Msp430f42x0-msp430fg42x0 a lot of mc series bundled sample code examples C msp430f42x0-msp430fg42x0
all codes download : MSP430F42X0-MSP430FG42X0.zip
msp430x42x0_1 – Software Toggle P1.0
msp430x42x0_bt_01 – Basic Timer, Toggle P1.0 Inside ISR, DCO SMCLK
msp430x42x0_bt_02 – Basic Timer, Toggle P1.0 Inside ISR, 32kHz ACLK
msp430x42x0_clks_01 – FLL+, Output MCLK, ACLK Using 32kHz XTAL and DCO
msp430x42x0_dac_01 – DAC0 1V output
msp430x42x0_dac_02 – DAC0 1V output with 3x reference
msp430x42x0_dac_03 – DAC0 1V output with AVcc (3v) ref
msp430x42x0_fll_01 – FLL+, Runs Internal DCO at 2.45MHz
msp430x42x0_fll_02 – FLL+, Runs Internal DCO at 8MHz
msp430x42x0_isp – Flash In-System Program Memory
msp430x42x0_lcda_04 – LCD_A Put “0123456” on SBLCDA4 LCD
msp430x42x0_lcda_05 – LCD_A Put “0123456” on SBLCDA4 LCD
msp430x42x0_lcda_06 – LCD_A run a 0-9 counter on TI LCD
msp430x42x0_LFxtal_nmi.s – LFXT1 Oscillator Fault Detection
msp430x42x0_lpm3 – FLL+, LPM3 Using Basic Timer ISR, 32kHz ACLK
msp430x42x0_sd16a_03 – SD16_A, Continuous Conversion on a Single Channel
msp430x42x0_sd16a_04 – SD16_A, Single Conversion on Single Channel Polling IFG
msp430x42x0_sd16a_05 – SD16_A, Single Conversion on Single Channel Using ISR
msp430x42x0_sd16a_07 – SD16_A, Using the Integrated Battery Sensor
msp430x42x0_sd16a_08 – SD16_A, Single Conversion on a Channel using buffered input
msp430x42x0_sd16a_09 – SD16_A, Single Conversion on a Single Channel Using ISR
msp430x42x0_sd16a_10 – SD16_A, Single Conversion on Single Channel Using ISR 1024 Extended Oversampling Rate
msp430x42x0_sd16a_11 – SD16_A, Single Conversion on Single Channel Using ISR ACLK input to SD16_A
msp430x42x0_sd16a_12 – SD16_A, Single Conversion on Single Channel Using ISR SMCLK input is divided by 32
msp430x42x0_ta_01 – Timer_A, Toggle P1.0, CCR0 Cont. Mode ISR, DCO SMCLK
msp430x42x0_ta_02 – Timer_A, Toggle P1.0, CCR0 Up Mode ISR, DCO SMCLK
msp430x42x0_ta_03 – Timer_A, Toggle P1.0, Overflow ISR, DCO SMCLK
msp430x42x0_ta_04 – Timer_A, Toggle P1.0, Overflow ISR, 32kHz ACLK
msp430x42x0_ta_05 – Timer_A, Toggle P1.0, CCR0 Up Mode ISR, 32kHz ACLK
msp430x42x0_ta_16 – Timer_A, PWM TA1-2 Up Mode, DCO SMCLK
msp430x42x0_ta_17 – Timer_A, PWM TA1-2 Up Mode, 32kHz ACLK
msp430x42x0_ta_22 – Timer_A, Output 40kHz Square Wave, Up Mode, SMCLK DCO
msp430x42x0_ta_25 – Timer_A, Output DTMF, Cont. Mode, DCO SMCLK
msp430x42x0_ta_uart115k – Timer_A, UART 115200 Echo, DCO SMCLK
msp430x42x0_ta_uart2400 – Timer_A, UART 2400 Ultra-low Power Echo, 32kHz ACLK
msp430x42x0_ta_uart9600 – Timer_A, UART 9600 Echo, DCO SMCLK
msp430x42x0_wdt_01 – WDT, Toggle P1.0, Interval Overflow ISR, DCO SMCLK
msp430x42x0_wdt_02 – WDT, Toggle P1.0, Interval Overflow ISR, 32kHz ACLK
Published: 2010/10/17 Tags: microcontroller projects, msp430 projects, pwm circuits
Digital PLL controlled FM Radio Circuit TEA5767 Receiver PIC16F628
Yes, let’s recent project, a “Digital and PLL controlled FM Radio Receiver System” will give. Some of them may sound like a simple project. But a very open system development project. Currently on the market that has all the features of most modern radio despite the limited resources, why did the simplistic with this project. This is a fully digital PLL controlled FM radio project.
Digital PLL controlled FM Radio Proteus isis circuit