COPCH823CJ Datasheet, PDF(17/32 Page) National Semiconductor (TI) – 8-bit Microcontroller with with Multi-Input Wake Up and Brown Detecter

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COPCH823CJ Datasheet, PDF (17/32 Pages) National Semiconductor (TI) – 8-bit Microcontroller with with Multi-Input Wake Up and Brown Detecter

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Comparator

The device has one differential comparator Ports L0 â L2

are used for the comparator The output of the comparator

is brought out to a pin Port L has the following assignments

L0 Comparator output

L1 Comparator negative input

L2 Comparator positive input

THE COMPARATOR STATUS CONTROL BITS

These bits reside in the CNTRL2 Register (Address 0CC)

CMPEN Enables comparator (ââ1ââ e enable)

CMPRD Reads comparator output internally

(CMPEN e 1 CMPOEeX)

CMPOE

Enables comparator output to pin L0

(ââ1ââeenable) CMPEN bit must be set to en-

able this function If CMPENe0 L0 will be 0

The Comparator Select Control bits are cleared on RESET

(the comparator is disabled) To save power the program

should also disable the comparator before the device enters

the HALT mode

The user program must set up L0 L1 and L2 ports correctly

for comparator Inputs Output L1 and L2 need to be config-

ured as inputs and L0 as output

Multi-Input Wake Up

The Multi-Input Wakeup feature is used to return (wakeup)

the device from the HALT mode Figure 16 shows the Multi-

Input Wakeup logic

This feature utilizes the L Port The user selects which par-

ticular L port bit or combination of L Port bits will cause the

device to exit the HALT mode Three 8-bit memory mapped

registers Reg WKEN Reg WKEDG and Reg WKPND are

used in conjunction with the L port to implement the Multi-

Input Wakeup feature

All three registers Reg WKEN Reg WKPND and

Reg WKEDG are read write registers and are cleared at

reset except WKPND WKPND is unknown on reset

The user can select whether the trigger condition on the

selected L Port pin is going to be either a positive edge (low

to high transition) or a negative edge (high to low transition)

This selection is made via the Reg WKEDG which is an 8-

bit control register with a bit assigned to each L Port pin

Setting the control bit will select the trigger condition to be a

negative edge on that particular L Port pin Resetting the bit

selects the trigger condition to be a positive edge Changing

an edge select entails several steps in order to avoid a

pseudo Wakeup condition as a result of the edge change

First the associated WKEN bit should be reset followed by

the edge select change in WKEDG Next the associated

WKPND bit should be cleared followed by the associated

WKEN bit being re-enabled

An example may serve to clarify this procedure Suppose

we wish to change the edge select from positive (low going

high) to negative (high going low) for L port bit 5 where bit 5

has previously been enabled for an input The program

would be as follows

RBIT 5 WKEN

SBIT 5 WKEDG

RBIT 5 WKPND

SBIT 5 WKEN

If the L port bits have been used as outputs and then

changed to inputs with Multi-Input Wakeup a safety proce-

dure should also be followed to avoid inherited pseudo

wakeup conditions After the selected L port bits have been

changed from output to input but before the associated

WKEN bits are enabled the associated edge select bits in

WKEDG should be set or reset for the desired edge selects

followed by the associated WKPND bits being cleared This

same procedure should be used following RESET since the

L port inputs are left floating as a result of RESET

The occurrence of the selected trigger condition for Multi-In-

put Wakeup is latched into a pending register called

Reg WKPND The respective bits of the WKPND register

will be set on the occurrence of the selected trigger edge on

the corresponding Port L pin The user has the responsibility

of clearing these pending flags Since the Reg WKPND is a

pending register for the occurrence of selected wakeup

conditions the device will not enter the HALT mode if any

Wakeup bit is both enabled and pending Setting the G7

data bit under this condition will not allow the device to en-

ter the HALT mode Consequently the user has the respon-

sibility of clearing the pending flags before attempting to

enter the HALT mode

If a crystal oscillator is being used the Wakeup signal will

not start the chip running immediately since crystal oscilla-

tors have a finite start up time The WATCHDOG timer pre-

scaler generates a fixed delay to ensure that the oscillator

has indeed stabilized before allowing the device to execute

instructions In this case upon detecting a valid Wakeup

signal only the oscillator circuitry and the WATCHDOG timer

are enabled The WATCHDOG timer prescaler is loaded

with a value of FF Hex (256 counts) and is clocked from the

tc instruction cycle clock The tc clock is derived by dividing

down the oscillator clock by a factor of 10 A Schmitt trigger

following the CKI on chip inverter ensures that the WATCH-

DOG timer is clocked only when the oscillator has a suffi-

ciently large amplitude to meet the Schmitt trigger specs

This Schmitt trigger is not part of the oscillator closed loop

The startup timeout from the WATCHDOG timer enables

the clock signals to be routed to the rest of the chip

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