MC68HC916Y3CFT16 Freescale Semiconductor, MC68HC916Y3CFT16 Datasheet - Page 148

MC68HC916Y3CFT16

Manufacturer Part Number

MC68HC916Y3CFT16

Description

IC MCU 96K FLASH 16MHZ 160-QFP

Manufacturer

Freescale Semiconductor

Series

HC16r

Datasheet

1.MC68HC916Y3CFT16.pdf (500 pages)

Specifications of MC68HC916Y3CFT16

Core Processor

CPU16

Core Size

16-Bit

Speed

16MHz

Connectivity

EBI/EMI, SCI, SPI

Peripherals

POR, PWM, WDT

Number Of I /o

Program Memory Size

96KB (96K x 8)

Program Memory Type

FLASH

Ram Size

2K x 8

Voltage - Supply (vcc/vdd)

4.5 V ~ 5.5 V

Data Converters

A/D 8x10b

Oscillator Type

External

Operating Temperature

-40°C ~ 85°C

Package / Case

160-QFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Eeprom Size

Current page: 148 of 500
Download datasheet (3Mb)

5.7 Reset

5.7.1 Reset Exception Processing

5.7.2 Reset Control Logic

5-40

MOTOROLA

SIZ[1:0] signals reflect bus allocation during show cycles. Only the appropriate portion

of the data bus is valid during the cycle. During a byte write to an internal address, the

portion of the bus that represents the byte that is not written reflects internal bus con-

ditions, and is indeterminate. During a byte write to an external address, the data mul-

tiplexer in the SCIM2 causes the value of the byte that is written to be driven out on

both bytes of the data bus.

Reset occurs when an active low logic level on the RESET pin is clocked into the

SCIM2. The RESET input is synchronized to the system clock. If there is no clock

when RESET is asserted, reset does not occur until the clock starts. Resets are

clocked to allow completion of write cycles in progress at the time RESET is asserted.

Reset procedures handle system initialization and recovery from catastrophic failure.

The MCU performs resets with a combination of hardware and software. The SCIM2

determines whether a reset is valid, asserts control signals, performs basic system

configuration and boot ROM selection based on hardware mode-select inputs, then

passes control to the CPU16.

The CPU16 processes resets as a type of asynchronous exception. An exception is

an event that preempts normal processing, and can be caused by internal or external

events. Exception processing makes the transition from normal instruction execution

to execution of a routine that deals with an exception. Each exception has an assigned

vector that points to an associated handler routine. These vectors are stored in the

exception vector table. The exception vector table consists of 256 four-byte vectors

and occupies 512 bytes of address space. The exception vector table can be relocated

in memory by changing its base address in the vector base register (VBR). The CPU16

uses vector numbers to calculate displacement into the table. Refer to 4.13 Exceptions

for more information.

Reset is the highest-priority CPU16 exception. Unlike all other exceptions, a reset oc-

curs at the end of a bus cycle, and not at an instruction boundary. Handling resets in

this way prevents write cycles in progress at the time the reset signal is asserted from

being corrupted. However, any processing in progress is aborted by the reset excep-

tion, and cannot be restarted. Only essential reset tasks are performed during excep-

tion processing. Other initialization tasks must be accomplished by the exception

handler routine. Refer to 5.7.9 Reset Processing Summary for details on exception

processing.

SCIM2 reset control logic determines the cause of a reset, synchronizes request

signals to CLKOUT, and asserts reset control signals. Reset control logic can drive

three different internal signals.

MC68HC16Y3/916Y3

USER’S MANUAL

MC68HC916Y3CFT16 Freescale Semiconductor, MC68HC916Y3CFT16 Datasheet - Page 148

MC68HC916Y3CFT16

Specifications of MC68HC916Y3CFT16

Related parts for MC68HC916Y3CFT16