Datasheet
Table Of Contents
- Chapter 1 Device Overview
- Chapter 2 Pins and Connections
- Chapter 3 Modes of Operation
- Chapter 4 Memory
- 4.1 MC9S08DN60 Series Memory Map
- 4.2 Reset and Interrupt Vector Assignments
- 4.3 Register Addresses and Bit Assignments
- 4.4 RAM
- 4.5 Flash and EEPROM
- 4.5.1 Features
- 4.5.2 Program and Erase Times
- 4.5.3 Program and Erase Command Execution
- 4.5.4 Burst Program Execution
- 4.5.5 Sector Erase Abort
- 4.5.6 Access Errors
- 4.5.7 Block Protection
- 4.5.8 Vector Redirection
- 4.5.9 Security
- 4.5.10 EEPROM Mapping
- 4.5.11 Flash and EEPROM Registers and Control Bits
- 4.5.11.1 Flash and EEPROM Clock Divider Register (FCDIV)
- 4.5.11.2 Flash and EEPROM Options Register (FOPT and NVOPT)
- 4.5.11.3 Flash and EEPROM Configuration Register (FCNFG)
- 4.5.11.4 Flash and EEPROM Protection Register (FPROT and NVPROT)
- 4.5.11.5 Flash and EEPROM Status Register (FSTAT)
- 4.5.11.6 Flash and EEPROM Command Register (FCMD)
- Chapter 5 Resets, Interrupts, and General System Control
- 5.1 Introduction
- 5.2 Features
- 5.3 MCU Reset
- 5.4 Computer Operating Properly (COP) Watchdog
- 5.5 Interrupts
- 5.6 Low-Voltage Detect (LVD) System
- 5.7 MCLK Output
- 5.8 Reset, Interrupt, and System Control Registers and Control Bits
- 5.8.1 Interrupt Pin Request Status and Control Register (IRQSC)
- 5.8.2 System Reset Status Register (SRS)
- 5.8.3 System Background Debug Force Reset Register (SBDFR)
- 5.8.4 System Options Register 1 (SOPT1)
- 5.8.5 System Options Register 2 (SOPT2)
- 5.8.6 System Device Identification Register (SDIDH, SDIDL)
- 5.8.7 System Power Management Status and Control 1 Register (SPMSC1)
- 5.8.8 System Power Management Status and Control 2 Register (SPMSC2)
- Chapter 6 Parallel Input/Output Control
- 6.1 Port Data and Data Direction
- 6.2 Pull-up, Slew Rate, and Drive Strength
- 6.3 Pin Interrupts
- 6.4 Pin Behavior in Stop Modes
- 6.5 Parallel I/O and Pin Control Registers
- 6.5.1 Port A Registers
- 6.5.1.1 Port A Data Register (PTAD)
- 6.5.1.2 Port A Data Direction Register (PTADD)
- 6.5.1.3 Port A Pull Enable Register (PTAPE)
- 6.5.1.4 Port A Slew Rate Enable Register (PTASE)
- 6.5.1.5 Port A Drive Strength Selection Register (PTADS)
- 6.5.1.6 Port A Interrupt Status and Control Register (PTASC)
- 6.5.1.7 Port A Interrupt Pin Select Register (PTAPS)
- 6.5.1.8 Port A Interrupt Edge Select Register (PTAES)
- 6.5.2 Port B Registers
- 6.5.2.1 Port B Data Register (PTBD)
- 6.5.2.2 Port B Data Direction Register (PTBDD)
- 6.5.2.3 Port B Pull Enable Register (PTBPE)
- 6.5.2.4 Port B Slew Rate Enable Register (PTBSE)
- 6.5.2.5 Port B Drive Strength Selection Register (PTBDS)
- 6.5.2.6 Port B Interrupt Status and Control Register (PTBSC)
- 6.5.2.7 Port B Interrupt Pin Select Register (PTBPS)
- 6.5.2.8 Port B Interrupt Edge Select Register (PTBES)
- 6.5.3 Port C Registers
- 6.5.4 Port D Registers
- 6.5.4.1 Port D Data Register (PTDD)
- 6.5.4.2 Port D Data Direction Register (PTDDD)
- 6.5.4.3 Port D Pull Enable Register (PTDPE)
- 6.5.4.4 Port D Slew Rate Enable Register (PTDSE)
- 6.5.4.5 Port D Drive Strength Selection Register (PTDDS)
- 6.5.4.6 Port D Interrupt Status and Control Register (PTDSC)
- 6.5.4.7 Port D Interrupt Pin Select Register (PTDPS)
- 6.5.4.8 Port D Interrupt Edge Select Register (PTDES)
- 6.5.5 Port E Registers
- 6.5.6 Port F Registers
- 6.5.7 Port G Registers
- 6.5.1 Port A Registers
- Chapter 7 Central Processor Unit (S08CPUV3)
- 7.1 Introduction
- 7.2 Programmer’s Model and CPU Registers
- 7.3 Addressing Modes
- 7.4 Special Operations
- 7.5 HCS08 Instruction Set Summary
- Chapter 8 Multi-Purpose Clock Generator (S08MCGV1)
- 8.1 Introduction
- 8.2 External Signal Description
- 8.3 Register Definition
- 8.4 Functional Description
- 8.4.1 Operational Modes
- 8.4.1.1 FLL Engaged Internal (FEI)
- 8.4.1.2 FLL Engaged External (FEE)
- 8.4.1.3 FLL Bypassed Internal (FBI)
- 8.4.1.4 FLL Bypassed External (FBE)
- 8.4.1.5 PLL Engaged External (PEE)
- 8.4.1.6 PLL Bypassed External (PBE)
- 8.4.1.7 Bypassed Low Power Internal (BLPI)
- 8.4.1.8 Bypassed Low Power External (BLPE)
- 8.4.1.9 Stop
- 8.4.2 Mode Switching
- 8.4.3 Bus Frequency Divider
- 8.4.4 Low Power Bit Usage
- 8.4.5 Internal Reference Clock
- 8.4.6 External Reference Clock
- 8.4.7 Fixed Frequency Clock
- 8.4.1 Operational Modes
- 8.5 Initialization / Application Information
- 8.5.1 MCG Module Initialization Sequence
- 8.5.2 MCG Mode Switching
- 8.5.2.1 Example # 1: Moving from FEI to PEE Mode: External Crystal = 4 MHz, Bus Frequency = 8 MHz
- 8.5.2.2 Example # 2: Moving from PEE to BLPI Mode: External Crystal = 4 MHz, Bus Frequency =16 kHz
- 8.5.2.3 Example #3: Moving from BLPI to FEE Mode: External Crystal = 4 MHz, Bus Frequency = 16 MHz
- 8.5.2.4 Example # 4: Moving from FEI to PEE Mode: External Crystal = 8 MHz, Bus Frequency = 8 MHz
- 8.5.3 Calibrating the Internal Reference Clock (IRC)
- Chapter 9 Analog Comparator (S08ACMPV3)
- Chapter 10 Analog-to-Digital Converter (S08ADC12V1)
- 10.1 Introduction
- 10.2 External Signal Description
- 10.3 Register Definition
- 10.3.1 Status and Control Register 1 (ADCSC1)
- 10.3.2 Status and Control Register 2 (ADCSC2)
- 10.3.3 Data Result High Register (ADCRH)
- 10.3.4 Data Result Low Register (ADCRL)
- 10.3.5 Compare Value High Register (ADCCVH)
- 10.3.6 Compare Value Low Register (ADCCVL)
- 10.3.7 Configuration Register (ADCCFG)
- 10.3.8 Pin Control 1 Register (APCTL1)
- 10.3.9 Pin Control 2 Register (APCTL2)
- 10.3.10 Pin Control 3 Register (APCTL3)
- 10.4 Functional Description
- 10.5 Initialization Information
- 10.6 Application Information
- Chapter 11 Inter-Integrated Circuit (S08IICV2)
- Chapter 12 Serial Peripheral Interface (S08SPIV3)
- Chapter 13 Serial Communications Interface (S08SCIV4)
- Chapter 14 Real-Time Counter (S08RTCV1)
- Chapter 15 Timer Pulse-Width Modulator (S08TPMV3)
- Chapter 16 Development Support
- 16.1 Introduction
- 16.2 Background Debug Controller (BDC)
- 16.3 On-Chip Debug System (DBG)
- 16.4 Register Definition
- 16.4.1 BDC Registers and Control Bits
- 16.4.2 System Background Debug Force Reset Register (SBDFR)
- 16.4.3 DBG Registers and Control Bits
- 16.4.3.1 Debug Comparator A High Register (DBGCAH)
- 16.4.3.2 Debug Comparator A Low Register (DBGCAL)
- 16.4.3.3 Debug Comparator B High Register (DBGCBH)
- 16.4.3.4 Debug Comparator B Low Register (DBGCBL)
- 16.4.3.5 Debug FIFO High Register (DBGFH)
- 16.4.3.6 Debug FIFO Low Register (DBGFL)
- 16.4.3.7 Debug Control Register (DBGC)
- 16.4.3.8 Debug Trigger Register (DBGT)
- 16.4.3.9 Debug Status Register (DBGS)
- Appendix A Electrical Characteristics
- A.1 Introduction
- A.2 Parameter Classification
- A.3 Absolute Maximum Ratings
- A.4 Thermal Characteristics
- A.5 ESD Protection and Latch-Up Immunity
- A.6 DC Characteristics
- A.7 Supply Current Characteristics
- A.8 Analog Comparator (ACMP) Electricals
- A.9 ADC Characteristics
- A.10 External Oscillator (XOSC) Characteristics
- A.11 MCG Specifications
- A.12 AC Characteristics
- A.13 Flash and EEPROM
- A.14 EMC Performance
- Appendix B Timer Pulse-Width Modulator (TPMV2)
- Appendix C Ordering Information and Mechanical Drawings
Chapter 15 Timer/PWM Module (S08TPMV3)
MC9S08DN60 Series Data Sheet, Rev 3
272 Freescale Semiconductor
15.3.5 TPM Channel Value Registers (TPMxCnVH:TPMxCnVL)
These read/write registers contain the captured TPM counter value of the input capture function or the
output compare value for the output compare or PWM functions. The channel registers are cleared by
reset.
4
MSnA
Mode select A for TPM channel n. When CPWMS=0 and MSnB=0, MSnA configures TPM channel n for
input-capture mode or output compare mode. Refer to Table 15-6 for a summary of channel mode and setup
controls.
Note: If the associated port pin is not stable for at least two bus clock cycles before changing to input capture
mode, it is possible to get an unexpected indication of an edge trigger.
3–2
ELSnB
ELSnA
Edge/level select bits. Depending upon the operating mode for the timer channel as set by CPWMS:MSnB:MSnA
and shown in Table 15-6, these bits select the polarity of the input edge that triggers an input capture event, select
the level that will be driven in response to an output compare match, or select the polarity of the PWM output.
Setting ELSnB:ELSnA to 0:0 configures the related timer pin as a general purpose I/O pin not related to any timer
functions. This function is typically used to temporarily disable an input capture channel or to make the timer pin
available as a general purpose I/O pin when the associated timer channel is set up as a software timer that does
not require the use of a pin.
Table 15-6. Mode, Edge, and Level Selection
CPWMS MSnB:MSnA ELSnB:ELSnA Mode Configuration
X XX 00 Pin not used for TPM - revert to general
purpose I/O or other peripheral control
0 00 01 Input capture Capture on rising edge
only
10 Capture on falling edge
only
11 Capture on rising or
falling edge
01 01 Output compare Toggle output on
compare
10 Clear output on
compare
11 Set output on compare
1X 10 Edge-aligned
PWM
High-true pulses (clear
output on compare)
X1 Low-true pulses (set
output on compare)
1 XX 10 Center-aligned
PWM
High-true pulses (clear
output on compare-up)
X1 Low-true pulses (set
output on compare-up)
Table 15-5. TPMxCnSC Field Descriptions (continued)
Field Description