Renesas IE-78044-R-EM User Manual
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Renesas IE-78044-R-EM User Manual

Renesas IE-78044-R-EM User Manual

Emulation board
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On April 1
, 2010, NEC Electronics Corporation merged with Renesas Technology
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Renesas Electronics document. We appreciate your understanding.
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Summary of Contents for Renesas IE-78044-R-EM

  • Page 1 On April 1 , 2010, NEC Electronics Corporation merged with Renesas Technology Corporation, and Renesas Electronics Corporation took over all the business of both companies. Therefore, although the old company name remains in this document, it is a valid Renesas Electronics document. We appreciate your understanding.
  • Page 2 Renesas Electronics. Renesas Electronics shall not be in any way liable for any damages or losses incurred by you or third parties arising from the use of any Renesas Electronics product for an application categorized as “Specific”...
  • Page 3 IE-78044-R-EM Emulation Board Document No. EEU-1424C (O. D. No. EEU-833E) Date Published February 1995 P Printed in Japan © 1992...
  • Page 4 This product is designed to be used in a commercial or industrial district. If it is used in a residential district or in an area in the vicinity of a residential district, radio and TV receivers in the district may be affected. Use this product correctly by carefully reading its User's Manual.
  • Page 5 Typical values for each pin has been added to the table in the section 4.3.1 (1) To use a ceramic/ crystal resonator. P. 45 The peripheral emulation device in APPENDIX A IE-78044-R-EM SPECIFICATIONS has been changed from the µ PD78P044 to the µ PD78P048A. P. 54-59 Table D-1 IE-78000-R System Configuration •...
  • Page 6 INTRODUCTION Outline: IE-78044-R-EM is connected to IE-78000-R to debug the µ PD78024 Subseries, 78044 Subseries, and 78044A Subseries 8-bit singlechip micorcomputers. Readers: This manual is intended for engineers who debug µ PD78024 Subseries, 78044 Subseries, and 78044A Subseries systems with IE-78000-R and IE-78044-R-EM. IE-78000-R can emulate the µ PD78024 Subseries, 78044 Subseries, and 78044A Subseries.
  • Page 7 Purpose: This manual describes basic specifications and correct connections for IE-78044-R-EM. How to read this manual: • To understand the basic specifications, read "CHAPTER 1 GENERAL". • To connect IE-78044-R-EM, read "CHAPTER 2 INSTALLATION" and the IE-78000-R User's Manual Terms: The following terms are used throughout this manual:...

  • Page 8: Table Of Contents

    CONTENTS CHAPTER 1 GENERAL ........................Features ..........................Unpacking ........................... IE-78044-R-EM Appearance and Names for Respective Parts ........Target Device ........................Emulation Probe ........................ Notes on correct use of IE-78044-R-EM ................. Differences between µ PD78044 Subseries and µ PD78044A Subseries .....
  • Page 9 CONTENTS OF FIGURE Fig. Number Title, Page IE-78044-R-EM Accessories ....................Setting Mask Option (factory-set condition) ............... Equivalent Emulation Circuit 1 ..................... Equivalent Emulation Circuit 2 ..................... Equivalent Emulation Circuit 3 ..................... Equivalent Emulation Circuit 4 ..................... Equivalent Emulation Circuit 5 .....................
  • Page 10 CONTENTS OF TABLES Table Number Title, Page Respective Part Names ......................Emulation Probe and Target Device ..................Difference between µ PD78044 Subseries and µ PD78044A Subseries ......Main System Clock Settings ....................Pin Configuration of EP-78130GF-R ..................Pin Configuration of EP-78024GF-R/EP-78024CW-R ............IE-78000-R System Configuration ..................

  • Page 11: Chapter 1 General

    CHAPTER 1 GENERAL IE-78044-R-EM is an emulation board for the IE-78000-R development system for NEC’s µ PD78024 Subseries, 78044 Subseries, and 78044A Subseries 8-bit single-chip microcomputers. By combining this board with an optional IE-78000- R with an emulation probe, the µ PD78024 Subseries, 78044 Subseries, and 78044A Subseries can be efficiently emulated.

  • Page 12: Ie-78044-R-Em Accessories

    CHAPTER 1 GENERAL Fig. 1-1 IE-78044-R-EM Accessories (1) IE-78044-R-EM USRCLK CLKIN CLKOUT CMOSPW USRCK1 MASK OPTION SW IE-78044-R-EM 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 VER.2.

  • Page 13: Ie-78044-R-Em Appearance And Names For Respective Parts

    CHAPTER 1 GENERAL 1.3 IE-78044-R-EM Appearance and Names for Respective Parts USRCLK CLKIN CLKOUT CMOSPW USRCK1 MASK OPTION SW IE-78044-R-EM 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 VER.2.

  • Page 14: Target Device

    Function Break board connector Break board connector Emulation probe connector Main bus connector 1.4 Target Device Devices that can be emulated by IE-78000-R with IE-78044-R-EM are as follows: Series Name Target Device µ PD78024 Subseries* µ PD78023 µ PD78024 µ PD78P024 µ...

  • Page 15: Emulation Probe

    R and the target system, and changing the setting of switches. (2) When emulating the target device by using IE-78044-R-EM and IE-78000-R, the target device operations slightly differ from those for the actual device. (Refer to CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES.) (3) To input data through the external sense clip, maintain voltage at +15 V.

  • Page 16: Differences Between Μ Pd78044 Subseries And Μ Pd78044A Subseries

    CHAPTER 1 GENERAL 1.7 Differences between µ PD78044 Subseries and µ PD78044A Subseries Table 1-3 lists the differences between the µ PD78044 Subseries and µ PD78044A Subseries. Other than these differences, the µ PD78044 Subseries and µ PD78044A Subseries have the same functions. Table 1-3 Differences between µ...

  • Page 17: Chapter 2 Installation

    CHAPTER 2 INSTALLATION This chapter describes the procedure for installing the µ PD78024 Subseries, 78044 Subseries, and 78044A Subseries development system with the IE-78044-R-EM connected to the following: • Break board installed in IE-78000-R (IE-78000-R-BK) • IE-78000-R • Connector board and emulation probe (optional) Before connecting these boards and probe, be sure to turn off the power to IE-78000-R and the target system.
  • Page 18 CHAPTER 2 INSTALLATION Connect IE-78044-R-EM, break board, IE-78000-R, connector board, and emulation probe as follows: (1) Remove the six screws from the top cover of IE-78000-R and remove the cover. (2) Disconnect cables J1 and J2 connecting the control/trace board (IE-78000-R-CS-A) and break board.
  • Page 19 (refer to CHAPTER 4 SETTING CLOCK). (6) Set the mask option by using the DIP switch on IE-78044-R-EM (refer to 3.1 Setting Mask Option). (7) Connect connectors CN3 and CN4 for IE-78044-R-EM to mating connectors CN3 and CN4 on the connector board, supplied with the optional emulation probe.
  • Page 20 CHAPTER 2 INSTALLATION IE-78000-R-BK IE-78044-R-EM Connector board (supplied with emulation board) Emulation probe for your target system Emulation probe connector Main board Target system IE-78000-R housing...

  • Page 21: Chapter 3 Differences Between Target Devices

    CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES When emulating the target device with IE-78044-R-EM and IE-78000-R, the operations for the target device slightly differ from those for the actual device. This chapter describes these differences. 3.1 Setting Mask Option Settings for the mask option resistors P3, P7*, P8, P9, P10, P11, and P12* can be changed by using the screen debugger (SD78K0) or the DIP switch on IE-78044-R-EM.

  • Page 22: Setting Mask Option With Dip-Sw

    This is responsible for the differences in the AC characteristics. Therefore, design the target system, giving thorough consideration to these points. Caution: When using IE-78000-R and IE-78044-R-EM, 5 V must be supplied to the target system (as the supply voltageV...
  • Page 23 CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES 3.2.1 Circuit inputting/outputting signal directly or via resistor to/from emulation device (1) µ PD78024 Subseries as target (a) Signals related to port This circuit interfaces the following signals: • Signal related to port 0 •...

  • Page 24: Emulaton Device

    CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES Fig. 3-2 Equivalent Emulation Circuit 1 (1/2) Probe side IE-78000-R side (emulation device) (target system) Ω P00-P03 Ω HC374 AC541 P04/XT1 HC157 Ω 100 k HC374 Ω P10/ANI0 P14/ANI4 HC4066 HC374 Ω 39 k Ω...
  • Page 25 CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES Fig. 3-2 Equivalent Emulation Circuit 2 (2/2) Probe side IE-78000-R side (emulation device) P80-P81 P90-P97 P100-P107 P110-P117 DIP-SW Ω 70 k Slide switch LOAD...

  • Page 26: Equivalent Emulation Circuit 2

    CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES (b) Analog signals Fig. 3-3 Equivalent Emulation Circuit 2 Probe side IE-78000-R side (emulation device) Ω P10/ANI0 P14/ANI4 HC4066 HC374 Ω 39 k Ω P15/ANI5 P17/ANI7 HC374...
  • Page 27 CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES (2) µ PD78044 Subseries and 78044 Subseries as target (a) Signals related to port This circuit interfaces the following signals: • Signal related to port 0 • Signal related to port 1 • Signal related to port 2 •...

  • Page 28: Equivalent Emulation Circuit 3

    CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES Fig. 3-4 Equivalent Emulation Circuit 3 (1/2) IE-78000-R side Probe side (target system) (emulation device) Ω P00-P03 Ω HC374 AC541 P04/XT1 HC157 Ω 100 k HC374 Ω P10/ANI0 P14/ANI4 HC4066 HC374 Ω 39 k Ω...
  • Page 29 CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES Fig. 3-4 Equivalent Emulation Circuit 3 (2/2) Probe side IE-78000-R side (emulation device) +5 V Ω 39 k HC4066 1S953 Ω P70-P74 Ω HC4050 P80-P81 P90-P97 P100-P107 P110-P117 DIP-SW P120-P127 Ω 70 k Slide switch LOAD...

  • Page 30: Equivalent Emulation Circuit 4

    CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES (b) Analog signals Fig. 3-5 Equivalent Emulation Circuit 4 Probe side IE-78000-R side (emulation device) Ω P10/ANI0 P14/ANI4 HC4066 HC374 Ω 39 k Ω P15/ANI5 P17/ANI7 HC374...

  • Page 31: Circuit Inputting Signal Via Gate To Emulation Device

    CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES 3.2.2 Circuit inputting signal via gate to emulation device This circuit interfaces the following signals: • RESET signal • Signals related to clock input Fig. 3-6 Equivalent Emulation Circuit 5 IE-78000-R side Probe side (emulation device) +5 V +5 V...

  • Page 32: Circuit Inputting Signal To Control/Trace Module

    CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES 3.2.3 Circuit inputting signal to control/trace module This circuit interfaces the following signals: • V signal Fig. 3-7 Equivalent Emulation Circuit 6 Probe side IE-78000-R side (control/trace module) S-805* *: S-805 is a Seiko Instruments Inc. IC.

  • Page 33: Chapter 4 Setting Clock

    CHAPTER 4 SETTING CLOCK This chapter describes how to set the clock. 4.1 Outline of Clock Setting The main system clock can be selected from any of the following for debugging. The subsystem clock can only be selected from (2) and (3). (1) Clock already mounted on the break board (2) Clock mounted by user (3) External clock...

  • Page 34: Using Clock Mounted On Break Board

    A clock meeting specific user specifications can be mounted on the IE-78044-R-EM. Mount the resonator to be used on the component block, and connect the component block to the IE-78044-R-EM. In this way, the target system can be debugged at a frequency different from that of the supplied clock.

  • Page 35: Using An External Clock

    USER To use external 4.19 MHz 6-8 shorted clock Remarks 1: The factory setting for the IE-78044-R-EM is for the case where "to use board mounted clock" in the above table. The screen debugger must be Version 2.0 or higher.

  • Page 36: Main System Clock Setting

    As a factory-set condition for shipment, a component block wired as shown in Fig. 4-5 is mounted to the X1 USRCLK socket on the IE-78044-R-EM. If the wiring of this component block remains the same as the factory-set condition, no additional hardware adjustments are required.

  • Page 37: Component Block Mounting Position (To Use The Clock Mounted On Break Board As The Main System Clock)

    CHAPTER 4 SETTING CLOCK Prepare the IE-78044-R-EM and the wired break board. Mount the component block in 1 to the socket (labeled X1 USRCLK) on the IE-78044-R-EM. At this time, make surethat the pin mark 1 faces the correct direction.

  • Page 38: To Use User Mounted Clock

    CHAPTER 4 SETTING CLOCK 4.2.2 To use user mounted clock Either procedure (1) or (2) below must be carried out depending on the clock to be used. After the screen debugger has been started up, select “USER” on the initial setting screen or the clock configuration panel (selection of the user clock).

  • Page 39: Component Block Mounting Position (To Use A User Mounted Clock As The Main System Clock)

    Prepare the IE-78044-R-EM and the wired break board. Remove the external clock component block from the socket on the IE-78044-R-EM (socket labeled X1 USRCLK). Attach the component block in 1 to the socket (X1 USRCLK) from which the external clock component block has been removed in step 3.

  • Page 40: Crystal Oscillator (To Use A User Mounted Clock As The Main System Clock)

    Fig. 4-8 Crystal Oscillator (to use a user mounted clock as the main system clock) CLOCK OUT Procedure Prepare the IE-78044-R-EM and the wired break board. Remove the external clock component block from the socket (socket labeled X1 USRCLK) on the IE-78044- R-EM.

  • Page 41: Crystal Oscillator Mounting Position (To Use A User Mounted Clock As The Main System Clock)

    Fig. 4-9 Crystal Oscillator Mounting Position (to use a user mounted clock as the main system clock) IE-78044-R-EM 74AC541PC X1 USRCLK Confirm that the component block attached to socket X1 (MAIN) on the break board is wired as shown in Fig. 4-5. Connect the IE-78044-R-EM and break board to the IE-78000-R.
  • Page 42 CHAPTER 4 SETTING CLOCK The following circuit is configured by the above procedure and the clock can be supplied to the emulation device. IE-78000-R side (emulation device) AC541 Crystal oscillator CLK IN F X 2 AS86 Delay line (30 ns)

  • Page 43: To Use An External Clock

    Component block pin number Prepare the IE-78044-R-EM and the wired break board. Attach the component block in 1 to the socket (socket printed X1 USRCLK) on the IE-78044-R-EM. At this time, make sure that pin 1 faces the correct direction.

  • Page 44: Component Block Mounting Position (To Use An External Clock As The Main System Clock)

    Confirm that the component block attached to socket X1 (MAIN) on the break board is wired as shown in Fig. 4-10. Connect the IE-78044-R-EM and break board to the IE-78000-R. The following circuit is configured by the above procedure and the clock can be supplied from the mounted oscillator...
  • Page 45 CHAPTER 4 SETTING CLOCK IE-78000-R side AC541 (emulation device) X1 pin of emulation probe CLK IN F X 2 Delay line AS86 (30 ns) *1: Indicates the pin name of the target device. *2: Indicates the pin name of the component block. Remarks: The area enclosed by the broken lines indicates the portion attached to the component block.

  • Page 46: Setting The Subsystem Clock

    CHAPTER 4 SETTING CLOCK 4.3 Setting the Subsystem Clock 4.3.1 To use the user mounted clock Procedure (1) or (2) below must be carried out depending upon the type of the clock to be used. These procedures do not have to be performed on the screen debugger. (1) To use a ceramic/crystal resonator Prerequisites •...

  • Page 47: Component Block Mounting Position (To Use A User Mounted Clock As The Subsystem Clock)

    Prepare the IE-78044-R-EM and the wired break board. Remove the external clock component block from the socket (socket labeled X2 (SUB)) on the IE-78044-R-EM. Mount the component block in 1 to socket X2 (SUB), from which the external clock component block was removed in step 3.
  • Page 48 CHAPTER 4 SETTING CLOCK IE-78000-R side (emulation device) Ω IC98 IC89 Ω 4.7 k HCU04 LS14 HCU04 HCU04 CLK IN Remarks: The area enclosed by the broken line indicates the portion to be attached to the component block.

  • Page 49: Crystal Oscillator (To Use A User Mounted Clock As The Subsystem Clock)

    Fig. 4-13 Crystal Oscillator (to use a user mounted clock as the subsystem clock) CLOCK OUT Procedure Prepare the IE-78044-R-EM and the wired break board. Remove the external clock component block mounted from the socket (socket labeled X2 (SUB)) on the break board.

  • Page 50: Crystal Oscillator Mounting Position (To Use A User Mounted Clock As The Subsystem Clock)

    PD65240 PD78009 X2 (SUB) X1 (MAIN) Connect the IE-78044-R-EM and the break board to the IE-78000-R. The following circuit is configured by the above procedure and the clock can be supplied to the emulation device. IE-78000-R side (emulation device) Ω...

  • Page 51: To Use An Extrnal Clock

    As a factory-set condition for shipment, a component block wired as shown in Fig. 4-15 is connected to the X2 (SUB) socket on the IE-78044-R-EM. If the wiring of this component block remains the same as the factory-set condition, no hardware adjustments are necessary.

  • Page 52: Component Block Mounting Position (To Use An External Clock As The Subsystem Clock)

    PD65240 PD78009 X2 (SUB) X1 (MAIN) Connect the IE-78044-R-EM and the break board to the IE-78000-R. The following circuit is configured by the above procedure and the clock signal on the target system can be supplied to the emulation device.
  • Page 53 CHAPTER 4 SETTING CLOCK IE-78000-R side (emulation device) Ω 4.7 k LS14 XT1 pin of CLK IN emulation probe HCU04 *1: Indicates the pin name of the target device. *2: Indicates the pin number of the component block. Remarks: The area enclosed by the broken line indicates the portion attached to the component block.

  • Page 55: Appendix A Ie-78044-R-Em Product Specifications

    APPENDIX A IE-78044-R-EM PRODUCT SPECIFICATIONS Product name : IE-78044-R-EM Peripheral emulation device : µ PD78P048A Operating temperature : 0 to 50°C Humidity : 10 to 80% RH (without condensation) Storage temperature : -15 to +60°C Power requirements : DC 0.5 A max. 2.5 W (supplied from IE-78000-R) Board dimensions 195.58 mm...

  • Page 57: Appendix B Dimensions Of Conversion Socket And Recommended Board Mounting Pattern

    APPENDIX B DIMENSIONS OF CONVERSION SOCKET AND RECOMMENDED BOARD MOUNTING PATTERN Fig. B-1 Dimensions of EV-9200G-80 (reference) EV-9200G-80 No.1 pin index EV-9200G-80-G0 ITEM MILLIMETERS INCHES 25.0 0.984 20.30 0.799 0.157 14.45 0.569 19.0 0.748 4-C 2.8 4-C 0.11 0.031 11.0 0.433 22.0 0.866...

  • Page 58: Recommended Board Mounting Pattern Of Ev-9200G-80 (Reference)

    APPENDIX B DIMENSIONS OF CONVERSION SOCKET AND RECOMMENDED BOARD MOUNTING PATTERN Fig. B-2 Recommended Board Mounting Pattern of EV-9200G-80 (reference) EV-9200G-80-P0 ITEM MILLIMETERS INCHES 25.7 1.012 21.0 0.827 0.8 ± 0.02 × 23=18.4 ± 0.05 × 0.906=0.724 +0.002 +0.003 0.031 –0.001 –0.002 0.8 ±...

  • Page 59: Dimensions Of Ev-9200G-64 (Reference)

    APPENDIX B DIMENSIONS OF CONVERSION SOCKET AND RECOMMENDED BOARD MOUNTING PATTERN Fig. B-3 Dimensions of EV-9200G-64 (reference ) EV-9200G-64 No.1 pin index EV-9200G-64-G0 ITEM MILLIMETERS INCHES 25.0 0.984 20.30 0.799 0.157 14.45 0.569 19.0 0.748 4-C 2.8 4-C 0.11 0.031 11.0 0.433 22.0...

  • Page 60: Recommended Board Mounting Pattern Of Ev-9200G-64 (Reference)

    APPENDIX B DIMENSIONS OF CONVERSION SOCKET AND RECOMMENDED BOARD MOUNTING PATTERN Fig. B-4 Recommended Board Mounting Pattern of EV-9200G-64 (reference ) EV-9200G-64-P0 ITEM MILLIMETERS INCHES 25.7 1.012 21.0 0.827 1.0 ± 0.02 × 18=18.0 ± 0.05 × 0.709=0.709 +0.002 +0.002 0.039 –0.001 –0.003...

  • Page 61: Appendix C Pin Configuration Of Emulation Probe

    APPENDIX C PIN CONFIGURATION OF EMULATION PROBE Table C-1 Pin Configuration of EP-78130GF-R Emulation Emulation Emulation Emulation Pin No. Probe Pin No. Probe Pin No. Probe Pin No. Probe EXT0 EXT1 EXT2 EXT3 EXT4 EXT5 EXT6 EXT7 Remarks: The meanings of the symbols and figures in the column under the heading “Emulation probe” are as follows: : Ground clip EXT0-EXT7 : External sense clip...

  • Page 62: Pin Configuration Of Ep-78024Gf-R/Ep-78024Cw-R

    APPENDIX C PIN CONFIGURATION OF EMULATION PROBE Table C-2 Pin Configuration of EP-78024GF-R/EP-78024CW-R Emulation Emulation Emulation Emulation Pin No. Probe Pin No. Probe Pin No. Probe Pin No. Probe EXT0 EXT1 EXT2 EXT3 EXT4 EXT5 EXT6 EXT7 Remarks: The meanings of the symbols and figures in the column under the heading “Emulation probe” are as follows: : Ground clip EXT0-EXT7 : External sense clip...

  • Page 63: Appendix D System Configuration

    APPENDIX D SYSTEM CONFIGURATION The IE-78000-R system configuration is shown on the following pages:...

  • Page 64: Ie-78000-R System Configuration

    APPENDIX D SYSTEM CONFIGURATION Table D-1 IE-78000-R System Configuration (1/6) Target Device Housing and Control/Trace Board Break Board µ PD78002 Subseries µ PD78002Y Subseries µ PD78014 Subseries µ PD78014Y Subseries 78K Series housing (w/power supply) µ PD78018F Subseries* IE-78000-R-BK (78K/0 Series common break board) µ...
  • Page 65 Emulation Probe (Optional) (Optional) (Optional) DF78002 (Accessory: EV-9200GC-64 (1)) EP-78240GC-R IE-78014-R-EM EP-78240CW-R SD78K0 (Accessory: EV-9500GK-64 (1)) (with ROM) IE-78014-R-EM-A EP-78012GK-R DF78014 (Accessory: EV-9200G-64 (1)) EP-78024GF-R DF78024 EP-78024CW-R (Accessory: EV-9200G-80 (1)) IE-78044-R-EM EP-78130GF-R DF78044 *1. Under development *2. Only for µ PD78018F Subseries...
  • Page 66 APPENDIX D SYSTEM CONFIGURATION Table D-1 IE-78000-R System Configuration (3/6) Target Device Housing and Control/Trace Board Break Board µ PD78054 Subseries µ PD78054Y Subseries 78K Series housing µ PD78064 (w/power supply) Subseries IE-78000-R-BK (78K/0 Series common break board) µ PD78078 Subseries* IE-78000-R-CS-A (78K Series common control/trace board)
  • Page 67 APPENDIX D SYSTEM CONFIGURATION Table D-1 IE-78000-R System Configuration (4/6) Screen Debugger Device File Emulation Board (Optional) Emulation Probe (Optional) (Optional) (Optional) (Accessory: EV-9200GC-80 (1)) EP-78230GC-R DF78054 (Accessory: EV-9500GK-80 (1)) EP-78054GK-R SD78K0 (Accessory: EV-9500GC-100 (1)) IE-78064-R-EM DF78064 (with ROM) EP-78064GC-R (Accessory: EV-9200GF-100 (1)) EP-78064GF-R DF78078...
  • Page 68 APPENDIX D SYSTEM CONFIGURATION Table D-1 IE-78000-R System Configuration (5/6) Target Device Housing and Control/Trace Board Break Board µ PD78098 Subseries 78K Series housing (w/power supply) IE-78000-R-BK (78K/0 Series common break board) µ PD780208 Subseries* IE-78000-R-CS-A (78K Series common control/trace board) Under development...
  • Page 69 APPENDIX D SYSTEM CONFIGURATION Table D-1 IE-78000-R System Configuration (6/6) Screen Debugger Device File Emulation Board (Optional) Emulation Probe (Optional) (Optional) (Optional) (Accessory: EV-9200GC-80 (1)) IE-78098-R-EM EP-78230GC-R DF78098* SD78K0 (with ROM) MR11 MR13 MR15 MR17 MR19 MR21 MR12 MR14 MR16 MR18 MR20 MR22...
  • Page 70 APPENDIX D SYSTEM CONFIGURATION [MEMO]...

  • Page 71: Appendix Eupgrading Other In-Circuit Emulators To The Ie-78000-R

    APPENDIX E UPGRADING OTHER IN-CIRCUIT EMULATORS TO THE IE-78000-R If you already have an in-circuit emulator in the 78K Series or 75X Series, it can be upgraded to the 78K/0 in-circuit emulator IE-78000-R by replacing the internal break board with the IE-78000-R-BK. Table E-1 Upgrading System Series Name Your In-Circuit Emulator...
  • Page 72 APPENDIX E SYSTEM CONFIGURATION [MEMO]...

  • Page 73: Appendix Frevision History

    Throughout Devices to be used have been changed as follows: CHAPTER 1 GENERAL µ PD78P044→ µ PD78P048A, µ PD78P014→ µ PD78P018F APPENDIX A IE-78044-R-EM SPECIFICA- TION Difference between µ PD78044 Subseries and µ PD78044 Subseries CHAPTER 1 GENERAL has been added.

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