IE-780862-NS-EM1 PD780862 U16810EJ1V0UM00 U16810EJ1V0UM IE-78K0-NS IE-78K0-NS-A - Datasheet Archive

 

Old Company Name in Catalogs and Other Documents On April 1st, 2010, NEC Electronics Corporation merged with Renesas Technology

 

To our customers, Old Company Name in Catalogs and Other Documents On April 1st, 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. Renesas Electronics website: http://www.renesas.com April 1st, 2010 Renesas Electronics Corporation Issued by: Renesas Electronics Corporation (http://www.renesas.com) Send any inquiries to http://www.renesas.com/inquiry. Notice 1. 2. 3. 4. 5. 6. 7. All information included in this document is current as of the date this document is issued. Such information, however, is subject to change without any prior notice. Before purchasing or using any Renesas Electronics products listed herein, please confirm the latest product information with a Renesas Electronics sales office. Also, please pay regular and careful attention to additional and different information to be disclosed by Renesas Electronics such as that disclosed through our website. Renesas Electronics does not assume any liability for infringement of patents, copyrights, or other intellectual property rights of third parties by or arising from the use of Renesas Electronics products or technical information described in this document. No license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of Renesas Electronics or others. You should not alter, modify, copy, or otherwise misappropriate any Renesas Electronics product, whether in whole or in part. Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples. You are fully responsible for the incorporation of these circuits, software, and information in the design of your equipment. Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits, software, or information. When exporting the products or technology described in this document, you should comply with the applicable export control laws and regulations and follow the procedures required by such laws and regulations. You should not use Renesas Electronics products or the technology described in this document for any purpose relating to military applications or use by the military, including but not limited to the development of weapons of mass destruction. Renesas Electronics products and technology may not be used for or incorporated into any products or systems whose manufacture, use, or sale is prohibited under any applicable domestic or foreign laws or regulations. Renesas Electronics has used reasonable care in preparing the information included in this document, but Renesas Electronics does not warrant that such information is error free. Renesas Electronics assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information included herein. Renesas Electronics products are classified according to the following three quality grades: "Standard", "High Quality", and "Specific". The recommended applications for each Renesas Electronics product depends on the product's quality grade, as indicated below. You must check the quality grade of each Renesas Electronics product before using it in a particular application. You may not use any Renesas Electronics product for any application categorized as "Specific" without the prior written consent of Renesas Electronics. Further, you may not use any Renesas Electronics product for any application for which it is not intended without the prior written consent of 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" or for which the product is not intended where you have failed to obtain the prior written consent of Renesas Electronics. The quality grade of each Renesas Electronics product is "Standard" unless otherwise expressly specified in a Renesas Electronics data sheets or data books, etc. "Standard": 8. 9. 10. 11. 12. Computers; office equipment; communications equipment; test and measurement equipment; audio and visual equipment; home electronic appliances; machine tools; personal electronic equipment; and industrial robots. "High Quality": Transportation equipment (automobiles, trains, ships, etc.); traffic control systems; anti-disaster systems; anticrime systems; safety equipment; and medical equipment not specifically designed for life support. "Specific": Aircraft; aerospace equipment; submersible repeaters; nuclear reactor control systems; medical equipment or systems for life support (e.g. artificial life support devices or systems), surgical implantations, or healthcare intervention (e.g. excision, etc.), and any other applications or purposes that pose a direct threat to human life. You should use the Renesas Electronics products described in this document within the range specified by Renesas Electronics, especially with respect to the maximum rating, operating supply voltage range, movement power voltage range, heat radiation characteristics, installation and other product characteristics. Renesas Electronics shall have no liability for malfunctions or damages arising out of the use of Renesas Electronics products beyond such specified ranges. Although Renesas Electronics endeavors to improve the quality and reliability of its products, semiconductor products have specific characteristics such as the occurrence of failure at a certain rate and malfunctions under certain use conditions. Further, Renesas Electronics products are not subject to radiation resistance design. Please be sure to implement safety measures to guard them against the possibility of physical injury, and injury or damage caused by fire in the event of the failure of a Renesas Electronics product, such as safety design for hardware and software including but not limited to redundancy, fire control and malfunction prevention, appropriate treatment for aging degradation or any other appropriate measures. Because the evaluation of microcomputer software alone is very difficult, please evaluate the safety of the final products or system manufactured by you. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product. Please use Renesas Electronics products in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive. Renesas Electronics assumes no liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations. This document may not be reproduced or duplicated, in any form, in whole or in part, without prior written consent of Renesas Electronics. Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics products, or if you have any other inquiries. (Note 1) "Renesas Electronics" as used in this document means Renesas Electronics Corporation and also includes its majorityowned subsidiaries. (Note 2) "Renesas Electronics product(s)" means any product developed or manufactured by or for Renesas Electronics. User's Manual IE-780862-NS-EM1 IE-780862-NS-EM1 Emulation Board Target Devices µPD780862 PD780862 Subseries Document No. U16810EJ1V0UM00 U16810EJ1V0UM00 (1st edition) Date Published September 2003 N CP(K) © Printed in Japan [MEMO] 2 User's Manual U16810EJ1V0UM U16810EJ1V0UM Windows is either a registered trademark or a trademark of Microsoft Corporation in the United States and/or other countries. PC/AT is a trademark of International Business Machines Corporation. · The information in this document is current as of July, 2003. The information is subject to change without notice. For actual design-in, refer to the latest publications of NEC Electronics data sheets or data books, etc., for the most up-to-date specifications of NEC Electronics products. Not all products and/or types are available in every country. Please check with an NEC Electronics sales representative for availability and additional information. · No part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC Electronics. NEC Electronics assumes no responsibility for any errors that may appear in this document. · NEC Electronics does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from the use of NEC Electronics products listed in this document or any other liability arising from the use of such products. No license, express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of NEC Electronics or others. · Descriptions of circuits, software and other related information in this document are provided for illustrative purposes in semiconductor product operation and application examples. The incorporation of these circuits, software and information in the design of a customer's equipment shall be done under the full responsibility of the customer. NEC Electronics assumes no responsibility for any losses incurred by customers or third parties arising from the use of these circuits, software and information. · While NEC Electronics endeavors to enhance the quality, reliability and safety of NEC Electronics products, customers agree and acknowledge that the possibility of defects thereof cannot be eliminated entirely. To minimize risks of damage to property or injury (including death) to persons arising from defects in NEC Electronics products, customers must incorporate sufficient safety measures in their design, such as redundancy, fire-containment and anti-failure features. · NEC Electronics products are classified into the following three quality grades: "Standard", "Special" and "Specific". The "Specific" quality grade applies only to NEC Electronics products developed based on a customerdesignated "quality assurance program" for a specific application. The recommended applications of an NEC Electronics product depend on its quality grade, as indicated below. Customers must check the quality grade of each NEC Electronics product before using it in a particular application. "Standard": Computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots. "Special": Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support). "Specific": Aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems and medical equipment for life support, etc. The quality grade of NEC Electronics products is "Standard" unless otherwise expressly specified in NEC Electronics data sheets or data books, etc. If customers wish to use NEC Electronics products in applications not intended by NEC Electronics, they must contact an NEC Electronics sales representative in advance to determine NEC Electronics' willingness to support a given application. (Note) (1) "NEC Electronics" as used in this statement means NEC Electronics Corporation and also includes its majority-owned subsidiaries. (2) "NEC Electronics products" means any product developed or manufactured by or for NEC Electronics (as defined above). M8E 02. 11-1 User's Manual U16810EJ1V0UM U16810EJ1V0UM 3 Regional Information Some information contained in this document may vary from country to country. Before using any NEC Electronics product in your application, pIease contact the NEC Electronics office in your country to obtain a list of authorized representatives and distributors. They will verify: · Device availability · Ordering information · Product release schedule · Availability of related technical literature · Development environment specifications (for example, specifications for third-party tools and components, host computers, power plugs, AC supply voltages, and so forth) · Network requirements In addition, trademarks, registered trademarks, export restrictions, and other legal issues may also vary from country to country. [GLOBAL SUPPORT] http://www.necel.com/en/support/support.html NEC Electronics America, Inc. (U.S.) NEC Electronics (Europe) GmbH NEC Electronics Hong Kong Ltd. Santa Clara, California Tel: 408-588-6000 800-366-9782 Duesseldorf, Germany Tel: 0211-65 03 01 Hong Kong Tel: 2886-9318 · Sucursal en España Madrid, Spain Tel: 091-504 27 87 · Succursale Française Vélizy-Villacoublay, France Tel: 01-30-67 58 00 · Filiale Italiana Milano, Italy Tel: 02-66 75 41 · Branch The Netherlands Eindhoven, The Netherlands Tel: 040-244 58 45 · Tyskland Filial Taeby, Sweden Tel: 08-63 80 820 NEC Electronics Hong Kong Ltd. Seoul Branch Seoul, Korea Tel: 02-558-3737 NEC Electronics Shanghai, Ltd. Shanghai, P.R. China Tel: 021-6841-1138 NEC Electronics Taiwan Ltd. Taipei, Taiwan Tel: 02-2719-2377 NEC Electronics Singapore Pte. Ltd. Novena Square, Singapore Tel: 6253-8311 · United Kingdom Branch Milton Keynes, UK Tel: 01908-691-133 J03.4 4 User's Manual U16810EJ1V0UM U16810EJ1V0UM INTRODUCTION Product Overview The IE-780862-NS-EM1 IE-780862-NS-EM1 is designed to be used with the IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A to debug the following target devices that belong to the 78K/0 78K/0 Series of 8-bit single-chip microcontrollers. · µPD780862 PD780862 Subseries: Target Readers µPD780861 PD780861, 780862, 78F0862 78F0862 This manual is intended for engineers who will use the IE-780862-NS-EM1 IE-780862-NS-EM1 with the IE78K0-NS IE78K0-NS or IE-78K0-NS-A IE-78K0-NS-A to perform system debugging. Engineers who use this manual are expected to be thoroughly familiar with the target device's functions and use methods and to be knowledgeable about debugging. Organization When using the IE-780862-NS-EM1 IE-780862-NS-EM1, refer to not only this manual (supplied with the IE780862-NS-EM1 IE780862-NS-EM1) but also the manual that is supplied with the IE-78K0-NS IE-78K0-NS or IE-78K0NS-A IE-78K0NS-A. IE-78K0-NS IE-78K0-NS IE-780862-NS-EM1 IE-780862-NS-EM1 User's Manual User's Manual · Basic specifications · General · System configuration · Part names · External interface functions · Installation · Differences between target device and target interface circuit IE-78K0-NS-A IE-78K0-NS-A User's Manual · Basic specifications · System configuration · External interface functions Purpose This manual's purpose is to explain various debugging functions that can be performed when using the IE-780862-NS-EM1 IE-780862-NS-EM1. User's Manual U16810EJ1V0UM U16810EJ1V0UM 5 Terminology The meanings of certain terms used in this manual are listed below. Term Emulation device Meaning This is a general term that refers to the device in the emulator that is used to emulate the target device. It includes the emulation CPU. Emulation CPU This is the CPU block in the emulator that is used to execute user-generated programs. Target device This is the device to be emulated. Target system This includes the target program and the hardware provided by the user. When defined narrowly, it includes only the hardware. IE system This refers to the combination of the in-circuit emulator (IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A) and the emulation board (IE-780862-NS-EM1 IE-780862-NS-EM1). Emulation board Conventions This refers to the IE-780862-NS-EM1 IE-780862-NS-EM1 (this product). Data significance: Higher digits on the left and lower digits on the right Note: Information requiring particular attention Remark: Related Documents Footnote for item marked with Note in the text Caution: Supplementary information The related documents (user's manuals) indicated in this publication may include preliminary versions. However, preliminary versions are not marked as such. Document Name Document Number IE-78K0-NS IE-78K0-NS In-Circuit Emulator U13731E U13731E IE-78K0-NS-A IE-78K0-NS-A In-Circuit Emulator U14889E U14889E IE-780862-NS-EM1 IE-780862-NS-EM1 Emulation Board This manual ID78K ID78K Series Integrated Debugger Ver. 2.30 or Later Operation (WindowsTM Based) U15185E U15185E µPD780862 PD780862 Subseries U16418E U16418E Caution The documents listed above are subject to change without notice. Be sure to use the latest documents when designing. 6 User's Manual U16810EJ1V0UM U16810EJ1V0UM CONTENTS CHAPTER 1 GENERAL .8 1.1 System Configuration. 9 1.2 Hardware Configuration . 11 1.3 Basic Specifications . 12 CHAPTER 2 PART NAMES .13 2.1 Parts of Main Unit . 14 CHAPTER 3 INSTALLATION .15 3.1 Connection . 16 3.2 Clock Settings . 17 3.2.1 Overview of clock settings. 17 3.2.2 Main system clock settings . 20 3.3 Mask Option Settings . 24 3.4 External Trigger . 25 3.5 Jumper Setting of IE-78K0-NS IE-78K0-NS . 26 3.6 Jumper Setting of IE-78K0-NS-A IE-78K0-NS-A. 26 3.7 Jumper Settings of IE-780862-NS-EM1 IE-780862-NS-EM1 . 27 3.8 Switch for Clock Monitor. 27 3.9 Emulation of POC and LVI Functions . 27 CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICE AND TARGET INTERFACE CIRCUIT.28 APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE.32 APPENDIX B NOTES ON TARGET SYSTEM DESIGN.34 User's Manual U16810EJ1V0UM U16810EJ1V0UM 7 CHAPTER 1 GENERAL This chapter describes the IE-780862-NS-EM1 IE-780862-NS-EM1's system configuration and basic specifications. The IE-780862-NS-EM1 IE-780862-NS-EM1 is a development tool for efficient debugging of hardware or software when using one of the following target devices that belong to the 78K/0 78K/0 Series of 8-bit single-chip microcontrollers. · Target devices · µPD780862 PD780862 Subseries 8 User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 1 GENERAL 1.1 System Configuration Figure 1-1 illustrates the IE-780862-NS-EM1 IE-780862-NS-EM1's system configuration. For the suitable probe conversion board, emulation probe, and conversion socket/conversion adapter, refer to Table 1-1. Figure 1-1. System Configuration Device fileNote 1 (available separately) Debugger ID78K0-NS ID78K0-NS (sold separately) Control software Host machine PC-9800 PC-9800 Series, IBM PC/ATTM or compatibles Interface board IE-70000-98-IF-C IE-70000-98-IF-C (sold separately) Interface board IE-70000-PC-IF-C IE-70000-PC-IF-C (sold separately) Interface board IE-70000-PCI-IF-A IE-70000-PCI-IF-A (sold separately) Interface card or Interface cable Interface cable (NS IF cable) IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A (sold separately) In-circuit emulator NS CARD MC CARD cable cable IE-70000-CD-IF-A IE-70000-CD-IF-A (sold separately) FG cable IE-780862-NS-EM1 IE-780862-NS-EM1 (this product) AC adapter IE-70000-MC-PS-B IE-70000-MC-PS-B (sold separately) Probe conversion board (included with IE-780862-NS-EM1 IE-780862-NS-EM1) Emulation probeNote 2 (sold separately) Conversion socket/conversion adapterNote 3 (sold separately) User's Manual U16810EJ1V0UM U16810EJ1V0UM 9 CHAPTER 1 GENERAL Notes 1. The device file is as follows, in accordance with the subseries. µS××××DF780862 DF780862: µPD780862 PD780862 Subseries The device file can be downloaded from the website of NEC Electronics (http://www.necel.com/micro/) 2. Emulation probes NP-30MC NP-30MC and NP-20GS NP-20GS are products of Naito Densei Machida Mfg. Co., Ltd. For further information, contact Naito Densei Machida Mfg. Co., Ltd. (TEL: +81-45-475-4191) 3. Conversion adapters YSPACK30BK YSPACK30BK, NSPACK20BK NSPACK20BK, and guide screw YQGUIDE are products of Tokyo Eletech Corporation. For further information, contact Daimaru Kogyo Co., Ltd. Tokyo Electronics Department (TEL: +81-3-3820-7112) Osaka Electronics Department (TEL: +81-6-6244-6672) Table 1-1. Correspondence Between Emulation Probes and Conversion Adapters Package Probe Conversion Board Emulation Probe Conversion Socket/ Conversion Adapter 20-pin SSOP (300 mil) IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE NP-30MC NP-30MC Board (20MC) 20-pin SOP (300 mil) IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE NP-20GS NP-20GS Board (20GS) 10 YSPACK30BK YSPACK30BK + NSPACK20BK NSPACK20BK + YQGUIDE EV-9500GS-20 EV-9500GS-20 EV-9501GS-20 EV-9501GS-20 User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 1 GENERAL 1.2 Hardware Configuration Figures 1-2 and 1-3 show the IE-780862-NS-EM1 IE-780862-NS-EM1's position in the basic hardware configuration. Figure 1-2. Basic Hardware Configuration (When IE-78K0-NS IE-78K0-NS Is Used) Dedicated bus interface IE system IE-78K0-NS IE-78K0-NS Host machine Interface board (sold separately) IE-780862-NS-EM1 IE-780862-NS-EM1 78K0 main board (sold separately) Emulation board (this product) Probe conversion board (included with IE-780862-NS-EM1 IE-780862-NS-EM1) Interface card (sold separately) Emulation probe (sold separately) Figure 1-3. Basic Hardware Configuration (When IE-78K0-NS-A IE-78K0-NS-A Is Used) IE system IE-78K0-NS-A IE-78K0-NS-A IE-780862-NS-EM1 IE-780862-NS-EM1 Interface board (sold separately) Dedicated bus interface Emulation board (this product) 78K0 main board Host machine 78K0 performance board Interface card (sold separately) External sense probe User's Manual U16810EJ1V0UM U16810EJ1V0UM Probe conversion board (included with IE-780862-NS-EM1 IE-780862-NS-EM1) Emulation probe (sold separately) 11 CHAPTER 1 GENERAL 1.3 Basic Specifications The basic specifications of the IE-780862-NS-EM1 IE-780862-NS-EM1 are listed in Table 1-2. Table 1-2. Basic Specifications Parameter Description µPD780862 PD780862 Subseries Target device System clock On-chip low-speed Ring-OSC: 240 kHz On-chip high-speed Ring-OSC: 8.0 MHz System clock supply External: Pulse input Internal: Note Low-voltage support Mounted on the emulation board (10.0 MHz) VDD = 2.7 to 5.5 V (same as target device) Note See the IE-78K0-NS IE-78K0-NS User's Manual (U13731E U13731E) or IE-78K0-NS-A IE-78K0-NS-A User's Manual (U14889E U14889E) for details of the low-voltage operation of this IE system. 12 User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 2 PART NAMES This chapter introduces the parts of the IE-780862-NS-EM1 IE-780862-NS-EM1 main unit. The packing box contains the emulation board (IE-780862-NS-EM1 IE-780862-NS-EM1), probe conversion board, packing list, user's manual, and guarantee card. If there are any missing or damaged items, please contact an NEC Electronics sales representative. Fill out and return the guarantee card that comes with the main unit. User's Manual U16810EJ1V0UM U16810EJ1V0UM 13 CHAPTER 2 PART NAMES 2.1 Parts of Main Unit (1) IE-780862-NS-EM1 IE-780862-NS-EM1 Part Names Figure 2-1. IE-780862-NS-EM1 IE-780862-NS-EM1 Part Names CP34 CP35 LED3 SW2 Clock monitor switch POC RESET EXTOUT EXTIN External trigger LED1 OSC1 JP1 JP2 CN5 Probe connector CN5 USER VDD Main system clock UMCLK (2) Probe conversion boards (two boards) Figure 2-2. Probe Conversion Boards (a) 20MC (b) 20GS IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board CN1 14 20MC User's Manual U16810EJ1V0UM U16810EJ1V0UM CN1 20GS CHAPTER 3 INSTALLATION This chapter describes methods for connecting the IE-780862-NS-EM1 IE-780862-NS-EM1 to the IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A, emulation probe, etc. Mode setting methods are also described. Caution Connecting or removing components to or from the target system, or making switch or other setting changes must be carried out after the power supply to both the IE system and the target system has been switched OFF. User's Manual U16810EJ1V0UM U16810EJ1V0UM 15 CHAPTER 3 INSTALLATION 3.1 Connection (1) Connection with IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A main unit See the IE-78K0-NS IE-78K0-NS User's Manual (U13731E U13731E) for a description of how to connect the IE-780862-NS-EM1 IE-780862-NS-EM1 to the IE-78K0-NSNote. Note When using the IE-78K0-NS-A IE-78K0-NS-A, see the IE-78K0-NS-A IE-78K0-NS-A User's Manual (U14889E U14889E). (2) Connection with emulation probe Use the probe conversion board corresponding to the used emulation probe. Connect CN2 of the probe conversion board to CN5 of the IE-780862-NS-EM1 IE-780862-NS-EM1. Connect CN1 of the probe conversion board to the emulation probe. Caution Incorrect connection may damage the IE system. Be sure to read the emulation probe's user's manual for a detailed description of the connection method. Figure 3-1. Connection of Emulation Probe Emulation probe (sold separately) Probe conversion board IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board 20MC or IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board 20GS IE-780862-NS-EM1 IE-780862-NS-EM1 Main board of IE-78K0-NS IE-78K0-NS (sold separately) or IE-78K0-NS-A IE-78K0-NS-A (sold separately) 16 User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 3 INSTALLATION 3.2 Clock Settings 3.2.1 Overview of clock settings The main system clock to be used during debugging can be selected from (1) to (4) below. (1) Clock that is already mounted on emulation board (2) Clock that is mounted by user (3) Pulse input from target system (4) On-chip Ring-OSC If the target system includes a clock oscillator, select either (1) Clock that is already mounted on emulation board, (2) Clock that is mounted by user, or (4) On-chip Ring-OSC. For the clock oscillator, a resonator is connected to the target device and the target device's internal oscillator is used. An example of the external circuit is shown in part (a) of Figure 3-2. During emulation, the oscillator that is mounted on the target system is not used. Instead, the clock that is mounted on the emulation board installed in the IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A is used. If the target system includes an external clock, select either (1) Clock that is already mounted on emulation board, (2) Clock that is mounted by user, (3) Pulse input from target system, or (4) On-chip Ring-OSC. For the external clock, a clock signal is supplied from outside of the target device and the target device's internal oscillator is not used. An example of the external circuit is shown in part (b) of Figure 3-2. Caution The IE system will hang up if the main system clock is not supplied normally. Moreover, be sure to input a rectangular wave as the pulse from the target system. There is no need to supply a clock to the X2 pin. Also, even if a crystal resonator is connected directly to X1 (for the main system clock), the target device will not operate. Figure 3-2. External Circuits Used as System Clock Oscillator (a) Clock oscillator (b) External clock Target device Target device VSS External clock X1 X2 X1 X2 Crystal or ceramic resonator User's Manual U16810EJ1V0UM U16810EJ1V0UM 17 CHAPTER 3 INSTALLATION (1) Clock that is already mounted on emulation board A 10.0 MHz crystal oscillator mounted on the IE-780862-NS-EM1 IE-780862-NS-EM1 can be used. Figure 3-3. When Using Clock That Is Already Mounted on Emulation Board (Main System Clock) IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A Target system Emulation board UMCLK Emulation probe Mounted oscillator (used) Clock oscillator or external clock (not used) Remark The clock that is supplied by the oscillator of the IE-780862-NS-EM1 IE-780862-NS-EM1 (encircled in the figure) is used. (2) Clock that is mounted by user The user can mount any clock supported by the set specifications on the IE-780862-NS-EM1 IE-780862-NS-EM1. This feature is effective when debugging at a different frequency than the clock already mounted. Remove the crystal oscillator (UMCLK) that is already mounted on the emulation board, and mount the parts board on which the resonator to be used is mounted or mount the oscillator to be used. Figure 3-4. When Using User-Mounted Clock (Main System Clock) IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A Target system Emulation board UMCLK Emulation probe Parts board + oscillator or oscillator (used) Clock oscillator or external clock (not used) Remark The clock that is supplied by the resonator of the IE-780862-NS-EM1 IE-780862-NS-EM1 (encircled in the figure) or the oscillator is used. 18 User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 3 INSTALLATION (3) Pulse input from target system An external clock on the target system can be used via an emulation probe. Figure 3-5. When Supplying Pulse from Target System IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A Target system Emulation board UMCLK Emulation probe Mounted oscillator (not used) External clock (used) Remark The pulse that is supplied by the external clock on the target system (encircled in the figure) is used. (4) On-chip Ring-OSC The Ring-OSC on the emulation board can be used. (a) When using high-speed Ring-OSC The high-speed Ring-OSC on the emulation board can be used. Figure 3-6. When Using High-Speed Ring-OSC IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A Target system Emulation board Emulation probe High-speed Ring-OSC on emulation board is used Clock oscillator or external clock (not used) User's Manual U16810EJ1V0UM U16810EJ1V0UM 19 CHAPTER 3 INSTALLATION (b) When using low-speed Ring-OSC The low-speed Ring-OSC on the emulation board can be used. Figure 3-7. When Using Low-Speed Ring-OSC IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A Target system Emulation board Emulation probe Low-speed Ring-OSC on emulation board is used Clock oscillator or external clock (not used) 3.2.2 Main system clock settings Table 3-1 shows the settings of the IE-780862-NS-EM1 IE-780862-NS-EM1 when the main system clocks in (1) to (4) are used. Table 3-1. Main System Clock Settings Frequency of Main System Clock Mask Options SFR IE-780862-NS-EM1 IE-780862-NS-EM1 (MCM0) (SystemClock) UMCLK CPU Clock Source Selection Note 2 (ID78K0-NS ID78K0-NS) (1) When using clock that is already 10.0 MHz X1orRC 1 Oscillator Internal mounted on emulation board (2) When using clock mounted by (3) When inputting pulse from target Other Oscillator assembled or than 10.0 user prepared by user MHz Oscillator (not used) External system (4) When using on- High-speed chip Ring-OSC 8.0 MHz Internal or external HighspeedRing Ring-OSC Low-speed Note 1 Ring-OSC 240 kHz X1orRC or 0 HighspeedRing Notes 1. The IE-780862-NS-EM1 IE-780862-NS-EM1 operates with the low-speed Ring-OSC clock when the integrated debugger is activated and immediately after reset. 2. Select the source clock for the main system clock when the integrated debugger is started. After that, do not change the setting. Remark 20 SFR MCM0 is set to 0 under the factory setting of the IE-780862-NS-EM1 IE-780862-NS-EM1. User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 3 INSTALLATION (1) When using clock that is already mounted on emulation board When the IE-780862-NS-EM1 IE-780862-NS-EM1 is shipped, a 10.0 MHz crystal oscillator is already mounted in the IE-780862-NSEM1 IE-780862-NSEM1's socket (UMCLK). When using the factory-set mode settings, there is no need to make any other hardware settings. When starting the integrated debugger (ID78K0-NS ID78K0-NS), open the configuration dialog box and select "Internal" in the area (Clock) for selecting the CPU's clock source (this selects the emulator's internal clock). After the debugger is activated, if "X1orRC" is selected for the mask option SystemClock in the Mask Option dialog box and the SFR MCM0 is changed to 1, the CPU operating clock is switched from the low-speed RingOSC to the clock already mounted on the emulation board. (2) When using clock mounted by user Perform the settings described under either (a) or (b), depending on the type of clock to be used. When starting the integrated debugger (ID78K0-NS ID78K0-NS), open the configuration dialog box and select "Internal" in the area (Clock) for selecting the CPU's clock source (this selects the emulator's internal clock). After the debugger is activated, if "X1orRC" is selected for the mask option SystemClock in the Mask Option dialog box and the SFR MCM0 is changed to 1, the CPU operating clock is switched from the low-speed RingOSC to the clock mounted by user. (a) When using a ceramic resonator or crystal resonator · Items to be prepared · Parts board · Capacitor CA · Ceramic resonator or crystal resonator · Capacitor CB · Resistor Rx · Solder kit Solder the target ceramic resonator or crystal resonator, resistor Rx, capacitor CA, and capacitor CB (all with suitable oscillation frequencies) onto the parts board (as shown below). Figure 3-8. Connections on Parts Board (Main System Clock) Parts board (UMCLK) Pin No. Connection 1 14 2 13 2-13 Capacitor CA 3 12 3-12 Capacitor CB 4 11 4-11 Ceramic resonator or crystal resonator 5 10 5-10 Resistor Rx 6 9 8-9 Shorted 7 8 User's Manual U16810EJ1V0UM U16810EJ1V0UM 21 CHAPTER 3 INSTALLATION Circuit diagram 1 M HCU04 HCU04 HCU04 HCU04 98 5 Rx 10 4 11 13 CA 2 3 CB 12 Remark CLOCK OUT The sections enclosed in broken lines indicate parts that are attached to the parts board. Prepare the IE-780862-NS-EM1 IE-780862-NS-EM1. Remove the crystal oscillator that is mounted in the IE-780862-NS-EM1 IE-780862-NS-EM1's socket (UMCLK). Connect the parts board (from above) to the socket (UMCLK) from which the crystal oscillator was removed (in above). Check the pin 1 mark to make sure the board is mounted in the correct direction. Make sure that the parts board is wired as shown in Figure 3-8 above. Install the IE-780862-NS-EM1 IE-780862-NS-EM1 in the IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A. The above steps configure the following circuit and enable supply of the clock from the mounted resonator to the emulation device. (b) When using a crystal oscillator · Items to be prepared · Crystal oscillator (see pin layout shown in Figure 3-9) Figure 3-9. Crystal Oscillator (Main System Clock) NC GND VCC CLOCK OUT Prepare the IE-780862-NS-EM1 IE-780862-NS-EM1. Remove the crystal oscillator that is mounted in the IE-780862-NS-EM1 IE-780862-NS-EM1's socket (UMCLK). Connect a crystal oscillator to the socket (UMCLK) from which the crystal oscillator was removed (in above). Insert the pins of the crystal oscillator into the socket aligning the pins as shown in the figure below. 22 User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 3 INSTALLATION Figure 3-10. Pin Alignment of Crystal Oscillator and Socket (Main System Clock) Crystal oscillator Socket Crystal Oscillator Pin Name Socket Pin No. NC 1 13 GND 7 12 CLOCK OUT 8 4 11 5 10 VCC 14 6 CLOCK OUT 14 3 GND 1 2 VCC NC 9 7 8 Install the IE-780862-NS-EM1 IE-780862-NS-EM1 in the IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A. (3) When inputting pulse from target system No hardware settings are required for this situation. When starting the integrated debugger (ID78K0-NS ID78K0-NS), open the configuration dialog box and select "External" in the area (Clock) for selecting the CPU's clock source (this selects the user's clock). After the debugger is activated, if "X1orRC" is selected for the mask option SystemClock in the Mask Option dialog box and the SFR MCM0 is changed to 1, the CPU operating clock is switched from the low-speed RingOSC to the clock input from the target system. (4) When using on-chip Ring-OSC (a) When using high-speed Ring-OSC No hardware settings are required for this situation. After the integrated debugger (ID78K0-NS ID78K0-NS) is activated, if "HighspeedRing" is selected for the mask option SystemClock in the Mask Option dialog box and the SFR MCM0 is changed to 1, the CPU operating clock is switched from the low-speed Ring-OSC to the high-speed Ring-OSC on the emulation board. (b) When using low-speed Ring-OSC The low-speed Ring-OSC (240 kHz) is selected as the CPU operating clock when the IE system is activated. See 3.2.2 (1) to (4) when changing the setting. Caution Use of the peripheral functions, except for the following cases, is prohibited when the low-speed Ring-OSC is selected as the CPU operating clock (MCM0 = 0). · When watchdog timer is used · When clock monitor is used · TMH1 (When fosc/27 is selected for the count clock (CKS12 CKS12 = 1, CKS11 CKS11 = 0, CKS10 CKS10 = 1) · When peripheral function that uses an external clock as the operating clock is used User's Manual U16810EJ1V0UM U16810EJ1V0UM 23 CHAPTER 3 INSTALLATION 3.3 Mask Option Settings The following mask options are provided in the IE-780862-NS-EM1 IE-780862-NS-EM1. (1) LowspeedRing On-chip low-speed Ring-OSC clock oscillation (2) SystemClock High-speed system clock oscillation selection Open the Mask Option dialog box in the integrated debugger by selecting [Mask Option] on the [Option] menu to set the mask options. See the ID78K ID78K Series Integrated Debugger Ver.2.30 or Later Operation User's Manual (U15185E U15185E) for details of the settings. (1) LowspeedRing (initial value: SoftwareStop) SoftwareStop: Ring-OSC can be stopped. Source clock of watchdog timer can be selected Nonstop: Ring-OSC cannot be stopped. Source clock of watchdog timer cannot be selected (2) SystemClock (initial value: X1orRC) X1orRCNote: The pulse input from the UMCLK socket on the emulation board and the target system are used when the SFR MCM0 is set to 1. P02 cannot be used. HighspeedRing: The high-speed Ring-OSC is used when the SFR MCM0 is set to 1. P02 can be used. Note The RC clock is supported in the target device, but not in this IE system. When using the RC clock in the target device, use an oscillator equivalent to the RC clock in the IE system. See 3.2 Clock Settings for how to use the oscillator. 24 User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 3 INSTALLATION 3.4 External Trigger To set an external trigger, connect the IE-780862-NS-EM1 IE-780862-NS-EM1's check pins EXTOUT and EXTIN as shown below. See the IE-78K0-NS IE-78K0-NS User's Manual (U13731E U13731E) or IE-78K0-NS-A IE-78K0-NS-A User's Manual (U14889E U14889E) for pin characteristics. For the use methods, see the ID78K ID78K Series Ver.2.30 or Later Operation Windows Based User's Manual (U15185E U15185E). Figure 3-11. External Trigger Input Position JP1 JP2 OSC1 CN5 CP34 CP35 LED1 LED3 SW2 EXTOUT EXTIN User's Manual U16810EJ1V0UM U16810EJ1V0UM External trigger 25 CHAPTER 3 INSTALLATION 3.5 Jumper Setting of IE-78K0-NS IE-78K0-NS When using the IE-780862-NS-EM1 IE-780862-NS-EM1 combined with the IE-78K0-NS IE-78K0-NS, set the jumpers on the IE-78K0-NS IE-78K0-NS as follows. For the locations of jumpers, refer to the IE-78K0-NS IE-78K0-NS User's Manual (U13731E U13731E). Caution Incorrect jumper setting may damage the IE-780862-NS-EM1 IE-780862-NS-EM1. Table 3-2. Jumper Setting of IE-78K0-NS IE-78K0-NS JP2 Setting 3.6 JP3 JP4 JP6 JP7 JP8 2 and 3 shorted 1 and 2 shorted 1 and 2 shorted 3 and 4 shorted 3 and 4 shorted 3 and 4 shorted Jumper Setting of IE-78K0-NS-A IE-78K0-NS-A When using the IE-780862-NS-EM1 IE-780862-NS-EM1 combined with the IE-78K0-NS-A IE-78K0-NS-A, set the jumpers on the IE-78K0-NS-A IE-78K0-NS-A as follows. For the locations of jumpers, refer to the IE-78K0-NS-A IE-78K0-NS-A User's Manual (U14889E U14889E). Caution Incorrect jumper setting may damage the IE-780862-NS-EM1 IE-780862-NS-EM1. Table 3-3. Jumper Setting of IE-78K0-NS-A IE-78K0-NS-A JP2 Setting JP3 JP4 JP6 JP7 JP8 2 and 3 shorted 1 and 2 shorted 1 and 2 shorted 3 and 4 shorted 3 and 4 shorted 3 and 4 shorted Table 3-4. Jumper Setting on G-78K0H G-78K0H Option Board of IE-78K0-NS-A IE-78K0-NS-A JP2 Setting 26 2 and 3 shorted User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 3 INSTALLATION 3.7 Jumper Settings of IE-780862-NS-EM1 IE-780862-NS-EM1 Set the IE-780862-NS-EM1 IE-780862-NS-EM1 jumpers as shown in the table below. Setting of multiplication circuit Change the settings of the multiplication circuit as shown in Table 3-5 according to the operating frequency of the main system clock. Table 3-5. Settings of Multiplication Circuit Main System Clock Frequency JP1 JP2 2.0 MHz to less than 2.5 MHz 1-2 shorted 1-2 shorted 2.5 MHz to less than 3.5 MHz 3-4 shorted 3-4 shorted 3.5 MHz to less than 5.0 MHz 5-6 shorted 5-6 shorted 5.0 MHz to less than 6.5 MHz 7-8 shorted 7-8 shorted 6.5 MHz to less than 9 MHz 9-10 shorted 9-10 shorted 9 MHz to 10.0 MHz 11-12 shorted 11-12 shorted 3.8 Switch for Clock Monitor A switch for clock monitor emulation (SW2) is mounted on the IE-780862-NS-EM1 IE-780862-NS-EM1 board. Emulation for when the clock is stopped can be performed by pressing SW2. 3.9 Emulation of POC and LVI Functions When emulating the POC and LVI using the IE-780862-NS-EM1 IE-780862-NS-EM1, supply a voltage of the same potential as the VDD pin of the emulation device to TP1, because POC and LVI supply voltage detection is performed via input from TP1 on the G-780009 G-780009 BOARD of the IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A, not from the VDD pin of the target device. See the IE-78K0-NS IE-78K0-NS User's Manual (U13731E U13731E) or IE-78K0-NS-A IE-78K0-NS-A User's Manual (U14889E U14889E) for details of the connection with TP1. In addition, LED3 is provided for confirming a POC reset. LED3 is lit during the reset shown below. Do not set a break when LED3 is lit; otherwise the integrated debugger ID78K0-NS ID78K0-NS will hang up. · Internal reset by comparing the power supply voltage and detection voltage of the POC circuit · Internal reset by comparing the power supply voltage and detection voltage of the low-voltage detector (LVI) User's Manual U16810EJ1V0UM U16810EJ1V0UM 27 CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICE AND TARGET INTERFACE CIRCUIT This chapter describes differences between the target device's signal lines and the signal lines of the target interface circuit of the IE system. The target interface circuit of the IE system realizes emulation via an emulation circuit configured by an emulation CPU, TTL, CMOS-IC, and other components. The electrical characteristics are different from those of the target device because a protector and other circuits are provided. (1) Signals input/output from the emulation CPU (µPD7880 PD7880) (2) Signals input/output from the emulation CPU (µPD7883 PD7883) (3) Other signals The circuits of the IE system are used as follows for signals listed in (1) to (3) above. The same applies to handling alternate-function pins of (1) and (2) above, for which no circuit is provided in the IE system. 28 User's Manual U16810EJ1V0UM U16810EJ1V0UM CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICE AND TARGET INTERFACE CIRCUIT (1) Signals input/output from the emulation CPU (µPD7880 PD7880) The IE system circuit for the following signals is shown in Figure 4-1. · P02 to P00 · P23 to P20 · AVREF Figure 4-1. Equivalent Circuit of Emulation Circuit (1) · Probe side · IE system side (Target system) 100 P00 P01 µ PD7880 PD7880 1 M Emulation CPU P23 to P20 AVREF 100 Note P02 HC4066 HC4066 1 M Note This circuit becomes valid and is connected when "HighspeedRing" is selected for the mask option SystemClock. This circuit becomes invalid and is disconnected when "X1orRC" is selected. (2) Signals input/output from the emulation CPU (µPD7883 PD7883) The IE system circuit for the following signals is shown in Figure 4-2. · P15 to P10 · P130 Figure 4-2. Equivalent Circuit of Emulation Circuit (2) 100 P15 to P10 1 M µ PD7883 PD7883 Emulation CPU P130 User's Manual U16810EJ1V0UM U16810EJ1V0UM 29 CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICE AND TARGET INTERFACE CIRCUIT (3) Other signals The IE system circuits for the following signals are shown in Figures 4-3 and 4-4. · X1, X2, RESET, VDD, VSS, IC Figure 4-3. Equivalent Circuit of Emulation Circuit (3) · Probe side · IE system side (Target system) High-speed Ring-OSC 10 MHz UMCLK FPGA emulation Low-speed Ring-OSC HC157 HC157 Level shifter µ PD780009A PD780009A LVDD 100 X1 PVDD (5 V) 680 390 270 2.2 k 1.5 k 1 k 2 JP2 1 4 6 PVDD (5 V) 8 10 3.0 k 2.2 k 1.5 k 1.2 k 820 680 12 2 11 1 4 6 8 10 12 JP1 3 5 7 9 3 5 7 9 HC08 LS07 HC32 HC04 LS07 33 pF 11 HC04 HC04 HC02 33 pF µ PD780009A PD780009A Emulation CPU (CLK block) LVDD (RESET block) 4.7 k 100 RESET 30 (Level shifter) User's Manual U16810EJ1V0UM U16810EJ1V0UM Reset mask circuit CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICE AND TARGET INTERFACE CIRCUIT Figure 4-4. Equivalent Circuit of Emulation Circuit (4) · Probe side · IE system side (Target system) VCC 3.3 k VCC 1.5 k 10 k Power supply detection VDD µ PC393G PC393G VSS X2 IC OPEN User's Manual U16810EJ1V0UM U16810EJ1V0UM 31 APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE Table A-1. Pin Assignment of IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board (20GS) + NP-20GS NP-20GS Emulation Probe IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE IE-780862-NS-EM1 IE-780862-NS-EM1 CN5 Board (20GS) CN1 1 33 18 2 32 62 3 74 91 4 31 19 5 75 22 6 34 66 7 7 98 8 8 97 9 9 21 10 10 99 11 16 63 12 15 64 13 14 70 14 13 69 15 6 71 16 5 94 17 4 93 18 3 30 19 17 29 20 73 24 Remarks 1. NP-20GS NP-20GS is a product of Naito Densei Machida Mfg. Co., Ltd. 2. The numbers in the "Emulation probe" column indicate the corresponding pin number on the emulation probe tip. 3. The numbers in the IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board (20GS) CN1 column refer to the IE-780862NS-EM1 IE-780862NS-EM1 PROBE Board (20GS) pin to be connected to the NP-20GS NP-20GS. 4. The numbers in the IE-780862-NS-EM1 IE-780862-NS-EM1 CN5 column refer to the IE-780862-NS-EM1 IE-780862-NS-EM1 pin to be connected to the IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board (20GS). 32 User's Manual U16810EJ1V0UM U16810EJ1V0UM APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE Table A-2. Pin Assignment of IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board (20MC) + NP-30MC NP-30MC Emulation Probe IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE IE-780862-NS-EM1 IE-780862-NS-EM1 CN5 Board (20MC) CN1 1 49 18 2 55 62 3 19 91 4 18 19 5 22 22 6 62 66 7 65 98 8 66 97 9 92 21 10 91 99 11 70 63 12 69 64 13 72 70 14 102 69 15 71 71 16 94 94 17 93 93 18 30 30 19 29 29 20 24 24 Remarks 1. NP-30MC NP-30MC is a product of Naito Densei Machida Mfg. Co., Ltd. 2. The numbers in the "Emulation probe" column indicate the corresponding pin number on the emulation probe tip. 3. The numbers in the IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board (20MC) CN1 column refer to the IE-780862NS-EM1 IE-780862NS-EM1 PROBE Board (20MC) pin to be connected to the NP-30MC NP-30MC. 4. The numbers in the IE-780862-NS-EM1 IE-780862-NS-EM1 CN5 column refer to the IE-780862-NS-EM1 IE-780862-NS-EM1 pin to be connected to the IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board (20MC). User's Manual U16810EJ1V0UM U16810EJ1V0UM 33 APPENDIX B NOTES ON TARGET SYSTEM DESIGN The following shows the conditions when connecting the emulation probe to the conversion adapter. Follow the configuration below and consider the shape of parts to be mounted on the target system when designing a system. Among the products described in this appendix, NP-30MC NP-30MC is a product of Naito Densei Machida Mfg. Co., Ltd, and YSPACK30BK YSPACK30BK, NSPACK20BK NSPACK20BK, and YQGUIDE are products of Tokyo Eletech Corporation. Table B-1. Distance Between IE System and Conversion Adapter Emulation Probe NP-30MC NP-30MC Conversion Adapter YSPACK30BK YSPACK30BK Distance Between IE System and Conversion Adapter 150 mm NSPACK20BK NSPACK20BK YQGUIDE Figure B-1. Distance Between In-Circuit Emulator and Conversion Adapter In-circuit emulator IE-78K0-NS IE-78K0-NS or IE-78K0-NS-A IE-78K0-NS-A Target system Emulation board 150 mm NP-30MC NP-30MC head PWB CN1 Emulation probe NP-30MC NP-30MC Conversion adapter YSPACK30BK YSPACK30BK, NSPACK20BK NSPACK20BK Conversion board IE-780862-NS-EM1 IE-780862-NS-EM1 PROBE Board (20MC) 34 User's Manual U16810EJ1V0UM U16810EJ1V0UM APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-2. Connection Conditions of Target System Emulation board Emulation probe NP-30MC NP-30MC NP-30MC NP-30MC head PWB Guide pin YQGUIDE 13 mm Conversion adapter YSPACK30BK YSPACK30BK, NSPACK20BK NSPACK20BK 5 mm 15 mm 37 mm 20 mm 31 mm Target system User's Manual U16810EJ1V0UM U16810EJ1V0UM 35