Freescale Semiconductor Data Sheet: Technical Data MC9S08PA16 Series Data Sheet Supports: MC9S08PA16(A) and MC9S08PA8(A) Key features * 8-Bit S08 central processor unit (CPU) - Up to 20 MHz bus at 2.7 V to 5.5 V across temperature range of -40 C to 105 C - Supporting up to 40 interrupt/reset sources - Supporting up to four-level nested interrupt - On-chip memory - Up to 16 KB flash read/program/erase over full operating voltage and temperature - Up to 256 byte EEPROM; 2-byte erase sector; program and erase while executing flash - Up to 2048 byte random-access memory (RAM) - Flash and RAM access protection * Power-saving modes - One low-power stop mode; reduced power wait mode - Peripheral clock enable register can disable clocks to unused modules, reducing currents; allows clocks to remain enabled to specific peripherals in stop3 mode * Clocks - Oscillator (XOSC) - loop-controlled Pierce oscillator; crystal or ceramic resonator range of 31.25 kHz to 39.0625 kHz or 4 MHz to 20 MHz - Internal clock source (ICS) - containing a frequencylocked-loop (FLL) controlled by internal or external reference; precision trimming of internal reference allowing 1% deviation across temperature range of 0 C to 70 C and 2% deviation across temperature range of -40 C to 105 C; up to 20 MHz * System protection - Watchdog with independent clock source - Low-voltage detection with reset or interrupt; selectable trip points - Illegal opcode detection with reset - Illegal address detection with reset (c) 2011-2015 Freescale Semiconductor, Inc. Document Number MC9S08PA16 Rev. 3, 06/2015 MC9S08PA16 MC9S08PA16A and MC9S08PA8A are recommended for new design * Development support - Single-wire background debug interface - Breakpoint capability to allow three breakpoints setting during in-circuit debugging - On-chip in-circuit emulator (ICE) debug module containing two comparators and nine trigger modes * Peripherals - ACMP - one analog comparator with both positive and negative inputs; separately selectable interrupt on rising and falling comparator output; filtering - ADC - 12-channel, 12-bit resolution; 2.5 s conversion time; data buffers with optional watermark; automatic compare function; internal bandgap reference channel; operation in stop mode; optional hardware trigger - CRC - programmable cyclic redundancy check module - FTM - two flex timer modulators modules including one 6-channel and one 2-channel ones; 16-bit counter; each channel can be configured for input capture, output compare, edge- or center-aligned PWM mode - IIC - One inter-integrated circuit module; up to 400 kbps; multi-master operation; programmable slave address; supporting broadcast mode and 10-bit addressing; supporting SMBUS and PMBUS - MTIM - One modulo timer with 8-bit prescaler and overflow interrupt - RTC - 16-bit real timer counter (RTC) - SCI - two serial communication interface (SCI/ UART) modules optional 13-bit break; full duplex non-return to zero (NRZ); LIN extension support - SPI - one 8-bit serial peripheral interface (SPI) modules; full-duplex or single-wire bidirectional; master or slave mode * Input/Output - Up to 37 GPIOs including one output-only pin - One 8-bit keyboard interrupt module (KBI) - Two true open-drain output pins - Four, ultra-high current sink pins supporting 20 mA source/sink current * Package options - 44-pin LQFP - 32-pin LQFP - 20-pin SOIC; 20-pin TSSOP - 16-pin TSSOP MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 2 Freescale Semiconductor, Inc. Table of Contents 1 Ordering parts.......................................................................................4 5.2.1 Control timing................................................................ 16 1.1 Determining valid orderable parts............................................... 4 5.2.2 Debug trace timing specifications..................................17 2 Part identification................................................................................. 4 5.2.3 FTM module timing....................................................... 18 2.1 Description...................................................................................4 2.2 Format.......................................................................................... 4 5.3 Thermal specifications................................................................. 19 5.3.1 Thermal characteristics.................................................. 19 2.3 Fields............................................................................................4 6 Peripheral operating requirements and behaviors................................ 19 2.4 Example....................................................................................... 5 6.1 External oscillator (XOSC) and ICS characteristics....................19 3 Parameter Classification.......................................................................5 6.2 NVM specifications..................................................................... 21 4 Ratings..................................................................................................6 6.3 Analog..........................................................................................22 4.1 Thermal handling ratings............................................................. 6 6.3.1 ADC characteristics....................................................... 23 4.2 Moisture handling ratings............................................................ 6 6.3.2 Analog comparator (ACMP) electricals.........................25 4.3 ESD handling ratings................................................................... 6 4.4 Voltage and current operating ratings..........................................6 6.4 Communication interfaces........................................................... 26 6.4.1 SPI switching specifications.......................................... 26 5 General................................................................................................. 7 7 Dimensions...........................................................................................29 5.1 Nonswitching electrical specifications........................................ 7 7.1 Obtaining package dimensions.................................................... 29 5.1.1 DC characteristics.......................................................... 7 8 Pinout................................................................................................... 30 5.1.2 Supply current characteristics........................................ 14 8.1 Signal multiplexing and pin assignments.................................... 30 5.1.3 EMC performance..........................................................15 8.2 Device pin assignment................................................................. 31 5.2 Switching specifications.............................................................. 16 9 Revision history....................................................................................34 MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 3 Ordering parts 1 Ordering parts 1.1 Determining valid orderable parts Valid orderable part numbers are provided on the web. To determine the orderable part numbers for this device, go to freescale.com and perform a part number search for the following device numbers: PA16 and PA8. 2 Part identification 2.1 Description Part numbers for the chip have fields that identify the specific part. You can use the values of these fields to determine the specific part you have received. 2.2 Format Part numbers for this device have the following format: MC 9 S08 PA AA (V) B CC 2.3 Fields This table lists the possible values for each field in the part number (not all combinations are valid): Field Description Values MC Qualification status * MC = fully qualified, general market flow 9 Memory * 9 = flash based S08 Core * S08 = 8-bit CPU PA Device family * PA AA Approximate flash size in KB * 16 = 16 KB * 8 = 8 KB (V) Mask set version * (blank) = Any version * A = Rev. 2 or later version, this is recommended for new design Table continues on the next page... MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 4 Freescale Semiconductor, Inc. Parameter Classification Field Description Values B Operating temperature range (C) * V = -40 to 105 CC Package designator * * * * * LD = 44-LQFP LC = 32-LQFP TJ = 20-TSSOP WJ = 20-SOIC TG = 16-TSSOP 2.4 Example This is an example part number: MC9S08PA16VLD 3 Parameter Classification The electrical parameters shown in this supplement are guaranteed by various methods. To give the customer a better understanding, the following classification is used and the parameters are tagged accordingly in the tables where appropriate: Table 1. Parameter Classifications P Those parameters are guaranteed during production testing on each individual device. C Those parameters are achieved by the design characterization by measuring a statistically relevant sample size across process variations. T Those parameters are achieved by design characterization on a small sample size from typical devices under typical conditions unless otherwise noted. All values shown in the typical column are within this category. D Those parameters are derived mainly from simulations. NOTE The classification is shown in the column labeled "C" in the parameter tables where appropriate. MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 5 Ratings 4 Ratings 4.1 Thermal handling ratings Symbol Description Min. Max. Unit Notes TSTG Storage temperature -55 150 C 1 TSDR Solder temperature, lead-free -- 260 C 2 1. Determined according to JEDEC Standard JESD22-A103, High Temperature Storage Life. 2. Determined according to IPC/JEDEC Standard J-STD-020, Moisture/Reflow Sensitivity Classification for Nonhermetic Solid State Surface Mount Devices. 4.2 Moisture handling ratings Symbol MSL Description Moisture sensitivity level Min. Max. Unit Notes -- 3 -- 1 1. Determined according to IPC/JEDEC Standard J-STD-020, Moisture/Reflow Sensitivity Classification for Nonhermetic Solid State Surface Mount Devices. 4.3 ESD handling ratings Symbol Description Min. Max. Unit Notes VHBM Electrostatic discharge voltage, human body model -6000 +6000 V 1 VCDM Electrostatic discharge voltage, charged-device model -500 +500 V 2 Latch-up current at ambient temperature of 105C -100 +100 mA ILAT 1. Determined according to JEDEC Standard JESD22-A114, Electrostatic Discharge (ESD) Sensitivity Testing Human Body Model (HBM). 2. Determined according to JEDEC Standard JESD22-C101, Field-Induced Charged-Device Model Test Method for Electrostatic-Discharge-Withstand Thresholds of Microelectronic Components. 4.4 Voltage and current operating ratings Absolute maximum ratings are stress ratings only, and functional operation at the maxima is not guaranteed. Stress beyond the limits specified in below table may affect device reliability or cause permanent damage to the device. For functional operating conditions, refer to the remaining tables in this document. MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 6 Freescale Semiconductor, Inc. General This device contains circuitry protecting against damage due to high static voltage or electrical fields; however, it is advised that normal precautions be taken to avoid application of any voltages higher than maximum-rated voltages to this high-impedance circuit. Reliability of operation is enhanced if unused inputs are tied to an appropriate logic voltage level (for instance, either VSS or VDD) or the programmable pullup resistor associated with the pin is enabled. Symbol Description Min. VDD Supply voltage -0.3 6.0 V IDD Maximum current into VDD -- 120 mA Digital input voltage (except RESET, EXTAL, XTAL, or true open drain pin PTA2 and PTA3) -0.3 VDD + 0.3 V Digital input voltage (true open drain pin PTA2 and PTA3) -0.3 6 V Analog1, -0.3 VDD + 0.3 V -25 25 mA VDD - 0.3 VDD + 0.3 V VDIO VAIO ID VDDA RESET, EXTAL, and XTAL input voltage Instantaneous maximum current single pin limit (applies to all port pins) Analog supply voltage Max. Unit 1. All digital I/O pins, except open-drain pin PTA2 and PTA3, are internally clamped to VSS and VDD. PTA2 and PTA3 is only clamped to VSS. 5 General 5.1 Nonswitching electrical specifications 5.1.1 DC characteristics This section includes information about power supply requirements and I/O pin characteristics. Table 2. DC characteristics Symbol C -- -- VOH C Min Typical1 Max Unit -- 2.7 -- 5.5 V 5 V, Iload = -5 mA VDD - 0.8 -- -- V 3 V, Iload = -2.5 mA VDD - 0.8 -- -- V 5 V, Iload = -20 mA VDD - 0.8 -- -- V 3 V, Iload = -10 mA VDD - 0.8 -- -- V Descriptions Operating voltage Output high voltage All I/O pins, standarddrive strength C C C High current drive pins, high-drive strength2 Table continues on the next page... MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 7 Nonswitching electrical specifications Table 2. DC characteristics (continued) Symbol C IOHT D VOL C Min Typical1 Max Unit 5V -- -- -100 mA 3V -- -- -50 -- -- 0.8 V 3 V, Iload = 2.5 mA -- -- 0.8 V 5 V, Iload =20 mA -- -- 0.8 V 3 V, Iload = 10 mA -- -- 0.8 V -- -- 100 mA Descriptions Output high current Max total IOH for all ports Output low voltage All I/O pins, standard- 5 V, Iload = 5 drive strength mA C C High current drive pins, high-drive strength2 C IOLT D Output low current Max total IOL for all ports 5V 3V -- -- 50 VIH P Input high voltage All digital inputs VDD>4.5V 0.70 x VDD -- -- VDD>2.7V 0.75 x VDD -- -- Input low voltage All digital inputs VDD>4.5V -- -- 0.30 x VDD VDD>2.7V -- -- 0.35 x VDD C VIL P C V V Vhys C Input hysteresis All digital inputs -- 0.06 x VDD -- -- mV |IIn| P Input leakage current All input only pins (per pin) VIN = VDD or VSS -- 0.1 1 A |IOZ| P Hi-Z (offstate) leakage current All input/output (per pin) VIN = VDD or VSS -- 0.1 1 A |IOZTOT| C Total leakage All input only and I/O VIN = VDD or combined for VSS all inputs and Hi-Z pins -- -- 2 A RPU P Pullup resistors All digital inputs, when enabled (all I/O pins other than PTA2 and PTA3) -- 30.0 -- 50.0 k RPU3 P Pullup resistors PTA2 and PTA3 pin -- 30.0 -- 60.0 k IIC D DC injection current4, 5, 6 Single pin limit VIN < VSS, VIN > VDD -0.2 -- 2 mA -5 -- 25 Total MCU limit, includes sum of all stressed pins CIn C Input capacitance, all pins -- -- -- 7 pF VRAM C RAM retention voltage -- 2.0 -- -- V 1. Typical values are measured at 25 C. Characterized, not tested. 2. Only PTB4, PTB5, PTD0, PTD1 support ultra high current output. 3. The specified resistor value is the actual value internal to the device. The pullup value may appear higher when measured externally on the pin. 4. All functional non-supply pins, except for , are internally clamped to VSS and VDD. 5. Input must be current-limited to the value specified. To determine the value of the required current-limiting resistor, calculate resistance values for positive and negative clamp voltages, then use the large one. MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 8 Freescale Semiconductor, Inc. Nonswitching electrical specifications 6. Power supply must maintain regulation within operating VDD range during instantaneous and operating maximum current conditions. If the positive injection current (VIn > VDD) is higher than IDD, the injection current may flow out of VDD and could result in external power supply going out of regulation. Ensure that external VDD load will shunt current higher than maximum injection current when the MCU is not consuming power, such as no system clock is present, or clock rate is very low (which would reduce overall power consumption). Table 3. LVD and POR Specification Symbol 1. 2. 3. 4. C Description POR re-arm Min Typ Max Unit 1.5 1.75 2.0 V 4.2 4.3 4.4 V Level 1 falling (LVWV = 00) 4.3 4.4 4.5 V Level 2 falling (LVWV = 01) 4.5 4.5 4.6 V Level 3 falling (LVWV = 10) 4.6 4.6 4.7 V Level 4 falling (LVWV = 11) 4.7 4.7 4.8 V voltage1, 2 VPOR D VLVDH C VLVW1H C VLVW2H C VLVW3H C VLVW4H C VHYSH C High range low-voltage detect/warning hysteresis -- 100 -- mV VLVDL C Falling low-voltage detect threshold - low range (LVDV = 0) 2.56 2.61 2.66 V VLVDW1L C Level 1 falling (LVWV = 00) 2.62 2.7 2.78 V VLVDW2L C Level 2 falling (LVWV = 01) 2.72 2.8 2.88 V VLVDW3L C Level 3 falling (LVWV = 10) 2.82 2.9 2.98 V VLVDW4L C Level 4 falling (LVWV = 11) 2.92 3.0 3.08 V VHYSDL C Low range low-voltage detect hysteresis -- 40 -- mV VHYSWL C Low range low-voltage warning hysteresis -- 80 -- mV VBG P Buffered bandgap output 4 1.14 1.16 1.18 V Falling low-voltage detect threshold - high range (LVDV = 1)3 Falling lowvoltage warning threshold high range Falling lowvoltage warning threshold low range Maximum is highest voltage that POR is guaranteed. POR ramp time must be longer than 20us/V to get a stable startup. Rising thresholds are falling threshold + hysteresis. Voltage factory trimmed at VDD = 5.0 V, Temp = 25 C MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 9 Nonswitching electrical specifications VDD-VOH(V) IOH(mA) Figure 1. Typical IOH Vs. VDD-VOH (standard drive strength) (VDD = 5 V) VDD-VOH(V) IOH(mA) Figure 2. Typical IOH Vs. VDD-VOH (standard drive strength) (VDD = 3 V) MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 10 Freescale Semiconductor, Inc. Nonswitching electrical specifications VDD-VOH(V) IOH(mA) Figure 3. Typical IOH Vs. VDD-VOH (high drive strength) (VDD = 5 V) VDD-VOH(V) IOH(mA) Figure 4. Typical IOH Vs. VDD-VOH (high drive strength) (VDD = 3 V) MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 11 Nonswitching electrical specifications VOL(V) IOL(mA) Figure 5. Typical IOL Vs. VOL (standard drive strength) (VDD = 5 V) VOL(V) IOL(mA) Figure 6. Typical IOL Vs. VOL (standard drive strength) (VDD = 3 V) MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 12 Freescale Semiconductor, Inc. Nonswitching electrical specifications VOL(V) IOL(mA) Figure 7. Typical IOL Vs. VOL (high drive strength) (VDD = 5 V) VOL(V) IOL(mA) Figure 8. Typical IOL Vs. VOL (high drive strength) (VDD = 3 V) MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 13 Nonswitching electrical specifications 5.1.2 Supply current characteristics This section includes information about power supply current in various operating modes. Table 4. Supply current characteristics Num C Parameter Symbol Bus Freq VDD (V) Typical1 Max Unit Temp 1 C Run supply current FEI mode, all modules on; run from flash RIDD 20 MHz 5 7.60 -- mA -40 to 105 C 10 MHz 4.65 -- 1 MHz 1.90 -- 7.05 -- mA -40 to 105 C mA -40 to 105 C mA -40 to 105 C mA -40 to 105 C A -40 to 105 C C 2 C 20 MHz C 10 MHz 4.40 -- 1 MHz 1.85 -- 5.88 -- 10 MHz 3.70 -- 1 MHz 1.85 -- 5.35 -- C C 3 10 MHz 3.42 -- 1 MHz 1.80 -- P Run supply current FBE mode, all modules on; run from RAM RIDD 20 MHz 3 10.9 14.0 10 MHz 5 6.10 -- 1 MHz 1.69 -- 8.18 -- P 20 MHz C 10 MHz 5.14 -- 1 MHz 1.44 -- 8.50 13.0 5.07 -- 1.59 -- 6.11 -- P Run supply current FBE mode, all modules off & gated; run from RAM RIDD 20 MHz 3 5 10 MHz 1 MHz P 20 MHz C 10 MHz 4.10 -- 1 MHz 1.34 -- 5.95 -- 10 MHz 3.50 -- 1 MHz 1.24 -- 5.45 -- 10 MHz 3.25 -- 1 MHz 1.20 -- P Wait mode current FEI mode, all modules on WIDD C 7 5 C C 6 20 MHz 20 MHz C 5 RIDD C C 4 Run supply current FEI mode, all modules off & gated; run from flash 3 C 20 MHz 20 MHz S3IDD C Stop3 mode supply current no clocks active (except 1kHz LPO clock)2, 3 C ADC adder to stop3 -- 3 5 3 -- 5 4.6 -- -- 3 4.5 -- -- 5 40 -- -40 to 105 C A -40 to 105 C Table continues on the next page... MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 14 Freescale Semiconductor, Inc. Nonswitching electrical specifications Table 4. Supply current characteristics (continued) Num C Parameter C ADLPC = 1 Symbol Bus Freq VDD (V) Typical1 Max 3 39 -- 5 128 -- 3 124 -- Unit Temp A -40 to 105 C ADLSMP = 1 ADCO = 1 MODE = 10B ADICLK = 11B 8 C LVD adder to stop34 -- C 1. 2. 3. 4. -- Data in Typical column was characterized at 5.0 V, 25 C or is typical recommended value. RTC adder cause <1 A IDD increase typically, RTC clock source is 1kHz LPO clock. ACMP adder cause <10 A IDD increase typically. LVD is periodically woken up from stop3 by 5% duty cycle. The period is equal to or less than 2 ms. 5.1.3 EMC performance Electromagnetic compatibility (EMC) performance is highly dependent on the environment in which the MCU resides. Board design and layout, circuit topology choices, location and characteristics of external components as well as MCU software operation all play a significant role in EMC performance. The system designer should consult Freescale applications notes such as AN2321, AN1050, AN1263, AN2764, and AN1259 for advice and guidance specifically targeted at optimizing EMC performance. 5.1.3.1 EMC radiated emissions operating behaviors Table 5. EMC radiated emissions operating behaviors for 44-pin LQFP package Symbol Description Frequency band (MHz) Typ. Unit Notes 1, 2 VRE1 Radiated emissions voltage, band 1 0.15-50 8 dBV VRE2 Radiated emissions voltage, band 2 50-150 8 dBV VRE3 Radiated emissions voltage, band 3 150-500 8 dBV VRE4 Radiated emissions voltage, band 4 500-1000 5 dBV IEC level 0.15-1000 N -- VRE_IEC 2, 3 1. Determined according to IEC Standard 61967-1, Integrated Circuits - Measurement of Electromagnetic Emissions, 150 kHz to 1 GHz Part 1: General Conditions and Definitions and IEC Standard 61967-2, Integrated Circuits - Measurement of Electromagnetic Emissions, 150 kHz to 1 GHz Part 2: Measurement of Radiated Emissions--TEM Cell and Wideband TEM Cell Method. Measurements were made while the microcontroller was running basic application code. The reported emission level is the value of the maximum measured emission, rounded up to the next whole number, from among the measured orientations in each frequency range. 2. VDD = 5.0 V, TA = 25 C, fOSC = 10 MHz (crystal), fSYS = 20 MHz, fBUS = 20 MHz 3. Specified according to Annex D of IEC Standard 61967-2, Measurement of Radiated Emissions--TEM Cell and Wideband TEM Cell Method MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 15 Switching specifications 5.2 Switching specifications 5.2.1 Control timing Table 6. Control timing Symbol Min Typical1 Max Unit fBus DC -- 20 MHz 1.0 -- KHz -- -- ns 34 x tcyc -- -- tMSSU 500 -- -- ns ns tMSH 100 -- -- ns Asynchronous path2 tILIH 100 -- -- ns Synchronous path4 tIHIL 1.5 x tcyc -- -- ns Asynchronous path2 tILIH 100 -- -- ns Synchronous path tIHIL 1.5 x tcyc -- -- ns Port rise and fall time standard drive strength (load = 50 pF)5 -- tRise -- 10.2 -- ns tFall -- 9.5 -- ns Port rise and fall time high drive strength (load = 50 pF)5 -- tRise -- 5.4 -- ns tFall -- 4.6 -- ns Num C Rating 1 P Bus frequency (tcyc = 1/fBus) 2 C Internal low power oscillator frequency fLPO -- 3 D External reset pulse width2 textrst 1.5 x 4 D Reset low drive trstdrv 5 D BKGD/MS setup time after issuing background debug force reset to enter user or BDM modes 6 D BKGD/MS hold time after issuing background debug force reset to enter user or BDM modes3 tcyc 7 D IRQ pulse width D 8 D Keyboard interrupt pulse width D 9 C C C C 1. Typical values are based on characterization data at VDD = 5.0 V, 25 C unless otherwise stated. 2. This is the shortest pulse that is guaranteed to be recognized as a reset pin request. 3. To enter BDM mode following a POR, BKGD/MS must be held low during the powerup and for a hold time of tMSH after VDD rises above VLVD. 4. This is the minimum pulse width that is guaranteed to pass through the pin synchronization circuitry. Shorter pulses may or may not be recognized. In stop mode, the synchronizer is bypassed so shorter pulses can be recognized. 5. Timing is shown with respect to 20% VDD and 80% VDD levels. Temperature range -40 C to 105 C. textrst RESET PIN Figure 9. Reset timing MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 16 Freescale Semiconductor, Inc. Switching specifications tIHIL KBIPx IRQ/KBIPx tILIH Figure 10. IRQ/KBIPx timing 5.2.2 Debug trace timing specifications Table 7. Debug trace operating behaviors Symbol Description Min. Max. Unit tcyc Clock period Frequency dependent MHz twl Low pulse width 2 -- ns twh High pulse width 2 -- ns tr Clock and data rise time -- 3 ns tf Clock and data fall time -- 3 ns ts Data setup 3 -- ns th Data hold 2 -- ns TRACECLK Tr Tf Twh Twl Tcyc Figure 11. TRACE_CLKOUT specifications TRACE_CLKOUT Ts Th Ts Th TRACE_D[3:0] Figure 12. Trace data specifications MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 17 Switching specifications 5.2.3 FTM module timing Synchronizer circuits determine the shortest input pulses that can be recognized or the fastest clock that can be used as the optional external source to the timer counter. These synchronizers operate from the current bus rate clock. Table 8. FTM input timing No. C Function Symbol 1 D External clock frequency 2 D 3 Min Max Unit fTCLK 0 fBus/4 Hz External clock period tTCLK 4 -- tcyc D External clock high time tclkh -- tcyc 4 D External clock low time tclkl 1.5 -- tcyc 5 D Input capture pulse width tICPW 1.5 -- tcyc 1.5 tTCLK tclkh TCLK tclkl Figure 13. Timer external clock tICPW FTMCHn FTMCHn tICPW Figure 14. Timer input capture pulse MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 18 Freescale Semiconductor, Inc. Thermal specifications 5.3 Thermal specifications 5.3.1 Thermal characteristics This section provides information about operating temperature range, power dissipation, and package thermal resistance. Power dissipation on I/O pins is usually small compared to the power dissipation in on-chip logic and voltage regulator circuits, and it is userdetermined rather than being controlled by the MCU design. To take PI/O into account in power calculations, determine the difference between actual pin voltage and VSS or VDD and multiply by the pin current for each I/O pin. Except in cases of unusually high pin current (heavy loads), the difference between pin voltage and VSS or VDD will be very small. Table 9. Thermal characteristics Rating Symbol Value Unit Operating temperature range (packaged) TA1 TL to TH -40 to 105 C Junction temperature range TJ -40 to 150 C Thermal resistance single-layer board 44-pin LQFP RJA 76 C/W 32-pin LQFP RJA 88 C/W 20-pin SOIC RJA 82 C/W 20-pin TSSOP RJA 116 C/W 16-pin TSSOP RJA 130 C/W Thermal resistance four-layer board 44-pin LQFP RJA 54 C/W 32-pin LQFP RJA 59 C/W 20-pin SOIC RJA 54 C/W 20-pin TSSOP RJA 76 C/W 16-pin TSSOP RJA 87 C/W 1. Maximum TA can be exceeded only if the user ensures that TJ does not exceed the maximum. The simplest method to determine TJ is: TJ = TA + RJA x chip power dissipation. 6 Peripheral operating requirements and behaviors MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 19 Peripheral operating requirements and behaviors 6.1 External oscillator (XOSC) and ICS characteristics Table 10. XOSC and ICS specifications (temperature range = -40 to 105 C ambient) Symbol Min Typical1 Max Unit Low range (RANGE = 0) flo 31.25 32.768 39.0625 kHz High range (RANGE = 1) FEE or FBE mode2 fhi 4 -- 20 MHz C High range (RANGE = 1), high gain (HGO = 1), FBELP mode fhi 4 -- 20 MHz C High range (RANGE = 1), low power (HGO = 0), FBELP mode fhi 4 -- 20 MHz Num C 1 C C 2 D 3 D 4 5 Oscillator crystal or resonator Load capacitors Feedback resistor Low Frequency, Low-Power Mode4 -- -- -- M Low Frequency, High-Gain Mode -- 10 -- M High Frequency, LowPower Mode -- 1 -- M High Frequency, High-Gain Mode -- 1 -- M -- -- -- k -- 200 -- k -- -- -- k 4 MHz -- 0 -- k 8 MHz -- 0 -- k 16 MHz -- 0 -- k -- 1000 -- ms -- 800 -- ms -- 3 -- ms -- 1.5 -- ms tIRST -- 20 50 s fextal 0.03125 -- 5 MHz 0 -- 20 MHz Low-Power Mode 4 D Series resistor High Frequency Mode4 D Series resistor High Frequency, High-Gain Mode D C C C C 7 T 8 D D Crystal start-up time Low range = 32.768 kHz crystal; High range = 20 MHz crystal5, 6 RF RS High-Gain Mode Low-Power Low range, low power RS tCSTL Low range, high power High range, low power tCSTH High range, high power Internal reference start-up time Square wave input clock frequency See Note3 C1, C2 Series resistor Low Frequency D D 6 Characteristic FEE or FBE mode2 FBELP mode 9 P Average internal reference frequency trimmed fint_t -- 31.25 -- kHz 10 P DCO output frequency range - trimmed fdco_t 16 -- 20 MHz 11 P fdco_t -- -- 2.0 %fdco C 12 C Total deviation of DCO output from trimmed frequency5 Over full voltage and temperature range Over fixed voltage and temperature range of 0 to 70 C FLL acquisition time5, 7 1.0 tAcquire -- -- 2 ms Table continues on the next page... MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 20 Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Table 10. XOSC and ICS specifications (temperature range = -40 to 105 C ambient) (continued) Num C Characteristic Symbol Min Typical1 Max Unit 13 C Long term jitter of DCO output clock (averaged over 2 ms interval)8 CJitter -- 0.02 0.2 %fdco 1. Data in Typical column was characterized at 5.0 V, 25 C or is typical recommended value. 2. When ICS is configured for FEE or FBE mode, input clock source must be divisible using RDIV to within the range of 31.25 kHz to 39.0625 kHz. 3. See crystal or resonator manufacturer's recommendation. 4. Load capacitors (C1,C2), feedback resistor (RF) and series resistor (RS) are incorporated internally when RANGE = HGO = 0. 5. This parameter is characterized and not tested on each device. 6. Proper PC board layout procedures must be followed to achieve specifications. 7. This specification applies to any time the FLL reference source or reference divider is changed, trim value changed, or changing from FLL disabled (FBELP, FBILP) to FLL enabled (FEI, FEE, FBE, FBI). If a crystal/resonator is being used as the reference, this specification assumes it is already running. 8. Jitter is the average deviation from the programmed frequency measured over the specified interval at maximum fBus. Measurements are made with the device powered by filtered supplies and clocked by a stable external clock signal. Noise injected into the FLL circuitry via VDD and VSS and variation in crystal oscillator frequency increase the CJitter percentage for a given interval. XOSC EXTAL XTAL RS RF Crystal or Resonator C1 C2 Figure 15. Typical crystal or resonator circuit 6.2 NVM specifications This section provides details about program/erase times and program/erase endurance for the flash and EEPROM memories. Table 11. Flash characteristics C Characteristic Symbol Min1 Typical2 Max3 Unit4 D Supply voltage for program/erase -40 C to 105 C Vprog/erase 2.7 -- 5.5 V D Supply voltage for read operation VRead 2.7 -- 5.5 V Table continues on the next page... MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 21 Peripheral operating requirements and behaviors Table 11. Flash characteristics (continued) 1. 2. 3. 4. C Characteristic Symbol Min1 Typical2 Max3 Unit4 D NVM Bus frequency fNVMBUS 1 -- 25 MHz D NVM Operating frequency fNVMOP 0.8 1 1.05 MHz D Erase Verify All Blocks tVFYALL -- -- 17338 tcyc D Erase Verify Flash Block tRD1BLK -- -- 16913 tcyc D Erase Verify EEPROM Block tRD1BLK -- -- 810 tcyc D Erase Verify Flash Section tRD1SEC -- -- 484 tcyc D Erase Verify EEPROM Section tDRD1SEC -- -- 555 tcyc D Read Once tRDONCE -- -- 450 tcyc D Program Flash (2 word) tPGM2 0.12 0.12 0.29 ms D Program Flash (4 word) tPGM4 0.20 0.21 0.46 ms D Program Once tPGMONCE 0.20 0.21 0.21 ms D Program EEPROM (1 Byte) tDPGM1 0.10 0.10 0.27 ms D Program EEPROM (2 Byte) tDPGM2 0.17 0.18 0.43 ms D Program EEPROM (3 Byte) tDPGM3 0.25 0.26 0.60 ms D Program EEPROM (4 Byte) tDPGM4 0.32 0.33 0.77 ms D Erase All Blocks tERSALL 96.01 100.78 101.49 ms D Erase Flash Block tERSBLK 95.98 100.75 101.44 ms D Erase Flash Sector tERSPG 19.10 20.05 20.08 ms D Erase EEPROM Sector tDERSPG 4.81 5.05 20.57 ms D Unsecure Flash tUNSECU 96.01 100.78 101.48 ms D Verify Backdoor Access Key tVFYKEY -- -- 464 tcyc D Set User Margin Level tMLOADU -- -- 407 tcyc C FLASH Program/erase endurance TL to TH = -40 C to 105 C nFLPE 10 k 100 k -- Cycles C EEPROM Program/erase endurance TL to TH = -40 C to 105 C nFLPE 50 k 500 k -- Cycles C Data retention at an average junction temperature of TJavg = 85C after up to 10,000 program/erase cycles tD_ret 15 100 -- years Minimum times are based on maximum fNVMOP and maximum fNVMBUS Typical times are based on typical fNVMOP and maximum fNVMBUS Maximum times are based on typical fNVMOP and typical fNVMBUS plus aging tcyc = 1 / fNVMBUS Program and erase operations do not require any special power sources other than the normal VDD supply. For more detailed information about program/erase operations, see the Memory section. MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 22 Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors 6.3 Analog 6.3.1 ADC characteristics Table 12. 5 V 12-bit ADC operating conditions Characteri stic Conditions Symb Min Typ1 Max Unit Comment Supply voltage Absolute VDDA 2.7 -- 5.5 V -- Delta to VDD (VDD-VDDAD) VDDA -100 0 +100 mV )2 VSSA -100 0 +100 mV Input voltage VADIN VREFL -- VREFH V Input capacitance CADIN -- 4.5 5.5 pF Input resistance RADIN -- 3 5 k -- RAS -- -- 2 k External to MCU -- -- 5 -- -- 5 -- -- 10 -- -- 10 0.4 -- 8.0 MHz -- 0.4 -- 4.0 Ground voltage Analog source resistance Delta to VSS (VSS-VSSA * * 12-bit mode fADCK > 4 MHz fADCK < 4 MHz * * 10-bit mode fADCK > 4 MHz fADCK < 4 MHz 8-bit mode (all valid fADCK) ADC conversion clock frequency High speed (ADLPC=0) Low power (ADLPC=1) fADCK 1. Typical values assume VDDA = 5.0 V, Temp = 25C, fADCK=1.0 MHz unless otherwise stated. Typical values are for reference only and are not tested in production. 2. DC potential difference. MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 23 Peripheral operating requirements and behaviors SIMPLIFIED INPUT PIN EQUIVALENT CIRCUIT Pad leakage due to input protection ZAS R AS z ADIN SIMPLIFIED CHANNEL SELECT CIRCUIT ADC SAR ENGINE R ADIN v ADIN v AS C AS R ADIN INPUT PIN R ADIN INPUT PIN R ADIN INPUT PIN C ADIN Figure 16. ADC input impedance equivalency diagram Table 13. 12-bit ADC Characteristics (VREFH = VDDA, VREFL = VSSA) Characteristic Conditions Supply current C Symb Min Typ1 Max Unit T IDDA -- 133 -- A T IDDA -- 218 -- A T IDDA -- 327 -- A T IDDAD -- 582 990 A ADLPC = 1 ADLSMP = 1 ADCO = 1 Supply current ADLPC = 1 ADLSMP = 0 ADCO = 1 Supply current ADLPC = 0 ADLSMP = 1 ADCO = 1 Supply current ADLPC = 0 ADLSMP = 0 ADCO = 1 Supply current Stop, reset, module off T IDDA -- 0.011 1 A ADC asynchronous clock source High speed (ADLPC = 0) P fADACK 2 3.3 5 MHz Table continues on the next page... MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 24 Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Table 13. 12-bit ADC Characteristics (VREFH = VDDA, VREFL = VSSA) (continued) Characteristic Conditions C Symb Low power (ADLPC = 1) Conversion time (including sample time) Short sample (ADLSMP = 0) Sample time Short sample (ADLSMP = 0) T tADC Long sample (ADLSMP = 1) T tADS Long sample (ADLSMP = 1) Total unadjusted Error2 Differential NonLinearity ETUE Min Typ1 Max 1.25 2 3.3 -- 20 -- -- 40 -- -- 3.5 -- -- 23.5 -- -- 5.0 -- 12-bit mode T 10-bit mode P -- 1.5 2.0 8-bit mode P -- 0.7 1.0 12-bit mode T -- 1.0 -- 10-bit mode4 DNL P -- 0.25 0.5 mode4 P -- 0.15 0.25 Integral Non-Linearity 12-bit mode T -- 1.0 -- 10-bit mode T -- 0.3 0.5 -- 0.15 0.25 -- 2.0 -- 8-bit INL Unit ADCK cycles ADCK cycles LSB3 LSB3 LSB3 8-bit mode T 12-bit mode C 10-bit mode P -- 0.25 1.0 8-bit mode P -- 0.65 1.0 12-bit mode T -- 2.5 -- 10-bit mode T -- 0.5 1.0 8-bit mode T -- 0.5 1.0 Quantization error 12 bit modes D EQ -- -- 0.5 LSB3 Input leakage error7 all modes D EIL Temp sensor slope -40C- 25C D m mV/C Zero-scale error5 Full-scale error6 EZS EFS 25C- 125C Temp sensor voltage 25C D VTEMP25 IIn * RAS LSB3 LSB3 mV -- 3.266 -- -- 3.638 -- -- 1.396 -- V 1. Typical values assume VDDA = 5.0 V, Temp = 25C, fADCK=1.0 MHz unless otherwise stated. Typical values are for reference only and are not tested in production. 2. Includes quantization. 3. 1 LSB = (VREFH - VREFL)/2N 4. Monotonicity and no-missing-codes guaranteed in 10-bit and 8-bit modes 5. VADIN = VSSA 6. VADIN = VDDA 7. IIn = leakage current (refer to DC characteristics) MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 25 Peripheral operating requirements and behaviors 6.3.2 Analog comparator (ACMP) electricals Table 14. Comparator electrical specifications C Characteristic Symbol Min Typical Max Unit D Supply voltage VDDA 2.7 -- 5.5 V T Supply current (Operation mode) IDDA -- 10 20 A D Analog input voltage VAIN VSS - 0.3 -- VDDA V P Analog input offset voltage VAIO -- -- 40 mV C Analog comparator hysteresis (HYST=0) VH -- 15 20 mV C Analog comparator hysteresis (HYST=1) VH -- 20 30 mV T Supply current (Off mode) IDDAOFF -- 60 -- nA C Propagation Delay tD -- 0.4 1 s 6.4 Communication interfaces 6.4.1 SPI switching specifications The serial peripheral interface (SPI) provides a synchronous serial bus with master and slave operations. Many of the transfer attributes are programmable. The following tables provide timing characteristics for classic SPI timing modes. Refer to the SPI chapter of the chip's reference manual for information about the modified transfer formats used for communicating with slower peripheral devices. All timing is shown with respect to 20% VDD and 70% VDD, unless noted, and 100 pF load on all SPI pins. All timing assumes high drive strength is enabled for SPI output pins. Table 15. SPI master mode timing Nu m. Symbol Description Min. Max. Unit Comment 1 fop fBus/2048 fBus/2 Hz fBus is the bus clock 2 tSPSCK 2 x tBus 2048 x tBus ns tBus = 1/fBus 3 tLead Enable lead time 1/2 -- tSPSCK -- 4 tLag Enable lag time 1/2 -- tSPSCK -- 5 tWSPSCK 6 tSU Data setup time (inputs) tBus - 30 1024 x tBus ns -- 15 -- ns -- 7 tHI Data hold time (inputs) 0 -- ns -- 8 tv Data valid (after SPSCK edge) -- 25 ns -- 9 tHO Data hold time (outputs) 0 -- ns -- 10 tRI Rise time input -- tBus - 25 ns -- Frequency of operation SPSCK period Clock (SPSCK) high or low time Table continues on the next page... MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 26 Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Table 15. SPI master mode timing (continued) Nu m. 11 Symbol Description tFI Fall time input tRO Rise time output tFO Fall time output Min. Max. Unit Comment -- 25 ns -- SS1 (OUTPUT) 3 2 SPSCK (CPOL=0) (OUTPUT) 10 11 10 11 4 5 5 SPSCK (CPOL=1) (OUTPUT) 6 MISO (INPUT) 7 MSB IN2 BIT 6 . . . 1 LSB IN 8 MOSI (OUTPUT) MSB OUT2 9 BIT 6 . . . 1 LSB OUT 1. If configured as an output. 2. LSBF = 0. For LSBF = 1, bit order is LSB, bit 1, ..., bit 6, MSB. Figure 17. SPI master mode timing (CPHA=0) SS1 (OUTPUT) 2 3 SPSCK (CPOL=0) (OUTPUT) 5 SPSCK (CPOL=1) (OUTPUT) 6 MISO (INPUT) 5 11 10 11 4 7 MSB IN2 BIT 6 . . . 1 LSB IN 9 8 MOSI (OUTPUT) 10 PORT DATA MASTER MSB OUT2 BIT 6 . . . 1 MASTER LSB OUT PORT DATA 1.If configured as output 2. LSBF = 0. For LSBF = 1, bit order is LSB, bit 1, ..., bit 6, MSB. Figure 18. SPI master mode timing (CPHA=1) MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 27 Peripheral operating requirements and behaviors Table 16. SPI slave mode timing Nu m. Symbol Description 1 fop 2 tSPSCK 3 tLead Enable lead time 4 tLag Enable lag time 5 tWSPSCK 6 tSU 7 Min. Max. Unit Comment 0 fBus/4 Hz fBus is the bus clock as defined in . 4 x tBus -- ns tBus = 1/fBus 1 -- tBus -- Frequency of operation SPSCK period 1 -- tBus -- tBus - 30 -- ns -- Data setup time (inputs) 15 -- ns -- tHI Data hold time (inputs) 25 -- ns -- 8 ta Slave access time -- tBus ns Time to data active from high-impedance state 9 tdis Slave MISO disable time -- tBus ns Hold time to highimpedance state 10 tv Data valid (after SPSCK edge) -- 25 ns -- 11 tHO Data hold time (outputs) 0 -- ns -- 12 tRI Rise time input -- tBus - 25 ns -- tFI Fall time input tRO Rise time output -- 25 ns -- tFO Fall time output 13 Clock (SPSCK) high or low time SS (INPUT) 2 12 13 12 13 4 SPSCK (CPOL=0) (INPUT) 5 3 SPSCK (CPOL=1) (INPUT) 5 9 8 MISO (OUTPUT) see note SLAVE MSB 6 MOSI (INPUT) 10 11 11 BIT 6 . . . 1 SLAVE LSB OUT SEE NOTE 7 MSB IN BIT 6 . . . 1 LSB IN NOTE: Not defined Figure 19. SPI slave mode timing (CPHA = 0) MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 28 Freescale Semiconductor, Inc. Dimensions SS (INPUT) 4 2 3 SPSCK (CPOL=0) (INPUT) 5 SPSCK (CPOL=1) (INPUT) 5 see note SLAVE 8 MOSI (INPUT) 13 12 13 11 10 MISO (OUTPUT) 12 MSB OUT 6 9 BIT 6 . . . 1 SLAVE LSB OUT BIT 6 . . . 1 LSB IN 7 MSB IN NOTE: Not defined Figure 20. SPI slave mode timing (CPHA=1) 7 Dimensions 7.1 Obtaining package dimensions Package dimensions are provided in package drawings. To find a package drawing, go to freescale.com and perform a keyword search for the drawing's document number: If you want the drawing for this package Then use this document number 16-pin TSSOP 98ASH70247A 20-pin SOIC 98ASB42343B 20-pin TSSOP 98ASH70169A 32-pin LQFP 98ASH70029A 44-pin LQFP 98ASS23225W MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 29 Pinout 8 Pinout 8.1 Signal multiplexing and pin assignments The following table shows the signals available on each pin and the locations of these pins on the devices supported by this document. The Port Control Module is responsible for selecting which ALT functionality is available on each pin. Table 17. Pin availability by package pin-count Pin Number Lowest Priority <-- --> Highest 44-LQFP 32-LQFP 20-TSSOP 16-TSSOP Port Pin Alt 1 Alt 2 Alt 3 Alt 4 1 1 -- -- PTD11 -- FTM2CH3 -- -- -- FTM2CH2 -- -- 2 2 -- -- PTD01 3 -- -- -- PTE4 -- TCLK2 -- -- 4 -- -- -- PTE3 -- BUSOUT -- -- 5 3 3 3 -- -- -- -- VDD 6 4 -- -- -- -- -- VDDA VREFH 7 5 -- -- -- -- -- VSSA VREFL 8 6 4 4 -- -- -- -- VSS 9 7 5 5 PTB7 -- -- SCL EXTAL 10 8 6 6 PTB6 -- -- SDA XTAL 11 -- -- -- -- -- -- -- Vss 7 PTB51 -- FTM2CH5 SS0 -- -- FTM2CH4 MISO0 -- 12 9 7 13 10 8 8 PTB41 14 11 9 -- PTC3 -- FTM2CH3 ADP11 -- 15 12 10 -- PTC2 -- FTM2CH2 ADP10 -- 16 -- -- -- PTD7 -- -- -- -- 17 -- -- -- PTD6 -- -- -- -- 18 -- -- -- PTD5 -- -- -- -- 19 13 11 -- PTC1 -- FTM2CH1 ADP9 -- 20 14 12 -- PTC0 -- FTM2CH0 ADP8 -- 21 15 13 9 PTB3 KBI0P7 MOSI0 ADP7 -- 22 16 14 10 PTB2 KBI0P6 SPSCK0 ADP6 -- 23 17 15 11 PTB1 KBI0P5 TXD0 ADP5 -- 24 18 16 12 PTB0 KBI0P4 RXD0 ADP4 -- 25 19 -- -- PTA7 -- FTM2FAULT2 ADP3 -- 26 20 -- -- PTA6 -- FTM2FAULT1 ADP2 -- 27 -- -- -- -- -- -- -- Vss 28 -- -- -- -- -- -- -- VDD Table continues on the next page... MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 30 Freescale Semiconductor, Inc. Pinout Table 17. Pin availability by package pin-count (continued) Pin Number Lowest Priority <-- --> Highest 44-LQFP 32-LQFP 20-TSSOP 16-TSSOP Port Pin Alt 1 Alt 2 Alt 3 Alt 4 29 -- -- -- PTD4 -- -- -- -- 30 21 -- -- PTD3 -- -- -- -- 31 22 -- -- PTD2 -- -- -- -- 13 PTA32 KBI0P3 TXD0 SCL -- KBI0P2 RXD0 SDA -- 32 23 17 33 24 18 14 PTA22 34 25 19 15 PTA1 KBI0P1 FTM0CH1 ACMP1 ADP1 35 26 20 16 PTA0 KBI0P0 FTM0CH0 ACMP0 ADP0 36 27 -- -- PTC7 -- TxD1 -- -- 37 28 -- -- PTC6 -- RxD1 -- -- 38 -- -- -- PTE2 -- MISO0 -- -- 39 -- -- -- PTE1 -- MOSI0 -- -- 40 -- -- -- PTE0 -- SPSCK0 -- -- 41 29 -- -- PTC5 -- FTM0CH1 -- -- 42 30 -- -- PTC4 -- FTM0CH0 -- -- 43 31 1 1 PTA5 IRQ TCLK0 -- RESET 44 32 2 2 PTA4 -- ACMPO BKGD MS 1. This is a high current drive pin when operated as output. 2. This is a true open-drain pin when operated as output. Note When an alternative function is first enabled, it is possible to get a spurious edge to the module. User software must clear any associated flags before interrupts are enabled. The table above illustrates the priority if multiple modules are enabled. The highest priority module will have control over the pin. Selecting a higher priority pin function with a lower priority function already enabled can cause spurious edges to the lower priority module. Disable all modules that share a pin before enabling another module. 8.2 Device pin assignment MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 31 PTA0/KBI0P0/FTM0CH0/ACMP0/ADP0 PTA1/KBI0P1/FTM0CH1/ACMP1/ADP1 35 34 PTC6/RxD1 PTC7/TxD1 36 PTE2/MISO0 38 37 PTE0/SPSCK0 PTE1/MOSI0 39 PTC5/FTM0CH1 42 41 40 PTA4/ACMPO/BKGD/MS PTA5/IRQ/TCLK0/RESET PTC4/FTM0CH0 44 43 Pinout 33 PTA2/KBI0P2/RxD0/SDA 2 32 PTA3/KBI0P3/TxD0/SCL 2 23 21 11 22 VSS PTA7/FTM2FAULT2/ADP3 PTB0/KBI0P4/RxD0/ADP4 PTB1/KBI0P5/TxD0/ADP5 PTB3/KBI0P7/MOSI0/ADP7 24 PTB2/KBI0P6/SPSCK0/ADP6 25 20 9 10 PTC0/FTM2CH0/ADP8 PTB7/SCL/EXTAL PTB6/SDA/XTAL 18 PTA6/FTM2FAULT1/ADP2 19 26 PTD5 27 8 PTC1/FTM2CH1/ADP9 7 VSS 17 VSSA /VREFL VDD PTD6 PTD4 28 16 29 6 PTD7 5 VDDA /VREFH 14 PTD3 15 PTD2 30 PTC3/FTM2CH3/ADP11 31 4 PTC2/FTM2CH2/ADP10 3 12 PTE4/TCLK2 PTE3/BUSOUT VDD PTD0/FTM2CH2 13 2 PTB5/FTM2CH5/SS01 1 1 PTB4/FTM2CH4/MISO01 PTD1/FTM2CH31 VSS Pins in bold are not available on less pin-count packages. 1. High source/sink current pins 2. True open drain pins Figure 21. MC9S08PA16 44-pin LQFP package MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 32 Freescale Semiconductor, Inc. PTC5/FTM0CH1 PTC6/RxD1 PTC7/TxD1 PTA0/KBI0P0/FTM0CH0/ACMP0/ADP0 PTA1/KBI0P1/FTM0CH1/ACMP1/ADP1 29 27 26 25 PTA5/IRQ/TCLK1/RESET PTC4/FTM0CH0 30 28 PTA4/ACMPO/BKGD/MS 32 31 Pinout 20 PTA6/FTM2FAULT1/ADP2 6 19 PTA7/FTM2FAULT2/ADP3 PTB7/SCL/EXTAL 7 18 PTB0/KBI0P4/RxD0/ADP4 PTB6/SDA/XTAL 8 17 PTB1/KBI0P5/TxD0/ADP5 14 16 PTB2/KBI0P6/SPSCK0/ADP6 PTA3/KBI0P3/TxD0/SCL2 15 PTA2/KBI0P2/RxD0/SDA 2 23 PTC0/FTM2CH0/ADP8 24 PTB3/KBI0P7/MOSI0/ADP7 12 5 VSS 13 VSSA/VREFL PTC1/FTM2CH1/ADP9 PTD3 PTC2/FTM2CH2/ADP10 21 11 PTD2 4 PTC3/FTM2CH3/ADP11 22 VDDA/VREFH 9 VDD 3 10 2 PTB5/FTM2CH5/SS01 1 1 PTB4/FTM2CH4/MISO01 PTD1/FTM2CH31 PTD0/FTM2CH2 Pins in bold are not available on less pin-count packages. 1. High source/sink current pins 2. True open drain pins Figure 22. MC9S08PA16 32-pin LQFP package PTA5/IRQ/TCLK0/RESET 1 20 PTA4/ACMPO/BKGD/MS VDD VSS 2 19 PTA1/KBI0P1/FTM0CH1/ACMP1/ADP1 3 18 PTA2/KBI0P2/RxD0/SDA2 4 17 16 PTA3/KBI0P3/TxD0/SCL2 15 14 13 PTB1/KBI0P5/TxD0/ADP5 12 PTC0/FTM2CH0/ADP8 11 PTC1/FTM2CH1/ADP9 PTB7/SCL/EXTAL 5 PTB6/SDA/XTAL 6 PTB5/FTM2CH5/SS01 PTB4/FTM2CH4/MISO01 7 PTC3/FTM2CH3/ADP11 8 9 PTC2/FTM2CH2/ADP10 10 PTA0/KBI0P0/FTM0CH0/ACMP0/ADP0 PTB0/KBI0P4/RxD0/ADP4 PTB2/KBI0P6/SPSCK0/ADP6 PTB3/KBI0P7/MOSI0/ADP7 Pins in bold are not available on less pin-count packages. 1. High source/sink current pins 2. True open drain pins Figure 23. MC9S08PA16 20-pin SOIC and TSSOP package MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 Freescale Semiconductor, Inc. 33 Revision history PTA5/IRQ/TCLK0/RESET 1 16 PTA0/KBI0P0/FTM0CH0/ACMP0/ADP0 PTA4/ACMPO/BKGD/MS VDD VSS 2 PTA1/KBI0P1/FTM0CH1/ACMP1/ADP1 4 15 14 13 PTA3/KBI0P3/TxD0/SCL2 PTB7/SCL/EXTAL 5 12 PTB0/KBI0P4/RxD0/ADP4 PTB6/SDA/XTAL 6 PTB1/KBI0P5/TxD0/ADP5 7 11 10 8 9 PTB5/FTM2CH5/SS01 PTB4/FTM2CH4/MISO01 3 PTA2/KBI0P2/RxD0/SDA 2 PTB2/KBI0P6/SPSCK0/ADP6 PTB3/KBI0P7/MOSI0/ADP7 Pins in bold are not available on less pin-count packages. 1. High source/sink current pins 2. True open drain pins Figure 24. MC9S08PA16 16-pin TSSOP package 9 Revision history The following table provides a revision history for this document. Table 18. Revision history Rev. No. Date Substantial Changes 1 10/2012 2 09/2014 * * * * 3 06/2015 * Corrected the Min. of the textrst in Control timing * Updated Thermal characteristics to add footnote to the TA and removed redundant information.Updated the symbol of JA to RJA. Initial public release Updated VOH and VOL in DC characteristics Updated footnote on the S3IDD in Supply current characteristics Added EMC radiated emissions operating behaviors Updated the typical of fint_t to 31.25 kHz and updated footnote to tAcquire in External oscillator (XOSC) and ICS characteristics * Updated the assumption for all the timing values in SPI switching specifications * Updated the rating descriptions for tRise and tFall in Control timing * Updated the part number format to add new field for new part numbers in Fields MC9S08PA16 Series Data Sheet, Rev. 3, 06/2015 34 Freescale Semiconductor, Inc. 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