MC9S08LL16_10 FREESCALE [Freescale Semiconductor, Inc], MC9S08LL16_10 Datasheet

MC9S08LL16_10

Manufacturer Part Number

MC9S08LL16_10

Description

MC9S08LL16 Series

Manufacturer

FREESCALE [Freescale Semiconductor, Inc]

Datasheet

1.MC9S08LL16_10.pdf (44 pages)

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Freescale Semiconductor

Data Sheet: Technical Data

An Energy Efficient Solution by Freescale

MC9S08LL16 Series

Covers: MC9S08LL16 and

MC9S08LL8

Features

• 8-Bit HCS08 Central Processor Unit (CPU)

• On-Chip Memory

• Power-Saving Modes

• Clock Source Options

• System Protection

• Development Support

– Up to 20-MHz CPU at 3.6V to 1.8V across temperature range

– HC08 instruction set with added BGND instruction

– Support for up to 32 interrupt/reset sources

– Dual Array FLASH read/program/erase over full operating

– Random-access memory (RAM)

– Security circuitry to prevent unauthorized access to RAM and

– Two low power stop modes

– Reduced power wait mode

– Low power run and wait modes allow peripherals to run while

– Peripheral clock gating register can disable clocks to unused

– Very low power external oscillator that can be used in stop2 or

– 6 usec typical wake up time from stop3 mode

– Oscillator (XOSC) — Loop-control Pierce oscillator; Crystal

– Internal Clock Source (ICS) — Internal clock source module

– Watchdog computer operating properly (COP) reset with

– Low-Voltage Warning with interrupt

– Low-Voltage Detection with reset or interrupt

– Illegal opcode and illegal address detection with reset

– Flash block protection

– Single-wire background debug interface

– Breakpoint capability to allow single breakpoint setting during

of -40°C to 85°C

voltage and temperature

FLASH contents

voltage regulator is in standby

modules, thereby reducing currents.

stop3 modes to provide accurate clock source to real time

counter

or ceramic resonator range of 31.25 kHz to 38.4 kHz or 1 MHz

to 16 MHz

containing a frequency-locked-loop (FLL) controlled by

internal or external reference; precision trimming of internal

reference allows 0.2% resolution and 2% deviation over

temperature and voltage; supports bus frequencies from 1MHz

to 10 MHz.

option to run from dedicated 1-kHz internal clock source or

bus clock

in-circuit debugging (plus two more breakpoints in on-chip

debug module)

• Peripherals

• Input/Output

• Package Options

– On-chip in-circuit emulator (ICE) debug module containing

– LCD — 4x28 or 8x24 LCD driver with internal charge pump

– ADC — 8-channel, 12-bit resolution; 2.5 s conversion time;

– ACMP — Analog comparator with selectable interrupt on

– SCI — Full duplex non-return to zero (NRZ); LIN master

– SPI— Full-duplex or single-wire bidirectional;

– IIC — IIC with up to 100 kbps with maximum bus loading;

– TPMx — Two 2-channel (TPM1 and TPM2); Selectable input

– TOD— (Time Of Day) 8-bit quarter second counter with

– 38 GPIOs, 2 output-only pins

– 8 KBI interrupts with selectable polarity

– Hysteresis and configurable pull up device on all input pins;

– 64-LQFP, 48-LQFP and 48-QFN

three comparators and nine trigger modes. Eight deep FIFO for

storing change-of-flow addresses and event-only data. Debug

module supports both tag and force breakpoints

and option to provide an internally regulated LCD reference

that can be trimmed for contrast control.

automatic compare function; temperature sensor; internal

bandgap reference channel; operation in stop3; fully functional

from 3.6V to 1.8V

rising, falling, or either edge of comparator output; compare

option to fixed internal bandgap reference voltage; outputs can

be optionally routed to TPM module; operation in stop3

extended break generation; LIN slave extended break

detection; wake up on active edge

Double-buffered transmit and receive; Master or Slave mode;

MSB-first or LSB-first shifting

Multi-master operation; Programmable slave address;

Interrupt driven byte-by-byte data transfer; supports broadcast

mode and 10-bit addressing

capture, output compare, or buffered edge- or center-aligned

PWM on each channel;

match register; External clock source for precise time base,

time-of-day, calendar or task scheduling functions; Free

running on-chip low power oscillator (1 kHz) for cyclic

wake-up without external components.

Configurable slew rate and drive strength on all output pins.

Document Number: MC9S08LL16

64-LQFP

Case 840F

Rev. 6, 10/2010

48-LQFP

Case 932

48-QFN

1314

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MC9S08LL16_10 Summary of contents

Page 1

Freescale Semiconductor Data Sheet: Technical Data An Energy Efficient Solution by Freescale MC9S08LL16 Series Covers: MC9S08LL16 and MC9S08LL8 Features • 8-Bit HCS08 Central Processor Unit (CPU) – 20-MHz CPU at 3.6V to 1.8V across temperature range of -40°C ...

Page 2

Table of Contents 1 Devices in the MC9S08LL16 Series . . . . . . . . . . . . . . 4 2 Pin Assignments . . . . . . . . . . . . . ...

Page 3

Related Documentation Find the most current versions of all documents at: http://www.freescale.com Reference Manual (MC9S08LL16RM) Contains extensive product information including modes of operation, memory, resets and interrupts, register definition, port pins, CPU, and all module information. Freescale Semiconductor MC9S08LL16 Series ...

Page 4

Devices in the MC9S08LL16 Series 1 Devices in the MC9S08LL16 Series summarizes the feature set available in the MC9S08LL16 series of MCUs. Table 1 Table 1. MC9S08LL16 Series Features by MCU and Package Feature Package FLASH RAM ACMP ADC IIC ...

Page 5

HCS08 CORE CPU INT BKGD BKP HCS08 SYSTEM CONTROL RESETS AND INTERRUPTS MODES OF OPERATION POWER MANAGEMENT COP IRQ LVD USER FLASH A (LL16 = 8K BYTES) (LL8 = 8K BYTES) USER FLASH B (LL16 = 8K BYTES) (LL8 = ...

Page 6

Pin Assignments 2 Pin Assignments This section shows the pin assignments for the MC9S08LL16 series devices. PTE1/LCD9 PTE0/LCD8 PTD7/LCD7 PTD6/LCD6 PTD5/LCD5 PTD4/LCD4 PTD3/LCD3 PTD2/LCD2 PTD1/LCD1 PTD0/LCD0 V CAP1 V CAP2 V LL1 V LL2 V LL3 V LCD Note: V ...

Page 7

PTD7/LCD7 2 PTD6/LCD6 3 PTD5/LCD5 4 PTD4/LCD4/ 5 PTD3/LCD3 6 PTD2/LCD2 7 PTD1/LCD1 8 PTD0/LCD0 9 V CAP1 10 V CAP2 11 V LL1 12 V LL2 14 13 Note: V REFH Figure 3. MC9S08LL16 Series in ...

Page 8

Pin Assignments Table 2. Pin Availability by Package Pin-Count 64 48 Port Pin 1 47 PTE1 2 48 PTE0 3 1 PTD7 4 2 PTD6 5 3 PTD5 6 4 PTD4 7 5 PTD3 8 6 PTD2 9 7 PTD1 ...

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Table 2. Pin Availability by Package Pin-Count (continued Port Pin 40 30 PTA1 41 31 PTA2 42 32 PTA3 43 33 PTA4 44 34 PTA5 ...

Page 10

Electrical Characteristics P Those parameters are guaranteed during production testing on each individual device. Those parameters are achieved by the design characterization by measuring a statistically relevant C sample size across process variations. Those parameters are achieved by design characterization ...

Page 11

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 ...

Page 12

Electrical Characteristics where constant pertaining to the particular part. K can be determined from equation 3 by measuring P (at equilibrium) for a known T D solving Equation 3-1 and Equation 3-2 3.5 ESD Protection and Latch-Up ...

Page 13

DC Characteristics This section includes information about power supply requirements and I/O pin characteristics. Num C Characteristic 1 Operating voltage PTA[0:3], PTA[6:7], C PTB[0:7], PTC[0:7] low-drive strength Output high 2 P voltage PTA[0:3], PTA[6:7], PTB[0:7], PTC[0:7] high-drive strength C ...

Page 14

Electrical Characteristics Num C Characteristic Hi-Z (off-state leakage current Total leakage Total leakage current for all current PTA[0:3], PTA[6:7], P Pullup, PTB[0:7], PTC[0:7] pulldown 14 resistors when PTA[4:5], PTD[0:7], P enabled Single pin limit DC ...

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Figure 4. Non-LCD pins I/O Pullup and Pulldown Typical Resistor Values (V Freescale Semiconductor MC9S08LL16 Series MCU Data Sheet, Rev. 6 Electrical Characteristics = 3 ...

Page 16

Electrical Characteristics Figure 5. LCD/GPIO Pins I/O Pullup/Pulldown Typical Resistor Values 16 MC9S08LL16 Series MCU Data Sheet, Rev. 6 Freescale Semiconductor ...

Page 17

Figure 6. Typical Low-Side Driver (Sink) Characteristics (Non-LCD pins) Freescale Semiconductor MC9S08LL16 Series MCU Data Sheet, Rev. 6 Electrical Characteristics Low Drive (PTxDSn = 0) — 17 ...

Page 18

Electrical Characteristics Figure 7. Typical Low-Side Driver (Sink) Characteristics(Non-LCD pins) 18 MC9S08LL16 Series MCU Data Sheet, Rev. 6 High Drive (PTxDSn = 1) — Freescale Semiconductor ...

Page 19

Figure 8. Typical High-Side (Source) Characteristics (Non-LCD Pins) Freescale Semiconductor MC9S08LL16 Series MCU Data Sheet, Rev. 6 Electrical Characteristics Low Drive (PTxDSn = 0) — 19 ...

Page 20

Electrical Characteristics Figure 9. Typical High-Side (Source) Characteristics(Non-LCD Pins) 20 MC9S08LL16 Series MCU Data Sheet, Rev. 6 High Drive (PTxDSn = 1) — Freescale Semiconductor ...

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I (mA) OL Figure 10. Typical Low-Side Driver (Sink) Characteristics (LCD/GPIO Pins) Freescale Semiconductor MC9S08LL16 Series MCU Data Sheet, Rev. 6 Electrical Characteristics Preliminary Low Drive (PTxDSn = 0) — 21 ...

Page 22

Electrical Characteristics Figure 11. Typical Low-Side Driver (Sink) Characteristics(LCD/GPIO Pins) 22 MC9S08LL16 Series MCU Data Sheet, Rev. 6 High Drive (PTxDSn = 1) — Freescale Semiconductor ...

Page 23

Figure 12. Typical High-Side (Source) Characteristics (LCD/GPIO Pins) Freescale Semiconductor MC9S08LL16 Series MCU Data Sheet, Rev. 6 Electrical Characteristics Low Drive (PTxDSn = 0) — 23 ...

Page 24

Electrical Characteristics Figure 13. Typical High-Side (Source) Characteristics(LCD/GPIO pins) 24 MC9S08LL16 Series MCU Data Sheet, Rev. 6 High Drive (PTxDSn = 1) — Freescale Semiconductor ...

Page 25

Supply Current Characteristics This section includes information about power supply current in various operating modes. Parameter Num C P Run supply current 1 FEI mode, all modules Run supply current 2 FEI mode, all modules off ...

Page 26

Electrical Characteristics Table 9. Supply Current Characteristics (continued) Parameter Num C Application Stop3 mode supply current Application Stop3 mode supply current 1 Typical values are measured at 25 C. Characterized, not tested ...

Page 27

External Oscillator (XOSCVLP) Characteristics Refer to Figure 14 and Figure 15 Table 11. XOSCVLP and ICS Specifications (Temperature Range = – C Ambient) Num C Oscillator crystal or resonator (EREFS = 1, ERCLKEN = 1) Low range ...

Page 28

Electrical Characteristics Figure 14. Typical Crystal or Resonator Circuit: High Range and Low Range/High Gain Figure 15. Typical Crystal or Resonator Circuit: Low Range/Low Power 3.9 Internal Clock Source (ICS) Characteristics Table 12. ICS Frequency Specifications (Temperature Range = –40 ...

Page 29

Table 12. ICS Frequency Specifications (Temperature Range = –40 to 85C Ambient) (continued) Num C Characteristic Total deviation from trimmed DCO output frequency over 9 C fixed voltage and temperature range FLL acquisition time Long ...

Page 30

Electrical Characteristics 3.10 AC Characteristics This section describes timing characteristics for each peripheral system. 3.10.1 Control Timing Num C Bus frequency ( cyc 2 D Internal low power oscillator period 3 D External reset pulse width ...

Page 31

RESET PIN IRQ/KBIPx IRQ/KBIPx 3.10.2 TPM 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 ...

Page 32

Electrical Characteristics TPMCHn TPMCHn 3.10.3 SPI Timing Table 15 and Figure 21 through No. C — Operating frequency D Master Slave SPSCK period 1 D Master Slave Enable lead time 2 D Master Slave Enable lag time 3 D Master ...

Page 33

No. C Data hold time (outputs Master Slave Rise time 11 D Input Output Fall time 12 D Input Output 1 SS (OUTPUT) 2 SPSCK (CPOL = 0) (OUTPUT) 4 SPSCK (CPOL = 1) (OUTPUT MISO ...

Page 34

Electrical Characteristics 1 SS (OUTPUT) 2 SPSCK (CPOL = 0) (OUTPUT) 4 SPSCK (CPOL = 1) (OUTPUT) 5 MISO MSB IN (INPUT) 9 MOSI PORT DATA MASTER MSB OUT (OUTPUT) NOTES output mode (DDS7 = 1, SSOE = ...

Page 35

SS (INPUT SPSCK (CPOL = 0) (INPUT) 4 SPSCK (CPOL = 1) (INPUT) 9 MISO SEE SLAVE (OUTPUT) NOTE MOSI MSB IN (INPUT) NOTE: 1. Not defined but normally LSB of character just received. 3.11 ...

Page 36

Electrical Characteristics Table 17. 12-bit ADC Operating Conditions Characteristic Conditions Ref Voltage High Input Voltage Input Capacitance Input Resistance 12-bit mode f > 4MHz ADCK f < 4MHz ADCK Analog Source 10-bit mode Resistance f > 4MHz ADCK f < ...

Page 37

Table 18. 12-bit ADC Characteristics (V C Characteristic Conditions Supply Current ADLPC=1 T ADLSMP=1 ADCO=1 Supply Current ADLPC=1 T ADLSMP=0 ADCO=1 Supply Current ADLPC=0 T ADLSMP=1 ADCO=1 Supply Current ADLPC=0 P ADLSMP=0 ADCO=1 P ADC High Speed (ADLPC=0) Asynchronous C ...

Page 38

Electrical Characteristics Table 18. 12-bit ADC Characteristics (V C Characteristic Conditions T 12-bit mode Zero-Scale P 10-bit mode Error T 8-bit mode T 12-bit mode Full-Scale P Error 10-bit mode T 8-bit mode 12-bit mode Quantization D 10-bit mode Error ...

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LCD Specifications C Characteristic D LCD Supply Voltage D LCD Frame Frequency D LCD Charge Pump Capacitance D LCD Bypass Capacitance D LCD Glass Capacitance D V IREG D V TRIM Resolution IREG D V Ripple IREG 2 D ...

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Electrical Characteristics C Characteristic Supply voltage for program/erase D -40C to 85C D Supply voltage for read operation 1 D Internal FCLK frequency D Internal FCLK period (1/FCLK) P Byte program time (random location) P Byte program time (burst mode) ...

Page 41

The maximum radiated RF emissions of the tested configuration in all orientations are less than or equal to the reported emissions levels. Parameter Symbol V RE_TEM Radiated emissions, electric field 1 Data based on qualification test results. 4 Ordering Information ...

Page 42

Package Information and Mechanical Drawings Pin Count Package Type 64 Low Quad Flat Package 48 Low Quad Flat Package 48 Quad Flat No-Leads 42 Table 22. Package Descriptions Abbreviation Designator LQFP LQFP QFN MC9S08LL16 Series MCU Data Sheet, Rev. 6 ...

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Freescale Semiconductor Package Information and Mechanical Drawings MC9S08LL16 Series MCU Data Sheet, Rev ...

Page 44

How to Reach Us: Home Page: www.freescale.com Web Support: http://www.freescale.com/support USA/Europe or Locations Not Listed: Freescale Semiconductor, Inc. Technical Information Center, EL516 2100 East Elliot Road Tempe, Arizona 85284 1-800-521-6274 or +1-480-768-2130 www.freescale.com/support Europe, Middle East, and Africa: Freescale Halbleiter ...

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