// Copyright 2021 IOsetting // // 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. #include "fw_hal.h" static uint16_t counter = 0; uint8_t readCode(uint8_t offset) { return (*(unsigned char volatile __CODE *)(__CID_ADDR + offset)); } INTERRUPT(Timer0_Routine, EXTI_VectTimer0) { uint8_t i, j; counter++; if (counter == 1000) { i = 0; counter = 0; UART1_TxString("ADDR: 0x"); UART1_TxHex(__CID_ADDR >> 8); UART1_TxHex(__CID_ADDR & 0xFF); UART1_TxString("\r\n"); UART1_TxString(" VER1 VER2\r\n"); UART1_TxString("VRTRIM 40M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("VRTRIM 24M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("VRTRIM 35M ??M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("VRTRIM 20M ??M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM --- 45M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM --- 40M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM 36.864M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM 35M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM 33.1776M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM 30M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM 27M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM 20M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM 24M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("ITRIM 22.1184M: "); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("32kHz PD FreQ: "); UART1_TxHex(readCode(i++)); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("1.19Vref: "); UART1_TxHex(readCode(i++)); UART1_TxHex(readCode(i++)); UART1_TxString("\r\n"); UART1_TxString("\r\n"); UART1_TxString("MCUID: "); for (j = 0; j < 7; j++) { UART1_TxHex(readCode(i+j)); UART1_TxChar(' '); } UART1_TxString("\r\n"); UART1_TxString("Current IRCBAND:"); UART1_TxHex(IRCBAND); UART1_TxString(", VRTRIM:"); UART1_TxHex(VRTRIM); UART1_TxString(", IRTRIM:"); UART1_TxHex(IRTRIM); UART1_TxString(", LIRTRIM:"); UART1_TxHex(LIRTRIM); UART1_TxString("\r\n\r\n"); } } void main(void) { // Set system clock. Remove this line if system clock is already set by STC-ISP SYS_SetClock(); // UART1 configuration: baud 115200 with Timer2, 1T mode, no interrupt UART1_ConfigMode1Dyn8bitUart(UART1_BaudSource_Timer2, HAL_State_ON, 115200); // Timer0 configuration: 16-bit auto-reload, interrupt enabled TIM_Timer0_Config(HAL_State_ON, TIM_TimerMode_16BitAuto, 1000); EXTI_Timer0_SetIntState(HAL_State_ON); EXTI_Timer0_SetIntPriority(EXTI_IntPriority_High); EXTI_Global_SetIntState(HAL_State_ON); TIM_Timer0_SetRunState(HAL_State_ON); while(1); }