Freescale Semiconductor DEMO9S08QG8UG
User Guide Rev. 0, 12/2006
© Freescale Semiconductor, Inc., 2006. All rights reserved.
_______________________________________________________________________
Application Module Student Learning Kit Users
Guide featuring the Freescale MC9S08QG8
For use with the following part numbers:
APS08QG8SLK
PBS08QG8SLK
CSM9S08QG8SLK
DEMO9S08QG8SLK
2 Freescale Semiconductor
CONTENTS
CAUTIONARY NOTES ...........................................................................................................................4
TERMINOLOGY......................................................................................................................................4
FEATURES................................................................................................................................................5
REFERENCES...........................................................................................................................................6
INTRODUCTION......................................................................................................................................7
GETTING STARTED...............................................................................................................................7
POWER.................................................................................................................................................. 7
POWER SELECT............................................................................................................................... 8
PWR_SEL........................................................................................................................................... 8
VX_EN ............................................................................................................................................... 8
RESET SWITCH ................................................................................................................................... 9
LOW VOLTAGE DETECT................................................................................................................... 9
STOP MODES....................................................................................................................................... 9
TIMING.................................................................................................................................................. 9
COMMUNICATIONS......................................................................................................................... 10
SCI PORT ........................................................................................................................................ 10
COM_EN ......................................................................................................................................... 10
COM CONNECTOR........................................................................................................................ 11
SPI PORT......................................................................................................................................... 12
IIC PORT......................................................................................................................................... 12
USER OPTIONS.................................................................................................................................. 12
PUSHBUTTON SWITCHES............................................................................................................ 12
LED INDICATORS.......................................................................................................................... 12
POTENTIOMETER ......................................................................................................................... 12
PHOTOCELL................................................................................................................................... 12
I/O PORT CONNECTOR.................................................................................................................... 13
OPERATING MODES ........................................................................................................................ 14
RUN MODE..................................................................................................................................... 14
DEBUG MODE ............................................................................................................................... 14
DEVELOPMENT SUPPORT ................................................................................................................16
SOFTWARE DEVELOPMENT.......................................................................................................... 16
MEMORY MAP................................................................................................................................ 16
INTEGRATED BDM_PORT .............................................................................................................. 16
BDM_PORT HEADER ....................................................................................................................... 17
Freescale Semiconductor 3
FIGURES
Figure 1: PWR_SEL Option Header ......................................................................................................8
Figure 2. VX_EN Option Header ...........................................................................................................9
Figure 3: OSC_EN Option Header .......................................................................................................10
Figure 4: COM Connector......................................................................................................................11
Figure 5: MCU I/O Port Connector .......................................................................................................13
Figure 6: BDM Port .................................................................................................................................17
TABLES
Table 1: COM_EN Option Header........................................................................................................11
Table 2: User Option Jumper Settings.................................................................................................13
Table 3: Run Mode Setup......................................................................................................................14
Table 4: Debug Mode Setup .................................................................................................................15
Table 5: Memory Map.............................................................................................................................16
REVISION
Date Rev Comments
December 14, 2005 0 Initial Release.
4 Freescale Semiconductor
CAUTIONARY NOTES
♦ Electrostatic Discharge (ESD) prevention measures should be used when handling this
product. ESD damage is not a warranty repair item.
♦ Axiom Manufacturing does not assume any liability arising out of the application or use of
any product or circuit described herein; neither does it convey any license under patent
rights or the rights of others.
♦ EMC Information on the APS08QG8SLK board:
a) This product, as shipped from the factory with associated power supplies and cables,
has been verified to meet with FCC requirements as a CLASS A product.
b) This product is designed and intended for use as a development platform for hardware
or software in an educational or professional laboratory.
c) In a domestic environment, this product may cause radio interference in which case the
user may be required to take adequate prevention measures.
d) Attaching additional wiring to this product or modifying the product operation from the
factory configuration may affect its performance and cause interference with other
apparatus in the immediate vicinity. If such interference is detected, suitable mitigating
measures should be taken.
TERMINOLOGY
This development board uses option selection jumpers. A jumper is a plastic shunt that
connects 2 terminals electrically. Terminology for application of the option jumpers is as
follows:
Jumper – a plastic shunt that connects 2 terminals electrically
Jumper on, in, or installed - jumper is installed such that 2 pins are connected together
Jumper off, out, or idle - jumper is installed on 1 pin only. It is recommended that
jumpers be idled by installing on 1 pin so they will not be lost.
Cut-Trace – a circuit trace connection between component pads. The circuit trace may
be cut using a razor knife to break the default connection. To reconnect the circuit,
simply install a suitably sized 0-ohm resistor or attach a wire across the pads.
Throughout this document, where used, the name APS08QG8SLK applies equally to the
APS08QG8SLK, CSM9S08QG8SLK, and PBS08QG8SLK.
Freescale Semiconductor 5
FEATURES
The APS08QG8SLK is an educational application module for the Freescale Semiconductor
MC9S08QG8 microcontroller. Development of applications is quick and easy with the
integrated USB-BDM, sample software tools, and examples. An optional BDM_PORT port is
also provided to allow use of a BDM_PORT cable. A 32-pin connector allows connecting the
APS08QG8SLK board to an expanded evaluation environment.
• MC9S08QG8 CPU, 16-pin DIP, Socketed
• 8K Byte Flash
• 512 Bytes RAM
• Internal 32 kHz Oscillator, trimmable to ±0.2%
• 12 GPIO, 1 Input Only, 1 Output only
• Timer Interface Module
• SCI and SPI Communication Ports
• IIC Module
• 8 KBI inputs
• 2-Ch, 16-bit, Timer Interface
• 8-Ch, 10-bit Analog to Digital Converter (ATD)
• Analog Comparator w/ internal compare
• Integrated USB-BDM
• RS-232 Serial Port w/ DB9 Connector
• SPI, IIC ports available on Connector J1
• External 32.768 kHz Clock Oscillator (not
installed)
• Power Input Selection Jumper
• Power input from USB-BDM
• Power input from on-board regulator
• Power input from Connector J1
• Power output through Connector J1
• User Components Provided
• 3 Push Switches; 2 User, 1 Reset
• 3 LED Indicators; 2 User, 1 VDD
• Jumpers
• USER_EN
• PWR_SEL
• COM_SEL
• VX_EN
• OSC_EN (not installed)
• Connectors
• 32-pin MCU I/O Connector
• 2.0mm Barrel Connector
• BDM_PORT Pin Header (not installed)
• DB9 Serial Connector
• Specifications:
• Board Size 2.9” x 2.5”
• Power Input:
• USB Cable – 500mA max
• PWR Connector - 9VDC typical, +7VDC to +18VDC
6 Freescale Semiconductor
REFERENCES
Reference documents are provided on the support CD in Acrobat Reader format. More
information can be found in the Application Notes section of the Freescale Web site.
APS08QG8SLKUG.pdf APS08QG8SLK User Guide (this document)
HCS08QG8SCHEMSLKREVC.pdf APS08QG8SLK Board Schematic, Rev. C
DEMO9S08QG8QSG.pdf Quick Start Guide for Demonstration application
DEMO9S08QG8TEST.zip CodeWarrior demonstration application software
DEMO9S08QG8_APP.pdf Test Application User Guide
DEMO9S08QG8APP.zip CodeWarrior LED demonstration application software
AN2627.pdf Cycle-by-Cycle Instruction Details for HC(S)08 MCU’s
Visit www.freescale.com\universityprogram for current product information, reference materials
and updates.
Freescale Semiconductor 7
INTRODUCTION
Before using this module, the user should be familiar with the hardware and software operation
of the target MCU. Refer to the MC9S08QG8 User Manual and MC9S08QG8 Reference
Manual for details on MCU operation. The module’s purpose is to promote the features of the
MC9S08QG8 and to assist the user in quickly developing an application in a known working
environment. Users should be familiar with memory mapping, memory types, and embedded
software design for quick, successful, application development.
The APS08QG8SLK application module is a fully assembled, fully functional module
supporting Freescale MC9S08QG8 microcontroller for educational use. The module comes
with a integrated USB Background Debug Mode (BDM), and USB cable for stand-alone
operation. Support software for this module is provided for Windows 95/98/NT/2000/XP
operating systems.
GETTING STARTED
To get started quickly, please refer to the DEMO9S08QG8 Quick Start Guide included with the
development kit. This quick start shows how to connect the board to the PC, run an LED test
program, install the correct version of CodeWarrior Development Studio, and load an Analog to
Digital (ATD) test program using CodeWarrior.
OPERATION
POWER
The APS08QG8SLK is designed to be powered from the USB_BDM during application
development. A 2.0mm barrel connector has been applied to support stand-alone operation.
In addition, the board may be powered through connector J1. The board may also be
configured to supply power through connector J1 to external circuitry.
When using the integrated USB-BDM, the board draws power from the USB bus. Total
current consumption of the board and connected circuitry, therefore, must be limited to less
than 500mA. Excessive current drain will violate the USB specification causing the USB bus
to disconnect. This will force a power-on-reset (POR).
CAUTION: Violating the USB specification will cause the USB bus to disconnect, forcing the
target to reset.
A 2.0mm barrel connector input has been provided to allow stand-alone operation. Voltage
input at this connector must be limited to between +5V and +18V. An LDO voltage regulator at
VR1 converts the input voltage to the +3.3V rail on the target board. VR1 will shut down if the
connected circuit draws excessive current. Stand-alone operation is also supported through
connector J1.
8 Freescale Semiconductor
POWER SELECT
Power may be applied to the board through the integrated USB-BDM circuitry, a 2.0mm barrel
connector, or through connector J1. Power selection is achieved by using 2 option headers:
PWR_SEL option header and the VX_EN option header.
The PWR_SEL option header selects power input either from the integrated USB-BDM
circuitry or from the on-board voltage regulator. Power input selection, from the USB-BDM or
the on-board power supply, is mutually exclusive. This prevents power-input contention from
damaging the board. The figure below details the PWR_SEL header connections.
PWR_SEL
Figure 1: PWR_SEL Option Header
PWR_SEL CONFIGURATION:
VB VDD
▪ ▪ ▪ Select power input from USB-BDM
PWR_SEL
VB VDD
▪ ▪ ▪ Select power input from VR1
Power from the integrated BDM is drawn from the USB bus and is limited to 500mA.
Excessive current drain will violate the USB specification will cause the USB bus to disconnect.
CAUTION: Violating the USB specification will cause the USB bus to disconnect. This will
cause the board to reset.
The on-board voltage regulator (VR1) accepts power input through a 2.0mm barrel connector
(PWR). Input voltage may range from +5V to +18V. The voltage regulator (VR1) provides a
+3.3V fixed output limited to 250mA. Over-temperature and over-current limits built into the
voltage regulator protects the device from excessive stresses.
The user should consider the maximum output current limit of the selected power source when
attempting to power off-board circuitry through connector J1.
VX_EN
The VX_EN option header is a 2-pin jumper that connects the target board voltage rail to J1-1.
J1-3 is connected directly to the ground plane. Use of this feature requires a regulated +3.3V
input power source. This power input is decoupled to minimize noise input but is not
regulated. Care should be exercised when using this feature; no protection is applied on this
input and damage to the target board may result if over-driven. Also, do not attempt to power
the target board through this connector while also applying power through the USB-BDM or the
PWR connector; damage to the board may result.
Freescale Semiconductor 9
Power may be sourced to off-board circuitry through the J1 connector. The current limitation of
the USB bus or the on-board regulator must be considered when attempting to source power
to external circuitry. Excessive current drain may damage the target board, the host PC USB
hub, or the on-board regulator. The figure below details the VX_EN option header
connections.
Figure 2. VX_EN Option Header
ON
Enable power connection to connector J1
VX_EN
▪ ▪ OFF
Disable power connection to connector J1
VX_EN
CAUTION: Do not apply power to connector J1 while also sourcing power from either the PWR
connector or the USB-BDM circuit. Damage to the board may result.
NOTE: Do not exceed available current supply from the USB-BDM cable or on-board regulator
when sourcing power through connector J1 to external circuitry.
RESET SWITCH
The RESET switch provides a method to apply an asynchronous reset to the MCU and is
connected directly to the PTA5/RESET* input on the MCU. Pressing the RESET switch forces
the MCU RESET* input low. The MC9S08QG8 MCU applies an internal pull-up on the
RESET* line to prevent spurious resets and allow normal operation.
LOW VOLTAGE DETECT
The MC9S08QG8 utilizes an internal Low Voltage Detect (LVD) to protect against under-
voltage conditions. The LVD is enabled out of RESET. Consult the MC9S08QG8 Device User
Guide for details on configuring LVD operation.
STOP MODES
The MC9S08QG8 can be configured for three different low power stop modes. If stop1 or
stop2 modes are entered, an external pull-up resistor must be placed between the
PTA5/RESET*/IRQ*/TCLK pin and VDD. This pull-up resistor is not included on the
APS08QG8SLK board. If these modes will be used with this board, a 10K – 50K ohm resistor
can be placed between pins J1-1 and J1-2 to ensure proper operation of the MCU. The
jumper for the VX_EN header must also be in place in this case. Consult the MC9S08QG8
Device User Guide for more details on configuring the low power stop modes.
TIMING
By default, the APS08QG8SLK uses timing provided from an internal 32 kHz frequency
reference and an internal frequency-locked loop (FLL). The FLL output is trimmable to ± 0.2%
10 Freescale Semiconductor
of nominal. Refer to the MC9S08QG8 Device User Guide for further details on clock
operation.
Component pads for an optional 32.768 kHz crystal oscillator circuit have also been provided
to support external timing input. The external crystal is connected to the PTB6/XTAL and
PTB7/EXTAL MCU inputs. This alternate timing source is configured for Pierce mode
operation.
The alternate timing source components are not installed in default configurations. Refer to
the board schematic to populate this option and associated support components.
Figure 3: OSC_EN Option Header
▪ ▪ ON
Enables Crystal Oscillator Input to MCU
OSC_EN
▪ ▪ OFF
Disables Crystal Oscillator Input to MCU
OSC_EN
NOTE: This option header is not installed in default configuration.
COMMUNICATIONS
The APS08QG8SLK board provides a Serial Communications Interface (SCI) port, a Serial
Peripheral Interface (SPI) port, and an Inter-Integrated Controller (IIC) port. RS-232
communications are supported through a DB9 connector. SPI and IIC communications are
supported through connector J1. The COM_EN option header enables SCI operation on the
board.
SCI Port
An RS-232 transceiver provides RS-232 to TTL/CMOS logic level translation between the
COM connector and the MCU. The COM connector is a 9-pin Dsub, right-angle connector. A
ferrite bead on shield ground provides conducted immunity protection. Communication signals
TXD and RXD are routed from the transceiver to the MCU. These signals are also available
on connector J1. Hardware flow control signals RTS and CTS are available on the logic side
of U3 and are routed to test point vias located near the transceiver (U4). RTS has been biased
properly to provide handshaking if required.
Communications signals TXD and RXD connect to general purpose Port B signals. The RS-
232 transceiver should be disabled via the COM_EN option header if these signals are used
as GPIO. The transceiver should also be disabled if the TXD and RXD signal inputs at
connector J1 are used.
COM_EN
The COM_EN option header determines the operational status of the RS-232 transceiver. In
the OFF position, the transceiver is disabled and all outputs are tri-stated. In the PTA4
position, the transceiver may be turned on or off using MCU GPIO signal PTA4. With the
Freescale Semiconductor 11
option jumper removed, the transceiver is always on. When the transceiver is ON, the
AutoShutoff feature of the device is disabled.
Table 1: COM_EN Option Header
OFF
PTA4
▪ ▪ ▪ MCU controls RS-232 Transceiver
COM_EN
OFF
PTA4
▪ ▪ ▪ RS-232 Transceiver disabled
COM_EN
OFF
PTA4
▪ ▪ ▪ RS-232 Transceiver always ON. AutoShutoff disabled
COM_EN
COM Connector
A standard 9-pin Dsub connector provides external connections for the SCI port. The Dsub
shell is connected to board ground through a ferrite bead. The ferrite bead provides noise
isolation on the RS-232 connection. The DB9 connector pin-out is shown below.
Figure 4: COM Connector
4, 6 1
6 1, 4
TXD 2
7 RTS
RXD 3
8 CTS
1, 6 4
9 NC
GND 5
Female DB9 connector that interfaces to the HC(S)08 internal SCI1 serial
port via the U2 RS232 transceiver. It provides simple 2-wire
asynchronous serial communications without flow control. Flow control is
provided at test points on the board.
Pins 1, 4, and 6 are connected together.
12 Freescale Semiconductor
SPI Port
SPI signaling connects directly between connector J1 and the MCU. Refer to the
MC9S08QG8 Device User Guide for details on using the SPI interface.
IIC Port
IIC signaling connects directly between connector J1 and the MCU. Refer to the MC9S08QG8
Device User Guide for details on using the IIC interface.
USER OPTIONS
The APS08QG8SLK includes various input and output devices to aid application development.
User I/O devices include 2 momentary pushbutton switches, 2 green LEDs, 1 potentiometer,
and 1 phototransistor. Each device may be enabled or disabled individually by the USER_EN
option header. Each user enable is clearly marked as to functionality.
Pushbutton Switches
Two push button switches provide momentary, active-low input, for user applications. Pull-ups
internal to the MCU must be enabled to provide error free switch operation. Pushbutton
switches SW1 and SW2 are enabled to the MCU I/O ports by the USER option bank. SW1
and SW2 connect to input ports PTA2 and PTA3 respectively. Table 2 below details the user
jumper settings.
LED Indicators
Indicators LED1 and LED2 are enabled from HC(S)08 I/O ports by the USER option bank.
Each LED is active-low and illuminates when a logic low signal is driven from the respective
MCU I/O port. MCU ports PTB6 and PTB7 drive LED1 and LED2 respectively. Table 2 below
details the user jumper settings.
Potentiometer
A 5k ohm, thumb-wheel type, potentiometer at RV1 provides variable resistance input for user
applications. The output is the result of a voltage divider that changes as the thumb-wheel is
turned. The potentiometer is connected between VDD and GND with the center tap providing
the divider output. This center tap is connected to the MCU on signal PTA0. Table 2 below
details the user jumper settings.
Photocell
A surface-mount phototransistor provides light sensitive, variable input for user applications.
Current flow within the phototransistor is inversely proportional to light intensity incident on the
surface of the device. A rail-to-rail OP amp at U2 boosts the photocell output to useable
levels. This signal is available to the MCU on signal PTA1. Table 2 below details the user
jumper settings.
Freescale Semiconductor 13
Table 2: User Option Jumper Settings
Jumper On Off MCU PORT MCU PIN
SW1 Enable SW1 Disable SW1 PTA2 14
SW2 Enable SW2 Disable SW2 PTA3 13
LED1 Enable LED1 Disable LED1 PTB6 6
LED2 Enable LED2 Disable LED2 PTB7 5
RV1 Enable RV1 Disable RV1 PTA0 16
RZ1 Enable RZ1 Disable RZ1 PTA1 15
I/O PORT CONNECTOR
This port connector provides access to APS08QG8SLK I/O signals. Signal positions not
shown listed are not connected on the board.
Figure 5: MCU I/O Port Connector
VDD 1 2 PTA5/RESET*/IRQ*/TCLK
VSS 3 4 PTA5/ RESET*/IRQ*/TCLK
PTB1/KBI1P5/ADC1P5/TXD1 5 6 PTA4/BKGD/MS/ACMP10
PTB0/KBI1P4/ADC1P4/RXD1 7 8 PTB7/SCL1/EXTAL
PTA2/KBI1P2/ADC1P2/SDA1 9 10 PTB6/SDA1/XTAL
PTA3/KBI1P3/ADC1P3/SCL1 11 12
PTA5/ RESET*/IRQ*/TCLK 13 14
PTA0/KBI1P0/ADC1P0/TPM1CH0/AMCP+ 15 16
PTB3/KBI1P7/ADC1P7/MOSI1 17 18 PTA1/KBI1P1/ADC1P1/ACMP1-
PTB4/MISO1 19 20 PTA0/KBI1P0/ADC1P0/TPM1CH0/AMCP+
PTB2/KBI1P6/ADC1P6/SPSCK1 21 22
PTB5/TPM1CH1/SS1 23 24
PTA1/KBI1P1/ADC1P1/ACMP1- 25 26
PTB6/SDA1/XTAL 27 28
PTB7/SCL1/EXTAL 29 30
PTA4/BKGD/MS/ACMP10 31 32
14 Freescale Semiconductor
OPERATING MODES
The APS08QG8SLK board operates in two basic modes Run Mode, or Debug Mode. Run
Mode supports user application operation from Power-On or Reset. Debug Mode supports the
development and debug of applications via the BDM_PORT. See the related sections below
for quickly starting the board in the desired mode of operation.
The board has been preloaded with a demonstration program that operates in the Run Mode.
The VDD LED is lit when power is applied to the board and the PWR_SEL option header is set
correctly.
RUN Mode
Run mode allows the user application to execute when power is applied to the board or the
RESET button is pressed. Use the following settings to configure the APS08QG8SLK board
for RUN Mode using the USB bus to power the board. See the POWER section below for
details on configuring the board for alternate power input.
1. Connect a serial cable (not included) between the board and a host PC if needed.
2. Connect auxiliary equipment to board if needed.
3. Configure the board option jumpers as shown.
Table 3: Run Mode Setup
PWR_SEL Set to VB
COM_EN Set to PTA4
VX_EN ON if required
USER_EN ALL ON
4. Connect the USB cable to an open USB port on the host PC and attach to the USB port on
the target board. The USB, USB_PWR, and VDD LEDs will light and the loaded
application will begin to execute.
Debug Mode
Debug Mode supports application development and debug using the HCS08/HC(S)12
background debug mode (BDM). Background mode is accessible using either the integrated
USB-BDM or an external HCS08/HC(S)12 BDM cable. Use of the integrated BDM requires
only a host PC with an available USB port and an A/B USB cable. The USB cable used must
be USB 2.0 compliant. A 6-pin BDM_PORT header supports the use of an external BDM
cable. This header is not installed in default configurations. The steps below describe using
the integrated USB-BDM. See the POWER section below for details on configuring the board
for alternate power input.
1. Connect a serial cable (not included) between the board and a host PC if needed.
Freescale Semiconductor 15
2. Connect auxiliary equipment to board if needed.
3. Install and launch CodeWarrior Development Studio for HC(S)08, P&E PKGHCS08, or
other software capable of communicating with the HCS08 MCU.
4. Configure the board option jumpers as shown.
Table 4: Debug Mode Setup
PWR_SEL Set to VB
COM_EN Set to PTA4
VX_EN ON If Required
USER_EN ON if Required
5. Connect the supplied USB cable between an available USB port on the host PC and the
USB connector on the board.
6. Hosting development software will establish background communication.
Application development and debug for the target MC9S08QG8 is supported through the BDM
interface. The debug interface consists of an integrated USB-BDM debugger and an optional
6-pin header (BDM_PORT). The BDM_PORT header is not installed in default configuration
and may be installed by the user if needed.
16 Freescale Semiconductor
DEVELOPMENT SUPPORT
SOFTWARE DEVELOPMENT
Software development requires the use of an HCS08 assembler or compiler and a host PC
running a BDM interface. CodeWarrior Development Studio for HC(S)08 is supplied with this
board for debugging and flash programming.
MEMORY MAP
The table below shows the MC9S08QG8 memory map. Attempting to access unimplemented
memory locations will cause an illegal-address reset. The memory map is grouped into 3
broad categories; Registers, RAM, and Flash. In the memory map below, the non-volatile
registers and vector table are located at the top of the Flash block.
Table 5: Memory Map
0x0000 –
0x005F
Direct Page Registers
96
bytes
0x0060 –
0x025F
RAM 512
bytes
0x0260 –
0x17FF
Unimplemented 5,536
bytes
0x 1800 –
0x184F
High Page Registers 80
bytes
0x1850 –
0xDFFF
Unimplemented 51,120
bytes
0xE000 –
0xFFAF
FLASH
0xFFB0 –
0xFBFF
Non-Volatile Registers
0xFC00 –
0xFFFF
Vectors
8192
bytes
NOTE: Accessing unimplemented memory locations causes an illegal-address reset.
Integrated BDM_PORT
The APS08QG8SLK board features an integrated USB-BDM debugger from P&E
Microcomputer Systems. The integrated debugger supports application development and
debugging via the background debug mode. A USB, type B, connector provides connectivity
between the target board to the host PC.
The integrated debugger provides power and ground to the target, thereby eliminating the
need to power the board externally. When used, power from the USB-BDM circuit is derived
Freescale Semiconductor 17
from the USB bus; therefore, total current consumption for the target board, and all connected
circuitry, must not exceed 500mA. Excessive current drain will violate the USB specification
causing the USB bus to disconnect; power is removed from the target forcing a POR.
CAUTION: Violating the USB specification will cause the USB bus to disconnect forcing the
target to reset.
BDM_PORT Header
An HCS08/HC(S)12 BDM cable may be attached to a 6-pin BDM_PORT port header.
However, this header is not installed in default configuration. Use of this port requires the user
to install a 2x3, 0.1” center, pin header. Refer to the BDM cable documentation for details on
the use of the BDM cable. The BDM_PORT header pin-out is shown below.
Figure 6: BDM Port
PTA4/ BKGD 1 2 GND
3 4 PTA5/RESET*
5 6 VDD
See the HCS08 Device User Guide for
complete BDM_PORT documentation
NOTE: This header is not installed in default configuration.
Document Number: XX0000
Rev. X
09/2005
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