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CHAPTER 3 CPU
3.8.5.4
Stop Mode
The stop mode stops the oscillation clock (HCLK) and sub clock (SCLK) during
operation in each clock mode.It enables data to be retained with the least power
consumption.
■
Stop Mode
When 1 is written to the STP bit of the low-power consumption mode control register (LPMCR) during
operation in the PLL clock mode, the mode transits to the stop mode according to the settings of the MCS
bit and SCS bit in the clock select register (CKSCR).
Table 3.8-5 shows the settings of the MCS and SCS bits in the clock select register (CKSCR) and the stop
modes.
●
Data retention function
In the stop mode, data in the dedicated registers such as accumulators and internal RAM are held.
●
Operation when interrupt request generated
When an interrupt request is generated with the STP bit in the low-power consumption mode control
register (LPMCR) set to "1", the mode does not transit to the stop mode.If the CPU is not ready to accept
any interrupt request, the next instruction to the currently executing instruction is executed.If the CPU is
ready to accept any interrupt request, an interrupt operation immediately branches to the interrupt
processing routine.
●
Pin state
In the stop mode, the input/output pins can be set to the high-impedance state or held in the state before
transiting to the stop mode according to the setting of the SPL bit in the low-power consumption mode
control register (LPMCR).
Table 3.8-5 Clock select register (CKSCR) settings and stop modes
Clock select register (CKSCR)
Stop Mode to be Transited
MCS
SCS
1
1
Main stop mode
0
1
PLL stop mode
1
0
Sub-stop mode
0
0
Notes:
•
If both the STP and SLP bits in the low-power consumption mode control register
(LPMCR) are set to "1" simultaneously, the STP bit is preferred and the mode transits to
the stop mode.
•
There is no sub-clock in MB90F897S.
Summary of Contents for F2MC-16LX Series
Page 2: ......
Page 3: ...FUJITSU LIMITED F2MC 16LX 16 bit Microcontroller MB90895 series Hardware Manual ...
Page 4: ......
Page 8: ...iv ...
Page 10: ...vi ...
Page 36: ...18 CHAPTER 2 HANDLING DEVICES ...
Page 176: ...158 CHAPTER 3 CPU ...
Page 224: ...206 CHAPTER 5 Timebase timer ...
Page 294: ...276 CHAPTER 8 16 bit reload timer ...
Page 366: ...348 CHAPTER 12 DTP external interrupt ...
Page 398: ...380 CHAPTER 13 8 10 bit A D converter ...
Page 446: ...428 CHAPTER 14 UART0 ...
Page 588: ...570 CHAPTER 17 Address Match Detecting Function ...
Page 626: ...608 CHAPTER 19 512 KBIT FLASH MEMORY ...
Page 676: ...658 APPENDIX Table A 9 3 Bit Operation Instruction Map first byte 6CH ...
Page 678: ...660 APPENDIX Table A 9 5 2 byte Instruction Map first byte 6FH MUL MULW DIVU A A A ...
Page 680: ...662 APPENDIX Table A 9 7 ea Instruction 2 first byte 71H ...
Page 681: ...663 APPENDIX A Instructions Table A 9 8 ea Instruction 3 first byte 72H ...
Page 682: ...664 APPENDIX Table A 9 9 ea Instruction 4 first byte 73H ...
Page 683: ...665 APPENDIX A Instructions Table A 9 10 ea Instruction 5 first byte 74H ...
Page 684: ...666 APPENDIX Table A 9 11 ea Instruction 6 first byte 75H ...
Page 685: ...667 APPENDIX A Instructions Table A 9 12 ea Instruction 7 first byte 76H ...
Page 686: ...668 APPENDIX Table A 9 13 ea Instruction 8 first byte 77H ...
Page 687: ...669 APPENDIX A Instructions Table A 9 14 ea Instruction 9 first byte 78H ...
Page 688: ...670 APPENDIX Table A 9 15 MOVEA RWi ea Instruction first byte 79H ...
Page 689: ...671 APPENDIX A Instructions Table A 9 16 MOV Ri ea Instruction first byte 7AH ...
Page 690: ...672 APPENDIX Table A 9 17 MOVW RWi ea Instruction first byte 7BH ...
Page 691: ...673 APPENDIX A Instructions Table A 9 18 MOV ea Ri Instruction first byte 7CH ...
Page 692: ...674 APPENDIX Table A 9 19 MOVW ea Rwi Instruction first byte 7DH ...
Page 693: ...675 APPENDIX A Instructions Table A 9 20 XCH Ri ea Instruction first byte 7EH ...
Page 694: ...676 APPENDIX Table A 9 21 XCHW RWi ea Instruction first byte 7FH ...
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