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.
INP2045 Table of Contents 1. Introduction .................................................................................................................................................. 3 1.1 Package Contents ................................................................................................................................... 3 1.2 Pre-requisites .......................................................................................................................................... 3 1.
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: 1. Talaria TWO INP2045 Module board mounted on SDK board 2. Micro USB cable 1.2 Pre-requisites Following are pre-requisites for the quick start: 1.
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.
INP2045 3. Talaria TWO Block Diagram 4. Talaria TWO Maximum Transmit Power and Operating Temp Mode Wi-Fi: DSSS, 1Mbps 18 dBm Wi-Fi: CCK, 11 Mbps 18 dBm Wi-Fi: OFDM, 54 Mbps 15 dBm Wi-Fi: MCS7, 65 Mbps 12 dBm BLE 10 dBm Talaria TWO Operating Temperature: 5 Maximum TX Power -100C to +750C 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.
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.
INP2045 Figure 5-4 Pinout of 40 Pin Connector 5.1 PCB Layout 7 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.
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 A JTAG B SPI C UART 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.
INP2045 5.4 Pin Description PIN # 9 Name Description 1 AGND Ground connection 2 V_3.3V Power Supply Input 2.7…4.0V 3 V_3.3V Power Supply Input 2.7…4.
INP2045 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 module’s antenna has omnidirectional radiating pattern and following performance specifications: Max (Peak) Antenna Gain 0 dBi Average Antenna Efficiency -5.0 dB (31.4%) 7.
INP2045 9. FCC/ISED Regulatory Notices 9.1 Modification statement Changes or modifications made to this equipment not expressly approved by Innophase Inc. may void the FCC authorization to operate this equipment. 9.2 Interference Statement This device complies with Part 15 of the FCC Rules and with Industry Canada license-exempt RSS standard(s).
INP2045 9.5 Labeling Requirements for the Host Device The host device shall be properly labelled to identify the module within the host device.
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.
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.
INP2045 12. Abbreviations SPI Serial Peripheral Interface UART Universal asynchronous receiver transmitter 13. Revision History Date Version Release Notes 1/5/2020 0.4 FCC/IC Notices added 9/13/19 0.3 ESD Precaution added 9/13/19 0.2 Initial release 9/12/18 0.1 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.