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User’s Manual M306NAT2-RPD-E User’s Manual Emulation Pod for M16C/6N Group M306NA and M306NB Rev.2.00 2004.
• IC61-1004-051 is a product of Yamaichi Electronics Co., Ltd. • NQPACK, YQPACK, YQSOCKET, YQ-Guide, HQPACK, TQPACK and TQSOCKET are products of Tokyo Eletech Corporation. Keep safety first in your circuit designs! • Renesas Technology Corporation and Renesas Solutions Corporation put the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them.
Preface The M306NAT2-RPD-E is an emulation pod for the M16C/6N Group M306NA and M306NB of 16bit MCUs. It is used with a PC4701 emulator. This user's manual mainly describes specifications of the M306NAT2-RPD-E emulation pod and how to setup it. For details on the following products, which are used with the M306NAT2-RPD-E, refer to each product's user's manual or online manual.
Contents Chapter 1. Precautions for Safety ........................................................................................... 7 1.1 Safety Symbols and Meanings .............................................................................. 8 Chapter 2. Preparation .......................................................................................................... 21 2.1 Package Components .......................................................................................... 22 2.
Chapter 5. Specifications ...................................................................................................... 51 5.1 Specifications ...................................................................................................... 52 5.2 Operation Timing in Memory Expansion Mode and Microprocessor Mode ......... 53 (1) Separate Bus, No-wait ..............................................................................53 (2) Separate Bus, With Wait, Accessing External Memory Area .....
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 M16C, 7700, 740 Families. For details on specific models of PC4701, visit the Renesas Tools Homepage at http://www.renesas.
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 CAUTION IMPORTANT Warning for Installation .................................................................................
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.
WARNING Warning for Installation: • Do not set this product in water or areas of high humidity. 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.
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 "4.3 Downloading Firmware" (page 48). Once the firmware has been downloaded, the product can be used by simply turning on the power.
IMPORTANT Notes on MAP References and Settings: • For details on referencing and setting MAP information, see the user's manual of the emulator debugger M3T-PD30. MAP settings are as follows: (1) MAP = INT Emulation memory in this product becomes effective. Set this to debug internal ROM and internal RAM of an MCU. (2) MAP = EXT Emulation memory in this product is not used. Set this to use MCU internal resources (SFR) or resources on the target system. • Be sure to set the SFR area to EXT.
IMPORTANT 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). Notes on HOLD* Input: • Be sure to input "Low" to the HOLD* pin of the target system during the user program executing (while the RUN status LED on the PC4701's front panel is lit). Inputting "Low" to the HOLD* pin when stopping the user program may cause a malfunction of the emulator.
IMPORTANT Note on Oscillation Stop Detection Function (On-chip Oscillator): • Take note that you can not debug a program using the oscillation stop detection function (on-chip oscillator). To use this function, be sure to evaluate a system with an actual MCU. • This product is equipped with an M16C/62A MCU as an emulation MCU. Because the M16C/62A MCU does not have an oscillation stop detection register, when the register is read out, undefined values are read out.
IMPORTANT Note on Commands that Access the Single-step Interrupt Vector Area: • Do not perform the below debugging operations with the single step interrupt vector area (addresses FFFECh--FFFEFh).
IMPORTANT Note on Reading Internal Resources of an MCU: • When the registers that are listed in Table 1.1 are read with an emulator, those results will be the following (the data in the MCU are not effected). (1) Results of real-time trace The data values of the cycles read are not displayed correctly. (2) Real-time RAM monitor The data values read are not displayed correctly. Table 1.
IMPORTANT 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".
IMPORTANT Note on Differences between Actual MCU and Emulator: • Operations of the emulator system differ from those of actual MCUs as listed below. (1) Reset condition Set the rise time (0.2 Vcc to 0.8 Vcc) 1 µs or less. (2) Data values of ROM and RAM areas at power-on (3) Internal memories (ROM and RAM) capacities etc. With this emulator system, "INT" (emulation memory ON) is the default for mapping areas other than the SFR area (addresses 000h--3FFh).
IMPORTANT (13) A-D input group select function When using the A-D input group select function, the following settings are required. i) When selecting port P0 for A-D input • Set the whole 8-bit of direction registers P100--P107 to input. • Set the pullup control registers of P100--P107 to no-pullup. • P100--P107 cannot be used as an input pin of I/O port and key input interrupt function. ii) When selecting port P2 for A-D input • Set the whole 8-bit of direction registers P100--P107 to input.
IMPORTANT Table 1.4 Differences of outputs between actual MCU and this product (in stop mode) Access area - Signal Actual MCU This product Address BHE* Retains previous status Retains previous status Data Retains previous status Floating RD* WR* Does not output (fixed to "High") Does not output (fixed to "High") CS* Retains previous status Retains previous status ALE Does not output (fixed to "High") Does not output (fixed to "High") ∗ for difference ∗ Table 1.
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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 Package Components ................................................................................................................... 22 2.2 Other Tool Products Required for Development ......................................................................... 22 2.3 Name of Each Part ..............................................................
Chapter 2. Preparation 2.1 Package Components The M306NAT2-RPD-E package consists of the following items. When unpacking, check to see if your M306NAT2-RPD-E contains all of these items. Table 2.
2.3 Name of Each Part (1) System Configuration Emulator debugger Interface cable Host machine (2) FLX120-RPD (1) M306NAT2-RPD-E PC4701 (3) FLX100 (4) Converter board Figure 2.1 System configuration (1) to (4) in Figure 2.1 are included in this product package. (1) Emulation pod M306NAT2-RPD-E This emulation pod contains an evaluation MCU, emulation memory and circuits to feature the debugging functions.
(2) Inside of the Emulation Pod Figure 2.2 Internal view of the emulation pod (1) MCU-dependent board Board grouping parts (pins and added functions) which vary according to MCU model. (2) Base board Board for the M16C Series MCUs which controls the interface with the PC4701 and the evaluation MCU. (3) Memory board Board for the M16C Series MCUs on which the emulation memory (1 MB) and the map memory (4 bit × 1 M) are mounted.
2.4 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. Connect the PC4701 and this product.
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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 ......................................................................................................... 28 3.2 Setting Switches and Pullup Resistors ........................................................................................ 29 3.3 Selecting Clock Supply .................................................
Chapter 3. Setting Up To use this emulation pod with your target system, it is necessary to set as follows. Set the following after removing the upper cover. • Change the oscillation frequency in the emulation pod. • Set the switches according to the target system. • Install pullup resistors to ports P00 to P57. • Install the A-D conversion bypass capacitor. 3.1 Removing the Upper Cover The procedure of removing the upper cover is shown below.
3.2 Setting Switches and Pullup Resistors Figure 3.2 shows the positions of switches and a position for installing pullup resistors. Tables 3.1, 3.2 list how to set each switch and Figure 3.3 shows how to install pullup resistors. Figure 3.
Table 3.1 Switch settings of the M306NAT2-RPD-E (1/2) Signal Switch Setting Description H OPEN L SW1 CNVSS (Factory-setting) Pulls down pin CNVSS of MCU with a resistance of 33 kΩ. Be sure to set this when the target system is not connected in single-chip mode or memory expansion mode. H CNVSS OPEN SW1 L Connects pin CNVSS to the target system. Be sure to set this when the target system is connected. SW1 CNVSS H OPEN L Pulls up pin CNVSS of MCU with a resistance of 33 kΩ.
Table 3.2 Switch settings of the M306NAT2-RPD-E (2/2) Signal Switch Setting Description XCOUT OPEN Connects pin P86/X COUT of MCU to the target system. (Uses pin P86/XCOUT as port P86) P86 SW4 P86/XCOUT (Factory-setting) XCOUT P86/XCOUT Does not connect pin P86/XCOUT of MCU. (Uses P86/XCOUT pin as XCOUT and opens XCOUT.) OPEN SW4 P86 SW4 P86/XCOUT XCOUT OPEN P86 Connects pin P86/X COUT of MCU to the target system. (Uses pin P86/XCOUT as XCOUT and connect XCOUT to the target system.
It is not possible to control the pullup by the pullup control registers of ports P00 to P57 (possible to read and write the pullup control registers). However, as this product has sockets for installing the pullup resistors, it is possible to pull up by mounting the resistor arrays included with this product. For the positions for installing them, see Figure 3.3. Figure 3.
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 3.3 lists the factory-settings of each clock supply. Table 3.3 Clock supply to the MCU Clock Description Display of emulator debugger Default setting Internal oscillator circuit of emulation pod (OSC-3: 16 MHz) Internal Yes Target System External - Internal oscillator circuit of emulation pod (32.
(1) Using the Oscillator Circuit on the Target System When turning on the power supply, the internal clock of the 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 Init dialog box when starting up the emulator debugger or the CLK command on the script window. (For details, refer to the user's manual of the emulator debugger.) Figure 3.4 External oscillator circuit Figure 3.
(2) Changing the Internal Oscillator Circuit of the Emulation Pod An oscillator circuit board for 16 MHz is mounted on this product. To use the emulation pod at a frequency other than 16 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 3.6 shows a view of the OSC-2 oscillator circuit board (bare board) and where connector pins are located. Figure 3.
(3) Replacing the Oscillator Circuit Boards Figure 3.8 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.
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 3.9 shows where the bypass capacitors are mounted, whereas Figure 3.10 shows an enlargement of the foot patterns. Figure 3.9 Position for mounting A-D conversion bypass capacitor (underside of the M30620T2-PRT) Figure 3.
3.5 Connecting the PC4701 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 the FLX120-RPD to the cable connector of the PC4701, then secure with screws the FLX120-RPD. (1) Connecting the Cable to the PC4701 Figure 3.11 shows how to connect the PC4701 and FLX120-RPD. Emulator main unit PC4701 PC4701 side connector of FLX120-RPD "UPSIDE" should face up. Secure this screw. Secure this screw.
(2) Connecting the Cable to the Emulation Pod Figure 3.12 shows how to connect the FLX120-RPD and the emulation pod. Figure 3.12 Connecting the FLX120-RPD and emulation pod CAUTION Note on Connecting the Cable: • Always shut OFF power before connecting the cable. Otherwise, internal circuits may be damaged. Note on Securing the Screws: • After connecting the cable to the emulation pod, be sure to secure the screws.
3.6 Connecting the Target System Figure 3.13 shows how to connect this product to the target system. Emulator probe Emulator probe M3T-FLX100-T (separately available) Emulator probe M3T-FLX100-R (separately available) 100-pin 0.
(1) Connecting to a 100-pin 0.65-mm-pitch LCC Socket When connecting the emulation pod probe to a 100-pin LCC socket (Yamaichi Electronics Co., Ltd. IC61-1004-051 etc.) on the target system, following the procedure below. (1) Attach the FLX100 to the M3T-FLX-100LCC. (2) Attach the M3T-FLX-100LCC to the 100-pin LCC socket. FLX100 (1) M3T-FLX-100LCC (2) 100-pin LCC socket No. 1 pin Target system Figure 3.14 Connecting a 100-pin 0.
(2) Connecting to a 100-pin 0.65-mm-pitch Foot Pattern (Part 1) Figure 3.15 shows how to connect the emulation pod probe to a 100-pin 0.65-mm-pitch QFP (100P6S-A) foot pattern on the target system with the M3T-DUMMY100S (not included), and here following is its procedure. For details on the M3T-DUMMY100S, refer to its user's manual. (1) Attach the M3T-DUMMY100S to the target system. (2) Attach the M3T-FLX-100LCC to the M3T-DUMMY100S.
(3) Connecting to a 100-pin 0.65-mm-pitch Foot Pattern (Part 2) Figure 3.16 shows how to connect the emulation pod probe to a 100-pin 0.65-mm-pitch QFP (100P6S-A) foot pattern on the target system with the M3T-DIRECT100S (not included), and here following is its procedure. For details on the M3T-DIRECT100S, refer to its user's manual. (1) Attach the M3T-DIRECT100S to the target system. (2) Attach the M3T-FLX-100LCC to the M3T-DIRECT100S. FLX100 (2) M3T-DIRECT100S (separately available) (1) 100-pin 0.
(4) Connecting to a 100-pin 0.65-mm-pitch Foot Pattern (Part 3) Figure 3.17 shows how to connect the emulation pod probe to a 100-pin 0.65-mm-pitch QFP (100P6S-A) foot pattern on the target system with the M3T-FLX-100NRB (not included), and here following is its procedure. For details on the M3T-FLX-100NRB, refer to its user's manual. (1) Attach the M3T-FLX-100NRB to the target system. (2) Attach the M3T-FLX-100LCC to the M3T-FLX-100NRB.
Chapter 4. Usage This chapter describes from turning on the power of this product to starting up the emulator debugger. 4.1 Making an MCU File for M3T-PD30 ......................................................................................... 46 4.2 Turning On the Power ................................................................................................................. 46 (1) Checking the Connection of Emulator System .....................................................................
Chapter 4. Usage 4.1 Making an MCU File for M3T-PD30 It is necessary to change the contents of the MCU file according to the MCU to be developed. Make the MCU file "M306NA.MCU" for M306NA, "M306NB.MCU" for M306NB and store it in the "mcufile" folder in the directory same as emulator debugger M3T-PD30 is stored. The contents of the MCU file (SFR area, internal RAM area, internal ROM area, name of the firmware file) are shown below. Change the settings according to the MCU to be debugged.
(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. • If this LED does not light, check the voltage of the target system. • Check that power is supplied to all the power terminals. • When the target system is not connected, this LED does not light.
4.3 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) firmware has been upgraded (3) emulator debugger has been upgraded (4) you use this product with a PC4701 which was used with another 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.
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 4.4. (1) Set the switches in the emulation pod same as the factory-setting (see Figure 4.3). (2) When the target system is connected, disconnect the target system. (3) Within 2 seconds of activating power to the emulator, press the RESET switch on the emulator front panel to switch the emulator to maintenance mode.
Figure 4.
Chapter 5. Specifications This chapter describes specifications of this product. 5.1 Specifications .............................................................................................................................. 52 5.2 Operation Timing in Memory Expansion Mode and Microprocessor Mode .............................. 53 (1) Separate Bus, No-wait ..........................................................................................................
Chapter 5. Specifications 5.1 Specifications Table 5.1 lists the specifications of the M306NAT2-RPD-E. Table 5.
5.2 Operation Timing in Memory Expansion Mode and Microprocessor Mode (1) Separate Bus, No-Wait Table 5.2 and Figure 5.1 show the bus timing in memory expansion mode and the microprocessor mode (separate bus, no-wait). Table 5.2 Memory expansion mode and microprocessor mode (separate bus, no-wait) Symbol Item Actual MCU This product (ns) (ns) Min. Max. Min.
Memory expansion mode and microprocessor mode (no-wait) Read timing BCLK CSi ADi BHE ALE RD DB Write timing BCLK CSi ADi BHE ALE WR, WRL, WRH DB Conditions: • VCC = 5 V • Input timing voltage: VIL = 0.8 V, VIH = 2.5 V • Output timing voltage: VOL = 0.8 V, VOH = 2.0 V Figure 5.
(2) Separate Bus, With Wait, Accessing External Memory Area Table 5.3 and Figure 5.2 show the bus timing in memory expansion mode and microprocessor mode (with wait, accessing external memory area). Table 5.3 Memory expansion mode and microprocessor mode (with wait, external memory area) Symbol Item Actual MCU This product (ns) (ns) Min. Max. Min.
Memory expansion mode and microprocessor mode (with wait, accessing external memory area) Read timing BCLK CSi ADi BHE ALE RD DB Write timing BCLK CSi ADi BHE ALE WR, WRL, WRH DBi Conditions: • VCC = 5 V • Input timing voltage: VIL = 0.8 V, VIH = 2.5 V • Output timing voltage: VOL = 0.8 V, VOH = 2.0 V Figure 5.
(3) Multiplex Bus, With Wait, Accessing External Memory Area Table 5.4 and Figure 5.3 show the bus timing in memory expansion mode and microprocessor mode (with wait, accessing external memory area and using multiplex bus). Table 5.4 Memory expansion mode and microprocessor mode (with wait, multiplex bus) Symbol Actual MCU This product (ns) (ns) Item Min. Td (BCLK-AD) Address output delay time Th (BCLK-AD) Address output hold time (BCLK standard) Th (RD-AD) Max. Min.
Memory expansion mode and microprocessor mode (with wait, accessing external memory area and using multiplex bus) Read timing BCLK CSi ADi DBi ADi BHI ALE RD Write timing BCLK CSi ADi DBi ADi BHI ALE WR, WRL, WRH Conditions: • VCC = 5 V • Input timing voltage: VIL = 0.8 V, VIH = 2.5 V • Output timing voltage: VOL = 0.8 V, VOH = 2.0 V Figure 5.
(4) Timing Requirements Table 5.5, Figures 5.4 and 5.5 show timing requirements in memory expansion mode and the microprocessor mode. Table 5.5 Timing requirements Symbol Actual MCU This product (ns) (ns) Item Min. Tsu (DB-RD) Data input setup time Max. Min.
Common to "with wait" and "no-wait" (actual MCU) BCLK HOLD input HLDA output P0, P1, P2, P3, P4, P50--P52 Common to "with wait" and "no-wait" (This product) BCLK HOLD input HLDA output P0, P1, P2, P3, P4, P50--P52 Note 1. P00 through P52 will be high-impedance status regardless of the input level of pin BYTE and ports P40 through P43 function selection bit (PM06) of the processor mode register 0. Note 2. This product will be high-impedance delaying by 2.5 cycles than an actual MCU. Note 3.
5.3 Electrical Characteristics Tables 5.6 and 5.7 list IC electrical characteristics of the user interface. Table 5.6 Electrical characteristics of the 74HC4066AFT (P100--P107, AN0--AN7, AN00--AN07, AN20--AN27) Symbol Standard values Parameter VCC Min. 3.15 Standard VIHC High level control input voltage 4.5 VILC Low level control input voltage 4.5 RON ON resistance 4.5 96 RON Difference of ON resistances 4.5 10 Max. Unit V 1.35 V 200 Ω Ω Table 5.
5.4 Connection Diagram Figure 5.6 shows the connection diagram of the M306NAT2-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.
5.5 External Dimensions (1) External Dimensions of the Emulation Pod Unit: mm Figure 5.
(2) External Dimensions of the Converter Board M3T-FLX-100LCC Figure 5.8 shows external dimensions of the converter board M3T-FLX-100LCC for 100-pin LQFP (100D0). Unit: mm Figure 5.8 External Dimensions of the Converter Board M3T-FLX-100LCC (3) Reference Dimensional Drawing for 100-pin 0.65-mm-pitch QFP Foot Pattern Figure 5.9 shows an sample foot pattern for Renesas 100P6S-A, the socket IC61-1004-051 (made by Yamaichi Electronics Co., Ltd.
Chapter 6. Troubleshooting This chapter describes how to troubleshoot when this product does not work properly. 6.1 Flowchart to Remedy the Troubles ............................................................................................. 66 6.2 When the Emulator Debugger Does Not Start Up Properly ........................................................ 67 (1) When LED Display of the PC4701 is Abnormal ..................................................................
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. FAQs visit the following URL. http://www.renesas.com/en/tools Turning on the power of PC4701 Front panel LEDs of PC4701 Not normal 1. Check emulator system connections. See, "3.5 Connecting the PC4701" (page 38). 2. Redownload the firmware. See "4.
6.2 When the Emulator Debugger Does Not Start Up Properly (1) When LED Display of the PC4701 is Abnormal Table 6.1 LED's abnormal display and its checkpoints Error LEDs do not light up. Connection to the target system - Checkpoint Recheck that the power cable is connected to the PC4701. See the instruction manual of the PC4701. All LEDs remain lit. POWER LED of STATUS OF TARGET does not light up. - Connected Recheck that the connection between the PC4701 and this product. See "3.
(2) Program Window Does Not Appear at Debugger Startup (target connected) Table 6.2 Checkpoints of errors when starting up the emulator debugger (target connected) Error Checkpoint Check that all emulator debugger settings, interface cable connection and switches on the rear of the PC4701 match. Communication error occurred Data was not sent to the target See the user's manuals of the PC4701 and the emulator debugger. (1) Download the proper firmware. See "4.3 Downloading Firmware" (page 48).
(3) Program Window Does Not Appear at Debugger Startup (target not connected) Table 6.3 Checkpoints of errors when starting up the emulator debugger (target not connected) Error Checkpoint Check that all emulator debugger settings, interface cable connection and switches on the rear of the PC4701 match. Communication error occurred Data was not sent to the target See the user's manuals of the PC4701 and the emulator debugger. (1) Download the proper firmware. See "4.3 Downloading Firmware" (page 48).
6.3 Operation Differs from That of Actual MCUs (1) Cannot Reset from the Target System Set the rise time (0.2 Vcc to 0.8 Vcc) 1 µs or less. (2) Data Values of ROM Area at Power-on Are Different For this product, 04h is written into the ROM area at power-on. Therefore, the data values are different from those of an actual MCU. (3) HOLD* Control When inputting "Low" to pin HOLD* to run into the HOLD state, P00 to P52 will be in the HOLD state delaying by 2.5 cycles than an actual MCU (see Figure 5.
Chapter 7. Maintenance and Guarantee This chapter describes how to maintenance, repair provisions and how to request for repair. 7.1 Maintenance................................................................................................................................. 72 7.2 Guarantee ..................................................................................................................................... 72 7.3 Repair Provisions ............................................................
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.
7.4 How to Request for Repair If your product is found faulty, follow the procedure below to send your product for repair. Customer 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.
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M306NAT2-RPD-E User's Manual Rev.2.
M306NAT2-RPD-E User’s Manual 1753, Shimonumabe, Nakahara-ku, Kawasaki-shi, Kanagawa 211-8668 Japan REJ10J0202-0200Z
