ANT/ANT+ Solutions Speed Low-Power Wireless Design

By Stephen Evanczuk

Contributed By Electronic Products


For low-power wireless sensor designs, standards-based protocols offer distinct advantages over proprietary approaches in delivering flexibility and compatibility within networks of intercommunicating nodes. While design solutions based on the Bluetooth® Low Energy (BLE) standard continue to emerge, ANT solutions have become prevalent in many low data rate application segments based on personal-area networks (PANs). In supporting ANT/ANT+ functionality in PAN-based products, engineers can take advantage of drop-in module solutions and ICs from companies such as ANT Wireless and Panasonic.

ANT is a wireless systems architecture that combines a 2.4 GHz ISM-band wireless networking protocol and an embedded systems solution (see ANT Protocol Basics Product Training Module). While ANT provides the base functionality, the ANT+ managed-network protocol supports interoperability between ANT system nodes. Particularly well suited to wireless sensor networks, ANT designs require minimal memory for the stack and can run on a coin cell battery for years for typical low data rate applications.

ANT/ANT+ is widely used for PAN applications in sports, fitness, wellness and home health. In fact, versions of ANT tailored to specific application areas can run in very compact design configurations. For example, ANT code designed specifically for heart rate monitors requires only 2k memory. Nevertheless, ANT/ANT+ offers high flexibility in creating networks of intercommunicating ANT nodes while maintaining crosstalk immunity and reliable communications.

ANT systems are based on firmware created and certified exclusively by ANT Wireless. To support ANT, semiconductor manufacturers rely on ANT Wireless to develop optimized stacks, typically hosted within modular implementations or on-chip firmware. The use of sole-sourced ANT stacks ensures compatibility and allows developers to focus on their specific application of ANT in their systems designs (Figure 1).

ANT Wireless ANT/ANT+ designs

Figure 1: ANT Wireless implements and certifies the lower layers of the ANT protocol, so engineers creating ANT/ANT+ designs need only focus on the upper application-level layers. (Courtesy of ANT Wireless.)

ANT Wireless offers modules and ICs with embedded ANT protocol designed to speed development of ANT/ANT+ applications. The ANT Wireless ANTAP281M4IB and ANTAP281M5IB modules each provide eight ANT channels and feature an integrated F antenna and 32.768 kHz crystal oscillator in a 20 x 20 mm package. The ANTAP281M4IB is surface mountable, while the ANTAP281M5IB provides a connector. ANT Wireless has certified the modules to comply with global radio regulations covering North America, Europe, Japan, and Australia.

Based on the Nordic Semiconductor nRF24AP2 RF IC, the modules feature –85 dBm receiver sensitivity and provide 4 dBm maximum output power. The modules consume 0.5 µA in deep-sleep mode and 2.0 µA in idle mode with inactive channels, while requiring only 15 mA active transmit current (0 dBm) and 17 mA active receiver current.

Each module offers a simple, 17-pinout assignment for the ANTAP281M4IB surface-mount module or 20-pin Molex header for the ANTAP281M5IB module. Engineers can connect the module directly to an applications processor such as the Texas Instruments MSP430F1232 MCU (Figure 2).

ANT Wireless ANTAP281M4IB and ANTAP281M5IB modules

Figure 2: Engineers can simply connect the ANT Wireless ANTAP281M4IB and ANTAP281M5IB modules to a host MCU such as a TI MSP430 series MCU to create a fully functional ANT/ANT+ design. (Courtesy of ANT Wireless.)

ANT Wireless also offers the ANT11TS33M4IB module based on the TI MSP430f22x2/4 MCU and Nordic nRF24L01 RF IC. Supporting eight ANT channels, this module offers similar operating characteristics but also includes ANT Wireless' SensRcore™ operating mode. The ANT Wireless SensRcore is a development platform that allows engineers to program the ANT11TS33M4IB module to operate without an external MCU, using scripts to control operation rather than develop firmware. This offers more rapid development of more compact designs. In this mode, channel configuration parameters are stored in non-volatile memory and are enabled upon power-up. Using SensRcore mode, engineers can develop a wireless sensor that connects directly to the sensor and operates in standalone fashion (Figure 3).

ANT Wireless SensRcore

Figure 3: ANT Wireless SensRcore enables engineers to construct ANT/ANT+ systems without an external MCU and without firmware development. Rather than writing conventional code, engineers write scripts to configure a standalone SensRcode-mode design such as the pressure sensor wireless node illustrated here. (Courtesy of ANT Wireless.)

Engineers can also turn to Panasonic for drop-in ANT/ANT+ solutions. The Panasonic PAN1327/1317 Series RF modules support both ANT protocol and dual-mode Bluetooth connectivity. The PAN1327 includes an antenna in its 9 mm wide x 9.5 mm long x 1.8 mm high package, while the PAN1317 is an antennaless version of the family in a 6.5 x 9 x 1.7 mm package.

In operation, the modules provide –93 dBm receiver sensitivity and 10 dBm output power, requiring only 135 µA in ultra-low power scan mode. Based on the TI CC2567 RF IC (Dev Kit), the PAN1327/1317 modules provide easy integration with TI’s ultra-low power MSP430 MCUs (Figure 4).

The Panasonic PAN1327 module

Figure 4: The Panasonic PAN1327 module combines wireless processor, crystal, filter, antenna and associated components to deliver a drop-in ANT/ANT+ solution, requiring a simple interface with a host MCU. (Courtesy of Panasonic.)

Engineers can also build their own ANT/ANT+ designs based on the TI CC2571 RF IC. The CC2571 supports eight ANT channels and is designed for easy integration through a UART or SPI interface with a host MCU such as the TI MSP430 family. Because the lower layers of the ANT protocol are built into the IC (see, again, Figure 1), host MCU memory requirements are minimal.

The CC2571 features –86 dBm receiver sensitivity and achieves 4 dBm maximum output power delivered to a single-ended 50 Ω load. The device supports multiple serial interface modes, including asynchronous, byte synchronous, and bit synchronous, which are selected using external configuration pins.

Conclusions

The ANT/ANT+ protocol offers advantages in flexibility and low power required in many wireless applications. Available modules and ICs implement certified ANT stacks needed to build efficient designs. Using these modules and ICs, engineers can more easily build highly flexible, low-power wireless solutions able to exploit the advantages of the ANT/ANT+ protocol for low data rate applications like wireless sensors.

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About this author

Stephen Evanczuk

Stephen Evanczuk has more than 20 years of experience writing for and about the electronics industry on a wide range of topics including hardware, software, systems, and applications including the IoT. He received his Ph.D. in neuroscience on neuronal networks and worked in the aerospace industry on massively distributed secure systems and algorithm acceleration methods. Currently, when he's not writing articles on technology and engineering, he's working on applications of deep learning to recognition and recommendation systems.

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Electronic Products

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