FCC ID: XGS-ST9100 Mobile Earth Station Modem

ST 9100 Hardware Guide T413, Version 1.0 Aug, 2020 ORBCOMM ST 9100 - HARDWARE GUIDE LEGAL NOTICE This documentation is owned by ORBCOMM and protected by applicable copyright laws and international treaty provisions. Other copyrighted names used are the property of their respective owners. Therefore, you must treat this documentation like any other copyrighted material. This publication, or any part thereof, may not be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, storage in an information retrieval system, or otherwise, without prior written permission by ORBCOMM, Inc. 395 W Passaic Street, Suite 325, Rochelle Park, NJ 07662 USA Phone 703-433-6325. The information in this document is for information purposes only and contains technical information and descriptions of the ORBCOMM product(s) and is subject to change without notice. No warranty or representation, express or implied, is made with respect to its contents. TRADEMARK NOTICE The ORBCOMM name and the ORBCOMM logo are registered trademarks of ORBCOMM. The Bluetooth word mark and logos are registered trademarks owned by the Bluetooth SIG, Inc. The u-blox name and logo are registered trademarks of u-blox Holding AG. INMARSAT, the Inmarsat logo and IsatData Pro are trademarks of Inmarsat used under license by SkyWave (an ORBCOMM company). Inmarsat is not responsible for the operation and regulatory compliance of the products and services referred to in this document that connect to the Inmarsat system. EXPORT CONTROL STATEMENT The contents of this document, in whole or in part, shall not be exported from the United States, which export shall include, but not be limited to, transmittal to any non-U.S. citizen wherever said person is located, except in accordance with all United States laws and regulations relating to exports and to all administrative acts of the U.S. Government pursuant to such laws and regulations. Diversion, re-export or transshipment of the contents of this document, in whole or in part, contrary to U.S. law is also strictly prohibited. T413, Version 0.04 BETA ORBCOMM Proprietary 2 ST 9100 - HARDWARE GUIDE CONTACT INFORMATION Visit ORBCOMM Online www.ORBCOMM.com Contact Customer Support support@skywave.com

+1.613.836.2222 Headquarters 395 W Passaic Street, Suite 325 Rochelle Park, NJ 07662 USA Tel: +1-703-433-6300 Fax: 1-703-433-6400 Email: sales@orbcomm.com T413, Version 0.04 BETA ORBCOMM Proprietary 3 ST 9100 - HARDWARE GUIDE TABLE OF CONTENTS Contact Customer Support Legal Notice Trademark Notice Export Control Statement Contact Information TABLE OF CONTENTS List of Figures List of Tables Preface Purpose Notation Reference Battery Safety Warnings 1 Product Overview 1.1 Overview of the Messaging System 1.2 Terminal 1.3 Transceiver Components 1.3.1 Transceiver Unit 1.3.2 Satellite Antenna 1.3.3 Cellular Antenna 1.3.4 Terminal Shroud 1.3.5 ST 9100 Cables and Connectors 2 Specifications 2.1 Temperature 2.1.1 Internal Backup Battery Temperature 2.2 Electrical 2.2.1 Input Range 2.2.2 Power Consumption 2.2.3 Load Dump Protection 2.2.4 Inrush Currents 2.2.5 Reverse Voltage Input 2.2.6 SIM Cards 2.3 Connectors 2.3.1 Connector Pin Assignment 2.4 I/O Interface 2.4.1 Standard General Purpose I/Os 2 2 2 3 3 4 7 7 8 8 8 8 8 10 11 12 12 13 14 14 15 15 16 16 16 16 16 16 17 17 17 17 18 18 19 19 T413, Version 0.04 BETA ORBCOMM Proprietary 4 2.4.1.1 Digital Input 2.4.1.2 Digital Output 2.4.1.3 Analog Input 2.4.2 Dedicated Outputs 2.4.3 Multi-purpose Ports 2.4.3.1 Input Only Ports 2.4.3.2 Analog Inputs (0-5 V) 2.4.3.3 Inputs 4-20 mA 2.5 Serial Interfaces 2.5.1 CAN Bus 2.5.2 RS-485/J1708 2.5.4 1-Wire 2.6 RF Specifications 2.5.3 RS-232 (Console and Auxiliary) 2.6.1 Satellite (Standard) Antenna 2.6.2 Satellite (Low Elevation) Antenna 2.6.3 Cellular Antenna 2.6.3.1 Cellular Antenna Electrical 2.7 Satellite Transmitting Power 2.8 GNSS Module 2.9 Internal Backup Battery 2.10 Memory 2.11 Environmental 2.12 Sensors 2.12.1 Temperature Sensor 2.12.2 Accelerometer 2.13 Cellular Module - LTE 2.14 Bluetooth Module 2.15 LED 2.16 Mechanical 2.16.1 ST 9100 2.16.2 Cellular Antenna 2.16.3 Satellite Antenna 2.16.3.1 Standard Antenna 2.16.3.2 Low Elevation Antenna 2.16.3.3 Terminal Shroud 2.13.1 Transceivers Operating in the Americas 2.13.2 Transceivers Operating Outside of the Americas ST 9100 - HARDWARE GUIDE 20 21 22 23 23 24 24 25 25 25 26 26 27 27 27 27 28 28 28 28 29 29 30 30 30 30 31 31 31 32 32 33 33 34 35 35 36 36 T413, Version 0.04 BETA ORBCOMM Proprietary 5 3 Compliance APPENDIXA Development Cable 38 39 ST 9100 - HARDWARE GUIDE T413, Version 0.04 BETA ORBCOMM Proprietary 6 LIST OF FIGURES Figure 1: ST 9100 Satellite-Cellular Transceiver Figure 2: System Architecture Figure 3: Connector Position Figure 4: SIM Access Door Figure 5: Reset Button Figure 6: Standard Satellite Antenna Figure 7: Low Elevation Satellite Antenna Figure 8: Cellular Antenna Figure 9: Terminal Shroud Figure 10: Transceiver View of Connector Figure 11: Digital Input Figure 12: Digital Output Figure 13: Analog Input Figure 14: Open Drain Outputs Figure 15: Dedicated Inputs Figure 16: LED Location Figure 22: Terminal Shroud Dimensions Figure 23: Development Cable LIST OF TABLES Table 2: Transceiver Input Currents Table 3: Electrical Pin Assignment Table 4: Multi-GNSS Specifications Table 5: Internal Backup Battery Table 6: LED Operation Table 7: Development Cable Connectors Figure 17: ST 9100 Top View Dimensions Figure 18: ST 9100 Side Connector View Dimensions Figure 19: Satellite Antenna (standard and low elevation) - Bottom View (mm) Figure 20: Standard Antenna Height Dimensions (mm) Figure 21: Low Elevation Antenna Height Dimensions (mm) Table 1: Transceiver with Internal Backup Battery Temperature Specifications ST 9100 - HARDWARE GUIDE 11 12 13 13 13 14 14 15 15 18 20 21 22 23 24 32 34 34 35 36 36 37 39 16 16 18 28 29 33 40 T413, Version 0.04 BETA ORBCOMM Proprietary 7 ST 9100 - HARDWARE GUIDE PREFACE Purpose Notation This document is as an overview of the hardware characteristics and specifications for the ST 9100. Note: This is a Beta Trial document. Information in this document is subject to change. A terminal consists of a transceiver unit plus antennas. Hardware components and hardware labels in this document might not be exactly as shown and are subject to change without notice. CAUTION: This safety symbol warns of possible hazards to personnel, equipment, or both. It includes hazards that will or can cause personal injury, property damage, or death if the hazard is not avoided. Note: A note indicates information with no potential hazard. A note indicates points of interest or provides supplementary information about a feature or task. Numbered lists indicate a series of steps required to complete a task or function. Bulleted lists highlight information where order or sequence is not crucial. Reference The content of the following documents might be useful in conjunction with this guide. These documents are available from Customer Support or from the ORBCOMM Developer Toolkit. Document titles and numbers are subject to change without notice.

[N210]

[N206]

[T404]

[T405]

[T414]

IsatData Pro Gateway Web Service 2 User Guide MTWSCellular Protocol LSF Developer Guide FW v4.x IsatData Pro Service API Ref FW v4.x ST 9100 Installation Guide Battery Safety Warnings CAUTION: Do not short circuit or expose the battery to temperatures above the maximum rated temperature. CAUTION: Always follow local disposal guidelines to properly dispose of the Lithium-ion battery and the CAUTION: Store in a cool, well ventilated area. Elevated temperatures can result in shortened battery life. CAUTION: DO NOT replace the battery. Changing the battery without ORBCOMMs permission could violate device. regulatory conformity. T413, Version 0.04 BETA ORBCOMM Proprietary 8 CAUTION: DO NOT throw the internal battery or the device into fire. ST 9100 - HARDWARE GUIDE T413, Version 0.04 BETA ORBCOMM Proprietary 9 ST 9100 - HARDWARE GUIDE 1 PRODUCT OVERVIEW The ST 9100 is a flexible, robust, and programmable dual mode satellite-cellular terminal. It is ideal for remotely monitoring and controlling fixed and portable assets in industries as diverse as transportation, oil and gas, utilities, maritime and more. The versatile, environmentally sealed ST 9100 is ideal for rugged environments in the worlds most remote areas. The ST 9100 (Figure 1) is a satellite-cellular terminal. Features include the following:

l An IsatData Pro satellite-cellular transceiver for communicating with the network l Part number ST9100-D01 for use in the Americas l Part number ST9100-C01 for use outside of the Americas l An integral multi-GNSS subsystem l Four (4) general purpose I/Os l Two (2) dedicated outputs l Four (4) digital inputs l Four (4) 0-5 V analog ports l Two (2) 4-20 mA ports l Two RS-232 ports l RS-485 port l Two (2) CAN Bus ports l 1-Wire interface l 3-Axis accelerometer l Bluetooth connectivity l Multiple SIM support l Cellular module l Internal backup battery l Satellite antenna (p/n ST901065-AFA standard antenna, ST901066-AFA low elevation antenna) l Cellular antenna - LTE/3G/2G fallback (p/n ST101066-001) l Terminal shroud (optional- p/n ST101014-001) T413, Version 0.04 BETA ORBCOMM Proprietary 10 ST 9100 - HARDWARE GUIDE Figure 1: ST 9100 Satellite-Cellular Transceiver The transceivers built-in programmability allows it to work as a standalone data-messaging transceiver, with built-in I/O data collection and processing capabilities. Feature-rich software tools make programming easy and shorten the design and testing time. The transceiver can also be configured with terminal apps. Terminal apps are configurable device-level applications that include specific feature sets that are implemented by ORBCOMM. Contact Customer Support or your Account Manager for further details. 1.1 Overview of the Messaging System The IsatData Pro satellite messaging system is designed to support the management of mobile or fixed assets located around the world. An asset fitted with one of ORBCOMM's satellite based mobile terminals can have their status and locations monitored and send large messages. The network provides the following key features and benefits:

l Polling of terminal status and location l Scheduled reporting of terminal status and location l Transmission of text messages to and from a serial port on the transceiver l Two-way communication for messaging to and from the asset for near real-time control l Up to 6,399 bytes from-mobile messages l Up to 10,000 bytes to-mobile messages l Default acknowledged messages l Global service Service is provided to end users by Solution Providers (SPs) who use the IsatData Pro network to offer particular applications and/or services to their clients. The SPs link their application services to the satellite terminals by connecting to the IsatData Pro gateway. This acts as the communications hub of the system, routing traffic to and from the terminals and the various service providers. The terminal can be configured to route cellular messages through the same IsatData Pro Gateway that supplies satellite messages. This is shown as Option 1 in the System Diagram. Option 2 represents a terminal configured to route cellular messages directly to a customer or Solution Provider proprietary cell server. In this case the connection to ORBCOMMs IsatData Pro Gateway supplies satellite messages. Refer to [T404, N206, and N210] for more information about configuring the terminals cellular messaging transport. T413, Version 0.04 BETA ORBCOMM Proprietary 11 ST 9100 - HARDWARE GUIDE Figure 2: System Architecture The satellite-cellular terminal is based on Lua software and is supported by a suite of IsatData Pro tools, enabling SPs a programmable platform they can tailor to their specific applications. 1.2 Terminal unit plus antennas. Note: Hardware components may not be exactly as shown in this document. A terminal consists of a transceiver Transceivers with a standard antenna operate on the IsatData Pro network at an elevation angle of 20 to 90 and -5 to 90 for transceivers with low elevation antennas. The transceivers are self-contained, compact, and provide low power consumption. A cellular module is available to operate over the cellular network The transceiver's built-in programmability allows it to work as a stand-alone with built-in I/O data collection and processing capabilities. Terminals are suitable for the AVL market. Feature-rich software tools make application design easy and shorten the design and testing time. ORBCOMM also provides consulting services to SPs to help program the transceiver and get customer applications running quickly. 1.3 Transceiver Components CAUTION: Do not rely solely on the terminal for emergency (SOS) calls. In addition to the features mentioned earlier, the transceiver has the following benefits:

l Designed to be used as a standalone or incorporated into an SPsolution l Built-in dual-GNSSreceiver to calculate position, speed, and heading l Quick and easy installation reduces labor time and costs l Installed firmware l Flexible custom application design (Lua Services Framework) l Wide operational temperature range l Satellite plus cellular modem integration l Discrete I/O ports to interface with a wide range of after-market accessories l Rugged construction T413, Version 0.04 BETA ORBCOMM Proprietary 12 ST 9100 - HARDWARE GUIDE 1.3.1 Transceiver Unit Each transceiver is a self-contained unit, including a satellite/cellular modem, a multi-GNSS module, programmable microcontroller, and multiple discrete and analog I/Os (input/output) capable of monitoring and controlling external sensors and devices. Ideal for mobile applications, it is also suitable for fixed installations. Arranging the transceiver units connectors (Figure 3) at one end of the unit simplifies installation. Sturdy flanges on the side make mounting quick and easy. Figure 3: Connector Position An anti-tamper SIM door on the back side of the transceiver (Figure 4) provides easy access to the SIM card holder and reset button. Figure 4: SIM Access Door Figure 5: Reset Button T413, Version 0.04 BETA ORBCOMM Proprietary 13 ST 9100 - HARDWARE GUIDE 1.3.2 Satellite Antenna The satellite-cellular tranceiverss satellite antenna is waterproof and designed to operate in extreme environments. It has four mounting flanges for installation. The satellite antenna connects to the transceiver using a 5 m (16 foot) cable terminated with a curry yellow colored FAKRA RF connector. The satellite-cellular transceiver is available with either the standard satellite antenna (Figure 6) or the low elevation satellite antenna (Figure 7). Figure 6: Standard Satellite Antenna Figure 7: Low Elevation Satellite Antenna 1.3.3 Cellular Antenna The ST 9100 cellular antenna is an LTE antenna with a burgundy colored FAKRA connector. T413, Version 0.04 BETA ORBCOMM Proprietary 14 ST 9100 - HARDWARE GUIDE Figure 8: Cellular Antenna 1.3.4 Terminal Shroud Use the optional terminal shroud if mounting the transceiver outdoors. Figure 9: Terminal Shroud 1.3.5 ST 9100 Cables and Connectors The following are available for the ST 9100:

l A 5-meter blunt cut cable (p/n ST101062-002). Refer to [T414] for details. l An IP67 Field Installable Connector (p/n ST101096). Refer to [T414] for details. l A development cable (p/n ST101084-001). Refer to APPENDIXA for details. CAUTION: An external 5 A slow blow fuse must be added in series with the external voltage wire (Table 3). T413, Version 0.04 BETA ORBCOMM Proprietary 15 ST 9100 - HARDWARE GUIDE 2 SPECIFICATIONS 2.1 Temperature Parameter Value Operating Temperature Range

-20 to +75C (-4F to +167F) Storage Temperature Range

-20 to +60C (-4F to +140F) 2.1.1 Internal Backup Battery Temperature Table 1 defines the internal backup battery's temperature specifications. Table 1: Transceiver with Internal Backup Battery Temperature Specifications Parameter Value Charge Temperature Range 0C to +45C (32F to +113F) Discharge Temperature Range

-20C to +75C (-4F to +167F) Storage Range 1 month 3 months 1 year Ideal for long-term storage

-20C to +45C (-4F to +113F)

-20C to +35C (-4F to +95F) 0C to +30C (32F to +86F) 10C to +25C (6025% R.H.), (50F to +77F) CAUTION: An external 5 A slow blow fuse must be added in series with the external voltage wire (Table 3). 2.2 Electrical 2.2.1 Input Range Parameter Power Supply Voltage Value 9 to 32 V DC 2.2.2 Power Consumption Typical values with a transceiver input voltage of 12 VDC. Mode of Operation Condition Sleep Externally powered Charger ON SatCom Tx Burst current Table 2: Transceiver Input Currents 25C

(77F)

-40C

(-40F) 85C

(185F) Unit 212 297 203 N/A 500.98 A N/A mA 733.87 720.77 728.13 mA T413, Version 0.04 BETA ORBCOMM Proprietary 16 ST 9100 - HARDWARE GUIDE Burst current for Rx frequency. 1540045000 1000 2 (C/No=42dBHz) 76.70 25.77 80.13 mA Condition Mode of Operation SatCom Rx TOBY Rx

(Idle) GPS Cold fix current during uBlox on command measure Rx level in 129 channels for 1000 ms intervals measure Rx level in LTE FDD5 for 1000 ms measure Rx level in LTE FDD 12 for 1000 ms TOBY Tx max 2G-850 TX in channel=189, PCL=0 (max power), Seq=5, Mod=1(GMSK), Interval=5000 ms 2G-900 TX in channel=37, PCL=0 (max power), Seq=5, Mod=1(GMSK), Interval=5000 ms 2G-1900 TX in channel=698, PCL=0 (max power), Seq=5, Mod=1(GMSK), Interval=5000 ms 25C

(77F)

-40C

(-40F) 85C

(185F) Unit 32.60 38.37 36.59 mA 91.52 101.36 102.3 mA 88.97 92.31 104 mA 89.17 91.10 156.92 mA 403.99 375.03 473.8 mA 777.52 614.95 900 mA 504.42 510.73 525.17 mA 4G FDD band 5, 850MHz, TX in channel=120525, power=24 dBm, Internal=5000 ms 224.88 202.20 236.68 mA 4G FDD band 2, 1900MHz, TX in channel=118900, power=24 dBm, Internal=5000 ms 270.94 288.16 282.63 mA 2.2.3 Load Dump Protection Active load dump protection is provided on the power pins. The cut-off is >34 V and automatic reset of the load dump occurs when the input voltage is <34 V. 2.2.4 Inrush Currents Typical inrush currents: 12 volts and 25C (77F). Quantity Peak in-rush current In-rush pulse duration Value 4.12 A 138 S 2.2.5 Reverse Voltage Input Parameter Voltage Reverse Polarity Protection

-40 V DC (maximum) 2.2.6 SIM Cards The transceiver offers two embedded (not field replaceable) and one removable SIM card. The specifications for the SIM cards are the same. Parameter SIM Voltage Card Detection Value 1.8 V or 3 V standard SIM cards Switch connected to cellular module T413, Version 0.04 BETA ORBCOMM Proprietary 17 ST 9100 - HARDWARE GUIDE 2.3 Connectors Satellite Antenna Cellular Antenna Transceiver 24 position mating connector Chogori Technology Company IMS Connector Systems 3400.SMBA.2K10.089 (RG58/LMR-195 sized cable) FAKRA - K-curry yellow IMS Connector Systems 3400.SMBA.2D10.029 9RG174 sized cable) FAKRA - D-bordeaux 2.3.1 Connector Pin Assignment Table 3 maps to the layout shown in Figure 10. Figure 10: Transceiver View of Connector I/O Half duplex RS485 driver output or receiver input (complementary to RS485_B) Table 3: Electrical Pin Assignment Note: CAN0 is available for BETA trials. PIN Function RS485_A Type Description Digital_IN4 / 0-5 V_IN4 Digital input or 0-5 V Digital_IN3 / 0-5 V_IN3 Digital input or 0-5 V I I I/O 1 2 3 4 5 6 7 I/O_4 I/O_2 Ground External Voltage PWR External 9-32 VDC supply Multifunction GPIO, push-pull, analog input, current limited current sink and ignition load I/O Multifunction GPIO, push-pull, analog input and current sink PWR External supply ground return T413, Version 0.04 BETA ORBCOMM Proprietary 18 ST 9100 - HARDWARE GUIDE PIN Function Type Description Output_6 1Wire Com Open drain output PWR 1-WIRE return path Console_RS232_TX 15 kV ESD protected, RS-232 level (nominally 5.5 V) transmitter outputs AUX_RS232_RX TTL/CMOS level receiver outputs O O I I/O I/O I/O I/O I I/O I/O O I/O I O I/O I 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 CAN1_H CAN1_L CAN0_L RS485_B Digital/Analog_IN1 /

0-5 V_IN1 /

P1_4-20 mA+

I/O_3 I/O_1 Output_5 1Wire_DATA AUX_RS232_TX CAN0_H Digital/Analog_IN2 /

0-5 V_IN2 /

P2_4-20 mA+

2.4 I/O Interface High level CAN BUS line Low level CAN BUS line Low level CAN BUS line Half duplex RS485 driver output or receiver input (complementary to RS485_A) Digital input or 0-5 V analog input or 4-20 mA Multifunction GPIO, push-pull, analog input and current sink Multifunction GPIO, push-pull, analog input and current sink Open drain output Input/output driver for 1-Wire Line 15 kV ESD protected, RS-232 level (nominally 5.5 V) transmitter outputs High level CAN BUS line Digital input or 0-5 V analog input or 4-20 mA Console_RS232_RX TTL/CMOS level receiver outputs 2.4.1 Standard General Purpose I/Os The transceiver supports four configurable general purpose I/Os (GPIO I/O_1 to I/O_4):

l Digital input with weak (1 M) pull-down l Digital input with 20-50 K pull-down l Digital input with 20-50 K pull-up l Analog input l Digital output push-pull l Digital output open drain switch-to-ground l Disabled On certain vehicles, I/O_1 can be used to monitor ignition. The voltage on the I/O pin may not drop low enough to present a logic zero to the host processor when the ignition is turned off. In such a case I/O_1 can be configured to switch in a 4 kOhm load to draw the voltage below the logic zero threshold level of the host processor ensuring a logic zero. The other I/O ports should not be used for ignition monitoring. Refer to section 2.4.1.1 I/O_4 provides dedicated overcurrent/short circuit protection circuitry when operated in the open drain, switch-to-

ground mode. The other I/Os do not have this circuitry therefore I/O_4 is recommended for applications requiring overcurrent/short circuit protection. T413, Version 0.04 BETA ORBCOMM Proprietary 19 ST 9100 - HARDWARE GUIDE Simplified block diagrams of the I/O when configured as digital inputs, digital outputs, and analog inputs are shown in the figures below (Figure 11, Figure 12, and Figure 13). The transceiver also supports two dedicated outputs (Output_5 and Output_6). More information on these outputs can be found in section 2.3.1. 2.4.1.1 Digital Input Figure 11 shows a schematic of the I/O when configured as a digital input. Figure 11: Digital Input The input specifications are provided in the table below. Input Type With weak pull-down With pull-down With pull-up Parameter Input low range Input high range Input current with weak pull-down

(weak 1 M pull-down still in place);

Vin = 3.0 V S1 Open Open Closed S2 Open Closed Open Min.

-10 1.95

Typical Max.

4.5 1.05 150

Units V V A T413, Version 0.04 BETA ORBCOMM Proprietary 20 ST 9100 - HARDWARE GUIDE Parameter Min. Typical Max.

1 75 81

Units A A kHz Input source current with pull-up

(Vin = 0.0 V) Input sink current with pull-down

(Vin = 3 to 150 V) Input bandwidth 2.4.1.2 Digital Output Figure 12 shows a schematic of the I/O when configured as a digital output. Figure 12: Digital Output Push-pull S1 = Open Open drain S1 = Closed (Low Impedance) S1 = Open (High Impedance) In the push-pull configuration the output is driven directly from the microprocessor. 2.4.1.2.1 Push-pull Parameter Output high voltage - open circuit Output high voltage (sourcing 25 A) Output low voltage (sinking 25 A) Output bandwidth Min. 2.65 2.50

100 Typical 3.0

Max. 3.15 0.05

Units V V V Hz T413, Version 0.04 BETA ORBCOMM Proprietary 21 ST 9100 - HARDWARE GUIDE 2.4.1.2.2 Switch to Ground Parameter Min. Typical Sink current (do not exceed) Output voltage (sinking 250 mA) I/O_1 to I/O_3 I/O_4 Absolute limits (high impedance) Output bandwidth 2.4.1.3 Analog Input

-10 100 1.15 1.40

Max. 250 1.35 1.60 150

Units mA V V V Hz Figure 13 shows a schematic of the I/O when configured as an analog input. Figure 13: Analog Input Parameter Input impedance Minimum measurement voltage Maximum measurement voltage Normal input range Resolution (12 bits) Proportional measurement error INL error Absolute limits Min. Typical Max. 2.75

1 0 3.0 0.7

-10 150

3 3 2 Units M V V V mV

LSB V T413, Version 0.04 BETA ORBCOMM Proprietary 22 ST 9100 - HARDWARE GUIDE 2.4.2 Dedicated Outputs The transceiver provides two open drain outputs (output_5 and output_6) that can be used to turn on various devices such as relays, lights or audible alarms. These outputs are capable of sinking current only. Both outputs are controlled from the host processor. The outputs are not protected against over current conditions and you must ensure that the maximum current capability of the internal switch is not exceeded. Both outputs include ESD protection. You must also ensure that the voltage applied to the output pin does not exceed the maximum value as shown in the table below. Figure 14: Open Drain Outputs Parameter Sink Current Applied Voltage Internal switch power dissipation Voltage output (sink current = 250 mA) 2.4.3 Multi-purpose Ports Max. 250 40 691 2.76

(minimum 48 mV) Units mA mW V V In addition to the standard I/Os, the transceiver provides the following multi-function ports. Four pins on the interface connector are independently configured to provide the following combinations:

l Four (4) digital input only ports. l Four (4) 0-5 V analog input only ports. l Two (2) 4-20 mA inputs. l Four (4) digital inputs or, l Four (4) 0-5 V analog inputs or, l Two (2) 4-20 mA inputs or, l Two (2) digital inputs and two 0-5 V analog inputs or, T413, Version 0.04 BETA ORBCOMM Proprietary 23 ST 9100 - HARDWARE GUIDE l Two (2) digital inputs and one 4-20 mA input or, l Two (2) 0-5 V analog inputs and one 4-20mA input. 2.4.3.1 Input Only Ports Four ports (PINs 2, 3, 16, and 24) can be configured as dedicated inputs. Each input is ESD protected by a 36 V transient voltage suppressor that clamps the input transient at 58 V. A 15 V Zener ensures the FET maximum gate voltage of 20 V is not exceeded. Figure 15: Dedicated Inputs Typical Input high voltage (Zener starts conducting at 14.49 V) Parameter Digital Input Maximum input high voltage Input low voltage Input frequency ESD TVS breakdown voltage TVS clamp voltage Parameter Analog Input Input voltage range Min. Max. Processor Units 1.6

0 1 40

14 32 1.4 10 44.2 58.1 3.3 0 0

Hz V V V V V Min. Max. Units 0 5 V 2.4.3.2 Analog Inputs (0-5 V) Four ports (PINs 2, 3, 16, and 24) can be configured as dedicated 0-5 V analog inputs. 0-5 V applied to the ports is converted to 0-3.3 V to be compatible with the ADC voltage range of the host processor. T413, Version 0.04 BETA ORBCOMM Proprietary 24 The ST9100 can monitor two 4-20 mA sensors. Two ports (PINs 16 and 24) can be configured as two dedicated 4-20 mA receivers. ST 9100 - HARDWARE GUIDE Min.

40 Max. 32 44.2 58.1 Units V V V Min. Max. Units 4 0.396 1.98 99 10

40 20 0.404 2.02 101 32 32 44.2 58.1 mA V V V

V V Parameter ESD Maximum input high voltage TVS breakdown voltage TVS clamp voltage 2.4.3.3 Inputs 4-20 mA Parameter Current Loop Operating current range Load voltage at 4 mA Load voltage at 20 mA Load resistance Maximum input high voltage ESD TVS breakdown voltage TVS clamp voltage Loop voltage (supplied by users externally) 2.5 Serial Interfaces Transceivers have the following interfaces:

l 2 x CAN Bus l 1 x RS-485/J1708 l 2 x RS-232 l 1 x 1-Wire 2.5.1 CAN Bus Note: CAN0 is available for BETA trials. The transceiver provides two CAN Bus interfaces for sending and receiving frames. The transceiver incorporates a controller area network interface with signaling rates up to 1 Mbps. Note: You must provide a termination resistor externally to the transceiver. Parameter Input Common Mode Voltage Differential Input Threshold Peak to Peak Output Common Mode Voltage Min. Typical Max. Units

-7

-6

1 12 6

V V V T413, Version 0.04 BETA ORBCOMM Proprietary 25 W ST 9100 - HARDWARE GUIDE Parameter Min. Typical Max. Units Differential Output Voltage (dominant) Differential Output Voltage (recessive) No Load CANH or CANL Human Body Model1 Contact Discharge Model 2.5.2 RS-485/J1708 ESD Protection 1.2

-0.5

-36

16 30 3 0.05 36

V V V kV kV The transceiver provides a half-duplex RS-485 or J1708 interface as an accessory bus and for SCADA interfacing with signaling rates up to 250 kbps. Note: You must provide a termination resistor externally to the transceiver when required. The electrical characteristics of the interface are:

Parameter Input Common Mode Voltage Differential Input Threshold Output Common Mode Voltage Differential Drive Output, 54 load Human Body Model Contact Discharge Model Min.

-8

-200 1.5

Typical

1.8 2.3 16 30 ESD Protection 2.5.3 RS-232 (Console and Auxiliary) The two RS-232 interfaces default to the following settings: 9600 bit/s, 1 start, 8 data, 1 stop bit, and no parity. The baud rate is configurable up to 115,200 bps. The electrical characteristics of the interface are:

Min. Typical Units Max. 12.5 200 3

Units mV V V V kV kV Max.

-2.7 0.3 2.4 25

-3.7

V V V V V V V V

2.7

-0.3 0.6

-25 3.7 Parameter Rx Input Low Threshold for DTE Connected Rx Input High Threshold for DTE Connected Rx Threshold for DTE Disconnected Serial Rx Input Low Threshold Serial Rx Input High Threshold Rx Input Voltage Range Serial Tx Low Output (3 k load) Serial Tx High Output (3 k load) 1All electrical interfaces operate normally after being subjected to 8 kV ESD contact discharge per IEC 60945 and IEC 61000-4-2 human body model, level 3. T413, Version 0.04 BETA ORBCOMM Proprietary 26 ST 9100 - HARDWARE GUIDE Parameter Min. Typical Max. Units ESD Protection

15 8

kV kV Human Body Model Contact Discharge Model 2.5.4 1-Wire The 1-Wire interface allows connection to downstream 1-Wire devices connected on a bus, or to a single button reader. Relative to any attached 1-Wire device, the transceiver behaves as the master. The 1-Wire driver supports 3 or 5 V devices on the bus. At standard speed, the 1-Wire supports up to 39 devices over a 61-meter (200 feet) CAT5 cable. In overdrive, the usable expected distance is reduced to 15 meters ( 50 feet) with a maximum node count of 9. 1-Wire Output Low Voltage (IOL - 8 mA sink current) 1-Wire ESD Protection Diode and Resistors Min. 3

7.4 5.5 11 Typical Max. Units

10 11.05

1 0.2 11

80 V V V V V V mA mA The electrical characteristics of the interface are:

Parameter 1-Wire Input High Voltage 1-Wire Input Low Voltage Avalanche Voltage Trigger Voltage Holding Voltage (IOL - 8 mA sink current) Holding Current Continuous Diode Current 2.6 RF Specifications 2.6.1 Satellite (Standard) Antenna Parameter Maximum EIRP Elevation Angle Maximum transmit antenna gain Rx Operating Frequency Tx Operating Frequency Parameter Maximum EIRP Elevation Angle Maximum transmit antenna gain 2.6.2 Satellite (Low Elevation) Antenna 1626.5-1660.5 MHz, 1668-1675 MHz Value 7 dBW 20 to 90 degrees 4.5 dBic 1518-1559 MHz Value 5 dBW

-5 to 90 degrees 2.5 dBic 27 T413, Version 0.04 BETA ORBCOMM Proprietary ST 9100 - HARDWARE GUIDE Value 1518-1559 MHz 1626.5-1660.5 MHz, 1668-1675 MHz Parameter Rx Operating Frequency Tx Operating Frequency 2.6.3 Cellular Antenna Parameter Value Frequency Impedance VSWR Gain 50 W 2.0:1 2.5 dB Maximum EIRP 700-2700 MHz Network Coverage Global: Cat 4 LTE (B1, B3, B5, B7, B8, B28), UMTS (850, 900, 1900, 2100), Quad-band GSM Americas: Cat 1 LTE (B2, B4, B5, B12), UMTS (850, 900, 1900, 2100), Quad-band GSM 700/824/960/1710/1880/2170/2600/2700 MHz 2.6.3.1 Cellular Antenna Electrical Frequency (MHz) Return Loss (dB) VSWR Efficiency (%) GAIN (dB) 700 824 960 1710 1880 2170 2600 2700

-10.62

-22.27

-14.25

-19.03

-21.14

-10.93

-22.79

-26.19 1.85 1.16 1.48 1.25 1.21 1.78 1.16 1.10 46.03 36.48 56.75 44.98 66.68 34.04 49.32 60.12 1.45 0.6 1.25 2.18 4.74 1.06 3.89 4.45 2.7 Satellite Transmitting Power The maximum transmitting power (EIRP) for the IsatData Pro satellite is 7 dBW. 2.8 GNSS Module The transceiver allows concurrent reception of up to three (3) GNSS channels. The manufacturer's specifications are given in the table below. Table 4: Multi-GNSS Specifications GLONASS BeiDou Galileo Parameter Time to First Fix GPS 29 s 2s Cold Start Warn Start 30 s 2 s 34 s 3 s 45 s 7 s T413, Version 0.04 BETA ORBCOMM Proprietary 28 ST 9100 - HARDWARE GUIDE Parameter Sensitivity Accuracy Hot Start GPS 1 s Tracking

-162 dBm Hot Start

-157 dBm Cold Start

-148 dBm GLONASS 1 s

-166 dBm

-156 dBm

-145 dBm BeiDou 1 s

-160 dBm

-155 dBm

-143 dBm Galileo 1 s

-159 dBm

-151 dBm

-138 dBm Horizontal Position 2.5 m 4.0 m 3.0 m TBD Velocity Heading 0.05 m/s 0.3 degrees 2.9 Internal Backup Battery The internal backup battery provides autonomous battery charging to the transceiver and operates directly from the external supply over the 9-32 VDC input range. The internal backup battery contains a protection card to ensure that the pack does not get damaged due to a short circuit, over discharge or an over-charge condition. If the battery voltage is below the minimum set voltage, the charger turns off. Charge (capacity) Retention 90% (after 28 days at 25 5C (77 9F) Refer to section 1.0.1 for internal backup battery temperature ranges. Parameter Battery Chemistry Back-up Period Rated Capacity Battery Cut-off Nominal Pack Voltage Minimum Discharge Voltage Charging Voltage Peak Output Current 2.10 Memory Parameter PSRAM Flash Table 5: Internal Backup Battery Value Lithium Ion 48 hours 2000 mAh 7 V 5 V 8.4 V 6 A 7.2 V (2 x cells in series) Value 8 MB 16 MB 29 T413, Version 0.04 BETA ORBCOMM Proprietary ST 9100 - HARDWARE GUIDE 2.11 Environmental Description Parameter Vibration Mechanical Shock Thermal Shock Drop Test ESD (Enclosure) Altitude Humidity The terminal meets all its specifications during exposure to random vehicular vibration levels per SAE J1455, section 4.10.4.2 figures 6, 7, and 8, and MIL-STD-810H, section 514.8, figure 514.8C-1. The terminal meets all its specifications after exposure to positive and negative saw tooth shock pulses with peaks of 20 G and durations of 11 ms as specified in MIL-STD-810H, section 516.8, Procedure I, section 2.3.2c. The terminal meets all of its specifications after a thermal shock test as detailed in SAE J1455, section 4.1.3.2 The terminal meets all its specifications after a handling drop test as specified in SAE J1455, section 4.11.3.1. All electrical interfaces operate normally after being subjected to 6 kV ESD contact discharge per IEC 60945 and IEC 61000-4-2 human body model, level 3. The terminal meets all specifications after a nonoperating 12.2 km (7.5 miles) altitude test as detailed in SAE J1455, section 4.9.3, except with an ambient temperature of -40C (-40F). The terminal meets all its specifications during exposure to 90% relative humidity at +85C (185F), per the test methodology of SAE J1455, section 4.2.3 (3 x 8-hour humidity cycle per figure 4a) Ingress Protection IP67 The terminal meets all of its specifications after immersion and dust tests as detailed in IEC 60529, sections 13.1, 13.4, 14.1, 14.2.7 and 14.3 (with and without optional terminal shroud) 2.12 Sensors 2.12.1 Temperature Sensor Parameter Range Value

-40 to +85C (-40 to +185F) Accuracy (typical) 4C (7.2F) 2.12.2 Accelerometer The transceiver has a 3D accelerometer to detect motion in any axis. In low power applications, frequent GPS fixes can dominate the power budget. To reduce the power budget effects of GPS fixes, the accelerometer can be used to detect if motion has occurred. The accelerometer thresholds to detect advanced features such as driver behavior monitoring vary depending on the environment. To avoid false detects, extensive testing is required to ensure that adequate acceleration magnitude thresholds and time durations are used. Parameter Condition Min. Typ. Max. Units Resolution

Acceleration Range software selectable

16

+2

+4

+8

+16

bit g g g g T413, Version 0.04 BETA ORBCOMM Proprietary 30 ST 9100 - HARDWARE GUIDE Parameter Condition Output Data Rate (ODR) selectable via digital interface Min. Typ. Max. Units 12.5

1600 1 Hz Sensitivity 2 g 4 g 8 g 16 g Sensitivity Temperature Drift 3 V supply Zero-g Offset Ta = 25C (77F) Zero-g Offset Temperature Drift 3 V supply Wake up Time Start up Time from low power or suspended modes power on reset 2.13 Cellular Module - LTE

16384 8192 4096 2048 0.02 40 1 0.8 3.2

3.8 LSB/g LSB/g LSB/g LSB/g

%/K mg mg/K ms ms 2.13.1 Transceivers Operating in the Americas Transceivers (p/n ST9100-D01), operating in North or South America, have the following characteristics. Type LTE Module u-blox Toby R200 series LTE bands: 2, 4, 5, 12 UMTS bands: 850, 900, 1900, 2100 MHz GSM 850/900/1800/1900 MHz Output Power LTE power Class 3 (23dBm) UMTS/HSDPA/HSUPA power Class 3 (24dBm) GSM/GPRS Power Class:

*Class 4 (33 dBm) for GSM/E-GSM band

*Class 1 (30 dBm) for DCSPCS band EDGE(8-PSK) Power Class:

*Class E2 (27 dBm) for GSM/E-GSM band

*Class E2 (26 dBm) for DCS/PCS band Input Power Peak currents of 1.5 A typical, 1.9 A maximum. Module supply peak current consumption: peak of current consumption through the VCC pins during a GSM 1-slot Tx burst at maximum Tx power, with a matched antenna Data Transfer LTE Category 1: up to 10.3Mb/s DL, 5.2 Mb/s UL HSDPA category 8: up to 7.2 Mb/s DL, HSUPA category 6: up to 5.76 Mb/s UL GPRS multi-slot class 33, CS1-CS4, up to 107 kb/s DL, up to 85.6 kb/s UL EDGE multi-slot class 33, MCS1-MCS9, up to 296 kb/s DL, up to 236.8 kb/s UL Antenna Detect Output DC current pulse: 9 A typical Output DC current pulse time length: typical 330 s 2.13.2 Transceivers Operating Outside of the Americas Transceivers (p/n ST9100-C01), operating outside of North or South America, have the following characteristics. 1The software supports a maximum ODR of 400 Hz. T413, Version 0.04 BETA ORBCOMM Proprietary 31 ST 9100 - HARDWARE GUIDE Type LTE Module u-blox Toby L280 series LTE bands: 1, 3, 5, 7, 8, 28 UMTS bands: 850, 900, 1900, 2100 MHz GSM 850/900/1800/1900 MHz Output Power LTE power Class 3 (23dBm) UMTS/HSDPA/HSUPA power Class 3 (24dBm) GSM/GPRS Power Class:

*Class 4 (33 dBm) for GSM/E-GSM band

*Class 1 (30 dBm) for DCSPCS band EDGE(8-PSK) Power Class:

*Class E2 (27 dBm) for GSM/E-GSM band

*Class E2 (26 dBm) for DCS/PCS band Input Power Peak currents of 1.9 A typical, 2.5 A maximum. Module supply peak current consumption: peak of current consumption through the VCC pins during a GSM 1-slot Tx burst at maximum Tx power, with a matched antenna Data Transfer LTE Category 4: up to 150Mb/s DL, 50 Mb/s UL HSDPA category 24: up to 42 Mb/s DL, HSUPA category 6: up to 5.6 Mb/s UL GPRS multi-slot class 12, CS1-CS4, up to 85.6 kb/s DL/UL EDGE multi-slot class 12, MCS1-MCS9, up to 236.8 kb/s DL/UL Antenna Detect Output DC current pulse: 21 A typical Output DC current pulse time length: typical 3.6 ms 2.14 Bluetooth Module Not available for beta trials. 2.15 LED The transceiver has four visible LEDs (2.15) to indicate status. Figure 16: LED Location T413, Version 0.04 BETA ORBCOMM Proprietary 32 ST 9100 - HARDWARE GUIDE Table 6: LED Operation Sensor Indicates whether the transceiver is receiving sensor data, or if paired with a sensor. Cellular Indicates cellular communications status. Satellite Indicates satellite communications status. Power Indicates that the transceiver has external power. 2.16 Mechanical 2.16.1 ST 9100 Parameter Mass Enclosure Material Value 465 g (16 oz) Lexan plastic T413, Version 0.04 BETA ORBCOMM Proprietary 33 ST 9100 - HARDWARE GUIDE Figure 17: ST 9100 Top View Dimensions Figure 18: ST 9100 Side Connector View Dimensions 2.16.2 Cellular Antenna Parameter Mass Value 55 g (2 oz..) T413, Version 0.04 BETA ORBCOMM Proprietary 34 ST 9100 - HARDWARE GUIDE Parameter Dimensions Cable length Mounting Value 3 m (10 ft.) 129.5 x 22.8 x 7 mm (5 in. x 0.9 x 0.27 in.) FAKRA straight plug connector Operating Temperature

-40C to 85C (-40F to 185F) 2.16.3 Satellite Antenna Figure 19: Satellite Antenna (standard and low elevation) - Bottom View (mm) 2.16.3.1 Standard Antenna Parameter Mass Enclosure Material Color Code Sealing Gasket Material Value Lexan EXL 8T9D076 (white) Santoprene Side entry with 5 m (16 ft.) cable: 360 g (13 oz.) T413, Version 0.04 BETA ORBCOMM Proprietary 35 ST 9100 - HARDWARE GUIDE Figure 20: Standard Antenna Height Dimensions (mm) 2.16.3.2 Low Elevation Antenna Parameter Mass Enclosure Material Color Code Sealing Gasket Material Value Lexan EXL 8T9D076 (white) Santoprene Side entry with 5 m (16 ft.) cable: 365 g (13 oz.) Figure 21: Low Elevation Antenna Height Dimensions (mm) 2.16.3.3 Terminal Shroud Parameter Mass Enclosure Material Color Code Value 150 g (2 oz.) Lexan EXL 8T9D076 (white) T413, Version 0.04 BETA ORBCOMM Proprietary 36 ST 9100 - HARDWARE GUIDE Figure 22: Terminal Shroud Dimensions T413, Version 0.04 BETA ORBCOMM Proprietary 37 ST 9100 - HARDWARE GUIDE 3 COMPLIANCE & CERTIFICATION Inmarsat Type Approval Industry Canada l ICES-003 l RSS-170, Issue 2, Spectrum Management and Telecommunications Policy, Radio Standard l RSS-102, radiation safety per Safety Code 6 (compliance shown by computation) l IC ID: 11881A-ST9100; 11881A-UNNB30; 8595A-TOBYL280 or 8595A-1EHM44NN FCC l CFR 47 Part 25, CFR 47 Part 15 l CONTAINS FCC ID: XGS-ST9100; XGS-UNNB30; XPYTOBYL280 or XPY1EHM44NN Ingress Protection l Cellular antenna: IP65 l Satellite antenna: IP67 l Transceiver unit: IP67 RoHS Restriction of Hazardous Substances (RoHS) 1 UN l UN 38.3 Transportation Compliance Other Certificate l IEC60945; Anatel, ACMA, ICASA, PTCRB Warning persons. EU RED 2014/53/EU Hereby, ORBCOMM Inc. declares that the radio equipment types listed in this document comply with Directive 2014/53/EU. The full text of the EU declaration of conformity is available from http://www2.orbcomm.com/eudoc. The minimum 20cm separation distance from the device is required for RF exposure safety for all Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canadas licence-exempt RSS(s). Operation is subject to the following two conditions:(1)This device may not cause interference.(2)This device must accept any interference, including interference that may cause undesired operation of the device. Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes :

1) Lappareil ne doit pas produire de brouillage;

2) Lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. 1European Union's (EU) Directive 2002/95/EEC "Restriction of Hazardous Substances" (RoHS) in Electronic and Electrical Equipment. T413, Version 0.04 BETA ORBCOMM Proprietary 38 ST 9100 - HARDWARE GUIDE APPENDIXA DEVELOPMENT CABLE The development cable is p/n ST101084-001. Figure 23: Development Cable T413, Version 0.04 BETA ORBCOMM Proprietary 39 Transceiver Connector End A End B End C End D End E Table 7: Development Cable Connectors ST 9100 - HARDWARE GUIDE PIN 9 - 1Wire Com PIN 10 - RS232 TX PIN 21 - RS232 RX PIN 22 - AUX RS232 TX PIN 13 - CAN 1 Low PIN 14 - CAN 0 Low PIND PIN J PIN 2 PIN 3 PIN 2 PIN 1 - RS485 A PIN 24 - Dig IN 2 PIN 16 - Dig IN1 PIN 4 - I/O_4 PIN 5 - I/O_2 PIN 7 - VEXT PIN 8 - Out 6 PIN 18 - I/O_1 PIN 17 - I/O_3 PIN 3 - Dig IN 3 PIN 15 - RS485 B PIN 23 - CAN 0 High PIN H PIN 12 - CAN 1 High PINC PIN 11 - AUX RS232 RX PIN 20 - 1Wire Data PIN 19 - Out 5 PIN 2 - Dig IN 4 PIN 6 _ Ground PIN A and PIN E PIN 5 PIN5 PIN 5 PINB PIN 2 PIN 1 PIN 1 PIN 2 PIN 3 40 T413, Version 0.04 BETA ORBCOMM Proprietary Transceiver Connector End F End G End H End I ST 9100 - HARDWARE GUIDE PIN 9 - 1Wire Com PIN 10 - RS232 TX PIN 21 - RS232 RX PIN 22 - AUX RS232 TX PIN 13 - CAN 1 Low PIN 14 - CAN 0 Low PIN 1 - RS485 A PIN 24 - Dig IN 2 PIN 16 - Dig IN1 PIN 4 - I/O_4 PIN 5 - I/O_2 PIN 6 _ Ground PIN 7 - VEXT PIN 8 - Out 6 PIN 18 - I/O_1 PIN 17 - I/O_3 PIN 3 - Dig IN 3 PIN 15 - RS485 B PIN 23 - CAN 0 High PIN 12 - CAN 1 High PIN 11 - AUX RS232 RX PIN 20 - 1Wire Data PIN 19 - Out 5 PIN 2 - Dig IN 4 Input 1 Ground I/O_1 1Wire Common 1Wire Data PIN 8 PIN 7 PIN 4 PIN 2 PIN 1 PIN 6 PIN 3 PIN 9 PIN 5 PIN 10 T413, Version 0.04 BETA ORBCOMM Proprietary 41

Label location Model No:

ST9100-C01 FCC ID:

IC:

XGS-ST9100 11881A-ST9100 CONTAINS:

FCC ID:

IC:

FCC ID:

IC:

XPYTOBYL280 8595A-TOBYL280 XGS-UNNB30 11881A-UNNB30 IP67 FCC PART 15 AND ICES DIGITAL DEVICE CLASS B. 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 2. THIS DEVICE MUST ACCEPT ANY INTERFERENCE RECEIVED, INCLUDING INTERFERENCE THAT MAY CAUSE UNDESIRED OPERATION. ST 9 P/N:

ST 9 S/N:

IMEI #:

SAT ID:

SIM 1 ID:

SIM 2 ID:

Label format 395 W. Passaic Street, Suite 325, Rochelle Park, NJ 07662 USA www.orbcomm.com | Customer Service: +1 703-433-6300

Label location Model No:

ST9100-D01 XGS-ST9100 11881A-ST9100 FCC ID:

IC:

CONTAINS:

FCC ID:

IC:

FCC ID:

IC:

XPY1EHM44NN 8595A-1EHM44NN XGS-UNNB30 11881A-UNNB30 FCC PART 15 AND ICES DIGITAL DEVICE CLASS B. THIS DEVICE COMPLIES WITH PART 15 OF THE FCC RULES. OPERATION IS SUBJECT TO THE FOLLOWING TWO CONDITIONS IP67 1. THIS DEVICE MAY NOT CAUSE HARMFUL INTERFERENCE 2. THIS DEVICE MUST ACCEPT ANY INTERFERENCE RECEIVED, INCLUDING INTERFERENCE THAT MAY CAUSE UNDESIRED OPERATION. ST 9 P/N:

ST 9 S/N:

IMEI #:

SAT ID:

SIM 1 ID:

SIM 2 ID:

395 W. Passaic Street, Suite 325, Rochelle Park, NJ 07662 USA www.orbcomm.com | Customer Service: +1 703-433-6300

Nemko Canada Inc 303 River Road Ottawa, Ontario, Canada K1V 1H2 Attn: Director of Certification Authority to Act as Agent FCC On our behalf, I appoint Tom Tidwell of Nemko USA, Inc., 2648 FM 407 E. Suite 200, Bartonville, TX 76226 to act as our agent in the preparation of this application for equipment certification. I certify that submitted documents properly describe the device or system for which equipment certification is sought. I also certify that each unit manufactured, imported or marketed, as defined in FCC regulations will have affixed to it a label identical to that submitted for approval with this application. In signing this letter, Applicant certifies that neither the applicant nor any party to the application is not subject to a denial of Federal benefits, that include FCC benefits, pursuant to Section 5301 of the Anti-

Drug Abuse Act of 1988, 21 U.S.C. 862 because of a conviction for possession or distribution of a controlled substance. See 47 CFR 1.2002(b) for the definition of a "party" for these purposes. For instances where our authorized agent signs the application for certification on our behalf, I acknowledge that all responsibility for complying with the terms and conditions for certification, as specified by Nemko Canada Inc, still resides with ORBCOMM License Corp. Dated: 9/17/2020 Agency agreement expiration date: 9/17/2021 Sincerely, Walter Sonnenfeldt Vice President, Regulatory Affairs, ORBCOMM Inc. &

Manager Regulatory Affairs, ORBCOMM License Corp. 395 W PASSAIC STREET, SUITE 325, ROCHELLE PARK, NJ 07662 USA HTTPS://WWW.ORBCOMM.COM

Nemko Canada Inc. 303 River Road Ottawa, Ontario, Canada K1V 1H2 FCC ID: XGS-ST9100 Model: ST9100-C01 and ST9100-D01 Request for Permanent Confidentiality Schematics Block diagram Bill of Materials Operational description Pursuant to Sections 0.457(d) and 0.459 of the Commissions rules, we hereby request that the following documents be held confidential:

These materials contain trade secrets and proprietary information and are not customarily released to the public. The public disclosure of this information might be harmful to the company and provide unjustified benefits to our competitors. Dated: 9/17/2020 Signed:

Walter Sonnenfeldt Vice President, Regulatory Affairs, ORBCOMM Inc. &

Manager Regulatory Affairs, ORBCOMM License Corp. 395 W PASSAIC STREET, SUITE 325, ROCHELLE PARK, NJ 07662 USA HTTPS://WWW.ORBCOMM.COM

9/17/2020 IC: 11881A-ST9100 Model: ST9100-C01 and ST9100-D01 Product Family Variants Declaration We, ORBCOMM Inc, as the manufacturer of Terrestrial/Satellite mobile communication products, declare that the ST9100 family products consists of ST9100-C01 and ST9100-D01 variants products. The difference between ST9100-C01 and ST9100-D01 is that ST9100-C01 consists of a cellular module TOBY-L280 from uBlox while ST9100-D01 consists of a cellular module TOBY-R200 from ublox. Both cellular modules are LTE module with 3G/2G fallback. Both ST9100 variants using the same circuit card and all other identical parts including satellite radio, GNSS receiver, Bluetooth radio, battery, enclosure, as well all as antennas for all radios. Sincerely, Walter Sonnenfeldt Vice President, Regulatory Affairs, ORBCOMM Inc. &

Manager Regulatory Affairs, ORBCOMM License Corp. 395 W PASSAIC STREET, SUITE 325, ROCHELLE PARK, NJ 07662 USA HTTPS://WWW.ORBCOMM.COM

Oct 2, 2020 Product Name: ST9100 Subject: Tune-up procedure/requirement To Whom it May Concern, ORBCOMMs ST9100 Products, model number ST9100-C01 and ST9100-D01 are dual mode communication devices designed for industrial equipment and assest tracking, control and management. The products are tested and all RF parameters are set and tuned during production process in factory. The products do not need any additional tuning by the installer or customers. Sincerely, Xinming Wang Manager, Hardware & Regulatory DOC ID: OBCO-CERT-HW17060 REV 1.0 ORBCOMM PROPRIETARY 395 W PASSAIC STREET, SUITE 325, ROCHELLE PARK, NJ 07662 USA HTTPS://WWW.ORBCOMM.COM