Nothing Special
Modification of mbed-src library only for STM32F030F4, very cheap microcontroller in 20-Pin TSSOP package, with 16Kbytes of Flash and 4Kbytes of Ram. **Target for online compilator must be Nucleo 32F030R8.**
Dependents: STM32F031_blink_LED_2
Information
For programming similar chips in TSSOP20 package, but with 32kB flash: STM32F031F6 and STM32F050F6 (virtually identical to STM32F031F6 and no longer produced but still on sale), it is recommended to use NUCLEO-F031K6 as compiler platform, and the mbed library without the need for any modifications.
Just remember that the only significant difference between these chips and NUCLEO-F031K6 is the lack of pins: PB_0, PB_3, PB_4, PB_5, PB_6, PB_7, PA_11, PA_12, PA_15 in TSSOP-20.
STM32F030F4 pinout (pin functions supported in mbed library).
other pins:
| Pin nr | Pin name | Connected | ST-LINK on Nucleo (programming and debug) |
|---|---|---|---|
| 1. | BOOT0 | GND | |
| 4. | NRST | CN4 pin 5 | |
| 5. | VDDA | +3.3V | |
| 15. | VSS | GND | CN4 pin 3 |
| 16. | VDD | +3.3V | |
| 19. | SWDIO | CN4 pin 4 | |
| 20. | SWCLK | CN4 pin 2 |
- Remove jumpers CN2 on Nucleo when CN4 is connected to STM32F030F4
- NRST connection is not necessarily needed, but in this case, after programming it is necessary to manually reset the target processor
STM32R030F4 programming using Nucleo (any type):
Notes:
- When programming using the Nucleo virtual disk (drag and drop) , first turn on the power STM32F030F4, and then connect Nucleo to USB. When programming with "ST-LINK Utility", it does not matter.
STM32R030F4 programming using Arduino (as a simple USB-Serial converter) and FlyMcu program:
Notes:
- For Usart in STM32F030F4, only 5V tolerant TX, RX pins are pins 17 and 18. Just their uses internal serial bootloader, so you can use such Arduino or other USB-Serial converter operating as standard 5V.
- Where used FlyMcu, binary file from online compiler Mbed need to convert to intel hex file and during the conversion add the data offset 0x08000000 (or if offset is 0, manually add/edit the first line of the .hex file to ":020000040800F2").
- During programming procedure, pin 1 (BOOT0) should be connected to 3.3 V. And before contact with the loader program, temporarily pin 4 (NRST) shorted to GND to reset the chip. After programming BOOT0 is connected to GND.
- In this set with Arduino Uno, the "Flash loader demonstrator" from STM does not work (does not recognize the response from the chip at the initial stage of connection). But with Arduino Duemilanove program "STM Flash loader demonstrator" works perfectly (ver. 2.7.0). And do not need any additional file conversion (as the need for FlyMcu). You can use a binary file directly from the on-line compiler mbed.
Warning.
Because of the small size of the STM32F030F4 flash, for programs that use UART, it is proposed not to use the Serial class but use the <cstdio> (stdio.h) functions that directly use stdout and stdin (e.g printf().putchar(),getchar(),vprintf(),scanf() ).
Example:
version with serial class
#include "mbed.h"
Serial pc(USBTX, USBRX); // tx, rx
int main()
{
pc.printf("Hello World!\n");
}
consuming 13.7kB FLASH and 1.5kB RAM
but this:
version without serial class
#include "mbed.h"
int main()
{
printf("Hello World!\n");
}
consuming only 8.7kB FLASH and 0.4kB RAM
5kB used flash difference (with 16kB total size) !!!
However, if you need other than the default UART settings for stdin and stdout (that is 9600b, pins PA_2, PA_3), you can do as an example:
change uart pins and speed
#include "mbed.h"
// declarations needed to change here the parameters of stdio UART
extern int stdio_uart_inited;
extern serial_t stdio_uart;
int main()
{
// for change pins
serial_init(&stdio_uart, PA_9,PA_10);
stdio_uart_inited=1;
// for change baud rate
serial_baud(&stdio_uart, 115000);
printf("Hello World!\n");
}
uVision users
In the case of online compilation of the program with this library using Keil, to prevent linker errors set in the project options "One ELF Section per Function" and Optimisation: Level 2.
Additional information (and inspiration for this modification):
http://developer.mbed.org/forum/electronics/topic/5184/
http://developer.mbed.org/questions/4643/Does-mbed-support-STM32F030F4/
http://developer.mbed.org/questions/2927/mbed-on-other-packages-stm32f030f4-TSSOP/
http://developer.mbed.org/questions/4139/Programming-STM32F030F4-with-Nucleo-F030/
api/PwmOut.h
- Committer:
- mega64
- Date:
- 2017-02-14
- Revision:
- 11:79a2d67cd509
- Parent:
- 0:38ccae254a29
File content as of revision 11:79a2d67cd509:
/* mbed Microcontroller Library
* Copyright (c) 2006-2013 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef MBED_PWMOUT_H
#define MBED_PWMOUT_H
#include "platform.h"
#if DEVICE_PWMOUT
#include "pwmout_api.h"
namespace mbed {
/** A pulse-width modulation digital output
*
* Example
* @code
* // Fade a led on.
* #include "mbed.h"
*
* PwmOut led(LED1);
*
* int main() {
* while(1) {
* led = led + 0.01;
* wait(0.2);
* if(led == 1.0) {
* led = 0;
* }
* }
* }
* @endcode
*
* @note
* On the LPC1768 and LPC2368, the PWMs all share the same
* period - if you change the period for one, you change it for all.
* Although routines that change the period maintain the duty cycle
* for its PWM, all other PWMs will require their duty cycle to be
* refreshed.
*/
class PwmOut {
public:
/** Create a PwmOut connected to the specified pin
*
* @param pin PwmOut pin to connect to
*/
PwmOut(PinName pin) {
pwmout_init(&_pwm, pin);
}
/** Set the ouput duty-cycle, specified as a percentage (float)
*
* @param value A floating-point value representing the output duty-cycle,
* specified as a percentage. The value should lie between
* 0.0f (representing on 0%) and 1.0f (representing on 100%).
* Values outside this range will be saturated to 0.0f or 1.0f.
*/
void write(float value) {
pwmout_write(&_pwm, value);
}
/** Return the current output duty-cycle setting, measured as a percentage (float)
*
* @returns
* A floating-point value representing the current duty-cycle being output on the pin,
* measured as a percentage. The returned value will lie between
* 0.0f (representing on 0%) and 1.0f (representing on 100%).
*
* @note
* This value may not match exactly the value set by a previous <write>.
*/
float read() {
return pwmout_read(&_pwm);
}
/** Set the PWM period, specified in seconds (float), keeping the duty cycle the same.
*
* @note
* The resolution is currently in microseconds; periods smaller than this
* will be set to zero.
*/
void period(float seconds) {
pwmout_period(&_pwm, seconds);
}
/** Set the PWM period, specified in milli-seconds (int), keeping the duty cycle the same.
*/
void period_ms(int ms) {
pwmout_period_ms(&_pwm, ms);
}
/** Set the PWM period, specified in micro-seconds (int), keeping the duty cycle the same.
*/
void period_us(int us) {
pwmout_period_us(&_pwm, us);
}
/** Set the PWM pulsewidth, specified in seconds (float), keeping the period the same.
*/
void pulsewidth(float seconds) {
pwmout_pulsewidth(&_pwm, seconds);
}
/** Set the PWM pulsewidth, specified in milli-seconds (int), keeping the period the same.
*/
void pulsewidth_ms(int ms) {
pwmout_pulsewidth_ms(&_pwm, ms);
}
/** Set the PWM pulsewidth, specified in micro-seconds (int), keeping the period the same.
*/
void pulsewidth_us(int us) {
pwmout_pulsewidth_us(&_pwm, us);
}
#ifdef MBED_OPERATORS
/** A operator shorthand for write()
*/
PwmOut& operator= (float value) {
write(value);
return *this;
}
PwmOut& operator= (PwmOut& rhs) {
write(rhs.read());
return *this;
}
/** An operator shorthand for read()
*/
operator float() {
return read();
}
#endif
protected:
pwmout_t _pwm;
};
} // namespace mbed
#endif
#endif