8-bit Microcontrollers
MC9S08LC60/36
Target Applications
Overview
Continuing the commitment to the S08
family, Freescale introduces the first S08
with LCD driver. The MC9S08LC60/36 provides
design flexibility with a large segment-based
(4 x 40) driver and an integrated charge pump
for true system-on-chip. Dual flash blocks
allow enhanced EEPROM emulation, saving
board space and cost.
Package Options
MC9S08LC60 BLOCK DIAGRAM
• Battery operated
• Portable health
• Thermostats
• Alarms/clocks
• Exercise equipment
• Personal
MC9S08LC60LK
MC9S08LC60LH
MC9S08LC36LK
MC9S08LC36LH
Part Number
hand-held devices
care devices
diagnostics
60 KB
Up to
Up to
Flash
BDM
4 KB
RAM
Core
S08
ICE
+
4 X 40 Segment-Based LCD
with Internal Charge Pump
2 X SPI
Package
80LQFP
64LQFP
80LQFP
64LQFP
COP
POR
SCI
KBI
RTI
I
2
C
• Calculators
• Low-end utility
• ZigBee™ nodes
• Scrolling text
• Small appliances
metering
with display
displays
-40° C to +85° C
-40° C to +85° C
-40° C to +85° C
-40° C to +85° C
20 MHz bus)
Temp. Range
2 x 2-ch.,
(Up to
ACMP
16-bit
12-bit
TPMs
8-ch.,
ADC
ICG
Features
S08 Central Processor Unit (CPU)
• 40 MHz (20 MHz bus) at >2.1V operation for
LCD Driver and Internal Charge Pump
• Integrated LCD driver supports both standard
• Configurable display for 4 x 40 or 3 x 41
• Automatic blink and refresh
• Internal charge pump
• Capable of running in STOP3 mode
Flash Memory
• In-application re-programmability
• Dual flash block for enhanced EEPROM
Clock Source Options
• Internal clock generator (ICG) module
Serial Communication Ports
• Serial communications interface (SCI) module
• Serial peripheral interface (SPI) module
50 ns minimum instruction time and 16 MHz (8
MHz bus) frequency at <2.1V
3V and 5V LCD glass
segment display
emulation
containing a frequency-locked loop (FLL),
controlled by internal or external reference
offering asynchronous communications
Full-duplex, 3-wire synchronous transfer
Maximum bit rate of 5 MHz for 10 MHz bus
frequency
Benefits
• Offering high performance, even at low
• Gives end customer flexibility in selecting
• Does not require expensive “chip-on-glass”
• Up to 16 alpha-numeric display, perfect for
• Allows high mix of numbers, text, icons, etc
• Implements common display uses, while
• Provides option to run off single supply, dual
• Capable of driving display while the micro
• Provides users a single silicon solution for
• Allows field re-programmability and
• Reduce system cost and required board
• Dual block allows continued execution of
• Can eliminate the cost of all external clock
• Provides standard UART communications
• Seamless interface to ZigBee and other RF
• Cost-effective serial peripheral expansion
• High-speed synchronous communication
voltage levels for portable applications
ideal glass for application with respect to
display quality, cost and power
display
scrolling text with simple display
reducing code complexity, leaving more code
space for application code
supply for sustained contrast or customized
implementation of contrast control
sleeps, lowering overall system power
consumption
multiple platforms
upgradeability to future-proof designs
space by removing extraneous EEPROM
code out of one block while writing to/erasing
in the other
components, reduce board space and
increase system reliability
peripheral
radios for networked applications
for applications, including EEPROM, high-
precision analog-to-digital (ADC) and digital-
to-analog converters (DAC)
between multiple MCUs or between MCU and
serial peripherals