FCC ID: XPYJODYW263 M2-JODY-W263

CAS-GPS User Manual Document No. DOCU0091, Rev. H DOCU0091 CAS GPS User Manual 2020 Wabtec Corporation. All rights reserved. The information contained in this publication is the property of Wabtec Corporation. This publication shall not be reproduced, redistributed, retransmitted, translated, abridged, adapted, condensed, revised or otherwise modified, in any form, in whole or in part, without the express written consent of Wabtec. By accessing this, you agree that the information contained herein does not purport to cover all details or variations in Wabtec products or to provide for every possible contingency with installation, operation or maintenance. Should further information be desired or should particular problems arise that are not covered sufficiently for the users purposes, the matter should be referred to Wabtec Corporation. Any applicable Federal, State or local regulations or company safety or operating rules must take precedence over any information or instructions given in the Technical Documentation. Wabtec has no obligation to keep the material up to date after the original publication. WABTEC CORPORATION EXPLICITLY DISCLAIMS ALL WARRANTIES OF ACCURACY, MERCHANTABILITY OR FITNESS FOR ANY PURPOSE IN CONNECTION WITH THIS PUBLICATION AND USE THEREOF. If you are not an authorized recipient of this publication, you are hereby notified that any perusal, use, distribution, copying or disclosure is strictly prohibited. If you have received this publication in error, please immediately return to Wabtec at the following address: Wabtec Corporation, Technical Publications Department, Building 14, 2901 East Lake Rd., Erie, PA 16531. Revision History REV DATE DESCRIPTION Draft 28/11/13 Draft Release. BY SW SW SW TW NM NM NM 28/11/13 14/03/14 24/07/14 17/12/14 17/02/16 24/04/17 A B C D E1 E2 F G H First Release. Addition of RF functionality. Additional of operator screens. Update product name, Add 868MHz Specs. Update Compliance Information / Format Images. Tag interference with Blasting. Jan-2020 ABD Updated Regulatory Information and Authorized Representatives. July-2020 PCS Updated Authorized Representatives and new ANATEL Certificate 23/06/22 PCS Updated with new WiFi module Jody W263 & NB variants Industrea Mining Technology Pty Ltd T/A Digital Mining Technology 3 Co-Wyn Close, Fountaindale, New South Wales, 2258, Australia Telephone: +61 2 8863 4730 Email: GETProductionIMT@wabtec.com Web: www.wabteccorp.com Wabtec Proprietary Information ii

***IMPORTANT NOTICE***

DOCU0091 CAS GPS User Manual Followings are the registered business subsidiaries of Wabtec Corporation, referenced throughout this document:

1. 2. Industrea Mining Technology Pty Ltd T/A Digital Mining Technology 3 Co-Wyn Close, Fountaindale, New South Wales, 2258, Australia Telephone: +61 2 8863 4730 Email: GETProductionIMT@wabtec.com Web: www.wabteccorp.com Digital Mining 2901 East Lake Road, Erie, PA, 16531,

(814) 875-2234. Wabtec Proprietary Information iii Section TABLE OF CONTENTS DOCU0091 CAS GPS User Manual Page GENERAL INFORMATION . 1. 1.1. INTRODUCTION . 1.2. SAFETY INFORMATION . 1.3. DISCLAIMER . 1.4. COMPANY DETAILS . 1.5. SCOPE . 1.6. ABBREVIATIONS . 1.7. DEFINITIONS . 1.8. TRANSPORT OF EQUIPMENT . 1.9. STORAGE OF EQUIPMENT . 1.10. UNPACKING OF EQUIPMENT . 1.11. INSTALLATION . 1.12. TEST & COMMISSION . 1 1 1 2 2 3 3 3 4 4 4 4 4 5 2. OPERATION. 5 2.1. PRINCIPLE OF OPERATION . 6 2.2. POSITIONAL TRACKING . 7 2.3. DATA LOGGING . 7 2.4. CONNECTIVITY . 8 2.5. OBJECT TYPES . 9 2.6. KEY COMPONENTS . 2.7. SERVICE, MAINTENANCE AND DISPOSAL .......................................................... 23 2.8. TROUBLESHOOTING ............................................................................................. 24 2.9. DECOMMISSION ..................................................................................................... 28 2.10. DISPOSAL ................................................................................................................ 28 2.11. SPECIFICATIONS .................................................................................................... 29 3. AUTHORIZED REPRESENTATIVES ...................................................................... 33 Brazil ....................................................................................................................... 33 3.1. Sub Sahara Africa ................................................................................................... 33 3.2. 3.3. Indonesia ................................................................................................................. 33 3.4. Canada .................................................................................................................... 34 North America .......................................................................................................... 34 3.5. 3.6. Australia................................................................................................................... 34 3.7. Mexico ..................................................................................................................... 35 India ......................................................................................................................... 35 3.8. 4. WARRANTY TERMS ............................................................................................... 36 5. REGULATORY INFORMATION .............................................................................. 37 5.1. FCC Interference Statement for Class B devices. ................................................... 38 5.2. Federal Communication Commission (FCC) - Radiation Exposure Statement ......... 38 Industry Canada Compliant ...................................................................................... 38 5.3. Wabtec Proprietary Information iv 5.4. Australian Radio Communications Equipment - Radiation Exposure Statement ................................................................................................. 40 5.5. Anatel Resolution 680/2017 Statement (ANATEL - 09438-20-12930) ...................... 40 6. Summary Data ........................................................................................................ 41 DOCU0091 CAS GPS User Manual Wabtec Proprietary Information v Figure LIST OF FIGURES DOCU0091 CAS GPS User Manual Page 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 5 CAS-GPS Broadcast System . 6 CAS-GPS Graphic Alerts . 7 Data Logging . 8 Object Types . 9 Display Unit . 10 Screen Icons Details . 11 Screen Elements Details . 12 List View. 13 GPS Status View . 14 User Settings View . 15 Camera View . 16 Camera Selection . 17 RF Detections . 19 In Vehicle Unit (IVU) . 20 System Interconnections . 21 CAS-CAM/RF Interconnections (1CAM/1RF) . CAS-CAM/RF Interconnections (4CAM/4RF) . 22 Troubleshooting - No Power / Blank Screen . 24 25 Troubleshooting - GPS Problems . 26 Troubleshooting - V2V Problems . 27 Troubleshooting - WiFi/GSM Problems . Wabtec Proprietary Information vi Table 1 2 3 4 5 6 LIST OF TABLES DOCU0091 CAS GPS User Manual Page 3 CAS-GPS Systems . 3 Abbreviation Details. 3 Definitions . CAS-GPS Product Approval Details....................................................................... 29 In Vehicle Unit Details ........................................................................................ 30 Reference Standard Details ................................................................................. 32 Wabtec Proprietary Information vii DOCU0091 CAS GPS User Manual 1. GENERAL INFORMATION 1.1. INTRODUCTION 1.2. SAFETY INFORMATION This manual provides the information on CAS-GPS system and its variants, specifications, operation, maintenance, troubleshooting methods, decommission and disposal. The safety section includes safety precautions which must be observed when working on items that appear throughout the manual. Examples of safety precautions and labels are outlined below:

WARNING Indicates an imminently hazardous situation which, if not avoided, will result in death or serious injury. Indicates a potentially hazardous situation which, if not avoided, could result in minor or moderate injury. Indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury. Indicates a potential for equipment damage. Summary of Warnings:

Read these safety informations carefully before working on this system to avoid personal injury and damage to the equipments. The CAS product is a drivers aid and should not be relied upon as the primary means of reducing the risks of high potential interactions between Heavy Vehicles, Light Vehicles, infrastructure and personnel. GPS based proximity detection may not operate when satellites are not fully visible in the sky (e.g. in a deep mining pit near a high-wall or under a workshop roof). Consideration should be given to supplementing GPS with RF proximity detection and visual aids using cameras. Alarm logic should be determined via site specific risk assessment based on the end-users specified high risk interactions. The CAS product does not take control of the vehicle although can provide inhibit signals to prevent movement from a stationary position implementation will require approval from the vehicle OEM, vehicle owner and Wabtec and a detailed risk assessment conducted. Wabtec Proprietary Information 1 DOCU0091 CAS GPS User Manual The CAS-GPS system consists of various components including an in-

vehicle unit and personnel tag all of which are equipped with multiple radio transmitters. AS2187-2:2006 table I1, recommends a safe operating distance from any designated blasting area as greater than 20 meters. AS2187-2:2006 table I1 is an Australian Standard and operators and users should have regard to all relevant and applicable standards which may apply within the country of use. Operators and users should also have regard to all detonator and blasting contractor and manufacturer recommendations and all applicable safety and operational procedures applicable at the site where the CAS-GPS System is used and which relate to safe operating distances. Details of operating frequency and output power of the various CAS-GPS System components are set out in the CAS-GPS specification and user documentation. Operators and users should make their own assessment in this regard 1.3. DISCLAIMER These materials are provided for information purposes only, as is without express or implied warranty of any kind. Wabtec makes no ANY EXPRESS OR IMPLIED WARRANTY OF MERCHANTABILITY OR OF FITNESS FOR A PARTICULAR PURPOSE OR ANY OTHER EXPRESS OR IMPLIED WARRANTY REGARDING ANY PRODUCTS DESCRIBED in these materials. To the maximum extent permitted by law, Wabtec disclaims any and all implied warranties that might otherwise arise or apply, including any implied warranty of merchantability or of fitness for a particular purpose. Wabtec further makes no representation or warranty of accuracy of these materials and neither Wabtec will have no responsibility or liability for any error or omission in these materials. 1.4. COMPANY DETAILS Industrea Mining Technology Pty Ltd T/A Digital Mining Technology 3 Co-Wyn Close, Fountaindale, New South Wales, 2258, Australia Telephone: +61 2 8863 4730 Email: GETProductionIMT@wabtec.com Web: www.wabteccorp.com Wabtec Proprietary Information 2 1.5. SCOPE PART NUMBER PROD0841-x PROD0842-x PROD0843-x PROD0847-x PROD0842-xNB PROD0847-xNB IVU GPS CAS LAN WIFI GSM OEM NB TERM System This user manual covers the following variants of the CAS-GPS system (defined by the IVU features):

DOCU0091 CAS GPS User Manual Table 1. CAS-GPS Systems PRODUCT DETAILS LAN CAS In Vehicle Unit (IVU) WIFI/LAN CAS In Vehicle Unit (IVU) GSM/LAN CAS In Vehicle Unit (IVU) GSM/WIFI/LAN CAS In Vehicle Unit (IVU) WIFI/LAN CAS In Vehicle Unit (IVU) Low Temperature GSM/WIFI/LAN CAS In Vehicle Unit (IVU) Low Temperature 1.6. ABBREVIATIONS For abbreviations used in this publication, refer to Table 2. ABBREVIATION DESCRIPTION Table 2. Abbreviation Details In Vehicle Unit Global Positioning System Collision Avoidance System Local Area Network Wireless Communication Medium Global System for Mobile Communications Original Equipment Manufacturer 1.7. DEFINITIONS No Battery Table 3. Definitions DEFINITION Refers to the assembled and installed operational elements which together perform the desired functionality. System Components Refers to the individual single elements which when assembled together at the point of installation form the system. Each of these elements has a unique part number. Wabtec Proprietary Information 3 DOCU0091 CAS GPS User Manual 1.8. TRANSPORT OF EQUIPMENT All possible precautions should be taken to protect the equipment against damage or losses during shipment, however before accepting delivery, check all items against the packing list or Bill of Lading. If there are shortages or evidence of physical damage, notify Wabtec Mining immediately. Note: Notify Wabtec Mining within 7 days (maximum) in case of shortages or discrepancies, according to the packing list. This action will help ensure a speedy resolution to any perceived problems. Keep a record of all claims and correspondence. Photographs are recommended. Do not remove protective covers prior to installation unless there are indications of damage. Boxes opened for inspection and inventory should be carefully repacked to ensure protection of the contents or else the parts should be packaged and stored in a safe place. Examine all packing boxes, wrappings and covers for items attached to them, especially if the wrappings are to be discarded. 1.9. STORAGE OF EQUIPMENT When the equipment is not installed immediately, proper storage is important to ensure protection of equipment and validity of warranty. Note: All the Equipments should be stored indoor in a cool dry place to protect against outside environmental elements like weather, Moisture and heat. Do not store the equipment on the ground to avoid contact with the water, if there is a unexpected water spill. Use Platforms/racks/tables to store the equipment away from the ground. 1.10. UNPACKING OF EQUIPMENT The method of packing used is differ depending on the size and quantity of equipment. Be careful when unpacking the equipment to avoid damage. Installation should be in accordance with the installation procedures defined by Wabtec Mining and only performed by authorized and qualified installers. 1.11. INSTALLATION 1.12. TEST & COMMISSION After Installation, the system will be tested to ensure it is electrically secured correct and its functionally working good without any malfunctions. After passing its final installation test, the system is ready for use with inbuilt self-diagnostic testing along with daily user monitoring ensures that any faults can be traced upon. Wabtec Proprietary Information 4 DOCU0091 CAS GPS User Manual 2. OPERATION 2.1. PRINCIPLE OF OPERATION The CAS GPS system is designed to offer a situational awareness driver aid utilizing GPS proximity detection of vehicles/objects and data logging. Each vehicle broadcasts its current position and relevant parameters which are used to detect warnings of possible intersections with other vehicles that receive the broadcast. The position of other vehicles, together with any warnings is shown graphically on the display unit. Refer to Figure 1. V2V RADIO VEHICLE DISPLAY UNIT Figure 1. CAS-GPS Broadcast System The system aids the driver with a continuous view of other objects that are moving, stationary, over the horizon, just behind the vehicle or simply out of sight due to bad visibility and blind spots when operating their vehicle. The system is designed to avoid distraction to the driver from driving, but provides the driver with an awareness tool to notify and visualize other objects surrounding the vehicle on take-off and during operation. 5 Wabtec Proprietary Information The CAS-GPS system notifies the driver with progressive audible and graphic alerts as shown in the Figure 2 below. The system continually broadcasts its location and receives broadcasts of other vehicles in radio communications for up to 500 meters using the in-built proprietary radio link. Vehicle interactions are projected based on the trajectories of the vehicles; an alert is triggered and depending on the configuration, an acknowledgment by the driver on the touch screen may be required (only when the vehicle is stationary). DOCU0091 CAS GPS User Manual 1. NO ALARM OR WARNING 2. WARNING - WHEN 2 WARNING BEAMS OVERLAP CLEAR WARN 3. ALERT - WHEN 2 ALARM BEAMS OVERLAP 4. ALERT - WHEN AN ALARM BEAMS OVERLAPS WITH AN OBJECT ALERT CRITICAL Figure 2. CAS-GPS Graphic Alerts 2.2. POSITIONAL TRACKING The system uses the latest precision point GPS technology which gives accurate location-based tracking. The accuracy of the GPS is backed up by an advanced array of tracking aiding multidimensional G-Force and Gyro digital sensors. The tracking aiding digital sensors assist the GPS position fix when the GPS signal is inhibited resulting in accurate positions even with no view of the sky. Wabtec Proprietary Information 6 DOCU0091 CAS GPS User Manual 2.3. DATA LOGGING The IVU continuously logs all parameters and objects in view to a local database every second (black box technology). The IVU retains 30 days of the 1 second logs. The database captures every 1 second the engine parameters, the vehicle dynamics and other vehicles in view. The local IVU database allows the site manager to retrieve all the events in a desired date range to gain access to more detail of a specific event. Refer to Figure 3. SYSTEM HV MV LV PERSON SATELLITE 2.4. CONNECTIVITY Figure 3. Data Logging The IVU has the ability to upload event logs from its internal database in real-time or upload all data from within a selected date range including the detailed 1 second system-wide logs. The event logs can be transmitted to the central server's database via the following connections. Wi-Fi Ethernet, GPRS GSM, 3G, LTE HSDPA network. The event logs can be retrieved manually from the removable flash card if there is no connectivity available from the IVU. The data can then be transferred into the central server's database for reporting and analysis. Wabtec Proprietary Information 7 2.5. OBJECT TYPES These icons are used on the display to represent the various vehicle types. Refer to Figure 4. DOCU0091 CAS GPS User Manual TRUCK DOZER GRADER DRILL MEDIUM VEHICLE LARGE LOADER SHOVEL SCRAPER SMALL HEAVY VEHICLE DRAGLINE PERSONNAL TAG LIGHT VEHICLE STATIONARY OBJECT TEST STATION Wabtec Proprietary Information Figure 4. Object Types E67711 8 2.6. KEY COMPONENTS 2.6.1. Display Unit For display unit and its parts, refer to Figure 5. DOCU0091 CAS GPS User Manual SCREEN 7 IN. HIGH BRIGHTNESS LCD TOUCH SCREEN AUTO DIMMING FOR ALL LIGHTING CONDITIONS AUDIO VOICE AND TONE OUTPUT SENSORS LIGHT SENSOR FOR AUTOMATIC SCREEN DIMMING MICROPHONE FOR SELF-TEST FUNCTIONALITY LED LED OUTPUT FOR SYSTEM STATUS INDICATION INFORMATION DETAILS PRODUCT CODE SERIAL NUMBER APPROVAL STAMPS CONNECTOR ELECTRICAL CONNECTION FOR POWER AND SIGNALS MOUNT MULTI-AXIS ADJUSTABLE MOUNTING BRACKET Figure 5. Display Unit Wabtec Proprietary Information E67712 9 2.6.1.1. Screen Elements For screen element details, refer to Figure 6 and Figure 7. DOCU0091 CAS GPS User Manual V2V STATUS GREEN - OTHER VEHICLES IN VIEW AND COMMUNICATION OK YELLOW - RADIO WORKING OK BUT NO VEHICLES IN VIEW RED - FAULT DETECTED EXPANSION UNIT GREEN - COMMUNICATING OK RED - COMMUNICATION FAULT RF GREEN - RF SYSTEM OPERATIONAL RED - RF SYSTEM FAULT DETECTED CAMERAS GREEN - CAMERA SYSTEM OPERATIONAL RED - CAMERA SYSTEM FAULT DETECTED GPS STATUS GREEN - HEADING AND POSITION LOCK ACHIEVED YELLOW - POSITION LOCK ACHIEVED BUT HEADING NOT KNOWN RED - FAULT DETECTED COMMUNICATION STATUS GREEN - COMMUNICATION INTERFACE CONNECTED YELLOW - NOT CONNECTED, NO FAULT DETECTED RED - FAULT DETECTED REVERSE INDICATOR APPEARS WHEN VEHICLE IS IN REVERSE GEAR IGNITION INDICATOR GREEN - VEHICLE IGNITION ON YELLOW - VEHICLE IGNITION OFF Wabtec Proprietary Information Figure 6. Screen Icons Details E67714 10 DOCU0091 CAS GPS User Manual STATUS BAR CURRENT STATUS OF SYSTEM COMPONENTS

(SEE TABLE ABOVE) APPROACHING VEHICLE VEHICLE ID YOUR VEHICLE SPECIAL FUNCTIONS BUTTONS SPEED INDICATOR DISTANCE VEHICLE ID SPEED INDICATOR LIST VIEW VEHICLE DATA GPS DATA CAMERA VIEW CONFIGURATION Figure 7. Screen Elements Details Wabtec Proprietary Information 11 2.6.1.2. List View the Pressing button toggles the object list view on or off. Refer to Figure 8. DOCU0091 CAS GPS User Manual Figure 8. List View Wabtec Proprietary Information 12 2.6.1.3. GPS Status view DOCU0091 CAS GPS User Manual Pressing the all of the crucial data that is currently available from the GPS in real time. button will present the operator with the GPS status screen. The GPS Status screen holds Pressing the GPS button again will turn off this screen and if the heading is not valid, the list view will be presented otherwise the screen will have the GPS status screen removed. Refer to Figure 9. Figure 9. GPS Status View Wabtec Proprietary Information 13 2.6.1.4. User Settings View DOCU0091 CAS GPS User Manual Pressing adjust the brightness of the screen from minimum to maximum settings using the slide bar. button turns the user settings screen on. The user settings screen allows the operator to the On automatic change of day and night mode, the brightness is changed to the default day and night values and the operator selected brightness will be overridden. Also on a restart of the system, the brightness will default back to the default day and night settings. The operator can change the current brightness settings at any time. Refer to Figure 10. Figure 10. User Settings View Wabtec Proprietary Information 14 2.6.1.5. Camera View Pressing the button turns on the camera view. DOCU0091 CAS GPS User Manual Pressing the button closes the camera view. Refer to Figure 11. Note: The camera view will automatically close when the vehicle travels faster than the pre-configured camera off speed (default 10km/h). Figure 11. Camera View 15 Wabtec Proprietary Information 2.6.1.6. Camera Selection Once the camera view has been enabled cameras may be selected by pressing anywhere in the relevant quadrant. Refer to Figure 12. DOCU0091 CAS GPS User Manual Figure 12. Camera Selection E67720 Wabtec Proprietary Information 16 DOCU0091 CAS GPS User Manual 2.6.1.7. RF Detections The CAS GPS system can optionally be fitted with additional RF proximity detection unit(s). This may be the case if the site wants additional redundancy in the system or commonly when sites update their existing CAS-

CAM/RF systems. The following example shows a truck traveling forward at 6km/h with the Front camera selected. As a vehicle fitted with RF detectors (only) approaches from the RHS the Right camera will automatically be selected and the quadrant highlighted to indicate a vehicle is within the pre-configured distance (30m in this example). Refer to Figure 13. Note: No icon is presented on the screen but the vehicles ID appears in the table (no speed or distance is displayed). Figure 13. RF Detections 17 Wabtec Proprietary Information DOCU0091 CAS GPS User Manual 2.6.1.8. Display Usage On Vehicle Start-up Immediately after starting the vehicle and before putting it into motion; perform a quick check of the Display status bar. Check that none of the icons are Red, if so your CAS GPS system is not functioning correctly and its operation cannot be assured. Note: Before engaging gear (and in addition to your normal safety procedures), use the Display to gain further awareness of other nearby CAS GPS equipped vehicles. These vehicles will be displayed as icons on your screen each representing their type of vehicle, vehicle ID, speed, distance and direction of travel. If a nearby vehicle's beams are overlapping your vehicles beam an audible alarm will be sounded. Note: Only when your vehicle is stationary may you silence the alarm by touching anywhere on the screen. Vehicle in Motion When your vehicle is moving you can operate using your normal safe operating procedures. The Display will sound an alarm to gain your attention if there is another vehicle that is getting too close. A quick glance at the display will show the location, type, ID, heading and speed of other vehicles. Note: You cannot silence the alarm while your vehicle is moving. A light sensor in the Display will put the screen into Night Mode when the ambient light level drops below a pre-configured level. In night mode the screen will change from a white to a black background, this keeps the brightness down so that the screen will not become a distraction during night operations. Night Operations Daytime Operations A light sensor in the Display will put the screen into Daytime Mode when the ambient light level rises above a pre-configured level. In Daytime mode the screen will change from a black to a white background, this makes the information displayed on the screen easy to read in high ambient light levels. Wabtec Proprietary Information 18 2.6.2. In Vehicle Unit (IVU) For In Vehicle Unit (IVU) parts and connections details, refer to Figure 14. DOCU0091 CAS GPS User Manual SERVICE PANEL SIM CARD USD CARD AUXILARY USB EXTERNAL CABLES LAN DISPLAY RF ANTENNA GPS ANTENNA V2V ANTENNA WIFI ANTENNA WAN ANTENNA OTHERS 24-WAY DEUTSCH

(VEHICLE ELECTRICAL CONNECTIONS) STATUS LEDS MOUNTING SCREWS Figure 14. In Vehicle Unit (IVU) Wabtec Proprietary Information E67722 19 2.6.3. System Interconnections For the main system components and its connection, refer to Figure 15. DOCU0091 CAS GPS User Manual DISPLAY UNIT IN-VEHICLE-UNIT

(IVU) GPS ANTENNA V2V ANTENNA 3G OR WI-FI ANTENNA TO VEHICLE CONNECTIONS Figure 15. System Interconnections Wabtec Proprietary Information 20 2.6.3.1. CAS-CAM/RF interconnections (1CAM/1RF) For CAS-CAM/RF interconnections (1CAM/1RF), refer to Figure 16. DOCU0091 CAS GPS User Manual PROD0850-xM CASLITE IVU TO DISPLAY CABLE CASLITE IN VEHICLE UNIT (IVU) CASLITE DISPLAY HEAVY VEHICLE RF UNIT TYPICALLY

(PROD0169) 6 WAY DEUTSCH CONNECTOR INTERFACE PROD0182 DISPLAT TO CAM/RF CABLE 24 WAY DEUTSCH CONNECTOR INTERFACE POWER FROM BATTERY 12 WAY DEUTSCH CONNECTOR INTERFACE PROD0181 DISPLAY UNIT INPUT PROD0183 CAMERA TO RF UNIT CABLE PROD0118 CAMERA UNIT VEHICLE SIGNALS AND POWER FROM IGNITION Figure 16. CAS-CAM/RF Interconnections (1CAM/1RF) Wabtec Proprietary Information E67724 21 2.6.3.2. CAS-CAM/RF interconnections (4CAM/4RF) For CAS-CAM/RF interconnections (4CAM/4RF), refer to Figure 17. DOCU0091 CAS GPS User Manual PROD0850-xM CAS-GPS IVU TO DISPLAY CABLE CAS-GPS IN VEHICLE UNIT (IVU) CAS-GPS DISPLAY PROD0161-CL EXPANSION UNIT VEHICLE SIGNALS AND POWER PROD0179 EXPANSION UNIT INPUT CABLE PROD0184 EXPANSION UNIT TO CAM/RF CABLE 24 WAY DEUTSCH CONNECTOR IGNITION SIGNAL 12 WAY DEUTSCH CONNECTOR INTERFACE PROD0180 EXPANSION UNIT TO DISPLAY CABLE CONNECTIONS TO CAMERA UNITS AND RF UNITS CHANNEL 6: FRONT CHANNEL 5: LEFT CHANNEL 4: REAR CHANNEL 3: RIGHT E67725 Figure 17. CAS-CAM/RF Interconnections (4CAM/4RF) Wabtec Proprietary Information 22 DOCU0091 CAS GPS User Manual 2.7. SERVICE, MAINTENANCE AND DISPOSAL 2.7.1. Equipment Service 2.7.1.1. Display Unit Clean screen surface with a clean dry soft cloth - Do not use solvents or cleaners on the screen surface. Check for physical damage to screen surface. Check the cable connector is securely connected at the rear of the screen - finger tighten only if loose. Check the mounting bracket is secure - finger tighten only if loose. 2.7.1.2. System Check visually that all antennas are in good condition and the antenna cables are connected. Check visually that no cables are loose or damaged. Verify that the system is working correctly prior to starting the vehicle and during operations. 2.7.2. Scheduled System Servicing It is recommended that the system undergo preventative scheduled maintenance and inspections. These should be carried out by trained and authorized personnel every 6 month or 1500hrs (whichever occurs first). Software updates are automatically pushed out to all IVUs connected to the CAS server. 2.7.3. Software Updates 2.7.4. Equipment Maintenance If the system is not functioning as expected, refer to 5.8 TROUBLESHOOTING . If a fault cannot be resolved, please contact your nearest authorized representative. It is essential that no attempt be made to repair the equipment (other than replacement of individual components). Opening equipment enclosures should never be attempted and will void any warranty and could compromise the safe operation of the system. Wabtec Proprietary Information 23 2.8. TROUBLESHOOTING 2.8.1. No power / blank screen For an apparent loss of power or blank screen, refer to flow diagram shown in Figure 18. DOCU0091 CAS GPS User Manual Figure 18. Troubleshooting - No Power / Blank Screen Wabtec Proprietary Information E67726 24 DOCU0091 CAS GPS User Manual 2.8.2. GPS Problems The GPS signal status is indicated by the colour of the icon at the top of the display. Green - Position and Heading fix - no faults. Yellow - Position fix but no heading - no faults. Red - No GPS signal or GPS error - fault or no signal detected. For GPS related problem, refer to the flow diagram shown in Figure 19. Figure 19. Troubleshooting - GPS Problems E67727 Wabtec Proprietary Information 25 2.8.3. V2V Problems DOCU0091 CAS GPS User Manual The Vehicle to Vehicle communication status is indicated by the colour of the display. icon at the top of the Green - Communicating with other vehicles - no faults. Yellow - No other vehicles in range - no faults. Red - Radio error - fault or error detected. For V2V related problem, refer to the flow diagram shown in Figure 20. Figure 20. Troubleshooting - V2V Problems Wabtec Proprietary Information E67728 26 2.8.4. WiFi/GSM Problems The Wi-Fi or GSM/3G/LTE communication status is indicated by the colour of the or the display. icons at the top of DOCU0091 CAS GPS User Manual Green - Connected to the network - no fault. Red - No signal or fault/error detected. For WiFi/GSM related problem, refer to the flow diagram shown in Figure 21. Figure 21. Troubleshooting - WiFi/GSM Problems Wabtec Proprietary Information E67729 27 DOCU0091 CAS GPS User Manual 2.9. DECOMMISSION Removal of the system should only be performed if authorized by the owner of the vehicle. Removal should be performed by a qualified Auto Electrician. All system components and wiring should be removed. All vehicle wiring should be restored back to original condition. Dispose or store removed system in accordance with this manual. 2.10. DISPOSAL The electronic equipment discussed in this manual must not be treated as general waste. By ensuring that this product is disposed of correctly, you will be helping to prevent potentially negative consequences for the environment and human health which could otherwise be caused by incorrect waste handling of this product. The system should be disposed of in accordance with local regulations. The electronics of CAS-GPS are ROHS compliant. The system contains a lithium ion battery and it should be disposed of in accordance with local regulations. The electronics of CAS-GPS are ROHS compliant. Wabtec Proprietary Information 28 DOCU0091 CAS GPS User Manual 2.11. SPECIFICATIONS For CAS-GPS product approvals details, refer to Table 4. Table 4. CAS-GPS Product Approval Details INTERNATIONAL APPROVALS Australia ACMA RCM PROD0841-2, PROD0842-2 + WiFi PROD0843-2 + GSM PROD0847-2 + WiFi & GSM USA FCC PROD0842-2: FCC ID: YIY-PROD08422 PROD0847-2: FCC ID: YIY-PROD08472 Brazil ANATEL PROD0842-2: 09438-20-12930 Chile SUBTEL India WPC ETA Indonesia POSTEL Peru MTC Mozambique INCM Ghana NCA Canada ISED PROD0842-2: ORD No.: 13750/DO No. 42396/F26 PROD0847-2: ORD No.:17280/DO No. 51425/F26 PROD0842-4: SR-ETA/20189428 PROD0847-4: SR-ETA/20189426 PROD0842-7: 53880/SDPPI/2017 PROD0847-7: 53881/SDPPI/2017 PLG ID: 3944 PROD0842-2: TRSS40276 PROD0847-2: TRSS40421 PROD0842-1: BR3-1M-GE2-02D PROD0847-1: BR3-1M-GE2-02B PROD0842-2: IC ID: 8903A-PROD08422 PROD0847-2: IC ID: 8903A-PROD08472 PROD0842-1: N 21/R/RML/2018 & N 22/R/RML/2018 PROD0847-1: N 23/R/RML/2018, N 24/R/RML/2018 & N 25/R/RML/2018 South Africa ICASA PROD0842-1, PROD0847-1, PROD0842-1H & PROD0847-1H:

TA-2015/074 & TA-2019/474 Papua New Guinea NICTA PROD0842-2: PNG17/1003 PROD0847-2: PNG17/1102 ENVIRONMENTAL PERFORMANCE Storage Temp.

-30C to +85C (-22F to +185F) Withstands 3.5 mm at 5-18.7Hz, 5g at 18.7-150Hz Withstands 15g sine 10ms on each axis, bi-directional on all 3 axes Vibration Shock POWER REQUIREMENTS Input Voltage 9-36VDC 0.01A for IVU standby & V2V powered by internal battery Typical power consumption for 24/12V input. 0.5/1.0A for IVU and display 0.8/1.6A for IVU & display & 1 camera & 2 TOF 1.2/2.4A for IVU & display & 4 camera & 4 TOF (+0.2/0.4A when charging backup battery) Wabtec Proprietary Information 29 DOCU0091 CAS GPS User Manual Table 4. CAS-GPS Product Approval Details INTERNATIONAL APPROVALS Capacitive Touchscreen 133 wide x 223 high x 25 mm deep (basic) 57 mm deep (with ball) DISPLAY UNIT Type Dimensions Weight IP Rating Mounting Power Screen size Inputs Microphone Buzzer Speakers Operating Temp.

-30C to +60C (-22F to +140F) Screen Resolution 1024 x 600 WSVGA 810g IP52 1 in. (25.4 mm) Ball (RAM Mount) From IVU 7 in. (177.8 mm) From IVU via M12 connector yes 78dB at 50 cm (500 mm) 2 x 1W, programmable up to 81dB at 50 cm (500 mm) For In Vehicle Units (IVU) details, refer to Table 5. Table 5. In Vehicle Unit Details IN VEHICLE UNIT (IVU) Dimensions Weight IP Rating Operating Temp. Mounting holes 290 wide x 72 high x 130 mm deep (basic) 2060g IP66

-15C to +60C (5F to +140F)

-30C to +60C (-22F to +140F) No Battery IVU variant Footprint 215 x 48 mm (suits 4 x M8 SHCS) 14 hrs standby operation (GPS + V2V active) Typical battery backup 3 hrs charge time Optional internal Battery type LiFePO4, 3.7V, 3200mAh, UN38.3 Certification Main CPU Standby CPU ARM 32-bit Cortex A8, 800MHz ARM 32-bit Cortex M3 Memory Card RAM Sensors Main interface 12V DC Output Micro SD 1GB DDR3 3-Axis Gyroscope 3-Axis Accelerometer 3-Axis Magnetometer Altimeter -500m to 9000m Deutsch DRC series 24-pin connector 1 x 12VDC @ 1.2A Max Wabtec Proprietary Information 30 DOCU0091 CAS GPS User Manual IN VEHICLE UNIT (IVU) Digital Output Table 5. In Vehicle Unit Details 2 x SPST (wet contact) Vin @ 250mA Max 2 x dry 2.5kV isolated 2 x Wet Common Ground (60Vdc Tolerant @30mA) Digital Inputs CAN interface USB interface LAN interface Other interface Video input RF connectors J1939 support 2 x USB2.0 1 x 10BASE-T / 100BASE-TX 2 x RS232 / 485 configurable 1 x differential TNC V2V Radio PROD084x-x Digital radio: Region Code is denoted in the Model No. suffix code (x). Region 1: 869.525 MHz Region 2: 920 MHz Region 4: 866 MHz Region 7: 921/922 MHz 100 mW transmit power 4GFSK Modulation (4 Gaussian Frequency Shift Keying Region 1: 250 kHz Bandwidth Region 2: 960 kHz Bandwidth Region 4: 250 kHz Bandwidth Region 7: 960 kHz Bandwidth Duty cycle < 1%. (0.3%) Range up to 500m GPS 3 dBi nominal antenna gain. Pre-terminated cable to dedicated antenna mount. Multi-GNSS: GPS, GLONASS, Galileo, BeiDou, plus QZSS compatible. Horizontal accuracy 1.5m *

* (CEP, 50%, 24 hours static, -130 dBm, > 6 SVs) Mobile communications

(optional) WIFI (optional) TOF proximity ranging

(optional) FDD-LTE: 700, 800, 850, 900, 1700/2100 (AWS), 1800, 1900, 2100 & 2600 MHz UMTS (WCDMA/FDD): 800, 850, 900, 1700/2100 (AWS), 1800, 1900 & 2100 MHz GSM: 850, 900, 1800 and 1900 MHz IEEE 802.11 b/g/n (EIRP 21 dBm Max) 2.4GHz IEEE 802.15.4a (100mW Max) 0-250m, 2m accuracy Wabtec Proprietary Information 31 DOCU0091 CAS GPS User Manual For Reference standards, refer to Table 6. Table 6. Reference Standard Details REFERENCE STANDARDS IEC 60529 Degrees of protection provided by enclosures (IP Code) IEC 60068-2-6 IEC 60068-2-27 IEC 61000-4-2 EN 62311 EN 61000-4-3 IEC 61000-4-4 IEC 61000-4-5 EN 61000-4-6 ISO 7637-2 Vibration Shock Electrostatic Discharge Human exposure restrictions for electromagnetic fields Immunity to Radiated Electromagnetic Field Electrical Fast Transient / Burst (EFT) Surge Immunity Immunity to Conducted Disturbances Automotive Electrical Disturbances ETSI EN 301 489 Electromagnetic Compatibility (EMC / EMI) (Parts 1, 3, 7, 17, 24) EN 55032 (CISPR32) Electromagnetic Compatibility Class B (EMC) ETSI EN 300 220 RF Performance Characteristics (V2V) ETSI EN 300 328 RF Performance Characteristics (WIFI) ETSI EN 301 511 RF Performance Characteristics (GSM) ETSI EN 301 908-1 & 2 RF Performance Characteristics (3G) ETSI EN 301 908-13 RF Performance Characteristics (LTE) IEC 62368 -1 AS/NZS 4268 Electrical Safety Radio-Communications Limits (RSE) FCC 47 PART 15A&B Electromagnetic Compatibility Class B (EMC) FCC 47 PART 15C Radio-Communications Limits (RSE) ICES-003 RSS-247 RSS-102 Electromagnetic Compatibility Class B (EMC) Radio-Communications Limits (RSE) Electromagnetic Radiation Wabtec Proprietary Information 32 DOCU0091 CAS GPS User Manual 3. AUTHORIZED REPRESENTATIVES 3.1. Brazil Wabtec Brasil Fabricao e Manuteno de Equipamentos Ltda Avenida General David Sarnoff, n 4600 Cidade Industrial Contagem, MG 32210-110 Brazil P: +55 31 2103 5348 F: +55 31 2103 5100 www.wabteccorp.com 3.2. Sub Sahara Africa The address of Sub Sahara Africa representatives:

Probe Integrated Mining Technologies (PTY) Ltd 245 Albert Amon Road Meadowdale Germiston 1614 P: +27 11 453 0924 F: +27 11 453 2141 www.probebattery.co.za 3.3. Indonesia The address of Indonesia representatives:

PT Intecs Teknikatama Industri Jl. Ciputat Raya No. 18D Kebayoran Lama Selatan Jakarta 12240. P: +62 21 729 3351 F: +62 21 729 3352 www.intecs.co.id Wabtec Proprietary Information 33 DOCU0091 CAS GPS User Manual 3.4. Canada Wabtec Transportation Canada Inc 27047 Oakwood Road, Oakbank, Manitoba, R0E 1J2 Canada P: +1 905 251 0074 www.wabteccorp.com 3.5. North America Digital Mining 2901 East Lake Road, Erie, Pennsylvania, 16531, US P: +1 480 264-2063 F: +1 480 264-6402 www.wabteccorp.com 3.6. Australia Industrea Mining Technology Pty Ltd T/A Digital Mining Technology 3 Co-Wyn Close, Fountaindale, New South Wales, 2258, Australia T: +61 2 8863 4730 Email: GETProductionIMT@wabtec.com Web: www.wabteccorp.com Wabtec Proprietary Information 34 3.7. Mexico The address of Mexico representatives:

DOCU0091 CAS GPS User Manual COMERCIALIZADORA MINERA DEL NORTE, S.A. DE C.V. Ave. H. Colegio Militar No. 2000-B Col. Las Fuentes Piedras Negras, Coahuila Mxico. C.P. 26010. P: +52 (878) 783-8215 / +1 (830) 352-5519 F: +52 (878) 783-8218 www.cominsa.com.mx 3.8. India Wabtec India Industrial Private Ltd. ITC Green Centre 6th Floor, Southwest Tower No. 18, Banaswadi Main Road, Maruthisevanagar, Bangalore 560005, India P: +91 080 68387816 www.wabteccorp.com Wabtec Proprietary Information 35 4. WARRANTY TERMS Equipment and Parts:

DOCU0091 CAS GPS User Manual 15 months from delivery or 12 months from when the system is placed in service (whichever occurs first). Modifications to this product without written consent from the manufacturer or its designated authorized representatives will void all warranty obligations. Wabtec Proprietary Information 36 5. REGULATORY INFORMATION Compliance information of the CAS-GPS is available via the service menu. To access this information:

DOCU0091 CAS GPS User Manual 1. Select at the bottom of the screen. 2. Select CERT Tab across the top of the screen. Modifications to this product without written consent from the manufacturer or its designated authorized representatives could void the users authority to operate the equipment. Suppliers Declaration of Conformity 47 CFR 2.1077 Compliance Information We, Digital Mining Technology, of 3 Co-Wyn Close, Fountaindale, NSW, 2258, Australia declare under our sole responsibility the products:

Make:

FCC ID:

CAS-GPS IVU YIY-PROD08422 YIY-PROD08472 Unique Identifier: PROD0842-2 PROD0847-2 Responsible Party: Digital Mining PROD0842-2NB PROD0847-2NB 2901 East Lake Road Erie, PA, 16531

(814) 875-2234 PROD0842-2: Contains FCC Approved Module: FCC ID: XPYJODYW263, Model No.: JODY W263 WiFi Module. PROD0847-2: Contains FCC Approved Modules: FCC ID: QIPPLS62-W, Model No.: PLS62-W Modem FCC ID: XPYJODYW263, Model No.: JODY W263 WiFi Module. to which this declaration relates:

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. Wabtec Proprietary Information 37 DOCU0091 CAS GPS User Manual 5.1. FCC Interference Statement for 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. A shielded type Ethernet cord is required to meet FCC Class B emission limits and also prevent interference to the nearby radio and television reception. This device and its antenna(s) must not be co-located or operate in conjunction with any other antenna or transmitter. The antenna is considered an integral system component. Use of any antenna other than those specified in the installation manual or supplied with the product may void the products compliance. 5.2. Federal Communication Commission (FCC) - Radiation Exposure Statement To comply with FCC RF exposure limits for general population / uncontrolled exposure, the antennas used for this transmitter must be installed to provide a separation distance of at least 25 cm from all persons and must not be colocated or operating in conjunction with any other antenna or transmitter. 5.3. Industry Canada Compliant This Class B digital apparatus complies with Canadian ICES-003. Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. 5.3.1. Concerning Radio Transmitters This device complies with Industry Canadas licence-exempt RSSs. Operation is subject to the following two conditions:

1. This device may not cause interference; and 2. This device must accept any interference, including that may cause undesired operation of the device. Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication. Wabtec Proprietary Information 38 DOCU0091 CAS GPS User Manual 5.3.2. Detachable Antennas This radio transmitter has been approved by Industry Canada to operate with the antenna types listed in the installation manual with the maximum permissible gain and required antenna impedance for each antenna type indicated. Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device. 5.3.3. Industry Canada - Radiation Exposure Statement To comply with Industry Canada RF exposure limits for general population / uncontrolled exposure, the antennas used for this transmitter must be installed to provide a separation distance of at least 37 cm for GSM product variants or 20 cm for non-GSM product variants from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. 5.3.4. Industrie Canada Dclaration sur lexposition aux radiations Afin de respecter les limites dexposition pour lensemble de la population/lexposition non contrle de la FCC/

IC RF, les antennes utilises pour cet metteur doivent tre installes de manire offrir une distance de sparation minimum de 37 cm pour les variantes de produits GSM ou de 20 cm pour les variantes de produits non GSM de toutes les personnes et ne doivent pas tre utilises en conjonction avec dautres antennes ou metteurs. 5.3.5. Conforme aux normes dINDUSTRIE CANADA Cet appareil numrique de classe B est conforme la norme canadienne ICES-003. Les changements ou les modifications non approuvs expressment par la partie responsable de la conformit pourraient annuler lautorisation de lutilisateur de faire fonctionner lquipement. 5.3.6. Au sujet des metteurs radio Cet appareil respecte les systmes de satellite de radiodiffusion dIndustrie Canada. Son fonctionnement est soumis aux deux conditions suivantes:

1. Cet appareil ne peut pas causer de linterfrence; et 2. Cet appareil doit accepter toute interfrence, y compris celle qui provoque un fonctionnement non souhait de lappareil. Conformment aux rglements dIndustrie Canada, cet metteur radio peut fonctionner uniquement au moyen dune antenne de type et avec un gain maximal (ou plus petit) approuvs pour lmetteur par Industrie Canada. Afin de rduire la possible interfrence radio avec les autres utilisateurs, le type dantenne et son gain devraient tre choisis de manire ce que la puissance isotrope rayonne quivalente (p.i.r.e.) ne soit pas plus grande que ncessaire pour une communication russie. 5.3.7. Antennes dtachables Cet metteur radio a t approuv par Industrie Canada pour fonctionner avec les types dantennes inscrites dans le manuel dinstallation avec le gain maximum permis et limpdance dantenne requise pour chaque type dantenne indiqu. Les types dantennes non compris dans la liste, qui ont un gain suprieur au gain maximum indiqu pour le type en question, sont strictement interdits. Wabtec Proprietary Information 39 DOCU0091 CAS GPS User Manual 5.4. Australian Radio Communications Equipment - Radiation Exposure Statement The equipment complies with the the Radiocommunications Equipment (General) Rules 2021 for General Public Exposure, Non-Aware User, for a Compliance Level 2 Radiocommunications Equipment, when the minimum safety distance of 20 cm is adhered to, and shall bear the RCM. 5.5. Anatel Resolution 680/2017 Statement (ANATEL - 09438-20-12930) RESOLUO No: 680/2017: "Este equipamento no tem direito proteo contra interferncia prejudicial e no pode causar interferncia em sistemas devidamente autorizados"

RESOLUTION No: 680/2017: "This equipment is not entitled to protection against harmful interference and cannot cause interference in properly authorised systems"

Wabtec Proprietary Information 40 6. SUMMARY DATA Not applicable. DOCU0091 CAS GPS User Manual Wabtec Proprietary Information 41

CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 rev Q Digital Mining Technology 3-Co-Wyn Close, Fountaindale NSW, 2258 Australia www.wabteccorp.com The information contained in this document may contain confidential, proprietary and/or privileged material of either Wabtec Corporation or one of its subsidiaries. Any review, retransmission, dissemination or other use of, or taking of any action in reliance upon, this information by persons or entities other than the intended recipient is prohibited unless authorized in writing. If you have received this document in error, please contact the sender and delete the material from any system and destroy any copies. Description Review Approval Date NM, SW & MK DMc NM NM 19/11/2014 27/03/2015 19/11/2015 20/06/2016 09/08/2016 23/09/2016 05/10/2016 19/06/2019 16/09/2021 Document Control Rev E F G H J K L M N P Q Added shovel heading Fixed inconsistent pinouts on 24way connector Added Compliant Antenna Information (Page 6) Doc No. added and other adjustments SWR testing added, Network Configuration antenna location altered to Suit Self Test Updates to CAM/RF Installations Chapter Ignition / Power signals added Page 25 Update Network Settings Image Updates to Interconnections 4CAM/4RF Branding updates, PROD0179 wiring reference correction STEE0690 antenna washer assembly details added, dual IVU configuration removed Document Approval Creator(s):

Reviewer(s):

Approved:

Updated WiFi, V2V & GNSS Antenna Gain Rohan Kennedy S Clifton 25/07/2022 CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 2 Transport All possible precautions are taken to protect the equipment against damage or losses during shipment, however before accepting delivery, check all items against the packing list or bill of lading. If there are shortages or evidence of physical damage, notify Digital Mining Technology immediately. Notify Digital Mining Technology within 7 days in case of shortages or discrepancies, according to the packing list. This will help ensure a speedy resolution to any perceived problems. Keep a record of all claims and correspondence. Photos are recommended. Where practicable do not remove protective covers prior to installation unless there are indications of damage. Boxes opened for inspection and inventory should be carefully repacked to ensure protection of the contents or else the parts should be packaged and stored in a safe place. Examine all packing boxes, wrappings and covers for items attached to them, especially if the wrappings are to be discarded. When preparing to ship the system, de-power for four, (4) days before transport. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 3 Storage Where the equipment is not to be installed immediately, proper storage is important to ensure protection of equipment and validity of warranty. Storage Temperature:

-30 C to +85 C Storage Location:

dry low humidity location CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 4 Unpacking of Equipment The method of packing used will depend on the size and quantity of equipment. Take care when unpacking the equipment to avoid damage to the equipment and ensure the use of correct manual handling techniques. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 5 Installation Installation should be in accordance with:

Vehicle manufacturers instructions. National/local & site regulations relevant to the location of install. The installation procedures defined by Digital Mining Technology and only performed by authorised and qualified installers. This radio transmitter IC: 8903A-PROD08422 & IC: 8903A-PROD08472 has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissible gain indicated. Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device. Cet metteur radio IC : 8903A - PROD08422 & IC : 8903A - PROD08472 a t approuv par Industrie Canada pour fonctionner avec les types d'antenne numrs ci-dessous avec le gain maximal admissible indiqu . types d'antennes non inclus dans cette liste , ayant un gain suprieur au gain maximum indiqu pour ce type , sont strictement interdits pour une utilisation avec cet appareil. GE Part#

Relevant Product

(x = any variant) CAS-GPS Port Nominal Impedance Max. Gain Operating Frequency PROD0852 PROD084x-2 PROD0874 PROD084x-1 V2V V2V

+3dBi

+3dBi 902-928MHz 821-896MHz MISC0467 or PROD1222 PROD084x-x GPS (Receive Only)

+17 to +50 dB 50 50 50 GPS: L1(1559 to 1610MHz), L2(1164 to 1215MHz) Galileo: E1 (1559 to 1610MHz), E5(1164 to 1215MHz) BDS: B1L (1559 to 1610MHz) GLONASS: G1 (1559 to 1610MHz),G2 (1215 to 1300MHz) PROD0854 PROD0847-x GSM / 3G 50 700, 800, 850, 900, 1800, 1900, 2100, 2600 MHz PROD0833 PROD084x-x Wi - Fi 50 2400-2484MHz 0dBi

+1.7dBi

+2.9dBi

+3.0dBi CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 6 Warning Consult with the client to confirm all equipment mounting locations and power connections!

Do not weld on ROPs!

Do not drill through ROPs!

Note:

It is solely the responsibility of the Installer to ensure the installation is compliant with the vehicle manufacturers instructions, national/local statutory and site regulations. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 7 Specialty Tools / Adhesives Required Coax Crimpers TOOL0112 & TOOL0254 for RG 58/214 Coax Cable Stripper TOOL0113 for RG 58/59 Coax Cable Stripper For RG 214 Soldering Iron Butane Heat gun Torx Security Bit T25 Metric Allen Key 4mm Nutsert Tool TOOL0253 Deutsch pin removal Tool TOOL0256 CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 8 Specialty Tools / Adhesives Required Deutsch pin Crimping Tool TOOL0068 or TOOL0101 / TOOL0102 Digital Multi-Meter Hole Saws: 20mm 25mm Self Amalgamating Tape PLAS0684 Loctite 243 CHEM0002 Loctite 248 CHEM0044 30 Metre tape measure Coaxial connector tightening tool, TOOL0264 CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 9 In-Vehicle Unit (IVU) PROD0842 PROD0847 Note: All IVUs have their PRODXXXX part number labelled on the flat underside of the housing. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 10 Input Power & Signal Connections Serial number Hardware build letter code Service Panel SIM Card USB Card Auxiliary USB External Cables LAN Display RF Antenna GPS Antenna GSM Antenna, (PROD0847 only) V2V Antenna WiFi/WAN Antenna CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 11 Input Power & Signal Connections IVU Status LEDs 24-Way Deutsch (Vehicle Electrical Connections) Display Power & Signal connector

(Shown with cover in place) CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 12 IVU Mounting The IVU should be mounted such that:

The Preferred IVU mounting location is inside the cabin / electrical compartment (this will assist with future expansion) It is in the preferred location for that vehicle type It is easily accessible for servicing It is protected against rock fall and other damaging hazards It does not obstruct walkways, access or egress It is never left loose in the vehicle If mounting through a blind panel the supplied nutserts should be used to enable easy removal for servicing Remember to record the location and orientation of the IVU as this is critical for CAS-

GPS functionality. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 13 Mounting Locations & Cable Runs The following diagrams show the preferred mounting locations and cable paths for each vehicle type. Ensure the hardware supplied in the kit is being utilised. Ensure there is a clear line of sight from all directions for the Antennas. It is a recommendation on all Haul trucks the Antennas are to protrude above the Tray by 100mm, by doing this it creates a clear line of sight for the Antennas on all vehicles. Keep in mind any working obstacles. Ensure the correct size Stauff Clamp is used and matched to the specific handrail for that machine and antenna mounting post diameter. Regular clamp bodies are available in the following sizes:

38mm, 42mm, 44.5mm, 48.3mm, 50.8mm, 55mm, 57mm, 60.3mm, 60.5mm, and 70mm. Stauff Clamp Rubber inserts are also available in all kits to maintain the correct clamping on all hand rail sizes and Antenna mounting post. Rubber inserts are available in the following sizes: 32mm, 33.7mm, 35mm, 38.7mm, 40mm, 42mm, 45.5mm, 48mm, 51mm, 53.4mm, 56.4mm. Ensure all stauff clamp assemblies are tightened and secured correctly. Ensure Loctite 243 is used to secure all mounting fasteners, or alternatively Loctite 248 which is suitable for transporting by air as it is a paste. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 14 Mounting Locations & Cable Runs Follow existing cable runs where possible. All cables to be secured using P-Clamps where possible. cut flush to avoid sharp edges. Cables should be secured at a minimum every 300mm. Cable ties should be used as a last resort where there is no provision for P-Clamps Ensure cable ties are Cabling must be kept away from air bags, fire extinguishers & suppression systems in accordance with local regulations. Avoid running cables near hot spots and pinch points. Glands should be used on cables running through bulkheads. It is recommended that a service loop be created on all the Antenna Coax Cables this will especially aid in servicing of the system. i.e. Break in termination at either end of the Coax cables. Service loops are acceptable in the Coax and Display cables. Ensure if a service loop is placed in the Coax Antenna cable that it is placed in a position that it is not going to create a hazard, also ensure the service loop radius is not to small. If mounting through a blind panel the supplied Nutserts should be used to enable easy removal for servicing. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 15 Light Vehicle Notes:

Antennas must be kept a minimum of 37 cm away from occupants in accordance with MPE Radiation Regulations. Consideration must be given to EMI with the vehicles ECU when cable runs are being planned in accordance with local regulations and vehicle manufacturers recommendations. Note: IVU preferably mounted inside the Operators cabin CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 16 Light Vehicle V2V GPS GPRS Bracket used here is ATOM0033 Note: Antenna Spacing between V2V and GPRS should be a minimum of 300mm. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 17 Haul Truck Notes:

Antennas must be kept a minimum 37 cm away from occupants in accordance with MPE Radiation Regulations. Consideration must be given to EMI with the vehicles ECU when cable runs are being planned in accordance with local regulations. Note: IVU preferably mounted inside the Operators cabin or the electrical compartment CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 18 Haul Truck Specific antennas deployed will depend on IVU type. Antenna to protrude above the tray by 100mm. Ensure the antennas will clear any working obstacles. Standard fitment on opposite side of the vehicle from the operators cabin. TRAY OPERATORS CABIN Adjust the mast length to suit the installation. Standard length supplied = 3m CLAMPING ASSEMBLIES HAND RAIL SUPPORT POST ANTENNA CABLE RUN TO IVU CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 19 Haul Truck CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 20 Haul Truck WiFI or GPRS/GSM ANTENNA GPS ANTENNA NOTE:

1. WHERE No WiFi OR GPRS ANTENNA IS DEPLOYED, V2V ANTENNA MOUNT GPS ANTENNA AT POSITION 1 2. SECURE NUTS WITH LOCTITE 243 STEE0690 WASHER LOCK WASHER NUT POSITION 1 POSITION 2 Note:

An extended depth socket spanner may be required to tighten the antenna fixing nuts within the bracket channel. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 21 Haul Truck Note:

TOOL0264 is required to tighten the antenna coax within the bracket channel. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 22 Haul Truck Stauff clamp sizes used must be correctly chosen for the handrail tube size from the Size 6 heavy series Stauff clamping system Available rubber inserts are:

32mm, 33.7mm, 35mm, 38.7mm, 40mm, 42mm, 45.5mm, 48mm, 51mm, 53.4mm, 56.4mm. Available clamp bodies are:

38mm, 42mm, 44.5mm, 48.3mm, 50.8mm, 55mm, 57mm, 60.3mm, 60.5mm, 65mm, 70mm. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 23 Heavy vehicle (excluding Haul Truck) Note: IVU preferably mounted inside the Operators cabin Notes:

Antennas must be kept a minimum of 37 cm away from occupants in accordance with MPE Radiation Regulations. Consideration must be given to EMI with the vehicles ECU when cable runs are being planned in accordance with local regulations and vehicle manufacturers recommendations. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 24 Heavy vehicle (excluding Haul Truck) Note:

An extended depth socket spanner may be required to tighten the antenna fixing nuts within the bracket channel. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 25 Display Unit (PROD0839A) Serial number Hardware build letter code CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 26 Display Unit (PROD0839A) The client should be consulted to ensure Display Unit is mounted in a mutually agreed position. The Display Unit should be mounted such that:

It is compliant with vehicle manufacturers instructions, national/local and site regulations. It does not to create any additional blind spots. The machine operator can easily reach the screen. Located within the field of view of the operator. It is not a hazard when operator is entering / exiting the machine cabin. It has appropriate support so as not to damage any part of the machine. Cable routes are carefully considered. All machines of the same type have the screen located in the same place Mounting provides sufficient support for the Display (self tapping screws into the Dashboard is not acceptable). The display of the installed equipment must never obscure nor obstruct instruments, vehicle controls or the swept area of the windscreen; neither should their operation distract or impede the driver. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 27 Display Unit (PROD0839A) Status Bar: Current status of system components Approaching Vehicle: Vehicle ID, Speed Indicator and Distance Your Vehicle: Vehicle ID and Speed Indicator Special Functions Buttons: Menu, Configuration, GPS Data, Camera selection and Data CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 28 Display Unit (PROD0839A) Screen: 7 High Brightness LCD Touch Screen with auto dimming for all lighting conditions Audio: Voice and tone output Sensors: Light sensor for automatic screen dimming LED: LED output for system status indication CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 29 Display Unit (PROD0839A) Connector: Electrical connection for power and signals RAM Mount: Multi axis adjustable mounting bracket CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 30 CAS-CAM/RF Installations This section describes the interconnections between the CASCAM/RF system and CAS-GPS system. Refer to the CASCAM/RF installation documentation for the camera and RF installation procedure. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 31 Upgrades If upgrading a previous CASCAM/RF installation the installed CASCAM/RF Display

(PROD0119) will be removed and replaced with the CAS-GPS Display. All cables may be reused (provided they are in a serviceable condition). Some power input requirements may change depending on the requested functionality of the system. In this case modifications may need to be made to the existing connections. A full system health check should be completed before upgrade works start! Any repair work to the existing installation may need to be charged back to the customer. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 32 Interconnections 4CAM/4RF CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 33 Interconnections 4CAM/4RF Expansion Unit DISPLAY output 12 way military connector 12 way Deutsch connector on PROD0180 cable 24 way Deutsch connector at IVU Reference Pin Colour Pin Reference Pin VOUT +

RED GND CAMEX+

BLACK GREEN CAMEX-

YELLOW RS485+

E WHITE RS485-

REV+

REV-

FWD-

BLUE GREY VIOLET CK PINK/BLAC K FWD+

M WHITE/BLA A B C D F H J N 1 2 3 4 5 6 7 8 11 12 PWR+

(Battery) GND Video+

Video-

RS485+

RS485-

REV+ (DI3+) REV-

(DI3-) FWD+ (DI4+) FWD-

(DI4-) Ignition (DI1) 6 5 21 20 13 19 16 17 22 23 4 Connections on PROD0179 Expansion Unit inputs Wire Colour Signal/Wire Marking Deutsch Connector CONN0340 Deutsch Connector CONN0341 CABL0114 Wire colour 19- Way MILSPEC Connector RED VIN+

Signal 24VDC POWER

(via 5A fuse) GND BLACK INPUT3 NC GND BLACK INPUT4 NC GND IP3+

IP3-

IP4+

GND BLACK IP4-

WHITE REV DET+

BLACK REV DET-

NC NC NC NC NC NC REVERSE GEAR

(via fuse) GND FORWARD GEAR

(via fuse) GND 1 2 3 4 5 6 7 8 9 10 11 12 Brown 18AWG Blue 18AWG Green Yellow White Blue Grey Violet Orange Pink 1 2 3 4 5 6 7 8 9 10 11 12 A B G H J K C D S T E F YELLOW FWD DET+

White/Black BLACK FWD DET-

Pink/Black CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 34 Interconnections 1CAM/1RF PROD0850-xM CASGPS IVU TO DISPLAY CABLE CASGPS DISPLAY HEAVY VEHICLE RF UNIT (TYPICALLY PROD0169) CASGPS IN-VEHICLE UNIT (IVU) 24 WAY DEUTSCH CONNECTOR INTERFACE IGNITION SIGNAL 12 WAY DEUTSCH CONNECTOR INTERFACE PROD0181 DISPLAY UNIT INPUT CABLE 6 WAY DEUTSCH CONNECTOR INTERFACE PROD0182 DISPLAY TO IVU/CAMERA RF CABLE PROD0183 CAMERA TO RF UNIT CABLE VEHICLE SIGNALS AND POWER FROM VEHICLE BATTERY PROD0118 CAMERA UNIT CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 35 Interconnections 1CAM/1RF 12 way Deutsch connector

(PROD0181) 24 Way Deutsch Connector CASGPS IVU RED BLACK GREY VIOLET WHITE/BLACK PINK/BLACK ORANGE 1 2 7 8 11 12 9 PWR+ (Battery) GND REV+ (DI3+) REV-

(DI3-) FWD+ (DI4+) FWD-

(DI4-) BRAKE (DI2) Ignition (DI1)

+12V GND VID+

VID-

RS485+

RS485-

A B C D E F RED BLACK GREEN YELLOW WHITE BLUE 1 2 3 4 5 6 6 5 16 17 22 23 10 4

+12V GND Video+

Video-

RS485+

RS485-

12 11 21 20 13 19 Camera / RF Cable (PROD0182) 24 Way Deutsch Connector CASGPS IVU 6 way Deutsch connector

(PROD0182) CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 36 Interconnections Light Vehicle CASGPS IN-VEHICLE UNIT (IVU) VEHICLE POWER VIA FUSE PROD0850-xM CASGPS IVU TO DISPLAY CABLE CASGPS DISPLAY LIGHT VEHICLE RF UNIT

(PROD0295) PROD0296 LV RF INPUT CABLE REVERSE SIGNALS AND IGNITION SIGNAL 6 WAY DEUTSCH CONNECTOR INTERFACE CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 37 Interconnections Light Vehicle LV Power, 24 Way Deutsch connector CASGPS IVU 6 way Military connector RF Unit

(PROD0296) 6 way Deutsch connector

(PROD0296) 1 2 3 4 5 6 Vin GND

+12 BUZZER RS232 TX RS232 RX RED BLACK BROWN BLUE GREEN YELLOW PWR+

RED PWR+

GND BLACK GND 6 5 7 1 16 17 4 10 COM1 RX COM1 TX REV+ (DI3+) REV- (DI3-) Ignition (DI1) Brake (DI2) CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 38 Input Power & Signal Connections Basic CAS-GPS CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 39 Input Power & Signal Connections Gear Decoder CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 40 Deutsch Connector 1 M O C 2 M O C 1 N A C B S U SGND VIDEO 2

I 1 D VIN VOUT DI3 DI4

2 1 O D Deutsch 24 pin Wire Colour Pin Designation IVU Function Heavy Vehicle CAS-GPS Signal Subsystem/ Device If CAS CAM RF or CAT GEAR decoder fitted 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 COM1 RS232 txd or RS485+

TXD SmartCap or CASCAMRF LV CAN CAN High CAN High Self Test Node or LFM USB5V USB supply out USB +5V Ignition +ve Ignition +ve Vehicle switched +ve supply Ground Ground Vehicle ve supply Input power +ve Power in +

Input power +ve Vehicle fused battery +ve RS232 rxd or RS485-

Reverse +ve Brake +ve Vehicle reverse +ve

SmartCap or CASCAMRF LV Self Test Node or LFM SmartCap or CASCAMRF LV Self Test Node or LFM Self Test Node or LFM GND Yellow Black Red Blue Grey Violet White/Black Pink/Black DI1 GND PWR COM1 CAN USBD DI2 GND 12Vo COM2 SGND USBD DI3 DI3 DO1 VID VID DI4 DI4 DO2 RS232 txd or RS485+

Comms Ground Input 1+

Ground CAN Low USBD-N Input 2+

Ground

+12V out USBD-P Input 3+

Input 3-

Output +ve Video-

Video+

Input 4+

Input 4-

DO2 +ve Rxd in CAN Low USBD-N Ground

+ve supply out/enable RS485+

-ve supply USBD-P Forward +ve Forward -ve DO1 +ve RS485-

Video-

Video+

Brake +ve Brake -ve Output 2+

Reverse +ve Reverse ve Forward +ve Forward -ve CONNECTIONS TO THE IVU ARE MADE USING DEUTSCH DRC26-24SA COM2 RS232 rxd or RS485-

CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 41 Input Power & Signal Connections Input Power (Vin) WARNING:

Vin+ should be sourced after the isolator.

The IVU remains powered for up to 14 hours after the input power has been Isolated. Input power / ignition pickup point must have inline short circuit protection, use supplied circuit breakers from installation kit. 4A Resettable Circuit Breaker to be used on all vehicles for Ignition. 4A Resettable Circuit Breaker to be used on all vehicles for VIN+.

Fuse location should be accessible for servicing and be clearly labelled using the supplied labels from kit and located if possible on or close to the existing fuse panel. Fuse label is identified by CAS.

- Direct battery power should be used with independent fuse.

- Do not use other electrical circuit power supplies. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 42 Input Power & Signal Connections Ground pickup point is the vehicle chassis. A ring terminal on a designated grounding point should be used. Ground Ignition Signal Vehicle ignition should be protected by an independent 4 Amp fuse. Although the system does not draw operating current from this source, the vehicles circuit should be protected against inadvertent shorts. Basic Reverse & Forward Signals Unless using a CAT Gear Decoder (see below) the reverse signal should be obtained from the vehicles reverse buzzer or alternatively the reverse lights. The forward signal may be wired from a suitable forward gear indicator, with the forward negative signal is tied to ground. Pickup should be made on the output side of the relays. CAT Gear Decoder Reverse & Forward Signals (PROD0587 CAT B,C & D or PROD0724 CAT E & F) For vehicles using the CAT Gear Decoder, Reverse and Forward signals should be obtained directly from the decoders outputs observing the correct polarity when connecting to the IVU. Basic Reverse & Forward Signal wiring is not required when using the Reverse & Forward Signals from the CAT Gear Decoder. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 43 General Wiring Principles Blanking plugs or caps are supplied and must be in place for all unused connectors i.e. 24 way Deutsch Connector on the IVU for example All cable joins/splices should be soldered and heat shrink insulation applied All wires are to be labelled i.e. IGN, VIN+ ,GND , REV using the supplied labels DO NOT use clamp type splice devices to tee into vehicle wiring Crimp type ring terminals should be used for all terminal blocks All wiring should be run in the supplied flexible conduit along with the boot ends also supplied in the kit Ethernet connections made to an IVU must be of a shielded construction CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 44 Antenna cable terminations You need to have received the proper training before attempting to terminate antenna cables. Antenna cable terminations are one of the most critical components of the system. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 45 Antenna cable terminations 1. Strip cable jacket, braid, and dielectric to dimensions in the table below for the appropriate cable and connector. All cuts are to be sharp and square. Important: Do not nick braid, dielectric, and centre conductor. Cable Type A (mm) B (mm) C (mm) RG58 TNC RG58 N RG214 TNC RG214 N 15.5 15.1 16.8 15.1 8 6.8 7.3 6.8 3.5 4 4 4.7 CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 46 Antenna cable terminations 2. Slide heatshrink and outer ferrule onto cable as shown. 3. Flare slightly end of cable braid as shown to facilitate insertion of inner ferrule. Important: Do not comb out braid. Contact on Cable centre conductor Heatshrink Outer Ferrule Cable dielectric 4. Place contact on cable centre conductor so that it butts against cable dielectric. Solder contact in place. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 47 Antenna cable terminations 5. Install cable assembly into body assembly so that inner ferrule portion slides under braid. Push cable assembly forward until contact snaps into place in insulator. The tip of the centre contact should be level with the face of the connector. 6. Slide outer ferrule over braid and up against connector body. Crimp outer ferrule using Die Set Cavity in table above. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 48 Antenna cable terminations 7. Move the heatshrink up over the ferrule, and shrink into place using a heat gun This will aid in preventing moisture ingress to the termination. Heatshrink here 8. Repeat steps 1-7 for the other end of the cable. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 49 Testing Antenna cable terminations Test completed cable for continuity and short circuits by completing the following:

1. With both ends of the cable disconnected. Measure the resistance between the inner and outer conductors. Must be open circuit (>10M)

>10M CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 50 Testing Antenna cable terminations 2. Short the inner to the outer conductor on one end of the cable. 3. Measure the resistance from the inner to the outer conductors on the opposite end. Must be low resistance (<1). 0.2 Shorting link 4. If available, measure the SWR of the completed cable with a 50 dummy load installed in place of the antenna. SWR of cable should remain around 1 in the frequency range of 800MHz to 2.6GHz if terminations are good quality. 5. An SWR of 1.04 or higher should be corrected. Good cable terminations Poor cable terminations CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 51 Antenna Cable Connection Security Antenna cable connection points can be prone to loosening with cable movement. Tighten antenna cable connections with adequate force to prevent loosening. Apply self-amalgamating tape over the cable/antenna connection. This will prevent loosening and provide environmental protection Caution! Thread locking compounds are an electrically insulative material. If threads are covered with thread locker the antenna may not work! Ensure electrical conductivity after installation. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 52 Configuration The following pages instruct on the configuration process for CAS-GPS. They are straight forward with no laptop being required. Configuration is programmed through the Graphic User Interface.

(Display) Note:

The Installer will need to obtain the site specific passcode from the Site Supervisor to complete the following process. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 53 Configuration Installation Measurements GPS antenna Width (from LHS) GPS Antenna Length (from front) GPS antenna location The measurements indicated here are the dimensions of the machine and GPS Antenna location. These measurements are crucial for the GPS to perform correctly and accurately.

) m

h t g n e L e c h e V i l Vehicle Width (m) CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 54 Configuration Installation Measurements Measurements shown here are an example of a Haul truck. A = Truck Length CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 55 Configuration Installation Measurements Measurements shown here are an example of a Haul truck. C = GPS antenna height B = Truck Width CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 56 IVU Orientation The orientation of the IVU must be recorded so that the 3 axis accelerometer can be correctly calibrated The table (right) should be used to determine the orientation number of the installed IVU The orientation is referenced to the vehicle if viewed from above when travelling towards the top of the page (as shown by the vehicle diagram) CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 57 IVU Orientation (examples) Orientation Number 1 IVU mounted on the internal floor surface Orientation Number 7 IVU mounted inside cabin behind the rear seat CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 58 Configuration Use the button at bottom of Display to access CAS-GPS CAS Installer window. Configuration Button CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 59 Configuration Setup Enter the Asset Name (usually the vehicles ID) using the Keyboard below The Asset type provides a record of the make and model of the vehicle. Select the Object type by clicking on the object type drop down box and select the correct vehicle for the installation. Once the object type is selected it automatically populates the typical dimensions for the particular vehicle type. Ensure the location of the GPS Antenna (Length, Width and Height) is correct for the install When completed enter the passcode before pressing Save button on the lower right hand side of the screen, this configuration is now stored and system is now ready to use. This ICON will change once the Object Type has been chosen Record the IVU orientation here. Click on the Orientation drop down box and select from the list of numbers which refer to the table listed previously in this manual. Inputs refer Deutsch Connector table on page 41 Keyboard CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 60 Network Configuration Network Addresses are by default Dynamic until manually assigned in the Network Settings Page at which point they will be stored as static addresses. Static Addressing must be assigned by your network administrator to avoid conflicts. When completed enter the passcode before pressing Save button on the lower right hand side of the screen, this configuration is now stored and system is now ready to use. Note:

Refer also DOCU0139 CASWeb User manual 192.168.73.189 255.255.240.0 192.168.73.1 192.168.75.189 255.255.255.0 192.168.75.1 The Network button shows connection status and settings Wi-Fi IP: Enter the assigned Wi-Fi IP Address for the Vehicle Wi-Fi MASK: Enter the assigned Wi-Fi MASK for the Vehicle Wi-Fi GATEWAY: Enter the assigned Wi-Fi GATEWAY for the Vehicle Ethernet IP: Enter the assigned Ethernet IP Address for the Vehicle Ethernet MASK: Enter the assigned Ethernet MASK for the Vehicle Ethernet GATEWAY: Enter the assigned Ethernet GATEWAY for the Vehicle Keyboard CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 61 Shovel with Heading Overview The difficulty with rotating equipment such as shovels is that the heading cannot be determined by 1 normal GPS receiver. To overcome this a node can be installed to provide another position from which a heading can be determined. To provide the minimum error the antenna connected to the IVU and the node should be installed as far apart as possible on the machine. The IVUs GPS antenna ( A on diagram) should be located near the operators cab. The node (

B on diagram) should be located on the opposite side and to the rear of the Shovel. A This diagram is available in the Help tab. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 62 Shovel IVU Configuration Setup Tab Configuration should only be completed once the IVU and node are installed and have power. On the Setup tab the following items are significant for the IVU:

Length: The length of the body of the Shovel (not including the boom) Width: The width of the body of the Shovel A-Width Rotation point from front: is the distance from the front of the body to the center of the rotation point A-Length A Rotation Boom length: The maximum length of the boom extending past the body (at maximum extension) Side: Side of the body that the operators cabin is on Width Boom Length Length GPS Location: This is the location of the IVUs GPS antenna (A) relative to the front A left corner of the body. (Same as for any other vehicle) CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 63 Shovel IVU Configuration Self-Test Tab On the SelfTest tab, settings in this tab relate to the node that will provide the second GPS signal:

B-Width CAN Bus Node Enable: This box must be checked Comms Type: This should be set to CAN Bus. To change this box you must enter the passcode. Location: This is the location of the node GPS antenna (B) relative to the front left corner of the body. B B-Length Sync: Press this button to synchronise the stored RX and TX values. This allows the IVU to continually test its V2V to ensure that the TX and RX signal strength does not vary significantly from the time of installation. Save: to finish press Save B CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 64 Node Installation Refer to DOCU0088 CAS-GPS SELF-TEST SUB-SYSTEM INSTALLATION MANUAL CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 65 Shovel Heading Testing The second status icon indicates the communication status to the node:

Green indicates good. Yellow indicates warning, no message received in the last 5 seconds. Red indicates error, no message received in the last 5 minutes. Pressing the button displays the primary and secondary GPS information. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 66 Shovel Heading Testing The GPS icon should always be green when a Shovel with Heading is correctly installed and operating. If the GPS icon change to yellow, this indicates that the IVU no longer has a valid heading. Potential causes:

Loss of communication between IVU and node (will be indicated by the status icon ). Loss of GPS signal to IVU or node (indicated by poor HDOP reading >4). Poor GPS signal to IVU or node (indicated by poor HDOP reading >4). CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 67 Configuration & Install Record On completion of the physical installation:

Complete the Installation Checklist to ensure & record that the system is installed correctly and is operating as expected. Complete the Installation Record carefully filling in all of the required details (including orientation, GPS location, vehicle size, vehicle ID) CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 68 Record Keeping Take photographs of the completed installation (for future reference and record of installation). Provide all completed installation records to the Site Supervisor. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 69 Trouble Shooting - No power / Blank screen Use this diagram to troubleshoot an apparent loss or blank screen:

CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 70 Is the vehicles battery connected & fully charged?Are all connectors plugged into the IVU & display?Is the LED on the IVU on?Is the power LED green on the IVU?Contact an authorized representative to inspect the systemConnect / charge and retestReplace & retest. If fuse blows again contact authorized representative to inspectReplace cable and retestThe system was in a low power mode.RetestYesYesYesHas the fuse blown?Is the cable between the IVU and display in good condition (no cuts and breaks)?NoConnect and retestNoNoYesSwitch the Vehicle ignition to the On position. Does the Power LED turn GreenIs the power LED blue on the IVU?NoNoYesYesYesYesNoYesNo Trouble Shooting GPS problems The GPS signal status is indicated by the colour of the ICON at the top of the display. Green: position and heading no faults Yellow: position fix but no heading no faults Red: No GPS signal or GPS error fault or no signal CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 71 Is the GPS icon Red?Does the antenna have an unobstructed view of the sky?Is the antenna in good condition?Are the connectors securely tightened at the antenna and the IVU?Contact an authorized representative to inspect the systemNo fault detected by the system. If it is not functioning correctly, contact an authorized representativePosition vehicle to have a clear view of he sky and retestReplace Antenna and retestTighten connectors and retestYesYesYesNoNoNoNoIs the antenna cable in good condition (no cuts or breaks) ?YesYesReplace antenna cable and retestNo Trouble Shooting V2V problems The Vehicle to Vehicle communication is indicated by the colour of the ICON at the top of the display. Green: Communicating with other vehicles no faults Yellow: No other vehicles in range no faults Red: Radio error fault or error detected CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 72 Is V2V icon RedIs the antenna in good condition?Are the connectors securely tightened at the antenna and the IVU?Is the antenna cable in good condition (no cuts or breaks) ?Contact an authorized representative to inspect the systemNo fault detected by the system. If it is not functioning correctly, contact an authorized representativeReplace antenna and retestTighten connectors and retestReplace antenna cable and retestYesYesYesYesNoNoNoNo Service and Maintenance Scheduled System Servicing It is recommended that the system undergo preventative scheduled maintenance and inspections. These should be carried out by trained and authorised personnel every 6 months or 1500hrs (which ever occurs first). Software Updates Software updates are automatically pushed out to all IVUS connected to the CAS server and will be scheduled with the end-user. Equipment Maintenance If the system is not functioning as expected, refer to the Troubleshooting section. If a fault cannot be resolved please contact your nearest authorised representative. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 73 Service and Maintenance Display Unit

- Clean screen surface with a clean dry soft cloth Do Not use solvents or cleaners on the screen surface

- Check for physical damage to screen surface

- Check the cable connector is securely connected at the rear of the screen finger tighten only if loose

- Check the mounting bracket is secure finger tighten only if loose System

- Check visually that all antennas are in good condition and the antenna cables are connected

- Check visually that no cables are loose or damaged

- Verify that the system is working correctly prior to recommencement of operations CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 74 Removal of the system should only be performed if authorised by the owner of the vehicle. Decommission Removal should only be performed by a qualified Auto Electrician. All system components and wiring should be removed. All vehicle wiring should be restored back to original condition. Dispose or store removed system in accordance with this manual. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 75 Disposal The electronic equipment discussed in this manual must not be treated as general waste or disposed of into landfill. By ensuring that this product is disposed of correctly, you will be helping to prevent potentially negative consequences for the environment and human health which could otherwise be caused by incorrect disposal of this product. The IVU unit contains a Lithium Ion battery and should be disposed of in accordance with local regulations. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 76 Disclaimer The CAS product is a drivers aid and should not be relied upon as the primary means interactions between Heavy Vehicles, Light of reducing the risks of high potential Vehicles, infrastructure and personnel. GPS based proximity detection may not operate when satellites are not fully visible in the sky (e.g. in a deep mining pit near a high-wall or under a workshop roof). Consideration should be given to supplementing GPS with RF proximity detection and visual aids using cameras. Alarm logic should be determined via site specific risk assessment based on the end-

users specified high risk interactions. The CAS product does not take control of the vehicle although can provide inhibit signals to prevent movement from a stationary position implementation will require approval from the vehicle OEM, vehicle owner and Digital Mining Technology. A detailed risk assessment must be conducted. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 77 Disclaimer These materials are provided for information purposes only, "as is," without express or implied warranty of any kind. WABTEC CORPORATION MAKES NO ANY EXPRESS OR IMPLIED WARRANTY OF MERCHANTABILITY OR OF FITNESS FOR A PARTICULAR PURPOSE OR ANY OTHER EXPRESS OR IMPLIED WARRANTY REGARDING ANY PRODUCTS DESCRIBED IN THESE MATERIALS. TO THE MAXIMUM EXTENT PERMITTED BY LAW, WABTEC CORPORATION DISCLAIMS ANY AND ALL IMPLIED WARRANTIES THAT MIGHT OTHERWISE ARISE OR APPLY, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY OR OF FITNESS FOR A PARTICULAR PURPOSE. WABTEC CORPORATION further makes no representation or warranty of accuracy of these materials and neither WABTEC CORPORATION will have no responsibility or liability for any error or omission in these materials. CAS-GPS IVU BASIC SYSTEMS INSTALLATION MANUAL DOCU0085 Revision Q 78

JODY-W2 Antenna reference design Application Note Abstract This application note describes the test set-up used in JODY-W2 module certification. www.u-blox.com UBX-20053581 - TBD JODY-W2 - Application Note Document Information Title Subtitle JODY-W2 Antenna reference design Document type Application Note Document number UBX-20053581 Revision and date TBD Disclosure Restriction TBD This document applies to the following products:

Product name JODY-W2 series u-blox or third parties may hold intellectual property rights in the products, names, logos and designs included in this document. Copying, reproduction, modification or disclosure to third parties of this document or any part thereof is only permitted with the express written permission of u-blox. The information contained herein is provided as is and u-blox assumes no liability for its use. No warranty, either express or implied, is given, including but not limited to, with respect to the accuracy, correctness, reliability and fitness for a particular purpose of the information. This document may be revised by u-blox at any time without notice. For the most recent documents, visit www.u-blox.com. Copyright u-blox AG. UBX-20053581 - TBD Page 2 of 11 JODY-W2 - Application Note Contents Document Information ................................................................................................................................ 2 Contents .......................................................................................................................................................... 3 1 Scope ......................................................................................................................................................... 4 2 General description and requirements ........................................................................................... 4 3 Reference design of RF path .............................................................................................................. 5 3.1 RF trace PCB routing .................................................................................................................................. 5 4 Parts ........................................................................................................................................................... 8 Revision history ........................................................................................................................................... 10 Contact ............................................................................................................................................................ 11 UBX-20053581 - TBD Page 3 of 11 JODY-W2 - Application Note 1 Scope This document defines the essential specifications necessary to implement the JODY-W2 antenna reference designs as used in certification. It is part of the equipment certification application issued to FCC and ISED. The information contained herein and its references should be sufficient to guide a skilled person to implement the design on a host carrier. It will provide the designer with PCB layout details and expected performance specifications. This document supports a connector-based design for the use of external antennas (one for each antenna pin of the module). 2 General description and requirements JODY-W2 series modules provide two RF interfaces for connecting external antennas. The antenna ports ANT0 and ANT1 have a nominal characteristic impedance of 50 and must be connected to the related antenna through a 50 transmission line to allow proper impedance matching along the RF path. A bad termination of the pin may result in poor performance or even damage the RF section of the module. For optimal performance in multiradio mode, the isolation between the antennas shall target the requirements as specified in Table 1 and Table 2 in order to ensure good performance. Requirements Remarks 50 nominal characteristic impedance The impedance of the antenna RF connection must match the 50 impedance of the antenna pins. Frequency range 2400 - 2500 MHz 5150 - 5850 MHz For 802.11b/g/n and Bluetooth. For 802.11a/n/ac. Item Impedance Return loss S11 < -10 dB (VSWR < 2:1) recommended S11 < -6 dB (VSWR < 3:1) acceptable Efficiency

> -1.5 dB ( > 70% ) recommended

> -3.0 dB ( > 50% ) acceptable Maximum gain Requirements Remarks Table 1: Summary of antenna interface requirements Item Isolation

(in-band) Isolation

(out-of-band) S21 > 25 dB recommended S21 > 20 dB acceptable S21 > 35 dB recommended S21 > 30 dB acceptable Envelope correlation Coefficient (ECC) ECC < 0.1 recommended ECC < 0.5 acceptable The return loss or the S11, as the VSWR, refers to the amount of reflected power, measuring how well the primary antenna RF connection matches the 50 characteristic impedance of antenna pins. The impedance of the antenna termination must match as much as possible the 50 nominal impedance of antenna pins over the operating frequency range, to maximize the amount of power transferred to the antenna. The radiation efficiency is the ratio of the radiated power to the power delivered to antenna input: the efficiency is a measure of how well an antenna receives or transmits. The maximum antenna gain must not exceed the value specified in type approval documentation to comply with regulatory agencies radiation exposure limits. The antenna to antenna isolation is the S21 parameter between the two antennas in the band of operation. Out-of-band isolation is evaluated in the band of the aggressor to ensure that the transmitting signal from the other radio is sufficiently attenuated by the receiving antenna to avoid saturation and intermodulation effect at the receivers port. The ECC parameter correlates the far field parameters between antennas in the same system. A low ECC parameter is fundamental to improve performance in MIMO-based systems. Table 2: Summary of MIMO and Wi-Fi/Bluetooth coexistence requirements. MIMO is not applicable for JODY-W2. UBX-20053581 - TBD Contents Page 4 of 11 JODY-W2 - Application Note 3 Reference design of RF path JODY-W2 is certified with a set-up including JODY-W2 module board with its RF paths connected to the carrier board with RF coaxial cables. The antennas are connected to the carrier board through SMA connectors. Below are the relevant components listed. Module board including U.FL connectors with JODY-W2 mounted. Carrier board including U.FL connectors to interface the module board and SMA connectors Coaxial cables with U.FL connectors connecting the module boards RF traces to the carrier to connect antennas. boards RF traces. Antennas connected to the carrier boards SMA connectors. Figure 1. Definition of Module board and Carrier board Figure 2. Test set-up. 3.1 RF trace PCB routing The PCB routing connecting the modules antenna pins to module board U.FL connectors are designed with coplanar microstrips. Coplanar microstrips are also used on the carrier board connecting the U.FL connectors with the SMA connectors to which the external antennas or test UBX-20053581 - TBD Contents Page 5 of 11 JODY-W2 - Application Note equipment are connected. Figure 3 and Table 3 shows the design stack-up including dimensions of the 50 coplanar microstrips implemented. Regarding the coplanar microstrips the ground planes beside the signal trace are connected to the inner layer ground plane using vias. The vias are placed with a maximum distance of 0.5 mm to the coplanar ground edge and a maximum pitch of 2 mm. The top layer is coated with generic LPI solder stop mask. The SMA connectors on the carrier board are used for mounting antennas. For Bluetooth and Wi-Fi operation in the 2.4 GHz band and Wi-Fi operation in the 5 GHz band, the module has been tested and approved for use with antennas up to 2 dBi antenna gain. Figure 3: Coplanar micro-strip dimension specification Item S W T H

Value 200 m 700 m 35 m 800 m 4.3 Table 3: Coplanar micro-strip specification The mechanical dimensions of the module boards microstrips and position of the pi network impedance matching components are shown in Figure 4. Figure 6 shows the components used for the PI network impedance matching. Here only series 0 ohm resistors are used. The inner layers have the same dimensions and are filled with ground. No RF traces are routed in these layers. The antenna ports shown in Figure 4 on the right hand side are from top to bottom: ANT1, ANT0, and ANT2. ANT2 is not used and shall be left unconnected. UBX-20053581 - TBD Contents Page 6 of 11 JODY-W2 - Application Note Figure 4. Module board Antenna micro strip implementation. Figure 5. Component selection for RF matching network on module board using 0 ohm series resistor. The carrier board RF traces includes pi network matching components and are routed as coplanar microstrips. Here 10 pF capacitors in series are implemented. UBX-20053581 - TBD Contents Page 7 of 11 JODY-W2 - Application Note Figure 6. Carrier board Antenna micro strip implementation. Figure 7. Component selection for RF matching network on carrier board using 10 pF series capacitors. 4 Parts Part Description Outline UBX-20053581 - TBD Contents Page 8 of 11 JODY-W2 - Application Note Evaluation board (EVB) Evaluation board for JODY-W263 series modules. The board includes SMA antenna connectors that connect to external antennas for Wi-Fi and Bluetooth. It has two internal dual-band Wi-

Fi/Bluetooth antennas. External Antennas (2) 1 x dual band Wi-Fi/Bluetooth antenna, Linx Technologies ANT-DB1-RAF-SMA Coax RF cable U.FL-2LP(V)-04N1-A-(40) UBX-20053581 - TBD Contents Page 9 of 11 Revision history Revision Date R01 TBD Name lber Comments Initial release. JODY-W2 - Application Note UBX-20053581 - TBD Revision history Page 10 of 11 For complete contact information, visit us at www.u-blox.com. u-blox Offices North, Central and South America Headquarters Asia, Australia, Pacific Europe, Middle East, Africa u-blox AG Phone: +41 44 722 74 44 E-mail:

Support: support@u-blox.com info@u-blox.com Contact u-blox America, Inc. Phone: +1 703 483 3180 E-mail:

info_us@u-blox.com Regional Office West Coast:

Phone: +1 408 573 3640 E-mail:

info_us@u-blox.com Technical Support:

Phone: +1 703 483 3185 E-mail: support@u-blox.com JODY-W2 - Application Note u-blox Singapore Pte. Ltd. Phone: +65 6734 3811 E-mail:

Support: support_ap@u-blox.com info_ap@u-blox.com Regional Office Australia:

Phone: +61 2 8448 2016 E-mail:

Support: support_ap@u-blox.com info_anz@u-blox.com Regional Office China (Beijing):

Phone: +86 10 68 133 545 E-mail:

Support: support_cn@u-blox.com info_cn@u-blox.com Regional Office China (Chongqing):

Phone: +86 23 6815 1588 E-mail:

Support: support_cn@u-blox.com info_cn@u-blox.com Regional Office China (Shanghai):

Phone: +86 21 6090 4832 E-mail:

Support: support_cn@u-blox.com info_cn@u-blox.com Regional Office China (Shenzhen):

Phone: +86 755 8627 1083 E-mail:

Support: support_cn@u-blox.com info_cn@u-blox.com Regional Office India:

Phone: +91 80 405 092 00 E-mail:

Support: support_in@u-blox.com info_in@u-blox.com Regional Office Japan (Osaka):

Phone: +81 6 6941 3660 E-mail:

Support: support_jp@u-blox.com info_jp@u-blox.com Regional Office Japan (Tokyo):

Phone: +81 3 5775 3850 E-mail:

Support: support_jp@u-blox.com info_jp@u-blox.com Regional Office Korea:

Phone: +82 2 542 0861 E-mail:

Support: support_kr@u-blox.com info_kr@u-blox.com Regional Office Taiwan:

Phone: +886 2 2657 1090 E-mail:

Support: support_tw@u-blox.com info_tw@u-blox.com UBX-20053581 - TBD Contact Page 11 of 11

JODY-W2 series Host-based multiradio modules with Wi-Fi and Bluetooth 5 Data sheet Abstract This technical data sheet describes the JODY-W2 series modules with 1x1 802.11n/ac and dual-mode Bluetooth 5. JODY-W2 is ideal for in-vehicle infotainment and telematics applications with simultaneous use cases requiring high data rates, such as in-car hotspots, Wi-Fi display applications such as Apple CarPlay, or video streaming across multiple clients. Connection to a host processor is through SDIO, or High-Speed UART interfaces (Bluetooth only). UBX-18017567 - R07 C1 - Public www.u-blox.com JODY-W2 series - Data sheet Document information Title Subtitle JODY-W2 series Document type Data sheet Host-based multiradio modules with Wi-Fi and Bluetooth 5 Document number UBX-18017567 Revision and date R07 28-Jan-2021 Disclosure restriction C1 - Public Product status In Development /

Prototype Corresponding content status Functional Sample Draft For functional testing. Revised and supplementary data will be published later. Objective specification Target values. Revised and supplementary data will be published later. Engineering Sample Advance information Data based on early testing. Revised and supplementary data will be published later. Initial Production Early production information Data from product verification. Revised and supplementary data may be published later. Document contains the final product specification. Production information Mass Production /

End of Life This document applies to the following products:

Chipset Type number Product name JODY-W263-A JODY-W263-00A-00 JODY-W263-A JODY-W263-01A-00 88W8987A 88W8987S JODY-W263 JODY-W263-00B-00 88W8987 N/A N/A N/A Initial production Initial production Initial production PCN reference Product status u-blox or third parties may hold intellectual property rights in the products, names, logos and designs included in this document. Copying, reproduction, modification or disclosure to third parties of this document or any part thereof is only permitted with the express written permission of u-blox. The information contained herein is provided as is and u-blox assumes no liability for its use. No warranty, either express or implied, is given, including but not limited to, with respect to the accuracy, correctness, reliability and fitness for a particular purpose of the information. This document may be revised by u-blox at any time without notice. For the most recent documents, visit www.u-blox.com. Copyright u-blox AG. UBX-18017567 - R07 C1 - Public Document information Page 2 of 46 JODY-W2 series - Data sheet Contents Document information ................................................................................................................................ 2 Contents .......................................................................................................................................................... 3 1 Functional description ......................................................................................................................... 5 1.1 Overview ........................................................................................................................................................ 5 1.2 Applications ................................................................................................................................................. 5 1.3 Block diagram .............................................................................................................................................. 6 1.4 Product features ......................................................................................................................................... 7 1.4.1 Wi-Fi features ...................................................................................................................................... 7 1.4.2 Wi-Fi Simultaneous operation modes ............................................................................................ 8 1.4.3 Bluetooth features ............................................................................................................................. 8 1.4.4 General product features .................................................................................................................. 8 1.4.5 Reserved MAC addresses ................................................................................................................. 8 2 Interfaces ................................................................................................................................................. 9 2.1 Host interface configuration .................................................................................................................... 9 2.2 SDIO interface .............................................................................................................................................. 9 2.2.1 Default speed and high speed modes (1.8 V) .............................................................................. 10 2.2.2 SDR12, SDR25, SDR50 modes (up to 100 MHz, 1.8 V) ................................................................ 11 2.2.3 SDR104 mode (208 MHz, 1.8 V) .......................................................................................................12 2.2.4 DDR50 Mode (50 MHz, 1.8 V)...........................................................................................................12 2.3 High Speed UART interface .................................................................................................................... 14 2.4 PCM Interface ............................................................................................................................................ 15 2.4.1 PCM Interface specifications ......................................................................................................... 15 2.5 LTE Coexistence interface ...................................................................................................................... 16 3 Pin definition ......................................................................................................................................... 17 3.1 Pin description ............................................................................................................................................ 17 4 Electrical specification ..................................................................................................................... 20 4.1 Absolute maximum ratings .................................................................................................................... 20 4.2 Operating conditions ................................................................................................................................ 20 4.3 Wi-Fi power consumption ........................................................................................................................21 4.4 Bluetooth power consumption ............................................................................................................... 22 4.5 Digital pad ratings ..................................................................................................................................... 22 4.6 Radio specifications ................................................................................................................................. 22 4.6.1 Bluetooth ............................................................................................................................................ 22 4.6.2 Wi-Fi .................................................................................................................................................... 23 5 Host drivers and firmware ................................................................................................................25 5.1 General principle ........................................................................................................................................ 25 5.2 Supported operating systems ............................................................................................................... 25 5.2.1 Linux .................................................................................................................................................... 25 5.2.2 Android ................................................................................................................................................ 25 6 Mechanical specifications ................................................................................................................26 UBX-18017567 - R07 C1 - Public Contents Page 3 of 46 JODY-W2 series - Data sheet 7 Approvals ................................................................................................................................................ 27 7.1 European Union regulatory compliance ............................................................................................... 27 7.1.1 Radio Equipment Directive (RED) 2014/53/EU ........................................................................... 27 7.1.2 Compliance with the RoHS directive ............................................................................................ 27 7.2 United States (FCC) ................................................................................................................................. 27 7.2.1 FCC compliance statement ............................................................................................................ 28 7.3 Canada (ISED) ............................................................................................................................................ 28 ISED compliance statement ...........................................................................................................30 7.4 Certification in other countries .............................................................................................................. 31 7.5 Approved antennas .................................................................................................................................. 31 7.5.1 Wi-Fi / Bluetooth dual band antennas .......................................................................................... 31 7.5.2 Bluetooth antenna ............................................................................................................................ 31 7.3.1 8 Product handling ................................................................................................................................. 32 8.1 Packaging ................................................................................................................................................... 32 8.1.1 Reels .................................................................................................................................................... 32 8.1.2 Tapes ................................................................................................................................................... 32 8.2 Shipment, storage, and handling .......................................................................................................... 32 8.2.1 Moisture sensitivity levels .............................................................................................................. 32 8.2.2 Mounting process and soldering recommendations ................................................................ 33 8.2.3 ESD handling precautions .............................................................................................................. 33 9 Labeling and ordering information ............................................................................................... 34 9.1 Product labeling ......................................................................................................................................... 34 9.2 Explanation of codes ................................................................................................................................ 35 9.3 Ordering codes ........................................................................................................................................... 35 Appendix ....................................................................................................................................................... 36 A.1 Antenna reference design ................................................................................................................ 36 A.1.1 Scope ............................................................................................................................................... 36 A.1.2 General description and requirements ................................................................................. 36 A.1.3 Reference design of RF path ..................................................................................................... 37 A.1.4 RF trace PCB routing .................................................................................................................. 38 A.1.5 Parts .................................................................................................................................................. 41 B Glossary ................................................................................................................................................. 42 Related documents ................................................................................................................................... 44 Revision history .......................................................................................................................................... 45 Contact .......................................................................................................................................................... 46 UBX-18017567 - R07 C1 - Public Contents Page 4 of 46 JODY-W2 series - Data sheet 1 Functional description 1.1 Overview The JODY-W2 series are compact modules based on the NXP 88W8987 chipset family. The chipsets used in the automotive grade JODY-W2 modules are AEC-Q100 compliant. They enable Wi-Fi, Bluetooth, and Bluetooth Low Energy (LE) communication, and are ideal for automotive and industrial applications. The JODY-W2 modules can be operated in the following modes:

Wi-Fi 1x1 802.11a/b/g/n/ac in 2.4 GHz or 5 GHz Dual-mode Bluetooth 5, including audio, can be operated fully simultaneous with Wi-Fi JODY-W2 undergoes extended automotive qualification according to is manufactured in line with ISO/TS 16949. Connection to a host processor is through SDIO, or High-Speed UART interfaces. ISO 16750-4 and 1.2 Applications In-car Access Point for internet access In the car applications such as Apple Car-Play, Miracast, and so on. Automotive applications Rear-seat display Rapid sync-n-go applications and fast content download to the vehicle. Hands-free equipment (Bluetooth) Industrial applications Manufacturing floor automation, wireless control terminals and point-to-point backhaul Machine control Medical in-hospital applications Security and surveillance Outdoor content distribution Robust wireless connectivity in a broad range of industrial applications UBX-18017567 - R07 C1 - Public Functional description Page 5 of 46 JODY-W2 series - Data sheet 1.3 Block diagram Figure 1 shows the various components and interfaces supported in JODY-W2 series modules. Figure 1: JODY-W263-A block diagram JODY-W2 variants with a dedicated LTE Coexistence Filter (2.4 GHz BPF) are available on request. Coexistence filters are only needed if LTE bands 7, 38, 40, and 41 are used. The type numbers and corresponding configuration options for JODY-W2 series modules are shown in Table 1. Type number Antenna configuration LTE Coexistance BPF ANT0 ANT1 BPF_0 JODY-W263-00A-00 JODY-W263-01A-00 JODY-W263-00B-00 Table 1: Supported JODY-W2 configurations Bluetooth 2.4 and 5 GHz Wi-Fi No BPF_1 No UBX-18017567 - R07 C1 - Public Functional description Page 6 of 46 JODY-W2 series - Data sheet JODY-W263-A Automotive NXP 88W8987A/S JODY-W263 Professional NXP 88W8987 Two antenna pins for Wi-Fi and Bluetooth Two antenna pins for Wi-Fi and Bluetooth Supported Wi-Fi radio modes IEEE 802.11 a/b/g/n/ac IEEE 802.11 a/b/g/n/ac Supported Wi-Fi bands 2.5 / 5 GHz 2.5 / 5 GHz Max. Wi-Fi output power 19 dBm (at antenna pin) 19 dBm (at antenna pin) Supported Bluetooth radio modes Bluetooth BR/EDR Bluetooth Low Energy Bluetooth BR/EDR Bluetooth Low Energy 1.4 Product features Item Grade Chipset Antenna type Bluetooth version Bluetooth profiles Supported Bluetooth LE data rates LTE coexistence filter OS support Interfaces Features 5.0 HCI 1 Mbps 2 Mbps

WPA3 Linux / Android Linux / Android SDIO 3.0 (Wi-Fi/Bluetooth) UART (Bluetooth) PCM (Bluetooth digital audio) SDIO 3.0 (Wi-Fi/Bluetooth) UART (Bluetooth) PCM (Bluetooth digital audio) Micro access point with max. 8 connected clients Micro access point with max. 8 connected clients Simultaneous client and access point mode Simultaneous client and access point mode RF parameters/MAC addresses in OTP RF parameters/MAC addresses in OTP 5.0 HCI 1 Mbps 2 Mbps

WPA3 85 C Max. ambient operating temperature 85 C (JODY-W263-00A) 105 C (JODY-W263-01A) Module size 19.8 x 13.8 mm 19.8 x 13.8 mm Table 2: JODY-W2 series product features 1.4.1 Wi-Fi features IEEE 802.11ac PHY data rates up to 433 Mbit/s (80 MHz) Standards: IEEE 802.11a/b/g/n/ac/d/e/h/i/k/mc/r/u/v/w1 20/40/80 MHz bandwidth Simultaneous client and access point operation Support of Wi-Fi direct/P2P mode WPA/WPA2 and WAPI encryption is supported by hardware SDIO 3.0 host interface for Wi-Fi (and optionally Bluetooth) WPA3-SAE is supported in station and AP mode 128-bit AES hardware crypto engine. TKIP/WEP, AES/CCMP, AES/CMAC, AES/GCMP 1 802.11k/r/u/v in STA mode only UBX-18017567 - R07 C1 - Public Functional description Page 7 of 46 JODY-W2 series - Data sheet 1.4.2 Wi-Fi Simultaneous operation modes AP Simultaneous operation o AP + AP - Multi-BSS support (MAX_UAP_BSS = 2) o AP + AP + STA o AP + STA P2P Simultaneous operation o P2P + STA o P2P + AP o P2P + STA + AP Please note that two or more Wi-Fi interfaces should operate in the same channel. 1.4.3 Bluetooth features Bluetooth 5 with Bluetooth Low Energy BDR and EDR packet types 1 Mbit/s, 2 Mbit/s, and 3 Mbit/s LE 2 Mbit/s PHY LE Data Length Extension LE Advertising Extension Bluetooth Class 1 and 2 Standard SDIO and UART HCI transport layer PCM interface for voice applications 1.4.4 General product features Driver support for Linux, Android Coexistence with cellular and other on-chip radios Small footprint (19.8 mm x 13.8 mm), LGA package Automotive qualification tests (climatic, mechanical, and operating life tests) in accordance with ISO 16750-4 planned 1.4.5 Reserved MAC addresses JODY-W2 series modules have four consecutive MAC addresses that are unique for each module variant. The first two of these four addresses are configured during production. The first address is used for the Bluetooth communication, while the second address is configured for Wi-Fi communication. The Data Matrix Code shown on the product label includes the Bluetooth MAC address, as shown in section 9. The remaining two MAC addresses are not used in the manufacturing configuration but are reserved for module usage. MAC address Assignment Last two bits of MAC address Example Module1, address 1 Bluetooth Module1, address 2 Wi-Fi Module1, address 3

(free for use) Module1, address 4

(free for use) Module2, address 1 Bluetooth Module2, address 2 Wi-Fi Module2, address 3

(free for use) Module2, address 4

(free for use) Table 3: MAC address assignment 0b00 0b01 0b10 0b11 0b00 0b01 0b10 0b11 D4:CA:6E:44:00:04 D4:CA:6E:44:00:05 D4:CA:6E:44:00:06 D4:CA:6E:44:00:07 D4:CA:6E:44:00:08 D4:CA:6E:44:00:09 D4:CA:6E:44:00:0A D4:CA:6E:44:00:0B For further details about using the MAC address for secondary Wi-Fi interfaces, refer to section 3.8.1 in the JODY-W2 system integration manual [2]. UBX-18017567 - R07 C1 - Public Functional description Page 8 of 46 JODY-W2 series - Data sheet 2 Interfaces 2.1 Host interface configuration The JODY-W2 series provides two configuration pins, CONFIG[0] and CONFIG[1], for selecting the host interface configuration and additional configuration pins are used to set parameters following a reset. To set a configuration bit to 0, attach a 100 k resistor to GND. No external pull-up resistor is required to set a configuration bit to 1. Table 4 Table 5 show all strapping options. CONFIG[1]

CONFIG[0]

Wi-Fi Bluetooth Firmware download Number of SDIO functions 0 1 SDIO UART SDIO+UART(parallel/Serial) 1 (Wi-Fi) SDIO SDIO SDIO+SDIO(parallel/Serial) 2 (Wi-Fi, Bluetooth) 1 1 Table 4: Host interface configuration options Additional configuration pins are listed in Table 5. Name PCM_OUT BT_UART_RTS LTE_COEX_TX BT_UART_TX Pin 17 38 13 36 Description Set high during reset. Set high during reset. Set high during reset. Table 5: Additional configuration pins 2.2 SDIO interface Set low during reset. A 51 k pull down resistor is implemented on the module. The SDIO device interface conforms to the industry standard SDIO 3.0 specification (UHS-I, up to 104 MByte/s). The interface allows host controllers to access the Wi-Fi, and optionally Bluetooth, functions of JODY-W2 series modules using the SDIO bus protocol. The interface supports 4-bit SDIO transfer mode at the full clock range up to 208 MHz. For SDIO 2.0 running at 25 MHz and 50 MHz clock frequencies. Only a signal voltage of 1.8 V is supported for all bus speed modes. Bus speed mode Max clock frequency [MHz]

Signal voltage [V]

Max. bus speed [MB/s]

DS: Default Speed HS: High Speed SDR12 SDR25 SDR50 SDR104 DDR50 25 50 25 50 100 208 50 Table 6: Supported SDIO bus speed modes 1.8 1.8 1.8 1.8 1.8 1.8 1.8 12.5 25 12.5 25 50 104 50 UBX-18017567 - R07 C1 - Public Interfaces Page 9 of 46 SDIO_CLK INPUT OUTPUT 50% VCC SDIO_CLK INPUT OUTPUT fPP fOD tWL tWH 2.2.1 Default speed and high speed modes (1.8 V) JODY-W2 series - Data sheet fPP tWL tWH tTHL tTLH tISU tIH tODLY

(max) tODLY

(min) Figure 2: SDIO Protocol timing diagram - default speed mode (1.8 V) fPP tWL tWH tTHL tTLH tISU tODLY tIH tOH Figure 3: SDIO Protocol timing diagram high speed mode (1.8 V) Symbol Parameter Condition Min. Typ. Clock frequency Data Transfer Mode Normal Clock frequency Identification Mode Clock low time Normal Clock high time Normal High speed Normal High speed High speed High speed High speed High speed High speed tTLH Clock rise time Normal tTHL Clock low time Normal tISU Input setup time Normal 0 0 0 0 10 7 10 7

5 6

Max. 25 50 400 400

10 3 10 3

Units MHz MHz KHz KHz ns ns ns ns ns ns ns ns ns ns UBX-18017567 - R07 C1 - Public Interfaces Page 10 of 46 JODY-W2 series - Data sheet tIH tODLY tODLY Symbol Parameter Condition Min. Typ. Max. Units Input hold time Normal High speed Output delay time Normal Output delay time CL 40 pF (1 card) High speed 5 2

14 14

ns ns ns ns ns tOH Output hold time High speed 2.5 Table 7: SDIO timing data Default speed, High speed modes (1.8 V) 2.2.2 SDR12, SDR25, SDR50 modes (up to 100 MHz, 1.8 V) Figure 4: SDIO protocol timing diagram SDR12, SDR25, SDR50 modes (up to 100 MHz, 1.8 V) Symbol Parameter Condition Min. Typ. Max. Units fPP Clock frequency tIS Input setup time SDR12/25/50 tIH tCLK tCR, tCF, tODLY tOH Input hold time Clock time Rise time, fall time TCR, TCF < 2 ns (max) at 100 MHz CCARD = 10 pF Output delay time CL 30 pF Output hold time CL = 15 pF SDR12 SDR25 SDR50 SDR12/25/50 SDR12/25/50 SDR12/25/50 SDR12/25 SDR50 0.8 10 0 0 0 3

SDR12/25/50 1.5 Table 8: SDIO timing data SDR12, SDR25, SDR50 modes (up to 100 MHz, 1.8 V) 25 50 100

40 14 7.5

0.2*TCLK MHz MHz MHz ns ns ns ns ns ns UBX-18017567 - R07 C1 - Public Interfaces Page 11 of 46

2.2.3 SDR104 mode (208 MHz, 1.8 V) JODY-W2 series - Data sheet Figure 5: SDIO protocol timing diagram SDR104 mode (208 MHz, 1.8 V) Symbol Parameter fPP TIS TIH Clock frequency Input setup time Input hold time TCLK Clock time tCR, tCF, TOP TODW Rise time, fall time TCR, TCF < 0.96 ns (max) at 208 MHz CCARD = 10 pF Card output phase Output timing of variable data window Table 9: SDIO timing data SDR104 mode (208 MHz) (1.8 V) 2.2.4 DDR50 Mode (50 MHz, 1.8 V) Condition Min. Typ SDR104 SDR104 SDR104 SDR104 SDR104 SDR104 SDR104 0 1.4 0.8 4.8 0 2.88

Max. 208 Units MHz 0.2*TCLK

10

ns ns ns ns ns ns Figure 6: SDIO CMD timing diagram DDR50 mode (50 MHz, 1.8 V) UBX-18017567 - R07 C1 - Public Interfaces Page 12 of 46 JODY-W2 series - Data sheet Clock TCLK tCR, tCF, tIS tIH tODLY tOHLD tIS2x tIH2x Input setup time CCARD 10 pF (1 card) Input hold time CCARD 10 pF (1 card) Output hold time CL 15 pF (1 card) Input setup time CCARD 10 pF (1 card) Input hold time CCARD 10 pF (1 card) Figure 7: SDIO DAT [3:0] timing diagram DDR50 mode (50 MHz, 1.8 V) Symbol Parameter Condition Min. Typ Max. Units Clock time 50 MHz (max) between rising edges Rise time, fall time TCR, TCF < 4.00 ns (max) at 50 MHz CCARD = 10 pF DDR50 20

ns DDR50

0.2*TCLK ns Clock Duty DDR50 45 55 CMD Input (referenced to clock rising edge)

DDR50 6 DDR50 0.8 DDR50 1.5 DDR50 3 DDR50 0.8 DDR50 1.5

ns ns ns ns ns ns ns ns CMD Output (referenced to clock rising edge) Output delay time during data transfer mode CL 30 pF (1 card) DDR50

13.7 DAT[3:0] Input (referenced to clock rising and falling edges) DAT[3:0] Output (referenced to clock rising and falling edges) Output delay time during data transfer mode CL 25 pF (1 card) DDR50 7.0 tODLY2x

(max) tODLY2x

(min) Output hold time CL 15 pF (1 card) Table 10: SDIO timing data DDR50 mode (50 MHz, 1.8 V) UBX-18017567 - R07 C1 - Public Interfaces Page 13 of 46 JODY-W2 series - Data sheet 2.3 High Speed UART interface JODY-W2 series modules support a high-speed Universal Asynchronous Receiver/Transmitter

(UART) interface in compliance with the industry standard 16550 specification. The main features of the UART interface are:

FIFO mode permanently selected for transmit and receive operations Automatic baud rate detection Two pins for transmit and receive operations Two flow control pins High throughput (4 Mbps) Interrupt triggers for low-power, high throughput operation 1200 2400 4800 9600 19200 38400 57600 76800 115200 230400 Table 11: Supported UART baud rates Baud rate 460800 500000 921600 1000000 1382400 1500000 1843200 2000000 2100000 2764800 3000000 (default) 3250000 3692300 4000000 Reference Characteristic Min. Typ. Max. Units Delay time, BT_UART_CTS low to BT_UART_TX valid Setup time, BT_UART_CTS high before midpoint of stop bit Delay time, midpoint of stop bit to BT_UART_RTS high

Bit period Bit period Bit period Figure 8: UART timing characteristics 1 2 3 Table 12: UART timing specification 1.5 0.5 0.5 UBX-18017567 - R07 C1 - Public Interfaces Page 14 of 46 JODY-W2 series - Data sheet 2.4 PCM Interface JODY-W2 series modules include a Pulse Code Modulation (PCM) interface that supports:

Master or Slave mode PCM bit width size of 8 bits or 16 bits Up to 4 slots with configurable bit width and start positions Short frame and long frame synchronization Burst PCM mode In PCM master mode, the interface generates a 2 MHz or a 2.048 MHz PCM_CLK and 8 kHz PCM_SYNC signal. In slave mode, the interface has both PCM_CLK and PCM_SYNC inputs to allow another unit on the PCM bus generate the signals. 2.4.1 PCM Interface specifications Symbol Parameter Condition Min. Typ Max. Units FBCLK PCM clock frequency 2/2.048 MHz Figure 9: PCM timing specification Master mode Duty CycleBCLK TBCLK rise/fall TDO TDISU TDIHO TBF

Table 13: PCM timing specification Master mode

20 15

0.4 0.5 0.6

15 15 3

ns ns ns ns ns UBX-18017567 - R07 C1 - Public Interfaces Page 15 of 46 JODY-W2 series - Data sheet Figure 10: PCM timing specification Slave mode Symbol Parameter Condition Min. Typ Max. Units FBCLK PCM clock frequency 2/2.048 MHz

20 15

0.4 0.5 0.6

30 15 3

ns ns ns ns ns Duty CycleBCLK TBCLK rise/fall TDO TDISU TDIHO TBF

Table 14: PCM timing specification Slave mode 2.5 LTE Coexistence interface To manage wireless medium sharing for optimal coexistence performance2, an external handshake through the LTE Coexistence interface enables signaling between the JODY-W2 series modules and an external co-located wireless device. 2 LTE coexistence interface is not supported in current firmware. UBX-18017567 - R07 C1 - Public Interfaces Page 16 of 46 JODY-W2 series - Data sheet 3 Pin definition 3.1 Pin description Figure 11: JODY-W2 pin assignment (top view) UBX-18017567 - R07 C1 - Public Pin definition Page 17 of 46 JODY-W2 series - Data sheet Function Pin Name Pin No. Signal Name Remarks Power VBAT Module supply input Power VBAT Type PWR PWR VIO supply PWR VIO supply for SDIO Supply for analog part Voltage supply range:

2.8 V 5.5 V Nominal supply range:

1.8 V or 3.3 V Nominal supply: 1.8 V 1, 5, 19, 20, 22, 23, 25, 27, 28, 30, 31, 49 GND GND Exposed Pins

GND GND Connect to Ground SDIO host interface SD_CLK SD_CMD SDIO Clock SDIO Clock input SDIO Command SDIO command line VIO 1V8 GND SD_D0 SD_D1 SD_D2 SD_D3 UART host interface BT_UART_TX 36 BT_UART_RX 37 BT_UART_RTS 38 BT_UART_CTS 39 PCM interface PCM_CLK 16 Configuration CONFIG[0]

PCM_IN PCM_OUT CONFIG[1]

RESERVED CONFIG[2]

2 3 4 53 52 54 55 50 51 18 17 7 8 6 VIO 1V8 1V8 1V8 1V8 1V8 1V8 1V8 VIO VIO VIO VIO VIO VIO VIO VIO 1V8 1V8 1V8 SDIO data 0 SDIO data 1 SDIO data 2 SDIO data 3 UART TX UART RX UART RTS UART CTS PCM clock PCM data in PCM data out Configuration pin Configuration pin I I/O I/O I/O I/O I/O O I O I I/O I/O I O I I PCM_SYNC 15 PCM Frame Sync SDIO data line bit [0]

SDIO data line bit [1]

SDIO data line bit [2]

SDIO data line bit [3]

Bluetooth UART, connect to Host RX Bluetooth UART, connect to Host TX Bluetooth UART, connect to Host CTS Bluetooth UART, connect to Host RTS Input if slave, Output if master Input if slave, Output if master See section 2.1 for bootstrap configuration See section 2.1 for bootstrap configuration Reserved for future configuration, A DNI pull-up resistor should be added at this pin to respond to future chipset changes. Power-down interface of the chipset:

0 = power-down mode 1 = normal mode Enable pin of the core voltage regulator. 0 = power supply off Connect with PDn PDn 58 1V8 PDn Wi-Fi power enable Clock and power up/down interface CORE_PDn 59 1V8 I CORE_PDn UBX-18017567 - R07 C1 - Public Pin definition Page 18 of 46 32.768 kHz clock input. Only supported on professional grade variant, JODY-W263-

00B Open-drain output from the internal DC/DC converter, which indicates the power quality of the 2.2 V rail. High impedance indicates power good. Low level indicates 2.2V is not in power good. A (100k) pull-up resistor must be connected to this pin to detect the power good state. Not supported in current firmware Not supported in current firmware Asserted: Host device must wake-up or remain awake De-asserted: Host device can sleep when the sleep criteria is met JODY-W2 series - Data sheet Function Pin Name Pin No. Power Type Signal Name Remarks LPO_IN 60 I Sleep clock input PG 57 OD GPIOs LTE_COEX_TX 13 LTE_COEX_RX 14 HOST_WAKE 10 GPIO_0 GPIO_2 GPIO_3 GPIO_12 GPIO_13 GPIO_14 GPIO_15 GPIO_18 GPIO_19 GPIO_20 ANT0 ANT1 ANT2 ANT3 42 34 35 11 9 32 33 40 41 12 24 29 21 26 Radio Other NC 21, 26, 43, 44, 45, 46, 47 48, 56 Table 15: JODY-W2 series pin description O I O I/O I/O I/O I/O I I/O I/O I/O I/O I/O RF RF

UART TX UART RX Host wake-up signal output GPIO GPIO GPIO GPIO GPIO GPIO GPIO GPIO GPIO GPIO Antenna signal Bluetooth Antenna signal Wi-Fi Dual Band Not used Not used Reserved Do not connect Do not connect Do not connect UBX-18017567 - R07 C1 - Public Pin definition Page 19 of 46

VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VBAT VBAT

JODY-W2 series - Data sheet 4 Electrical specification Operating JODY-W2 modules above any of the absolute maximum ratings shown in Table 16 can cause permanent damage to the device. Extended exposure to conditions outside of the absolute maximum ratings can also affect the device reliability. 4.1 Absolute maximum ratings Symbol Description VBAT Power supply voltage VIO 1V8 I/O supply voltage 1.8V/3.3V Analog power supply voltage 1.8V TSTORAGE Storage temperature Table 16: Absolute maximum ratings Min.

-0.3

-40 Max. 7.0 4.0 1.98

+1053 Units V V V C The product is not protected against overvoltage or reversed voltages. Voltage spikes exceeding the power supply voltage specification, given in table above, must be limited to values within the specified boundaries by using appropriate protection devices. Symbol Parameter Min. Typ Max. Units 2.8 1.67 3.07 1.71

-40

-40 1.8

5.5 1.92 3.53 1.89

+85

+105 V V V V C C Ripple Noise Peak-to-peak voltage ripple on all supply lines.

10 mV Operating condition ranges specified in Table 17 define the limits within which the functionality of the device is guaranteed. 4.2 Operating conditions VBAT Power supply voltage VIO I/O supply voltage 1.8V I/O supply voltage 3.3V Analog power supply voltage 1.8V Ambient operating temperature JODY-W263-00A/B Ambient operating temperature JODY-W263-01A Table 17: Operating conditions 1V8 TA 3 Qualification pending UBX-18017567 - R07 C1 - Public Electrical specification Page 20 of 46 JODY-W2 series - Data sheet Peak current condition Temperature VBAT (3.3 V) [A]

1V8 (1.8 V) [A]

4.3 Wi-Fi power consumption Active transmission Room temperature Firmware Initialization Room temperature T_max (105 C) T_max (105 C) Table 18: Peak current consumption Wi-Fi operation modes Power save modes Power down Wi-Fi and BT both in deep-sleep4 IEEE Power Save DTIM 1 and BT deep-sleep IEEE Power Save DTIM 2 and BT deep-sleep IEEE Power Save DTIM 3 and BT deep-sleep Active transmit modes CCK 11 Mbps, BW20, Ch7, Core2, 18 dBm MSC7, HT20, Ch7, Core2, 15dBm BPSK, 6 Mbps, HT20, Ch100, 18 dBm MCS7, HT20, CH100, 15 dBm MCS9, VHT40, Ch100, 15 dBm MCS9, VHT80, Ch100, 15 dBm 0.5 0.8 0.7 0.7 5.97 7.74 8.71 8.26 8.04 355 265 320 250 273 300 Table 19: Wi-Fi radio typical current consumption with different modes of operation 0.18 0.2 0.2 0.2 7 66 63 64 63 60 60 60 60 60 60 0.04 0.85 1.60 1.26 1.08 75 70 131 120 126 130 VBAT (3.3 V) [mA]

1V8 (1.8 V) [mA]

VIO (1.8 V) [A]

4 The high sleep current of 7.74mA is seen in deep-sleep mode because of the DC-DC converter used in the module which has a quiescent current of 5.7mA. A new design is under development with an alternate DC-DC converter with very low quiescent current. UBX-18017567 - R07 C1 - Public Electrical specification Page 21 of 46 JODY-W2 series - Data sheet 4.4 Bluetooth power consumption Bluetooth operation modes VBAT (3.3 V) [mA]

1V8 (1.8 V) [mA]

VIO (1.8 V) [A]

Active transmit/receive mode (average over 100ms, measured using HCI commands) Operating modes BLE advertisement BT page scan BT page & inquiry scan BT TX, pattern - DH5, power: 4 dBm, Ch1 BT TX, pattern - DH5, power: 10 dBm, Ch1 BT RX pattern - DH5, Ch1 8.21 7.83 7.89 13.62 14.34 14.08 14.86 17.40 1.45 0.98 1.13 2.00 6.87 5.05 8.77 15.71 64 64 64 64 64 64 64 64 BLE TX BLE RX VIH VIL VHYS VOH Table 20: Bluetooth radio typical current consumption with different operating modes 4.5 Digital pad ratings Symbol Parameter VIO Input high voltage 1.8 V - 3.3 V 0.7*VIO Input low voltage 1.8 V - 3.3 V Input hysteresis 1.8 V - 3.3 V Output high voltage 1.8 V - 3.3V VIO-0.4 1.8 V - 3.3 V

Min.

-0.4 100 Max. VIO+0.4 0.3*VIO

0.4 Units V V V V mV Output low voltage VOH Table 21: DC characteristics VIO 4.6 Radio specifications 4.6.1 Bluetooth Parameter RF Frequency Range Supported Modes Number of channels Modulation Transmit Power Receiver sensitivity

(typical values) Table 22: Bluetooth radio parameters Specification 2.4 2.5 GHz Bluetooth 5 79 (BR/EDR) 40 (LE) 1 Mbps: GFSK (BR) 2 Mbps: /4 DQPSK (EDR) 3 Mbps: 8DQPSK (EDR) Class 1 BR +10 dBm Class 1 EDR +9 dBm LE +8 dBm BR -87 dBm 1.5 dB EDR -86 dBm 1.5 dB LE -99 dBm 1.5 dB UBX-18017567 - R07 C1 - Public Electrical specification Page 22 of 46 JODY-W2 series - Data sheet JODY-W2 series modules support dual-band Wi-Fi with 802.11a/b/g/n/ac operation in the 2.4 GHz and 5 GHz radio bands. Parameter Operation mode Specification 802.11a/g/n/ac OFDM 802.11b/g/n 802.11a/n/ac 802.11b 802.11b 802.11a/g 802.11n SISO 802.11ac SISO 802.11n 802.11ac 802.11n 802.11ac 2.400 2.500 GHz 4.900 5.925 GHz CCK and DSSS 1, 2, 5.5, 11 Mbps 6, 9, 12, 18, 24, 36, 48, 54 Mbps MCS0 - MCS7 (150 Mbps) MCS0 MCS9 (433 Mbps) 20, 40 MHz 20, 40, 80 MHz 400, 800 ns Short guard interval supported Parameter Frequency Operation mode 802.11 EVM limit Preliminary specification

(typ. output power tolerance 2 dB) 4.6.2 Wi-Fi RF Frequency range Modulation Supported data rates Supported channel bandwidth Supported guard interval (GI) Table 23: Wi-Fi radio features and specifications 2.4 GHz DSSS/CCK Maximum transmit power OFDM, BPSK OFDM, QPSK OFDM, 16-QAM 5 GHz OFDM, BPSK

-9 dB

-8 dB

-13 dB

-19 dB

-5 dB

-13 dB

-19 dB OFDM, 64-QAM, 3/4

-25 dB OFDM, 64-QAM, 5/6

-28 dB OFDM, QPSK OFDM, 16-QAM OFDM, 64-QAM, 3/4

-25 dB OFDM, 64-QAM, 5/6

-28 dB OFDM, 256-QAM, 3/4

-30 dB OFDM, 256-QAM, 5/6

-32 dB 802.11g 6Mbps/9Mbps 5.5Mbps/11Mbps 12Mbps/18Mbps 24Mbps/36Mbps 48Mbps/54Mbps 802.11n MCS0/MCS1 5 FCC output power limit 12 dBm 19 dBm5 19 dBm 18 dBm 18 dBm 17 dBm 17 dBm 16 dBm 15 dBm 15 dBm 15 dBm 15 dBm 15 dBm 14 dBm

-97dBm/-94dBm

-92dBm/-88dBm

-89dBm/-88dBm

-86dBm/-84dBm

-81dBm/-79dBm

-75dBm/-73dBm

-89dBm/-88dBm Table 24: Wi-Fi Radio maximum transmit power parameter Band Operating mode Data rate Bandwidth Specification 2.4 GHz 802.11b 1Mbps/2Mbps 20MHz UBX-18017567 - R07 C1 - Public Electrical specification Page 23 of 46 Band Operating mode Data rate Bandwidth Specification JODY-W2 series - Data sheet 5 GHz 802.11a 6Mbps/9Mbps 20MHz 802.11ac MCS0/MCS1 20MHz MCS2/MCS3 MCS4/MCS5 MCS6/MCS7 12Mbps/18Mbps 24Mbps/36Mbps 48Mbps/54Mbps MCS2/MCS3 MCS4/MCS5 MCS6/MCS7 MCS8 MCS2/MCS3 MCS4/MCS5 MCS6/MCS7 MCS8/MCS9 MCS2/MCS3 MCS4/MCS5 MCS6/MCS7 MCS8/MCS9 MCS0/MCS1 40MHz MCS0/MCS1 80MHz Table 25: Wi-Fi radio sensitivity

-86dBm/-84dBm

-81dBm/-79dBm

-75dBm/-73dBm

-88dBm/-87dBm

-88dBm/-86dBm

-83dBm/-80dBm

-75dBm/-74dBm

-88dBm/-87dBm

-85dBm/-82dBm

-80dBm/-76dBm

-75dBm/-73dBm

-69dBm

-85dBm/-84dBm

-82dBm/-79dBm

-77dBm/-73dBm

-72dBm/-71dBm

-67dBm/-65dBm

-81dBm/-81dBm

-79dBm/-76dBm

-74dBm/-70dBm

-69dBm/-68dBm

-63dBm/-61dBm UBX-18017567 - R07 C1 - Public Electrical specification Page 24 of 46 JODY-W2 series - Data sheet 5 Host drivers and firmware 5.1 General principle 5.2 Supported operating systems 5.2.1 Linux JODY-W2 series modules do not contain any persistent software. A firmware binary is downloaded by the host operating system driver at start-up. The reference driver, developed by NXP and distributed by u-blox, is only made available to customers that have signed a limited use license agreement (LULA) [4] with u-blox. A valid non-disclosure agreement (NDA) is mandatory to get the driver package directly from NXP. The package includes:

Dedicated kernel driver that binds the Wi-Fi device to the kernel. Driver sources are provided. Dedicated Wi-Fi firmware image that is uploaded during initialization of the Wi-Fi device. Dedicated Bluetooth firmware image that is uploaded during initialization of the Bluetooth device. Laboratory and manufacturing tools. 5.2.2 Android The Linux driver can be integrated with Android BSP. Detailed instructions for integrating the operating system on the module are provided in the application note [5]. UBX-18017567 - R07 C1 - Public Host drivers and firmware Page 25 of 46 A B C D E F G H I J K L M N O P R JODY-W2 series - Data sheet 6 Mechanical specifications

Figure 12: JODY-W2 series dimensions (bottom view) Parameter Description Typical Tolerance Module length [mm]

Module width [mm]

(779.5 mil)

+0.35/-0.1

(+13.8/-3.9 mil)

(543.3 mil)

+0.1/-0.1

(+3.9/-3.9 mil) Module thickness [mm]

(98.4 mil)

+0.2/-0.2

(+7.9/-7.9 mil) ccc Seating plane coplanarity [mm]

(3.94 mil) PCB edge-to-pin Edge [mm]

(11.8 mil)

+0.20/-0.20

(+7.9/-7.9 mil) Pin width [mm]

Pin length [mm]

(27.6 mil)

+0.05/-0.05

(+2.0/-2.0 mil)

(37.4 mil)

+0.05/-0.05

(+2.0/-2.0 mil) Pin to pin pitch [mm]

(39.4 mil)

+0.02/-0.02

(+0.8/-0.8 mil) Horizontal corner pin-to-pin pitch [mm]

(44.3 mil)

+0.02/-0.02

(+0.8/-0.8 mil) Lateral corner pin-to-pin pitch [mm]

(44.3 mil)

+0.02/-0.02

(+0.8/-0.8 mil) Horizontal thermal pads pitch [mm]

(126.0 mil)

+0.02/-0.02

(+0.8/-0.8 mil) Thermal pad height [mm]

Thermal pad length [mm]

(86 6 mil)

+0.1/-0.1

(+3.9/-3.9 mil)

(106.3 mil)

+0.1/-0.1

(+3.9/-3.9 mil) Pin 1 diameter [mm]

0.95

(37.4 mil)

+0.05/-0.05

(+2.0/-2.0 mil) Horizontal pin-to-thermal pad pitch [mm]

3.425

(134.8 mil)

+0.02/-0.02

(+0.8/-0.8 mil) Lateral pin-to-thermal pad distance [mm]

2.725

(107.3 mil)

+0.02/-0.02

(+0.8/-0.8 mil) Lateral thermal pads pitch [mm]

2.7

(106.3 mil)

+0.02/-0.02

(+0.8/-0.8 mil) Reserved area for future module variants 1.55

(61.0 mil)

+0.05/-0.05

(+2.0/-2.0 mil) 19.8 13.8 2.5

<0.1 0.3 0.7 0.95 1.0 1.125 1.125 3.2 2.2 2.7 Table 26: Description of parameters UBX-18017567 - R07 C1 - Public Mechanical specifications Page 26 of 46 JODY-W2 series - Data sheet 7 Approvals All approvals are pending. JODY-W2 series modules comply with the regulatory demands of Radio Equipment Directive (RED), Federal Communications Commission (FCC), Innovation Science and Economic Development (ISED)6. See JODY-W2 series System Integration Manual [2] for detailed information about regulatory compliance requirements of end products that use JODY-W2 series modules. 7.1 European Union regulatory compliance For information about the regulatory compliance of JODY-W2 series modules against requirements and provisions in the European Union, see JODY-W2 Declaration of Conformity [9]. All approvals are pending. 7.1.1 Radio Equipment Directive (RED) 2014/53/EU JODY-W2 series modules comply with the essential requirements and other relevant provisions of Radio Equipment Directive (RED) 2014/53/EU. Essential Requirements Radio Equipment Directive 2014/53/EU Standards EN 62368-1:2014+A11:2017 EN 62311:2008 (Wi-Fi) EN 62479:2010 (Bluetooth and Bluetooth Low Energy) Health and safety

(Article 3.1a) EMC

(Article 3.1b) Radio Spectrum Efficiency

(Article 3.2) Essential Requirements RoHS Directive 2011/65/EU Prevention

(Article 4.1) EN 301 489-1 V2.1.1 EN 301 489-17 V3.1.1 EN 300 328 V2.2.2 EN 301 893 V2.1.1 EN 300 440 V2.1.1 Standards EN 50581:2012 7.1.2 Compliance with the RoHS directive JODY-W2 series modules comply with the Directive 2011/65/EU (EU RoHS 2) and its amendment Directive (EU) 2015/863 (EU RoHS 3). 7.2 United States (FCC) Approvals are pending. This section contains the FCC compliance information for the JODY-W2 series modules. According to FCC regulations, the transmission line from the antenna pin in the module to the antenna or antenna connector on the host PCB is considered part of the approved antenna design. Consequently, module integrators must follow exactly the antenna reference design used in the modules FCC type approval or certify their own designs. See Appendix A for details. 6 Approvals are pending. UBX-18017567 - R07 C1 - Public Approvals Page 27 of 46 JODY-W2 series - Data sheet Below is the list of the FCC IDs allocated to JODY-W2 series modules. Model7 FCC ID JODY-W263-00A, JODY-W263-01A, JODY-W263-00B XPYJODYW263 Table 27: FCC and ISED IDs for different variants of JODY-W2 series modules 7.2.1 FCC compliance statement The JODY-W2 series modules have modular approval and comply 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. Any changes or modifications NOT explicitly APPROVED by u-blox could cause the JODY-W2 series module to cease to comply with FCC rules part 15 thus void the user's authority to operate the equipment. The internal / external antenna(s) used for this module must provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. In accordance with 47 CFR 15.19, the end product into which this module is integrated shall bear the following statement in a conspicuous location on the device:

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. When the end-product is so small or for such use that it is not practical to place the above statement on it, the information shall be placed in a prominent location in the instruction manual or pamphlet supplied to the user or on the container in which the device is marketed. However, the FCC ID label must be displayed on the device. If the end-product will be installed in locations where the end-user is not able to see the FCC ID and/or this statement, the FCC ID and the statement shall also be included in the end-product manual. The outside of final products containing the JODY-W2 module must display in a user accessible area a label referring to the enclosed module. This exterior label can use wording such as the following: Contains Transmitter Module FCC ID: XPYJODYW263 or Contains FCC ID:

XPYJODYW263. 7.3 Canada (ISED) Approvals are pending. According to ISED regulations, the transmission line from the antenna pin in the module to the antenna or antenna connector on the host PCB is considered part of the approved antenna design. Consequently, module integrators must follow exactly the antenna reference design used in the modules ISED type approval or certify their own designs. See Appendix A for details. 7 The model name is identical to the ordering code. Refer to Table 34 for details. UBX-18017567 - R07 C1 - Public Approvals Page 28 of 46 JODY-W2 series - Data sheet JODY-W2 series module are certified for use in accordance with the Canada Innovation, Science and Economic Development Canada (ISED) Radio Standards Specification (RSS) RSS-247 Issue 2 and RSSGen. Below is the list of the ISED IDs allocated to JODY-W2 series modules. Model ISED certification number JODY-W263-00A, JODY-W263-01A, JODY-W263-00B 8595A-JODYW263 Table 28: ISED ID for different variants of JODY-W2 series modules UBX-18017567 - R07 C1 - Public Approvals Page 29 of 46 JODY-W2 series - Data sheet 7.3.1 ISED compliance statement The JODY-W2 series module complies with ISED (Innovation, Science and Economic Development Canada)8 license-exempt RSSs. Operation is subject to the following two conditions:

(1) This device may not cause interference, and

(2) This device must accept any interference, including interference that may cause undesired operation of the device. Any notification to the end user of installation or removal instructions about the integrated radio module is NOT allowed. Unauthorized modification could void authority to use this equipment. This equipment complies with ISED RSS-102 radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20 cm between the radiator and your body. This radio transmitter IC: 8595A-JODYW263 has been approved by ISED to operate with the antenna types listed below with the maximum permissible gain indicated. Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device. Operation in the band 51505250 MHz is only for indoor use to reduce the potential for harmful interference to co-channel mobile satellite systems;

Operation in the 5600-5650 MHz band is not allowed in Canada. High-power radars are allocated as primary users (i.e. priority users) of the bands 5250-5350 MHz and 5650-5850 MHz and that these radars could cause interference and/or damage to LE-LAN devices. The ISED certification label of a module shall be clearly visible at all times when installed in the host device; otherwise, the host device must be labeled to display the ISED certification number for the module, preceded by the words Contains transmitter module, or the word Contains, or similar wording expressing the same meaning, as follows: Contains transmitter module IC: 8595A-

JODYW263. Le prsent appareil est conforme aux CNR d'ISED applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes:

(1) l'appareil ne doit pas produire de brouillage, et

(2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. Cet quipement est conforme aux limites d'exposition de rayonnement d'ISED RSS-102 dtermines pour un environnement non contrl. Cet quipement devrait tre install et actionn avec la distance minimum 20 cm entre le radiateur et votre corps. Cet metteur radio, IC: 8595A-JODYW263 t approuv par ISED pour fonctionner avec les types dantenne numrs ci-dessous avec le gain maximum autoris et limpdance ncessaire pour chaque type dantenne indiqu. Les types dantenne ne figurant pas dans cette liste et ayant un gain suprieur au gain maximum indiqu pour ce type-l sont strictement interdits dutilisation avec cet appareil. Le dispositif de fonctionnement dans la bande 5150-5250 MHz est rserv une utilisation en intrieur pour rduire le risque d'interfrences nuisibles la co-canal systmes mobiles par satellite Opration dans la bande 5600-5650 MHz n'est pas autorise au Canada. Haute puissance radars sont dsigns comme utilisateurs principaux (c.-utilisateurs prioritaires) des bandes 5250-5350 8 Formerly known as IC (Industry Canada). UBX-18017567 - R07 C1 - Public Approvals Page 30 of 46 JODY-W2 series - Data sheet MHz et 5650-5850 MHz et que ces radars pourraient causer des interfrences et / ou des dommages dispositifs LAN-EL. Ltiquette dhomologation dISED dun module donn doit tre pose sur lappareil hte un endroit bien en vue en tout temps. En labsence dtiquette, lappareil hte doit porter une tiquette sur laquelle figure le numro dhomologation du module dISED, prcd des mots Contient un module dmission , ou du mot Contient , ou dune formulation similaire allant dans le mme sens et qui va comme suit : Contient le module dmission IC: 8595A-JODYW263 . This radio transmitter IC: 8595A-JODYW263 has been approved by ISED to operate with the antenna types listed below with the maximum permissible gain indicated. Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device. Le prsent metteur radio IC: 8595A-JODYW263 a t approuv par ISED pour fonctionner avec les types d'antenne numrs ci-dessous et ayant un gain admissible maximal. Les types d'antenne non inclus dans cette liste, et dont le gain est suprieur au gain maximal indiqu, sont strictement interdits pour l'exploitation de l'metteur. The internal / external antenna(s) used for this module must provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. The approval type for all the JODY-W2 series variants is a single modular approval. Due to ISED Modular Approval Requirements (Source: RSP-100 Issue 10), any application which includes the module must be approved by the module manufacturer (u-blox). The application manufacturer must provide design data for the review procedure. 7.4 Certification in other countries Additional country certifications can be progressed upon request. For further information, contact the support team for your area, as listed in the Contact section. 7.5 Approved antennas 7.5.1 Wi-Fi / Bluetooth dual band antennas For Bluetooth and Wi-Fi operation in the 2.4 GHz band and Wi-Fi operation in the 5 GHz band, the module has been tested and approved for use with the antennas listed in Table 29. Manufacturer Part Number Antenna type Peak gain [dBi]

2.4 GHz band 5 GHz band Validated Regulatory Domain ANT-DB1-RAF-RPS Dual-band dipole antenna [6]

2.5 4.6 FCC/ISED, ETSI Linx Table 29: List of approved dual-band antennas Important: To be compliant to FCC 15.407(a) the EIRP is not allowed to exceed 125 mW (21 dBm) at any elevation angle above 30 degrees as measured from the horizon when operated as an outdoor access point in U-NII-1 band, 5.150-5.250 GHz. 7.5.2 Bluetooth antenna The following antennas are designated for Bluetooth transmission on JODY-W2:

Manufacturer Part Number Antenna type Peak gain [dBi]

2.4 GHz band Validated Regulatory Domain Linx ANT-2.4-CW-RCT-RP Single-band dipole antenna [8]

2.2 FCC/ISED, ETSI Table 30: List of approved single-band antennas UBX-18017567 - R07 C1 - Public Approvals Page 31 of 46 JODY-W2 series - Data sheet 8 Product handling 8.1 Packaging For efficient production, production lot set-up and tear-down, JODY-W2 series modules are delivered as hermetically sealed devices on tape and reel. For more information about packaging, see the u-blox package Information Guide Error! Reference source not found.. 8.1.1 Reels 8.1.2 Tapes JODY-W2 series modules are deliverable in quantities of 500 pieces on a reel. The modules are shipped on reel Type A, as described in the u-blox package information guide Error! Reference source not found.. The dimensions of the tapes are shown in Figure 13. Figure 13: JODY-W2 Tape dimensions 8.2 Shipment, storage, and handling For more information regarding shipment, storage and handling see the u-blox package information guide Error! Reference source not found.. 8.2.1 Moisture sensitivity levels JODY-W2 series automotive-grade modules are rated at moisture sensitivity level 3. See moisture sensitive warning label on each shipping bag for detailed information. After opening the dry pack, modules must be mounted within 168 hours in factory conditions of maximum 30 C/60%RH or must be stored at less than 10%RH. Modules require baking if the humidity indicator card shows more than 10% when read at 235C or if the conditions mentioned above are not met. Please refer to J-STD-

033B standard for bake procedure. UBX-18017567 - R07 C1 - Public Product handling Page 32 of 46 JODY-W2 series - Data sheet 8.2.2 Mounting process and soldering recommendations Reflow profiles are to be selected according to u-blox recommendations. See JODY-W2 series System integration manual [2] for more information. 8.2.3 ESD handling precautions JODY-W2 series modules are Electrostatic Sensitive Devices (ESD). Observe precautions for handling! Failure to observe these precautions can result in severe damage to the Wi-Fi receiver!

Wi-Fi transceivers are Electrostatic Sensitive Devices (ESD) and require special precautions during handling. To minimize the risk of damage caused by electrostatic charges, be sure to handle the patch antennas with care. In addition to standard ESD safety practices, the following measures should be observed when handling the receiver:

Unless there is a galvanic coupling between the local GND (on the work bench, or similar) and the PCB GND, the first point of contact when handling the PCB must always be between the local GND and PCB GND. Be sure to ground the module before mounting an antenna patch. When handling the RF pin, avoid any contact with charged capacitors. Also be careful when contacting materials that can develop charges, like the patch antenna (~10 pF), coaxial cable (~50-80 pF/m), soldering iron, and so on. To prevent electrostatic discharge through the RF input, do not touch any exposed antenna area. If there is any risk that the exposed antenna area might be touched in a non-ESD protected work area, be sure to implement proper ESD protection measures in the application design. When soldering RF connectors and patch antennas to the RF pin of the receiver, be sure to use an ESD safe soldering iron (tip). UBX-18017567 - R07 C1 - Public Product handling Page 33 of 46 JODY-W2 series - Data sheet 9 Labeling and ordering information 9.1 Product labeling The labels of JODY-W2 series include important product information as described in this section. The data matrix code for automotive and professional grade variants of JODY-W2 series includes a serial number. Figure 14 illustrates the sample label of the JODY-W2 series and includes: the u-blox logo, product name (model), type number, FCC and IC certification number and date of unit production encoded YY/WW (year/week). 2 3 5 1 4 6 1 2 3 4 5 6 Figure 14: JODY-W2 series sample label Detailed descriptions of the label components are shown in Table 31. Reference Description Text in bold font: MODEL: type number with the product version. Same as product name. Minor product version Date of production encoded YY/WW (year/week) FCC/ISED ID with which the module has been listed with Data Matrix with unique serial number comprising 19 alphanumeric symbols. The first 3 symbols represent the unique module type number. The following 12 symbols represent the unique hexadecimal Bluetooth MAC address of the module in the format AABBCCDDEEFF. The last 4 symbols represent the hardware and firmware version encoded HHFF. u-blox logo. The red dot above the logo represents the physical location of pin 1. Table 31: JODY-W2 series label descriptions UBX-18017567 - R07 C1 - Public Labeling and ordering information Page 34 of 46 JODY-W2 series - Data sheet 9.2 Explanation of codes Two different product code formats are used. The Product name is used to identify the module in all related documentation. An appropriate name is given for all u-blox products regardless of the packaging and quality grade. The Ordering code includes options and quality, while the Type Number includes the hardware and firmware versions. Table 32 describes these three different code formats. Table 33 describes the identification codes associated with each module variant. Format Product name Ordering code Type number Structure PPPP-TGVV PPPP-TGVV-TTQ PPPP-TGVV-TTQ-XX Table 32: Product code formats Platform T Dominant technology, For example, W: Wi-Fi, B: Bluetooth G - Generation Variant based on the same platform; range [0099]

Code Description PPPP Form factor TG VV TT Q Major Product Version Quality grade A: Automotive B: Professional C: Standard XX Minor product version (not relevant for certification) Table 33: Part identification codes 9.3 Ordering codes Ordering code Product name Product Example JODY W2 63 00 A 00 JODY-W263-00A JODY-W263-A JODY-W263-01A JODY-W263-A JODY-W263-00B JODY-W263 Table 34: Product ordering codes Automotive grade module based on NXP 88W8987(A) transceiver. Equipped with a single Wi-Fi antenna and one Bluetooth antenna, the module has an operational temperature of -40 0 C to +85 0C. Automotive grade module based on NXP 88W8987S transceiver. Equipped with a single Wi-Fi antenna and single Bluetooth antenna, the module has an operational temperature of -40 0C to +105 0C. Professional grade module based on NXP 88W8987(I) transceiver. Equipped with a single Wi-Fi antenna and single Bluetooth antenna, the module has an operational temperature of -40 0 C to +85 0C. Product changes affecting the form, fit or function of the module are documented by u-blox. For a list of Product Change Notifications (PCNs) visit www.u-blox.com. UBX-18017567 - R07 C1 - Public Labeling and ordering information Page 35 of 46 Appendix A.1.1 Scope A.1 Antenna reference design This appendix defines the essential specifications necessary to implement the JODY-W2 antenna reference designs as used in certification. It is part of the equipment certification application issued to FCC and ISED. The information contained herein and its references should be sufficient to guide a skilled person to implement the design on a host carrier. It will provide the designer with PCB layout details and expected performance specifications. This appendix supports a connector-based design for the use of external antennas (one for each antenna pin of the module). A.1.2 General description and requirements JODY-W2 series modules provide two RF interfaces for connecting external antennas. The antenna ports ANT0 and ANT1 have a nominal characteristic impedance of 50 and must be connected to the related antenna through a 50 transmission line to allow proper impedance matching along the RF path. A bad termination of the pin may result in poor performance or even damage the RF section of the module. For optimal performance in multiradio mode, the isolation between the antennas shall target the requirements as specified in Table 1 and Table 2 in order to ensure good performance. Requirements Remarks 50 nominal characteristic impedance The impedance of the antenna RF connection must match the 50 impedance of the antenna pins. Frequency range 2400 - 2500 MHz 5150 - 5850 MHz For 802.11b/g/n and Bluetooth. For 802.11a/n/ac. Item Impedance Return loss S11 < -10 dB (VSWR < 2:1) recommended S11 < -6 dB (VSWR < 3:1) acceptable The return loss or the S11, as the VSWR, refers to the amount of reflected power, measuring how well the primary antenna RF connection matches the 50 characteristic impedance of antenna pins. The impedance of the antenna termination must match as much as possible the 50 nominal impedance of antenna pins over the operating frequency range, to maximize the amount of power transferred to the antenna. The radiation efficiency is the ratio of the radiated power to the power delivered to antenna input: the efficiency is a measure of how well an antenna receives or transmits. The maximum antenna gain must not exceed the value specified in type approval documentation to comply with regulatory agencies radiation exposure limits. Efficiency

> -1.5 dB ( > 70% ) recommended

> -3.0 dB ( > 50% ) acceptable Maximum gain Table 35: Summary of antenna interface requirements UBX-18017567 - R07 C1 - Public Appendix Page 36 of 46 Item Requirements Remarks Isolation

(in-band) S21 > 25 dB recommended S21 > 20 dB acceptable Isolation

(out-of-band) S21 > 35 dB recommended S21 > 30 dB acceptable Envelope correlation Coefficient

(ECC) ECC < 0.1 recommended ECC < 0.5 acceptable The antenna to antenna isolation is the S21 parameter between the two antennas in the band of operation. Out-of-band isolation is evaluated in the band of the aggressor to ensure that the transmitting signal from the other radio is sufficiently attenuated by the receiving antenna to avoid saturation and intermodulation effect at the receivers port. The ECC parameter correlates the far field parameters between antennas in the same system. A low ECC parameter is fundamental to improve performance in MIMO-based systems. Table 36: Summary of MIMO and Wi-Fi/Bluetooth coexistence requirements. MIMO is not applicable for JODY-W2. A.1.3 Reference design of RF path JODY-W2 is certified with a set-up including JODY-W2 module board with its RF paths connected to the carrier board with RF coaxial cables. The antennas are connected to the carrier board through SMA connectors. Below are the relevant components listed. Module board including U.FL connectors with JODY-W2 mounted. Carrier board including U.FL connectors to interface the module board and SMA connectors Coaxial cables with U.FL connectors connecting the module boards RF traces to the carrier to connect antennas. boards RF traces. Antennas connected to the carrier boards SMA connectors. Figure 15. Definition of Module board and Carrier board UBX-18017567 - R07 C1 - Public Appendix Page 37 of 46 Figure 16. Test set-up. A.1.4 RF trace PCB routing The PCB routing connecting the modules antenna pins to module board U.FL connectors are designed with coplanar microstrips. Coplanar microstrips are also used on the carrier board connecting the U.FL connectors with the SMA connectors to which the external antennas or test equipment are connected. Figure 17 and Table 37 shows the design stack-up including dimensions of the 50 coplanar microstrips implemented. Regarding the coplanar microstrips the ground planes beside the signal trace are connected to the inner layer ground plane using vias. The vias are placed with a maximum distance of 0.5 mm to the coplanar ground edge and a maximum pitch of 2 mm. The top layer is coated with generic LPI solder stop mask. The SMA connectors on the carrier board are used for mounting antennas. For Bluetooth and Wi-Fi operation in the 2.4 GHz band and Wi-Fi operation in the 5 GHz band, the module has been tested and approved for use with antennas up to 2 dBi antenna gain. Figure 17: Coplanar micro-strip dimension specification Item S W T H

Value 200 m 700 m 35 m 800 m 4.3 Table 37: Coplanar micro-strip specification The mechanical dimensions of the module boards microstrips and position of the pi network impedance matching components are shown in Figure 18. Figure 20 shows the components used for the PI network impedance matching. Here only series 0 ohm resistors are used. The inner layers have the same dimensions and are filled with ground. No RF traces are routed in these layers. UBX-18017567 - R07 C1 - Public Appendix Page 38 of 46 The antenna ports shown in Figure 18 on the right hand side are from top to bottom: ANT1, ANT0, and ANT2. ANT2 is not used and shall be left unconnected. Figure 18. Module board Antenna micro strip implementation. Figure 19. Component selection for RF matching network on module board using 0 ohm series resistor. UBX-18017567 - R07 C1 - Public Appendix Page 39 of 46 The carrier board RF traces includes pi network matching components and are routed as coplanar microstrips. Here 10 pF capacitors in series are implemented. Figure 20. Carrier board Antenna micro strip implementation. Figure 21. Component selection for RF matching network on carrier board using 10 pF series capacitors. UBX-18017567 - R07 C1 - Public Appendix Page 40 of 46 A.1.5 Parts Part Description Outline Evaluation board (EVB) Evaluation board for JODY-W263 series modules. The board includes SMA antenna connectors that connect to external antennas for Wi-Fi and Bluetooth. It has two internal dual-band Wi-

Fi/Bluetooth antennas. External Antennas (2) Coax RF cable 415-0086050 1 x dual band Wi-Fi/Bluetooth antenna, Linx Technologies ANT-DB1-RAF-SMA Cinch connectivity solutions UBX-18017567 - R07 C1 - Public Appendix Page 41 of 46 Innovation, Science and Economic Development Canada B Glossary Abbreviation Definition AC CMD DC DDR ESD FCC FIFO GI GND GPIO HD HCI ISED ISM LE LTE LULA MAC MIMO MWS MSL NFC OEM P2P PCB PCI PCIe PCN PCM POR RED RF RSDB RSS RH RoHS SAR SCO Alternating Current Command Direct Current Double Data Rate Electrostatic Sensitive Devices Federal Communications Commission First In, First Out Guard interval Ground General-purpose input/output High Definition Host Controller Interface Industrial, scientific and medical Bluetooth Low Energy Long Term Evolution Limited Use License Agreement Medium Access Control Multiple Input Multiple Output Mobile Wireless Standards Moisture sensitivity level Near-Field Communication Original equipment manufacturer Peer-to-peer Printed Circuit Board Peripheral Component Interconnect PCI Express Product Change Notification Pulse-code modulation Power-on reset Radio Equipment Directive Radio Frequency Real Simultaneous Dual Band Radio Standards Specification Relative humidity Restriction of Hazardous Substances Specific Absorption Rate Synchronous Connection-Oriented P2P (GC) P2P Client P2P (GO) P2P Group Owner UBX-18017567 - R07 C1 - Public Appendix Page 42 of 46 SDIO SDR SISO SMD STA TBD USB UART VSDB WAPI WLAN Abbreviation Definition Secure Digital Input Output Single Data Rate Single-input single-output Surface-mount Device Station To be defined Universal Serial Bus Universal Asynchronous Receiver/Transmitter Virtual Simultaneous Dual Band WLAN Authentication and Privacy Infrastructure Wireless Local Area Network Table 38: Explanation of the abbreviations and terms used UBX-18017567 - R07 C1 - Public Appendix Page 43 of 46 Related documents

[1]

[2] JODY-W2 series, system integration manual, UBX-18068879

[3] Radio Equipment Directive (RED);

u-blox package information guide, UBX-14001652 https://ec.europa.eu/growth/sectors/electrical-engineering/red-directive; July 2017a

[4]

u-blox Limited Use License Agreement (LULA-M)

[5] Android integration, application note, UBX-19035432

[6] ANT-DB1-RAF-XXX Data sheet, Linx, https://linxtechnologies.com/wp/wp-

content/uploads/ant-db1-raf-fff.pdf

[7] GW.40.2153 Data sheet, Taoglas, https://fccid.io/pdf.php?id=2415249

[8] ANT-2.4-CW-RCT-XX Data Sheet, Linx, https://linxtechnologies.com/wp/wp-

content/uploads/ant-2.4-cw-rct-cc.pdf

[9] JODY-W2 Declaration of Conformity, UBX-20053576 For product change notifications and regular updates of u-blox documentation, register on our website, www.u-blox.com. UBX-18017567 - R07 C1 - Public Related documents Page 44 of 46 Revision history Revision Date Name Comments R01 20-Nov-2018 Initial release. shoe, mhei, kgom R02 09-Apr-2019 vbak Updated Error! Reference source not found. (Pin name BT_DEV_WAKE). Changed the power domain for SDIO lines (Table 15). R03 R04 25-Apr-2020 vbak, aheg 02-May-2019 kgom Changed product status for JODY-W263-01A-00 to Prototype. Corrected pin 59 description and Wi-Fi/Bluetooth output power (Table 22 and Error! Reference source not found.). Added current consumption values

(section ). Updated pin list. Updated the mechanical specifications (Figure 12). Updated the regulatory compliance section with the details about on-going certifications. Approvals are pending. A further update of this data sheet will be distributed once certification reports are available. R05 7-Dec-2020 lber, aheg R06 11-Dec-2020 mzes Corrected product name and chipset references in document information and section 1.4. R07 28-Jan-2021 vbak Corrected Wi-Fi simultaneous operation modes in section 1.4.2. UBX-18017567 - R07 C1 - Public Revision history Page 45 of 46 Contact Headquarters For complete contact information, visit us at www.u-blox.com. u-blox Offices North, Central and South America u-blox America, Inc. Phone: +1 703 483 3180 E-mail:

Regional Office West Coast:

Phone: +1 408 573 3640 E-mail:

Technical Support:

Phone: +1 703 483 3185 E-mail: support@u-blox.com Europe, Middle East, Africa u-blox AG Phone: +41 44 722 74 44 E-mail:

Support: support@u-blox.com info_us@u-blox.com info_us@u-blox.com info@u-blox.com Asia, Australia, Pacific info_ap@u-blox.com info_cn@u-blox.com info_cn@u-blox.com info_cn@u-blox.com info_anz@u-blox.com u-blox Singapore Pte. Ltd. Phone: +65 6734 3811 E-mail:

Support: support_ap@u-blox.com Regional Office Australia:

Phone: +61 2 8448 2016 E-mail:

Support: support_ap@u-blox.com Regional Office China (Beijing):

Phone: +86 10 68 133 545 E-mail:

Support: support_cn@u-blox.com Regional Office China (Chongqing):

Phone: +86 23 6815 1588 E-mail:

Support: support_cn@u-blox.com Regional Office China (Shanghai):

Phone: +86 21 6090 4832 E-mail:

Support: support_cn@u-blox.com Regional Office China (Shenzhen):

Phone: +86 755 8627 1083 E-mail:

Support: support_cn@u-blox.com Regional Office India:

Phone: +91 80 405 092 00 E-mail:

Support: support_in@u-blox.com Regional Office Japan (Osaka):

Phone: +81 6 6941 3660 E-mail:

Support: support_jp@u-blox.com Regional Office Japan (Tokyo):

Phone: +81 3 5775 3850 E-mail:

Support: support_jp@u-blox.com Regional Office Korea:

Phone: +82 2 542 0861 E-mail:

Support: support_kr@u-blox.com Regional Office Taiwan:

Phone: +886 2 2657 1090 E-mail:

Support: support_tw@u-blox.com info_tw@u-blox.com info_cn@u-blox.com info_kr@u-blox.com info_in@u-blox.com info_jp@u-blox.com info_jp@u-blox.com UBX-18017567 - R07 C1 - Public Contact Page 46 of 46

APPENDIX B FCC LABELS Radio Test Report Report No: 0712INT_CASGPSIVU_FCC15C FCC ID: XPYJODYW263 (WiFi module) File No: INT210709 Page 34 of 36 This document shall not be reproduced in any form except in full. Radio Test Report Report No: 0712INT_CASGPSIVU_FCC15C FCC ID: XPYJODYW263 (WiFi module) File No: INT210709 Page 35 of 36 Label is affixed to the underside of the respective model, which is visible to the professional installer during vehicle installation. This document shall not be reproduced in any form except in full.

JODY-W2 Label and location Topic Author Date To JODY-W2 Label and location UBX-20058689 Franck Campagna 15 December 2020 Certification application reviewer Copying, reproduction, modification or disclosure to third parties of this document or any part thereof is only permitted with the express written permission of u-blox. The information contained herein is provided as is and u-blox assumes no liability for its use. No warranty, either express or implied, is given, including but not limited, with respect to the accuracy, correctness, reliability and fitness for a particular purpose of the information. This document may be revised by u-blox at any time. For most recent documents, visit www.u-blox.com. Copyright u-blox AG. This document provides information on JODY-W2 series modules label contents and location on the module. It is part of the equipment certification application issued to FCC and ISED. 1 Scope 2 FCC/ISED ID reference JODY-W263-01A JODY-W263-00A JODY-W263-00B 3 Label 3.1 Label specification XPYJODYW263 8595A-JODYW263 Table 1: FCC and ISED IDs for different models of JODY-W2 series modules The labels of JODY-W2 series include important product information as described in this section. The data matrix code for automotive and professional grade variants of JODY-W2 series includes a serial number. Figure 1 illustrates the sample label of the JODY-W2 series and includes: the u-blox logo, product name (model), type number, FCC and ISED certification number and date of unit production encoded YY/WW (year/week). UBX-20058689 JODY-W2 Label and location 1/3 1 4 6 2 3 5 Figure 1: JODY-W2 series sample label A detailed description of the label components are listed in Table 2. Table 2: JODY-W2 series label description The model name, which is identical to the ordering code, used for product type approval is shown on the first line of the label. Table 3 provides the mapping of ordering code, label contents and FCC/ISED IDs. The marking xx in Reference 2 on the label is the minor product version and not relevant for certification. JODY-W263-01A JODY-W263-00A JODY-W263-00B JODY-W263-01A JODY-W263-00A JODY-W263-00B xx xx xx XPYJODYW263 8595A-JODYW263 Table 3: Mapping of ordering code, label marking and FCC/ISED IDs. 3.2 Product labels FCC ID: XPYJODYW263 IC: 8595A-JODYW263 UBX-20058689 JODY-W2 Label and location 2/3 Figure 2: JODY-W263-01A label Figure 3: JODY-W263-00A label Figure 4: JODY-W263-00B label 4 Label location The label is placed on top of the shield of the JODY-W2 series modules as shown below Figure 5: JODY-W2 series label location UBX-20058689 JODY-W2 Label and location 3/3

Subject: Agent Authorization FCC ID: XPYJODYW263 IC: 8595A-JODYW263 Model: JODY-W2 To whom it may concern:

Pursuant to FCC 2.1043 and RSP-100, Section 10.4, we request FCC Class II and ISED Canada Class IV Permissive change for the authorized equipment (indicated above) due to the following changes. Module is integrated into host device, CAS-GPS IVU, Model No. PROD0842-2 & PROD0847-2, manufactured by Industrea Mining Technology Pty Ltd (FRN No.: 0019935618) Thalwil, 20.08.2021 Module will use an external 2.4 GHz antenna with +3 dBi gain, not currently listed on approved antenna list. New 2.4 GHz antenna being used is OYH02020-NF, Syskim make. Sincerely yours, ____________________________ Filip Kruzela Certification Manager, u-blox AG filip.kruzela@u-blox.com u-blox AG Zrcherstrasse 68 8800 Thalwil Switzerland Phone +41 44 722 74 44 Fax +41 44 722 74 47 info@u-blox.com www.u-blox.com 1

Federal Communications Commission 7435 Oakland Mills Road Columbia MD 21046 c.c. UL Verification Services Certification Division 47173 Benicia Street Fremont, CA 94538, USA Subject: Authorization letter I, the undersigned, hereby authorize Colin Gan, Senior Engineer, of Austest Laboratories and hereafter referred to as Austest, to act on our behalf in all manners relating to application for equipment authorization, including signing of all documents relating to these matters. Any and all acts carried out by Colin Gan, Senior Engineer, of Austest Laboratories on our behalf shall have the same effect as acts of our own. I, the undersigned, hereby certify that we are not subject to a denial of federal benefits, that includes FCC benefits, pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C. 853(a). In authorizing Austest as our agent, we still recognize that we are responsible to:

a) comply with the relevant provisions of the certification program;

b) make all necessary arrangements for the conduct of the evaluation, including provision for examining documentation and access to all areas, records (including internal audit reports) and personnel for the purposes of evaluation (e.g. testing, inspection, assessment, surveillance, reassessment) and resolution of complaints;

c) make claims regarding certification only in respect of the scope for which certification has been granted;

d) do not use our product certification in such a manner as to bring the Certification Division into disrepute and not make any statement regarding our product certification which the Certification Division may consider misleading or unauthorized;

e) upon suspension or cancellation of certification, discontinue use of all advertising matter that contains any reference thereto and return any certification documents as required by the Certification Division;

f) use certification only to indicate the products are certified as being in conformity with specified standards;

Thalwil, 20.08.2021 u-blox AG Zrcherstrasse 68 8800 Thalwil Switzerland Phone +41 44 722 74 44 Fax +41 44 722 74 47 info@u-blox.com www.u-blox.com 1/

g) endeavor to ensure that no certificate or report nor any part thereof is used in a misleading manner;

h) ensure that any reference to our product certification in communication media such as documents, brochures or advertising, complies with the requirements of the Certification Division;

i) keep a record of all complaints made known to the us relating to the products compliance with requirements of the relevant standard and to make these records available to the Certification Division when requested;

take appropriate action with respect to such complaints and any deficiencies j) found in products or services that affect compliance with the requirements for certification;

k) document the actions taken. Agency Agreement Expiration Date: 12 months Sincerely yours, ____________________________ Filip Kruzela Certification Manager, u-blox AG filip.kruzela@u-blox.com www.u-blox.com 2/

Doc ID: UBX-16015789

@Pbiox ae Authorization Letter Date: 01/08/2019 Power of Attorney Issued by u-blox AG Zurcherstrasse 68 CH-8800 Thalwil / Switzerland Phone: +41 44722 7444 Fax: +41 447227447 info@u-blox.com Subject: Authorization letter for FCC/IC signatures To Whom It May Concern:

1am Giulio Comar, Certification Manager and responsible for FCC and IC applications within u-blox.

| hereby authorise the following u-blox employees to sign all application forms, documents and cover letters on my behalf:

Piero Laudicina Jake Bascon Olof Viklund Filip Kruzela Cam Nichols Sincerely, pk Italia S.p.A. is a wholly owned subsidiary of u-blox AG

v Author Giulio Comar Department: cert Page: 1/1 Filename FCC_IC_signature_Authorization_Letter.docx M102 Ret Copyright 2013 u-biox Italia S.p.A. All rights reserved Confidential

THIS MUST BE SIGNED BY THE APPLICANT/AGENT AND SHOULD BE PLACED ON APPROPRIATE LETTERHEAD Request for Modular/Limited Modular Approval Date: January 8, 2021 Subject: Manufacturers Declaration for - Modular Approval Confidentiality Request for: XPYJODYW263

- Limited Modular Approval - Limited Split Modular Approval

- Split Modular Approval 8 Basic Requirements FCC Part 15.212(a)(1) For Items Marked NO(*), the Limited Module Description Must be Filled Out on the Following Pages Modular Approval Requirement Requirement Met 1. The modular transmitter must have its own RF shielding. This is intended to ensure that the module does not have to rely upon the shielding provided by the device into which it is installed in order for all modular transmitter emissions to comply with FCC limits. It is also intended to prevent coupling between the RF circuitry of the module and any wires or circuits in the device into which the module is installed. Such coupling may result in non-compliant operation. The physical crystal and tuning capacitors may be located external to the shielded radio elements. 15.212(a)(1)(i) 2. The modular transmitter must have buffered modulation/data inputs (if such inputs are provided) to ensure that the module will comply with FCC requirements under conditions of excessive data rates or over-modulation. 15.212(a)(1)(ii) 3. The modular transmitter must have its own power supply regulation on the module. This is intended to ensure that the module will comply with FCC requirements regardless of the design of the power supplying circuitry in the device into which the module is installed. 15.212(a)(1)(iii) 4. The modular transmitter must comply with the antenna and transmission system requirements of 15.203, 15.204(b), 15.204(c), 15.212(a), and 2.929(b). The antenna must either be permanently attached or employ a unique antenna coupler (at all connections between the module and the antenna, including the cable). The professional installation provision of 15.203 is not applicable to modules but can apply to limited modular approvals under paragraph 15.212(b). 15.212(a)(1)(iv) 5. The modular transmitter must be tested in a stand-alone configuration, i.e., the module must not be inside another device during testing. This is intended to demonstrate that the module is capable of complying with Part 15 emission limits regardless of the device into which it is eventually installed. Unless the transmitter module will be battery powered, it must comply with the AC line conducted requirements found in Section 15.207. AC or DC power lines and data input/output lines connected to the module must not contain ferrites, unless they will be marketed with the module (see Section 15.27(a)). The length of these lines shall be length typical of actual use or, if that length is unknown, at least 10 centimeters to insure that there is no coupling between the case of the module and supporting equipment. Any accessories, peripherals, or support equipment connected to the module during testing shall be unmodified or commercially available (see Section 15.31(i)). 15.212(a)(1)(v)

- YES - NO(*)

- YES - NO(*)

- YES - NO(*)

- YES - NO(*)

- YES - NO(*) 053019-02a THIS MUST BE SIGNED BY THE APPLICANT/AGENT AND SHOULD BE PLACED ON APPROPRIATE LETTERHEAD Modular Approval Requirement 6. The modular transmitter must be labeled with its own FCC ID number, or use an electron display (see Requirement Met KDB Publication 784748). If using a permanently affixed label with its own FCC ID number, if the FCC ID is not visible when the module is installed inside another device, then the outside of the device into which the module is installed must also display a label referring to the enclosed module. This exterior label can use wording such as the following: Contains Transmitter Module FCC ID: XYZMODEL1 or Contains FCC ID:

XYZMODEL1. Any similar wording that expresses the same meaning may be used. The Grantee may either provide such a label, an example of which must be included in the application for equipment authorization, or, must provide adequate instructions along with the module which explain this requirement. In the latter case, a copy of these instructions must be included in the application for equipment authorization. If the modular transmitter uses an electronic display of the FCC identification number, the information must be readily accessible and visible on the modular transmitter or on the device in which it is installed. If the module is installed inside another device, then the outside of the device into which the module is installed must display a label referring to the enclosed module. This exterior label can use wording such as the following: Contains FCC certified transmitter module(s). Any similar wording that expresses the same meaning may be used. The user manual must include instructions on how to access the electronic display. A copy of these instructions must be included in the application for equipment authorization. 15.212(a)(1)(vi) 7. The modular transmitter must comply with all specific rule or operating requirements applicable to the transmitter, including all the conditions provided in the integration instructions by the grantee. A copy of these instructions must be included in the application for equipment authorization. For example, there are very strict operational and timing requirements that must be met before a transmitter is authorized for operation under Section 15.231. For instance, data transmission is prohibited, except for operation under Section 15.231(e), in which case there are separate field strength level and timing requirements. Compliance with these requirements must be assured. 15.212(a)(1)(vii) 8. The modular transmitter must comply with any applicable RF exposure requirements. For example, FCC Rules in Sections 2.1091, 2.1093 and specific Sections of Part 15, including 15.319(i), 15.407(f), 15.253(f) and 15.255(g), require that Unlicensed PCS, UNII and millimeter wave devices perform routine environmental evaluation for RF Exposure to demonstrate compliance. In addition, spread spectrum transmitters operating under Section 15.247 are required to address RF Exposure compliance in accordance with Section 15.247(b)(4). Modular transmitters approved under other Sections of Part 15, when necessary, may also need to address certain RF Exposure concerns, typically by providing specific installation and operating instructions for users, installers and other interested parties to ensure compliance. 15.212(a)(1)(viii)

- YES - NO(*)

- YES - NO(*)

- YES - NO(*) 053019-02a THIS MUST BE SIGNED BY THE APPLICANT/AGENT AND SHOULD BE PLACED ON APPROPRIATE LETTERHEAD Limited Module Description When Applicable

* If a module does NOT meet one or more of the above 8 requirements, the applicant may request Limited Modular Approval (LMA). This Limited Modular Approval (LMA) is applied with the understanding that the applicant will demonstrate and will retain control over the final installation of the device, such that compliance of the end product is always assured. The operating condition(s) for the LMA;

the module is only approved for use when installed in devices produced by grantee. A description regarding how control of the end product, into which the module will be installed, will be maintained by the applicant/manufacturer, such that full compliance of the end product is always ensured should be provided here. Software Considerations KDB 594280 / KDB 442812 (One of the following 2 items must be applied) Requirement 1. For non-Software Defined Radio transmitter modules where software is used to ensure compliance of the device, technical description must be provided about how such control is implemented to ensure prevention of third-party modification; see KDB Publication 594280. 2. For Software Defined Radio (SDR) devices, transmitter module applications must provide a software security description; see KDB Publication 442812. Requirement Met

- Provided in Separate Cover Letter

- N/A

- Provided in Separate Cover Letter

- N/A Split Modular Requirements Requirement Provided in Manual 1. For split modular transmitters, specific descriptions for secure communications between front-end and control sections, including authentication and restrictions on third-party modifications; also, instructions to third-party integrators on how control is maintained.

- Provided in Separate Cover Letter

- N/A 053019-02a THIS MUST BE SIGNED BY THE APPLICANT/AGENT AND SHOULD BE PLACED ON APPROPRIATE LETTERHEAD OEM Integration Manual Guidance KDB 996369 D03 Section 2 Clear and Specific Instructions Describing the Conditions, Limitations, and Procedures for third-parties to use and/or integrate the module into a host device. Requirement Is this module intended for sale to third parties?

- YES

- No, If No, and LMA applies, the applicant can optionally choose to not make the following detailed info public. However there still needs to be basic integration instructions for a users manual and the information below must still be included in the operational description. If the applicant wishes to keep this info confidential, this will require a separate statement cover letter explaining the module is not for sale to third parties and that integration instructions are internal confidential documents. Items required to be in the manual See KDB 996369 D03, Section 2 As of May 1, 2019, the FCC requires ALL the following information to be in the installation manual. Modular transmitter applicants should include information in their instructions for all these items indicating clearly when they are not applicable. For example information on trace antenna design could indicate Not Applicable. Also if a module is limited to only a grantees own products and not intended for sale to third parties, the user instructions may not need to be detailed and the following items can be placed in the operational description, but this should include a cover letter as cited above. 1. List of applicable FCC rules. KDB 996369 D03, Section 2.2 a. Only list rules related to the transmitter. 2. Summarize the specific operational use conditions. KDB 996369 D03, Section 2.3 a. Conditions such as limits on antennas, cable loss, reduction of power for point to point 3. Limited Module Procedures. KDB 996369 D03, Section 2.4 systems, professional installation info a. Describe alternative means that the grantee uses to verify the host meets the necessary limiting conditions b. When RF exposure evaluation is necessary, state how control will be maintained such that compliance is ensured, such as Class II for new hosts, etc. 4. Trace antenna designs. KDB 996369 D03, Section 2.5 a. Layout of trace design, parts list, antenna, connectors, isolation requirements, tests for design verification, and production test procedures for ensuring compliance. If confidential, the method used to keep confidential must be identified and information provided in the operational description. 5. RF exposure considerations. KDB 996369 D03, Section 2.6 a. Clearly and explicitly state conditions that allow host manufacturers to use the module. Two types of instructions are necessary: first to the host manufacturer to define conditions (mobile, portable xx cm from body) and second additional text needed to be provided to the end user in the host product manuals. 6. Antennas. KDB 996369 D03, Section 2.7 a. List of antennas included in the application and all applicable professional installer instructions when applicable. The antenna list shall also identify the antenna types

(monopole, PIFA, dipole, etc note that omni-directional is not considered a type) 7. Label and compliance information. KDB 996369 D03, Section 2.8 a. Advice to host integrators that they need to provide a physical or e-label stating Contains FCC ID: with their finished product 8. Information on test modes and additional testing requirements. KDB 996369 D03, Section 2.9 a. Test modes that should be taken into consideration by host integrators including clarifications necessary for stand-alone and simultaneous configurations. b. Provide information on how to configure test modes for evaluation 9. Additional testing, Part 15 Subpart B disclaimer. KDB 996369 D03, Section 2.10

- All Items shown to the left are provided in the Modular Integration Guide (or UM) for Full Modular Approval (MA) or LMA.

- An LMA applies and is approved ONLY for use by the grantee in their own products, and not intended for sale to 3rd parties as provided in a separate cover letter. Therefore the information shown to the left is found in the theory of operation. Sincerely, By:

053019-02a Project Manager

(Signature/Title1) Imad Hjije

(Print name) 1 - Must be signed by applicant contact given for applicant on the FCC site, or by the authorized agent if an appropriate authorized agent letter has been provided. Letters should be placed on appropriate letterhead.

Doc ID: UBX-15030249

@b I Ox Authorization Letter Rev.: 2.0 Date: 14/07/2016 Power of Attorney Issued by u-blox AG Zurcherstrasse 68 CH-8800 Thalwil / Switzerland Phone: +41 44722 74 44 Fax: +41 447227447 info@u-blox.com Subject: Authorization letter for FCC/IC signatures To Whom It May Concern:

1am Giulio Comar, Certification Manager and responsible for FCC and IC applications within u-blox.

| hereby authorise the following u-blox employees to sign all application forms, documents and cover letters on my behalf:

e Piero Laudicina e Jake Bascon Olof Viklund e Filip Kruzela Sincerely, Lule Bases Giulio 1, Certification Managet_ oe S.p.A.con socio unico Via Stazione di Prosecco, 15 34010 - Sgonico (Trieste) Italy u-bI alia S.p.A. is a wholly owned subsidiary of u-blox AG Author Giulio Comar Department: cert Page: 1/1 Filename FCC_IC_signature_Authorization_Letter.docx M102 Rev Copyright 2013 u-blox Italia S.p.A. All rights reserved Confidential