Arduino board run on Mbed-os6.8.1 (only test purpose not official). Need Mbed Studio(1.3.1) not online compiler. If you compile on the online compiler, you can get a hex file but it does NOT work!!!
Dependencies: APDS_9960 LPS22HB LSM9DS1 HTS221
1) DAPLink(LPC11U35)の準備
使用したボード →https://akizukidenshi.com/catalog/g/gK-12144/
プログラムは、nRF52840-MDK用に公開されているDAPLinkのコンパイル済のバイナリコードを使わせていただきました。
https://github.com/makerdiary/nrf52840-mdk/tree/master/firmware/daplink
LPC11U35への書込みは、SW1(ISP)を押したままSW2(RESET)を操作するとPCに「CRP DISABLD」という名称でマウントされるので、書込まれているfirmware.binを削除してから、上記のbinファイルをコピーすれば書き込みが行われます。
書込み完了後にSW1を押さずに起動すれば、「DAPLINK」として認識されます。
DETAILS.TXTでDAPLinkの内容を確認できます。
2) 接続
Arduino Nano 33 BLE Sense | LPC11U35 Interface CPU | コメント |
J3:Pin2 (ボード裏のパッド) | CN1:Pin3 P0_7 | SWDIO |
J3:Pin3 (ボード裏のパッド) | CN1:Pin4 P0_8 | SWCLK |
JP2:Pin14 GND | CN2:Pin1 GND | GND |
3)USBSerial
シリアル出力は、NANO 33 BLE SENSEボードのUSB端子経由で出力されます。
4)Mbed Studio 1.3.1を使って開発のこと!(オンラインコンパイラでは動作しません!)
5)ボードピン配置
Diff: 3_check_LPS22HB/main3.cpp
- Revision:
- 1:cce280da16d4
- Parent:
- 0:f1a10797d9f6
diff -r f1a10797d9f6 -r cce280da16d4 3_check_LPS22HB/main3.cpp --- a/3_check_LPS22HB/main3.cpp Fri Feb 07 01:21:16 2020 +0000 +++ b/3_check_LPS22HB/main3.cpp Sun Feb 28 07:31:58 2021 +0000 @@ -1,15 +1,15 @@ /* * Mbed Application program - * Nano 33 BLE Sense board runs on mbed-OS5 + * Nano 33 BLE Sense board runs on mbed-OS6 * LPS33HB -> MEMS nano pressure sensor: * 260-1260 hPa absolute Digital output barometer * by STMicroelectronics * - * Copyright (c) 2020 Kenji Arai / JH1PJL + * Copyright (c) 2020,'21 Kenji Arai / JH1PJL * http://www7b.biglobe.ne.jp/~kenjia/ * https://os.mbed.com/users/kenjiArai/ * Started: January 22nd, 2020 - * Revised: Feburary 5th, 2020 + * Revised: February 28th, 2021 */ // Pre-selection -------------------------------------------------------------- @@ -25,7 +25,6 @@ // Definition ----------------------------------------------------------------- // Constructor ---------------------------------------------------------------- -RawSerial pc(STDIO_UART_TX, STDIO_UART_RX, 115200); DigitalOut sen_pwr(PIN_VDD_ENV, 1); DigitalOut i2c_pullup(PIN_I2C_PULLUP, 1); I2C i2c(PIN_SDA1, PIN_SCL1); @@ -37,25 +36,31 @@ // ROM / Constant data -------------------------------------------------------- // Function prototypes -------------------------------------------------------- -extern void check_i2c_connected_devices(void); + +// subroutin (must be at this below line and do NOT change order) ------------- +#include "usb_serial_as_stdio.h" +#include "check_revision.h" +#include "common.h" //------------------------------------------------------------------------------ // Control Program //------------------------------------------------------------------------------ int main() { + usb_serial_initialize(); + print_revision(); i2c_pullup = 1; sen_pwr = 1; - pc.printf("\r\nCheck LSM9DS1\r\n"); - thread_sleep_for(200); + print_usb("Check LSM9DS1\r\n"); + ThisThread::sleep_for(200ms); // check I2C line check_i2c_connected_devices(); baro = new LPS22HB(i2c, LPS22HB_G_CHIP_ADDR); uint8_t id = baro->read_id(); if (id == I_AM_LPS22HB) { - pc.printf("LPS22H is ready. ID = 0x%x\r\n", id); + print_usb("LPS22H is ready. ID = 0x%x\r\n", id); } else { - pc.printf("LPS22H is NOT ready. return value = 0x%x\r\n", id); + print_usb("LPS22H is NOT ready. return value = 0x%x\r\n", id); } baro->set_odr(); uint32_t n = 0; @@ -64,15 +69,16 @@ t.start(); baro->get(); while (baro->data_ready() == 0){ - thread_sleep_for(2); + ThisThread::sleep_for(2ms); } - pc.printf("Pressure: %6.1f [hPa], Temperature: %+4.1f [degC], ", + print_usb("Pressure:,%6.1f,[hPa],Temperature:,%+4.1f,[degC],", baro->pressure(), baro->temperature()); ++n; - uint32_t passed_time = t.read_ms(); - pc.printf("processing time: %d [ms], count: %4d\r\n", passed_time, n); + uint32_t passed_time = chrono::duration_cast<chrono::milliseconds>( + t.elapsed_time()).count(); + print_usb("processing time:,%2d,[ms],count:,%4d\r\n", passed_time, n); if (passed_time < 999){ - thread_sleep_for(1000 - t.read_ms()); + ThisThread::sleep_for(chrono::milliseconds(1000 - passed_time)); } } }