User Guide RN4870, RN4871 (Microchip) - 6

FabricanteMicrochip
DescripciónBluetooth Low Energy Module
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RN4870/71 Bluetooth Low Energy Module User’s Guide. CONVENTIONS USED IN THIS GUIDE. DOCUMENTATION CONVENTIONS. Description

RN4870/71 Bluetooth Low Energy Module User’s Guide CONVENTIONS USED IN THIS GUIDE DOCUMENTATION CONVENTIONS Description

Versión de texto del documento

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RN4870/71 Bluetooth Low Energy Module User’s Guide
Appendix A. “Bluetooth Low Energy Fundamentals” provides the Bluetooth Low Energy Fundamentals.

Appendix B. “Transparent UART Service UUIDs” provides an introduction to Transparent UART Service. • Appendix C. “Low-Power Operation” presents how to enable low-power operations. • Appendix D. “Status Response Summary Quick Reference” provides a quick reference of all the status messages returned by the RN4870 and summarizes the ASCII commands.
CONVENTIONS USED IN THIS GUIDE
This manual uses the following documentation conventions:
DOCUMENTATION CONVENTIONS Description Represents Examples Arial font:
Italic characters Referenced books MPLAB
®
IDE User’s Guide Emphasized text ...is the only compiler... Initial caps A window the Output window A dialog the Settings dialog A menu selection select Enable Programmer Quotes A field name in a window or “Save project before build” dialog Underlined, italic text with A menu path File>Save right angle bracket Bold characters A dialog button Click
OK
A tab Click the
Power
tab N‘Rnnnn A number in verilog format, 4‘b0010, 2‘hF1 where N is the total number of digits, R is the radix and n is a digit. Text in angle brackets < > A key on the keyboard Press <Enter>, <F1>
Courier New font:
Plain Courier New Sample source code #define START Filenames autoexec.bat File paths c:\mcc18\h Keywords _asm, _endasm, static Command-line options -Opa+, -Opa- Bit values 0, 1 Constants 0xFF, ‘A’ Italic Courier New A variable argument file.o, where file can be any valid filename Square brackets [ ] Optional arguments mcc18 [options] file [options] Curly brackets and pipe Choice of mutually exclusive errorlevel {0|1} character: { | } arguments; an OR selection Ellipses... Replaces repeated text var_name [, var_name...] Represents code supplied by void main (void) user { ... } DS50002466C-page 6  2016-2018 Microchip Technology Inc. Document Outline Trademarks Table of Contents Preface Chapter 1. Overview 1.1 Introduction 1.2 Key Features 1.2.1 ASCII Command Interface 1.2.2 Transparent UART 1.2.3 Custom GATT Services 1.2.4 Embedded Scripting Feature 1.2.5 Remote Command Console 1.3 Command Mode and Data Mode Figure 1-1: Command Mode and Transparent UART (Data) mode 1.4 Accessing the RN4870/71 over UART Table 1-1: Default UART Settings 1.5 RN4870 PIO Control Lines Chapter 2. Command Reference 2.1 Introduction 2.2 Command Syntax 2.3 Set and Get Commands Table 2-1: Set and Get Commands Syntax Format 2.4 Set Commands 2.4.1 S-,<string> 2.4.2 S$,<char> 2.4.3 S%,<pre>,<post> 2.4.4 SA,<0-5 Table 2-2: Set I/O Capability 2.4.5 SB,<H8> Table 2-3: UART Baud Rate Settings 2.4.6 SC,<0-2> Table 2-4: CONNECTABLE AND NON-CONNECTABLE ADVERTIEMENT SETTINGS 2.4.7 SDA,<H16> 2.4.8 SDF,<text> 2.4.9 SDH,<text> 2.4.10 SDM,<text> 2.4.11 SDN,<text> 2.4.12 SDR,<text> 2.4.13 SDS,<text> 2.4.14 SF,1 2.4.15 SF,2 2.4.16 SGA,<0-5>/SGC,<0-5> Table 2-5: Typical Output Power values 2.4.17 SM,<1-3>,<hex16> 2.4.18 SN,<text> 2.4.19 SO,<0,1> 2.4.20 SP,<4/6 digit pin> 2.4.21 SR,<hex16> Table 2-6: Bitmap of Features 2.4.22 SS,<hex8> Table 2-7: Bitmap of Services 2.4.23 ST,<hex16>,<hex16>,<hex16>,<hex16> Table 2-8: Connection Parameters 2.4.24 STA,<hex16>,<hex16>,<hex16> 2.4.25 STB,<hex16> 2.4.26 SW,<hex8>,<hex8> Table 2-9: Pin Index and RN4870/71 Pins Table 2-10: Configurable Functions 2.5 Get Commands 2.5.1 GK 2.5.2 GNR 2.5.3 G<char> 2.6 Action Commands 2.6.1 +[,<text>] 2.6.2 $$$ 2.6.3 --- 2.6.4 !,<0,1> 2.6.5 @,<0-5> Table 2-11: analog Channels and Associated Pins 2.6.6 |I,<hex8> Table 2-12: Digital I/O Bitmap 2.6.7 |O,<hex8>,<hex8> 2.6.8 [,<1-2>,<0-3>,<hex16>,<hex16> Table 2-13: PWM Operation Selection Figure 2-1: Basic concept of PWM Operation 2.6.9 &,<MAC> 2.6.10 &C 2.6.11 &R 2.6.12 A[,<hex16>,<hex16>] 2.6.13 B 2.6.14 C 2.6.15 C,<0,1>,<address> 2.6.16 C<1-8> 2.6.17 D 2.6.18 F[,<hex16>,<hex16>] 2.6.19 I 2.6.20 IA,<hex8>,<Hex>/IB,<hex8>,<Hex>/IS,<hex8>,<Hex> NA,<hex8>,<Hex>/NB,<hex8>,<Hex>/NS,<hex8>,<Hex> Table 2-14: List of AD Types 2.6.21 JA,<0,1>,<MAC> 2.6.22 JB 2.6.23 JC 2.6.24 JD 2.6.25 K,1 2.6.26 M 2.6.27 O,0 2.6.28 R,1 2.6.29 T,<hex16>,<hex16>,<hex16>,<hex16> 2.6.30 U,<1-8,Z> 2.6.31 V 2.6.32 X 2.6.33 Y 2.6.34 Z 2.7 I2C Commands Table 2-15: I2C Peripheral Interface Table 2-16: I2C Commands 2.7.1 ]A Table 2-17: Clock values 2.7.2 ]Z 2.7.3 ]D 2.7.4 ]R 2.7.5 ]W 2.7.6 ]X 2.8 SPI Commands Table 2-18: SPI Peripheral Interface Table 2-19: SPI Contacts 2.8.1 {A Table 2-20: SPI Clock Polarity and Phase Settings Table 2-21: SPI Master Clock Rate Table 2-22: SPI Chip Select Pin 2.8.2 {Z 2.8.3 {X 2.8.4 }A Table 2-23: SPI Clock Polarity and Phase Settings Table 2-24: SPI Master Clock Rate 2.8.5 }Z 2.8.6 }R 2.8.7 }W 2.9 List Commands 2.9.1 LB 2.9.2 LC[,<P,UUID>] Figure 2-2: Listing Client Service and Characteristics 2.9.3 LS[,<P,UUID>] 2.9.4 LW 2.10 Service Configuration Commands 2.10.1 PC,<hex16/hex128>,<hex8>,<hex8> 2.10.2 PS,<hex16/hex128> 2.10.3 PZ 2.10.4 Defining Multiple Services 2.11 Characteristic Access Commands 2.11.1 Definition of Characteristic Access Commands Table 2-25: Format of GATT access commands 2.11.2 CHR 2.11.3 CHW 2.11.4 CI 2.11.5 SHR 2.11.6 SHW 2.12 Script Commands 2.12.1 WC 2.12.2 WP 2.12.3 WR[,<H6>] Table 2-26: Command WR Input Parameters and Associated Events 2.12.4 WW Chapter 3. Embedded Scripting Feature 3.1 Introduction 3.1.1 Script Overview 3.1.2 Event Driven Table 3-1: List of Events and Event Labels 3.1.3 Comments 3.1.4 Variables 3.1.5 Handle Association 3.1.6 Remote Function Call Chapter 4. Connection Examples 4.1 Connecting to RN4870 using SmartDiscover App Figure 4-1: Connect to the RN4870 module Figure 4-2: Service Discovery Figure 4-3: Characteristic Access 4.2 UART Transparent Connection Using SmartData Figure 4-4: Connect to RN4870 Figure 4-5: Data Exchange on SmartData APP Figure 4-6: Data Exchange on Terminal Emulator 4.3 Module-to-Module Connection Figure 4-7: Connecting two RN4870 modules Appendix A. Bluetooth Low Energy Fundamentals A.1 Introduction Table A-1: Characteristic Properties Figure A-1: GATT Service in RN4870 Appendix B. Transparent UART Service UUIDs B.1 Introduction Table B-1: Characteristic Properties Appendix C. Low-Power Operation C.1 Introduction Figure C-1: State Diagram Appendix D. Status Response Summary Quick Reference D.1 Introduction Table D-1: Status Messages Returned by RN4870 /71 Table D-2: Command Summary Quick Reference AMERICAS Corporate Office Atlanta Austin, TX Boston Chicago Dallas Detroit Houston, TX Indianapolis Los Angeles Raleigh, NC New York, NY San Jose, CA Canada - Toronto ASIA/PACIFIC Australia - Sydney China - Beijing China - Chengdu China - Chongqing China - Dongguan China - Guangzhou China - Hangzhou China - Hong Kong SAR China - Nanjing China - Qingdao China - Shanghai China - Shenyang China - Shenzhen China - Suzhou China - Wuhan China - Xian China - Xiamen China - Zhuhai ASIA/PACIFIC India - Bangalore India - New Delhi India - Pune Japan - Osaka Japan - Tokyo Korea - Daegu Korea - Seoul Malaysia - Kuala Lumpur Malaysia - Penang Philippines - Manila Singapore Taiwan - Hsin Chu Taiwan - Kaohsiung Taiwan - Taipei Thailand - Bangkok Vietnam - Ho Chi Minh EUROPE Austria - Wels Denmark - Copenhagen Finland - Espoo France - Paris Germany - Garching Germany - Haan Germany - Heilbronn Germany - Karlsruhe Germany - Munich Germany - Rosenheim Israel - Ra’anana Italy - Milan Italy - Padova Netherlands - Drunen Norway - Trondheim Poland - Warsaw Romania - Bucharest Spain - Madrid Sweden - Gothenberg Sweden - Stockholm UK - Wokingham Worldwide Sales and Service Worldwide Sales and Service