1 / 21

L15 –I/O Part II

ECE 2560. L15 –I/O Part II. Department of Electrical and Computer Engineering The Ohio State University. Digital I/O on the 430. Digital input and output Modify the routine to vary the time on/off of each led in oscillation Allow toggle on input from push button.

alden
Download Presentation

L15 –I/O Part II

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. ECE 2560 L15 –I/O Part II Department of Electrical and Computer Engineering The Ohio State University ECE 3561 - Lecture 1

  2. Digital I/O on the 430 • Digital input and output • Modify the routine to vary the time on/off of each led in oscillation • Allow toggle on input from push button ECE 3561 - Lecture 1

  3. There is a MSP 430 wiki page • There is a Launch Pad wiki page • http://processors.wiki.ti.com/index.php/MSP430_LaunchPad_(MSP-EXP430G2) ECE 3561 - Lecture 1

  4. Modifying the blink rate • We can create two memory locations that modify the blink rate of the LEDs. • This will be done in real time in class. ECE 3561 - Lecture 1

  5. Digital input • The launch pad has one input available to the user. It is at P1.3 It is a momentary push button switch. • The code can be modified to turn the light on when this switch is pressed. ECE 3561 - Lecture 1

  6. Configure the port • The port configuration must be modified to set that pin as an input. • It is pin 3 of Port 1 • Need to set the value in the P1DIR to • xxxx0xxx • To read this value on this switch. • When combined with output configuration for the LEDs it give a value of 1xxx 0x1x to be written to P1DIR ECE 3561 - Lecture 1

  7. The code for setting it up • Setting the port to read the input switch. • Set unused pins to output • mov.b #0xFB&P1DIR ;dir register • mov.b #0x00,&P1IE ;disable int • mov.b #0x00,&P1SEL ;all pins I/O • mov.b #0x00,&P1OUT ;LEDs off • mov.b P1IN,R6 ;read input • mov.b P1IN,R6 ECE 3561 - Lecture 1

  8. Consider code in CCS • For some reason the switch does not seem to work. But it should. • Then it was realized • The DIRection register should be • 1111 0111 or $F7 not $FB • Time to revisit and just work with the bit instruction. ECE 3561 - Lecture 1

  9. General scheme to configure • To configure – Two alternatives • Configure all bits in the control register • Configure only the bit you desire to set ECE 3561 - Lecture 1

  10. The flow of control • The diagram show the relationships ECE 3561 - Lecture 1

  11. Using diagram • The steps to configure pull up • First set bit in SEL register to 0 – Digital I/O • The set DIR register to 0 – Input • From here you configure if you want interrupts (later) – 0 disable for now • Also, PxREN – internal pull-up • 0 – disabled 1 – enable • PxOUT • 0 for a pull down • 1 for a pull up ECE 3561 - Lecture 1

  12. What is a pull up • Port pin can have an internal pull up • Possible switch circuits • SPDT –Single Pole Double Throw – issue here is that during transition the input is floating. • Often see these as DPDT and used in automotive window up/down switch. ECE 3561 - Lecture 1

  13. Switch on input • Use a SPST – Single pole single throw • Have a connection to Vdd through a limiting resistor. • When switch is open Input is at Vdd • When switch is closed Input • is drawn to ground. • Limiting resistor limits current to a low value when closed as there is a path Vdd to GND ECE 3561 - Lecture 1

  14. Typical values for pull up • Typical values • 5V system so Vdd = 5V • Often a pullup resistor of 290Ω or 330Ω is used. • So current is 0.017 Amp or 17 mA • When switch is closed this is the current that flows through the resistor. ECE 3561 - Lecture 1

  15. The code to just set that pin • Use bit set and bit clear instruction • Will do this for Port 1 pin 3 which is the pushbutton switch – a SPST momentary • bic.b #0x08,&P1SEL ;I/O • bic.b #0x08,&P1DIR ;Output • bis.b #0x08,,&P1REN ;Resistor • bis.b #0x08,&P1OUT ;Pullup • bic.b #0x08,&P1IE ;Disable • mov.b &P1IN,R6 ;get value • mov.b &P1IN,R6 ;get value • mov.b &P1IN,R6 ;get value ECE 3561 - Lecture 1

  16. Could be done using bytes • This also could have been set using the mov.b instruction. The first attempt with the byte mov instruction failed due to the bit being set wrong in P1OUT so the resistor was a pull down. ECE 3561 - Lecture 1

  17. Good code for bytes • mov.b #0x00,&P1SEL ;set I/O • mov.b #0xF7,&P1DIR ;in/out set • mov.b #0x08,&P1REN ;res enable • mov.b #0x08,&P1OUT ;pullup • mov.b #0x00,&P1IE ;disable int • mov #P1IN,R6 ;read port to R6 • mov.b @R6,R7 ;get val • mov.b @R6,R7 • mov.b @R6,R7 • Can see this work in demo ECE 3561 - Lecture 1

  18. Now change light blink code • Set up code in iodemo2 for • One loop has fast blinking lights-stitch pressed – value is 1 • Other has slower blinking lights – switch released – value is 0 • How to tell? • Use bit – bit test instruction • bit #0x08,&P1IN • Does a logical and of src,dst so if = 0, switch not pressed, if =1 switch pressed • Use JEQ instruction – if Z=0 no jump and code for slower ECE 3561 - Lecture 1

  19. And to watch a code demo • Note the code running on the 430 • The code for iodemo and iodemo2 is on the webpage. • Play with iodemo2 to add code such the blink rate is one rate when the switch is pressed and another when released. ECE 3561 - Lecture 1

  20. Now we can modify • We can now modify our led program to change the blinking frequency when we press the switch. • File iodemo.asm has core of the code. • And a modification is in iodemo2.asm ECE 3561 - Lecture 1

  21. Summary - Assignment • Try out the code • Add an inner loop to lengthen the time for each individual light. • No new assignment. ECE 3561 - Lecture 1

More Related