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ST63E69D1 Datasheet(PDF) 11 Page - STMicroelectronics

No. de pieza ST63E69D1
Descripción Electrónicos  8-BIT HCMOS MCU FOR DIGITAL CONTROLLED MULTI FREQUENCYMONITOR
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Fabricante Electrónico  STMICROELECTRONICS [STMicroelectronics]
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ST6369 CORE (Continued)
Indirect Registers (X, Y). These two indirect reg-
isters are used as pointers to the memory locations
in the data space. They are used in the register-in-
direct addressing mode.These registers can be
addressed in the data space as RAM locations at
the 80H (X) and 81H (Y) addresses. They can also
be accessed with the direct, short direct, or bit di-
rect addressing modes. Accordingly, the ST638x
instruction set can use the indirect registers as any
other register of the data space.
Short Direct Registers (V, W). These two regis-
ters are used to save one byte in short direct ad-
dressing mode. These registers can be addressed
in the data space as RAM locations at the 82H (V)
and 83H (W) addresses. They can also be ac-
cessed with the direct and bit direct addressing
modes. Accordingly, the ST638x instruction set
can use the short direct registers as any other reg-
ister of the data space.
Program Counter (PC)
The program counter is a 12-bit register that con-
tains the address of the next ROM location to be
processed by the core. This ROM location may be
an opcode, an operand, or an address of operand.
The 12-bit length allows the direct addressing of
4096 bytes in the program space. Nevertheless, if
the program space contains more than 4096 loca-
tions, the further program space can be addressed
by using the Program ROM Page Register. The PC
value is incremented, after it is read for the address
of the current instruction, by sending it through the
ALU, so giving the address of the next byte in the
program. To execute relative jumps the PC and the
offset values are shifted through the ALU, where
they will be added, and the result is shifted back
into the PC. The program counter can be changed
in the following ways:
JP (Jump) instruction.... PC= Jump address
CALL instruction ........... PC=Call address
Relative Branch
instructions ................... PC=PC+offset
Interrupt........................ PC=Interrupt vector
Reset ............................ PC=Reset vector
RET & RETI instructions............ PC=Pop (stack)
Normal instruction ........ PC= PC+1
WHEN CALL
OR
INTERRUPT REQUEST
OCCURS
STACK LEVEL 1
STACK LEVEL 2
STACK LEVEL 3
STACK LEVEL 4
STACK LEVEL 5
STACK LEVEL 6
PROGRAM COUNTER
WHEN
RET OR RETI
OCCURS
VA000424
Figure 5. Stack Operation
Flags (C, Z)
The ST6369 Core includes three pairs of flags that
correspond to 3 different modes: normal mode, in-
terrupt mode and Non-Maskable-Interrupt-Mode.
Each pair consists of a CARRY flag and a ZERO
flag. One pair (CN, ZN) is used during normal op-
eration, one pair is used during the interrupt mode
(CI,ZI) and one is used during the not-maskable in-
terrupt mode (CNMI, ZNMI).
The ST6369 Core uses the pair of flags that corre-
sponds to the actual mode: as soon as an interrupt
(resp. a Non-Maskable-Interrupt) is generated, the
ST6369 Core uses the interrupt flags (resp. the NMI
flags) instead of the normal flags. When the RETI in-
struction is executed, the normal flags (resp. the in-
terrupt flags) are restored if the MCU was in the
normal mode (resp. in the interrupt mode) before the
interrupt. Should be observed that each flag set can
only be addressed in its own routine (Not-maskable
interrupt, normal interrupt or main routine). The inter-
rupt flags are not cleared during the context switch-
ing and so, they remain in the state they were at the
exit of the last routine switching.
The Carry flag is set when a carry or a borrow oc-
curs during arithmetic operations, otherwise it is
cleared. The Carry flag is also set to the value of
the bit tested in a bit test instruction, and partici-
pates in the rotate left instruction.
The Zero flag is set if the result of the last arithmetic
or logical operation was equal to zero, otherwise it
is cleared.
The switching between these three sets is auto-
matically performed when an NMI, an interrupt and
a RETI instructions occur. As the NMI mode is
automatically selected after the reset of the MCU,
the ST6369 Core uses at first the NMI flags.
®
ST6369
7/67


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