PARTNERS

Mamiel Co., Ltd.

Partners

InnoPhase IoT Inc., headquartered in SanJose, CA, is a fabless wireless semiconductor platform company dedicated to enable the promise of Internet of Things (IoT) solutions.Its flagship product, the Talaria TWO™ multiprotocol chipset and modules, delivers the world’s lowest-power Wi-Fi radio to the rapidly growing untethered battery-operated IoT device market. InnoPhase IoT enables end-to-end market-ready extreme low power wireless IoT solutions with extended battery life, a low total cost of ownership (TCO), high-performance wireless use cases and rapid time to market.

 

For more information, contact info@innophaseiot.com or visit the  InnoPhase IoT.com website

Talaria TWO™ Modules

Easy to use, low power wireless modules with certifications and technical support

  • Groundbreaking digital polar radio architecture
  • The industry’s lowest power Wi-Fi connectivity
  • BLE5 with Advanced Features including Long-Range
  • Variety of antenna options
Ideally suited for smart door locks, remote security cameras, connected sensors or other space-
constrained products within home, commercial, industrial and health markets.
The IoT battery-based Wi-Fi market is at an inflection point, expected to hit 1 billion units by 2025, according to ABI Research. And the multi-award-winning Talaria TWO wireless modules are poised to accelerate that growth. The modules solve the most critical issue which has impeded that growth, drastically reducing Wi-Fi power consumption. The Talaria TWO Wi-Fi + BLE platform makes it possible for products to be battery-based for the first time or enables them to last months or years longer.

The highly successful Talaria TWO module family (INP1010 / 1011 / 1012 / 1013 / 1014 / 1015) are complete solutions with integrated wireless connectivity plus microcontroller for edge-of-network IoT designs that require a direct-to-cloud connection. The newest modules (INP1012/13/14/15) offer a smaller form factor that are forty percent smaller than the INP1010/1011. They include the groundbreaking digital polar radio architecture with the industry’s lowest power Wi-Fi connectivity. The module solutions are ideally suited for smart door locks, connected sensors, security cameras, asset tracking devices, health monitoring wearables, audio speakers and many other IoT products within home, commercial, industrial and health markets.

The modules unleash design engineers’ imagination to add more intelligence and functionality to products. In addition to the small size, they offer a variety of antenna options and meet the growing demand for faster time to market.  The entire module family uses the Talaria TWO Multi-Protocol SoC, a CES 2020 Innovation Award honoree, with Wi-Fi and BLE5 for wireless data transfer, an embedded Arm Cortex-M3 for system control and user applications plus advanced security elements for device safeguards.

The modules can operate in stand-alone mode, in conjunction with an external MCU or in a hybrid mode where the system control and processing responsibilities are shared between the module and an external MCU. Using the module is easy – just connect a single power supply and GPIOs to your peripherals then the system is ready for use.
All modules will be certified with the Wi-Fi Alliance and Bluetooth SIG and include government body certifications such as FCC, IC (Canada) and CE/RED approval. The key differences between the modules are listed below:
Key Product Features
Complete Talaria TWO system integrated into a solder-down module with the following wireless and processing features:
Feature Details
Wi-Fi Technology 802.11 b/g/n up to MCS7, Single-Stream (1×1)
BluetoothTechnology BLE5.0 w/ Advanced Features: 2Mbps PHY, LE Coding (Long-Range), Extended Advertising
Frequency Band 2.4GHz
Application Processor Arm Cortex-M3, 80MHz
Embedded Memories 512KB SRAM, 2MB Flash
Host Interface Options UART, SPI (slave)
Twelve (12) Configurable GPIOs GPIO, PWM, PDM, SPI, SDIO, UART, JTAG, I2C, I2S and Tx Console
ADC Input 10-bit SAR, Internal Fixed 1.0V Reference Voltage
Hardware Based Security PUF (Physically Unclonable Function), Crypto Engines, Secure Boot
Functional modes Hosted Mode (with external MCU), Hostless Mode (without external MCU) or Hybrid Mode (low power system monitoring & wakeup on Talaria TWO MCU, higher power processing on external MCU/GPU)
Wi-Fi Active Mode Power/Performance (@3.3V) 31mA (Rx Mode @ 1Mbps 802.11b), 178mA (Tx Mode @ 1Mbps 802.11b +17.5dBm)
Wi-Fi Power Save Mode 802.11b, 1Mbps (Clean Environment, @3.3V) 57uA (DTIM10)
Deep Sleep Mode (@3.3V) 19uA (RTC, memory retained)
Temperature Range -40C to +85C
Antenna INP1010 – PCB Antenna (PIFA)
INP1011 – U.FL Antenna Connector
INP1012 – RF Pad
INP1013 – Ceramic Chip Antenna
INP1014 – PCB Antenna
INP1015 – U.FL Antenna Connector
Packaging INP1010: 21.6mm x 19.1mm x 2.5mm (height at shield), 26 Castellated Pins
INP1011: 21.6mm x 19.1mm x 2.5mm (height at shield), 26 Castellated Pins
INP1012: 15.0mm x 12.8mm x 2.5mm (height at shield), 37 Solder Pads
INP1013: 20.0mm x 12.8mm x 3.1mm (height at antenna), 30 Solder Pads
INP1014: 20.0mm x 12.8mm x 2.5mm (height at shield), 30 Solder Pads
INP1015: 17.0mm x 12.8mm x 2.5mm (height at shield), 30 Solder Pads
Application Development Kits
We are developing a variety of innovative Application Development Kits (ADKs) using Talaria TWO as the key functional building block. The solutions will be optimized for the best power and performance that only Talaria TWO can deliver. Kit contents will include form-factor hardware, software, block-diagrams, schematics, and the ability to modify the architecture to meet your specific requirements.
Application examples: Asset tag, smart video, health monitoring, smart sensors and more to come!

Contact us for more information:  sales@innophaseiot.com

Evaluation & Development Kits (INP301x)
The INP3010/3011/3012/3013/3014/3015 EVB-A Development Boards include everything needed for evaluating the Talaria TWO module’s performance and capabilities. They can also be used for initial system integration and development.

Features of the EVB-A hardware include:

  • Arduino UNO format interface board with mounted Talaria TWO Module (INP1010, INP1011, INP1012, INP1013, INP1014 or INP1015) for easy evaluation in stand-alone mode or in conjunction with an external MCU
  • Integrated Pressure/Humidity, Temperature and Light sensors for prototyping. Other sensor connection possible through available I2C or SPI ports.
  • Pre-compiled software binaries for quick evaluation of the module’s key performance specifications
  • USB connectivity for power, loading programs onto the board and terminal message printout
  • Connection to available GPIO through central header pins or through Arduino header pins at the board edge
  • Power supplied from USB, external Arduino board or optional battery connection
  • External antenna included for INP3011, INP3012 and INP3015 kits
  • Port available for direct measurement of module current consumption
Additional EVB-A Feature: Host MCU Interface Package for STM32 Nucleo Development Boards
Certain designs require a main MCU with specialized, high performance processing and high number of peripheral interfaces plus wireless networking for data and cloud connectivity from an external chipset. In these Hosted Mode scenarios, the Talaria TWO Module can be a Serial-to-Wireless device providing Wi-Fi and BLE data connections while concurrently managing the IP networking stack.
InnoPhase has developed a self-contained application that runs on the Talaria TWO module and associated host interface drivers that run on the STM32L4 MCU. The two applications allow the MCU host to communicate with the Talaria TWO module over serial connection, either SPI or UART, and simplifies the Talaria TWO control commands to straightforward MCU function calls. Both applications for the Talaria TWO module and the STM32L4 MCU are available as part of the evaluation Software Package download below.
InnoPhase has developed a self-contained application that runs on the Talaria TWO module and associated host interface drivers that run on the STM32L4 MCU. The two applications allow the MCU host to communicate with the Talaria TWO module over serial connection, either SPI or UART, and simplifies the Talaria TWO control commands to straightforward MCU function calls. Both applications for the Talaria TWO module and the STM32L4 MCU are available as part of the evaluation Software Package download below.
Includes support for either the ST NUCLEO-L433RC or NUCELO-L4A6ZG platforms. The L4A6ZG is used when an encrypted serial connection between the Host MCU and Talaria TWO is required.
ST NUCLEO-L433RC (bottom) with INP3010 EVB-A (top)
Documentation & Software
Listed in this section are documents and software available for public download. These files will enable an initial evaluation of the Talaria TWO modules power consumption and throughput performance.

To start your evaluation, please purchase an INP3010, INP3011, INP3012, INP3013, INP3014 or INP3015 evaluation kit from our authorized distributors listed in the Product Availability section below. Then download our documentation and evaluation software package to start programming the board to test various functional capabilities of the Talaria TWO modules.

Once you are ready to start an in-depth development, the software development kit (SDK), additional software examples and more detailed documentation is available within our private Customer Portal. Please go to our Customer Portal Registration page for more information on how to register and gain access to the additional content.

Documentation:

Evaluation Software

(Version 2.6, Release Date 25-NOV-2022, 185MB)

The software included in the downloadable .zip file are various evaluation binaries and the associated programming tool for the INP301x EVB-A boards. Details about the software are below:

  • I-CUBE-T2-STW for STM32L4 MCU
    Includes Host API (MCU, SW Binary) and hapi_demo.elf (Talaria TWO, Serial-to-Wireless, SW Binary) applications. These applications provide an open or encrypted serial connection between a STM32L4 MCU and the Talaria TWO modules over SPI or UART.
  • Multi-Purpose Demo (MPD) Application
    This application is used to evaluate key functionality of the Talaria TWO modules, including current consumption for different Wi-Fi listen intervals, data transmission over various protocols, throughput performance using iPerf3 and other optimization settings. Windows and Linux Application GUIs are included. See the User Guide for Talaria TWO MPD Demo Tool document above for more information.
  • AT Commands
    Software and documentation package for controlling Talaria TWO from a Host MCU using AT Commands. Communicates over SPI or UART. Includes Wi-Fi, BLE, Networking and FOTA commands.
  • Download Tool
    Software GUI to program & erase applications and file system contents on Talaria TWO.  Also includes a console window for viewing Talaria TWO print messages.  Includes Windows and Linux versions.
(Note: you will be asked to accept an evaluation license agreement by entering your name, email address and clicking “I Agree” in a pop-up window to gain access to the evaluation software package. Please make sure your browser will allow pop-ups.)