cop8cde9 National Semiconductor Corporation, cop8cde9 Datasheet - Page 37

cop8cde9

Manufacturer Part Number

cop8cde9

Description

8-bit Cmos Flash Microcontroller With 8k Memory, Virtual Eeprom, 10-bit A/d And Brownout Reset

Manufacturer

National Semiconductor Corporation

Datasheet

1.COP8CDE9.pdf (75 pages)

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7.0 Power Saving Features

should be a NOP which should follow the enter IDLE instruc-

tion.) The user must reset the IDLE Timer pending flag

(T0PND) before entering the IDLE mode.

As with the HALT mode, this device can also be returned to

normal operation with a Multi-Input Wake-up input.

The IDLE Timer cannot be started or stopped under software

control, and it is not memory mapped, so it cannot be read or

written by the software. Its state upon Reset is unknown.

Therefore, if the device is put into the IDLE mode at an

arbitrary time, it will stay in the IDLE mode for somewhere

between 30 µs and the selected time period.

In order to precisely time the duration of the IDLE state, entry

into the IDLE mode must be synchronized to the state of the

IDLE Timer. The best way to do this is to use the IDLE Timer

interrupt, which occurs on every underflow of the bit of the

IDLE Timer which is associated with the selected window.

Another method is to poll the state of the IDLE Timer pending

7.6 MULTI-INPUT WAKE-UP

The Multi-Input Wake-up feature is used to return (wake-up)

the device from either the HALT or IDLE modes. Alternately

Multi-Input Wake-up/Interrupt feature may also be used to

generate up to 8 edge selectable external interrupts.

Figure 21 shows the Multi-Input Wake-up logic.

The Multi-Input Wake-up 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 reg-

ister WKEN is an 8-bit read/write register, which contains a

control bit for every L port bit. Setting a particular WKEN bit

enables a Wake-up 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

FIGURE 21. Multi-Input Wake-Up Logic

(Continued)

bit T0PND, which is set on the same occurrence. The Idle

Timer interrupt is enabled by setting bit T0EN in the ICNTRL

Any time the IDLE Timer window length is changed there is

the possibility of generating a spurious IDLE Timer interrupt

by setting the T0PND bit. The user is advised to disable

IDLE Timer interrupts prior to changing the value of the

ITSEL bits of the ITMR Register and then clear the T0PND

bit before attempting to synchronize operation to the IDLE

Timer.

As with the HALT mode, it is necessary to program two

NOP’s to allow clock resynchronization upon return from the

IDLE mode. The NOP’s are placed either at the beginning of

the IDLE Timer interrupt routine or immediately following the

“enter IDLE mode” instruction.

For more information on the IDLE Timer and its associated

interrupt, see the description in the Section 6.1, Timer T0

(IDLE Timer).

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

Wake-up 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)

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cop8cde9 National Semiconductor Corporation, cop8cde9 Datasheet - Page 37

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