MCHC11F1CFNE3 Freescale Semiconductor, MCHC11F1CFNE3 Datasheet - Page 71
MCHC11F1CFNE3
Manufacturer Part Number
MCHC11F1CFNE3
Description
IC MCU 8BIT 1K RAM 68-PLCC
Manufacturer
Freescale Semiconductor
Series
HC11r
Specifications of MCHC11F1CFNE3
Core Processor
HC11
Core Size
8-Bit
Speed
3MHz
Connectivity
SCI, SPI
Peripherals
POR, WDT
Number Of I /o
30
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
30
Interface
SCI/SPI
Memory Type
EPROM
Number Of Bits
8
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
30
Eeprom Memory Size
512Byte
Ram Memory Size
1KB
Cpu Speed
3MHz
No. Of Timers
1
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
1
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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5.4.1 Interrupt Recognition and Register Stacking
TECHNICAL DATA
For some interrupt sources, such as the SCI interrupts, the flags are automatically
cleared during the normal course of responding to the interrupt requests. For example,
the RDRF flag in the SCI system is cleared by the automatic clearing mechanism con-
sisting of a read of the SCI status register while RDRF is set, followed by a read of the
SCI data register. The normal response to an RDRF interrupt request would be to read
the SCI status register to check for receive errors, then to read the received data from
the SCI data register. These two steps satisfy the automatic clearing mechanism with-
out requiring any special instructions.
An interrupt can be recognized at any time after it is enabled by its local mask, if any,
and by the global mask bit in the CCR. Once an interrupt source is recognized, the
CPU responds at the completion of the instruction being executed. Interrupt latency
varies according to the number of cycles required to complete the current instruction.
When the CPU begins to service an interrupt, the contents of the CPU registers are
pushed onto the stack in the order shown in Table 5-5. After the CCR value is stacked,
the I bit and the X bit (if XIRQ is pending) are set to inhibit further interrupts. The inter-
rupt vector for the highest priority pending source is fetched, and execution continues
FFC0, C1 – FFD4, D5
Vector Address
FFDA, DB
FFDC, DD
FFEC, ED
FFDE, DF
FFEA, EB
FFFC, FD
FFD6, D7
FFD8, D9
FFEE, EF
FFFA, FB
FFE0, E1
FFE2, E3
FFE4, E5
FFE6, E7
FFE8, E9
FFFE, FF
FFF0, F1
FFF2, F3
FFF4, F5
FFF6, F7
FFF8, F9
Table 5-4 Interrupt and Reset Vector Assignments
Freescale Semiconductor, Inc.
For More Information On This Product,
Reserved
SCI Serial System
SPI Serial Transfer Complete
Pulse Accumulator Input Edge
Pulse Accumulator Overflow
Timer Overflow
Timer Input Capture 4/Output Compare 5
Timer Output Compare 4
Timer Output Compare 3
Timer Output Compare 2
Timer Output Compare 1
Timer Input Capture 3
Timer Input Capture 2
Timer Input Capture 1
Real-Time Interrupt
IRQ
XIRQ Pin
Software Interrupt
Illegal Opcode Trap
COP Failure
Clock Monitor Fail
RESET
RESETS AND INTERRUPTS
Go to: www.freescale.com
• SCI Receive Data Register Full
• SCI Receiver Overrun
• SCI Transmit Data Register Empty
• SCI Transmit Complete
• SCI Idle Line Detect
Interrupt Source
Mask Bit
None
None
None
None
None
CCR
—
X
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
Local Mask
NOCOP
PAOVI
I4/O5I
None
None
None
None
None
TCIE
SPIE
OC4I
OC3I
OC2I
OC1I
CME
PAII
RTII
ILIE
IC3I
IC2I
IC1I
RIE
RIE
TOI
TIE
—
5-9
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