Kazuki Yamamoto
The official mbed C/C SDK provides the software platform and libraries to build your applications.
Fork of
mbed
by 
mbed official
(01.May.2014) started sales! http://www.switch-science.com/catalog/1717/
(13.March.2014) updated to 0.5.0
This is a pin conversion PCB from mbed 1768/11U24 to arduino UNO.
- So if you have both mbed and arduino shields, I guess you would be happy with such a conversion board :)
Photos
- Board photo vvv
- Schematic photo vvv
- Functionality photo vvv
Latest eagle files
PCB >> /media/uploads/k4zuki/mbedshield050.brd
SCH >> /media/uploads/k4zuki/mbedshield050.sch
BIG changes from previous version
- Ethernet RJ45 connector is removed.
- http://mbed.org/components/Seeed-Ethernet-Shield-V20/ is the biggest hint to use Ethernet!
MostALL of components can be bought at Akizuki http://akizukidenshi.com/- But sorry, they do not send parts to abroad
- Pinout is changed!
| arduino | 0.4.0 | 0.5.0 |
|---|---|---|
| D4 | p12 | p21 |
| D5 | p11 | p22 |
| MOSI_ | none | p11 |
| MISO_ | none | p12 |
| SCK_ | none | p13 |
This design has bug(s)
- I2C functional pin differs between 1768 and 11U24.
Fixed bugs here
- MiniUSB cable cannot be connected on mbed if you solder high-height electrolytic capacitor on C3.
- http://akizukidenshi.com/catalog/g/gP-05002/ is the solution to make this 100% AKIZUKI parts!
- the 6-pin ISP port is not inprimented in version 0.4.0
it will be fixed in later version 0.4.1/0.4.2/0.5.0This has beenfixed
I am doing some porting to use existing arduino shields but it may faster if you do it by yourself...
you can use arduino PinName "A0-A5,D0-D13" plus backside SPI port for easier porting.
To do this you have to edit PinName enum in
- "mbed/TARGET_LPC1768/PinNames.h" or
- "mbed/TARGET_LPC11U24/PinNames.h" as per your target mbed.
here is the actual list: This list includes define switch to switch pin assignment
part_of_PinNames.h
USBTX = P0_2,
USBRX = P0_3,
//from here mbeDshield mod
D0=p27,
D1=p28,
D2=p14,
D3=p13,
#ifdef MBEDSHIELD_050
MOSI_=p11,
MISO_=p12,
SCK_=p13,
D4=p21,
D5=p22,
#else
D4=p12,
D5=p11,
#endif
D6=p23,
D7=p24,
D8=p25,
D9=p26,
D10=p8,
D11=p5,
D12=p6,
D13=p7,
A0=p15,
A1=p16,
A2=p17,
A3=p18,
A4=p19,
A5=p20,
SDA=p9,
SCL=p10,
//mbeDshield mod ends here
// Not connected
NC = (int)0xFFFFFFFF
SPI.h
- Committer:
- simon.ford@mbed.co.uk
- Date:
- 2009-01-22
- Revision:
- 5:62573be585e9
- Parent:
- 4:5d1359a283bc
- Child:
- 11:1c1ebd0324fa
File content as of revision 5:62573be585e9:
/* mbed Microcontroller Library - SPI
* Copyright (c) 2006-2009 ARM Limited. All rights reserved.
* sford
*/
#ifndef MBED_SPI_H
#define MBED_SPI_H
#include "Base.h"
#include "LPC2300.h"
namespace mbed {
/* Class: SPI
* A SPI Master, used for communicating with SPI slave devices
*
* The default format is set to 8-bits, mode 0, and a clock frequency of 1MHz
*
* Most SPI devices will also require Chip Select and Reset signals. These
* can be controlled using <DigitalOut> pins
*
* Example:
* > // Send a byte to a SPI slave, and record the response
* >
* > #include "mbed.h"
* >
* > SPI device(5, 6, 7); // mosi, miso, sclk
* >
* > int main() {
* > int response = device.write(0xFF);
* > }
*/
class SPI : public Base {
public:
/* Constructor: SPI
* Create a SPI master connected to the specified pins
*
* Variables:
* mosi - SPI Master Out, Slave In pin
* miso - SPI Master In, Slave Out pin
* sclk - SPI Clock pin
* name - (optional) A string to identify the object
*
* Pin Options:
* (5, 6, 7) or (11, 12, 13)
*
* mosi and miso can each be specfied as NC (not connected) e.g. (5, NC, 7)
*/
SPI(int mosi, int miso, int sclk, const char *name = NULL);
/* Function: format
* Configure the data transmission format
*
* Variables:
* bits - Number of bits per SPI frame (4 - 16)
* mode - Clock polarity and phase mode (0 - 3)
*
* > mode | POL PHA
* > -----+--------
* > 0 | 0 0
* > 1 | 0 1
* > 2 | 1 0
* > 3 | 1 1
*/
void format(int bits, int mode = 0);
// old one, to be removed over time...
void format(int bits, int polarity, int phase) __attribute__((deprecated));
/* Function: frequency
* Set the bus clock frequency
*
* Variables:
* hz - SCLK frequency in hz (default = 1MHz)
*/
void frequency(int hz = 1000000);
/* Function: write
* Write to the SPI Slave and return the response
*
* Variables:
* value - Data to be sent to the SPI slave
* returns - Response from the SPI slave
*/
int write(int value);
virtual const struct rpc_method *get_rpc_methods();
static struct rpc_class *get_rpc_class();
protected:
void configure();
int _id;
int _uid;
static int _uidcounter;
int _bits, _polarity, _phase, _hz;
static int _config[2];
};
}
#endif