MCHC11F1CFNE3 Freescale Semiconductor, MCHC11F1CFNE3 Datasheet - Page 79

MCHC11F1CFNE3

Manufacturer Part Number

MCHC11F1CFNE3

Description

IC MCU 8BIT 1K RAM 68-PLCC

Manufacturer

Freescale Semiconductor

Series

HC11r

Datasheets

1.MCHC11F1CFNE2R.pdf (158 pages)

2.MCHC11F1CFNE2R.pdf (68 pages)

Specifications of MCHC11F1CFNE3

Core Processor

HC11

Core Size

8-Bit

Speed

3MHz

Connectivity

SCI, SPI

Peripherals

POR, WDT

Number Of I /o

Program Memory Type

ROMless

Eeprom Size

512 x 8

Ram Size

1K x 8

Voltage - Supply (vcc/vdd)

4.75 V ~ 5.25 V

Data Converters

A/D 8x8b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

68-PLCC

A/d Inputs

8-Channel, 8-Bit

Eeprom Memory

512 Bytes

Input Output

Interface

SCI/SPI

Memory Type

EPROM

Number Of Bits

Package Type

68-pin PLCC

Programmable Memory

0 Bytes

Timers

3-16-bit

Voltage, Range

3-5.5 V

Controller Family/series

68HC11

No. Of I/o's

Eeprom Memory Size

512Byte

Ram Memory Size

1KB

Cpu Speed

3MHz

No. Of Timers

Embedded Interface Type

SCI, SPI

Rohs Compliant

Yes

Processor Series

HC11F

Core

HC11

Data Bus Width

8 bit

Program Memory Size

512 B

Data Ram Size

1 KB

Interface Type

SCI, SPI

Maximum Clock Frequency

3 MHz

Number Of Timers

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

On-chip Adc

8 bit, 8 Channel

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Program Memory Size

Lead Free Status / Rohs Status

RoHS Compliant part

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Current page: 79 of 158
Download datasheet (5Mb)

5.5.1 WAIT

5.5.2 STOP

TECHNICAL DATA

The WAI opcode places the MCU in the WAIT condition, during which the CPU regis-

ters are stacked and CPU processing is suspended until a qualified interrupt is detect-

ed. The interrupt can be an external IRQ, an XIRQ, or any of the internally generated

interrupts, such as the timer or serial interrupts. The on-chip crystal oscillator remains

active throughout the WAIT standby period.

The reduction of power in the WAIT condition depends on how many internal clock sig-

nals driving on-chip peripheral functions can be shut down. The CPU is always shut

down during WAIT. While in the wait state, the address/data bus repeatedly runs read

cycles to the address where the CCR contents were stacked. Ensuring that the stack

contents are placed in internal RAM will further reduce power consumption. The MCU

leaves the wait state when it senses any interrupt that has not been masked.

The free-running timer system is shut down only if the I bit is set to one and the COP

system is disabled by NOCOP being set to one. Several other systems can also be in

a reduced power consumption state depending on the state of software-controlled

configuration control bits. Power consumption by the analog-to-digital (A/D) converter

is not affected significantly by the WAIT condition. However, the A/D converter current

can be eliminated by writing the ADPU bit to zero. The SPI system is enabled or dis-

abled by the SPE control bit. The SCI transmitter is enabled or disabled by the TE bit,

and the SCI receiver is enabled or disabled by the RE bit. Therefore the power con-

sumption in WAIT is dependent on the particular application.

Executing the STOP instruction while the S bit in the CCR is equal to zero places the

MCU in the STOP condition. If the S bit is not zero, the STOP opcode is treated as a

no-op (NOP). The STOP condition offers minimum power consumption because all

clocks, including the crystal oscillator, are stopped while in this mode. To exit STOP

and resume normal processing, a logic low level must be applied to one of the external

interrupts (IRQ or XIRQ) or to the RESET pin. A pending edge-triggered IRQ can also

bring the CPU out of STOP.

Because all clocks are stopped in this mode, all internal peripheral functions also stop.

The data in the internal RAM is retained as long as V

state and I/O pin levels are static and are unchanged by STOP. Therefore, when an

interrupt restarts the system, the MCU resumes processing as if there were no inter-

ruption. If reset is used to restart the system a normal reset sequence results where

all I/O pins and functions are also restored to their initial states.

To use the IRQ pin as a means of recovering from STOP, the I bit in the CCR must be

clear (IRQ not masked). The XIRQ pin can be used to wake up the MCU from STOP

regardless of the state of the X bit in the CCR, although the recovery sequence de-

pends on the state of the X bit. If X is set to zero (XIRQ not masked), the MCU starts

up, beginning with the stacking sequence leading to normal service of the XIRQ re-

quest. If X is set to one (XIRQ masked or inhibited), then processing continues with

the instruction that immediately follows the STOP instruction, and no XIRQ interrupt

service is requested or pending.

Freescale Semiconductor, Inc.

For More Information On This Product,

RESETS AND INTERRUPTS

Go to: www.freescale.com

power is maintained. The CPU

5-17

MCHC11F1CFNE3 Freescale Semiconductor, MCHC11F1CFNE3 Datasheet - Page 79

MCHC11F1CFNE3

Specifications of MCHC11F1CFNE3

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