COP87L88KG Datasheet, PDF(16/42 Page) National Semiconductor (TI) – 8-Bit One-Time Programmable (OTP) Microcontroller with UART and Three Multi-Function Timers

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COP87L88KG Datasheet, PDF (16/42 Pages) National Semiconductor (TI) – 8-Bit One-Time Programmable (OTP) Microcontroller with UART and Three Multi-Function Timers

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Multi-Input Wakeup (Continued)

The Multi-Input Wakeup feature utilizes the L Port The user

selects which particular L port bit (or combination of L Port

bits) will cause the device to exit the HALT or IDLE modes

The selection is done through the Register WKEN The

tains a control bit for every L port bit Setting a particular

WKEN bit enables a Wakeup from the associated L port pin

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 Register 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

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 interrupt The pro-

gram would be as follows

RBIT 5 WKEN

Disable Port bit 5 for

SBIT 5 WKEDG

Wakeup

Select neg going edge

sensitivity

RBIT 5 WKPND

Clear pending bit

SBIT 5 WKEN

Re-enable the bit for

Wakeup

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

changed to inputs with Multi-Input Wakeup Interrupt a safe-

ty procedure should also be followed to avoid wakeup con-

ditions 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

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 WKPND is a pending

the device will not enter the HALT mode if any Wakeup bit is

both enabled and pending Consequently the user must

clear the pending flags before attempting to enter the HALT

mode

WKEN WKPND and WKEDG are all read write registers

and are cleared at reset

PORT L INTERRUPTS

Port L provides the user with an additional eight fully select-

able edge sensitive interrupts which are all vectored into

the same service subroutine

The interrupt from Port L shares logic with the wake up cir-

cuitry The register WKEN allows interrupts from Port L to

be individually enabled or disabled The register WKEDG

specifies the trigger condition to be either a positive or a

negative edge Finally the register WKPND latches in the

pending trigger conditions

The GIE (Global Interrupt Enable) bit enables the interrupt

function

A control flag LPEN functions as a global interrupt enable

for Port L interrupts Setting the LPEN flag will enable inter-

rupts and vice versa A separate global pending flag is not

needed since the register WKPND is adequate

Since Port L is also used for waking the device out of the

HALT or IDLE modes the user can elect to exit the HALT or

IDLE modes either with or without the interrupt enabled If

he elects to disable the interrupt then the device will restart

execution from the instruction immediately following the in-

struction that placed the microcontroller in the HALT or

IDLE modes In the other case the device will first execute

the interrupt service routine and then revert to normal oper-

ation (See HALT MODE for clock option wakeup informa-

tion )

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