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Transcript
ECE 353
Introduction to
Microprocessor Systems
Week 8
Michael G. Morrow, P.E.
Topics
Logic Compatibility
Microprocessor peripherals

Timers
 Periodic
 Watchdog
 Real-time
 ADuC7026 timers


Pulse-width modulators (PWM)
Direct memory access (DMA)
FET Basics
Field effect transistors (FETs) are used as the
switching elements in logic gates


When turned on, the FET presents a very low impedance to
current, like a closed switch
When turned off, the FET presents a very high impedance to
current, like an open switch
There are two ways to construct a FET

N-channel
P-channel
Logic Outputs
Totem-pole
Three-state (tri-state)
Open-drain
Logic Family Characteristics
Voltage




VIHmin – minimum input voltage recognized as a logical 1
VILmax – maximum input voltage recognized as a logical 0
VOHmin – minimum voltage output for a logical 1
VOLmax – maximum voltage output for a logical 0
Current






Currents are defined positive in, negative out
IOHmax – maximum output current sourced for a logical 1
IOLmax – maximum output current sunk for a logical 0
IIHmax – maximum input current required at a logical 1
IILmax – maximum input current required at a logical 0
IOZH, IOZL – current drawn/sourced when tri-stated
Logic families
Simple Circuit Models
Drivers
Receivers
DC Noise Margins
Vlogic
driver
DC noise
margins
receiver
logic 1
VOHmin
logic 1
VIHmin
0V
logic 0
VOLmax
VILmax
logic 0
Logic Compatibility
Static (DC) Compatibility

Voltage

Current

Overvoltage tolerant inputs
Dynamic compatibility
 Capacitive loading, mutual induction, reflections, etc.
Exercises
Timer Peripherals
Timer/counter modules used to



Generate signals with specified frequency /
duty cycle
Count external events, measure pulse width
Generate absolute delays, periodic interrupts
Building a timer peripheral




Basic free-running timer
Periodic timer enhancements
Clock selection and prescaling
Adding capture capability
A Basic Free-Running Timer
A Periodic Timer
Clock Selection and Prescaling
Capture Capability
Real-Time Clocks (RTCs)
RTCs provide microprocessor systems with
absolute time information




Absolute time does not necessarily mean
calendar/clock time
Typically operate from 32.768KHz crystal with
battery or capacitor back-up power supply
Generate periodic interrupts
Often contain a small amount of RAM –
historically this was where the PC stored its
configuration (BIOS) settings since it was
non-volatile.
Dallas Semiconductor DS1375
Watchdog Timers
Watchdog timers are used to guard a
system against lock-up due to software
errors or soft failures in hardware

Often included in microcontrollers and CPU
supervisor circuits.
Retriggering is usually done in the main
program loop
Watchdog output can be used to reset the
CPU or as a nonmaskable interrupt (NMI)
Maxim MAX6323/MAX6324
ADuC7026 Timers
Timer0

A basic periodic timer, intended to be used as the
RTOS timer
 16-bit counter, free-running or period register
 CPU core clock with prescaler
 Generates interrupt and/or ADC conversion trigger

MMRs
ADuC7026 Timers
Timer1

General-purpose timer
 32-bit counter
 Multiple clock sources with
prescaler
 Capture register
 Binary or H:M:S formats
ADuC7026 Timers
Timer2

Wake-up timer
 32-bit counter
 Can run on 32kHz clocks
 Binary or H:M:S format
ADuC7026 Timers
Timer3

Watchdog or generalpurpose timer
 16-bit counter
 32kHz clock source
 Watchdog timer is reset
by writing to T3CLRI MMR

Requires pseudo-random
sequence in secure clear
mode
Timer3 Secure Clear Mode
PWM Peripherals
A basic pulse-width modulator peripheral creates a
rectangular wave whose duty cycle can be
controlled

PWM allows us to control the average power delivered
to a load without changing the voltage supplied to it
The ADuC7026 contains a very capable 3-phase
PWM that is intended to do motor control
DMA Controllers
Direct memory access (DMA) controllers are
peripherals devices designed to offload data
movement from the processor

A common use is in servicing peripherals by collecting
a frame of data for the CPU to work on, or sending
out a frame of data to a peripheral as it needs it
To use DMA, we need to




Program the DMA controller for the task
Processor does other things
The DMA controller interrupts the processor when it
has completed.
DMA controllers usually have an auto-reload feature to
do a repetitive task without the CPU having to
reconfigure it every time.
DMA Controllers (cont)
Typical DMA controllers are programmed
with the following information

Source address and destination address
 Should address be modified at each transfer, and
by how much?

Transfer size
 How many bytes should it transfer each time?


Number of transfers
Trigger event
 What causes the DMA controller to do transfers?
Wrapping Up
Homework #4 is due Wednesday, March 21
Reading for next week


Textbook 11
ADUC 9-10, 33-36, 43-47, 79-82
Logic Compatibility Exercises
For the following logic families, determine
compatibility, noise margins, and fan-out.


74ALS driving 74AC
74AC driving 74ALS
VOHmin
VIHmin VOLmax VILmax IOHmax IIHmax IOLmax
IILmax
74ALS 2.7V
2.0V
0.5V
0.8V
-400uA
+20uA
+8.0mA -200uA
74AC
0.7*VCC
0.1V
0.7V
0.3*VCC
-50uA
-24mA
+1uA
+50uA
+24mA
4.9V
3.76V
Note: For 74AC, top line is with CMOS
load, bottom line is with TTL load.
-1uA
TinyLogic and Little Logic
TM
Timer0 MMRs
T0LD – load counter value
T0VAL – read counter value
T0CLRI – clear timer interrupt
T0CON - Configuration
DS1375
RTC
MAX6323
PWM DAC
Use PWM digital output driver
LPF removes most of AC components
VPWM
VOUT
VPWM
VOUT
VAVERAGE
Vout  Vavg  1 an cos( 2ft * n)  bn sin( 2ft * n) 
