mc9s08lh36 Freescale Semiconductor, Inc, mc9s08lh36 Datasheet
mc9s08lh36
Available stocks
Related parts for mc9s08lh36
mc9s08lh36 Summary of contents
Page 1
... Freescale Semiconductor Data Sheet: Advanced Information An Energy Efficient Solution by Freescale MC9S08LH64 Series Covers: MC9S08LH64 and MC9S08LH36 • 8-Bit HCS08 Central Processor Unit (CPU) – MHz CPU at 3 2.1 V across temperature range of –40 ° °C – MHz at 2 1.8 V across temperature range of – ...
Page 2
... Contains extensive product information including modes of operation, memory, resets and interrupts, register definition, port pins, CPU, and all module information. © Freescale Semiconductor, Inc., 2009-2010. All rights reserved. PRELIMINARY-SUBJECT TO CHANGE WITHOUT NOTICE 3.11 Analog Comparator (ACMP) Electricals . . . . . . . . . . . .33 3.12 ADC Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . .33 3.13 VREF Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . .40 3 ...
Page 3
... MC9S08LH64 Series MCU. MC9S08LH64 Series MCU Data Sheet, Rev. 4 MC9S08LH36 80-pin 64-pin LQFP LQFP 36 KB (24,576 and 12,288 Arrays) 4000 yes 8-ch 8- yes yes 8 yes yes yes ...
Page 4
HCS08 CORE CPU INT BKGD BKP HCS08 SYSTEM CONTROL RESETS AND INTERRUPTS MODES OF OPERATION POWER MANAGEMENT COP IRQ LVD USER FLASH A (LH64 = 32,768 BYTES) (LH36 = 24,576 BYTES) USER FLASH B (LH64 = 32,768 BYTES) (LH36 = ...
Page 5
Pin Assignments This section shows the pin assignments for the This section shows the pin assignments for the MC9S08LH64 Series devices. PTE1/LCD14 PTE0/LCD13 PTD7/LCD7 PTD6/LCD6 PTD5/LCD5 PTD4/LCD4 PTD3/LCD3 PTD2/LCD2 PTD1/LCD1 PTD0/LCD0 V CAP1 V CAP2 V LL1 V LL2 ...
Page 6
PTE0/LCD13 1 LCD12 2 LCD11 3 LCD10 4 LCD9 5 LCD8 6 PTD7/LCD7 7 PTD6/LCD6 8 PTD5/LCD5 9 PTD4/LCD4 10 11 PTD3/LCD3 PTD2/LCD2 12 13 PTD1/LCD1 PTD0/LCD0 CAP1 V 16 CAP2 V 17 LL1 V 18 LL2 ...
Page 7
Table 2. Pin Availability by Package Pin-Count (continued Port Pin 9 5 PTD5 10 6 PTD4 11 7 PTD3 12 8 PTD2 13 9 PTD1 14 10 PTD0 CAP1 CAP2 17 13 ...
Page 8
Table 2. Pin Availability by Package Pin-Count (continued Port Pin 46 38 PTC7 47 39 PTA0 48 40 PTA1 49 41 PTA2 50 42 PTA3 51 43 PTA4 52 44 PTA5 LCD41 LCD40 55 ...
Page 9
Electrical Characteristics 3.1 Introduction This section contains electrical and timing specifications for the MC9S08LH64 Series of microcontrollers available at the time of publication. 3.2 Parameter Classification The electrical parameters shown in this supplement are guaranteed by various methods. To ...
Page 10
Thermal Characteristics Supply voltage Maximum current into V Digital input voltage Instantaneous maximum current Single pin limit (applies to all port pins) Storage temperature range 1 Input must be current limited to the value specified. To determine the value of ...
Page 11
Ambient temperature, ° θ = Package thermal resistance, junction-to-ambient, °C int I/O × Watts — chip internal power int Power ...
Page 12
DC Characteristics Table 6. ESD and Latch-up Test Conditions (continued) Minimum input voltage limit Latch-up Maximum input voltage limit Table 7. ESD and Latch-Up Protection Characteristics No. 1 Human body model (HBM) 2 Charge device model (CDM) 3 Latch-up current ...
Page 13
Num C Characteristic PTA[4:5], PTD[0:7], C low-drive strength Output low 6 P voltage PTA[4:5], PTD[0:7], high-drive strength C Output low 7 D Max total I current P Input high 8 all digital inputs voltage C P Input low 9 all ...
Page 14
DC Characteristics 1 Typical values are measured at 25°C. Characterized, not tested 2 All I/O pins except for LCD pins in Open Drain mode. 3 Total leakage current is the sum value for all GPIO pins. This leakage current is ...
Page 15
Figure 5. Typical Low-Side Driver (Sink) Characteristics (Non LCD Pins) Freescale Semiconductor PRELIMINARY-SUBJECT TO CHANGE WITHOUT NOTICE MC9S08LH64 Series MCU Data Sheet, Rev Characteristics Low Drive (PTxDSn = 0) — 15 ...
Page 16
DC Characteristics Figure 6. Typical Low-Side Driver (Sink) Characteristics(Non LCD Pins) 16 PRELIMINARY-SUBJECT TO CHANGE WITHOUT NOTICE MC9S08LH64 Series MCU Data Sheet, Rev. 4 High Drive (PTxDSn = 1) — Freescale Semiconductor ...
Page 17
Figure 7. Typical High-Side (Source) Characteristics (Non LCD Pins) Freescale Semiconductor PRELIMINARY-SUBJECT TO CHANGE WITHOUT NOTICE MC9S08LH64 Series MCU Data Sheet, Rev Characteristics Low Drive (PTxDSn = 0) — 17 ...
Page 18
DC Characteristics Figure 8. Typical High-Side (Source) Characteristics(Non LCD Pins) 18 PRELIMINARY-SUBJECT TO CHANGE WITHOUT NOTICE MC9S08LH64 Series MCU Data Sheet, Rev. 4 High Drive (PTxDSn = 1) — Freescale Semiconductor ...
Page 19
Figure 9. Typical Low-Side Driver (Sink) Characteristics (LCD/GPIO Pins) Freescale Semiconductor PRELIMINARY-SUBJECT TO CHANGE WITHOUT NOTICE MC9S08LH64 Series MCU Data Sheet, Rev Characteristics Low Drive (PTxDSn = 0) — 19 ...
Page 20
DC Characteristics Figure 10. Typical Low-Side Driver (Sink) Characteristics (LCD/GPIO Pins) 20 PRELIMINARY-SUBJECT TO CHANGE WITHOUT NOTICE MC9S08LH64 Series MCU Data Sheet, Rev. 4 High Drive (PTxDSn = 1) — Freescale Semiconductor ...
Page 21
Figure 11. Typical High-Side (Source) Characteristics (LCD/GPIO Pins) Freescale Semiconductor PRELIMINARY-SUBJECT TO CHANGE WITHOUT NOTICE MC9S08LH64 Series MCU Data Sheet, Rev Characteristics Low Drive (PTxDSn = 0) — 21 ...
Page 22
DC Characteristics Figure 12. Typical High-Side (Source) Characteristics (LCD/GPIO Pins) 22 PRELIMINARY-SUBJECT TO CHANGE WITHOUT NOTICE MC9S08LH64 Series MCU Data Sheet, Rev. 4 High Drive (PTxDSn = 1) — Freescale Semiconductor ...
Page 23
Supply Current Characteristics This section includes information about power supply current in various operating modes. Num C Parameter T Run supply current T 1 FEI mode, all modules Run supply current T 2 FEI mode, all ...
Page 24
Supply Current Characteristics Num C Parameter T LPO 1 T ERREFSTEN IREFSTEN 3 T TOD LVD ACMP ADC LCD 1 Not available in stop2 mode. ...
Page 25
External Oscillator (XOSCVLP) Characteristics Reference Figure 14 and Figure 15 Table 11. XOSCVLP and ICS Specifications (Temperature Range = –40 to 85°C Ambient) Num C Oscillator crystal or resonator (EREFS = 1, ERCLKEN = 1) Low range (RANGE = ...
Page 26
Internal Clock Source (ICS) 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 ...
Page 27
Table 12. ICS Frequency Specifications (Temperature Range = – °C Ambient) (continued) Num C Characteristic Total deviation of trimmed DCO output frequency over 9 C voltage and temperature Total deviation of trimmed DCO output frequency over fixed 10 ...
Page 28
AC Characteristics 3.10.1 Control Timing Num C Bus frequency (t = 1/f cyc ≤ 2. > 2. Internal low power oscillator period 3 D External reset pulse width 4 D Reset low ...
Page 29
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 the current ...
Page 30
AC Characteristics 3.10.3 SPI Timing Table 15 and Figure 21 through No. C Function Operating frequency — D Master Slave SPSCK period D Master 1 Slave Enable lead time D Master 2 Slave Enable lag time D Master 3 Slave ...
Page 31
SS (OUTPUT) 2 SPSCK (CPOL = 0) (OUTPUT) SPSCK (CPOL = 1) (OUTPUT MISO 2 MS BIN (INPUT) 9 MOSI MSB OUT (OUTPUT) NOTES output mode (DDS7 = 1, SSOE = 1). 2. LSBF = ...
Page 32
AC Characteristics SS (INPUT) SPSCK (CPOL = 0) (INPUT) 2 SPSCK (CPOL = 1) (INPUT) 7 MISO SLAVE MSB OUT (OUTPUT) 5 MOSI MSB IN (INPUT) NOTE: 1. Not defined but normally MSB of character just received. SS (INPUT) 2 ...
Page 33
Analog Comparator (ACMP) Electricals Table 16. Analog Comparator Electrical Specifications C Characteristic D Supply voltage P Supply current (active) D Analog input voltage P Analog input offset voltage C Analog comparator hysteresis P Analog input leakage current C Analog ...
Page 34
ADC Characteristics Charact Num Conditions eristic 16 bit modes f > 8MHz ADCK 9 4MHz < f ADCK f < 4MHz ADCK 13/12 bit modes f > 8MHz ADCK 10 Analog 4MHz < f ADCK Source f < 4MHz ADCK ...
Page 35
– For Differential Mode, this figure applies to both inputs Figure 25. ADC Input Impedance Equivalency Diagram Table 18. 16-bit ADC Characteristics full operating range(V Characteristic Conditions Supply Current ADLPC = 1, ADHSC ...
Page 36
ADC Characteristics Table 18. 16-bit ADC Characteristics full operating range(V Characteristic Conditions Total 16-bit differential mode Unadjusted 16-bit single-ended mode Error 13-bit differential mode 12-bit single-ended mode 11-bit differential mode 10-bit single-ended mode 9-bit differential mode 8-bit single-ended mode Differential ...
Page 37
Table 18. 16-bit ADC Characteristics full operating range(V Characteristic Conditions Full-Scale 16-bit differential mode Error 16-bit single-ended mode 13-bit differential mode 12-bit single-ended mode 11-bit differential mode 10-bit single-ended mode 9-bit differential mode 8-bit single-ended mode Quantization 16 bit modes ...
Page 38
ADC Characteristics 1 All accuracy numbers assume the ADC is calibrated with V 2 Typical values assume V = 3.0V, Temp = 25°C, f DDA only and are not tested in production LSB = ( ...
Page 39
Table 19. 16-bit ADC Characteristics(V Characteristic Conditions Full-Scale 16-bit differential mode Error 16-bit single-ended mode 13-bit differential mode 12-bit single-ended mode 11-bit differential mode 10-bit single-ended mode 9-bit differential mode 8-bit single-ended mode Quantization 16 bit modes Error <13 bit ...
Page 40
VREF Specifications 1 All accuracy numbers assume the ADC is calibrated with V 2 Typical values assume V = 3.0V, Temp = 25°C, f DDA only and are not tested in production LSB = ( ...
Page 41
Table 20. VREF Electrical Specifications (continued) Num Characteristic 21 RESERVED (Mode[1:0] 11) 3.14 LCD Specifications # C Characteristic 1 D LCD Supply Voltage 2 D LCD Frame Frequency 3 D LCD Charge Pump Capacitance 4 D LCD Bypass Capacitance 5 ...
Page 42
... The radiated emissions from the microcontroller are measured in a TEM cell in two package orientations (North and East). 4 Ordering Information This appendix contains ordering information for the device numbering system. Device Number MC9S08LH64 MC9S08LH36 1 See Table 1 for a complete description of modules included on each device. 2 See Table 24 for package information ...
Page 43
Status (MC = Fully Qualified) Memory (9 = Flash-based) Core Family 4.2 Package Information Pin Count Package Type 80 Low Quad Flat Package 64 Low Quad Flat Package 4.3 Mechanical Drawings Table 24 provides the available package types and their ...
Page 44
... Freescale sales representative. For information on Freescale’s Environmental Products program http://www.freescale.com/epp. Freescale™ and the Freescale logo are trademarks of Freescale Semiconductor, Inc. All other product or service names are the property of their respective owners. © Freescale Semiconductor, Inc. 2009-2010. All rights reserved. ...