M30803T-RPD-E
Emulation Pod for M16C/80 Group MCUs
User's Manual
Rev. 1.00
July 1, 2003
REJ10J0197-0100Z
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Preface
The M30803T-RPD-E is an emulation pod for the M16C/80 Group of Renesas 16-bit MCUs. It's used
with a PC4701 emulator.
This user's manual mainly describes specifications of the M30803T-RPD-E emulation pod and how
to setup it. For details on the following products, which are used with M30803T-RPD-E, refer to each
product's user's manual.
• Emulator:
PC4701 User's Manual
• Emulator debugger:
M3T-PD308 User's Manual
All the components of this product are shown in "Table 2.1 Package components" (page 19) of this
user's manual. If there is any question or doubt about this product, contact your local distributor.
To use the product properly
Precautions for Safety
• In both this user's manual and on the product itself, several icons are used to insure
proper handling of this product and also to prevent injuries to you or other persons,
or damage to your properties.
• The icons' graphic images and meanings are given in "Chapter 1. Precautions for
Safety". Be sure to read this chapter before using the product.
When using outside Japan
• When using in Europe, the United States, or Canada, be sure to use both the emulator
and the emulation pod which meet local standards. EMI standards are not met when
the M30803T-RPD-E is used with the PC4700H or PC4700L emulator.
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Contents
Chapter 1. Precautions for Safety ..........................................................................................7
1.1 Safety Symbols and Meanings .............................................................................8
Chapter 2. Preparation .........................................................................................................17
2.1 Terminology .......................................................................................................18
2.2 Package Components .........................................................................................19
2.3 Other Tool Products Required for Development ...............................................19
2.4 Name of Each Part .............................................................................................20
(1) System Configuration...............................................................................20
(2) Inside of Emulation Pod ...........................................................................21
2.5 When Using the Emulator for the First Time.....................................................22
Chapter 3. Setting Up ..........................................................................................................23
3.1 Removing the Upper Cover ...............................................................................24
3.2 Switch Settings ...................................................................................................25
3.3 Selecting Clock Supply ......................................................................................29
(1) Using the Oscillator Circuit on the Target System ..................................30
(2) Changing the Internal Oscillator Circuit of Emulation Pod .....................31
(3) Replacing the Oscillator Circuit Boards ..................................................32
3.4 A-D Conversion Bypass Capacitor ....................................................................33
3.5 Connecting the PC4701 and Emulation Pod ......................................................34
(1) Connecting the Cable to the PC4701 .......................................................34
(2) Connecting the Cable to the Emulation Pod ............................................35
3.6 Connecting the Target System ...........................................................................36
(1) Connecting 100-pin LCC Socket .............................................................37
(2) Connecting 100-pin 0.65-mm-pitch Foot Pattern (Part 1) .......................38
(3) Connecting 100-pin 0.65-mm-pitch Foot Pattern (Part 2) .......................39
(4) Connecting 100-pin 0.65-mm-pitch Foot Pattern (Part 3) .......................40
(5) Connecting 100-pin 0.5-mm-pitch Foot Pattern (Part 1) .........................41
(6) Connecting 100-pin 0.5-mm-pitch Foot Pattern (Part 2) .........................42
(7) Connecting 144-pin 0.5-mm-pitch Foot Pattern ......................................43
Chapter 4. Usage .................................................................................................................45
4.1 Turning On the Power Supply............................................................................46
(1) Checking the Connection of the System ..................................................46
(2) Turning On the Power Supply..................................................................46
(3) LED Display When PC4701 Starts Up Normally ....................................47
4.2 Downloading Firmware .....................................................................................48
(1) When It is Necessary to Download Firmware .........................................48
(2) Downloading Firmware in Maintenance Mode .......................................48
4.3 Starting Up the Emulator Debugger (Setting EMEM Dialog) ...........................49
(1) Setting the Debug Monitor Bank Address ...............................................49
(2) Selecting the Processor Mode ..................................................................50
(3) Setting the Emulation Memory ................................................................50
(4) Emulation Memory Allocation as Expansion Area .................................50
(5) Referring MCU STATUS ........................................................................52
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4.4 Self-check...........................................................................................................53
(1) Self-check Procedure ...............................................................................53
(2) If an Error is Detected in the Self-check ..................................................53
Chapter 5. Specifications .....................................................................................................55
5.1 Specifications .....................................................................................................56
5.2 Connection Diagram ..........................................................................................57
5.3 Operation Timing in Memory Expansion Mode and Microprocessor Mode.....59
(1) Timing Requirements ...............................................................................59
5.4 Electrical Characteristics....................................................................................59
5.5 External Dimensions ..........................................................................................60
(1) External Dimensions of Emulation Pod ...................................................60
(2) External Dimensions of Converter Board (M30800T-PTC)....................61
(3) External Dimensions of Converter Board (FLX-144NSD) .....................62
Chapter 6. Troubleshooting .................................................................................................63
6.1 Flowchart to Remedy the Troubles ....................................................................64
6.2 When the Emulator Debugger Does Not Start Up Properly ..............................65
(1) When the LED Display of PC4701 is Abnormal .....................................65
(2) EMEM Dialog is Not Displayed When the Emulator Debugger Starts Up
(When the target system is connected)....................................66
(3) EMEM Dialog is Not Displayed When the Emulator Debugger Starts Up
(When the target system is not connected) .............................67
(4) Errors Occur When the Emulator Debugger Starts Up
(When the target system is connected)....................................67
6.3 Operation Differs from That of Actual MCUs...................................................67
(1) When the A-D Conversion Values are Different from Expected Values ....67
Chapter 7. Maintenance and Guarantee...............................................................................69
7.1 Maintenance .......................................................................................................70
7.2 Guarantee ...........................................................................................................70
7.3 Repair Provisions ...............................................................................................70
7.4 How to Request for Repair.................................................................................71
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MEMO
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Chapter 1. Precautions for Safety
This chapter describes precautions for using this product safely and properly. For precautions for the emulator main unit
and the emulator debugger, refer to each user's manual included with your product.
1.1 Safety Symbols and Meanings ..................................................................................................... 8
WARNING
Warning for Installation ............................................................................................... 9
Warnings for Use Environment ................................................................................... 9
CAUTION
Caution to Be Taken for Modifying This Product ....................................................... 9
Cautions to Be Taken for Handling This Product........................................................ 9
IMPORTANT
Note on Malfunctions in the PC4701 System.............................................................. 9
Notes on Downloading Firmware .............................................................................. 10
Note on When the Emulator Debugger Ends............................................................. 10
Note on Final Evaluation ........................................................................................... 10
Notes on Target System ............................................................................................. 10
Note on RESET* Input .............................................................................................. 10
Note on RDY* Input .................................................................................................. 11
Note on HOLD* Input ............................................................................................... 11
Note on NMI* Input................................................................................................... 11
Notes on Interruption ................................................................................................. 11
Note on Clock Supply to the MCU............................................................................ 11
Notes on Access Prohibited Area .............................................................................. 11
Notes on Stack Area................................................................................................... 12
Notes on Reset Vector Area....................................................................................... 12
Note on Debugging MCUs with RAM over 24 KB .................................................. 12
Note on Debugging M16C/80T Group MCUs .......................................................... 12
Notes on EMEM Dialog ............................................................................................ 13
Note on S/W Break .................................................................................................... 13
Note on Differences between Actual MCU and Emulator ........................................ 14
Notes on Watchdog Function..................................................................................... 14
Notes on A-D Input Selection Function..................................................................... 15
Note on DMA Transfer .............................................................................................. 15
Note on Address Match Interrupt .............................................................................. 15
Note on Protect Resistor ............................................................................................ 15
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Chapter 1. Precautions for Safety
In both the user's manual and on the product itself, several icons are used to insure proper handling
of this product and also to prevent injuries to you or other persons, or damage to your properties.
This chapter describes the precautions which should be taken in order to use this product safely and
properly. Be sure to read this chapter before using this product.
1.1 Safety Symbols and Meanings
If the requirements shown in the "WARNING"
sentences are ignored, the equipment may
cause serious personal injury or death.
WARNING
If the requirements shown in the "CAUTION"
sentences are ignored, the equipment may
malfunction.
CAUTION
It means important information on using this
product.
IMPORTANT
In addition to the three above, the following are also used as appropriate.
means WARNING or CAUTION.
Example:
CAUTION AGAINST AN ELECTRIC SHOCK
means PROHIBITION.
Example:
DISASSEMBLY PROHIBITED
means A FORCIBLE ACTION.
Example:
UNPLUG THE POWER CABLE FROM THE RECEPTACLE.
The following pages describe the symbols "WARNING", "CAUTION", and "IMPORTANT".
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WARNING
Warning for Installation:
• Do not set this product in water or areas of high humidity. Make sure that the main unit does not
get wet. Spilling water or some other liquid into the main unit can cause an unrepairable damage.
Warnings for Use Environment:
• The emulation pod is air-cooled with the ventilation slot. Therefore, do not block the ventilation
slot. When heated to high temperatures, the emulation pod may not work properly.
• This equipment is to be used in an environment with a maximum ambient temperature of 35°C. Care
should be taken that this temperature is not exceeded.
CAUTION
Caution to Be Taken for Modifying This Product:
• Do not disassemble or modify this product. Disassembling or modifying this product can cause
damage. Disassembling and modifying the product will void your warranty.
Cautions to Be Taken for Handling This Product:
• Use caution when handling the main unit. Be careful not to apply a mechanical shock.
• Do not touch the connector pins of the emulator main unit and the target MCU connector pins. Static
electricity may damage the internal circuits.
• Do not pull the emulation pod main unit by the flexible cable (FLX120-RPD) for connecting to the
emulator main unit or the flexible cable (FLX64, FLX100 or FLX160) for connecting the target
system. The cable may cause a break.
• Flexible cable (FLX120-RPD) for connecting to the emulator main unit and the flexible cable
(FLX64, FLX100 or FLX160) for connecting the target system are different from earlier models.
The slits make them more flexible. However, excessive flexing or force may break conductors.
• Do not use inch-size screws for this equipment. The screws used in this equipment are all ISO
(meter-size) type screws. When replacing screws, use same type screws as equipped before.
IMPORTANT
Note on Malfunctions in the PC4701 System:
• If the emulator malfunctions because of interference like external noise, do the following to remedy
the trouble.
(1) Press the RESET button on the emulator front panel.
(2) If normal operation is not restored after step (1), shut OFF power to the emulator once and then
reactivate it.
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IMPORTANT
Notes on Downloading Firmware:
• Before using this product for the first time, it is necessary to download the dedicated firmware
(control software for the emulation pod built into the PC4701). Please note that, to do this, it is
necessary to start up the PC4701 in maintenance mode. For firmware download procedures, see
"4.2 Downloading Firmware" (page 48). Once the firmware has been downloaded, the product can
be used by simply turning on the power.
• Do not shut off the power while downloading the firmware. If this happens, the product will not
start up properly. If power is shut off unexpectedly, redownload the firmware.
• Except when a target status error occurs, if the self-check is not completed successfully, there may
be trouble with the product. In such case, contact your sales representative. However, perform the
self-check in the below setup.
(1) Target system:
Not connected
(2) Emulation pod internal switches: At their factory settings
Note on When the Emulator Debugger Ends:
• To restart the emulator debugger after it ends, always shut power to the emulator module off once
and then on again.
Note on Final Evaluation:
• Be sure to evaluate your system with an evaluation MCU. Before starting mask production,
evaluate your system and make final confirmation with an CS (Commercial Sample) version MCU.
Notes on Target System:
• The Vcc pin of emulator is connected to the target system to observe the voltage of the target system.
Therefore design your system so that the emulator MCU is powered by the target system.
• The voltage of the target system should be within the range of the MCU specification (+2.7 to +5.5
V). When using this product with the operating frequency at 20 MHz, the voltage of the target
system should be +5.0 to +5.5 V.
• Do not change the voltage of the target system after turning on the power.
• Before powering on your emulator system, check that the host machine, the emulator main unit,
the converter board and target system are all connected correctly. Next, turn on the power to each
equipment following the procedure below.
(1) Turn ON/OFF the target system and the PC4701 emulator as simultaneously as possible.
(2) When the PC4701 and emulator debugger start up, check the target status LEDs on the
emulator main unit's front panel to see if this product is ready to operate.
• Is the power supplied?
• Is the reset released?
Check that target status LED (POWER) is ON.
Check that target status LED (RESET) is OFF.
For details, see "Chapter 4 Usage" (page 45).
Note on RESET* Input:
• The reset input from the target system is accepted only while a user program is being executed (only
while the RUN status LED on the PC4701's front panel is lit).
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IMPORTANT
Note on RDY* Input:
• Be sure to input "L" to the RDY* pin of the target system during the user program executing (only
while the RUN status LED on the PC4701's front panel is lit). Inputting "L" to the RDY* pin during
the user program stopping may cause a malfunction of the emulator.
Note on HOLD* Input:
• Be sure to input "L" to the HOLD* pin of the target system during the user program executing (only
while the RUN status LED on the PC4701's front panel is lit). Inputting "L" to the HOLD* pin
during the user program stopping may cause a malfunction of the emulator.
Note on NMI* Input:
• NMI* input from the target system is accepted only while a user program is being executed (only
while the RUN status LED on the PC4701's front panel is lit).
Notes on Interruption:
• Even while the user program is not being executed (when the user program is paused or while debug
programs are running), the evaluation MCU is operating for controlling debug programs.
Therefore, take note that timers and other functions are not stopped while the user program is not
being executed.
• When a maskable interrupt is generated in user program execution (when the user program is
paused or while debug programs are running), the interrupt cannot be accepted, because the
emulator disables interrupts. If an interrupt is requested while a user program is not being executed
and the user program allow the interrupt, the interrupt is accepted immediately after the user
program execution is started.
Note on Clock Supply to the MCU:
• Clock can be supplied to the evaluation MCU in one of the following two ways. This is determined
by emulator debugger clock selection.
(1) When Internal is selected:
The clock generated by the oscillation circuit in the emulation pod is supplied to the evaluation
MCU. The clock is continually supplied to the evaluation MCU regardless of "target system
clock status" and "user program execution status".
(2) When External is selected:
Clock supply to the evaluation MCU depends on oscillation status (oscillate/off) of the target
system.
Notes on Access Prohibited Area:
• The emulator control register (000020h - 00003Fh) in the SFR is read and write-protected. When
this register is accessed, emulator control cannot be utilized.
• With this product, address FFFFFFh cannot be read or written in correctly.
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IMPORTANT
Notes on Stack Area:
• With this product, a maximum 20 bytes of the user stack is consumed as work area.
• If the user stack does not have enough area, do not use areas which cannot be used as stack (SFR
area, RAM area which stores data, or ROM area) as work area. Using areas like this is a cause of
user program crashes and destabilized emulator control. Therefore, ensure the +20 byte maximum
capacity used by the user program as the user stack area.
• With this product, the interrupt stack pointer (ISP) is set to 0500h and used as stack area after the
reset is released.
Notes on Reset Vector Area:
• For a reset vector area, memory of the emulation pod is always selected regardless of the setting
of EMEM dialog. Therefore when setting the microprocessor mode, to use a ROM of the target
system etc. as an area including a reset vector area, set a reset vector using a dump window etc.
• The reset vector area can be changed only when a program is stopped. When a program is executed,
the area can not be changed.
Note on Debugging MCUs with RAM over 24 KB:
• This product has an MCU with 24 KB of RAM. Therefore, it cannot debug MCUs with more than
24 KB of RAM. Also, internally reserved areas (006400h - 007FFFh) cannot be used.
Note on Debugging M16C/80T Group MCUs:
• With this product, the M16C/80T Group MCUs cannot be debugged. Prepare the emulation pod
for the M16C/80T Group MCUs.
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IMPORTANT
Notes on EMEM Dialog:
Observe the following when setting up EMEM dialog of the emulator debugger.
(1) Debug Monitor Bank Address
• When "F0" is specified, 64 KB of area starting from F00000h are allocated for use by the debug
monitor.
• The 64 KB allocated to the debug monitor cannot be used.
• The below areas cannot be set for the debug monitor.
(1) MCU internal resources (RAM/SFR area)
(2) DRAM area or multiplex area
(3) Interrupt vector area
• It is not possible to view or set the content of the specified area. Even on the dump window or
in the reverse assemble area of the program/source windows, the content of this area is not
displayed correctly though it can be displayed.
(2) Processor Mode
• Set the target MCU to the processor mode.
• To set the single-chip mode and memory expansion mode, the CNVSS pin used with MCU
status must be "L". MCU status indicates pin level of the target system.
• To set the microprocessor mode, the CNVSS pin used with MCU status must be "H".
• To set the memory expansion mode and microprocessor mode, the RDY* and HOLD* pins used
with MCU status must be "H".
(3) Emulation Memory Allocation
• The 1.5MB memory mounted in the product can be allocated out.
• When the single chip mode and memory expansion mode are set by specifying the processor mode,
emulation memory is automatically allocated to the ROM area. Therefore, it is not necessary to
deliberately specify emulation memory as expansion area in order to allocated ROM area.
• Except for the SFR, RAM, ROM and internally reserved areas, all areas other than the set area
are externally accessible.
• MCU internal resources are automatically selected as SFR and RAM areas regardless of
settings.
• Even when "00" is specified as the expansion area, internally reserved areas (006400h -
007FFFh) cannot be used.
• Be careful that the specified areas do not overlap one another.
• Set memory allocation so that the total of the 4 length values does not exceed the emulation
memory size (1.5 MB).
• Do not set unusable areas for memory allocation.
• Emulation pod memory is automatically selected as reset vector area regardless of settings.
Note on S/W Break:
• S/W breaks generate break interruptions by forcibly inserting a BRK instruction "08h" instead of
a instruction code. Therefore, when referencing the result of a trace in bus mode, "08h" is displayed
for the instruction fetch address where a S/W break is set.
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IMPORTANT
Note on Differences between Actual MCU and Emulator:
• Operations of the emulator differs from those of mask MCUs as listed below.
(1) Reset condition
(2) Initial values of internal resource data at power-on
(3) Interrupt stack pointer (ISP) after releasing reset
(4) Internal memories (ROM and RAM) capacities, etc.
This emulator system has an MCU with 24KB RAM (0400h - 63FFh). In single-chip mode
or memory expansion mode, emulation memory for internal ROM is automatically allocated
in the area between FC0000h through FFFFFFh, and it can be read and written into.
(5) Oscillator circuit
• Make note of the fact that in the oscillator circuit where a resonator is connected between
the XIN and XOUT pins, oscillation does not occur because a flexible cable, buffer IC and other
devices are used between the evaluation MCU and the target system. It is same for sub-clock
oscillators (XCIN and XCOUT).
• For notes on when using the oscillator circuit on the target system, refer to "3.3 (1) Using
the Oscillator Circuit on the Target System" (page 30).
(6) A-D conversion
As a flexible cable, a pitch converter board and other devices are used between the evaluation
MCU and the target system, some characteristics are slightly different from those of the actual
MCU. Perform final evaluations of the A-D converter with the actual MCU.
(7) Port P10
As a part of I/O port (P10) is connected to the target system through the analog switch circuit,
electric characteristics slightly differ from those of actual MCU.
(8) Voltage
When using this product with the operating frequency at 20 MHz, the voltage of the target
system should be +5.0 to +5.5 V.
Notes on Watchdog Function:
• The MCU's watchdog timer can be used only while programs are being executed. To use it
otherwise, disable the watchdog timer. And take note that when the following two conditions are
satisfied, programs can not be executed.
(1) The watchdog timer function selection bit (CM06) of the system clock control register 0 is set
to "1".
(2) The HOLD function is used while the watchdog timer is operating.
• If the reset circuit of the target system has a watchdog timer, disable it when using the emulator.
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IMPORTANT
Notes on A-D Input Selection Function:
• To use A-D input group selection, it is necessary to set the direction register of port P10 to input.
Port 10 corresponds to the pin that performs A-D conversion.
Example: To select A-D input for P00-P07, set the direction register of P100-P107 and P00-P07
to input.
Also, when the port P0 group and port P2 group are selected for A-D input, port P10 cannot be used
as an I/O port.
• Because a flexible board and other elements exist between the evaluation MCU and target system,
the A-D converter operates differently than the actual MCU. Perform final evaluations of the A-
D converter with the actual MCU.
Note on DMA Transfer:
• With this product, the program is stopped with a loop program to a specific address. Therefore, if
a DMA request is generated by a timer or other source while the program is stopped, DMA transfer
is executed. However, make note of the fact that DMA transfer while the program is stopped may
not be performed correctly. Also note that the below registers have been changed to generate DMA
transfer as explained here even when the program is stopped.
DMA2 transfer counter register DCT2 (R0)
DMA3 transfer counter register DCT3 (R1)
DMA2 memory address register DMA2 (A0)
DMA3 memory address register DMA3 (A1)
Note on Address Match Interrupt:
• To debug with the address match interrupt, set the S/W and H/W breaks in the top address used in
address match interrupt processing.
Note on Protect Resistor:
• Make note of the fact that the protect is not canceled when protect register 3 (PRC2), which enables
writing in the port P9 direction register and the pin output function select register, is changed with
the below procedure.
(1) Step execution of the "instruction for setting ("1") PRC2"
(2) Setting the break point from the "instruction for setting ("1") PRC2" to when the "port P9
direction register or pin output function select register 3 is set"
(3) Setting "("1") PRC2" from the dump window or script window during user program execution
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MEMO
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Chapter 2. Preparation
This chapter describes the package components, the system configuration and the preparation for using this product for the
first time.
2.1 Terminology ............................................................................................................................... 18
2.2 Package Components.................................................................................................................. 19
2.3 Other Tool Products Required for Development........................................................................ 19
2.4 Name of Each Part...................................................................................................................... 20
(1) System Configuration ........................................................................................................... 20
(2) Inside of Emulation Pod ....................................................................................................... 21
2.5 When Using the Emulator for the First Time ............................................................................. 22
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Chapter 2. Preparation
2.1 Terminology
Some specific words used in this user's manual are defined as follows:
Emulator system
This means an emulator system built around the PC4701 emulator. The PC4701 emulator system is
configured with an emulator main unit, emulation pod, host machine and emulator debugger.
Emulator main unit (Hereafter PC4701)
This means a generic name for emulators for 8 and 16-bit MCUs. For details on specific models of
PC4701, visit Renesas Tools Homepage.
Emulation pod
This means the M30803T-RPD-E (this product). This emulation pod is for M16C/80 Group MCUs.
Host machine
This means a personal computer used to control the emulator and emulation pod.
Emulator debugger
This means a software tool M3T-PD308 to control the emulator from the host machine through an
interface.
Firmware
Program that analyzes contents of communication with the emulator debugger and controls the
emulator hardware. This program is installed in the EEPROM. This program is downloadable from
the emulator debugger to upgrade the firmware or to support other MCUs.
Software break
A software break is a function to break the program before the system executes an instruction at the
specified address. The instruction at the preset address will not be executed.
Hardware break
A hardware break is a function to break the program when the system detects a write/read of data to/
from memory or a rise/fall edge of the signal entered from the external trace cable. The former break
function is called address break; and the latter break function is called trigger break. While the
instruction at the address where the software break is set is not executed, a hardware break is
performed after the specified instruction is executed.
Evaluation MCU
This means the microcomputer mounted on the emulation pod which is operated in the specific mode
for tools.
Target MCU
This means the microcomputer you are going to debug.
Target system
This means a user's application system using the microcomputer to be debugged.
*
In this user's manual, this symbol is used to show active LOW. (e.g. RESET*: Reset signal)
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2.2 Package Components
The M30803T-RPD-E package consists of the following items. When unpacking, check to see if your
M30803T-RPD-E contains all of these items.
Table 2.1 Package components
Item
Quantity
M30803T-RPD-E emulation pod main unit
1
1
FLX120-RPD flexible cable for connecting emulator main unit
FLX160-PRB converter board for connecting FLX160 to M30800T-PTC
(mounted on FLX160)
1
M30800T-PTC converter board for 100-pin LCC package
OSC-2 oscillator circuit board (bare-board)
1
1
1
1
1
1
Hardware tool user registration FAX sheet (English)
Hardware tool user registration FAX sheet (Japanese)
M30803T-RPD-E user's manual (this manual)
M30803T-RPD-E user's manual (Japanese)
Please keep the M30803T-RPD-E’s packing box and cushion material in your place for reuse at a later
time when sending your product for repair or other purposes. Always use these packing box and
cushion material when transporting M30803T-RPD-E.
If any of these items are missing or found faulty, please contact your local distributor. Also, if there
is any question or doubt about the packaged product, contact your local distributor.
2.3 Other Tool Products Required for Development
To bring forward programs development on the M16C/80 Group MCUs, the products listed below
are necessary in addition to those contained package above. Get them separately.
Table 2.2 Other tool products
Product
Product name
PC4701
Notes
Emulator main unit
Emulator debugger
Required
Required
M3T-PD308
144-pin 0.5-mm-pitch LQFP
(144P6Q-A)
FLX-144NSD
Required according to the foot
pattern of the target system
(see 3.6 "Connecting the Target
System" on page 36)
100LCC-QSD
100-pin 0.5-mm-pitch LQFP
(100P6Q-A)
100LCC-DMS + FLX-100NSD
100LCC-DMS + DUMMY100S
100LCC-DMS + DIRECT100S
100LCC-DMS + FLX-100NRB
IC51-1004-051 etc.
100-pin 0.65-mm-pitch QFP
(100P6S-A)
100-pin LCC socket
* To purchase these products, contact your nearest distributer.
* For details on the IC51-1004-51, contact Yamaichi Electronics Co., Ltd.
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2.4 Name of Each Part
(1) System Configuration
Figure 2.1 System configuration
(1) to (4) in Figure 2.1 are included in this product package.
(1) Emulation pod (M30803T-RPD-E)
This emulation pod contains an evaluation MCU, emulation memory and circuit to feature the
debugging function.
(2) Flexible cable (FLX120-RPD)
This 120-pin flexible cable connects the PC4701 emulator and the emulation pod.
(3) Flexible cable (FLX160)
This 160-pin flexible cable connects the emulation pod and the target system.
(4) Converter board
This is a converter board for connecting to the target system.
For details, refer to "3.6 Connecting the Target System" (page 36).
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(2) Inside of Emulation Pod
Figure 2.2 Internal view of emulation pod
(1) Base board
Base board for the M16C/80 Group MCUs which controls the interface with the PC4701 and the
evaluation MCU.
(2) Memory board
Board on which the 1.5MB emulation memory is mounted.
(3) Oscillation circuit board
Board on which the internal oscillation circuit of the emulation pod is mounted. Operating
frequency can be changed by replacing this board with other available oscillation circuit boards.
(4) MCU-dependent board
Board grouping parts (number of pins or added functions) which vary according to MCU model.
(5) MCU board
Board on which the MCU and the emulation memory for the MCU's internal ROM are mounted.
It is planned to enable customers to use future M16C/80 Group models (Max. 20 MHz applicable
frequency) by changing the MCU-dependent board and MCU board.
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2.5 When Using the Emulator for the First Time
If you have purchased this emulation pod newly, it is necessary to download the firmware. The
download procedure is given in Figure 2.3.
Before attempting to download the firmware, check the emulator debugger is installed and the
emulator is connected to the host machine. For more information, see each user's manual of the
emulator debugger and the PC4701.
See "3.5 Connecting the PC4701
and Emulation Pod" (page 34).
Connect the PC4701 and this product.
Within 2 seconds of turning the power ON, press the
RESET button of the PC4701 and check maintenance
mode is accessed.
See "4.2 Downloading Firmware"
(page 48).
Download the firmware using the emulator debugger.
Quit the emulator debugger and shut down the PC4701.
Figure 2.3 Firmware download procedure when emulator is used for the first time
To make sure the emulation pod works properly, run the self-check. For self-check procedures, see
"4.4 Self-check" (page 53).
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Chapter 3. Setting Up
This chapter describes switch settings required for using this product and how to connect this product to the PC4701 and
the target system.
3.1 Removing the Upper Cover........................................................................................................ 24
3.2 Switch Settings ........................................................................................................................... 25
3.3 Selecting Clock Supply .............................................................................................................. 29
(1) Using the Oscillator Circuit on the Target System ............................................................... 30
(2) Changing the Internal Oscillator Circuit of Emulation Pod ................................................. 31
(3) Replacing the Oscillator Circuit Boards ............................................................................... 32
3.4 A-D Conversion Bypass Capacitor ............................................................................................ 33
3.5 Connecting the PC4701 and Emulation Pod .............................................................................. 34
(1) Connecting the Cable to the PC4701 .................................................................................... 34
(2) Connecting the Cable to the Emulation Pod ......................................................................... 35
3.6 Connecting the Target System.................................................................................................... 36
(1) Connecting 100-pin LCC Socket .......................................................................................... 37
(2) Connecting 100-pin 0.65-mm-pitch Foot Pattern (Part 1) .................................................... 38
(3) Connecting 100-pin 0.65-mm-pitch Foot Pattern (Part 2) .................................................... 39
(4) Connecting 100-pin 0.65-mm-pitch Foot Pattern (Part 3) .................................................... 40
(5) Connecting 100-pin 0.5-mm-pitch Foot Pattern (Part 1) ...................................................... 41
(6) Connecting 100-pin 0.5-mm-pitch Foot Pattern (Part 2) ...................................................... 42
(7) Connecting 144-pin 0.5-mm-pitch Foot Pattern ................................................................... 43
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Chapter 3. Setting Up
To use this emulation pod with your application system, it is necessary to set as follows. Set the
following after removing the upper cover.
• Change the oscillation frequency.
• Set the XCIN and XCOUT pins for the target system.
• Set the signals such as HOLD/RDY to control the external device.
• Install the A-D conversion bypass capacitor.
3.1 Removing the Upper Cover
The procedure of removing the upper cover is shown below.
(1) Remove the four screws of both sides of this product and lift off the upper cover (see Figure 3.1).
(2) Set the jumper switches.
(3) Replace the upper cover and secure the four screws.
Figure 3.1 Removing the upper cover
CAUTION
When Removing the Upper Cover:
• Always shut OFF power when removing the upper cover or setting the switches.
• Do not touch the connector pins of the emulator main unit and the target MCU
connector pins. Static electricity may damage the internal circuits.
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3.2 Switch Settings
Figure 3.2 shows the positions of switches and Tables 3.1, 3.2 and 3.3 show each switch setting.
Figure 3.2 Positions of switches and their factory-settings
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Table 3.1 Switch settings of the M30803T-RPD-E (1/3)
Signal
Switch
Setting
Description
Connects the P87/XCIN pin of MCU to the target
system (uses the P87/XCIN pin as Port P87).
SW1
Connects the P87/XCIN pin of MCU to the sub-clock
oscillator circuit (32.768 kHz) on the emulation
pod.
P87/XCIN
P86/XCOUT
Connects the P86/XCOUT pin of MCU to the target
system (uses the P86/XCOUT pin as Port P86).
SW2
P86/XCOUT pin of MCU is unconnected.
Connects the P86/XCOUT pin of MCU to the target
system (uses the P86/XCOUT pin as XCOUT).
XOUT pin of MCU is unconnected.
XOUT
SW3
Connects the XOUT pin of MCU to the target system.
Pulls up the RDY* and HOLD* pins of MCU with a
resistance of 33 kΩ.
Be sure to set this when using the emulation pod
while not connecting the target system.
RDY*/
HOLD*
SW4
Connects the RDY* and HOLD* pins of MCU to the
target system.
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Table 3.2 Switch settings of the M30803T-RPD-E (2/3)
Signal
Switch
Setting
Description
Pulls down the CNVSS pin with a resistance of 33
kΩ (when target system is unconnected and using
in single-chip mode or memory expansion mode).
Be sure to set this when using the emulation pod
while not connecting the target system.
CNVSS
SW5
Connects the CNVSS pin to the target system.
Pulls up the CNVSS pin with a resistance of 33 kΩ
(when target system is unconnected and using in
microprocessor mode).
Be sure to set this when using the emulation pod
while not connecting the target system.
Pulls down the BYTE pin with a resistance of 33 kΩ
(when target system is unconnected and using in
16-bit bus mode).
Be sure to set this when using the emulation pod
while not connecting the target system.
BYTE
SW6
Connects the BYTE pin to the target system.
Pulls up the BYTE pin with a resistance of 33 kΩ
(when target system is unconnected and using in
8-bit bus mode).
Be sure to set this when using the emulation pod
while not connecting the target system.
Set when not using the A-D input group selection
function. Use this product with this setting.
A-D input
Select group
SW7
Set when using the A-D input group selection
function. This product cannot be used with this
setting.
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Table 3.3 Switch settings of the M30803T-RPD-E (3/3)
Signal
Switch
Setting
Description
Set when using at the range of the voltage within
+4.2 to +5.5 V.
JP1
M30803T-RPDM
Board
Voltage
Set when using at the range of the voltage within
+2.7 to +4.2 V.
IMPORTANT
Note on Switch Setting:
• Switch settings of RDY*/HOLD*, CNVss and BYTE are provided to enable
debugging without connecting to the target system. When using the emulator
debugger in connection with the target system, set SW4 to the OPEN position and
SW5 and SW6 to the center position.
Note on Using A-D Input Group Selection:
• It is necessary to set the direction register of port P10 to input. Port P10 corresponds
to the pin that performs A-D conversion.
Example: To select A-D input for P00-P07, set the direction registers of P100-P107
and P00-P07 to input. Also, when the port P0 group and port P2 group are
selected for A-D input, port P10 cannot be used as an I/O port.
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3.3 Selecting Clock Supply
There are two ways to supply a clock to the MCU, using the oscillator circuit of the emulation pod
or using the oscillator circuit on the target system. Table 3.4 shows the factory-settings of each clock
supply.
Table 3.4 Clock supply to the MCU
Clock
Description
Display of emulator debugger Factory-setting
Internal oscillator circuit of emulation pod
(OSC-3: 20 MHz)
Internal
External
Internal
External
Yes
XIN-XOUT
Target system
-
-
Internal oscillator circuit of emulation pod
(32.768 KHz)
XCIN-XCOUT
Target system
Yes
IMPORTANT
Notes on Changing the Clock Supply:
• The clock supply can be set by the Init dialog when starting up the emulator debugger
or inputting CLK command on the script window.
• For XCIN-XCOUT pins, it is necessary to set switches in the emulation pod when using
the clock on the target system. For details, refer to "3.2 Switch Settings" (page 25).
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(1) Using the Oscillator Circuit on the Target System
When turning on the power supply, the internal clock of emulation pod is selected to supply the clock
to the MCU. To use the external clock on the target system, change the clock by the CLK command
or the Init dialog on the emulator debugger. (For details, refer to the user's manual of the emulator
debugger.)
Figure 3.3 External oscillator circuit
Figure 3.4 Circuit in which oscillation does not occur (same for XCIN-XCOUT)
IMPORTANT
Notes on External Clock:
• To operate the emulation pod with an external clock, construct the oscillator circuit
as shown in Figure 3.3 in the target system and input the oscillator output at 50% duty
(within the operating range of the evaluation MCU) into the XIN pin. And the XOUT
pin should be open.
• Make note of the fact that in the oscillator circuit shown in Figure 3.4 where a
resonator is connected between the XIN and XOUT pins, oscillation does not occur
because a flexible cable, buffer IC and other devices are used between the evaluation
MCU and the target system. It is same for sub-clock oscillator circuits (XCIN and
XCOUT).
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(2) Changing the Internal Oscillator Circuit of Emulation Pod
An oscillator circuit board (OSC-3) for 20 MHz is mounted on this product. To use the emulation pod
at a frequency other than 20 MHz, build the desired oscillator circuit on the included OSC-2 oscillator
circuit board (bare board) and replace the board installed in the emulation pod when shipped from
the factory.
Figure 3.5 shows a view of the OSC-2 oscillator circuit board (bare board) and where connector pins
are located. Figure 3.6 shows the circuitry of the OSC-2 oscillator circuit board (bare board). Use the
number of oscillator circuits recommended by the oscillator manufacturer.
J1-4: GND
J1-3: Oscillator output
J1-2: GND
J1-1: Vcc
Figure 3.5 External view of oscillator board (OSC-2) and connector pin assignment
IC1
IC1
CLK
11
10
9
8
J1-3
J1-1
R1
Vcc
1
2
*
*
R2
X1 ,X2
14
IC1
3
5
4
6
C3
7
J1-2
J1-4
C2
C1
13
12
GND
GND
*
X3
IC1
* X1: 5.08-mm-pitch 2-pin oscillator
* X2: 2.54-mm-pitch 2-pin oscillator
* X3: 2.54-mm-pitch 3-pin oscillator
IC1: Inverter (Unbuffer)
Figure 3.6 Circuit of oscillator board (OSC-2)
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(3) Replacing the Oscillator Circuit Boards
Figure 3.7 shows how to replace the oscillator circuit boards. For the position of the oscillator circuit
board, see Figure 2.2.
(1) Unscrew the screw connecting the oscillator circuit board.
(2) Lift off the oscillator circuit board.
(3) Attach the J1 connector of another oscillator circuit board
for replacement to the connector of the MCU-dependent
board.
(4) Secure the oscillator circuit board with the screw.
Figure 3.7 Replacing the oscillator circuit boards
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3.4 A-D Conversion Bypass Capacitor
The emulation pod has foot patterns on the board for mounting a bypass capacitor. Mount a suitable
bypass capacitor as occasion demands.
Figure 3.2 shows where the bypass capacitors are mounted, whereas Figure 3.8 shows an enlargement
of the foot patterns.
Figure 3.8 Foot patterns of A-D conversion bypass capacitor
IMPORTANT
Note on the A-D Converter:
• Because a flexible board and other devices are used between the evaluation MCU
and the target system, the A-D converter operates differently from the actual MCU.
Make the final evaluation of the A-D converter from the actual MCU.
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3.5 Connecting the PC4701 and Emulation Pod
To connect the emulation pod to the PC4701, use the FLX120-RPD 120-pin flexible cable included
in this product package. Connect the PC4701 side connector of FLX120-RPD to the cable connector
of the PC4701, then secure with screws.
(1) Connecting the Cable to the PC4701
Figure 3.9 shows how to connect the PC4701 and FLX120-RPD.
Figure 3.9 Connecting PC4701 and FLX120-RPD
CAUTION
Note on Connecting the Cable:
• Always shut OFF power before connecting the cable. The power ON state could
destroy internal circuits.
• To connect the FLX120-RPD, be sure to hold the both sides of the PC4701 side
connector horizontally with the "UPSIDE" facing up.
Note on Securing the Screws:
• After connecting the emulator main unit to the cable, be sure to secure the screws.
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(2) Connecting the Cable to the Emulation Pod
Figure 3.10 shows how to connect the FLX120-RPD and the emulation pod.
Figure 3.10 Connecting emulation pod and FLX120-RPD
CAUTION
Note on Connecting the Cable:
• Always shut OFF power before connecting the cable. The power ON state could
destroy internal circuits.
Note on Securing the Screws:
• After connecting the emulator main unit to the cable, be sure to secure the screws.
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3.6 Connecting the Target System
There are seven ways available to connect the emulation pod to target systems as shown in Figure 3.11.
Figure 3.11 Connecting emulation pod and target systems
CAUTION
Note on Connecting the Target System:
• Take care not to attach the converter board in a wrong direction. It may cause a fatal
damage to the emulation pod.
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(1) Connecting 100-pin LCC Socket
When connecting the emulation pod probe to the 100-pin LCC socket (Yamaichi Electronics Co.,
Ltd.: IC51-1004-051 etc.) on the target system, following the procedure below.
(1) Attach the CN2 side of the FLX160-PRB to the CN2 side of the M30800T-PTC.
(2) Attach the M30800T-PTC to the 100-pin LCC socket.
Figure 3.12 Connecting emulation pod and 100-pin LCC socket
CAUTION
Notes on Connecting the Target System:
• Take care not to attach the converter board in a wrong direction. It may cause a fatal
damage to the emulation pod.
• The small connectors of M30800T-PTC are guaranteed for only 50 insertion/
removal iterations.
• For purchasing the IC51-1004-051 or for technical information, contact Yamaichi
Electronics Co., Ltd.
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(2) Connecting 100-pin 0.65-mm-pitch Foot Pattern (Part 1)
Figure 3.13 shows how to connect the emulation pod probe to the 100-pin 0.65-mm-pitch foot pattern
on the target system with the DUMMY100S (not included), and here following is its procedure. For
details on the 100LCC-DMS and DUMMY100S, refer to each user's manual.
(1) Attach the DUMMY100S to the target system.
(2) Attach the 100LCC-DMS to the DUMMY100S.
(3) Attach the M30800T-PTC to the FLX160-PRB.
(4) Attach the M30800T-PTC to the 100LCC-DMS.
Figure 3.13 Connecting emulation pod probe and 100-pin 0.65-mm-pitch foot pattern (part 1)
CAUTION
Notes on Connecting the Target System:
• Take care not to attach the converter board in a wrong direction. It may cause a fatal
damage to the emulation pod.
• The small connectors of 100LCC-DMS and DUMMY100S are guaranteed for only
20 insertion/removal iterations.
• The small connectors of M30800T-PTC are guaranteed for only 50 insertion/
removal iterations.
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(3) Connecting 100-pin 0.65-mm-pitch Foot Pattern (Part 2)
Figure 3.14 shows how to connect the emulation pod probe to the 100-pin 0.65-mm-pitch foot pattern
on the target system with the DIRECT100S (not included), and here following is its procedure. For
details on the 100LCC-DMS and DIRECT100S, refer to each user's manual.
(1) Attach the DIRECT100S to the target system.
(2) Attach the 100LCC-DMS to the DIRECT100S.
(3) Attach the M30800T-PTC to the FLX160-PRB.
(4) Attach the M30800T-PTC to the 100LCC-DMS.
Figure 3.14 Connecting emulation pod probe and 100-pin 0.65-mm-pitch foot pattern (part 2)
CAUTION
Notes on Connecting the Target System:
• Take care not to attach the converter board in a wrong direction. It may cause a fatal
damage to the emulation pod.
• The small connectors of 100LCC-DMS and DIRECT100S are guaranteed for only
20 insertion/removal iterations.
• The small connectors of M30800T-PTC are guaranteed for only 50 insertion/
removal iterations.
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(4) Connecting 100-pin 0.65-mm-pitch Foot Pattern (Part 3)
Figure 3.15 shows how to connect the emulation pod probe to the 100-pin 0.65-mm-pitch foot pattern
on the target system with the FLX-100NRB (not included), and here following is its procedure. For
details on the 100LCC-DMS and FLX-100NRB, refer to each user's manual.
(1) Attach the FLX-100NRB to the target system.
For details on how to attach the FLX-100NRB to the target system, see the user's manual of
the FLX-100NRB.
(2) Attach the 100LCC-DMS to the FLX-100NRB.
(3) Attach the M30800T-PTC to the FLX160-PRB.
(4) Attach the M30800T-PTC to the 100LCC-DMS.
Figure 3.15 Connecting emulation pod probe and 100-pin 0.65-mm-pitch foot pattern (part 3)
CAUTION
Notes on Connecting the Target System:
• Take care not to attach the converter board in a wrong direction. It may cause a fatal
damage to the emulation pod.
• The small connectors of 100LCC-DMS and FLX-100NRB are guaranteed for only
20 insertion/removal iterations.
• The small connectors of M30800T-PTC are guaranteed for only 50 insertion/
removal iterations.
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(5) Connecting 100-pin 0.5-mm-pitch Foot Pattern (Part 1)
Figure 3.16 shows how to connect the emulation pod probe to the 100-pin 0.5-mm-pitch foot pattern
on the target system with the 100LCC-QSD (not included), and here following is its procedure. For
details on the 100LCC-QSD, refer to its user's manual.
(1) Attach the 100LCC-QSD to the target system.
For details on how to attach the 100LCC-QSD to the target system, see the user's manual of
the 100LCC-QSD.
(2) Attach the M30800T-PTC to the FLX160-PRB.
(3) Attach the M30800T-PTC to the 100LCC-QSD.
Figure 3.16 Connecting emulation pod probe and 100-pin 0.5-mm-pitch foot pattern (part 1)
CAUTION
Notes on Connecting the Target System:
• Take care not to attach the converter board in a wrong direction. It may cause a fatal
damage to the emulation pod.
• The small connectors of M30800T-PTC are guaranteed for only 50 insertion/
removal iterations.
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(6) Connecting 100-pin 0.5-mm-pitch Foot Pattern (Part 2)
Figure 3.17 shows how to connect the emulation pod probe to the 100-pin 0.5-mm-pitch foot pattern
on the target system with the FLX-100NSD (not included), and here following is its procedure. For
details on the 100LCC-DMS and FLX-100NSD, refer to each user's manual.
(1) Attach the FLX-100NSD to the target system.
For details on how to attach the FLX-100NSD to the target system, see the user's manual of
FLX-100NSD.
(2) Attach the 100LCC-DMS to the FLX-100NSD.
(3) Attach the M30800T-PTC to the FLX160-PRB.
(4) Attach the M30800T-PTC to the 100LCC-DMS.
Figure 3.17 Connecting emulation pod probe and 100-pin 0.5-mm-pitch foot pattern (part 2)
CAUTION
Notes on Connecting the Target System:
• Take care not to attach the converter board in a wrong direction. It may cause a fatal
damage to the emulation pod.
• The small connectors of 100LCC-DMS and FLX-100NSD are guaranteed for only
20 insertion/removal iterations.
• The small connectors of M30800T-PTC are guaranteed for only 50 insertion/
removal iterations.
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(7) Connecting 144-pin 0.5-mm-pitch Foot Pattern
Figure 3.18 shows how to connect the emulation pod probe to the 144-pin 0.5-mm-pitch foot pattern
on the target system with the FLX-144NSD (not included), and here following is its procedure.
(1) Attach the NQPACK144SD (NQPACK, hereafter) included with the FLX-144NSD to the
target system.
(2) Attach the YQPACK144SD (YQPACK, hereafter) included with the FLX-144NSD to the
NQPACK, matching three holes of NQPACK and YQPACK.
(3) Insert the YQ-GUIDE's included with the YQPACK to the YQPACK, using the screwdriver
included with the NQPACK.
(4) Attach the FLX160-PRB to the FLX-144NSD.
(5) Attach the FLX-144NSD to the YQSOCKET144SDF.
Figure 3.18 Connecting emulation pod probe and 144-pin 0.5-mm-pitch foot pattern
CAUTION
Notes on Connecting the Target System:
• Take care not to attach the converter board in a wrong direction. It may cause a fatal
damage to the emulation pod.
• The small connectors of FLX-144NSD are guaranteed for only 50 insertion/removal
iterations.
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MEMO
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Chapter 4. Usage
This chapter describes from turning on the power of this product to starting up the emulator debugger.
4.1 Turning On the Power Supply .................................................................................................... 46
(1) Checking the Connection of the System............................................................................... 46
(2) Turning On the Power Supply .............................................................................................. 46
(3) LED Display When PC4701 Starts Up Normally ................................................................ 47
4.2 Downloading Firmware.............................................................................................................. 48
(1) When It is Necessary to Download Firmware ...................................................................... 48
(2) Downloading Firmware in Maintenance Mode .................................................................... 48
4.3 Starting Up the Emulator Debugger (Setting EMEM Dialog) ................................................... 49
(1) Setting the Debug Monitor Bank Address ............................................................................ 49
(2) Selecting the Processor Mode............................................................................................... 50
(3) Setting the Emulation Memory............................................................................................. 50
(4) Emulation Memory Allocation as Expansion Area .............................................................. 50
(5) Referring MCU STATUS ..................................................................................................... 52
4.4 Self-check ................................................................................................................................... 53
(1) Self-check Procedure ............................................................................................................ 53
(2) If an Error is Detected in the Self-check............................................................................... 53
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Chapter 4. Usage
4.1 Turning On the Power Supply
(1) Checking the Connection of the System
Before turning the power ON, check the connection of the PC4701, emulation pod, converter board
and target system.
(2) Turning On the Power Supply
Power ON/OFF the target system and the PC4701 as simultaneously as possible.
CAUTION
Notes on Power Supply:
• The emulator's VCC pin is connected to the target system in order to monitor target
system voltage. For this reason, the emulator cannot supply power to the target
system. Therefore, provide the target system with a separate power supply from that
of the emulator.
• Keep target system power supply voltage within the MCU's specified range (+2.7
and 5.5 V).
• Do not change target system power supply voltage after power has been activated.
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(3) LED Display When PC4701 Starts Up Normally
After the emulator starts up, check the status of the LEDs on the front panel to see whether emulation
pod operation is enabled or not. Figure 4.1 shows front panel LED lighting status when the emulator
is turned ON.
Figure 4.1 LED display when the power turned on
IMPORTANT
Note on Memory Expansion Mode and Microprocessor Mode:
• To use the memory expansion or microprocessor mode, be sure to set the RDY*,
HOLD* and NMI* pins so that they are not active at startup. Otherwise the emulator
system will not function correctly.
Note on CLOCK LED:
• If CLOCK LED does not turn on, check the following points:
(1) Immediately after starting PC4701 (before starting the emulator debugger)
--> Check if the oscillation circuit within the emulation pod oscillates normally.
(2) After starting the emulator debugger (after setting the Init dialog)
--> Check the oscillation circuit set in the Init dialog oscillates normally.
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4.2 Downloading Firmware
(1) When It is Necessary to Download Firmware
It is necessary to download firmware when:
(1) you use this product for the first time
(2) the firmware is upgraded
(3) the emulator debugger is upgraded
(4) use this product with the PC4701 which was used with other emulation pod before
(2) Downloading Firmware in Maintenance Mode
Download the firmware in maintenance mode as explained here following. The target system must
not be connected when downloading the firmware.
(1) Within 2 seconds of activating power to the emulator, press the RESET button on the emulator
front panel. This will switch the emulator to maintenance mode.
(2) Start up the emulator debugger. When the Init dialog box setup is completed, the dialog which
urges to download the firmware will appear. Download the firmware following messages.
Required time for downloading the firmware depends on the connection of the interface.
• For serial interface
• For parallel interface
approx. 7 minutes
approx. 30 seconds
Figure 4.2 Downloading firmware in maintenance mode
IMPORTANT
Note on Downloading Firmware:
• Do not shut OFF power while the firmware is being downloaded. Doing so, the
emulator will not start up properly. If power is shut OFF by mistake, redownload the
firmware in maintenance mode.
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4.3 Starting Up the Emulator Debugger (Setting EMEM Dialog)
The EMEM dialog will appear after setting the Init dialog by starting up the emulator debugger or
completing downloading the firmware. Here explains how to set the processor mode of the target
MCU, allocate the emulation memory and set the emulator work area. Figure 4.3 shows the EMEM
dialog display.
1. Debug monitor bank address
2. Processor mode
3.Allocation of the
internal ROM area
4.Display of the level of
each pin
5. Allocations of the expansion emulation memory
Figure 4.3 EMEM dialog
(1) Setting the Debug Monitor Bank Address
With this product, 64 consecutive KB of the emulator's work area are allocated to the debug monitor.
When "F0" is specified, 64 KB starting from address F00000h are allocated for use by the debug
monitor. Specify an unused area.
IMPORTANT
Notes on Setting Debug Monitor Bank Address:
• It is not possible to view or set the content of the specified area. Even on the dump
window or in the reverse assemble area of the program/source windows, the content
of this area is not displayed correctly though it can be displayed.
• The below bank addresses cannot be set for the debug monitor.
(1) MCU internal resources (RAM/SFR area)
(2) DRAM area or multiplex area
(3) Interrupt vector area
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(2) Selecting the Processor Mode
Here explains about the setting of processor mode. Selectable modes are listed in Table 4.1.
Table 4.1 Selecting the processor mode
Processor mode
Single-chip mode
Select from the list
Single-chip Mode
Memory expansion mode
Microprocessor mode
Memory Expansion Mode
Microprocessor Mode
IMPORTANT
Notes on Selecting the Processor Mode:
• When setting single-chip mode and memory expansion mode, the level of the
CNVss pin of the target system should be "L".
• When setting microprocessor mode, the level of the CNVss pin of the target system
should be "H".
• When setting memory expansion mode or microprocessor mode, the RDY* and
HOLD* pins of the target system should be "H".
(3) Setting the Emulation Memory
This product has two emulation memory and how to allocate is different depending on which
processor mode is selected. Table 4.2 shows how to set the emulation memory for each processor
mode.
Table 4.2 Setting the emulation memory
Processor mode
Emulation memory for internal ROM Emulation memory for expansion area
The area FC0000h-FFFFFFh is
Cannot be used.
Single-chip Mode
allocated automatically.
The area FC0000h-FFFFFFh is
allocated automatically.
Possible to specify the desired area
between Area 1 and 4.
Memory Expansion Mode
Microprocessor Mode
Possible to specify the desired area
between Area 1 and 4.
Cannot be used.
(4) Emulation Memory Allocation as Expansion Area
This section explains about setting emulation memory for expansion purposes in the memory
expansion mode and microprocessor mode. To use emulation memory as expansion area, set memory
allocation as indicated here below. Emulation memory specifications are given in Table 4.3.
(1) Setting bank address (Bank): Specify the bank address of the area to be allocated for expansion
as a hexadecimal number.
For example, specifying "C0" allocates the bank from address C00000h.
When 256 KB is specified as the Length, bank addresses can be specified in 256KB blocks up to
00, 04, 08 and - FC.
When 1 MB is specified as the Length, bank addresses can be specified in 1MB blocks up to 00,
10, 20 and - F0.
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(2) Specifying area size (Length): Specify the size of the specified expansion area. The area from
the specified address to the size specified here is allocated as
external area or internal area. Length can be specified as 256 KB
or 1 MB.
(3) Specifying area map (Map):
Select whether the specified area is to be allocated as internal
area (used as emulation memory) or external area (used by
external device, etc.).
• When INTERNAL is specified: This bank is allocated as internal area and used for expan-
sion.
• When EXTERNAL is specified: This bank is allocated as external area and used by the target
system as an external resource.
• When No Use is specified:
This bank is allocated as external area and used by the target
system as an external resource.
Areas not specified here are allocated as external area. The only difference from the area specified
as EXTERNAL area is download speed. Download to the area specified as EXTERNAL area is
faster than to other areas.
IMPORTANT
Notes on Using Emulation Memory for Expansion:
• When the single-chip mode and memory expansion mode are set by specifying the
processor mode, emulation memory is automatically allocated to the internal ROM
area. Therefore, it is not necessary to deliberately specify emulation memory as
expansion area in order to allocate the internal ROM area.
• The 1.5MB memory mounted in the product can be allocated out. Set memory
allocation so that the total of the 4 length values does not exceed the emulation
memory size (1.5 MB).
• Be careful that the specified areas do not overlap one another.
• Even when "00" is specified as the expansion area, internally reserved areas
(006400h - 007FFFh) cannot be used.
• Do not set the following areas for memory allocation of the MCU. Set these areas
referring the specifications of the MCU.
(1) Area allocated for DRAM connection
(2) Area allocated for multiplex bus
(3) Unusable area
• Emulation pod memory is automatically selected as reset vector area regardless of
settings.
• Except for the SFR, RAM, ROM and internally reserved areas, all areas other than
the set area are externally accessible.
• MCU internal resources are automatically selected as SFR and RAM areas regard-
less of settings.
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Table 4.3 Specifications of expansion emulation memory
Maximum operating frequency
Number of area which can be set
Area size
20 MHz, 1 wait
Max. 4 areas
Successive 256 KB or 1 MB
Total of 4 areas: 1.5 MB
Emulation memory size
Possible bank to be set
(1) For area size 256 KB
X0h, X4h, X8h, XCh bank
e.g.) 20 bank, 64 bank, A8 bank, EC bank etc.
(2) For area size 1 MB
X0h bank
e.g.) 20 bank, 40 bank, 80 bank, A0 bank etc.
Possible combination of areas
(1) 256 KB
(2) 256 KB + 256KB
(3) 256 KB + 256KB + 256KB
(4) 256KB + 256KB + 256KB + 256KB
(5) 1 MB
(6) 1 MB + 256 KB
(7) 1 MB + 256 KB + 256 KB
(8) none
IMPORTANT
Note on Memory Access:
• When setting the processor mode to the memory expansion mode, it may be changed
to the memory expansion mode temporarily before the user program itself changes
from the single-chip mode to the memory expansion mode.
Take due consideration on this phenomenon in the following cases:
(1) Immediately before executing the program after setting a software break
(2) Immediately after stopping the program when a software break is set
(5) Referring MCU STATUS
It is possible to confirm each level of BYTE, CNVss, RDY*, HOLD*, NMI* pins on the target
system.
IMPORTANT
Notes on MCU STATUS:
• The status of pins of MCU is displayed in the "MCU STATUS" of the EMEM dialog.
Confirm if it matches with the processor mode.
• Check that "RDY", "HOLD" and "NMI" are set to "H". If they are set to the "L" level,
the MCU itself is in the standby state. The emulator debugger displays an error
message because it receives no response from the MCU.
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4.4 Self-check
(1) Self-check Procedure
To run the emulator self-check, do so as explained here below. While the self-check is in progress,
LEDs will change as shown in Figure 4.5.
(1) Set the switches in the emulation pod same as the factory setting (see Figure 4.4).
(2) When the target system is connected, disconnect the target system.
(3) Within 2 seconds of activating power to the emulator, press the RESET button on the emulator
front panel to switch the emulator to maintenance mode.
(4) Check the "SAFE" LED starts flashing and then press the RESET button again.
(5) The self-check will start. If the normal result is displayed in about 1 minute, the self-check has
terminated normally.
Figure 4.4 Switch settings when running the self-check
(2) If an Error is Detected in the Self-check
If the self-check does not result normally (ERROR 1 or ERROR 2 in Figure 4.5), check the following.
• Check the connection of the emulation pod and the PC4701.
• Redownload the proper firmware.
• Check if the switches in this product is set same as the factory-setting ("Figure 3.2 Positions of
switches and their factory-settings", page 25).
IMPORTANT
Note on Self-check:
• If the self-check does not result normally (excluding target system errors), the
emulation pod may be damaged. Contact your local distributor.
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Figure 4.5 Self-check procedure
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Chapter 5. Specifications
This chapter describes specifications of this product.
5.1 Specifications ............................................................................................................................. 56
5.2 Connection Diagram................................................................................................................... 57
5.3 Operation Timing in Memory Expansion Mode and Microprocessor Mode ............................. 59
(1) Timing Requirements ........................................................................................................... 59
5.4 Electrical Characteristics ............................................................................................................ 59
5.5 External Dimensions .................................................................................................................. 60
(1) External Dimensions of Emulation Pod................................................................................ 60
(2) External Dimensions of Converter Board (M30800T-PTC) ................................................ 61
(3) External Dimensions of Converter Board (FLX-144NSD) .................................................. 62
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Chapter 5. Specifications
5.1 Specifications
Table 5.1 lists the specifications of the M30803T-RPD-E.
Table 5.1 Specifications of the M30803T-RPD-E
Emulator
PC4701
Applicable MCUs
10KB RAM: M30800 (100-pin)
128KB ROM: M30802 (144-pin)*
24KB RAM: M30803 (100-pin)
256KB ROM: M30805 (144-pin)*
Evaluation MCU
Usable modes
M30805SGP (two pieces)
Single-chip mode
Memory expansion mode
Microprocessor mode
Emulation memory
(1) 256 KB for internal ROM of MCU
(Fixed FC0000h - FFFFFFh, maximum operating frequency: 20
MHz, 0 wait)
(2) 1.5 MB (changeable) for expansion area
(Possible to allocate by 256 KB or 1 MB, maximum operating
frequency: 20 MHz, 1 wait)
Maximum operating frequency 20 MHz (Operating voltage: 5.0 to 5.5 V, divide-by-1)
10 MHz (Operating voltage: 2.7 to 5.5 V, divide-by-1)
Clock oscillator
XIN-XOUT
Internal oscillator circuit board (OSC-3)
Switchable to external oscillator input
XCIN-XCOUT
2.7 to 5.5 V
Internal oscillator circuit board (32.768 kHz fixed)
Switchable to external oscillator input
Operating frequency
Operating temperature
Storage temperature
5 to 35°C (no dew)
-10 to 60°C (no dew)
Power supply to emulation pod Supplied from PC4701
Connection to target system
(see 3.6 "Connecting the Target
System" on page 36)
For 144-pin 0.5-mm-pitch LQFP (144P6Q-A):
FLX-144NSD (not included)
For 100-pin 0.5-mm-pitch LQFP (100P6Q-A):
(1) M30800T-PTC (included) + 100LCC-QSD (not included)
(2) M30800T-PTC (included) + 100LCC-DMS (not included) +
FLX-100NSD (not included)
For 100-pin 0.65-mm-pitch QFP (100P6S-A):
(1) M30800T-PTC (included) + 100LCC-DMS (not included) +
DUMMY100S (not included)
(2) M30800T-PTC (included) + 100LCC-DMS (not included) +
DIRECT100S (not included)
(3) M30800T-PTC (included) + 100LCC-DMS (not included) +
FLX-100NRB (not included)
For 100-pin LCC socket:
M30800T-PTC (included)
Overseas standards
• U.S. EMI standards (FCC part 15 Class A)
• CE marking (EN55022, EN50082-1)
* For M30802 and M30805, the FLX-144NSD (not included) is required.
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5.2 Connection Diagram
Figures 5.1 and 5.2 show the connection diagram of the M30803T-RPD-E. This connection diagram
mainly shows the interface section, and the circuits which are not connected to the target system such
as the emulator's control system are omitted.
Figure 5.1 Connection diagram 1/2
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Figure 5.2 Connection diagram 2/2
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5.3 Operation Timing in Memory Expansion Mode and Microprocessor Mode
As there are a flexible cable and other devices between this product and the target system, I/O timing
will differ from that of the actual MCU. Use the following as a reference when using the emulation pod.
(1) The output signal (address, RD*, WR*, etc.) of the evaluation MCU mounted on this product
is output delayed by about 4 ns.
(2) It takes longer time to setup the data than actual MCU by approx. 8 ns.
(1) Timing Requirements
Tables 5.2 and 5.3 list the timing requirements.
Table 5.2 Timing requirements (VCC = 5 V)
Actual MCU This product
Symbol
Item
Unit
Min.
26
26
30
0
Max. Min. Max.
tsu (DB-BCLK) Data input setup time
tsu (RDY-BCLK) RDY* input setup time
tsu(HOLD-BCLK) HOLD* input setup time
34
34
38
0
ns
ns
ns
ns
ns
ns
ns
ns
th (RD-DB)
Data input hold time
Data input hold time
th (CAS-DB)
0
0
th (BCLK-RDY) RDY* input hold time
th(BCLK-HOLD) HOLD* input hold time
td (BCLK-HLDA) HLDA* output delay time
0
0
0
0
25
25
Table 5.3 Timing requirements (VCC = 3 V)
Actual MCU This product
Symbol
Item
Unit
Min.
40
60
80
0
Max. Min. Max.
tsu (DB-BCLK) Data input setup time
tsu (RDY-BCLK) RDY* input setup time
tsu(HOLD-BCLK) HOLD* input setup time
ns
ns
ns
ns
ns
ns
ns
ns
48
68
88
0
th (RD-DB)
Data input hold time
Data input hold time
th (CAS-DB)
0
0
th (BCLK-RDY) RDY* input hold time
th(BCLK-HOLD) HOLD* input hold time
td (BCLK-HLDA) HLDA* output delay time
0
0
0
0
100
100
5.4 Electrical Characteristics
Table 5.4 shows IC electrical characteristics of the user interface. Use this as a reference when using
the emulator.
Table 5.4 Electrical characteristics of port P10 (TC74HC4066)
Measuring condition
Standard values
Symbol
Parameter
Unit
Vcc
2.0
Min. Standard Max.
1.50
-
-
-
-
-
-
VIHC
High level control input voltage
4.5
3.15
-
V
2.0
-
-
-
0.50
1.35
±100
VILC
IIN
Low level control input voltage
Input current
4.5
12.0
nA
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5.5 External Dimensions
(1) External Dimensions of Emulation Pod
Unit: mm
Figure 5.3 External dimensions of emulation pod
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(2) External Dimensions of Converter Board (M30800T-PTC)
Figure 5.4 shows the external dimensions of the converter board M30800T-PTC for 100-pin QFP
(100P6N).
Unit: mm
Figure 5.4 External dimensions of converter board (M30800T-PTC)
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(3) External Dimensions of Converter Board (FLX-144NSD)
Figure 5.5 shows the external dimensions and the foot pattern of the converter board FLX-144NSD
for 144-pin LQFP (144P6Q).
Unit: mm
Figure 5.5 External dimensions of converter board (FLX-144NSD)
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Chapter 6. Troubleshooting
This chapter describes how to troubleshoot when this product does not work properly.
6.1 Flowchart to Remedy the Troubles ............................................................................................ 64
6.2 When the Emulator Debugger Does Not Start Up Properly....................................................... 65
(1) When the LED Display of PC4701 is Abnormal.................................................................. 65
(2) EMEM Dialog is Not Displayed When the Emulator Debugger Starts Up
(When the target system is connected) ...................................................................... 66
(3) EMEM Dialog is Not Displayed When the Emulator Debugger Starts Up
(When the target system is not connected) ................................................................ 67
(4) Errors Occur When the Emulator Debugger Starts Up
(When the target system is connected) ...................................................................... 67
6.3 Operation Differs from That of Actual MCUs ........................................................................... 67
(1) When the A-D Conversion Values are Different from Expected Values ............................. 67
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Chapter 6. Troubleshooting
6.1 Flowchart to Remedy the Troubles
Figure 6.1 shows the flowchart to remedy the troubles from when power to the emulator is activated
until the emulator debugger starts up. Check this while the target system is disconnected. For the latest
FAQs visit the following URL.
Turning on the power of PC4701
Not normal
Front panel LED of PC4701
1. Check emulator system connections.
See, "3.5 Connecting the PC4701 and Emulation Pod"
(page 34).
Normal
2. Redownload the firmware.
See "4.2 Downloading Firmware" (page 48).
3. Restart the PC4701 system.
Init dialog box of emulator
debugger displayed
Not normal/Error displayed
1. Check the operating environment etc. of the emulator
debugger.
Normal
See the user's manual of the emulator debugger.
2. Reinstall the emulator debugger.
Not normal/Error displayed
EMEM dialog box of emulator
debugger displayed
See "6.2 (3) EMEM Dialog is Not Displayed When the Emulator
Debugger Starts Up (When the target system is not connected)"
(page 67).
Normal
Error displayed
See "6.2 (4) Errors Occur When the Emulator Debugger Starts
Up (When the target system is connected)" (page 67).
Program window of emulator debugger displayed
Figure 6.1 Flowchart to remedy the troubles
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6.2 When the Emulator Debugger Does Not Start Up Properly
(1) When the LED Display of PC4701 is Abnormal
Table 6.1 LED's abnormal display and its checkpoints
Connection to
the target system
Error
Checkpoint
Recheck the power cable is connected to the
PC4701.
See the instruction manual of the PC4701.
LEDs do not light up.
All LEDs remain lit.
-
Recheck the connection between the PC4701 and
this product.
See "3.5 Connecting the PC4701 and Emulation
Pod" (page 34).
-
The POWER LED of
"STATUS OF TARGET"
does not light up.
Check power is properly supplied to the target
system and that the target system is properly
grounded.
Connected
(1) Check that both the main and sub clocks of the
emulator debugger are not set to "EXT".
See the CLK command of the emulator
debugger.
Disconnected
(2) Check the oscillation circuit in the emulation
pod is oscillating.
The CLOCK LED of
"STATUS OF TARGET"
does not light up.
See "3.3 Selecting Clock Supply" (page 29).
(1) Check the oscillation circuit in the target system
is oscillating.
Connected
Connected
(2) Check the switches in the emulation pod are
correctly set.
See "3.2 Switch Settings" (page 25).
The RESET LED of
"STATUS OF TARGET"
does not go out.
Check if the reset pin of the target system is pulled
up.
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(2) EMEM Dialog is Not Displayed When the Emulator Debugger Starts Up
(When the target system is connected)
Table 6.2 Checkpoints of errors when starting up the emulator debugger (target is connected)
Error
Checkpoint
Communication error occurred.
Data was not sent to the target.
Check all emulator debugger settings, interface cable
settings and switches on the rear of the PC4701 match.
See the instruction manuals of the PC4701 and emulator
debugger.
Target system cannot be properly built.
(1) Download the proper firmware.
See "4.2 Downloading Firmware" (page 48).
(2) Recheck the connection between the PC4701 and
this product.
See "3.5 Connecting the PC4701 and Emulation
Pod" (page 34).
PD308 version is not the same version as Download the proper firmware.
the firmware in the target.
See "4.2 Downloading Firmware" (page 48).
Target MCU is in the reset state.
(1) Check if the reset pin of the target system is pulled up.
(2) Check if the reset pin of the target system has
changed from "L" to "H" level.
Target MCU cannot be reset.
(1) Check the NMI* pin is "H" level.
(2) If in memory expansion mode or microprocessor
mode, check the RDY* pin and HOLD* pin are "H"
level.
(3) If the reset circuit of the target system has a watchdog
timer, disable the timer.
(4) Check power is properly supplied to the target system
and that the target system is properly grounded.
(5) The program may be uncontrollable in areas where
memory is not allocated. Recheck the map setting.
See "4.3 Starting Up the Emulator Debugger (Setting
EMEM Dialog)" (page 49).
Target is in "HOLD" state.
(1) The MCU is either in the stop mode or wait mode.
Either reset the MCU or cancel the mode with an
interrupt.
See MCU specifications.
(2) The program may be uncontrollable in areas where
memory is not allocated. Recheck the map setting.
See "4.3 Starting Up the Emulator Debugger (Setting
EMEM Dialog)" (page 49).
Target clock is stopped.
(1) Check the oscillation circuit of the target system is
oscillating properly.
(2) Check the switches in the emulation pod are correctly
set.
See "3.2 Switch Settings" (page 25).
Target MCU is not receiving power.
Check power is properly supplied to the target system
and that the target system is properly grounded.
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(3) EMEM Dialog is Not Displayed When the Emulator Debugger Starts Up
(When the target system is not connected)
Table 6.3 Checkpoints of errors when starting up the emulator debugger (target is not connected)
Error
Checkpoint
Communication error occurred.
Data was not sent to the target.
Check all emulator debugger settings, interface cable
settings and switches on the rear of the PC4701 match.
See the instruction manuals of the PC4701 and emulator
debugger.
Target system cannot be properly built.
(1) Download the proper firmware.
See "4.2 Downloading Firmware" (page 48).
(2) Recheck the connection between the PC4701 and
this product.
See "3.5 Connecting the PC4701 and Emulation Pod"
(page 34).
PD308 version is not the same version as Download the proper firmware.
the firmware in the target.
See "4.2 Downloading Firmware" (page 48).
Target MCU cannot be reset.
The program may be uncontrollable in areas where
memory is not allocated. Recheck the map setting.
See "4.3 Starting Up the Emulator Debugger (Setting
EMEM Dialog)" (page 49).
Target is in HOLD state.
(1) The MCU is either in the stop mode or wait mode.
Either reset the MCU or cancel the mode with an
interrupt.
See MCU specifications.
(2) The program may be uncontrollable in areas where
memory is not allocated. Recheck the map setting
See "4.3 Starting Up the Emulator Debugger (Setting
EMEM Dialog)" (page 49).
Target clock is stopped.
Check the switches in the emulation pod are correctly set.
See "3.2 Switch Settings" (page 25).
(4) Errors Occur When the Emulator Debugger Starts Up
(When the target system is connected)
Table 6.4 Checkpoints of errors when starting up the emulator debugger (target is connected)
Error
Checkpoint
Target MCU is uncontrollable.
(1) Check the NMI* pin is "H" level.
(2) If in memory expansion mode or microprocessor
mode, check the RDY* pin and HOLD* pin are "H"
level.
(3) The program may be uncontrollable in areas where
memory is not allocated. Recheck the map setting.
See "4.3 Starting Up the Emulator Debugger (Setting
EMEM Dialog)" (page 49).
6.3 Operation Differs from That of Actual MCUs
(1) When the A-D Conversion Values are Different from Expected Values
Because a flexible board and other devices are used between the evaluation MCU and the target
system, the A-D converter operates differently from the actual MCU. Make the final evaluation of
the A-D converter from the actual MCU.
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MEMO
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Chapter 7. Maintenance and Guarantee
This chapter describes how to maintenance, repair provisions and how to request for repair.
7.1 Maintenance ............................................................................................................................... 70
7.2 Guarantee.................................................................................................................................... 70
7.3 Repair Provisions........................................................................................................................ 70
7.4 How to Request for Repair ......................................................................................................... 71
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Chapter 7. Maintenance and Guarantee
7.1 Maintenance
If dust or dirt collects on any equipment of your emulation system, wipe it off with a dry soft cloth.
Do not use thinner or other solvents because these chemicals can cause the equipment's surface
coating to separate.
7.2 Guarantee
If your product becomes faulty within twelve months after its purchase while being used under good
conditions by observing "Precautions for Safety" described in Chapter 1 of this user's manual, we will
repair or replace your faulty product free of charge. Note, however, that if your product's fault is raised
by any one of the following causes, we will repair it or replace it with new one with extra-charge:
• Misuse, abuse, or use under extraordinary conditions
• Unauthorized repair, remodeling, maintenance, and so on
• Inadequate user's system or misuse of it
• Fires, earthquakes, and other unexpected disasters
In the above cases, contact your local distributor. If your product is being leased, consult the leasing
company or the owner.
7.3 Repair Provisions
(1) Repair with extra-charge
The products elapsed more than twelve months after purchase can be repaired with extra-charge.
(2) Replacement with extra-charge
If your product's fault falls in any of the following categories, the fault will be corrected by
replacing the entire product instead of repair, or you will be advised to purchase new one,
depending on the severity of the fault.
• Faulty or broken mechanical portions
• Flaw, separation, or rust in coated or plated portions
• Flaw or cracks in plastic portions
• Faults or breakage caused by improper use or unauthorized repair or modification
• Heavily damaged electric circuits due to overvoltage, overcurrent or shorting of power supply
• Cracks in the printed circuit board or burnt-down patterns
• Wide range of faults that makes replacement less expensive than repair
• Unlocatable or unidentified faults
(3) Expiration of the repair period
When a period of twelve months elapses after the model was dropped from production, repairing
products of the model may become impossible.
(4) Transportation fees at sending your product for repair
Please send your product to us for repair at your expense.
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7.4 How to Request for Repair
If your product is found faulty, follow the procedure below to send your product for repair.
Customer
Distributor
Fill in the Repair Request Sheet included with this product, then send it
along with this product for repair to your local distributor. Make sure
that information in the Repair Request Sheet is written in as much detail
as possible to facilitate repair.
After checking the contents of fault, the distributor should please send
the faulty product along with the Repair Request Sheet to Renesas
Solutions Corp.
Renesas Solutions When the faulty product is repaired, it will be returned to the customer
at the earliest convenience.
CAUTION
Note on Transporting the Product:
• When sending your product for repair, use the packing box and cushion material supplied with this
product when delivered to you and specify handling caution for it to be handled as precision
equipment. If packing of your product is not complete, it may be damaged during transportation.
When you pack your product in a bag, make sure to use conductive polyvinyl supplied with this
product (usually a blue bag). When you use other bags, they may cause a trouble on your product
because of static electricity.
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MEMO
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M30803T-RPD-E User's Manual
Rev. 1.00
July 1, 2003
REJ10J0197-0100Z
COPYRIGHT ©2003 RENESAS TECHNOLOGY CORPORATION
AND RENESAS SOLUTIONS CORPORATION ALL RIGHTS RESERVED
Download from Www.Somanuals.com. All Manuals Search And Download.
Download from Www.Somanuals.com. All Manuals Search And Download.
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