This Automatic mode is the most simple lib for MCU Gear. You don't need to think about Bank.
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This is a MCU Gear Automatic mode library.¶
(日本語は英語の次に書いてあります。)
MCU Gear is a digital wiring extension board.(A kind of dynamic circuit changer.)
It can change its wiring dynamically, without the need of rewiring your device.
Your MCU can be connected to a theoretical maximum of 120 devices.
detail : http://mcugear.com/en/
You can save 8 schematics (bank 0-7) on Baseboard. But this Automatic mode is you don't think about Bank but little bit slow. Manual Mode is here -> http://mbed.org/users/Info/code/MCUGearM/
How to use it?¶
1,include library¶
1,include library
#include "mbed.h" #include "MCUGearBaseA.h" #include "MCUGearA.h" #include "commonA.h"
2,Declare Module¶
2,Declare Module
MCUGear myModule1(p28, p27, N_***_***_***); MCUGear myModule2(p28, p27, N_***_***_***);
myModule: Optional name for Module.
p28, p27, : I2C pins (KL25Z is "PTE0, PTE1")
N_*_*_* : Address. You can set it on the reverse side of the Module board.
3,Initialize baseboard¶
3,Initialize baseboard
initBase();
4,Make wiring data¶
4,Call wiring register
myModule1.setWire(IO_MBED_P9, IO_REG_IN_DIR, 5); myModule1.setWire(IO_MBED_P15, IO_REG_OUT_DIR, 2); myModule1.setWire(IO_MBED_P12, IO_REG_OUT_DIR, 0); myModule2.setWire(IO_MBED_P13, IO_REG_OUT_DIR, 1); myModule2.setWire(IO_MBED_P14, IO_REG_IN_DIR, 3); myModule2.setWire(IO_MBED_P16, IO_REG_IN_DIR, 4);
see the reference on MCUGearBaseboardA.h file.
4,Call wiring register
// CPU I/O typedef enum { #if defined TARGET_LPC1768 IO_MBED_P15 = 0x80, IO_MBED_P13, IO_MBED_P16, IO_MBED_P12, IO_MBED_P5, IO_MBED_P11, IO_MBED_P23, IO_MBED_P22, IO_MBED_P26, IO_MBED_P10, IO_MBED_P21, IO_MBED_P9, IO_MBED_P6, IO_MBED_P7, IO_MBED_P8, IO_MBED_P14, IO_MBED_P24, IO_MBED_P25, IO_MBED_P28, IO_MBED_P27 #endif #if defined TARGET_KL25Z IO_MBED_PTA5 = 0x80, IO_MBED_PTC8, IO_MBED_PTC9, IO_MBED_PTD5, IO_MBED_PTA13, IO_MBED_PTD2, IO_MBED_PTB1, IO_MBED_PTB2, IO_MBED_PTA2, IO_MBED_PTD4, IO_MBED_PTB3, IO_MBED_PTA12, IO_MBED_PTD0, IO_MBED_PTD3, IO_MBED_PTD1, IO_MBED_PTA4, IO_MBED_PTB0, IO_MBED_PTA1, IO_MBED_PTE0, //SDA IO_MBED_PTE1 //SCL #endif } en_cpu_io;
setWire function
uint8_t setWire(uint8_t mcuIO, uint8_t direction, uint8_t moduleIO);
Set MCU's IO, Directionfrom MCU and module's IO number.
setWire() is wiring data to connect pin of MCU to pin of Module.
uint8_t mcuIO : You can choose 18 IOs.
uint8_t direction: choose signal direction IO_REG_OUT_DIR : output from MCU IO_REG_IN_DIR : input to MCU
uint8_t moduleIO: You can select module pin.
5,Open or close the module gate¶
5,Open or close the module gate
myModule1.connectModule(); ... (same as normal mbed code) ... myModule1.disconnectModule(); myModule2.connectModule(); ... (same as normal mbed code) ... myModule2.disconnectModule();
If you want to use many modules simultaneously as one circuit, you should use manual mode.
Sample code 1¶
Universal Module and LCD module test program.
I set test function board like the below picture.(Universal module)
Sample code 1
#include "mbed.h" #include "TextLCD.h" #include "MCUGearBaseA.h" #include "MCUGearA.h" #include "commonA.h" Serial pc(USBTX, USBRX); // tx, rx Set BaudRate = 115200 in main() void setIOUni(MCUGear *mcugear); void setIOLCD(MCUGear *mcugear); DigitalOut myled(LED1); MCUGear UniM(p28, p27, N_VDD_VDD_VDD); //2 Connector Universal Module MCUGear LCDM(p28, p27, N_VDD_VSS_VSS); //LCD Module DigitalOut Dout1(p11); DigitalOut Dout2(p12); DigitalOut Dout3(p13); DigitalOut Dout4(p14); DigitalOut Dout5(p15); DigitalIn Din1(p9); DigitalIn Din2(p10); int main() { int sw1 = 0; int sw2 = 0; initBase(); //initialize Baseboard //set schematic select 0-7 UniM.detectModule(); //save location data in MCUGear class. LCDM.detectModule(); //save location data in MCUGear class. setIOUni(&UniM);//make schematic Bank0 setIOLCD(&LCDM);//make schematic Bank0 LCDM.connectModuleA(); TextLCD lcd(p21, p22, p23, p24, p25, p26, TextLCD::LCD16x2); // rs, e, d4-d7 lcd.cls(); lcd.printf("Hello World!\n"); wait(1); LCDM.disconnectModule(); while(1) { UniM.connectModuleA(); sw1 = Din1.read(); sw2 = Din2.read(); printf("sw1 = %d sw2 = %d\r\n",sw1,sw2); UniM.disconnectModule(); LCDM.connectModuleA(); lcd.printf(" "); //set IO as a neutral position lcd.cls(); //clear LCD lcd.printf("sw1 = %d\nsw2 = %d",sw1,sw2); //write LCD data wait_ms(10); //delay for view the LCD LCDM.disconnectModule(); UniM.connectModuleA(); Dout1 = 0; Dout2 = 1; Dout3 = 1; wait(0.3); Dout1 = 1; Dout2 = 0; Dout3 = 1; wait(0.3); Dout1 = 1; Dout2 = 1; Dout3 = 0; wait(0.3); UniM.disconnectModule(); } } void setIOUni(MCUGear *mcugear){ mcugear->setWireA(IO_MBED_P9, IO_REG_IN_DIR, 0); mcugear->setWireA(IO_MBED_P10, IO_REG_IN_DIR, 1); mcugear->setWireA(IO_MBED_P11, IO_REG_OUT_DIR,2); mcugear->setWireA(IO_MBED_P12, IO_REG_OUT_DIR,3); mcugear->setWireA(IO_MBED_P13, IO_REG_OUT_DIR,4); } void setIOLCD(MCUGear *mcugear){ mcugear->setWireA(IO_MBED_P21, IO_REG_OUT_DIR,0); mcugear->setWireA(IO_MBED_P22, IO_REG_OUT_DIR,1); mcugear->setWireA(IO_MBED_P23, IO_REG_OUT_DIR,2); mcugear->setWireA(IO_MBED_P24, IO_REG_OUT_DIR,3); mcugear->setWireA(IO_MBED_P25, IO_REG_OUT_DIR,4); mcugear->setWireA(IO_MBED_P26, IO_REG_OUT_DIR,5); }
日本語説明¶
MCU Gearの自動モードライブラリです。¶
detail : http://mcugear.com/en/
自動モードは8つのBank設定は考えずに実行できます。同時に複数のモジュールをつなげたい場合はマニュアルモードをご利用ください -> http://mbed.org/users/Info/code/MCUGearM/
使い方¶
1,ライブラリーをインクルード¶
1,include library
#include "mbed.h" #include "MCUGearBaseA.h" #include "MCUGearA.h" #include "commonA.h"
2,モジュールを定義します¶
2,Declare Module
MCUGear myModule1(p28, p27, N_***_***_***); MCUGear myModule2(p28, p27, N_***_***_***);
myModule: モジュールの好きな名前を付けられます。
p28, p27, : I2C pins (KL25Z is "PTE0, PTE1")
N_*_*_* : Address. モジュールの裏面に設定したアドレスを入れます。
3,ベースボード初期化¶
3,Initialize baseboard
initBase();
4,配線データの登録¶
4,Call wiring register
myModule1.setWire(IO_MBED_P9, IO_REG_IN_DIR, 5); myModule1.setWire(IO_MBED_P15, IO_REG_OUT_DIR, 2); myModule1.setWire(IO_MBED_P12, IO_REG_OUT_DIR, 0); myModule2.setWire(IO_MBED_P13, IO_REG_OUT_DIR, 1); myModule2.setWire(IO_MBED_P14, IO_REG_IN_DIR, 3); myModule2.setWire(IO_MBED_P16, IO_REG_IN_DIR, 4);
MCUGearBaseboardA.h ファイルも参考にしてください。
4,Call wiring register
// CPU I/O typedef enum { #if defined TARGET_LPC1768 IO_MBED_P15 = 0x80, IO_MBED_P13, IO_MBED_P16, IO_MBED_P12, IO_MBED_P5, IO_MBED_P11, IO_MBED_P23, IO_MBED_P22, IO_MBED_P26, IO_MBED_P10, IO_MBED_P21, IO_MBED_P9, IO_MBED_P6, IO_MBED_P7, IO_MBED_P8, IO_MBED_P14, IO_MBED_P24, IO_MBED_P25, IO_MBED_P28, IO_MBED_P27 #endif #if defined TARGET_KL25Z IO_MBED_PTA5 = 0x80, IO_MBED_PTC8, IO_MBED_PTC9, IO_MBED_PTD5, IO_MBED_PTA13, IO_MBED_PTD2, IO_MBED_PTB1, IO_MBED_PTB2, IO_MBED_PTA2, IO_MBED_PTD4, IO_MBED_PTB3, IO_MBED_PTA12, IO_MBED_PTD0, IO_MBED_PTD3, IO_MBED_PTD1, IO_MBED_PTA4, IO_MBED_PTB0, IO_MBED_PTA1, IO_MBED_PTE0, //SDA IO_MBED_PTE1 //SCL #endif } en_cpu_io;
setWire function
uint8_t setWire(uint8_t mcuIO, uint8_t direction, uint8_t moduleIO);
引数はマイコンのIO、マイコンからの入出力方向とモジュールの端子番号 setWire()関数はmbedの端子とモジュールの端子の割り振り方を決める関数です。
uint8_t mcuIO : mbedの18端子がアダプターボード(MCUボード)を介してベースボードに接続されています。(残りの端子はアダプターボード(MCUボード)から端子が出ています。)
uint8_t direction: mbedから見て入力か出力かを設定します。 IO_REG_OUT_DIR : output from MCU IO_REG_IN_DIR : input to MCU
uint8_t moduleIO: モジュールの出口の端子をどれにするかを決めます。
5,モジュールのゲート開閉¶
5,Open or close the module gate
myModule1.connectModule(); ... (same as normal mbed code) ... myModule1.disconnectModule(); myModule2.connectModule(); ... (same as normal mbed code) ... myModule2.disconnectModule();
If you want to use many modules simultaneously as one circuit, you should use manual mode. 同時に複数のモジュールに接続して動かすには
Sample code 1¶
ユニバーサルモジュールとLCDモジュールを接続した例です。
ユニバーサルモジュールは以下の図のように接続します。
Sample code 1
#include "mbed.h" #include "TextLCD.h" #include "MCUGearBaseA.h" #include "MCUGearA.h" #include "commonA.h" Serial pc(USBTX, USBRX); // tx, rx Set BaudRate = 115200 in main() void setIOUni(MCUGear *mcugear); void setIOLCD(MCUGear *mcugear); DigitalOut myled(LED1); MCUGear UniM(p28, p27, N_VDD_VDD_VDD); //2 Connector Universal Module MCUGear LCDM(p28, p27, N_VDD_VSS_VSS); //LCD Module DigitalOut Dout1(p11); DigitalOut Dout2(p12); DigitalOut Dout3(p13); DigitalOut Dout4(p14); DigitalOut Dout5(p15); DigitalIn Din1(p9); DigitalIn Din2(p10); int main() { int sw1 = 0; int sw2 = 0; initBase(); //initialize Baseboard //set schematic select 0-7 UniM.detectModule(); //save location data in MCUGear class. LCDM.detectModule(); //save location data in MCUGear class. setIOUni(&UniM);//make schematic Bank0 setIOLCD(&LCDM);//make schematic Bank0 LCDM.connectModuleA(); TextLCD lcd(p21, p22, p23, p24, p25, p26, TextLCD::LCD16x2); // rs, e, d4-d7 lcd.cls(); lcd.printf("Hello World!\n"); wait(1); LCDM.disconnectModule(); while(1) { UniM.connectModuleA(); sw1 = Din1.read(); sw2 = Din2.read(); printf("sw1 = %d sw2 = %d\r\n",sw1,sw2); UniM.disconnectModule(); LCDM.connectModuleA(); lcd.printf(" "); //set IO as a neutral position lcd.cls(); //clear LCD lcd.printf("sw1 = %d\nsw2 = %d",sw1,sw2); //write LCD data wait_ms(10); //delay for view the LCD LCDM.disconnectModule(); UniM.connectModuleA(); Dout1 = 0; Dout2 = 1; Dout3 = 1; wait(0.3); Dout1 = 1; Dout2 = 0; Dout3 = 1; wait(0.3); Dout1 = 1; Dout2 = 1; Dout3 = 0; wait(0.3); UniM.disconnectModule(); } } void setIOUni(MCUGear *mcugear){ mcugear->setWireA(IO_MBED_P9, IO_REG_IN_DIR, 0); mcugear->setWireA(IO_MBED_P10, IO_REG_IN_DIR, 1); mcugear->setWireA(IO_MBED_P11, IO_REG_OUT_DIR,2); mcugear->setWireA(IO_MBED_P12, IO_REG_OUT_DIR,3); mcugear->setWireA(IO_MBED_P13, IO_REG_OUT_DIR,4); } void setIOLCD(MCUGear *mcugear){ mcugear->setWireA(IO_MBED_P21, IO_REG_OUT_DIR,0); mcugear->setWireA(IO_MBED_P22, IO_REG_OUT_DIR,1); mcugear->setWireA(IO_MBED_P23, IO_REG_OUT_DIR,2); mcugear->setWireA(IO_MBED_P24, IO_REG_OUT_DIR,3); mcugear->setWireA(IO_MBED_P25, IO_REG_OUT_DIR,4); mcugear->setWireA(IO_MBED_P26, IO_REG_OUT_DIR,5); }