80 70 60 50 40 30 20 10 0 Antenna Radiation Patterns TLS.90 with 2 meters cable length Antenna Radiation Patterns Antenna Radiation Patterns Antenna Radiation Patterns3. Antenna 600 625 650 675 700 725 750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1075 1100 1125 1150 1175 1200

(MHz) Characteristics 4. Antenna Radiation Patterns3. SPE-19-8-096-A Antenna www.taoglas.com 5 Characteristics TLS.90 with 2 meters cable length 3.3 Average Gain 0

-1

-2

) i B d

-3

-4

-5 600 625 650 675 700 725 750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1075 1100 1125 1150 1175 1200

(MHz) TLS.90 with 2 meters cable length 3.4 Peak Gain 5 4 3 2 1 0

) i B d

600 625 650 675 700 725 750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1075 1100 1125 1150 1175 1200

(MHz) SPE-19-8-096-A www.taoglas.com 6 4. Radiation Patterns 4. 4. 4.1 Antenna Radiation Patterns Test Setup 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 300*300mm Metal Ground Plane Y X Z SPE-19-8-096-A www.taoglas.com 7 4.2 2D & 3D Radiation Patterns 850MHz XY Plane 330 X 0 10 0

-10

-20

-30

-40 300 270 240 30 330 60 300 90 Y 270 120 240 XZ Plane Z 0 30 10 0

-10

-20

-30

-40 YZ Plane 330 Z 0 10 0

-10

-20

-30

-40 30 60 90 Y 60 300 90 270 X 120 240 120 210 150 180

(dBi) 210 150

(dBi) 180 210 150

(dBi) 180 SPE-19-8-096-A www.taoglas.com 8 868MHz XY Plane XZ Plane 330 X 0 10 0

-10

-20

-30

-40 300 270 240 Z 0 10 0

-10

-20

-30

-40 30 330 60 300 Y 90 270 120 240 30 330 60 300 90 X 270 120 240 YZ Plane Z 0 30 10 0

-10

-20

-30

-40 60 Y 90 120 210 150 180

(dBi) 210 150 180

(dBi) 210 150

(dBi) 180 SPE-19-8-096-A www.taoglas.com 9 880MHz XY Plane 330 X 0 10 0

-10

-20

-30

-40 300 270 240 30 330 60 300 90 Y 270 120 240 XZ Plane Z 0 30 10 0

-10

-20

-30

-40 330 10 0

-10

-20

-30

-40 60 300 90 X 270 120 240 YZ Plane Z 0 30 60 Y 90 120 210 150

(dBi) 180 210 150

(dBi) 180 210 150

(dBi) 180 SPE-19-8-096-A www.taoglas.com 10 902MHz XY Plane 330 X 0 10 0

-10

-20

-30

-40 300 270 240 30 330 60 300 Y 90 270 10 0

-10

-20

-30

-40 XZ Plane Z 0 30 60 300 90 X 270 330 10 0

-10

-20

-30

-40 YZ Plane Z 0 30 60 90 Y 120 240 120 240 120 210 180 150

(dBi) 210 150 210 150 180

(dBi) 180

(dBi) SPE-19-8-096-A www.taoglas.com 11 915MHz XY Plane 330 X 0 10 0

-10

-20

-30

-40 300 270 240 YZ Plane XZ Plane Z 0 30 10 0

-10

-20

-30

-40 330 Z 0 10 0

-10

-20

-30

-40 60 300 90 X 270 30 330 60 300 90 Y 270 120 240 120 240 30 60 90 Y 120 210 180 150

(dBi) 210 180 150

(dBi) 210 180 150

(dBi) SPE-19-8-096-A www.taoglas.com 12 928MHz XY Plane 330 X 0 10 0

-10

-20

-30

-40 300 270 240 30 330 60 300 90 Y 270 XZ Plane Z 0 30 10 0

-10

-20

-30

-40 YZ Plane 330 Z 0 10 0

-10

-20

-30

-40 30 60 90 Y 60 300 90 X 270 120 240 120 240 120 210 180 150

(dBi) 210 150

(dBi) 180 210 150 180

(dBi) SPE-19-8-096-A www.taoglas.com 13 5. Mechanical Drawing (Units: mm) 6. Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging 7. Application Note 7. Application Note6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing SPE-19-8-096-A www.taoglas.com 14 6. Packaging 1pc TLS.90.205111 per Small Box Dimensions: 135*135*135mm Weight: 370g 6. Packaging5. Mechanical Drawing 6. Packaging Application Note6. Packaging5. Mechanical m m 5 3 1 7. Drawing 135mm 135mm 6. Packaging5. Mechanical Drawing 24pcs TLS.90.205111 per Carton Carton Dimensions: 430*380*280mm Weight: 10.2Kg 6. Packaging 280mm 7. Application Note6. Packaging 430mm 380mm 7. Application Note Pallet Dimensions:

1100*1100*1510mm 16 Cartons per Pallet 4 Cartons per layer, 4 Layers 7. Application Note6. Packaging m m 0 1 5 1 7. Application Note6. Packaging5. Mechanical Drawing 1100mm 1100mm 6. Packaging5. Mechanical Drawing SPE-19-8-096-A www.taoglas.com 15 7. Installation 6. Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging 7. Application Note 7. Application Note6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing SPE-19-8-096-A 6. Packaging5. Mechanical Drawing www.taoglas.com 16 8. Application Note(with different cable length) lengths is shown below. 8.1 Return Loss 6. 6. 0

-5

-10

-15

-20 Packaging5. Mechanical Drawing Packaging

) B d

-25

-30 7.

-35 Application Note6. Packaging5. Mechanical Drawing

-40

-45

-50 6. 8.2 Efficiency 6. Packaging 100 90 80 70 60 50 40 30 20 10 0 7.

7. 7. Application Note6. Packaging Application Note TLS.90 with 0.3 meters cable length TLS.90 with 1 meters cable length TLS.90 with 2 meters cable length TLS.90 with 3 meters cable length TLS.90 with 5 meters cable length TLS.90 with 0.3 meters cable length TLS.90 with 1 meters cable length TLS.90 with 2 meters cable length TLS.90 with 3 meters cable length TLS.90 with 5 meters cable length 600 625 650 675 700 725 750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1075 1100 1125 1150 1175 1200 Packaging5. Mechanical Drawing

(MHz) Application Note6. Packaging 600 625 650 675 700 725 750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1075 1100 1125 1150 1175 1200

(MHz) 7. Application Note6. Packaging5. Mechanical Drawing SPE-19-8-096-A 6. Packaging5. Mechanical Drawing www.taoglas.com 17 8.3 Average Gain 0

-1

-2 TLS.90 with 0.3 meters cable length TLS.90 with 1 meters cable length TLS.90 with 2 meters cable length TLS.90 with 3 meters cable length TLS.90 with 5 meters cable length

) i B d

-3

-4

-5 600 625 650 675 700 725 750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1075 1100 1125 1150 1175 1200

(MHz) 8.4 Peak Gain 5 4 3 2 1 0

) i B d

TLS.90 with 0.3 meters cable length TLS.90 with 1 meters cable length TLS.90 with 2 meters cable length TLS.90 with 3 meters cable length TLS.90 with 5 meters cable length 600 625 650 675 700 725 750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1075 1100 1125 1150 1175 1200

(MHz) SPE-19-8-096-A www.taoglas.com 18 Changelog for the datasheet SPE-19-8-096 TLS.90.205111 Revision: A (Original First Release) 2019-08-01 Date:

Notes:

Author:

Jack Conroy Previous Revisions SPE-19-8-096-A www.taoglas.com 19 www.taoglas.com SPE-19-8-096-A www.taoglas.com 20 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information:

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TLS.90.205111

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Antenna Declaration FCC ID:2A8J7DSGTPA1W To whom it may concern , Please be advised Ethernet Gateway 4 with Power amplifier is only mounted inside of the end product by us professionally. c) Professional installation i) Professional installation must be justified in the filing, and grant condition must state This device must be professionally installed. refer to user manual. ii) a) b) Professional installation does not permit use of any antenna with the transmitter; the permitted types of antenna must be specified.

(TLS.90.205111) & Shockwave 868/915MHz Permanent Mount External Antenna

(TLS.01.305111) & Shockwave 600MHz-6000MHz Permanent Mount External Antenna with 0.3mtr CFD-200 SMA(M) iii) The applicant should address the following items when justifying professional installation.

(1) To qualify for professional installation, the applicant must explain why the hardware is not readily available to average consumer. This device requires a Relayr or authorised partner expertise towards understanding of the tools and relevant technology, not readily available to average consumer. Only a person professionally trained in the technology is competent

(2) MarketingDevice cannot be sold via retail to the general public or by mail order; it must be sold to authorized dealers or installers only. Yes, this device is not directly marketed or sold to general public

(3) Filing must show that intended use is not for consumers and general public; rather device is generally for industrial/commercial use. Yes, the device is not for consumers and general public 4) Explain what is unique, sophisticated, complex, or specialized about the equipment that REQUIRES it to be installed by a professional installer?

Yes, the functions of this device supported include the Wireless connection setup of gateway with sensor device must be setup by a professional installer. iv) Other professional installation requirements.

(1) Installation must be controlled. Yes, only a person professionally trained in the technology is permitted to install it

(2) Installed by licensed professionals (e.g., device sold to dealer who hire installers). Yes, only a person professionally is trained and approved in the technology by the manufacture.

(3) Installation requires special training (e.g., special programming, access to keypad, field strength measurements made). Yes, this device requires a Relayr or authorised partner expertise Thank you for your attention to this matter