NXP Semiconductors
Data Sheet: Technical Data
MC9S08PL16 Series Data
Sheet
Document Number MC9S08PL16
Rev. 5, 06/2020
MC9S08PL16
Supports: MC9S08PL16 and
MC9S08PL8
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 85 °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
• Peripherals
– ACMP - one analog comparator with both positive
and negative inputs; separately selectable interrupt
on rising and falling comparator output; filtering
– ADC - 12-channel, 10-bit resolution; 2.5 µs
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 timers 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
• 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 85 °C; up to 20 MHz
• Input/Output
– Up to 37 GPIOs including one output-only pin
– One 8-bit keyboard interrupt module (KBI)
– Two true open-drain output pins
• 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
• 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
NXP reserves the right to change the production detail specifications as may be
required to permit improvements in the design of its products.
• Package options
– 44-pin LQFP
– 32-pin LQFP
– 20-pin TSSOP
– 16-pin TSSOP
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
2
NXP Semiconductors
Table of Contents
1
MCU block diagram...........................................................................4
6.2.2
Debug trace timing specifications................................16
2
Orderable part numbers......................................................................5
6.2.3
FTM module timing.....................................................17
3
Part identification............................................................................... 5
6.3 Thermal specifications...............................................................18
3.1 Description.................................................................................5
6.3.1
Thermal operating requirements.................................. 18
3.2 Format........................................................................................6
6.3.2
Thermal characteristics................................................ 18
3.3 Fields..........................................................................................6
7
Peripheral operating requirements and behaviors.............................. 19
3.4 Example..................................................................................... 6
7.1 External oscillator (XOSC) and ICS characteristics..................19
4
Parameter Classification.....................................................................6
7.2 NVM specifications................................................................... 21
5
Ratings................................................................................................7
7.3 Analog........................................................................................22
5.1 Thermal handling ratings...........................................................7
7.3.1
ADC characteristics..................................................... 22
5.2 Moisture handling ratings.......................................................... 7
7.3.2
Analog comparator (ACMP) electricals...................... 25
5.3 ESD handling ratings.................................................................7
7.4 Communication interfaces......................................................... 25
5.4 Voltage and current operating ratings........................................8
6
General............................................................................................... 9
7.4.1
8
6.1 Nonswitching electrical specifications...................................... 9
Inter-Integrated Circuit Interface (I2C) timing............ 25
Dimensions.........................................................................................26
8.1 Obtaining package dimensions.................................................. 26
6.1.1
DC characteristics........................................................ 9
6.1.2
Supply current characteristics...................................... 13
9.1 Signal multiplexing and pin assignments.................................. 27
6.1.3
EMC performance........................................................14
9.2 Device pin assignment...............................................................29
6.2 Switching specifications............................................................ 15
10 Revision history................................................................................. 31
6.2.1
9
Pinout................................................................................................. 27
Control timing..............................................................15
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
NXP Semiconductors
3
MCU block diagram
1 MCU block diagram
CPU
BDC
Port A
HCS08 CORE
PTA0/KBI0P0/FTM0CH0/ACMP0/ADP0
PTA1/KBI0P1/FTM0CH1/ACMP1/ADP1
PTA2/KBI0P2/RxD0/SDA1
PTA3/KBI0P3/TxD0/SCL1
PTA4/ACMPO/BKGD/MS2
PTA5/IRQ/TCLK0/RESET
PTA6/ADP2
PTA7/ADP3
Port B
The block diagram below shows the structure of the MCUs.
PTB0/KBI0P4/RxD0/ADP4
PTB1/KBI0P5/TxD0/ADP5
PTB2/KBI0P6/ADP6
PTB3/KBI0P7/ADP7
PTB4/FTM2CH4
PTB5/FTM2CH5
PTB6/SDA/XTAL
PTB7/SCL/EXTAL
INTER-INTEGRATED
CIRCUIT BUS (IIC)
WDG
1 kHz LPO
IRQ
LVD
INTERRUPT PRIORITY
CONTROLLER(IPC)
KEYBOARD INTERRUPT
MODULE (KBI0)
8-BIT MODULO TIMER
(MTIM0)
2-CH FLEX TIMER
MODULE (FTM0)
6-CH FLEX TIMER
ON-CHIP ICE AND
DEBUG MODUE (DBG)
MODULE (FTM2)
Port C
SYSTEM INTEGRATION
MODULE (SIM)
SERIAL COMMUNICATION
SERIAL COMMUNICATION
INTERFACE (SCI1)
USER EEPROM
MC9S08PL16 = 256 bytes
MC9S08PL8 = 256 bytes
REAL-TIME CLOCK
(RTC)
USER RAM
MC9S08PL16 = 2,048 bytes
MC9S08PL8 = 2,048 bytes
ANALOG COMPARATOR
(ACMP)
Port D
INTERFACE (SCI0)
Port E
USER FLASH
MC9S08PL16 = 16,384 bytes
MC9S08PL8 = 8,192 bytes
10 MHz INTERNAL CLOCK
SOURCE (ICS)
EXTAL
XTAL
VDD
VSS
VDD
V SS
VSS
VREFH
VDDA
VREFL
VSSA
PTC0/FTM2CH0/ADP8
PTC1/FTM2CH1/ADP9
PTC2/FTM2CH2/ADP10
PTC3/FTM2CH3/ADP11
PTC4/FTM0CH0
PTC5/FTM0CH1
PTC6/RxD1
PTC7/TxD1
PTD0/FTM2CH2
PTD1/FTM2CH3
PTD2
PTD3
PTD4
PTD5
PTD6
PTD7
PTE0
PTE1
PTE2
PTE3/BUSOUT
PTE4/TCLK2
EXTERNAL OSCILLATOR
SOURCE (XOSC)
POWER MANAGEMENT
CONTROLLER (PMC)
12-CH 10-BIT
ANALOG-TO-DIGITAL
CONVERTER(ADC)
CYCLIC REDUNDANCY
CHECK (CRC)
1. PTA2 and PTA3 operate as true-open drain when working as output.
2. PTA4/ACMPO/BKGD/MS is an output-only pin when used as port pin.
Figure 1. MCU block diagram
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
4
NXP Semiconductors
Orderable part numbers
2 Orderable part numbers
The following table summarizes the part numbers of the devices covered by this
document.
Table 1. Ordering information
Part Number
MC9S08PL16
MC9S08PL8
CLD
CLC
CTJ
CTG
CLC
CTJ
CTG
Max.
frequency
(MHz)
20
20
20
20
20
20
20
Flash memory
(KB)
16
16
16
16
8
8
8
RAM (KB)
2
2
2
2
2
2
2
EEPROM (B)
256
256
256
256
256
256
256
10-bit ADC
12ch
12ch
10ch
6ch
12ch
10ch
6ch
1
1
1
1
1
1
1
6ch+2ch
6ch+2ch
6ch+2ch
2ch+2ch
6ch+2ch
6ch+2ch
2ch+2ch
1
1
1
1
1
1
1
RTC
Yes
Yes
Yes
Yes
Yes
Yes
Yes
IIC
Yes
Yes
Yes
Yes
Yes
Yes
Yes
SCI (LIN
Capable)
2
2
1
1
2
1
1
Watchdog
Yes
Yes
Yes
Yes
Yes
Yes
Yes
CRC
Yes
Yes
Yes
Yes
Yes
Yes
Yes
KBI pins
8
8
8
8
8
8
8
GPIO
37
30
18
14
30
18
14
44-LQFP
32-LQFP
20-TSSOP
16-TSSOP
32-LQFP
20-TSSOP
16-TSSOP
ACMP
16-bit
FlexTimer
8-bit Modulo
timer
Package
3 Part identification
3.1 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.
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
NXP Semiconductors
5
Parameter Classification
3.2 Format
Part numbers for this device have the following format:
MC 9 S08 PL AA B CC
3.3 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
PL
Device family
• PL
AA
Approximate flash size in KB
• 16 = 16 KB
• 8 = 8 KB
B
Operating temperature range (°C)
• C = –40 to 85
CC
Package designator
•
•
•
•
LD = 44-LQFP
LC = 32-LQFP
TJ = 20-TSSOP
TG = 16-TSSOP
3.4 Example
This is an example part number:
MC9S08PL16CLC
4 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 2. Parameter Classifications
P
Those parameters are guaranteed during production testing on each individual device.
Table continues on the next page...
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
6
NXP Semiconductors
Ratings
Table 2. Parameter Classifications (continued)
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.
5 Ratings
5.1 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.
5.2 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.
5.3 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 85
-100
+100
mA
ILAT
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
NXP Semiconductors
7
Ratings
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.
5.4 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.
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.
Max.
Unit
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 )
–0.3
VDD + 0.3
V
Digital input voltage (true open drain pin )
-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
1. All digital I/O pins, except open-drain pin , are internally clamped to VSS and VDD. is only clamped to VSS.
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
8
NXP Semiconductors
General
6 General
6.1 Nonswitching electrical specifications
6.1.1 DC characteristics
This section includes information about power supply requirements and I/O pin
characteristics.
Table 3. DC characteristics
Symbol
C
—
—
VOH
C
Operating voltage
Output high
voltage
All I/O pins, standarddrive strength
C
IOHT
VOL
D
Output high
current
C
Max total IOH for all
ports
Output low
voltage
VIH
D
P
C
VIL
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
5V
—
—
-100
mA
3V
—
—
-50
—
—
0.8
V
3 V, Iload =
2.5 mA
—
—
0.8
V
mA
All I/O pins, standard- 5 V, Iload = 5
drive strength
mA
C
IOLT
Min
Descriptions
P
C
Output low
current
Max total IOL for all
ports
5V
—
—
100
3V
—
—
50
Input high
voltage
All digital inputs
VDD>4.5V
0.70 × VDD
—
—
VDD>2.7V
0.75 × VDD
—
—
Input low
voltage
All digital inputs
VDD>4.5V
—
—
0.30 × VDD
V
V
VDD>2.7V
—
—
0.35 × VDD
Vhys
C
Input
hysteresis
All digital inputs
—
0.06 × VDD
—
—
mV
|IIn|
P
Input leakage
current
All input only pins
(per pin)
VIN = VDD or
VSS
—
0.1
1
µA
|IOZ|
P
Hi-Z (offstate) leakage
current
All input/output (per
pin)
VIN = VDD or
VSS
—
0.1
1
µA
|IOZTOT|
C
Total leakage All input only and I/O VIN = VDD or
combined for
VSS
all inputs and
Hi-Z pins
—
—
2
µA
Table continues on the next page...
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
NXP Semiconductors
9
Nonswitching electrical specifications
Table 3. DC characteristics (continued)
Min
Typical1
Max
Unit
—
30.0
—
50.0
kΩ
PTA2 and PTA3 pin
—
30.0
—
60.0
kΩ
Single pin limit
VIN < VSS,
VIN > VDD
-0.2
—
2
mA
-5
—
25
Symbol
C
Descriptions
RPU
P
Pullup
resistors
All digital inputs,
when enabled (all I/O
pins other than PTA2
and PTA3)
RPU2
P
Pullup
resistors
IIC
D
DC injection
current3, 4, 5
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. The specified resistor value is the actual value internal to the device. The pullup value may appear higher when measured
externally on the pin.
3. All functional non-supply pins, except for PTA2 and PTA3, are internally clamped to VSS and VDD.
4. 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.
5. 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 4. LVD and POR Specification
Symbol
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
Falling low-voltage detect
threshold - high range (LVDV
= 1)3
Falling lowvoltage
warning
threshold high range
Table continues on the next page...
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
10
NXP Semiconductors
Nonswitching electrical specifications
Table 4. LVD and POR Specification (continued)
1.
2.
3.
4.
Symbol
C
VLVDW1L
C
VLVDW2L
C
VLVDW3L
C
VLVDW4L
Description
Min
Typ
Max
Unit
Level 1 falling
(LVWV = 00)
2.62
2.7
2.78
V
Level 2 falling
(LVWV = 01)
2.72
2.8
2.88
V
Level 3 falling
(LVWV = 10)
2.82
2.9
2.98
V
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 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
0.6
VDD-VOH (V)
0.5
0.4
85°C
0.3
25°C
-40°C
0.2
0.1
0
1
2
3
4
5
6
IOH (mA)
Figure 2. Typical IOH Vs. VDD-VOH (standard drive strength) (VDD = 5 V)
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
NXP Semiconductors
11
Nonswitching electrical specifications
0.8
0.7
VDD-VOH (V)
0.6
0.5
85°C
0.4
25°C
-40°C
0.3
0.2
0.1
0
1
2
3
4
5
6
IOH (mA)
Figure 3. Typical IOH Vs. VDD-VOH (standard drive strength) (VDD = 3 V)
0.5
VOL (V)
0.4
0.3
85°C
25°C
0.2
-40°C
0.1
0
1
2
3
4
5
6
IOL (mA)
Figure 4. Typical IOL Vs. VOL (standard drive strength) (VDD = 5 V)
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
12
NXP Semiconductors
Nonswitching electrical specifications
0.8
0.7
VOL (V)
0.6
0.5
85°C
0.4
25°C
-40°C
0.3
0.2
0.1
0
1
2
3
4
5
6
IOL (mA)
Figure 5. Typical IOL Vs. VOL (standard drive strength) (VDD = 3 V)
6.1.2 Supply current characteristics
This section includes information about power supply current in various operating modes.
Table 5. 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 85 °C
10 MHz
4.65
—
1 MHz
1.90
—
mA
-40 to 85 °C
mA
-40 to 85 °C
C
2
C
20 MHz
7.05
—
C
10 MHz
4.40
—
1 MHz
1.85
—
5.88
—
10 MHz
3.70
—
1 MHz
1.85
—
5.35
—
3.42
—
C
C
Run supply current FEI
mode, all modules off &
gated; run from flash
RIDD
20 MHz
C
20 MHz
C
10 MHz
3
5
3
1 MHz
3
P
C
Run supply current FBE
mode, all modules on; run
from RAM
RIDD
1.80
—
10.9
14.0
10 MHz
6.10
—
1 MHz
1.69
—
8.18
—
5.14
—
20 MHz
P
20 MHz
C
10 MHz
5
3
Table continues on the next page...
MC9S08PL16 Series Data Sheet, Rev. 5, 06/2020
NXP Semiconductors
13
Nonswitching electrical specifications
Table 5. Supply current characteristics (continued)
Num
C
Parameter
Symbol
Typical1
Max
1.44
—
8.50
13.0
10 MHz
5.07
—
1 MHz
1.59
—
6.11
—
Bus Freq
VDD (V)
1 MHz
4
P
C
5
Run supply current FBE
mode, all modules off &
gated; run from RAM
RIDD
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
P
C
6
20 MHz
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
—
C
ADLPC = 1
3
5
3
—
5
1.35
—
—
3
1.3
—
—
5
40
—
3
39
—
5
128
—
3
124
—
Unit
Temp
mA
-40 to 85 °C
mA
-40 to 85 °C
µA
-40 to 85 °C
-40 to 85 °C
µA
-40 to 85 °C
µA
-40 to 85 °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