FCC ID: 2AVAL-INP2045 Low Power WiFi/BLE IOT Module

INP2045 Talaria TWO (INP2045) IEEE 802.11 b/g/n, BLE Hardware User Guide Version 0.4 1/5/2020 1 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 1. 2. 3. 4. 5. 10. 11. 12. 13. 2 Table of Contents Introduction .................................................................................................................................................. 3 1.1 Package Contents ................................................................................................................................... 3 1.2 Pre-requisites .......................................................................................................................................... 3 1.3 ESD Precaution ...................................................................................................................................... 3 Talaria TWO Description and Operation ..................................................................................................... 4 Talaria TWO Block Diagram ....................................................................................................................... 5 Talaria TWO Maximum Transmit Power and Operating Temp .................................................................. 5 Talaria TWO Schematics ............................................................................................................................. 6 PCB Layout ....................................................................................................................................... 7 5.1 5.2 FTDI Layout and Port Connections................................................................................................... 8 5.3 Talaria TWO Module Pinout .................................................................................................................. 8 5.4 Pin Description .................................................................................................................................. 9 6. Antenna ............................................................................................................................................................... 10 Power Supply ............................................................................................................................................. 10 7. Talaria TWO Module Integration in End Products .................................................................................... 10 8. 9. FCC/ISED Regulatory Notices .................................................................................................................. 11 9.1 Modification statement ......................................................................................................................... 11 9.2 Interference Statement .......................................................................................................................... 11 9.3 Radio Frequency Radiation Exposure Statement ................................................................................. 11 9.4 RF Exposure Statement for Module Integration................................................................................... 11 9.5 Labeling Requirements for the Host Device ........................................................................................ 12 Disclaimers ................................................................................................................................................. 13 Support Details ........................................................................................................................................... 14 Abbreviations ............................................................................................................................................. 15 Revision History ......................................................................................................................................... 15 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 1. Introduction Welcome to Talaria TWO Hardware user guide. This guide provides quick steps to get started with the provided Talaria TWO Module and SDK boards and allow basic Wi-Fi/BLE operations using the built-in Serial-to-Wi-Fi application. 1.1 Package Contents The package contains following items:

2. Micro USB cable 1.2 Pre-requisites Following are pre-requisites for the quick start:

1. Talaria TWO INP2045 Module board mounted on SDK board generally recommended over Windows. 2. A COM port console application such as PuTTY. 3. Python (3.6+) software installed. 4. Openocd (latest) & ZADIG software tools installed. 1.3 ESD Precaution 1. A Windows or Linux PC with one USB port to connect to Talaria TWO SDK board. A Linux PC is This electronic device can be damaged by ESD. Innophase Inc., recommends that all bare PCB and integrated circuits be handled with appropriate precautions. Failure to observe proper handling procedures can cause damage. ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications. 3 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 2. Talaria TWO Description and Operation Talaria TWO module is designed for low power IOT devices that need Wi-Fi and BLE connectivity. The SDK board is a HW interface board developed for evaluation, SW development, and verification of Talaria module product. The Talaria TWO module (INP2045) is shown in Figure.4-1. It is a very small form factor PCB at 19mm x 20mm, designed to be soldered down as a module on end product interface boards. As shown in Figure 4-2, it is installed on a larger interface board (30mm x 65mm), known as the SDK board. This assembly is designed to match the standard Raspberry Pi Zero form factor, including its 40 pin interface connector. Figure 2-1 INP2045 Module Figure 2-2 SDK Board with INP2045 module board installed INP2045 module boards have all required components installed for standalone functionality. Edge connections provide access to all GPIO pins, ADC_IN, En_Chip/Reset input and external 3.3V power input. The module also contains an on-board printed antenna as well as RF shield (not shown in the Figure 4-2). The Talaria TWO module schematic is provided in Figure 4-3. The SDK board can be powered from an external 1.2-4.2 V battery through connector J10, or from USB through Micro USB connector J7. Selection of input power supply source is commutated using connector J8. Jumper J9 can be used to monitor INP2045 current consumption using an external current meter. Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com 4 INP2045 3. Talaria TWO Block Diagram 4. Talaria TWO Maximum Transmit Power and Operating Temp Mode Maximum TX Power Wi-Fi: DSSS, 1Mbps Wi-Fi: CCK, 11 Mbps Wi-Fi: OFDM, 54 Mbps Wi-Fi: MCS7, 65 Mbps BLE 18 dBm 18 dBm 15 dBm 12 dBm 10 dBm Talaria TWO Operating Temperature: -100C to +750C 5 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 5. Talaria TWO Schematics Figure 5-3 INP2045 Module schematic. For evaluation and SW development, the INP2045 Talaria TWO module is installed on an SDK board which provides communication to an external PC though a standard USB interface. An additional 40 pin connector on the SDK provides access to UART, JTAG and SPI communication with peripheral devices as well as exposes all the INP2045 GPIO for development and integration of the application. 40 pin connector pinout is shown in Figure 5-4. 6 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 7 Figure 5-4 Pinout of 40 Pin Connector 5.1 PCB Layout Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 5.2 FTDI Layout and Port Connections The Talaria TWO SDK board uses an FTDI 4232h quad high-speed USB multi-purpose serial device to interface the Talaria TWO device to a host for evaluation and development. The FTDI device implementation is given below:

FTDI Bus Interface to Talaria TWO JTAG SPI UART A B C D CONSOLE (UART) Table 1: FTDI Bus Utilization The port numbers A, B, C and D are assigned by the Windows OS based on which port on the PC is used. Note that the order of COM ports is important and directly map to the FTDI layout. In this case COMc corresponds to UART and COMd corresponds to CONSOLE. Note that if a different USB port is used, the port numbers will change. 5.3 Talaria TWO Module Pinout Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com 8 INP2045 5.4 Pin Description PIN #

Name Description Ground connection Power Supply Input 2.74.0V Power Supply Input 2.74.0V EN_CHIP Chip Enable/_Reset or Shutdown Input GPIO 14 GPIO Input/Output AGND V_3.3V V_3.3V AGND AGND AGND AGND AGND AGND GPIO 0 GPIO 1 GPIO 2 GPIO 3 GPIO 4 GPIO 5 VDDIO GPIO 17 GPIO 18 GPIO 19 GPIO 20 GPIO 21 AGND 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 Ground connection Ground connection Ground connection Ground connection Ground connection Ground connection GPIO Input / Output GPIO Input / Output GPIO Input / Output GPIO Input / Output GPIO Input / Output GPIO Input / Output GPIO Input / Output GPIO Input / Output GPIO Input / Output GPIO Input / Output GPIO Input / Output Ground connection Power Output. SW configurable ADC_IN ADC Analog Input (voltage range is 01 V) AGND Ground connection 9 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 10 6. Antenna Talaria TWO module has a proprietary integrated/printed antenna. It is a Double-sided Inverted F (IFA) antenna and has been implemented as printed PCB elements. By design and verification, Antenna does not require any additional matching component if the module is used as standalone product. Talaria TWO modules antenna has omnidirectional radiating pattern and following performance specifications:

Max (Peak) Antenna Gain Average Antenna Efficiency 0 dBi

-5.0 dB (31.4%) 7. Power Supply Talaria TWO INP2045 module is designed to use external power supply. It utilizes internal power management circuit including 2 high efficiency buck converters. power source should be between 2.7V to 4.0V. External power can be delivered from battery or a power supply connected to pins 2, 3 and AGND. Voltage from 8. Talaria TWO Module Integration in End Products INP2045 Module is provided to customers with a reference interface board (SDK board) as an example of how the module can be integrated with an end product. For specific questions and support need to integrate Talaria TWO into customer platforms, customers are advised to contact Innophase Inc. We provide comprehensive support for HW and SW source documentation, design reviews, and verification. Our corporate web site (www.innophaseinc.com) provided links to product briefs, applications, knowledge base and client portal for personalized support to Innophase customers. Customers can send also contact Innophase by mail for general queries (sales@innophaseinc.com). Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 11 9. FCC/ISED Regulatory Notices 9.1 Modification statement authorization to operate this equipment. 9.2 Interference Statement Changes or modifications made to this equipment not expressly approved by Innophase Inc. may void the FCC This device complies with Part 15 of the FCC Rules and with Industry Canada license-exempt RSS standard(s). 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. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes:

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

(2) l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement 9.3 Radio Frequency Radiation Exposure Statement This device complies with FCC/IC radiation exposure limits set forth for an uncontrolled environment. The device should be installed and operated with minimum distance of 20 CM between the device/antenna and all persons. This device must not be co-located or operating in conjunction with any other antenna or transmitter without further RF Exposure evaluation. 9.4 RF Exposure Statement for Module Integration This module has been granted modular approval for mobile applications. Host products integrators may use the module in their final products without additional FCC certification if they meet the following conditions. Otherwise. additional FCC approvals must be obtained. The host product with the module installed must be evaluated for simultaneous transmission requirements The user manual for the host product must clearly indicate the operating requirements and conditions that must be observed to ensure compliance with current FCC IC RF exposure guidelines. Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 9.5 Labeling Requirements for the Host Device The host device shall be properly labelled to identify the module within the host device. The certification label of the module shall be clearly visible at all times when installed in the host device, otherwise the host device must be labelled to display the FCC ID and IC of the module, preceded by the words "Contains transmitter module", or the word "Contains", or similar wording expressing the same meaning, as follows:

Contains FCC ID: 2AVAL-INP2045 Contains IC: 25715-INP2045 L'quipement hte doit tre correctement tiquet pour identifier les modules dans l'quipement. L'tiquette de certification du module doit tre clairement visible en tout temps lorsqu'il est install dans l'hte, l'quipement hte doit tre tiquet pour afficher le FCC ID et IC du module, prcd des mots "Contient le module metteur", ou le mot "Contient", ou un libell similaire exprimant la mme signification, comme suit:

Contient FCC ID: 2AVAL-INP2045 Contient IC: 25715-INP2045 12 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 10. Disclaimers Limited warranty and liability Information in this document is believed to be accurate and reliable. However, InnoPhase Incorporated does not give any representations or warranties, expressed or implied, as to the accuracy or completeness of such information and assumes no liability associated with the use of such information. InnoPhase Incorporated takes no responsibility for the content in this document if provided by an information source outside of InnoPhase Incorporated. InnoPhase Incorporated disclaims liability for any indirect, incidental, punitive, special or consequential damages associated with the use of this document, applications and any products associated with information in this document, whether or not such damages are based on tort (including negligence), warranty, including warranty of merchantability, warranty of fitness for a particular purpose, breach of contract or any other legal theory. Further, InnoPhase Incorporated accepts no liability and makes no warranty, express or implied, for any assistance given with respect to any applications described herein or customer product design, or the application or use by any customers third-party customer(s). Notwithstanding any damages that a customer might incur for any reason whatsoever, InnoPhase Incorporated aggregate and cumulative liability for the products described herein shall be limited in accordance with the Terms and Conditions of identified in the commercial sale documentation for such InnoPhase Incorporated products. Right to make changes InnoPhase Incorporated reserves the right to make changes to information published in this document, including, without limitation, changes to any specifications and product descriptions, at any time and without notice. This document supersedes and replaces all information supplied prior to the publication hereof. Suitability for use InnoPhase Incorporated products are not designed, authorized or warranted to be suitable for use in life support, life-critical or safety-critical systems or equipment, nor in applications where failure or malfunction of an InnoPhase Incorporated product can reasonably be expected to result in personal injury, death or severe property or environmental damage. InnoPhase Incorporated and its suppliers accept no liability for inclusion and/or use of InnoPhase Incorporated products in such equipment or applications and such inclusion and/or use is at the customers own risk. 13 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 11. Support Details Sales Support:

To contact an InnoPhase Sales representative, email sales@innophaseinc.com Technical Support:

Visit http://innophaseinc.com/technical-support/

SDK is available for fast on-chip programming Open source tool chains based on GCC Innoscope proprietary debug development tool Contact support@innophaseinc.com Documentation Datasheet QuickStart Guide SDK User Guide API Reference Manual Power Measurement Guide HW User Guides Release Notes/Errata Hardware Resources Coming soon:

Knowledge Database Discussion Forums Customer Web Portal Reference Design (layout and design CAD files available) Software Development Platform InnoPhase has offices in US, Asia and Europe providing outstanding support for our customers. 14 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com INP2045 12. Abbreviations SPI Serial Peripheral Interface UART Universal asynchronous receiver transmitter 13. Revision History Date Version Release Notes 1/5/2020 9/13/19 9/13/19 9/12/18 0.4 0.3 0.2 0.1 FCC/IC Notices added ESD Precaution added Initial release Initial Draft 15 Copyright InnoPhase, Inc. 2017, All Rights Reserved PROPRIETARY and CONFIDENTIAL Subject to Change Without Notice InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com

Talaria TWOTM EVB-A Evaluation Boards

(INP3010 / INP3011 / INP3012 / INP3013) Extreme Low Power Wireless Platform IEEE 802.11 b/g/n, BLE 5.0 User Guide for Talaria TWO Evaluation & Development Kit Release: 08-16-2021 InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com Copyright InnoPhase, Inc., 2021 All Rights Reserved Talaria TWO Evaluation & Development Kit Revision History Version Date 1.0 1.1 Comments First version 07-04-2020 09-14-2020 Updated for SDK 2.1.1 release 2.0 2.1 2.2 2.3 2.4 05-13-2021 Updated for SDK 2.2 release Updated block diagram to reflect v1.3 board and jumper settings 07-09-2021 Updated labels for INP1012/1013 07-30-2021 Updated Antenna details for INP1010/11/12/13 08-06-2021 Updated with additional Antenna information for INP10x modules 08-16-2021 Updated Antenna specifications table for INP10x modules Version 2.4 1 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit Contents 1 2 3 4 5 6 8 9 Figures ...................................................................................................................................... 4 Tables ....................................................................................................................................... 4 Terms & Definitions ................................................................................................................. 5 Introduction ............................................................................................................................. 6 INP301x Package Contents ..................................................................................................... 6 Description of the board .......................................................................................................... 7 6.1 6.2 6.3 6.4 6.5 6.6 Block Diagram .................................................................................................................... 7 Jumpers on the board ........................................................................................................ 9 Power Supply and Mode Switch ...................................................................................... 10 IO Header (J1) .................................................................................................................. 11 Shield Headers (JP1 to JP4) .............................................................................................. 12 On Board Sensors ............................................................................................................ 13 7 Functional Description ........................................................................................................... 14 7.1 Stand-alone mode ........................................................................................................... 14 7.1.1 Driver Installation for Windows OS .......................................................................... 15 7.2 Shield Mode ..................................................................................................................... 20 7.2.1 EVB-A as Wi-Fi Shield with STM32 Nucleo Board .................................................... 20 Power Measurement ............................................................................................................. 21 Using Battery as Power Source .............................................................................................. 22 10 Antenna ............................................................................................................................... 23 10.1 INP1010 ............................................................................................................................ 23 10.2 INP1011 ............................................................................................................................ 24 10.3 INP1012 ............................................................................................................................ 25 10.4 INP1013 ............................................................................................................................ 26 11 FCC/ISED Regulatory Notices .............................................................................................. 27 11.1 Modification Statement ................................................................................................... 27 11.2 Interference Statement ................................................................................................... 27 11.3 Radio Frequency Radiation Exposure Statement ............................................................ 27 11.4 RF Exposure Statement for Module Integration ............................................................. 28 11.5 Labeling Requirements for the Host Device .................................................................... 29 Version 2.4 2 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 11.5.1 INP1010 .................................................................................................................... 30 11.5.2 INP1011 .................................................................................................................... 30 11.5.3 INP1012 .................................................................................................................... 31 11.5.4 INP1013 .................................................................................................................... 31 12 13 Support ................................................................................................................................ 32 Disclaimers .......................................................................................................................... 33 Version 2.4 3 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 1 Figures Figure 1: INP301x EVB-A Board with INP101x module board installed ................................................................ 6 Figure 2: Block diagram of INP301x Evaluation Board .......................................................................................... 7 Figure 3: INP301x EVB-A control and connectivity points .................................................................................... 9 Figure 4: Power supply section ........................................................................................................................... 10 Figure 5: IO Header.............................................................................................................................................. 11 Figure 6: Arduino UNO shield compatible jumpers ............................................................................................ 12 Figure 7: On board sensors ................................................................................................................................. 13 Figure 8: Listing devices in Zadig ......................................................................................................................... 15 Figure 9: Updating Talaria TWO USB driver to libusbK ....................................................................................... 16 Figure 10: Device Manager .................................................................................................................................. 17 Figure 11: Update Devices ................................................................................................................................... 18 Figure 12: Select the device driver ...................................................................................................................... 19 Figure 13: INP3010 EVB-A as Wi-Fi Shield ........................................................................................................... 20 Figure 14: Current measurement setup using Otti Arc ....................................................................................... 21 Figure 15: J10 Battery connection ....................................................................................................................... 22 Figure 16: Labelling requirement - INP1010 ....................................................................................................... 30 Figure 17: Labelling requirement - INP1011 ....................................................................................................... 30 Figure 18: Labelling requirement - INP1012 ....................................................................................................... 31 Figure 19: Labelling requirement - INP1012 ....................................................................................................... 31 2 Tables Table 1: Jumper Information ................................................................................................................................. 9 Table 2: FTDI Layout ............................................................................................................................................ 14 Table 3: Module ID with Antenna details ............................................................................................................ 23 Table 4: INP1010 - Antenna specifications .......................................................................................................... 23 Table 5: INP1011 - Antenna specifications .......................................................................................................... 24 Table 6: INP1012 - Antenna specifications .......................................................................................................... 25 Table 7: INP1013 - Antenna specifications .......................................................................................................... 26 Version 2.4 4 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 3 Terms & Definitions BLE Bluetooth Low Energy DMM Digital Multimeter DPDT FTDI GPIO IO JTAG LED SCL SDA SPI SPDT UART USB MPSEE Multi-Protocol Synchronous Serial Engine Double Pole Double Throw Future Technology Devices International General Purpose Input/Output Input Output Joint Test Action Group Light Emitting Diode Serial Clock Serial Data Serial Peripheral Interface Single Pole Double Throw Universal Asynchronous Receiver-Transmitter Universal Serial Bus Version 2.4 5 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 4 Introduction INP301x Talaria TWO evaluation board is designed as an evaluation platform for the INP101x modules. This user guide provides an overview of the evaluation board explaining its key features and functions. 5 INP301x Package Contents The package contains:

INP3010*, INP3011**, INP3012 or INP3013 board 1. 2. Micro USB cable 3. Antenna (INP3011 and INP3012 boards) 4. Battery box Figure 1: INP301x EVB-A Board with INP101x module board installed

*INP3010: EVB boards having INP1010 module with PCB antenna

**INP3011: EVB boards having INP1011 module with U.FL antenna connector Version 2.4 6 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 6 Description of the board 6.1 Block Diagram Switch

(Standalone vs Shield mode) Figure 2: Block diagram of INP301x Evaluation Board The block diagram of the INP301x Evaluation board is shown in Figure 2. The main component on the board is the INP101x module. Key features of the evaluation board are:

1. Standalone mode vs. Shield mode: Using the mode switch U3, either standalone mode or shield mode can be selected. a. In standalone mode, the INP101x can be accessed via micro-USB cable for programming and debugging. This mode is recommended for standalone application development. b. In shield mode, the INP101x module can be interfaced with any host CPU and can provide serial to Wi-Fi capabilities. 2. A peripheral IO header (J1) is available using which all the IOs of the INP101x module can be accessed. 3. Power supply section: Based on the mode, the power for module is derived from either USB or shield header. A battery header is available which can be used as power source as well. a. J4 at VM_3.3V for USB power b. J4 at VBAT and battery connect to J10 for Battery power Version 2.4 7 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 4. On board sensors are available to develop sensor to cloud applications. 5. Switch:

a. Set U3 switch to V33_ARD for Shield mode b. Set U3 switch to V_3.3V for Standalone mode Version 2.4 8 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 6.2 Jumpers on the board Jumper J1 J2 J3 J4 J7 J8 J9 J10 J11 JP1 to JP4 U3 Figure 3: INP301x EVB-A control and connectivity points Mode and Operation IO header Used to enable Console logging in shield mode Connect LED D1 to GPIO14, for debug purposes Select power from USB or battery connector, also used for current measurements Connect SCL to GPIO4 Connect SDA to GPIO3 Select IO voltage for FTDI IOs Battery terminal Enable the multi-port SPDT switch Arduino UNO shield compatible header (3.3V support only) Switch between Stand-alone mode and Arduino Shield Mode Table 1: Jumper Information Version 2.4 9 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 6.3 Power Supply and Mode Switch The INP301x board is designed to supply power to the INP101x module in following ways:

1. In standalone mode, power is drawn from USB connector 2. In shield mode, power is drawn from shield connector 3. A battery header is also available to provide power to the module Figure 4: Power supply section The power supply section is shown in the Figure 4. The INP101x module requires 3.3V supply. The DPDT switch (U3) selects between USB and Arduino header supply using the common net Vm_3.3V. The jumper J4 is used to select between battery supply and Vm_3.3V. The same jumper can be used for measuring current consumption of the module. Version 2.4 10 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 6.4 IO Header (J1) The J1 header brings out all the IOs from INP101x module. These IOs can be used for debug, and/or any external interfacing needs. The pinout of this header is shown in Figure 5. To work with on board sensor, pins 1 & 2 needs to be shorted. Figure 5: IO Header Version 2.4 11 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 6.5 Shield Headers (JP1 to JP4) Arduino UNO compatible headers are available in the INP301x board to interface with any compatible host micro-controller. The GPIOs assigned to shield headers are carefully chosen to achieve following capability:

1. INP101xs SPI slave pins available on JP1 2. INP101xs I2C master pins available on JP1 3. Remaining GPIOs are available on JP2 and JP4 Note that INP301x supports 2.5V IO as the default configuration. The shield header connections are as shown in JP2 of Figure 6. Figure 6: Arduino UNO shield compatible jumpers Version 2.4 12 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 6.6 On Board Sensors The INP301x board has following sensors available on board for quick prototyping/testing:

Figure 7: On board sensors 1. Temperature/Humidity (Sensirion SHTC3) 2. Pressure (Bosch BMP388) 3. Light (TI OPT3002) To use the sensors, J7, J8, pins 1 & 2 of J1 should be connected. This enables power connection to the sensors on board, I2C connection on GPIOs 3 & 4. Version 2.4 13 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 7 Functional Description 1. Stand-alone mode (host-less) 2. Shield mode (hosted) Following are the functional modes that can be achieved in the INP301x board:

More details about each mode are available in subsequent sections. Switching between the modes is handled by DPDT switch U3 for power, and multi-port SPDT switch U1 for the GPIOs. 7.1 Stand-alone mode The stand-alone mode is intended for following use cases:

1. Host-less application development on INP101x modules 2. Programing access to INP101x modules In stand-alone mode, the U3 switch is pushed towards pin 3, which disconnects power and IO from shield headers and connects them to FTDI. The FTDI port layout is shown in Table 2. FTDI Bus A B C D Interface to Talaria TWO JTAG RESET UART CONSOLE (UART) Table 2: FTDI Layout The A & B bus of FTDI device supports MPSEE protocol, hence JTAG is assigned to A-bus. The BDBUS7 is connected EN_CHIP of the INP101x module. The C & D bus of FTDI device used as UARTs, with C-bus connected to peripheral UART of INP101x module and D-bus connected is CONSOLE port (GPIO17) of INP101x module. The JTAG on A-bus is used for debugging applications on the INP101x module. The UART on C-bus is used for programming the INP101x module. The CONSOLE port is a unidirectional UART from INP101x module that operates at high baud rate of 2457600, used for debug prints. Version 2.4 14 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 7.1.1 Driver Installation for Windows OS On Windows OS, libusbK driver needs to be installed to communicate and control the Talaria TWO module via the FTDI device on the evaluation board. The tools/applications provided by InnoPhase will use this driver. Install/uninstall instructions for this driver is given subsequent sections. 7.1.1.1 Installation instructions for libusbK driver Download the free software Zadig, available here: - https://zadig.akeo.ie/. Connect your Windows PC or Laptop to the evaluation board using the provided USB cable. Now, open Zadig and click on Options. Select List All Devices and deselect Ignore Hubs or Composite Parents as shown in Figure 8. Figure 8: Listing devices in Zadig Version 2.4 15 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit To establish communication with Talaria TWO module via the FTDI device on the InnoPhase Evaluation Board, the Talaria TWO USB driver must be libusbK. In case the current driver is not libusbK, use the drop-down menu to select libusbK and click on Replace Driver which will update the drivers to libusbK. Figure 9: Updating Talaria TWO USB driver to libusbK Version 2.4 16 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 7.1.1.2 Uninstall instructions for libusbK driver To uninstall libusbK and retrieve COM ports, follow the following steps:

1. Open Device Manager. Expand the libusbK USB Devices and right click on the InnoPhase T2 Evaluation Board (Composite Parent). Click on Update Driver as shown in Figure 10. Figure 10: Device Manager Version 2.4 17 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 2. On the new window, select Browse computer for drivers, click on Let me pick from a list of available drivers on my computer option and click on Next. Figure 11: Update Devices Version 2.4 18 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 3. Select USB Composite Device and click Next to reinstall the COM ports. Figure 12: Select the device driver Version 2.4 19 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 7.2 Shield Mode This mode will make the EVB-A board to act as a Wi-Fi/BLE5 shield. To enable this mode, flip the switch U3 towards V33_ARD. This also pulls up the INA pin of the multi-port SPDT device MAX4761ETX, which then routes the GPIOs from the INP101x module to the shield headers JP1, JP2, JP3 and JP4. In the shield mode a suitable firmware (such as Serial to Wi-Fi application available in the SDK) should be pre-flashed in the INP101x. 7.2.1 EVB-A as Wi-Fi Shield with STM32 Nucleo Board A comprehensive set of host application packages are available to download via the InnoPhase website to demonstrate the use of EVB-A as a Wi-Fi/BLE5 shield board. Figure 13: INP3010 EVB-A as Wi-Fi Shield Version 2.4 20 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 8 Power Measurement The power consumption of the INP101x module is measured by either connecting a DMM on the jumper J4 or supplying power directly on J4 using specialty power supplies like Otti Arc from Qiotech. Figure 14 shows the connection setup to measure current consumption using Otti Arc. Figure 14: Current measurement setup using Otti Arc Version 2.4 21 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 9 Using Battery as Power Source Header J4 will switch between VBat and Vm_3.3V. Figure 15 shows VBat connection. Figure 15: J10 Battery connection Note: when using a battery as a power source there will be an additional current draw from LED (D7 or D12 depending on board version). If attempting to measure an accurate module current draw from the battery connection, the LED series resistor must be removed to disconnect the LED. Version 2.4 22 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 10 Antenna This radio transmitter for ISED 25715-INP2045 has been approved by Innovation, Science and Economic Development Canada to operate with the antenna types listed in Table 3, with the maximum permissible gain indicated. Antenna types that are not included in this list having a gain greater than the maximum gain indicated for any type listed are strictly prohibited for use with this device. Module ID Antenna Type INP1010 INP1011 INP1012 INP1013 Model Number Max Peak Antenna Gain (dBi) Not Applicable Printed Antenna SMA Antenna (External Antenna) W24-ASMA-M SMA Antenna (External Antenna) W24-ASMA-M 2450AT42B100 SMD Chip Antenna Table 3: Module ID with Antenna details 0.9 2.15 2.15 0 10.1 INP1010 Talaria TWO module has a proprietary integrated/printed antenna. It is a Double-sided Inverted F

(IFA) antenna and has been implemented as printed PCB elements. By design and verification, Antenna does not require any additional matching component if the module is used as standalone product. Talaria TWO modules antenna has omnidirectional radiating pattern and following performance specifications:

Max (Peak) Antenna Gain Average Antenna Efficiency 0.9 dBi 31.4%

Table 4: INP1010 - Antenna specifications Version 2.4 23 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 10.2 INP1011 This radio transmitter ISED: 25715-INP2045 has been approved by Innovation, Science and Economic Development Canada to operate with the antenna type listed in Table 5, with the maximum permissible gain indicated. Antenna types not included in this list that have a gain greater than the maximum gain indicated for any type listed are strictly prohibited for use with this device. Module ID Antenna Type INP1011 SMA Antenna (External Antenna) W24-ASMA-M Table 5: INP1011 - Antenna specifications 2.15 Model Number Max Peak Antenna Gain (dBi) General features of the antenna are as follows:

1. Frequency (MHz):2400-2500 2. VSWR 1.5 3. Gain(dBi): 2.15 4. Return Loss (dBi): 17 5. power (W): 50 6. Input Impedance (): 50 7. Antenna Length (mm): 50 Version 2.4 24 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 10.3 INP1012 This radio transmitter ISED: 25715-INP2045 has been approved by Innovation, Science and Economic Development Canada to operate with the antenna type listed in Table 6, with the maximum permissible gain indicated. Antenna types not included in this list that have a gain greater than the maximum gain indicated for any type listed are strictly prohibited for use with this device. Module ID Antenna Type INP1012 SMA Antenna (External Antenna) W24-ASMA-M Table 6: INP1012 - Antenna specifications 2.15 Model Number Max Peak Antenna Gain (dBi) General antenna features are as follows:

1. Frequency (MHz): 2400-2500 2. VSWR 1.5 3. Gain(dBi): 2.15 4. Return Loss (dBi): 17 5. power (W): 50 6. Input Impedance (): 50 7. Antenna Length (mm): 50 Version 2.4 25 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 10.4 INP1013 Talaria TWO INP1013 module has a ceramic antenna with the following performance specifications:

Max (Peak) Antenna Gain Average Antenna Efficiency 0 dBi 26%

Table 7: INP1013 - Antenna specifications Version 2.4 26 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 11 FCC/ISED Regulatory Notices 11.1 Modification Statement Changes or modifications made to this equipment not expressly approved by InnoPhase Inc. may void the FCC authorization to operate this equipment. 11.2 Interference Statement This device complies with Part 15 of the FCC Rules and with Industry Canada license-exempt RSS standard(s). 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 Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes:

1. l'appareil ne doit pas produire de brouillage, et 2. l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement 11.3 Radio Frequency Radiation Exposure Statement This device complies with FCC/IC radiation exposure limits set forth for an uncontrolled environment. The device should be installed and operated with minimum distance of 20 CM between the device/antenna and all persons. This device must not be co-located or operating in conjunction with any other antenna or transmitter without further RF Exposure evaluation. Version 2.4 27 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 11.4 RF Exposure Statement for Module Integration This module has been granted modular approval for mobile applications. Host products integrators may use the module in their final products without additional FCC certification if they meet the following conditions. Otherwise. additional FCC approvals must be obtained. 1. The host product with the module installed must be evaluated for simultaneous transmission requirements 2. The user manual for the host product must clearly indicate the operating requirements and conditions that must be observed to ensure compliance with current FCC IC RF exposure guidelines. Version 2.4 28 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 11.5 Labeling Requirements for the Host Device The host device shall be properly labelled to identify the module within the host device. The certification label of the module shall be clearly visible at all times when installed in the host device, otherwise the host device must be labelled to display the FCC ID and IC of the module, preceded by the words "Contains transmitter module", or the word "Contains", or similar wording expressing the same meaning, as follows:

1. Contains FCC ID: 2AVAL-INP2045 2. Contains IC: 25715-INP2045 les modules dans L'quipement hte doit tre correctement tiquet pour l'quipement. L'tiquette de certification du module doit tre clairement visible en tout temps lorsqu'il est install dans l'hte, l'quipement hte doit tre tiquet pour afficher le FCC ID et IC du module, prcd des mots "Contient le module metteur", ou le mot "Contient", ou un libell similaire exprimant la mme signification, comme suit:

identifier 1. Contient FCC ID: 2AVAL-INP2045 2. Contient IC: 25715-INP2045 Version 2.4 29 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 11.5.1 INP1010 11.5.2 INP1011 Figure 16: Labelling requirement - INP1010 Figure 17: Labelling requirement - INP1011 Version 2.4 30 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 11.5.3 INP1012 11.5.4 INP1013 Figure 18: Labelling requirement - INP1012 Figure 19: Labelling requirement - INP1012 Version 2.4 31 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 12 Support 1. Sales Support: Contact an InnoPhase sales representative via email sales@innophaseinc.com 2. Technical Support:

a. Visit: https://innophaseinc.com/contact/

b. Also Visit: https://innophaseinc.com/talaria-two-modules c. Contact: support@innophaseinc.com InnoPhase is working diligently to provide outstanding support to all customers. Version 2.4 32 InnoPhase, Inc. 2021 Talaria TWO Evaluation & Development Kit 13 Disclaimers Limited warranty and liability Information in this document is believed to be accurate and reliable. However, InnoPhase Incorporated does not give any representations or warranties, expressed or implied, as to the accuracy or completeness of such information and assumes no liability associated with the use of such information. InnoPhase Incorporated takes no responsibility for the content in this document if provided by an information source outside of InnoPhase Incorporated. InnoPhase Incorporated disclaims liability for any indirect, incidental, punitive, special or consequential damages associated with the use of this document, applications and any products associated with information in this document, whether or not such damages are based on tort (including negligence), warranty, including warranty of merchantability, warranty of fitness for a particular purpose, breach of contract or any other legal theory. Further, InnoPhase Incorporated accepts no liability and makes no warranty, express or implied, for any assistance given with respect to any applications described herein or customer product design, or the application or use by any customers third-party customer(s). Notwithstanding any damages that a customer might incur for any reason whatsoever, InnoPhase Incorporated aggregate and cumulative liability for the products described herein shall be limited in accordance with the Terms and Conditions of identified in the commercial sale documentation for such InnoPhase Incorporated products. Right to make changes InnoPhase Incorporated reserves the right to make changes to information published in this document, including, without limitation, changes to any specifications and product descriptions, at any time and without notice. This document supersedes and replaces all information supplied prior to the publication hereof. Suitability for use InnoPhase Incorporated products are not designed, authorized or warranted to be suitable for use in life support, life-critical or safety-critical systems or equipment, nor in applications where failure or malfunction of an InnoPhase Incorporated product can reasonably be expected to result in personal injury, death or severe property or environmental damage. InnoPhase Incorporated and its suppliers accept no liability for inclusion and/or use of InnoPhase Incorporated products in such equipment or applications and such inclusion and/or use is at the customers own risk. All trademarks, trade names and registered trademarks mentioned in this document are property of their respective owners and are hereby acknowledged. Version 2.4 33 InnoPhase, Inc. 2021

Version 1.1 InnoPhase, Inc. 6815 Flanders Drive San Diego, CA 92121 innophaseinc.com Talaria TWO EVB-A (INP3010 & INP3011) Extreme Low Power Wireless Platform IEEE 802.11 b/g/n, BLE User Guide for Talaria TWO Evaluation Board Copyright InnoPhase, Inc. 2020, All Rights Reserved User Guide for Talaria TWO Evaluation Board Contents 1 2 3 4 5 10 11 12 13 14 15 Figures ...................................................................................................................................... 2 Tables ....................................................................................................................................... 2 Terms & Definitions ................................................................................................................. 3 Introduction ............................................................................................................................. 4 INP301x Package Contents ..................................................................................................... 4 6 Description of the board .......................................................................................................... 5 6.1 6.2 6.3 6.4 6.5 6.6 Block Diagram .................................................................................................................... 5 Jumpers on the board ........................................................................................................ 6 Power Supply and Mode Switch ........................................................................................ 7 IO Header (J1) .................................................................................................................... 8 Shield Headers (JP1 to JP4) ................................................................................................ 9 On Board Sensors ............................................................................................................ 10 7 Functional Description ........................................................................................................... 11 7.1 Stand-alone mode ........................................................................................................... 11 7.1.1 Driver Installation for Windows OS .......................................................................... 12 7.2 Shield Mode ..................................................................................................................... 17 7.2.1 EVB-A as Wi-Fi Shield with STM32 Nucleo Board .................................................... 17 8 Power Measurement ............................................................................................................. 18 9 Using Battery as Power Source .............................................................................................. 19 Antenna ............................................................................................................................... 20 Power Supply ....................................................................................................................... 21 Talaria TWO Module Integration in End Products .............................................................. 22 FCC/ISED Regulatory Notices .............................................................................................. 23 13.1 Modification Statement ................................................................................................... 23 13.2 Interference Statement ................................................................................................... 23 13.3 Radio Frequency Radiation Exposure Statement ............................................................ 23 13.4 RF Exposure Statement for Module Integration ............................................................. 24 13.5 Labeling Requirements for the Host Device .................................................................... 25 Support ................................................................................................................................ 27 Disclaimers .......................................................................................................................... 27 Version 1.1 1 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 1 Figures Figure 1: INP3011 EVB-A Board with INP1011 module board installed ............................................................... 4 Figure 2: Block diagram of INP301x Evaluation Board .......................................................................................... 5 Figure 3: INP301x EVB-A control and connectivity points .................................................................................... 6 Figure 4: Power supply section ............................................................................................................................. 7 Figure 5: IO Header................................................................................................................................................ 8 Figure 6: J1 Pinout ................................................................................................................................................. 9 Figure 7: Arduino UNO shield compatible jumpers .............................................................................................. 9 Figure 8: On board sensors ................................................................................................................................. 10 Figure 9: Listing devices in Zadig ......................................................................................................................... 12 Figure 10: Updating Talaria TWO USB driver to libusbK ..................................................................................... 13 Figure 11: Device Manager .................................................................................................................................. 14 Figure 12: Update Devices ................................................................................................................................... 15 Figure 13: Select the device driver ...................................................................................................................... 16 Figure 14: INP3010 EVB-A as Wi-Fi Shield ........................................................................................................... 17 Figure 15: Current measurement setup using Otti Arc ....................................................................................... 18 Figure 16: J4 Header ............................................................................................................................................ 19 2 Tables Table 1: Jumper Information ................................................................................................................................. 6 Table 2: FTDI Layout ............................................................................................................................................ 11 Version 1.1 2 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board DPDT FTDI GPIO IO JTAG LED SCL SDA SPI SPDT UART USB 3 Terms & Definitions BLE Bluetooth Low Energy DMM Digital Multimeter Double Pole Double Throw Future Technology Devices International General Purpose Input/Output Input Output Joint Test Action Group Light Emitting Diode Serial Clock Serial Data Serial Peripheral Interface Single Pole Double Throw MPSEE Multi-Protocol Synchronous Serial Engine Universal Asynchronous Receiver-Transmitter Universal Serial Bus Version 1.1 3 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 4 Introduction Welcome to INP301x Talaria TWO evaluation board user guide. This board is designed as an evaluation platform for the INP101x modules. This user guide provides an overview of the evaluation board explaining its key features and functions. 5 INP301x Package Contents The package contains:

1. INP3010 or INP3011 board 2. Micro USB cable 3. Antenna (INP3011 board only) 4. Battery box Figure 1: INP3011 EVB-A Board with INP1011 module board installed Version 1.1 4 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 6 Description of the board 6.1 Block Diagram Figure 2: Block diagram of INP301x Evaluation Board The block diagram of the INP301x Evaluation board is shown in Figure 2. The main component on the board is the INP101x module. Key features of the evaluation board are:

1. Standalone mode vs. Shield mode: Using the mode switch U3, either standalone mode or shield mode can be selected. a. In standalone mode, the INP101x can be accessed via micro USB cable for is recommended for standalone programming and debugging. This mode application development. b. In shield mode, the INP101x module can be interfaced with any host CPU and can provide serial to Wi-Fi capabilities. 2. A peripheral IO header (J1) is available using which all the IOs of the INP101x module can be accessed. 3. Power supply section: Based on the mode, the power for module is derived from either USB or shield header. A battery header is available which can be used as power source as well. 4. On board sensors are available to develop sensor to cloud applications. Version 1.1 5 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 6.2 Jumpers on the board Jumper J1 J2 J3 J4 J7 J8 J9 J10 JP1 to JP4 U3 Figure 3: INP301x EVB-A control and connectivity points Mode and Operation IO header Used to enable Console logging in shield mode Connect LED D1 to GPIO14, for debug purposes Select power from battery connector, also used for current measurements Connect SCL to GPIO4 Connect SDA to GPIO3 Select IO voltage for FTDI IOs Battery terminal Arduino UNO shield compatible header (3.3V support only) Switch between Stand-alone mode and Arduino Shield Mode Table 1: Jumper Information Version 1.1 6 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 6.3 Power Supply and Mode Switch The INP301x board is designed to supply power to the INP101x module in following ways:

1. In standalone mode, power is drawn from USB connector 2. In shield mode, power is drawn from shield connector 3. A battery header is also available to provide power to the module Figure 4: Power supply section The power supply section is shown in the Figure 4. The INP101x module requires 3.3V supply. The DPDT switch (U3) selects between USB and Arduino header supply using the common net Vm_3.3V. The jumper J4 is used to select between battery supply and Vm_3.3V. The same jumper can be used for measuring current consumption of the module. Version 1.1 7 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 6.4 IO Header (J1) The J1 header brings out all the IOs from INP101x module. These IOs can be used for debug, and/or any external interfacing needs. The pinout of this header is shown in Figure 5. To work with on board sensor, pins 1 & 2 needs to be shorted. Figure 5: IO Header Version 1.1 8 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 6.5 Shield Headers (JP1 to JP4) Arduino UNO compatible headers are available in the INP301x board to interface with any compatible host micro-controller. The GPIOs assigned to shield headers are carefully chosen to achieve following capability:

1. INP101xs SPI slave pins available on JP1 2. INP101xs I2C master pins available on JP1 3. Remaining GPIOs are available on JP2 and JP4 Note that INP301x supports 2.5V IO as the default configuration. The shield header connections are shown in Figure 6. Figure 6: J1 Pinout Figure 7: Arduino UNO shield compatible jumpers Version 1.1 9 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 6.6 On Board Sensors Figure 8: On board sensors The INP301x board has following sensors available on board for quick prototyping/testing:

1. Temperature/Humidity (Sensirion SHTC3) 2. Pressure (Bosch BMP388) 3. Light (TI OPT3002) To use the sensors, J7, J8, pins 1 & 2 of J1 should be connected. This enables power connection to the sensors on board, I2C connection on GPIOs 3 & 4. Version 1.1 10 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 7 Functional Description 1. Stand-alone mode 2. Shield mode Following are the functional modes that can be achieved in the INP301x board:

More details about each mode is available in subsequent sections. Switching between the modes is handled by DPDT switch U3 for power, and multi-port SPDT switch U1 for the GPIOs. 7.1 Stand-alone mode The stand-alone mode is intended for following use cases:

1. Host-less application development on INP101x modules 2. Programing access to INP101x modules In stand-alone mode, the U3 switch is pushed towards pin 3, which disconnects power and IO from shield headers and connects them to FTDI. The FTDI port layout is shown in FTDI Bus A B C D Interface to Talaria TWO JTAG RESET UART CONSOLE (UART) Table 2: FTDI Layout The A & B bus of FTDI device supports MPSEE protocol, hence JTAG is assigned to A-bus. The BDBUS7 is connected EN_CHIP of the INP101x module. The C & D bus of FTDI device used as UARTs, with C-bus connected to peripheral UART of INP101x module and D-bus connected is CONSOLE port (GPIO17) of INP101x module. The JTAG on A-bus is used for debugging applications on the INP101x module. The UART on C-bus is used for programming the INP101x module. The CONSOLE port is a unidirectional UART from INP101x module that operates at high baud rate of 2457600, used for debug prints. Version 1.1 11 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 7.1.1 Driver Installation for Windows OS On Windows OS, libusbK driver needs to be installed to communicate and control the Talaria TWO module via the FTDI device on the evaluation board. The tools/applications provided by InnoPhase will use this driver. Install/uninstall instructions for this driver is given subsequent sections. 7.1.1.1 Installation instructions for libusbK driver Download the free software Zadig, available here: - https://zadig.akeo.ie/. Connect your Windows PC or Laptop to the evaluation board using the provided USB cable. Now, open Zadig and click on Options. Select List All Devices and deselect Ignore Hubs or Composite Parents as shown in Figure 9. Figure 9: Listing devices in Zadig Version 1.1 12 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board To establish communication with Talaria TWO module via the FTDI device on the InnoPhase Evaluation Board, the Talaria TWO USB driver must be libusbK. In case the current driver is not libusbK, use the drop-down menu to select libusbK and click on Reinstall Driver which will update the drivers to libusbK. Figure 10: Updating Talaria TWO USB driver to libusbK Version 1.1 13 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 7.1.1.2 Uninstall instructions for libusbK driver To uninstall libusbK and retrieve COM ports, follow the following steps:

1. Expand the libusbK USB Devices and right click on the InnoPhase T2 Evaluation Board. Click on Update Devices as shown in Figure 11. Figure 11: Device Manager Version 1.1 14 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 2. On the new window, click on Let me pick from a list of available drivers on my computer option and click on Next. Figure 12: Update Devices Version 1.1 15 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 3. Select USB Composite Device Driver and install the same for reinstalling COM posts. Figure 13: Select the device driver Version 1.1 16 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 7.2 Shield Mode This mode will make the EVB-A board to act as a Wi-Fi shield. To enable this mode, flip the switch U3 towards V33_ARD. This also pulls up the INA pin of the multi-port SPDT device MAX4761ETX, which then routes the GPIOs from the INP101x module to the shield headers JP1, JP2, JP3 and JP4. In the shield mode a suitable firmware (such as Serial to Wi-Fi application available in the SDK) should be pre-flashed in the INP101x. 7.2.1 EVB-A as Wi-Fi Shield with STM32 Nucleo Board A comprehensive set of host application packages are available to download via ST or InnoPhase websites to demonstrate the use of EVB-A as a Wi-Fi/BLE shield board. Figure 14: INP3010 EVB-A as Wi-Fi Shield Version 1.1 17 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 8 Power Measurement The power consumption of the INP101x module is measured by either connecting a DMM on the jumper J4 or supplying power directly on J4 using specialty power supplies like Otti Arc from Qiotech. Error! Reference source not found. shows the connection setup to measure current consumption u sing Otti Arc. Figure 15: Current measurement setup using Otti Arc Version 1.1 18 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 9 Using Battery as Power Source Header J4 will switch between VBat and Vm_3.3V. Error! Reference source not found. shows VBat c onnection. Figure 16: J4 Header Version 1.1 19 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 10 Antenna Talaria TWO INP1011 module has a U.fl antenna module. The antenna used is an Inventek 2400-

2500Mhz with part number W24-SSMA-M. It has the following specifications:

a) Gain(dBi): 2.15 (dBi refers to the signal power when compared to the output signal power of an isotropic antenna. Antenna gain is the ratio of the signal strength in the direction of strongest radiation to that of an ideal isotropic antenna.) b) Return Loss (dBi): 17 The customer can either use the same part or a part with the same specification or a part with gain

< 2.15 dBi and return loss < 17 dBi. If the customer is compliant with the above specification, the FCC certification could be leveraged. Version 1.1 20 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 11 Power Supply Talaria TWO INP1011 module is designed to use external power supply. It utilizes internal power management circuit including two high efficiency buck converters. External power can be delivered from battery or a power supply connected to pins 2, 3 and AGND. Voltage from power source should be between 2.7V to 4.0V. Version 1.1 21 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 12 Talaria TWO Module Integration in End Products INP1011 Module is provided to customers with a reference interface board (SDK board) as an example of how the module can be integrated on the end product. For specific questions and support need to integrate Talaria TWO into customer platforms, customers are advised to contact InnoPhase Inc. We provide comprehensive support for HW and SW source documentation, design reviews, and verification. Our corporate web site (www.innophaseinc.com) provided links to product briefs, applications, knowledge base and client portal for personalized support to InnoPhase customers. Customers can send also contact InnoPhase by mail for general queries (sales@innophaseinc.com). Version 1.1 22 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 13 FCC/ISED Regulatory Notices 13.1 Modification Statement Changes or modifications made to this equipment not expressly approved by InnoPhase Inc. may void the FCC authorization to operate this equipment. 13.2 Interference Statement This device complies with Part 15 of the FCC Rules and with Industry Canada license-exempt RSS standard(s). 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. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes:

1. l'appareil ne doit pas produire de brouillage, et 2. l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement 13.3 Radio Frequency Radiation Exposure Statement This device complies with FCC/IC radiation exposure limits set forth for an uncontrolled environment. The device should be installed and operated with minimum distance of 20 CM between the device/antenna and all persons. This device must not be co-located or operating in conjunction with any other antenna or transmitter without further RF Exposure evaluation. Version 1.1 23 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 13.4 RF Exposure Statement for Module Integration This module has been granted modular approval for mobile applications. Host products integrators may use the module in their final products without additional FCC certification if they meet the following conditions. Otherwise. additional FCC approvals must be obtained. 1. The host product with the module installed must be evaluated for simultaneous transmission requirements 2. The user manual for the host product must clearly indicate the operating requirements and conditions that must be observed to ensure compliance with current FCC IC RF exposure guidelines. Version 1.1 24 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 13.5 Labeling Requirements for the Host Device The host device shall be properly labelled to identify the module within the host device. The certification label of the module shall be clearly visible at all times when installed in the host device, otherwise the host device must be labelled to display the FCC ID and IC of the module, preceded by the words "Contains transmitter module", or the word "Contains", or similar wording expressing the same meaning, as follows:

1. Contains FCC ID: 2AVAL-INP2045 2. Contains IC: 25715-INP2045 1. Contient FCC ID: 2AVAL-INP2045 2. Contient IC: 25715-INP2045 les modules dans L'quipement hte doit tre correctement tiquet pour l'quipement. L'tiquette de certification du module doit tre clairement visible en tout temps lorsqu'il est install dans l'hte, l'quipement hte doit tre tiquet pour afficher le FCC ID et IC du module, prcd des mots "Contient le module metteur", ou le mot "Contient", ou un libell similaire exprimant la mme signification, comme suit:

identifier Version 1.1 25 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board Talaria TWO INP1011-A2 HVIN: INP1011 YYWW FCC ID: 2AVAL-INP2045 IC: 25715-INP2045 Version 1.1 26 InnoPhase, Inc. 2020 User Guide for Talaria TWO Evaluation Board 14 Support 15 Disclaimers 1. Sales Support: Contact an InnoPhase sales representative via email sales@innophaseinc.com 2. Technical Support:

a. Visit: https://innophaseinc.com/support/

b. Also Visit: https://innophaseinc.com/talaria-two-modules c. Contact: support@innophaseinc.com InnoPhase is working diligently to provide outstanding support to all customers. Limited warranty and liability Information in this document is believed to be accurate and reliable. However, InnoPhase Incorporated does not give any representations or warranties, expressed or implied, as to the accuracy or completeness of such information and assumes no liability associated with the use of such information. InnoPhase Incorporated takes no responsibility for the content in this document if provided by an information source outside of InnoPhase Incorporated. InnoPhase Incorporated disclaims liability for any indirect, incidental, punitive, special or consequential damages associated with the use of this document, applications and any products associated with information in this document, whether or not such damages are based on tort (including negligence), warranty, including warranty of merchantability, warranty of fitness for a particular purpose, breach of contract or any other legal theory. Further, InnoPhase Incorporated accepts no liability and makes no warranty, express or implied, for any assistance given with respect to any applications described herein or customer product design, or the application or use by any customers third-party customer(s). Notwithstanding any damages that a customer might incur for any reason whatsoever, InnoPhase Incorporated aggregate and cumulative liability for the products described herein shall be limited in accordance with the Terms and Conditions of identified in the commercial sale documentation for such InnoPhase Incorporated products. Right to make changes InnoPhase Incorporated reserves the right to make changes to information published in this document, including, without limitation, changes to any specifications and product descriptions, at any time and without notice. This document supersedes and replaces all information supplied prior to the publication hereof. Suitability for use InnoPhase Incorporated products are not designed, authorized or warranted to be suitable for use in life support, life-critical or safety-critical systems or equipment, nor in applications where failure or malfunction of an InnoPhase Incorporated product can reasonably be expected to result in personal injury, death or severe property or environmental damage. InnoPhase Incorporated and its suppliers accept no liability for inclusion and/or use of InnoPhase Incorporated products in such equipment or applications and such inclusion and/or use is at the customers own risk. Version 1.1 27 InnoPhase, Inc. 2020

Label Size: 12 mm x 9 mm Label position: On top of the shield (as shown in the picture below) Label Position 12 mm x 9 mm Label Design:

Request for Permanent Confidentiality Federal Communications Commission Equipment Authorization Division 7435 Oakland Mills Road Columbia, MD 21048 Date: 8/16/2020 Subject:

To Whom It May Concern:

In accordance with 0.457(d) and 0.459 of CFR 47, and KDB 726920, Innophase Inc hereby requests permanent confidentiality for documents filed under the following exhibit types:

(remove non-relevant exhibits from below standard list) FCC ID: 2AVAL-INP2045 1. Block Diagram 2. Schematic Diagram 3. Part List 4. Operational Description These items contain detailed system and equipment description and related information about the product which Innophase Inc considers to be proprietary, confidential and a custom design which otherwise would not be released to the general public. Since this design is a basis from which future technological products will evolve, Innophase Inc also feels that this information would be of benefit to its competitors, and that the disclosure of the information in these exhibits would give our competitors an unfair advantage in the market. We are aware that exhibit types cover letters, attestations, label document, test reports, RF exposure information (SAR and MPE reports), cannot be requested to be classified confidential and are thus subject to publication, as will be documents of all other exhibits types for which we have not requested a confidentiality classification. Best Regards, Bindu Kurian Signature Name: Bindu Anie Kurian Title: Technical Software Architect Company Name: Innophase Inc Address: 6815 Flanders Dr, San Diego, CA 92121

Federal Communications Commission Equipment Authorization Division 7435 Oakland Mills Road Columbia, MD 21048 Date:

Subject:

To Whom It May Concern:

Request for Short Term Confidentiality FCC-ID: 2AVAL-INP2045 In accordance with 0.457(d) and 0.459 of CFR 47, Innophase Inc hereby requests short term confidentiality for documents filed under the following exhibit types:

1. External Photographs 2. Internal Photographs 3. User / Instruction Manual 4. Test Set-up Photographs until the product will be publicly announced. Short term confidentiality release date / period: 180 Days These items contain detailed system and equipment description and related information about the product which Innophase Inc considers to be proprietary, confidential and a custom design which otherwise would not be released to the general public. Since this design is a basis from which future technological products will evolve, Innophase Inc also feels that this information would be of benefit to its competitors, and that the disclosure of the information in these exhibits would give our competitors an unfair advantage in the market. We are informed and aware of our obligation that we have to inform the involved TCB in written and in due time if we intend to market the product prior to the above specified confidentiality release date so that the short term confidentiality classification can be reset prior to product launch. We are aware that exhibit types cover letters, attestations, label document, test reports, RF exposure information (SAR and MPE reports), cannot be requested to be classified confidential and are thus subject to publication, as will be documents of all other exhibits types for which we have not requested a confidentiality classification. Best Regards, Bindu Kurian Signature Name: Bindu Anie Kurian Title: Technical Program Manager Company Name: Innophase Inc Address: 6815, Flanders Drive, San diego, CA

1. 2. 3. 4. Federal Communications Commission Equipment Authorization Division 7435 Oakland Mills Road Columbia, MD 21048 Date: 8/16/2020 Subject:

To Whom It May Concern:

FCC ID: 2AVAL-INP2045 Block Diagram Schematic Diagram Part List Operational Description Request for Permanent Confidentiality In accordance with 0.457(d) and 0.459 of CFR 47, and KDB 726920, Innophase Inc hereby requests permanent confidentiality for documents filed under the following exhibit types:

(remove non-relevant exhibits from below standard list) These items contain detailed system and equipment description and related information about the product which Innophase Inc considers to be proprietary, confidential and a custom design which otherwise would not be released to the general public. Since this design is a basis from which future technological products will evolve, Innophase Inc also feels that this information would be of benefit to its competitors, and that the disclosure of the information in these exhibits would give our competitors an unfair advantage in the market. We are aware that exhibit types cover letters, attestations, label document, test reports, RF exposure information (SAR and MPE reports), cannot be requested to be classified confidential and are thus subject to publication, as will be documents of all other exhibits types for which we have not requested a confidentiality classification. Best Regards, Bindu Kurian Signature Name: Bindu Anie Kurian Title: Technical Software Architect Company Name: Innophase Inc Address: 6815 Flanders Dr, San Diego, CA 92121

Federal Communications Commission Equipment Authorization Division 7435 Oakland Mills Road Columbia, MD 21048 Date:

Subject:

To Whom It May Concern:

Request for Short Term Confidentiality FCC-ID: 2AVAL-INP2045 In accordance with 0.457(d) and 0.459 of CFR 47, Innophase Inc hereby requests short term confidentiality for documents filed under the following exhibit types:

1. External Photographs 2. Internal Photographs 3. User / Instruction Manual 4. Test Set-up Photographs until the product will be publicly announced. Short term confidentiality release date / period: 180 Days These items contain detailed system and equipment description and related information about the product which Innophase Inc considers to be proprietary, confidential and a custom design which otherwise would not be released to the general public. Since this design is a basis from which future technological products will evolve, Innophase Inc also feels that this information would be of benefit to its competitors, and that the disclosure of the information in these exhibits would give our competitors an unfair advantage in the market. We are informed and aware of our obligation that we have to inform the involved TCB in written and in due time if we intend to market the product prior to the above specified confidentiality release date so that the short term confidentiality classification can be reset prior to product launch. We are aware that exhibit types cover letters, attestations, label document, test reports, RF exposure information (SAR and MPE reports), cannot be requested to be classified confidential and are thus subject to publication, as will be documents of all other exhibits types for which we have not requested a confidentiality classification. Best Regards, Bindu Kurian Signature Name: Bindu Anie Kurian Title: Technical Program Manager Company Name: Innophase Inc Address: 6815, Flanders Drive, San diego, CA

(> INNOPHASE Letter of Authorization and Anti- Drug Statement Applicant Name: Innophase Inc. Address: 6815 Flanders Drive, Suite 150, San Diego, CA 92121 Product Name: Talaria-2 INP2045 Module Model Number: INP2045 FCC ID: 2AVAL-INP2045 We authorize:

CETECOM Inc., to act on our behalf on all matters concerning the above named equipment. We declare that CETECOM Inc. is allowed to forward all information related to the approval project to the Federal Communications Commission and discuss any issues concerning the approval application. The applicant must certify that neither the applicant nor any party to the application is 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. Does the applicant or authorized agent so certify? & Yes I certify that I am authorized to sign this application. All of the statements herein and the exhibits attached hereto, are true and correct to the best of my knowledge and belief. In accepting a Grant of Equipment Authorization as a result of the representations made in this application, the applicant is responsible for (1) labeling the equipment with the exact FCC ID specified in this application, (2) compliance statement labeling pursuant to the applicable rules, and (3) compliance of the equipment with the applicable technical rules. If the applicant is not the actual manufacturer of the equipment, appropriate arrangements have been made with the manufacturer to ensure that production units of this equipment will continue to comply with the FCC's technical requirements. Authorizing an agent to sign this application, is done solely at the applicant's discretion;

however, the applicant remains responsible for all statements in this application. If an agent has signed this application on behalf of the applicant, a written letter of authorization which includes information to enable the agent to respond to the above section 5301 (Anti-Drug Abuse) Certification statement has been provided by the applicant. It is understood that the letter of authorization must be submitted to the FCC upon request, and that the FCC reserves the right to contact the applicant directly at any time. Signature of Authorized Person Filing:

oe Ar alhrwe K : (Shahid Mohammad) Title: Director, Technical Program Management Date: 12/3/19 InnoPhase | Transforming RF Solution Energy, Efficiency and Flexibility 6815 Flanders Drive Ste. 150 San Diego, CA 92121 www.innophaseinc.com (619) 541-8280

(> INNOPHASE Federal Communications Commission Equipment Authorization Division 7435 Oakland Mills Road Columbia, MD 21048 Date: 12/3/19 Subject: Request for Permanent Confidentiality FCC ID: ZAVAL-INP2045 To Whom It May Concern:

In accordance with 0.457(d) and 0.459 of CFR 47, and KDB 726920, Innophase Inc. hereby requests permanent confidentiality for documents filed under the following exhibit types:

Block Diagram Schematic Diagram Part List Operational Description PON P These items contain detailed system and equipment description and related information about the product which Innophase Inc. considers to be proprietary, confidential anda custom design which otherwise would not be released to the general public. Since this design is a basis from which future technological products will evolve, Innophase Inc. also feels that this information would be of benefit to its competitors, and that the disclosure of the information in these exhibits would give our competitors an unfair advantage in the market. We are aware that exhibit types cover letters, attestations, label document, test reports, RF exposure information (SAR and MPE reports), cannot be requested to be classified confidential and are thus subject to publication, as will be documents of all other exhibits types for which we have not requested a confidentiality classification. Best Regards, Aral. 116 114 Signature Name: Shahid Mohammad Title: Director, Technical Program Management Company Name: Innophase Inc. Address: 6815 Flanders Drive Ste. 150 San Diego, CA 92121 InnoPhase | Transforming RF Solution Energy, Efficiency and Flexibility 6815 Flanders Drive Ste. 150 San Diego, CA 92121 www.innophaseinc.com (619) 541-8280

Ta olga Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046-1609 Single Modular Approval Statement Date: 2012-01-10 FCC-ID: 2AVAL-INP2045 module FCC ID Modular Approval TO WHOM IT MAY CONCERN Pursuant to Paragraphs FCC part 15.212, we herewith declare for our module. Modular approval requirement Fee ta retine rior aa

(i) The radio elements of the modular transmitter must have their own shielding. The physical crystal and tuning capacitors may be located external

(ii) The modular transmitter must have buffered modulation/data inputs (if such inputs are provided) to ensure that the module will comply with part 15 requirements under conditions of excessive data rates or over-modulation. Yes to the shielded radio elements. Yes

(iii) The modular transmitter must have its own power supply regulation.

(iv) The modular transmitter must comply with the antenna and transmission system requirements of 15.203, 15.204(b) and 15.204(c). The antenna must either be permanently attached or employ a unique antenna coupler (at all Yes 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 raph (b) of this section.

(v) The module shall be tested for compliance with the applicable standard in a stand-alone configuration, i.e. the module must not be located inside another device during testing.

(vi) The modular transmitter must be equipped with either a permanently affixed label or must be capable of electronically displaying its FCC identification number Yes, Label will be affixed on to the shield

(vii) The modular transmitter must comply with any specific rules or operating requirements that ordinarily apply to a complete transmitter and the manufacturer must provide adequate instructions along with the module to explain any such requirements. A copy of these instructions must be included in the application for equipment authorization.

(viii) The modular transmitter must comply with any applicable RF exposure requirements in its final configuration. Best Regards, Yes Shahid Mohammad Director TPM.

TT ela hat Federal Communications Commission Equipment Authorization Division 7435 Oakland Mills Road Columbia, MD 21048 Date: 12/3/19 Subject: Request for Short Term Confidentiality FCC ID: 2AVAL-INP2045 To Whom It May Concern:

In accordance with 0.457(d) and 0.459 of CFR 47, and KDB 726920, Innophase Inc. hereby requests short term confidentiality for documents filed under the following exhibit types:

External Photographs Internal Photographs WO N PP User / Instruction Manual 4. Test Set-up Photographs until the product will be publicly announced. Short term confidentiality release period: 180 days from grant issue date These items contain detailed system and equipment description and related information about the product which Innophase Inc considers to be proprietary, confidential and a custom design which otherwise would not be released to the general public. Since this design is a basis from which future technological products will evolve, Innophase Inc also feels that this information would be of benefit to its competitors, and that the disclosure of the information in these exhibits would give our competitors an unfair advantage in the market. We are informed and aware of our obligation that we have to inform the involved TCB in written and in due time if we intend to market the product prior to the above specified confidentiality release date so that the short term confidentiality classification can be reset prior to product launch. We are aware that exhibit types cover letters, attestations, label document, test reports, RF exposure information (SAR and MPE reports), cannot be requested to be classified confidential and are thus subject to publication, as will be documents of all other exhibits types for which we have not requested a confidentiality classification. Best Regards, Srolnoe resi9 Signature Name: Shahid Mohammad Title: Director, Technical Program Management Company Name: Innophase Inc. Address: 6815 Flanders Drive Ste. 150 San Diego, CA 92121 InnoPhase | Transforming RF Solution Energy, Efficiency and Flexibility 6815 Flanders Drive Ste. 150 San Diego, CA 92121 www. innophaseinc.com (619) 541-8280