cop8cde9 National Semiconductor Corporation, cop8cde9 Datasheet - Page 36

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

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7.0 Power Saving Features

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.

Note: 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 Timers section.

7.5 LOW SPEED MODE OPERATION

This mode of operation allows for low speed operation of the

core clock and low speed operation of the Idle Timer. Be-

cause the low speed oscillator draws very little operating

current, and also to expedite restarting from HALT mode, the

low speed oscillator is left on at all times in this mode,

including HALT mode. This is the lowest power mode of

operation on the device. This mode can only be entered from

the Dual Clock mode.

To enter the Low Speed mode, the following sequence must

be followed using two separate instructions:

1. Software sets the CCKSEL bit to 1.

2. Software clears the HSON bit to 0.

Since the low speed oscillator is already running, there is no

clock startup delay.

7.5.1 Low Speed HALT Mode

The fully static architecture of this device allows the state of

the microcontroller to be frozen. Because the low speed

oscillator draws very minimal operating current, it will be left

running in the low speed halt mode. However, the Idle Timer

will not be running. This also allows for a faster exit from

HALT. The processor can be forced to exit the HALT mode

and resume normal operation at any time.

During normal operation, the actual power consumption de-

pends heavily on the clock speed and operating voltage

used in an application and is shown in the Electrical Speci-

fications. In the HALT mode, the device only draws a small

leakage current, plus current for the BOR feature (if en-

abled), plus the 32 kHz oscillator current, plus any current

necessary for driving the outputs. Since total power con-

sumption is affected by the amount of current required to

drive the outputs, all I/Os should be configured to draw

minimal current prior to entering the HALT mode, if possible.

Entering The Low Speed Halt Mode

The device enters the HALT mode under software control

when the Port G data register bit 7 is set to 1. All processor

action stops in the middle of the next instruction cycle, and

power consumption is reduced to a very low level. In order to

expedite exit from HALT, the low speed oscillator is left

running when the device is Halted in the Low Speed mode.

However, the Idle Timer will not be clocked.

(Continued)

Exiting The Low Speed Halt Mode

When the HALT mode is entered by setting bit 7 of the Port

G data register, there is a choice of methods for exiting the

HALT mode: a chip Reset using the RESET pin or a Multi-

Input Wake-up. The Reset method and Multi-Input Wake-up

method can be used with any clock option, but the availabil-

ity of the G7 input is dependent on the clock option.

HALT Exit Using Reset

A device Reset, which is invoked by a low-level signal on the

RESET input pin, takes the device out of the Low Speed

mode and puts it into the High Speed mode.

HALT Exit Using Multi-Input Wake-up

The device can be brought out of the HALT mode by a

transition received on one of the available Wake-up pins.

The pins used and the types of transitions sensed on the

Multi-input pins are software programmable. For information

on programming and using the Multi-Input Wake-up feature,

refer to the Multi-Input Wake-up section.

As the low speed oscillator is left running, there is no start up

delay when exiting the low speed halt mode, regardless of

the state of the CLKDLY bit.

Note: To ensure accurate operation upon start-up of the

device using Multi-input Wake-up, the instruction in the ap-

plication program used for entering the HALT mode should

be followed by two consecutive NOP (no-operation) instruc-

tions.

Options

This device has two options associated with the HALT mode.

The first option enables the HALT mode feature, while the

second option disables HALT mode operation. Selecting the

disable HALT mode option will cause the microcontroller to

ignore any attempts to HALT the device under software

control. See the Option section for more details on this

option bit.

7.5.2 Low Speed Idle Mode

In the IDLE mode, program execution stops and power

consumption is reduced to a very low level as with the HALT

mode. However, the low speed oscillator, IDLE Timer (Timer

T0), and Clock Monitor continue to operate, allowing real

time to be maintained. The device remains idle for a selected

amount of time up to 2 seconds, and then automatically exits

the IDLE mode and returns to normal program execution

using the low speed clock.

The device is placed in the IDLE mode under software

control by setting the IDLE bit (bit 6 of the Port G data

The IDLE Timer window is selectable from one of five values,

0.125 seconds, 0.25 seconds, 0.5 seconds, 1 second, and

2 seconds. Selection of this value is made through the ITMR

The IDLE mode uses the on-chip IDLE Timer (Timer T0) to

keep track of elapsed time in the IDLE state. The IDLE Timer

runs continuously at the low speed clock rate, whether or not

the device is in the IDLE mode. Each time the bit of the timer

associated with the selected window toggles, the T0PND bit

is set, an interrupt is generated (if enabled), and the device

exits the IDLE mode if in that mode. If the IDLE Timer

interrupt is enabled, the interrupt is serviced before execu-

tion of the main program resumes. (However, the instruction

which was started as the part entered the IDLE mode is

completed before the interrupt is serviced. This instruction

cop8cde9 National Semiconductor Corporation, cop8cde9 Datasheet - Page 36

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