MC68HC(7)11 EEPROM Programming Tool User’s Guide · 2018. 3. 24. · Also, HC11-Programmer...
Transcript of MC68HC(7)11 EEPROM Programming Tool User’s Guide · 2018. 3. 24. · Also, HC11-Programmer...
-
Engineering Technical Laboratory Rev. 3
MC68HC(7)11 EEPROM Programming Tool
User’s Guide
© ETL 2010 Microcontroller Development Tool
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 2
TABLE OF CONTENTS
1. PREFACE.......................................................................................................................................3
2. CHECKLIST AND REQUIREMENTS.........................................................................................3
3. INSTALLATION AND USE .........................................................................................................5
3.1 PROGRAMMER CHECK AND CONNECTION TO PC.......................................................6
3.2 PROGRAMMER FIRMWARE UPDATE...............................................................................6
4. INTERFACE TYPES .....................................................................................................................7
4.1 IN-CIRCUIT PROGRAMMING .............................................................................................7
4.2 ON-BOARD PROGRAMMING..............................................................................................7
5. WORKING WITH TARGET MCU...............................................................................................8
5.1 MC68HC(7)11 Devices ............................................................................................................8
5.1.1 In-Circuit EEPROM/(EP)ROM/BootROM reading example............................................8
5.1.2 In-Circuit EEPROM programming example .....................................................................9
5.1.3 On-Board EEPROM/(EP)ROM/BootROM reading example ...........................................9
5.1.4 On-Board EEPROM programming example ...................................................................10
6. FILE OPERATIONS ....................................................................................................................11
6.1 LOAD FILE INTO BUFFER .................................................................................................11
6.2 SAVE FILE FROM BUFFER ................................................................................................11
7. ERRORS AND TROUBLESHOOTING .....................................................................................12
8. WARRANTY STATEMENT.......................................................................................................15
9. APPENDIX 1................................................................................................................................16
Figure 2. In-Circuit programming schematic diagram for MC68HC(7)11 MCU ………………...16 Figure 3. In-Cicuit wiring diagram for 68HC(7)11 E Series MCU, PLCC 52 Package ………….17 Figure 4. In-Circuit wiring diagram for 68HC(7)11E Series MCU, QFP64 Package ……………18 Figure 5. In-Circuit wiring diagram for 68HC(7)11E Series MCU, SDIP56 Package................ …19 Figure 6. In-Circuit wiring diagram for 68HC(7)11EA9 MCU, PLCC 52 Package ....................... 20 Figure 7. In-Circuit wiring diagram for 68HC11A8 MCU, PLCC 52 Package .............................. 21 Figure 8. In-Circuit wiring diagram for 68HC(7)11K Series MCU, PLCC 84 Package................. 22 Figure 9. In-Circuit wiring diagram for 68HC(7)11K Series MCU, LQFP80 Package .................. 23 Figure 10. In-Circuit wiring diagram for 68HC11F1 MCU, PLCC68 Package.............................. 24 Figure 11. In-Circuit wiring diagram for 68HC(7)11KA Series MCU, PLCC 68 Package............ 25 Figure 12. In-Circuit wiring diagram for 68HC(7)11KS Series MCU, PLCC 68 Package............. 26 Figure 13. In-Circuit wiring diagram for 68HC(7)11PH8 MCU, PLCC84 Package ...................... 27 Figure 14. In-Circuit wiring diagram for 68HC(7)11P2 MCU, PLCC84 Package ......................... 28 Figure 15. In-Circuit wiring diagram for 68HC(7)11L6 MCU, PLCC68 Package ……………... 29 Figure 16. In-Circuit wiring diagram for 68HC11A8 MCU, DIP48 Package …...……………….30 10. APPENDIX 2 …………………………………………………………………………………31
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 3
1. PREFACE
This manual will guide you through the installation and operation of the ETL
MC68HC(7)11 Programmer, referenced hereafter as the HC11-Programmer. The HC11-Programmer has been designed for reading of EEPROM, (EP)ROM, BootROM
contents and programming of EEPROM of the next Motorola Microcontroller Unit (MCU):
MC68HC11 A8 (AB95T)* MC68HC711 E20 (1H19S) MC68HC11 A8 (C96N) MC68HC711 E9 (4K81H) MC68HC11 A8 (D26E) MC68HC711 E9 (5C47M) MC68HC11 A8 (C11W) MC68HC711 EA9 (0D46J) MC68HC11 E20 (3E22B) MC68HC711 K4 (K59D) MC68HC11 E9 (1B60R) MC68HC711 PH8 (0H30R) MC68HC11 E9 (D82R) MC68S711 E9 (5C47M) MC68HC11 E9 (E22B) XC68HC711 KS8 (1H96P) MC68HC11 E9 (E28B) XC68HC711 P2 (1E53M) MC68HC11 E9 (1D35E) MC68HC11 L6 (0F11N) MC68HC11 EA9 (2D47J) MC68HC11 F1 (2F37E) MC68HC11 F1 (E87J) MC68HC11 K1 (2D58N) MC68HC11 K4 (1E62H) MC68HC11 K4 (OE75J) MC68HC11 KA4 (1E59B) MC68HC11 KS2 (0H95B) MC68HC11 KS4 (0E57S) MC68HC11 KS4 (0F60M) MC68HC11 P2 (2E74J)
* Package: 52-PLCC; 48-DIP
Note: Most number of devices can be programmed in two operating modes In-Circuit and On-Board.
Note: Devices that not mentioned above in list can’t be guaranteed of correct reading, programming by HC11-Programmer.
2. CHECKLIST AND REQUIREMENTS
The following describes what items are supplied with the HC11-Programmer and the system requirements if used by a PC.
HC11-Programmer – supplied One 11 EA9 PLCC52 Adaptor – supplied One 11 E PLCC52 Adaptor – supplied One 11 E QFP64 Adaptor – supplied One 11 K PLCC84 Adaptor – supplied One 11 K QFP80 Adaptors – supplied One 11 KA/KS PLCC68 Adaptor – supplied One 11 F PLCC68 Adaptor – supplied
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 4
One 11 L6 PLCC68 Adaptor – supplied One 11 PH PLCC84 Adaptor – supplied One 11 A8 DIP48 Adaptor – supplied One 40-40 pin flat cable Cable -A DB9 “straight-thru” cable - supplied HC11-Programmer PC software on CD-ROM – Optional Extra
Desktop PC and a free Serial Communication Port (COM1...8) Memory - Minimum 32 Mbytes Display - Color SVGA display recommended Power supply 12 Volt/500 mA linear power supply source OS-MS-Windows (Win98, Win ME, Win2000/XP/2003)
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 5
3. INSTALLATION AND USE
The HC11-Programmer includes two LED’s and mode jumper (Figure 1). LED’s indicates programmer state and external power supply voltage (Table 1, 2).
GREEN HC11-Programmer is ready.
GREEN Flashing HC11-Programmer is busy. DARK Voltage applied to HC11-Programmer lower than 6 Volt.
Table 1. LED D1 color meaning
GREEN Target MCU powered on. All bus signals are active. DARK Target microcontroller powered off. All bus signals are in three-state.
Table 2. LED D4 color meaning
Jumper-1 (JP1) is intended for HC11-Programmer mode selection (see Table 3).
JP1 Shorted Normal programmer operation. JP1 Opened Service mode. HC11-Programmer firmware update.
Table 3. HC11-Programmer operation modes
D1
D4
JP1
EXT +12V
CO
M P
ort C
onne
ctor
In-CircuitInterfaceConnector
On-BoardInterfaceConnector
4 MHZOutputConnectorP3
P2
P4
P1
68HC(7)11P RxDRESETMODA
GND
TxDGNDMODB+5V
Figure 1. The HC11-Programmer board layout
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 6
3.1 PROGRAMMER CHECK AND CONNECTION TO PC
Connect the power supply source to HC11-Programmer (an external 12 V DC power
supply source is required). Attach a COM port cable to the 9-pin connector on the programmer and to a COM port
on the PC. Insert jumper JP1 (see Figure 1). Remove adaptor from P4 and flat cable form P2. Turn On power supply source and make sure that LED D1 appear green. Start HC11-Programmer software. After few seconds you should see on display message: “MC68H(7)11 Programmer Ver-
X.X detected”. In case when you should see message: “MC68H(7)11 Programmer Ver-X.X not
found”, change COM port number. To do that select “Tools” menu item and than select “Comm Port Options”. Select new COM port number. After pressing “OK” button the new setting will be applied and software reattempts connection with programmer.
Now HC11-Programmer ready to operate.
Note: To speed up connection between HC11-Programmer and PC communication port baud rate must be set to maximum value.
Note: Update HC11-Programmer firmware if required (see Section 3.2).
3.2 PROGRAMMER FIRMWARE UPDATE
This section describes how to update firmware (ATMEGA16) of HC11-Programmer. Remove JP1 (see Figure 1). Turn On power supply; make sure that LED D1 appears green. Start HC11-Programmer software. Compare firmware version “MC68HC(7)11 Programmer Ver-X.X detected” and
version specified in “Help>About” menu item. If versions not coincide, follow next steps to update firmware. Select menu item “Tools>Firmware Update”. After message box “Firmware Update” appeared, press “OK” button. After firmware update completed, turn Off power supply, close HC11-Programmer
software. Insert JP1. Turn On power supply. Make sure that LED D1 appears green. Start HC11-Programmer software on PC. New firmware version “MC68HC(7)11
Programmer Ver-X.X detected” will appear.
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 7
4. INTERFACE TYPES
This section describes two interfaces, In-Circuit Programming (ICP) and On-Board
Programming (OBP) of HC11-Programmer.
4.1 IN-CIRCUIT PROGRAMMING
In-Circuit programming interface is basic for HC11-Programmer. In this mode HC11-Programmer automatically detect of target MCU bus speed. Ceramic resonator connected to target MCU must be in range from 400 KHz to 16 MHz. If device has PLL system, it must be disabled by connecting VDDSYN pin to ground (see Appendix, figure 2). For successive communication with target MCU only 4 wires (RxD, TxD, RESET and GND) required. But in this case target MCU must be powered from external power supply and mode pins MODA, MODB should be connected to GND. If this signals MODA, MODB and +5V taken from HC11-Programmer that allow to control logic levels in time on reset and overload on +5V power line. It is strongly recommended to supply MCU pins MODA, MODB and +5V from programmer.
Also, HC11-Programmer performs pin testing of TxD and RxD lines. This feature can be disabled in Options Tab->Ignore Pin Tester errors in ICP mode.
In this mode programmer can't detect security state of MCU. So, if device secured all EEPROM contents will be lost. To avoid loss of EEPROM data use On-Board Programming Interface described in next section.
Note: When using In-Circuit programming interface remove adaptor from On-Board interface connector. (see Figure 1).
4.2 ON-BOARD PROGRAMMING
On-board programming interface designed for establishing connection with target device when
MCU secured. This mode allows Read/Program EEPROM without any restrictions. To work in this mode MCU must be mounted to the corresponding adaptor supplied with HC11-Programmer.
Also, HC11-Programmer performs pin testing of all communication lines. This feature can be disabled in Options Tab->Ignore Pin Tester errors in OBP mode. But disabling of this future can lead to all EEPROM contents will be lost.
Note: When target adaptor with MCU mounted, check contacts careful to avoid short circuit. Otherwise target MCU can be damaged!
Note: When On-board programming interface used, remove cable from ICP connector (see Figure 1).
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 8
5. WORKING WITH TARGET MCU This section contains overall information about Motorola MCUs supported by HC11-
Programmer. When HC11-Programmer successfully installed (see Section 3) target devices EEPROM can be read, program and verify.
5.1 MC68HC(7)11 Devices This section describes basic rules working with target MCU. EEPROM memory for all 68HC(7)11 devices can be read, program in both OBP and ICP
modes. Each MCU from 6811 family has various memory map. That means EEPROM, (EP)ROM and BootROM located in different physical address space. For example for 6811E9 device EEPROM starts from $B600 and for 6811F1 EEPROM starts from $FE00. This information can be found in the Select Device window at the right side. Also all 6811 devices have CONFIG register which define device security feature, visibility of EEPROM and EP(ROM). CONFIG register is EEPROM based and can be programmed as ordinary EEPROM cell. To enable CONFIG programming in Options Tab->Enable Program of CONFIG Register must be selected. If this option selected, in time of EEPROM programming, CONFIG Register will be programmed. But be careful, changing of CONFIG register will change MCU configuration and can lead to unpredictable behavior of MCU. After CONFIG register programmed reset MCU to take effect of new MCU configuration. For more information refer to detailed MCU description.
Note: Complete Datasheet on MCU can be downloaded form http://www.etlweb.net/ , from Documents section.
Connect required pins to board with target MCU (see Appendix Figure 2). Remove cable from On-Board connector (see Figure 1). Apply power to HC11-Programmer. LED D1 became to green light (see Table 1). Select corresponding device in HC11-Programmer software (“Device” button). Select “Read Sequence” panel in HC11-Programmer software. Press “EEPROM/EPROM/ROM” button. Press “Start” button. LED D4 on HC11-Programmer became to green light. That means that +5 voltage
regulator switched on and VCC applied to target MCU. Now HC11-Programmer automatically detects MCU bus speed. When LED D1 on HC11-Programmer became permanent green, reading completed.
Target MCU powered off. After read sequence successfully completed it is necessarily to save memory dump to
file (see Section 6.2). If some errors appeared during reading process refer to Section 7.
5.1.1 In-Circuit EEPROM/(EP)ROM/BootROM reading example
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 9
Connect required pins to board with target MCU (see Appendix Figure 2). Remove cable from On-Board connector (see Figure 1). Apply power to HC11-Programmer. LED D1 became to green light (see Table 1). Select corresponding device in HC11-Programmer software (“Device” Button). Load EEPROM data from file (see Section 6.1) or enter data to Hex Editor. Select “Program Sequence” panel in HC11-Programmer software. Press “EEPROM” button. Press “Start” button. LED D4 on HC11-Programmer became to green light. That means that +5 voltage
regulator switched on and VCC applied to target MCU. Now HC11-Programmer automatically detects MCU bus speed. When LED D1 on HC11-Programmer became permanent green, programming
completed. Target MCU powered off. If some errors appeared during programming process refer to Section 7.
Note: Extra care must be taken when programming the EEPROM based CONFIG Register.
Note: Strongly recommended before EEPROM programming, for a first time, read EEPROM contents and save it to file.
Mount target MCU on corresponding adaptor. Attach adaptor to OBP connector with help of cable in according to 1 pin-key (see
Figure 1). Remove cable from ICP connector (see Figure 1). Apply power to HC11-Programmer. Select device in HC11-Programmer software (“Device” Button). Select “Read Sequence” panel in HC11-Programmer software. Press “EEPROM/EPROM/ROM” button. Press “Start” button. LED D4 on HC11-Programmer became to green light. That means that +5 voltage
regulator switched on and VCC applied to target MCU. When LED D1 on HC11-Programmer became permanent green light, reading
completed. When read sequence successfully completed it is necessarily to save memory dump to
file (see Section 6.2). If some errors appeared during reading process refer to Section 7.
Note: When target MCU mounted on adaptor check contacts careful to avoid short circuit. Otherwise target MCU can be damaged!
Note: During removing the adaptor with target MCU HC11-Programmer must be powered off to avoid damaging of programmer and target MCU!
5.1.2 In-Circuit EEPROM programming example
5.1.3 On-Board EEPROM/(EP)ROM/BootROM reading example
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 10
Mount target MCU on corresponding adaptor. Attach adaptor to OBP connector with help of cable in according to 1 pin-key (see
Figure 1). Remove cable from BDM ICP connector (see Figure 1). Apply power to HC11-Programmer. Select device in HC11-Programmer software (“Device” Button). Load EEPROM data from file (see Section 6.1) or enter data to Hex Editor. Select “Program Sequence” panel in HC11-Programmer software. Press “EEPROM” button. Press “Start” button. LED D4 on HC11-Programmer became to green light. That means that +5 voltage
regulator switched on and VCC applied to target MCU. When LED D1 on HC11-Programmer became permanent green light, programming
completed. If some errors appeared during programming process refer to Section 7.
Note: When target MCU mounted on adaptor check contacts careful to avoid short circuit. Otherwise target MCU can be damaged!
Note: During removing the adaptor with target MCU HC11-Programmer must be powered off to avoid damaging of programmer and target MCU!
Note: Extra care must be taken when programming the EEPROM based CONFIG Register.
Note: Strongly recommended before EEPROM programming, for a first time, read EEPROM contents and save it to file.
5.1.4 On-Board EEPROM programming example
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 11
6. FILE OPERATIONS This section describes basic rules working with files. Memory dump from Hex Editor (Buffer)
can be load/save from/to hard disk. Also short descriptions such as project name, MCU type and memory cell assignment can be done for future fast remind. HC11-Programmer accepts tree types of file formats:
BIN (Binary format) Motorola S-Record (4 byte address) Motorola S-Record (6 byte address) EEF (Extended ETL Format)
6.1 LOAD FILE INTO BUFFER
Select “File>Open” menu item. Press “Browse” button. In File Open Dialog window, select file witch need to be open. Press “Open” button. Than opposite “Auto Format Detected:” text, select correct file format. Note that software
try automatically detects file format, but unknown records in file will fail this detection. “Load Entire file” check box must be checked if automatically loading procedures required.
Than press “OK” button. Sometimes load data from file to specific buffer allocations required. For Example if required
load buffer from $B600 address from binary file beginning from $0000 address follow next steps: Select “File>Open” menu item. Press “Browse” button. In File Open Dialog window, select file which need to be open. Press “Open” button. Than, opposite “Auto Format Detected:” select Binary format. Uncheck “Load Entire File” check box. In field “Offset Value to Place Data to Buffer:” enter 0xB600. Than press “OK” button. Now data placed to Hex Editor Buffer from the beginning of 0xB600 address.
If more complicated operations with files required, for example load Hex Editor Buffer from many files “Lowest Address From File To Load”, “Highest Address From File To Load” and “Clear Buffer Before Loading File” options are available.
6.2 SAVE FILE FROM BUFFER
Select “File>Save” menu item. Press “Browse” button. Select directory in which file will be saved. Type file name, for example “test1” Press “Save” button. Than select format in which file will be saved*. Press “OK” button.
Note: Use EEF Format for future “Load File Into Buffer” automatically processing. Also, only in EEF Format Project Description, Device Name and Memory Cells attributes can be saved.
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 12
7. ERRORS AND TROUBLESHOOTING
This section describes most recently encountered problems, errors and fixing solutions.
Problem: LED D1 (see Figure 1) Dark. Causes: This problem can accrue when external power supply connected to HC11-
Programmer is damaged or connected in wrong polarity. Solutions: Check voltage on HC11-Programmer power clamps. It must be 12 V +/- 1V.
Error Message: MC68HC(7)11 Programmer not found Causes: This message can appear when HC11-Programmer software couldn’t
establish connection with HC11-Programmer board. Solutions: Check connection of COM port cable from PC to HC11-Programmer board.
Apply power from external power supply to HC11-Programmer. In menu item “Tools>Comm Port Options” select correct COM port number.
Error Message: PC too Programmer Communication Error Causes: This message can appear when communication between HC11-Programmer
and PC is broken. In some cases this massage can appear after programmer fatal error.
Solutions: Try to close programmer software and start it again. If it doesn't helps decrease communication baud rate in “Tools>Comm Port Options” dialog window. Also this message can appear when COM port cable has poor contact with DB-9 connectors.
Error Message: Programmer to MCU Communication error Causes: This message can appear when communication between HC11-Programmer
and MCU is broken. Solutions: Check connection between programmer and MCU. In In-Circuit mode wires
length must not exceed 20 cm.
Error Message: No Echo from MCU Causes: This message can appear if there is no feedback from MCU. Solutions: Check connection between HC11-Programmer and MCU in according to
wiring diagram (see Appendix). For example MODA and MODB pins not 'Low' in time of Reset.
Error Message: Monitor Check sum Error Causes: This message can appear after monitor firmware loaded into target MCU
with errors. Solutions: Try to reconnect to target MCU. If this error not disappeared, possible target
MCU has damaged RAM.
Error Message: Reset Pin 'Low' Causes: This message can appear when MCU Reset pin connected to ground through
external components or no power supply on VCC pin or no oscillation on EXTAL, XTAL pins.
Solutions: Cut any traces and external components form RESET pin. If error still remain check +5V on MCU Vcc pin in time when software trying to link the MCU. Check integrity of ceramic resonator and passive components connected to EXTAL, XTAL pins.
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 13
Error Message: Reset Pin 'High' Causes: This message can appear when MCU Reset pin connected to VCC(+5V)
through external components. Solutions: Cut any traces and external components form RESET pin. If error still
remains it is possible MCU RESET pin damaged.
Error Message: External Reset Occurs Causes: This message can appear if external reset pulse is detected on RESET pin
for example from external COP system. Solutions: Cut any traces and external components form RESET pin.
Error Message: MODA Pin 'High' Causes: This message can appear when MCU MODA pin connected to VCC(+5V)
through external components. Solutions: Cut any traces and external components form MODA pin. If error still
remains it is possible MCU MODA pin damaged.
Error Message: MODB Pin 'High' Causes: This message can appear when MCU MODB pin connected to VCC(+5V)
through external components. Solutions: Cut any traces and external components form MODB pin. If error still
remains it is possible MCU MODB pin damaged.
Error Message: Pintester Error: RxD Pin Causes: This message can appear when MCU RxD pin connected to VCC (+5V) to
ground through external components. Solutions: Cut any traces and external components form RxD pin. If error still remains
it is possible MCU RxD pin damaged. Or try to disable pinsetter feature in Option Tab.
Error Message: Pintester Error: TxD Pin Causes: This message can appear when MCU TxD pin connected to VCC (+5V) to
ground through external components. Solutions: Cut any traces and external components form TxD pin. If error still remains
it is possible MCU TxD pin damaged. Or try to disable pinsetter feature in Option Tab.
Error Message: MCU Bus Frequency too Low Causes: This message can appear when MCU bus speed lower than 100 KHZ(400
KHz or lower frequency ceramic resonator connected to MCU). Solutions: Replace ceramic resonator connected to EXTAL, XTAL pins to any
accessible, from 4-16 MHz. OR supply MCU EXTAL pin from programmer built in clock generator in according to wiring diagram (see Appendix).
Error Message: Pintester Error: Causes: This message can appear in On-Board programming interface when some
pins has poor contact with adaptor, or pins are damaged. Solutions: Clean pins from colophony. Check contacts between adaptor and target
MCU pins. Check short circuits between pins to pins, pins to GND and pins to VCC. This feature can be disabled via Options tab. But disabling of this features can lead to all EEPROM data will be lost if MCU secured.
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 14
Error Message: No ECLK Pulse Detected. Check EXTAL Pin connection. Causes: This message can appear in On-Board programming interface if MCU
ECLK, EXTAL pins has pure contact with adapter socket or device damaged.
Solutions: Check connection between MCU ECLK, EXTAL pins and adapter socket.
Error Message: Device Still Secured Causes: This message can appear in On-Board programming mode when target
MCU secured. Solutions: Check accuracy of device type selected; take attention on MCU maskset.
Try to reconnect to target MCU.
Error Message: Wrong Adapter Selected Causes: This message can appear in On-Board programming mode when device
selected in software not match with adapter mounted on HC11-Programmer. Solutions: Check matching between MCU type selected and mounted adapter.
Error Message: Programming/Erasing Error Causes: This message can appear in time of EEPROM programming or erasing. Solutions: Check MCU type selection. Pay attention on MCU Mask Set. Try to realize
device programming in On-board mode.
Error Message: Overcurrent protection Causes: This message can appear when current consumption from built-in power
supply grater than 200 mA or +5V and GND pins are shorted. Solutions: Check target MCU power pins on short circuit. Also check that +5V
terminal connected to MCU VCC pin and GND terminal connected to MCU VSS pin.
Error Message: Power Supply voltage lower Causes: This message can appear when current consumption from built-in power
supply grater than 200 mA or +5V and GND pins are shorted. Solutions: Check target MCU power pins on short circuit. Also check that +5V
terminal connected to MCU VCC pin and GND terminal connected to MCU VSS pin. If error still present leave +5V terminal unconnected and if error not disappear contact ETL technical support.
Error Message: Power Supply voltage grater Causes: This message can appear when +5V terminal connected to external power
supply with voltage grater than +5V or built-in power supply damaged. Solutions: Leave +5V terminal unconnected and if error not disappear contact ETL
technical support.
Error Message: External Power Supply Present Causes: This message can appear in On-Board programming mode when external
voltage applied to In-Circuit connector (see Figure 1). Solutions: Disconnect cable from In-Circuit connector.
Error Message: WRONG SUBROUTINE CALL
WRONG DEVICE TYPE Causes: These messages can appear when fatal problems with HC11-Programmer
hardware/firmware occurred.
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 15
Solutions: Contact ETL technical support.
Note: HC11-Programmer has Log Window which can be stored to file. To perform this operation right clicks on Log Window. Than click on “Save to hc11prog.log file“ menu item. Now this file can be found in the same directory as HC11-Programmer software. Log File can be send by E-mail to [email protected] for non described problem solution.
ETL warrants that Product delivered shall conform to applicable. Report any defects for a 45 days period, from the applicable data on invoice.
8. WARRANTY STATEMENT
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 16
MC68HC(7)11 MCU
RESET
VSS
EXTAL
XTAL0.4...16 MHz
In-Circuit Connector
P4
1
2
3
4
RxD
GND
RESET
5 Gnd
TxD
6MODA
MODB7GND
+5VGnd
VSS
VDD8
RxD
TxD
MODA
MODB
1
1
1
1
HC(7)11 Programmer
P3
1
4 MHZ Output Connector
2
See Note 3
See Note 3
VSSGnd
VDDSYNGnd
See Note 4
GND
4 MHZ
2
2
2
2
2
2
2
2
2
2
2
2
Note 1: Pin mandatory must be connected. Note 2: Pin number can be found in APPENDIX Section. Note 3: 4 MHZ generator must be used if crystal resonator frequency lower
then 400 KHz.
Note 4: If MCU has PLL system, it must be disabled by connection VDDSYN pin to Ground.
Figure 2. In-Circuit programming schematic diagram for MC68HC(7)11 MCU
9. APPENDIX 1
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 17
PE4/AN4PE0/AN0
PB0/ADDR8PB1/ADDR9
PB2/ADDR10PB3/ADDR11PB4/ADDR12
PB5/ADDR13
PB6/ADDR14PB7/ADDR15
PA0/IC3
EX
TAL
STR
B/R
/W
E STR
A/A
S
MO
DA
/LIR
V SS
V RH
V RL
PE
7/A
N7
PE
3/A
N3
XTAL
PC0/ADDR0/DATA0
PC1/ADDR1/DATA1
PC2/ADDR2/DATA2
PC3/ADDR3/DATA3
PC4/ADDR4/DATA4
PC5/ADDR5/DATA5
PC6/ADDR6/DATA6
PC7/ADDR7/DATA7
RESET
XIRQ/VPPE
PD
1/Tx
D
MO
DB
/VS
TBY
V DD
PA7/
PAI/O
C1
PA6/
OC
2/O
C1
PA5/
OC
3/O
C1
PA4/
OC
4/O
C1
PA3/
OC
5/IC
4/O
C1
8
91011
1213
1415
16
17
4443
42
4140
39
3837
36
3534
21 22 23 24 25 26 27 28 29 30 31
7 6 5 4 3
1
2 52 51 50 49
IRQ/VPPEE
18
PD0/RxD
19PA
2/IC
132
PA1/
IC2
33
PE
6/A
N6
48
PE2
/AN
247
PE1/AN145
PE5/AN546
20
GN
D
MO
DA
TxD
RxD
RESET
MC68HC(7)11E
MO
DB
PD
2/M
ISO
PD3/
MO
SI
PD
4/S
CK
PD
5/S
S+5
V
Figure 3. In-Circuit wiring diagram for 68HC(7)11 E Series MCU, PLCC 52 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 18
PA0/IC3NCNCNC
PB7/ADDR15PB6/ADDR14PB5/ADDR13PB4/ADDR12PB3/ADDR11PB2/ADDR10PB1/ADDR9PB0/ADDR8
PE0/AN0PE4/AN4PE1/AN1PE5/AN5
PE2/
AN
2PE
6/A
N6
PE3/
AN
3PE
7/A
N7
V RL
V RH
V SS
V SS
MO
DB/
V STB
Y
MO
DA/
LIRNC
STR
A/A
S ES
TRB/
R/W N
C
NCPD0/RxDIRQXIRQ/VPPENCRESETPC7/ADDR7/DATA7PC6/ADDR6/DATA6PC5/ADDR5/DATA5
PC3/ADDR3/DATA3PC4/ADDR4/DATA4
PC2/ADDR2/DATA2PC1/ADDR1/DATA1NCPC0/ADDR0/DATA0XTAL
PA1/
IC2
PA2/
IC1
PA3/
OC
5/IC
4/O
C1
NC
NC
PA4/
OC
4/O
C1
PA5/
OC
3/O
C1
PA6/
OC
2/O
C1
PA7/
PAI/O
C1
PD5/
SSV D
D
PD4/
SCK
PD3/
MO
SIPD
2/M
ISO
PD1/
TxD
V SS
M68HC(7)11 E SERIES
64123456789
17 18 19 20 21 22 23 24 25 27
63 62 61 60 59 58 57 56 541011
484746454443424140
3839
5526
1213141516
3736353433
28 29 30 31 32
53 52 51 50 49E
XTA
L
+5V
GN
D
MO
DB
MO
DA
RESET
RxD
TxD
Figure 4. In-Circuit wiring diagram for 68HC(7)11E Series MCU, QFP64 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 19
PC0/ADDR0/DATA0
PC1/ADDR1/DATA1PC2/ADDR2/DATA2PC3/ADDR3/DATA3
PC4/ADDR4/DATA4
PC5/ADDR5/DATA5PC6/ADDR6/DATA6
PC7/ADDR7/DATA7
RESET* XIRQ/VPPE
M68HC11 E SERIES
910
1112
1314
1516
17
18IRQ 19
PD0/RxD 2021
PD1/TxD 22
PD2/MISO 23
PD3/MOSI 24PD4/SCK 25
PD5/SS 26VDD 27VSS 28
XTAL 8
EXTAL 7
STRB/R/W 6
5
STRA/AS 4
MODA/LIR 3
MODB/VSTBY 2
VSS 1
PE0/AN0PB0/ADDR8
PB1/ADDR9PB2/ADDR10
PB3/ADDR11PB4/ADDR12PB5/ADDR13PB6/ADDR14
PB7/ADDR15PA0/IC3
PA1/IC2
4645
4443
42
414039
3837
36
PE4/AN447
PE1/AN148
PA2/IC135PA3/OC5/IC4/OC134PA4/OC4/OC133PA5/OC3/OC132PA6/OC2/OC131PA7/PAI/OC130EVDD29
PE5/AN549
PE2/AN250
PE6/AN651
PE3/AN352
PE7/AN753
VRL54
VRH55
EVSS56
EVSS
E
RESET
RxD
TxD
+5V
GND
MODA
MODB
Figure 5. In-Circuit wiring diagram for 68HC(7)11E Series MCU, SDIP56 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 20
PE4/AN4PE0/AN0
PB0/ADDR8PB1/ADDR9
PB2/ADDR10PB3/ADDR11PB4/ADDR12
PB5/ADDR13
PB6/ADDR14PB7/ADDR15
PA0/IC3
EX
TAL
STR
B/R
/W
E STR
A/A
S
MO
DA
/LIR
V DD
V SS
V RH
V RL
PE7/
AN
7PE
3/A
N3
XTAL
PC0/ADDR0/DATA0
PC1/ADDR1/DATA1
PC2/ADDR2/DATA2
PC3/ADDR3/DATA3
PC4/ADDR4/DATA4
PC5/ADDR5/DATA5
PC6/ADDR6/DATA6
PC7/ADDR7/DATA7
RESET
XIRQ/VPPE
PD
1/Tx
DM
OD
B/V
STB
YV D
DS
YN
XFC V S
SV D
DPA
7/PA
I/OC
1
PA6/
OC
2/O
C1
PA5/
OC
3/O
C1
PA4/
OC
4/O
C1
PA3/
OC
5/IC
4/O
C1
MC68HC(7)11EA9
8
9
1011
1213
1415
16
17
4443
42
4140
393837
36
3534
21 22 23 24 25 26 27 28 29 30 31
7 6 5 4 3
1
2 52 51 50 49
IRQ/VPPEE
18
PD0/RxD
19PA
2/IC
132
PA1/
IC2
33
PE6/
AN
648
PE
2/A
N2
47
PE1/AN145
PE5/AN546
20
+5V
GN
DMO
DA
MO
DB
TxD
RxD
RESET
See
Use
r’sG
uide
Figure 6. In-Circuit wiring diagram for 68HC(7)11EA9 MCU, PLCC 52 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 21
PE4/AN4PE0/AN0
PB0/8PB1/A9
PB2/10PB3/A11PB4/A12
PB5/A13
PB6/A14PB7/A15
PA0/IC3
EX
TAL
STR
B/R
/W
E STR
A/A
S
MO
DA
/LIR
V SS
V RH
V RL
PE
7/A
N7
PE
3/A
N3
XTAL
PC0/A0/D0
PC1/A1/D1
PC2/A2/D2
PC3/A3/D3
PC4/A4/D4
PC5/A5/D5
PC6/A6/D6
PC7/A7/D7
RESET
XIRQ
PD
1/Tx
D
MO
DB
/VS
TBY
V DD
PA7/
PAI/O
C1
PA6/
OC
2/O
C1
PA5/
OC
3/O
C1
PA4/
OC
4/O
C1
PA3/
OC
5/IC
4/O
C1
8
91011
1213
1415
16
17
4443
42
4140
39
3837
36
3534
21 22 23 24 25 26 27 28 29 30 31
7 6 5 4 3
1
2 52 51 50 49
IRQ
18
PD0/RxD
19PA
2/IC
132
PA1/
IC2
33P
E6/
AN
648
PE2
/AN
247
PE1/AN145
PE5/AN546
20
GN
D
MO
DA
TxD
RxD
RESET
MC68HC11A8
MO
DB
PD
2/M
ISO
PD3/
MO
SI
PD
4/S
CK
PD
5/S
S+5
V
Figure 7. In-Circuit wiring diagram for 68HC11A8 MCU, PLCC 52 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 22
PD2/MISO74
PD1/TxD73
PD0/RxD72
MODA/LIR71
MODB/VSTBY70
RESET69XTAL68
EXTAL67
XOUT66E65
VDD64
VSS63
PC7/DATA762
PC6/DATA661
PC5/DATA560PC4/DATA459PC3/DATA358
PC2/DATA257
PC1/DATA156
PC0/DATA055
IRQ54
PB0
/AD
DR
811
PB1
AD
DR
910
PB2/
AD
DR
109
PB3/
AD
DR
118
PB4
/AD
DR
127
PB5
/AD
DR
136
PB6/
AD
DR
145
PB7/
AD
DR
154
V SS
3V D
D2
PA0/
IC3
1
PA1/
IC2
84
PA2/
IC1
83PA
3/IC
4/O
C5/
OC
182
PA4/
OC
4/O
C1
81PA
5/O
C3/
OC
180
PA6/
OC
2/O
C1
79
PA7/
PAI/O
C1
78PD
5/SS
77
PD4/
SCK
76
PD3/
MO
SI
75
PH0/PW1PH1/PW2
PH2/PW3PH3/PW4PH4/CSIO
PH5/CSGP1PH6/CSGP2
PH7/CSPROGTEST16
XIRQ/VPP
VDDVSS
TEST14PG7/R/W
PG6PG5/XA18
PG4/XA17PG3/XA16PG2/XA15PG1/XA14
121314151617181920212223242526272829
3132
PG
0/XA
13AV
DD
PE7/
AN
7PE
6/A
N6
PE5
/AN
5P
E4/A
N4
PE3
/AN
3P
E2/A
N2
PE1/
AN
1P
E0/A
N0
V RL
V RH
33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53
30
PF7
/AD
DR
7P
F6/A
DD
R6
PF5
/AD
DR
5
PF4/
AD
DR
4PF
3/A
DD
R3
PF2
/AD
DR
2P
F1/A
DD
R1
PF0
/AD
DR
0
AVS
S
TEST15 M68HC(7)11 K SERIES
TxDRxDMODA
MODBRESET
+5VGND
Figure 8. In-Circuit wiring diagram for 68HC(7)11K Series MCU, PLCC 84 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 23
PF0/ADDR060PF1/ADDR159PF2/ADDR258PF3/ADDR357PF4/ADDR456PF5/ADDR555PF6/ADDR654PF7/ADDR753AVSS52VRH51VRL50PE0/AN049PE1/AN148PE2/AN247PE3/AN346PE4/AN445PE5/AN544PE6/AN643PE7/AN742AVDD41
PD2/
MIS
O80
PD1/
TXD
79PD
0/R
XD
78M
OD
A/L
IR77
MO
DB
/VS
TBY
76R
ESE
T75
XTA
L74
EXTA
L73
E72
V DD
71V S
S70
PC7/
DAT
A769
PC6/
DAT
A668
PC5/
DAT
A567
PC4/
DAT
A466
PC3/
DAT
A365
PC2/
DAT
A264
PC1/
DAT
A163
PC0/
DAT
A062
IRQ
61
PD3/MOSIPD4/SCK
PD5/SS 3PA7/PAI/OC1
PA6/OC2/OC1PA5/OC3/OC1PA4/OC4/OC1
PA3/IC4/OC5/OC1PA2/IC1
PA1/IC21PA0/IC3
VDD 12VSS 13
PB7/ADDR15PB6/ADDR14
PB5/ADDR13PB4/ADDR12PB3/ADDR11PB2/ADDR10PB1/ADDR9 20
PB0
/AD
DR
8PH
0/PW
1PH
1/PW
2P
H2/
PW
3P
H3/
PW
4P
H4/
CS
IOPH
5/C
SG
P1
PH6/
CS
GP
2PH
7/C
SP
RO
GXI
RQ
/VP
P
21
V DD
31V S
S32
PG7/
R/W
33P
G6
PG5/
XA18
PG
4/X
A17
PG
3/X
A16
PG
2/X
A15
PG
1/X
A14
PG
0/X
A13
21
456789
1011
141516171819
22 23 24 25 26 27 28 29 30 34 35 36 37 38 39 40
RE
SETM
OD
B
MO
DA
RxD
TxD
+5V
GN
D
M68HC(7)11 K SERIES
Figure 9. In-Circuit wiring diagram for 68HC(7)11K Series MCU, LQFP80 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 24
PG3PG2PG1
RESETPC7/DATA7PC6/DATA6PC5/DATA5PC4/DATA4PC3/DATA3PC2/DATA2PC1/DATA1
IRQXIRQ
PG7/CSPROGPG6/CSGEN
PG5/CSIO1
PB0/ADDR8PB1/ADDR9PB2/ADDR10
PB4/ADDR12PB5/ADDR13PB6/ADDR14
PE4/AN4PE0/AN0PF0/ADDR0PF1/ADDR1PF2/ADDR2PF3/ADDR3PF4/ADDR4PF5/ADDR5PF6/ADDR6PF7/ADDR7
E MO
DB
/V STB
Y
MO
DA
/LIR
PC0/
DAT
A0
EXTA
LXT
AL
V SS
R/W
4XO
UT
PE7/
AN
7PE
3/A
N3
PE6/
AN
6PE
2/A
N2
PE5/
AN
5PE
1/A
N1
V RH
V RL
PG
0
PD
3/M
OS
I
PD0/
RxD
PD4/
SC
K
PD2/
MIS
OPD
1/Tx
D
PD
5/SS
PB7
/AD
DR
15
PA4/
OC
4/O
C1PA
5/O
C3/
OC
1PA
6/O
C2/
OC
1PA
7/PA
I/OC
1V D
D
PA3/
OC
5/IC
4/O
C1
PA2/
IC1
PA1/
IC2
PA0/
IC3
2324
101112131415161718
45
59585756555453525150
19202122
49484746
25
60
6 5 4 3 2 6768 65 64 63 628 7 669
34 35 36 37 38 3927 28 29 30 31 32 33 40 41 4261
4426
43
1
MC68HC11F1
PB3/ADDR11PG4/CSIO2
MO
DA
MO
DB
GN
D+5
V
RxD TxD
RESET
Figure 10. In-Circuit wiring diagram for 68HC11F1 MCU, PLCC68 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 25
MODA/LIR60
MODB/VSTBY59
RESET58
XTAL57
EXTAL56
XOUT55
E54
PC7/DATA753
PC6/DATA652
PC5/DATA551
PC4/DATA450
PC3/DATA349
PC2/DATA248
PC1/DATA147
PC0/DATA046
PF0/ADDR045
PF1/ADDR144
PA0/
IC3
9PA
1/IC
28
PA2/
IC1
7PA
3/IC
4/O
C5/
OC
16
PA4/
OC
4/O
C15
PA5/
OC
3/O
C14
PA6/
OC
2/O
C13
PA7/
PAI/O
C1
2V D
D1
V DD
68V S
S67
PD
5/SS
66P
D4/
SCK
65P
D3/
MO
SI64
PD
2/M
ISO
63
PD
1/TX
D62
PD
0/R
XD61
PB7/ADDR15
PB6/ADDR14
PB5/ADDR13
PB4/ADDR12
PB3/ADDR11
PB2/ADDR10
PB1/ADDR9
PB0/ADDR8
PH1/PW2PH2/PW3
PH3/PW4
XIRQ/VPPEPG7/R/W
IRQAVDD
PE7/AN7
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
PE
6/A
N6
PE
5/A
N5
PE
4/A
N4
PE
3/A
N3
PE
2/A
N2
PE1/
AN
1P
E0/A
N0
V RL
V RH
AVSS
27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43
26
PF7/
ADD
R7
PF6/
ADDR
6
PF5/
ADD
R5
PF4/
ADD
R4
PF3/
ADDR
3
PF2
/AD
DR
2
V SS
PH0/PW1
MODA
MODB
RESET
TxD
RxD
GND
+5V
MC68HC(7)11KA4
MC68HC(7)11KA2
INT
EXT
EXT
INT
Figure 11. In-Circuit wiring diagram for 68HC(7)11KA Series MCU, PLCC 68 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 26
MODA/LIR60
MODB/VSTBY59
RESET58
XTAL57
EXTAL56
XOUT55
E54
PC7/DATA753
PC6/DATA652
PC5/DATA551
PC4/DATA450
PC3/DATA349
PC2/DATA248
PC1/DATA147
PC0/DATA046
PF0/ADDR045
PF1/ADDR144
PA0/
IC3
9PA
1/IC
28
PA2/
IC1
7PA
3/IC
4/O
C5/
OC
16
PA4/
OC
4/O
C15
PA5/
OC
3/O
C14
PA6/
OC
2/O
C13
PA7/
PAI/O
C1
2V D
D1
V DD
68V S
S67
PD
5/SS
66P
D4/
SCK
65P
D3/
MO
SI64
PD
2/M
ISO
63
PD
1/TX
D62
PD
0/R
XD61
PB7/ADDR15
PB6/ADDR14
PB5/ADDR13
PB4/ADDR12
PB3/ADDR11
PB2/ADDR10
PB1/ADDR9
PB0/ADDR8
PH1/PW2PH2/PW3
PH3/PW4
XIRQ/VPPPG7/R/W
IRQAVDD
PE7/AN7
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
PE
6/A
N6
PE
5/A
N5
PE
4/A
N4
PE
3/A
N3
PE
2/A
N2
PE1/
AN
1P
E0/A
N0
V RL
V RH
AVSS
27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43
26
PF7/
ADD
R7
PF6/
ADDR
6
PF5/
ADD
R5
PF4/
ADD
R4
PF3/
ADDR
3
PF2
/AD
DR
2
V SS
PH0/PW1
MODA
MODB
RESET
TxD
RxD
GND
+5V
M68HC(7)11 KS SERIES
Figure 12. In-Circuit wiring diagram for 68HC(7)11KS Series MCU, PLCC 68 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 27
PB
0/A
8 P
B1/
A9
PB
2/A
10 P
B3/
A11
PB
4/A
12/L
CD
4 P
B5/
A13
/LC
D5
PB
6/A
14/L
CD
6 P
B7/
A15
/LC
D7
VS
S V
DD
PA
0/IC
3 P
A1/
IC2
PA
2/IC
1 P
A3/
OC
1/O
C5/
IC4
PA
4/O
C1/
OC
4 P
A5/
OC
1/O
C3
PA
6/O
C1/
OC
2 P
A7/
OC
1/PA
I P
D5/
SS
PD
4/S
CK
PD
3/M
OS
I
RX
D2/
PG
0 V
DD
AD
AD
7/P
E7
AD
6/P
E6
AD
5/P
E5
AD
4/P
E4
AD
3/P
E3
AD
2/P
E2
AD
1/P
E1
AD
0/PE
0 V
RL
VR
H
VS
S A
D
A7/
PF7
A
6/P
F6
A5/P
F5
A4/P
F4
A3/
PF3
A2
/PF2
A
1/P
F1
A0/
PF0
74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54
12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
11
10
9 8 7 6 5 4 3 2 84
83
82
81
80
79
78
77
76
75
PD2/MISO PD1/TXD1 PD0/RXD1 MODA/LIR RESET XFC VDDSYN EXTAL XTAL E VDDR VSSR PC7/D7 PC6/D6 PC5/D5 PC4/D4 PC3/D3 PC2/D2 PC1/D1 PC0/D0 IRQ
PW1/PH0 PW2/PH1 PW3/PH2 PW4/PH3
PH4 PH5 PH6 PH7
MODB/VSTBY V PP E/XIRQ
VDD VDDL VSSL VSS
R/W/PG7 LCDBP/PG6
SS2/PG5 SCK2/PG4
MOSI2/PG3 MISO2/PG2
TXD2/PG1
TxDRxDMODARESET
MODB
GN
D+5
V
See User’sGuide
MC68HC(7)11PH8
Figure 13. In-Circuit wiring diagram for 68HC(7)11PH8 MCU, PLCC84 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 28
PB0
/A8
PB1
/A9
PB2
/A10
PB3
/A11
PB4
/A12
PB5
/A13
PB6
/A14
PB7
/A15
VSS
VD
D P
A0/IC
3 P
A1/IC
2 P
A2/IC
1 P
A3/O
C1/
OC
5/IC
4 P
A4/O
C1/
OC
4 P
A5/O
C1/
OC
3 P
A6/O
C1/
OC
2 P
A7/O
C1/
PAI
PD
5/S
S P
D4/
SC
K P
D3/
MO
SI
PG
0 VD
D A
D
AD
7/P
E7
AD
6/PE
6 AD
5/P
E5
AD
4/P
E4
AD3/
PE3
AD
2/PE
2 A
D1/
PE
1 AD
0/P
E0
VR
L V
RH
VS
S A
D
A7/P
F7
A6/P
F6
A5/
PF5
A4
/PF4
A
3/P
F3
A2/
PF2
A
1/P
F1
A0/
PF0
74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54
12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
11
10
9 8 7 6 5 4 3 2 84
83
82
81
80
79
78
77
76
75
PD2/MISO PD1/TXD1 PD0/RXD1 MODA/LIR RESET XFC VDDSYN EXTAL XTAL E VDDR VSSX PC7/D7 PC6/D6 PC5/D5 PC4/D4 PC3/D3 PC2/D2 PC1/D1 PC0/D0 IRQ
PW1/PH0 PW2/PH1 PW3/PH2 PW4/PH3
RXD3/PH4 TXD3/PH5 RXD2/PH6 TXD2/PH7
MODB/VSTBY XIRQVDD
VDDL VSSX
VSS R/W/PG7
PG6 PG5 PG4 PG3 PG2 PG1
TxDRxDMODA
RESET
MODB
+5V
See User’sGuide
GN
DMC68HC(7)11P2
Figure 14. In-Circuit wiring diagram for 68HC(7)11P2 MCU, PLCC84 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 29
Figure 15. In-Circuit wiring diagram for 68HC(7)11L6 MCU, PLCC68 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 30
Figure 16. In-Circuit wiring diagram for 68HC11A8 MCU, DIP48 Package
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 31
Figure 17. 11 EA PLCC-52 programming adapter
Figure 18. 11 E PLCC-52 programming adapter
Figure 19. 11 E QFP-64 programming adapter
10. APPENDIX 2
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 32
Figure 20. 11 K PLCC-84 programming adapter
Figure 21. 11 K QFP-80 programming adapter
Figure 22. 11 KA/KS PLCC-68 programming adapter
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 33
Figure 23. 11 F PLCC-68 programming adapter
Figure 24. 11L6 PLCC-68 programming adapter
Figure 25. 11 PH PLCC-84 programming adapter
-
©ETL 2010 MC68HC(7)11 Programmer User’s Guide 34
Figure 26. 11 A8 DIP-48 programming adapter