the PDF - Nordic Semiconductor
Contents
1. SNNORDIC Getting started with Bluetooth low energy wireless design Nordic s uBlue prototype development kit simplifies the design and test of wireless connectivity based on the company s uBlue Bluetooth low energy single mode peripheral solution By Sebastien Mackaie Blanchi and Alf Helge Omre Note Blue font indicates text reproduced on website Bluetooth low energy technology has been designed for applications where Classic Bluetooth technology is not viable because of severe power restraints All of these applications will have one thing in common they incorporate sensors or user interfaces typically powered by coin cell batteries sending small amounts of data infrequently The likely early applications include Personal User Interface Devices PUID such as watches Proximity Battery Status Temperature and Heart Rate Other health and fitness monitoring profiles such as blood glucose and pressure cycle cadence and cycle crank power will follow And because this is the first time a ULP wireless technology with guaranteed interoperability has been available to electronics designers Bluetooth low energy promises to extend wireless connectivity to hundreds of new products Despite its promise implementing Bluetooth low energy technology will not be trivial But with a little help from the chip suppliers a competent engineer should be able to meet the challenge of implementing a Bluetooth low energy powered wireless connection2. applications by using extensive source code and manuals delivered in the kit Although RF design will never be trivial with the uBlue prototype kit access to the exciting world of interoperable ULP wireless connectivity is much less of a challenge About the author Sebastien Mackate Blanchi is a Field Application Engineer and Alf Helge Omre is Business Development Manager Bluetooth low energy wireless technology with Nordic Semiconductor Nordic Semiconductor is a leading member of the group developing the Bluetooth low energy wireless specification The company expects to be among the first to market standalone devices meeting the specification For more go to www nordicsemi com DOCUMENT ENDS NORDIC SEMICONDUCTOR 2010 www nordicsemi com
3. into their next portable product Built on proven technology Nordic Semiconductor a company with over a decade of experience in 2 4GHz ultra low power ULP wireless design and a member of the Bluetooth SIG has played a significant role in drawing up the specification for Bluetooth low energy wireless technology which has now been adopted as a hallmark feature of the Bluetooth Core Specification Version 4 0 As befits its reputation as a leading RF chip supplier Nordic has developed a family of Bluetooth low energy silicon solutions called Blue MicroBlue The first device the nRF8001 has already been released in sample quantities to developers ahead of full qualification once the complete specification is released in the summer of 2010 See figure 1 Figure 1 Nordic s uBlue nRF8001 single mode Bluetooth low energy peripheral chip has already been released in sample quantities to developers The nRF8001 is a single mode peripheral chip in a 32 pin 5 by 5mm QEN package incorporating a fully embedded radio link controller and host subsystem suitable for watches sensors and remote controls among other applications To accompany the chip and to ease the challenge of electronics engineers designing nRF8001 based wireless connectivity Nordic has also released the uBlue prototype kit and uBlue Software Development Kit SDK This SDK is built around Nordic s existing nRFgo development platform that has been available f
4. apidly without any errors caused by a misunderstanding of the Bluetooth low energy Host specification Because there is no possibility that the application software can corrupt the pre qualified Nordic software stack running on the nRF8001 the Qualification process is much simplified Supplied with Profiles The uBlue SDK is supplied complete with Bluetooth low energy Profiles developed by Nordic The full source code and binary files are delivered with the SDK so it s possible to easily test the Bluetooth low energy capabilities of uBlue right out of the box Any new Profile will appear through a Service Discovery tool Developers can use this tool to read or write data and check the correct behaviour of their Slave product The Battery Status Profile and Proximity Profile which the Bluetooth SIG considers to be two of the most common profiles for single mode peripheral devices can be easily understood by viewing the step by step demonstration of the Nordic Profiles detailed in the user s manual The Profiles have been developed using the Keil development environment and can be downloaded into the application processor using nRFgo Studio The uBlue prototype kit offers complete hardware and software suites to enable immediate testing of Nordic s uBlue Bluetooth low energy solution Developers can re use well known tools either from Nordic or from other suppliers to quickly integrate Blue in their system solution and write new
5. by available devices However note that better reactivity will be at the expense of increased power consumption A familiar environment Software development is based on the Keil IDE Keil s product is available for most widely deployed microprocessors By basing its device software development on the Keil tool suite Nordic is providing developers with a familiar environment Moreover this allows the re use of Nordic sample applications source code and the modification or merger of this code with any code the developer has written previously All source code is in C language and structured so that application processor architecture specific routines are independent from the main application code It is therefore easy to port the code to an application processor other than the nRF8200 as only these architecture specific hardware abstraction routines have to be modified to suit the selected processor The nRF8001 integrates a qualified Bluetooth low energy software stack including Host and Link Layers The upper layer Profiles reside on the application processor but are downloaded to the nRF8001 before runtime The nRF8001 is then controlled through a simple software interface This interface is designed to simplify the complex Bluetooth low energy specification details removing the burden of acquiring intimate knowledge of the Bluetooth low energy specification from developers Consequently profiles can thus be developed and tested r
6. for an application processor to handle an SPI connection using bit banging allowing even the least expensive processor to be connected to the uBlue chip Determining optimum settings The nRF2739 master emulator platform offers a fully functional Bluetooth low energy Master device and complements the peripheral device The master emulator is controlled through a USB connection to a computer See figure 3 Figure 3 A master emulator platform offers a fully functional Bluetooth low energy Master device and is controlled through a USB connection to a computer Nordic has developed several proprietary tools each offering high level functionality to simplify control of the Master device Chief among these tools is the Master Control Panel which provides full control of the Bluetooth low energy Master device Among the main features of the Master Control Panel are device scanning display of device information selection and connection disconnection to a specific device pairing and bonding Bluetooth low energy security procedures scan of Slave device services and details about services characteristics and read and write of characteristics values The Master Control Panel can execute high level procedures developed to test Bluetooth low energy features with just a few mouse clicks The panel also features a detailed trace to quickly identify potential issues during peripheral device application development The Panel allows precision configuratio
7. n of the Bluetooth low energy connection parameters that are the key to understanding estimating and measuring performance and power consumption trade offs from both the Bluetooth low energy Slave and the Master points of view Using these settings it s simple for a developer to determine the optimum Bluetooth low energy connection settings required by the embedded applications in order to meet the end product s performance specification In addition to the development tools facilitated by the Master Control Panel it s also possible to tune some specific parameters of the Bluetooth low energy specification in order to adapt the Master device s behaviour to suit the end product For example while the connection interval slave latency and supervision timeout are set by the Master device they will directly impact the Slave device data transfer rate and power consumption in addition these parameters determine reactivity to a link loss With power consumption the critical concern for Bluetooth low energy devices this tool allows the designer to anticipate worst case scenarios that could come from a high demanding Master application In a second example of how specific parameters affect behaviour the scan interval and scan window parameters will determine the Master device reactivity in analysing the available Bluetooth low energy network for example new devices in detection range devices no longer in detection range and features supported
8. nclude an onboard microprocessor reducing size cost and power consumption and allowing the developer to select their own choice of microprocessor While the nRF8200 is based on a cost effective 8051 microprocessor manufacturers can use their own choice of microprocessor if preferred A uBlue module nRF2731 is then plugged on top of the nRF2735 and incorporates the nRF8001 uBlue chip The device is connected to the application processor through an SPI interface widely available on most microprocessors on the market and offering fast data transfer capabilities See figure 2 Figure 2 The uBlue prototype development kit comprises an nRFgo motherboard daughterboard including an application processor and uBlue module including Bluetooth low energy transceiver Developers wishing to use their own choice of application processor have the option to connect this module directly to their own development environment as well The two connectors on the nRF2731 are standard 10 pin connectors one is dedicated to the nRF In System Programmer ISP that enables Flash memory programming the other is dedicated to the application processor SPI interface If the selected application processor doesn t offer an SPI interface it s still possible to use a bit banging technique to connect to the uBlue chip If using this technique software controlled I O lines are sufficient to handle SPI transfers The uBlue SDK includes C language source code
9. or several years to customers working with the company s proprietary nRF24xxx 2 4GHz ULP transceivers nRFgo integrates hardware and software tools to provide easy control of the application processor hardware and software through a graphical user interface in the nRFgo studio Such tools include handling of the data in non volatile memory test modes power control internal software configuration and more The uBlue prototype kit comprises a peripheral device based around the Blue chipset and a proprietary Master emulator that allows the user to develop and test their own Bluetooth low energy Slave device applications The hardware platform of the peripheral device is the nRFgo motherboard nRF6310 that can be used for any product in the company s transceiver families either proprietary or Bluetooth low energy Consequently existing customers will find working with wBlue chips easier as the development environment is familiar while new customers will benefit from a market proven development environment The nRFgo motherboard offers external access to the connected device pins as well as simple interfaces such as buttons LEDs a UART or even an additional display allowing designers to implement their targeted end product user interfaces The nRF2735 daughterboard plugged on top of the nRF6310 offers an application processor Nordic s nRF8200 which executes the peripheral device customer application the nRF8001 uBlue chip doesn t i
Download Pdf Manuals
Related Search