MC68HC11E1CFN2 Freescale Semiconductor, MC68HC11E1CFN2 Datasheet - Page 101
MC68HC11E1CFN2
Manufacturer Part Number
MC68HC11E1CFN2
Description
IC MCU 512 EEPROM 2MHZ 52-PLCC
Manufacturer
Freescale Semiconductor
Series
HC11r
Datasheet
1.MC68HC11E1CFN3.pdf
(268 pages)
Specifications of MC68HC11E1CFN2
Core Processor
HC11
Core Size
8-Bit
Speed
2MHz
Connectivity
SCI, SPI
Peripherals
POR, WDT
Number Of I /o
38
Program Memory Type
ROMless
Eeprom Size
512 x 8
Ram Size
512 x 8
Voltage - Supply (vcc/vdd)
4.5 V ~ 5.5 V
Data Converters
A/D 8x8b
Oscillator Type
Internal
Operating Temperature
-40°C ~ 85°C
Package / Case
52-PLCC
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Program Memory Size
-
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5.5.3 Illegal Opcode Trap
5.5.4 Software Interrupt (SWI)
5.5.5 Maskable Interrupts
5.5.6 Reset and Interrupt Processing
M68HC11E Family — Rev. 5
MOTOROLA
stacking the CCR. A return-from-interrupt instruction restores the X and I bits to
their pre-interrupt request state.
Because not all possible opcodes or opcode sequences are defined, the MCU
includes an illegal opcode detection circuit, which generates an interrupt request.
When an illegal opcode is detected and the interrupt is recognized, the current
value of the program counter is stacked. After interrupt service is complete,
reinitialize the stack pointer so repeated execution of illegal opcodes does not
cause stack underflow. Left uninitialized, the illegal opcode vector can point to a
memory location that contains an illegal opcode. This condition causes an infinite
loop that causes stack underflow. The stack grows until the system crashes.
The illegal opcode trap mechanism works for all unimplemented opcodes on all
four opcode map pages. The address stacked as the return address for the illegal
opcode interrupt is the address of the first byte of the illegal opcode. Otherwise, it
would be almost impossible to determine whether the illegal opcode had been one
or two bytes. The stacked return address can be used as a pointer to the illegal
opcode so the illegal opcode service routine can evaluate the offending opcode.
SWI is an instruction, and thus cannot be interrupted until complete. SWI is not
inhibited by the global mask bits in the CCR. Because execution of SWI sets the I
mask bit, once an SWI interrupt begins, other interrupts are inhibited until SWI is
complete, or until user software clears the I bit in the CCR.
The maskable interrupt structure of the MCU can be extended to include additional
external interrupt sources through the IRQ pin. The default configuration of this pin
is a low-level sensitive wired-OR network. When an event triggers an interrupt, a
software accessible interrupt flag is set. When enabled, this flag causes a constant
request for interrupt service. After the flag is cleared, the service request is
released.
Figure 5-5
illustrates how the CPU begins from a reset and how interrupt detection relates to
normal opcode fetches.
illustrates interrupt priorities.
within the SCI subsystem.
Freescale Semiconductor, Inc.
For More Information On This Product,
and
Figure 5-6
Go to: www.freescale.com
Resets and Interrupts
Figure 5-6
illustrate the reset and interrupt process.
Figure 5-7
is an expansion of a block in
shows the resolution of interrupt sources
Resets and Interrupts
Figure 5-5
Figure 5-5
Data Sheet
Interrupts
and
101
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