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210837 Топик полностью
Леонид Иванович (15.09.2010 10:14, просмотров: 311) ответил rezident на Вместо подобных анимашек, лучше бы пример инициализации дисплея выложили.
Инициализирую TIC151 так:  //Разрешение дисплея: #define RES_X 133 #define RES_Y 64 //Количество строк и знакомест: #define MAX_LIN 6 #define MAX_POS 21 //Максимальные значения адресов: #define MAX_X RES_X #define MAX_Y (RES_Y / 8) //PCF8535 Address: #define LCD_ADDR_W 0x78 //address, R/W = 0 #define LCD_ADDR_R 0x79 //address, R/W = 1 //Control Byte: #define LCD_CTRL 0x00 //Co = 0, D/C = 0 #define LCD_CO_CTRL 0x80 //Co = 1, D/C = 0 #define LCD_DATA 0x40 //Co = 0, D/C = 1 //H[2:0] = XXX - RAM Read/Write Command Page: #define LCD_NOP 0x00 //no operation #define LCD_PAGE_FN 0x01 //H[2:0] = 111: select Function and RAM Command Page //H[2:0] = 111 - Function and RAM Command Page: #define LCD_PAGE_DS 0x0E //H[2:0] = 110: select Display Setting Command Page #define LCD_PAGE_HV 0x0D //H[2:0] = 101: select HV-gen Command Page #define LCD_PAGE_SP 0x0B //H[2:0] = 011: select Special Feature Command Page #define LCD_POWERDN 0x14 //PD = 1, V = 0: power down #define LCD_VERT_ADDR 0x12 //PD = 0, V = 1: vertical addressing #define LCD_HOR_ADDR 0x10 //PD = 0, V = 0: horizontal addressing #define LCD_XM_0 0x20 //XMo = 0, X addressing 0..127 #define LCD_XM_1 0x24 //XMo = 0, X addressing 128..132 #define LCD_ADDR_Y 0x40 //+ Y address 0..8 #define LCD_ADDR_X 0x80 //+ X address 0..127 //H[2:0] = 110 - Display Setting Command Page: #define LCD_BLANK 0x04 //D = 0, E = 0: display blank #define LCD_NORMAL 0x06 //D = 1, E = 0: normal mode #define LCD_ALL_ON 0x05 //D = 0, E = 1: all display segments on #define LCD_INV_VID 0x07 //D = 1, E = 1: inverse video #define LCD_NO_MIRROR 0x08 //MX = 0, MY = 0: no mirror #define LCD_X_MIRROR 0x0C //MX = 1, MY = 0: X mirror #define LCD_Y_MIRROR 0x0A //MX = 0, MY = 1: Y mirror #define LCD_XY_MIRROR 0x0E //MX = 1, MY = 1: Y mirror #define LCD_BIAS_1_11 0x10 //[BS2:BS0] = 0: bias 1/11 #define LCD_BIAS_1_10 0x11 //[BS2:BS0] = 1: bias 1/10 #define LCD_BIAS_1_9 0x12 //[BS2:BS0] = 2: bias 1/9 #define LCD_BIAS_1_8 0x13 //[BS2:BS0] = 3: bias 1/8 #define LCD_BIAS_1_7 0x14 //[BS2:BS0] = 4: bias 1/7 #define LCD_BIAS_1_6 0x15 //[BS2:BS0] = 5: bias 1/6 #define LCD_BIAS_1_5 0x16 //[BS2:BS0] = 6: bias 1/5 #define LCD_BIAS_1_4 0x17 //[BS2:BS0] = 7: bias 1/4 #define LCD_BIAS_L 0x20 //IB = 0: low bias current mode #define LCD_BIAS_H 0x24 //IB = 1: high bias current mode #define LCD_MUX_1_17 0x80 //[M2:M0] = 0: multiplex rate 1/17 #define LCD_MUX_1_26 0x81 //[M2:M0] = 1: multiplex rate 1/26 #define LCD_MUX_1_34 0x82 //[M2:M0] = 2: multiplex rate 1/34 #define LCD_MUX_1_49 0x83 //[M2:M0] = 3: multiplex rate 1/49 #define LCD_MUX_1_65 0x84 //[M2:M0] = 4: multiplex rate 1/65 //H[2:0] = 101 - HV-gen Command Page: #define LCD_HV_OFF 0x04 //PRS = 0, HVE = 0: HV-gen disabled #define LCD_HV_LOW 0x05 //PRS = 0, HVE = 1: HV-gen on, Vlcd low range #define LCD_HV_HIGH 0x07 //PRS = 1, HVE = 1: HV-gen on, Vlcd high range #define LCD_VMUL_X2 0x08 //[S1:S0] = 0: multiplication factor 2 #define LCD_VMUL_X3 0x09 //[S1:S0] = 1: multiplication factor 3 #define LCD_VMUL_X4 0x0A //[S1:S0] = 2: multiplication factor 4 #define LCD_VMUL_X5 0x0B //[S1:S0] = 3: multiplication factor 5 #define LCD_TC_0_00 0x10 //[TC2:TC0] = 0: temp. coeff. 0.00E-3 1/°C #define LCD_TC_0_44 0x11 //[TC2:TC0] = 1: temp. coeff. -0.44E-3 1/°C #define LCD_TC_1_10 0x12 //[TC2:TC0] = 2: temp. coeff. -1.10E-3 1/°C #define LCD_TC_1_45 0x13 //[TC2:TC0] = 3: temp. coeff. -1.45E-3 1/°C #define LCD_TC_1_91 0x14 //[TC2:TC0] = 4: temp. coeff. -1.91E-3 1/°C #define LCD_TC_2_15 0x15 //[TC2:TC0] = 5: temp. coeff. -2.15E-3 1/°C #define LCD_TC_2_32 0x16 //[TC2:TC0] = 6: temp. coeff. -2.32E-3 1/°C #define LCD_TC_2_74 0x17 //[TC2:TC0] = 7: temp. coeff. -2.74E-3 1/°C #define LCD_START_TM 0x21 //TM = 1: start temperature measurement #define LCD_V_LCD 0x80 //+ Vlcd 0..127 //H[2:0] = 011 - Special Feature Command Page: #define LCD_DISP_OFF 0x06 //DOF = 1, DM = 0: display off #define LCD_EXT_VLCD 0x04 //DOF = 0, DM = 0: external Vlcd (if HVE = 0) #define LCD_INT_VLCD 0x04 //DOF = 0, DM = 0: internal Vlcd (if HVE = 1) #define LCD_VDD_VLCD 0x05 //DOF = 0, DM = 1: using Vdd as Vlcd (if HVE = 0) #define LCD_OSC_EN 0x08 //EC = 0: internal oscillator enabled #define LCD_OSC_DIS 0x0A //EC = 1: internal oscillator disabled #define LCD_NO_SWAP 0x40 //TRS = 0, BRS = 0: no row swap #define LCD_TOP_SWAP 0x50 //TRS = 1, BRS = 0: top row swap #define LCD_BOT_SWAP 0x48 //TRS = 0, BRS = 1: bottom row swap #define LCD_ALL_SWAP 0x58 //TRS = 1, BRS = 1: all row swap //-------------------------- Прототипы функций: ------------------------------ void I2C_Start(void); //генерация условия "СТАРТ" на I2C void I2C_Write(char data); //запись байта по I2C void I2C_Stop(void); //генерация условия "СТОП" на I2C //-------------------------- Инициализация LCD: ------------------------------ void LCD_Init(void) { TWBR = 12; //скорость I2C 400 kbit TWSR = 0; Port_RES_1; //снимаем RESET I2C_Start(); I2C_Write(LCD_ADDR_W); //address I2C_Write(LCD_CTRL); //control byte I2C_Write(LCD_PAGE_FN); //select Function and RAM Command Page I2C_Write(LCD_HOR_ADDR); //PD = 0 I2C_Write(LCD_PAGE_DS); //select Display Setting Command Page I2C_Write(LCD_Y_MIRROR); //set mirror mode I2C_Write(LCD_BIAS_1_9); //set bias I2C_Write(LCD_BIAS_H); //select bias current I2C_Write(LCD_MUX_1_65); //set mux rate I2C_Write(LCD_NORMAL); //D = 1, E = 0 I2C_Write(LCD_PAGE_FN); //select Function and RAM Command Page I2C_Write(LCD_PAGE_SP); //select Special Feature Command Page I2C_Write(LCD_ALL_SWAP); //TRS = 1, BRS = 1 I2C_Write(LCD_VDD_VLCD); //DM = 1 Delay_us(100); I2C_Write(LCD_PAGE_FN); //select Function and RAM Command Page I2C_Write(LCD_PAGE_HV); //select HV-gen Command Page I2C_Write(LCD_TC_1_10); //temp. coeff. -1.10E-3 1/°C I2C_Write(LCD_V_LCD + NOM_CONTR); //set Vlcd I2C_Write(LCD_HV_LOW); //PRS = 0, HVE = 1 Delay_us(100); I2C_Write(LCD_VMUL_X3); //set mul factor Delay_us(100); I2C_Write(LCD_PAGE_FN); //select Function and RAM Command Page I2C_Write(LCD_PAGE_SP); //select Special Feature Command Page I2C_Write(LCD_INT_VLCD); //DM = 0 I2C_Stop(); } //----------------------- Установка контраста LCD: --------------------------- void LCD_SetContr(char c) { I2C_Start(); I2C_Write(LCD_ADDR_W); //address I2C_Write(LCD_CTRL); //control byte I2C_Write(LCD_PAGE_FN); //select Function and RAM Command Page I2C_Write(LCD_PAGE_HV); //select HV-gen Command Page I2C_Write(LCD_V_LCD + c); //set Vlcd I2C_Stop(); } //-------------------- Генерация условия "СТАРТ" на I2C: --------------------- void I2C_Start(void) { TWCR = (1 << TWINT) | (1 << TWSTA) | (1 << TWEN); while(!(TWCR & (1 << TWINT))); } //------------------------- Запись байта по I2C: ----------------------------- void I2C_Write(char data) { TWDR = data; TWCR = (1 << TWINT) | (1 << TWEN); while(!(TWCR & (1 << TWINT))); } //-------------------- Генерация условия "СТОП" на I2C: --------------------- void I2C_Stop(void) { TWCR = (1 << TWINT) | (1 << TWSTO) | (1 << TWEN); } //----------------------------------------------------------------------------