BT BoosterPack

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Overview

BT Boosterpack.jpg

BT Boosterpack is a serial port Bluetooth shield for LaunchPad. BT Boosterpack expand the LaunchPad with Bluetooth communication functions, supports master and slave mode. It will be much easier to make your cell phone or laptop to talk with LaunchPad now.

Features

  • LaunchPad / LaucnchPad XL / LaunchPad XLL compatible, and stackable for other BoosterPack
  • Up to10m communication distance in house without obstacle
  • UART interface (TTL) with programmable baud rate (SPP firmware installed)
  • Default baud rate: 38400(CMD MODE) / 9600(DATA MODE), data bits: 8, stop bit: 1, Parity: No parity
  • Default PINCODE: 1234
  • A full set of configuration commandsOn board PCB antenna
  • FCC ID certificated

Specifications

Microprocessor CSR BC417
PCB size 53.34mm X 43.18mm X 1.6mm
Indicators PWR, status, link
Power supply 3.3V DC
IO 2
Communication Protocol UART/Bluetooth 2.0

Electrical Characteristics

Specification Min Type Max Unit
Power Voltage 3 3.3 3.6 VDC
Input Voltage VH(Target Voltage = 3.3V ) 3 3.3 3.6 V
Input Voltage VL: -0.3 0 0.5 V
Current Consumption 20 45 mA

Hardware

BTBoosterpack.jpg

Figure 1 Top view of BT shield V2.2

Pin Map

MODE P1.0
TX P1.1
RX P1.2
BT_Ret P1.3
Status P1.4
Link P1.5
EB6 P1.6
EB7 P1.7

Mode Button

The Mode Button is connected with PIO11 of HC-05. When Mode Button is pressed, the PIO11 of HC-05 will be in HIGH level, and the module will change to AT command mode.

If Mode Button is pressed in different status, HC-05 module will enter different AT mode.

AT command mode 1:

When the Mode Button is pressed after power on or reset (when the boosterpack is working in DATA mode), the boosterpack will enter AT command mode 1. The UART baud rate in AT command mode 1 is the same as Data mode, default 9600bps.

AT command mode 2:

When the Mode Button is pressed before power on, and hold until power on or reset, the boosterpack will enter AT command mode 2. The UART baud rate in AT command mode 2 is 38400bps.

The PIO11 pin is also connect to the P1.0 of LaunchPad, users can use the LanchPad to change the mode of BT Boosterpack in any time.

Reset Button

The Reset Button is connected with reset pin of HC-05. When Reset Button is pressed, the PIO11 of HC-05 will be in LOW level.

When Reset Button is pressed, the BT BoosterPack will reset.

The PIO11 pin is also connect to the P1.3 of LaunchPad, users can use the LaunchPad to reset the BT boosterpack in any time.


PWR LED

PWR LED is the indicator of power supply. When power on, it will keep lighting.

Status LED

The Status LED is connected to PIO8 of HC-05. It is the indicator of the BT Boosterpack working mode.

If the Status LED blinks at 1Hz, BT Boosterpack is in AT command mode 2.

If the Status LED blinks at 2Hz, BT Boosterpack is in AT command mode 1 or in pairing mode (in this mode, cannot transfer data yet).

If the Status LED double blinks, BT Boosterpack has finished pairing, and enter DATA mode, it’s ready for data transfer.

The PIO8 pin is also connect with the P1.4 pin of LaunchPad, users can use the LaunchPad to read the BT Boosterpack working mode.


Link LED

The Link LED is connected to PIO9 of HC-05, and it’s the indicator of Link/Connection status.

  • If the Link LED is light on, BT Boostpack is connected with some other

Bluetooth device, and ready for data transfer.

  • If the Link LED is light off, BT Boostpack is not connected with any other

device.

The PIO9 pin is also connect with P1.5 of Launch Pad, users can use the LaunchPad to read the link/connection status of BT Boosterpack.

AT command

1. Test command:

Command Respond Parameter
AT OK -

2. Reset

Command Respond Parameter
AT+RESET OK -

3. Get firmware version

Command Respond Parameter
AT+VERSION? +VERSION:<Param> OK Param : firmware version

Example:

AT+VERSION?\r\n

+VERSION:2.0-20100601

OK

4. Restore default

Command Respond Parameter
AT+ORGL OK -

Default state:

Slave mode, pin code :1234, device name: H-C-2010-06-01 ,Baud 38400bits/s.

5. Get module address

Command Respond Parameter
AT+ADDR? +ADDR:<Param> OK Param: address of Bluetooth module

Bluetooth address: NAP: UAP : LAP(HEX)

Example:

AT+ADDR?\r\n

+ADDR:1234:56:abcdef

OK

6. Set/Check module name:

Command Respond Parameter
AT+NAME=<Param> OK Param: Bluetooth module name (Default :HC-05)
AT+NAME? +NAME:<Param> OK (/FAIL) Param: Bluetooth module name (Default :HC-05)

Example:

AT+NAME=HC-05\r\n set the module name to HC-05

OK

AT+NAME=ITeadStudio\r\n

OK

AT+NAME?\r\n

+NAME: ITeadStudio

OK

7. Get the Bluetooth device name:

Command Respond Parameter
AT+RNAME?<Param1> 1. +NAME:<Param2> OK 2. FAIL Param1,Param 2 : the address of Bluetooth device

Example: (Device address 00:02:72:od:22:24,name:ITead)

AT+RNAME? 0002,72,od2224\r\n

+RNAME:ITead

OK

8. Set/Check module mode:

Command Respond Parameter
AT+ROLE=<Param> OK Param: 0- Slave 1-Master 2-Slave-Loop
AT+ ROLE? +ROLE:<Param> OK Param: 0- Slave 1-Master 2-Slave-Loop

9. Set/Check device class

Command Respond Parameter
AT+CLASS=<Param> OK Param: Device Class
AT+ CLASS? 1. +CLASS:<Param> OK 2. FAIL Param: Device Class

10. Set/Check GIAC (General Inquire Access Code)

Command Respond Parameter
AT+IAC=<Param> 1.OK 2. FAIL Param: GIAC (Default : 9e8b33)
AT+IAC +IAC:<Param> OK Param: GIAC (Default : 9e8b33)

Example:

AT+IAC=9e8b3f\r\n

OK

AT+IAC?\r\n

+IAC: 9e8b3f

OK

11. Set/Check -- Query access patterns

Command Respond Parameter
AT+INQM=<Param>,<Param2>, <Param3> 1.OK 2. FAIL Param: 0——inquiry_mode_standard 1——inquiry_mode_rssi Param2: Maximum number of Bluetooth devices to respond to Param3: Timeout (1-48 : 1.28s to 61.44s)
AT+ INQM? +INQM :<Param>,<Param2>, <Param3> OK Param: 0——inquiry_mode_standard 1——inquiry_mode_rssi Param2: Maximum number of Bluetooth devices to respond to Param3: Timeout (1-48 : 1.28s to 61.44s)

Example:

AT+INQM=1,9,48\r\n

OK

AT+INQM\r\n

+INQM:1, 9, 48

OK

12. Set/Check PIN code:

Command Respond Parameter
AT+PSWD=<Param> OK Param: PIN code (Default 1234)
AT+ PSWD? + PSWD :<Param> OK Param: PIN code (Default 1234)

13. Set/Check serial parameter:

Command Respond Parameter
AT+UART=<Param>,<Param2>,<Param3> OK Param1: Baud Param2: Stop bit Param3: Parity
AT+UART? +UART=<Param>,<Param2>, <Param3> OK Param1: Baud Param2: Stop bit Param3: Parity

Example:

AT+UART=115200,1,2,\r\n

OK

AT+UART?

+UART:115200,1,2

OK

14. Set/Check connect mode:

Command Respond Parameter
AT+CMODE=<Param> OK Param: 0 - connect fixed address 1 - connect any

address 2 - slave-Loop

AT+ CMODE? + CMODE:<Param> OK Param: 0 - connect fixed address 1 - connect any address 2 - slave-Loop

15. Set/Check fixed address:

Command Respond Parameter
AT+BIND=<Param> OK Param: Fixed address (Default 00:00:00:00:00:00)
AT+ BIND? + BIND:<Param> OK Param: Fixed address (Default 00:00:00:00:00:00)

Example:

AT+BIND=1234,56,abcdef\r\n

OK

AT+BIND?\r\n

+BIND:1234:56:abcdef

OK

16. Set/Check LED I/O

Command Respond Parameter
AT+POLAR=<Param1,<Param2> OK Param1: 0- PIO8 low drive LED 1- PIO8 high drive

LED Param2: 0- PIO9 low drive LED 1- PIO9 high drive LED

AT+ POLAR? + POLAR=<Param1>,<Param2> OK Param1: 0- PIO8 low drive LED 1- PIO8 high drive LED Param2: 0- PIO9 low drive LED 1- PIO9 high drive LED

17. Set PIO output

Command Respond Parameter
AT+PIO=<Param1>,<Param2> OK Param1: PIO number Param2: PIO level 0- low 1- high

Example:

1. PIO10 output high level

AT+PI0=10,1\r\n

OK

18. Set/Check – scan parameter

Command Respond Parameter
AT+IPSCAN=<Param1>,<Param2>,<Param3>,<Param4> OK Param1: Query time interval

Param2 : Query duration Param3 : Paging interval Param4 : Call duration

AT+IPSCAN? +IPSCAN:<Param1>,<Param2>,<Param3>,<Param4> OK Param1: Query time interval Param2 : Query duration Param3 : Paging interval Param4 : Call duration

Example:

AT+IPSCAN =1234,500,1200,250\r\n

OK

AT+IPSCAN?

+IPSCAN:1234,500,1200,250

19. Set/Check – SHIFF parameter

Command Respond Parameter
AT+SNIFF=<Param1>,<Param2>,<Param3>,<Param4> OK Param1: Max time Param2: Min time Param3: Retry time Param4: Time out
AT+ SNIFF? +SNIFF:<Param1>,<Param2>,<Param3>,<Param4> OK Param1: Max time Param2: Min time Param3: Retry time Param4: Time out

20. Set/Check security mode

Command Respond Parameter
AT+SENM=<Param1>,<Param2> 1. OK 2. FAIL Param1:

0——sec_mode0+off

1——sec_mode1+ non_secure

2——sec_mode2_ service

3——sec_mode3_l ink

4——sec_mode_u nknown

Param2:

0——hci_enc_mod e_off

1——hci_enc_mod e_pt_to_pt

2——hci_enc_mod e_pt_to_pt_and_b cast

AT+ SENM? + SENM:<Param1>,<Param2> OK Param1:

0——sec_mode0+off

1——sec_mode1+ non_secure

2——sec_mode2_ service

3——sec_mode3_l ink

4——sec_mode_u nknown

Param2:

0——hci_enc_mod e_off

1——hci_enc_mod e_pt_to_pt

2——hci_enc_mod e_pt_to_pt_and_b cast

21. Delete Authenticated Device

Command Respond Parameter
AT+PMSAD=<Param> OK Param: Authenticated Device Address

Example:

AT+PMSAD =1234,56,abcdef\r\n

OK

22. Delete All Authenticated Device

Command Respond Parameter
AT+ RMAAD OK -

23. Search Authenticated Device

Command Respond Parameter
AT+FSAD=<Param> 1. OK 2. FAIL Param: Device address

24. Get Authenticated Device Count

Command Respond Parameter
AT+ADCN? +ADCN:<Param> OK Param: Device Count

25. Most Recently Used Authenticated Device

Command Respond Parameter
AT+MRAD? + MRAD:<Param> OK Param: Recently Authenticated Device Address

26. Get the module working state

Command Respond Parameter
AT+ STATE? + STATE:<Param> OK Param: "INITIALIZED" "READY" "PAIRABLE" "PAIRED" "INQUIRING" "CONNECTING" "CONNECTED""DISCONNECTED" "NUKNOW"

27. Initialize the SPP profile lib

Command Respond Parameter
AT+INIT 1. OK 2. FAIL -

28. Inquiry Bluetooth Device

Command Respond Parameter
AT+INQ +INQ: <Param1>, <Param2>, <Param3> …. OK Param1:Address Param2 : Device Class Param3 : RSSI Signal strength

Example:

AT+INIT\r\n

OK

AT+IAC=9e8b33\r\n

OK

AT+CLASS=0\r\n

AT+INQM=1,9,48\r\n

At+INQ\r\n

+INQ:2:72:D2224,3E0104,FFBC

+INQ:1234:56:0,1F1F,FFC1

+INQ:1234:56:0,1F1F,FFC0

+INQ:1234:56:0,1F1F,FFC1

+INQ:2:72:D2224,3F0104,FFAD

+INQ:1234:56:0,1F1F,FFBE

+INQ:1234:56:0,1F1F,FFC2

+INQ:1234:56:0,1F1F,FFBE

+INQ:2:72:D2224,3F0104,FFBC

OK

29. Cancel Inquiring Bluetooth Device

Command Respond Parameter
AT+ INQC OK -

30. Equipment Matching

Command Respond Parameter
AT+PAIR=<Param1>,<Param2> 1. OK 2. FAIL Param1 :Device Address Param2:Time out

31. Connect Device

Command Respond Parameter
AT+LINK=<Param> 1. OK 2. FAIL Param : Device Address

Example:

AT+FSAD=1234,56,abcdef\r\n

OK

AT+LINK=1234,56,abcdef\r\n

OK

32. Disconnect

Command Respond Parameter
AT+DISC 1. +DISC:SUCCESS OK 2. +DISC:LINK_LOSS OK 3. +DISC:NO_SLC OK 4. +DISC:TIMEOUT OK 5. +DISC:ERROR OK Param : Device Address

33. Energy-saving mode

Command Respond Parameter
AT+ENSNIFF=<Param> OK Param : Device Address

34. Exerts Energy-saving mode

Command Respond Parameter
AT+ EXSNIFF =<Param> OK Param : Device Address

Application Example

This is a demo that HC-05 is a master device and communicates to hc-06.

Step 1. Push the mode switch to CMD

Step 2. Power on, module enter command state

Step 3. Using baud rate 38400, send the ―AT+ROLE=1\r\n‖ to module, with ―OK\r\n‖ means setting successes.

Step 4. Send ―AT+CMODE=1\r\n‖, set HC-05 connect to any address, with ―OK\r\n‖ means setting successes.

Download

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