參數(shù)資料
型號(hào): ST90R158T6
英文描述: 8/16-BIT MICROCONTROLLER (MCU) WITH 16 TO 64K ROM. OTP OR EPROM. 512 TO 2K RAM - ST9 + FAMILY
中文描述: 16位產(chǎn)品微控制器(MCU),并配備16至64K的光盤(pán)。檢察官辦公室或EPROM。 512 2K的內(nèi)存- ST9家庭
文件頁(yè)數(shù): 50/199頁(yè)
文件大?。?/td> 2813K
代理商: ST90R158T6
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ST90158 - INTERRUPTS
with the highest position in the chain, as shown in
Figure 9
Table 9. Daisy Chain Priority
4.4.4 Dynamic Priority Level Modification
The main program and routines can be specifically
prioritized. Since the CPL is represented by 3 bits
in a read/write register, it is possible to modify dy-
namically the current priority value during program
execution. This means that a critical section can
have a higher priority with respect to other inter-
rupt requests. Furthermore it is possible to priori-
tize even the Main Program execution by modify-
ing the CPL during its execution. See
Figure 20
Figure 20. Example of Dynamic priority
level modification in Nested Mode
INTERRUPT 6 HAS PRIORITY LEVEL 6
4.5 ARBITRATION MODES
The ST9 provides two interrupt arbitration modes:
Concurrent mode and Nested mode. Concurrent
mode is the standard interrupt arbitration mode.
Nested mode improves the effective interrupt re-
sponse time when service routine nesting is re-
quired, depending on the request priority levels.
The IAM control bit in the CICR Register selects
Concurrent Arbitration mode or Nested Arbitration
Mode.
4.5.1 Concurrent Mode
This mode is selected when the IAM bit is cleared
(reset condition). The arbitration phase, performed
during every instruction, selects the request with
the highest priority level. The CPL value is not
modified in this mode.
Start of Interrupt Routine
The interrupt cycle performs the following steps:
– All maskable interrupt requests are disabled by
clearing CICR.IEN.
– The PC low byte is pushed onto system stack.
– The PC high byte is pushed onto system stack.
– If ENCSR is set, CSR is pushed onto system
stack.
– The Flag register is pushed onto system stack.
– The PC is loaded with the 16-bit vector stored in
the Vector Table, pointed to by the IVR.
– If ENCSR is set, CSR is loaded with ISR con-
tents; otherwise ISR is used in place of CSR until
iret
instruction.
End of Interrupt Routine
The Interrupt Service Routine must be ended with
the
iret
instruction. The
iret
instruction exe-
cutes the following operations:
– The Flag register is popped from system stack.
– If ENCSR is set, CSR is popped from system
stack.
– The PC high byte is popped from system stack.
– The PC low byte is popped from system stack.
– All unmasked Interrupts are enabled by setting
the CICR.IEN bit.
– If ENCSR is reset, CSR is used instead of ISR.
Normal program execution thus resumes at the in-
terrupted instruction. All pending interrupts remain
pending until the next
ei
instruction (even if it is
executed during the interrupt service routine).
Note
: In Concurrent mode, the source priority level
is only useful during the arbitration phase, where it
is compared with all other priority levels and with
the CPL. No trace is kept of its value during the
ISR. If other requests are issued during the inter-
rupt service routine, once the global CICR.IEN is
re-enabled, they will be acknowledged regardless
of the interrupt service routine’s priority. This may
cause undesirable interrupt response sequences.
Highest Position
Lowest Position
INTA0
INTA1
INTB0
INTB1
INTC0
INTC1
INTD0
INTD1
TIMER0
SCI0
SCI1
A/D
TIMER3
TIMER1
INT0/WDT
INT1
INT2/SPI
INT3
INT4/STIM
INT5
INT6/RCCU
INT7
6
5
4
7
Priority Level
MAIN
CPL is set to 5
CPL=7
MAIN
INT 6
CPL=6
INT6
ei
CPL is set to 7
by MAIN program
CPL6 > CPL5:
INT6 pending
9
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