Robin Thoni 3304009137 init | 8年前 | |
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Examples | 8年前 | |
.gitignore | 8年前 | |
HC05.cpp | 8年前 | |
HC05.h | 8年前 | |
HardwarSerial.fzz | 8年前 | |
ImprovedPowerCtrl.fzz | 8年前 | |
ImprovedPowerCtrl_bb.png | 8年前 | |
LICENSE | 8年前 | |
LibDevelopment.fzz | 8年前 | |
LibDevelopment_bb.png | 8年前 | |
README.md | 8年前 | |
Recommended_bb.png | 8年前 | |
Recovery.fzz | 8年前 | |
Recovery_bb.png | 8年前 | |
SoftwareSerial.fzz | 8年前 | |
keywords.txt | 8年前 |
Forked from https://github.com/jdunmire/HC05/
An Arduino library for the HC-05 Bluetooth ITead Studio HC-05 Serial Port Module.
See the LICENSE
file for copyright and license information.
The serial port can be configured as any supported Serial port or a SoftwareSerial port.
Includes a demonstration program that can be uses to change the name reported by an HC-05 module.
Additional information is available as an exercise at RockingD Labs.
HC05
A class for controlling and communicating through an ITead Studio
HC-05 Serial Port Module. This class inherits from the Stream class.
The Stream class is extended with the following methods.
findBaud()
Determine HC-05 communications speed. Make this call in setup()
instead of `begin()`. `begin()` is still avaialble and can be used
inplace of `findBaud()` if you know the HC-05 communications speed.
setBaud(unsigned long rate)
Specify the HC-05 communications speed. The speed is non-volatile so
call this only when the rate returned by findBaud() is not the one
you require.
setBaud(unsigned long rate, unsigned long parity, unsigned long stopbits)
Use this method when you need something besides the default no
parity, one stop bit settings that are the default.
__CAUTION!__ The HC-05 supports many serial configurations that are not
compatible with an Arduino. For example, the Arduino software serial
port port supports only no parity, one stop bit settings.
cmd()
Send a command to the module. The 'key' (cmdPin) pin is activated to
put the module in command mode where 'AT' commands are recognized.
cmdMode2Start(int pwrPin)
This is an alternate command mode. This 2nd command mode has the
advantage forcing the HC-05 into a know communications speed: 38400.
However, entering this 2nd command mode requires switching the power
to the HC-05.
cmdMode2End()
Exits the alternate command mode, leaving the power to the HC-05 on.
connected()
(Only if HC05_STATE_PIN is defined in HC05.h
)
Returns true when a BT connection has been established.
write()
print*()
The write(), and print*(), methods block until there is a BT
connection.
The default library configuration uses a software serial port. The
example programs will work with either a hardware or a software serial
port. The configuration is changed by modifying the HC05.h
file.
See the SoftwareSerial.fzz
file for the proper default connections.
(.fzz
files can be read by the free program available from
Fritzing)
changeName
This application is one of the reasons I wrote this library. I
wanted to be able to change the name reported by the HC-05 because I
have multiple HC-05 modules that I kept mixing up. With this program
you can set the name of the HC-05 module to reflect something
physically identifying (or anything else that helps you tell your
modules apart).
echo
Echo characters as they are received.
hc05_test
Tests the disconnect command (AT+DISC). This was something I used
during development and probably is not of general interest.
recover
This example used the 2nd command mode to _recover_ the HC-05 when
its serial port settings are incompatible with the Arduino serial
ports. Power to HC-05 must be controlled by an Arduino pin.
See the `Recovery.fzz` diagram for suitable connections.
findBaudTest
Tests both setBaud() and findBaud() by trying every combination of
supported rates. The output from this example looks best if
DEBUG_HC05 is not defined. (Simply comment out that line in HC05.h).
Follow this GitHub repository
and use git
to track your own changes by cloning:
$ cd ~/sketchbook/libraries $ git clone https://github.com/jdunmire/HC05.git
Start the Arduino IDE and you should find HC05
in the
libraries section.
Download a ZIP file. The ZIP button at GitHub will always get the latest version, but you may prefer one of the tagged versions.
Unpack the zip file into your sketchbook library directory
(~/sketchbook/libraries
on Linux).
Rename the resulting directory (or create a symlink) to ~/sketchbook/libraries/HC05
Start the Arduino IDE and you should find HC05
in the libraries
section.
By default the library is configured for a software serial port and debugging output to the hardware serial port (Serial) is turned on. You will need to edit the HC05.h file if you want to change those settings.
See the SoftwareSerial.fzz
file for the proper default connections.
The HardwareSerial.fzz
shows the hardware port alternative. The files
can be read by the free program available from
Fritzing
The Bluetooth port is btSerial
and must be setup as shown at the top
of the Example sketches. If debugging output is enabled in HC05.h (it is
by default) then your sketch must include a DEBUG_BEGIN(baud) command to
initialize the debug output port and set it’s baud rate.
Using the hardware serial port on the UNO comes with some caveats:
Serial Monitor
you will see the traffic to
and from the HC-05 serial port. If you type in the Serial Monitor
it will interfere with the HC-05 traffic.