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ECE 447 Fall 2009 Lecture 10: TI MSP430 Timers and Capture Modes.

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Presentation on theme: "ECE 447 Fall 2009 Lecture 10: TI MSP430 Timers and Capture Modes."— Presentation transcript:

1 ECE 447 Fall 2009 Lecture 10: TI MSP430 Timers and Capture Modes

2 Timer_A Overview Timer Block –The core, based on 16-bit register TAR –Can chose sources for clock and freq division –Timer block has no output –Flag TAIFG is raised when counter returns to 0 Capture/compare channels –Capture an input, record value in TAR triggered by TACCRn –Compare TAR with the value stored in TACCRn –Request an Interrupt by setting its flag TACCRn CCFIG –Sample an input at a compare event

3 ECE 447: MSP430 Timer_A System 1.Generating delays - imposing a specific delay between two points in the program by polling. label 1 label2 instr1 instr2 instrN delay

4 ECE 447: MSP430 Timer_A System 2. Input capture - measuring the time between signal edges 3. Output compare - generating signals with the given timing characteristics start stop startstop pulse width single pulseperiodical signal period

5 ECE 447: MSP430 Timer_A System 4. Real Time Clock– Produce a periodic signal for the MSP430. period The Real Time Clock Interrupt implements a hardware based time of day clock that can be used by the software.

6 ECE447: MSP430 Timer I/O Pins and Channels - 4618

7 ECE447: MSP430 Compare/Capture Block Diagram.

8 MSP430xx4xx Implementation of Timer_A

9 Timer_A Interrupt Schematic

10 Timer_A MSP430xx4xx Registers

11 TACTL: Timer_A Control Register

12 TAR: Timer_A Register

13 TACCRx: Timer_A Capture/Compare Register

14 TACCTLx: Capture/Compare Control Register

15 TAIV: Timer_A Interrupt Vector Register

16 ECE447: MPS430 Timer_A input clocks and dividers

17 ECE447: Measuring Pulse Widths Timer overflows 100  s < width < Configured Period (previous table) width  100  s width  Configured Period (previous table) start stop start stop start stop

18 ECE 447: Measuring intervals <2 16 clock cycles start 0 FFFF stop

19 ECE 447: Measuring intervals <2 16 clock cycles (overflow) start 0 FFFF 12 stop

20 ECE 447: Measuring intervals >2 16 clock cycles start stop 0 FFFF 12 N=3 R

21 ECE 447: Measuring intervals >2 16 clock cycles start stop 0 FFFF 12 3 R2 R1 N=4 R1+R2=R

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