14
14-13
Ver.0.10
REAL-TIME DEBUGGER (RTD)
14.3 Functional Description of the RTD
Figure 14.3.13 Command Transfer to the RTD after System Reset
Note : (An) = Specified address
D (An) = Data at specified address (An)
14.3.8 Resetting the RTD
The RTD is reset by applying a system rest (i.e., by entering the RESET signal). The status of the
RTD related output pins after a system reset are shown below.
Table 14.3.2 RTD Pin State after System Reset
Pin Name
State
RTDACK
High-level output
RTDTXD
High-level output
The first command transfer to the RTD after it was reset is initiated by transferring data to the
RTDRXD pin synchronously with falling edges of RTDCLK.
Don't Care
RDR (A1)
RTDCLK
RTDRXD
RTDTXD
RTDACK
RESET
System reset
"H"
RDR (A2)
0000 0000
0000 0000
D (A2)
"H"
D (A1)
32 clock
periods
32 clock
periods
32 clock
periods
32 clock
periods
• • • • • •
Summary of Contents for M32170F3VFP
Page 42: ...1 1 24 Ver 0 10 OVERVIEW 1 4 Pin Layout This is a blank page ...
Page 56: ...2 2 14 Ver 0 10 This is a blank page ...
Page 88: ...3 3 32 Ver 0 10 ADDRESS SPACE 3 7 Notes on Address Space This is a blank page ...
Page 270: ...9 9 40 Ver 0 10 DMAC 9 4 Precautions about the DMAC This is a blank page ...
Page 614: ...12 12 64 Ver 0 10 This is a blank page SERIAL I O 12 9 Precautions on Using UART Mode ...
Page 756: ...17 17 10 Ver 0 10 RAM BACKUP MODE 17 4 Exiting RAM Backup Mode Wakeup This is a blank page ...
Page 762: ...18 18 6 Ver 0 10 OSCILLATION CIRCUIT 18 2 Clock Generator Circuit This is a blank page ...
Page 831: ...CHAPTER 22 CHAPTER 22 TYPICAL CHARACTERISTICS 22 1 A D Conversion Characteristics ...
Page 833: ...Appendix 1 1 Dimensional Outline Drawing APPENDIX 1 APPENDIX 1 MECHANICAL SPECIFICATIONS ...
Page 841: ...Appendix 3 1 Precautions about Noise APPENDIX 3 APPENDIX 3 PRECAUTIONS ABOUT NOISE ...