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| User's Manual SE-17709 System Evaluation Board Target Devices PD17704A PD17705A PD17707A PD17708A PD17709A PD17717 PD17718 PD17719 Document No. U10663EJ4V0UM00 (4th edition) Date Published September 2001 N CP(K) (c) Printed in Japan 1995, 2001 [MEMO] 2 User's Manual U10663EJ4V0UM SIMPLEHOST is a trademark of NEC Corporation. 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 May, 2001. The information is subject to change without notice. For actual design-in, refer to the latest publications of NEC's data sheets or data books, etc., for the most up-to-date specifications of NEC semiconductor products. Not all products and/or types are available in every country. Please check with an NEC 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 prior written consent of NEC. NEC assumes no responsibility for any errors that may appear in this document. * NEC 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 semiconductor 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 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 customer's equipment shall be done under the full responsibility of customer. NEC assumes no responsibility for any losses incurred by customers or third parties arising from the use of these circuits, software and information. * While NEC endeavours to enhance the quality, reliability and safety of NEC semiconductor 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 semiconductor products, customers must incorporate sufficient safety measures in their design, such as redundancy, fire-containment, and anti-failure features. * NEC semiconductor products are classified into the following three quality grades: "Standard", "Special" and "Specific". The "Specific" quality grade applies only to semiconductor products developed based on a customer-designated "quality assurance program" for a specific application. The recommended applications of a semiconductor product depend on its quality grade, as indicated below. Customers must check the quality grade of each semiconductor 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 semiconductor products is "Standard" unless otherwise expressly specified in NEC's data sheets or data books, etc. If customers wish to use NEC semiconductor products in applications not intended by NEC, they must contact an NEC sales representative in advance to determine NEC's willingness to support a given application. (Note) (1) "NEC" as used in this statement means NEC Corporation and also includes its majority-owned subsidiaries. (2) "NEC semiconductor products" means any semiconductor product developed or manufactured by or for NEC (as defined above). M8E 00. 4 User's Manual U10663EJ4V0UM 3 Regional Information Some information contained in this document may vary from country to country. Before using any NEC product in your application, pIease contact the NEC 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. NEC Electronics Inc. (U.S.) Santa Clara, California Tel: 408-588-6000 800-366-9782 Fax: 408-588-6130 800-729-9288 NEC Electronics (Germany) GmbH Benelux Office Eindhoven, The Netherlands Tel: 040-2445845 Fax: 040-2444580 NEC Electronics Hong Kong Ltd. Hong Kong Tel: 2886-9318 Fax: 2886-9022/9044 NEC Electronics Hong Kong Ltd. NEC Electronics (France) S.A. Velizy-Villacoublay, France Tel: 01-3067-5800 Fax: 01-3067-5899 Seoul Branch Seoul, Korea Tel: 02-528-0303 Fax: 02-528-4411 NEC Electronics (Germany) GmbH Duesseldorf, Germany Tel: 0211-65 03 02 Fax: 0211-65 03 490 NEC Electronics (France) S.A. NEC Electronics (UK) Ltd. Milton Keynes, UK Tel: 01908-691-133 Fax: 01908-670-290 Madrid Office Madrid, Spain Tel: 091-504-2787 Fax: 091-504-2860 NEC Electronics Singapore Pte. Ltd. Novena Square, Singapore Tel: 253-8311 Fax: 250-3583 NEC Electronics Taiwan Ltd. NEC Electronics Italiana s.r.l. Milano, Italy Tel: 02-66 75 41 Fax: 02-66 75 42 99 NEC Electronics (Germany) GmbH Scandinavia Office Taeby, Sweden Tel: 08-63 80 820 Fax: 08-63 80 388 Taipei, Taiwan Tel: 02-2719-2377 Fax: 02-2719-5951 NEC do Brasil S.A. Electron Devices Division Guarulhos-SP, Brasil Tel: 11-6462-6810 Fax: 11-6462-6829 J01.2 4 User's Manual U10663EJ4V0UM Major Revisions in This Edition Page Throughout Addition of descriptions on the following products * PD17704A * PD17705A * PD17707A * PD17708A * PD17709A Description The mark shows major revised points. User's Manual U10663EJ4V0UM 5 CONTENTS CHAPTER 1 GENERAL ......................................................................................................................... 9 CHAPTER 2 SPECIFICATIONS ............................................................................................................. 10 CHAPTER 3 BLOCK DIAGRAM ............................................................................................................ 12 CHAPTER 4 HOW TO USE .................................................................................................................... 13 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 Using Level Conversion Chip (PD6706GF) ........................................................................ Supplying Power to SE Board ............................................................................................... Setting of Other Switches ...................................................................................................... When SE Board Is Mounted to In-Circuit Emulator ............................................................. Using SE Board Alone ............................................................................................................ Monitor Pins and LEDs .......................................................................................................... Fine-Tuning of Source Clock Oscillation Frequency (4.5 MHz) ......................................... Setting of Jumper Switches and Slide Switches ................................................................. 13 14 19 25 30 33 34 35 CHAPTER 5 CONNECTOR PIN LIST .................................................................................................... 37 CHAPTER 6 DRAWINGS OF PROBE AND CONVERSION SOCKET ................................................. 39 6.1 6.2 6.3 Drawing of Probe .................................................................................................................... 39 Drawing of Conversion Socket (EV-9200GC-80) .................................................................. 40 Recommended Footprint ....................................................................................................... 41 6 User's Manual U10663EJ4V0UM LIST OF FIGURES Figure No. 2-1 3-1 4-1 4-2 4-3 4-4 4-5 4-6 4-7 4-8 4-9 Title Page SE-17709 Parts Layout ................................................................................................................................... 11 SE-17709 Block Diagram ................................................................................................................................ 12 When SE Board Is Mounted on In-Circuit Emulator with VDD = +5 V, VCC = +5 V ........................................... 16 When SE Board Is Mounted on In-Circuit Emulator and VDD (+4.5 to 5.5 V) Is Supplied from CN12 Pin ................................................................................................................................................. 16 When SE Board Is Mounted on In-Circuit Emulator and VDD (+4.5 to 5.5 V) Is Supplied from Emulation Probe ...................................................................................................................................... 17 When SE Board Is Used Alone with VDD = +5 V, VCC = +5 V .......................................................................... 17 When SE Board Is Used Alone and VDD Is Supplied from CN12 Pin .............................................................. 18 When SE Board Is Used Alone and VDD Is Supplied from Emulation Probe ................................................... 18 Setting of SW2 ................................................................................................................................................ 19 Setting of SW4 ................................................................................................................................................ 20 Setting of SW10 .............................................................................................................................................. 20 4-10 Setting of SW11 .............................................................................................................................................. 21 4-11 Peripheral Circuit of JS2, JS3 ......................................................................................................................... 22 4-12 Setting of JS2, JS3 .......................................................................................................................................... 22 4-13 Peripheral Circuit of JS4, JS5 ......................................................................................................................... 23 4-14 Setting of JS4, JS5 .......................................................................................................................................... 23 4-15 Peripheral Circuit of JS6 .................................................................................................................................. 24 4-16 Setting of JS6 .................................................................................................................................................. 24 4-17 Appearance of IE-17K (with Exterior Lid Removed) ........................................................................................ 25 4-18 Mounting and Removing SE-17709 ................................................................................................................ 26 4-19 Setting of Slide Switch Selecting ROM/RAM .................................................................................................. 30 4-20 PROM (IC2) Mounting Socket ......................................................................................................................... 31 4-21 Example of Connection When SE-17709 Is Used Alone ................................................................................ 32 4-22 Layout of Monitor Pins and LEDs .................................................................................................................... 33 4-23 Fine-Tuning of Source Clock ........................................................................................................................... 34 6-1 6-2 6-3 Drawing of Probe ............................................................................................................................................. 39 Drawing of EV-9200GC-80 .............................................................................................................................. 40 Recommended Footprint of EV-9200GC-80 ................................................................................................... 41 User's Manual U10663EJ4V0UM 7 LIST OF TABLES Table No. 1-1 4-1 4-2 4-3 4-4 4-5 4-6 5-1 5-2 Title Page 9 Development Tools for SE-17709 ................................................................................................................... Function of JS1 When SE Board Is Mounted to In-Circuit Emulator ............................................................... 14 Function of JS1 When SE Board Is Used Alone ............................................................................................. 14 Power Supply Pins and Their Functions ......................................................................................................... 15 Device Number and SE Board Number .......................................................................................................... 29 Monitor Pins, LEDs, and Their Functions ........................................................................................................ 33 Setting of Jumper Switches and Slide Switches ............................................................................................. 35 Connector Pins of J1 ....................................................................................................................................... 37 Connector Pins of J2 ....................................................................................................................................... 38 8 User's Manual U10663EJ4V0UM CHAPTER 1 GENERAL The SE-17709 is a system evaluation board (SE board) for the 4-bit single-chip microcontrollers PD17704A, 17705A, 17707A, 17708A, 17709A, 17717, 17718, and 17719. This SE board is used for debugging mounted to an in-circuit emulator common to 17K Series (IE-17K or IE-17K-ET). It can also be used in stand-alone mode for system evaluation. To interface with the target systemNote, the PD17704AGC-00x, or PD17705AGC-00x, 17707AGC-00x, 17708AGC00x, 17709AGC-00x, 17717GC-00x, 17718GC-00x, and 17719GC-00x (hereafter referred to as the "real chip") is used; therefore, the functions of the SE-17709 are equivalent to the device to be evaluated. To connect the SE-17709 and the target system, an emulation probe (EP-17K80GC (sold separately)) and a conversion socket, the EV-9200GC-80, supplied as an accessory are necessary. Note The system developed by the user to be evaluated. Table 1-1. Development Tools for SE-17709 SE Board Usage Assembler (RA17K Assembler Package) Output File (Host Machine) SE-17709 When used with in-circuit emulator When SE-17709 is used alone ICE fileNote 1 PC-9800 series IBM PC/ATTM PRO fileNote 2 PC-9800 series IBM PC/AT In-Circuit Emulator Support SoftwareNote 3 Emulation Probe Target Device to Be Evaluated IE-17K IE-17K-ET Unnecessary SIMPLEHOST TM EP-17K80GC + EV-9200GC-80 Unnecessary PD17704A, 17705A, 17707A, 17708A, 17709A, 17717, 17718, 17719 Notes 1. ICE file: Output if -HOST option is specified on assembler and linker or -ICE option is specified on linker. 2. PRO file: Output if a linker option (-PROM) is specified when the source program is assembled. For details on the ICE file and PRO file, refer to the RA17K or LK17K User's Manual. 3. SIMPLEHOST is software for the man-machine interface with the in-circuit emulator. This software runs on WindowsTM and allows debugging by operating the source lists, figures, and tables displayed on the CRT via a mouse. For details, refer to the SIMPLEHOST User's Manual. Although commercially available RS-232-C communication software other than SIMPLEHOST can also be used for interfacing, knowledge on baud rate settings and in-circuit emulator commands is required. For details, refer to the IE-17K or IE-17K-ET User's Manual. Caution When the SE-17709 is used alone, it does not operate with PROM files (.PRO) created by the AS17K. User's Manual U10663EJ4V0UM 9 CHAPTER 2 SPECIFICATIONS The specifications of the SE-17709 are shown below: Part number: Program memory: SE-17709 * The PD431000ACW mounted on board is used when the SE-17709 is used with an in-circuit emulator (IE-17K or IE-17K-ET). * When the SE-17709 alone is used, write program to the PD27C1001AD and mount the memory in a socket (IC2) on the board. Data memory: Operating frequency: Instruction cycle: Storage temperature: Power supply: The on-chip memory of the real chip is used. 4.5 MHz 1.78 s (at 4.5 MHz oscillation) -10 to +50C (without condensation) * For real chip (VDD): +4.5 to +5.5 V Power is supplied from emulation probe (EP-17K80GC) or CN12 pin. * For SE-17709 (Vcc): +5 V 5% Power is supplied from the in-circuit emulator when the SE-17709 is used with an in-circuit emulator. When the SE-17709 is used alone, supply power from the CN11 pin. Current consumption: External dimensions: 150 mA (MAX.) (without load and with the PD27C1001AD used as the program memory) 150 x 175 x 33 mm Operating temperature: +10 to +40C 10 User's Manual U10663EJ4V0UM CHAPTER 2 SPECIFICATIONS Figure 2-1. SE-17709 Parts Layout CN12 CN11 +5 V JS1 PD17704A/17705A/ 17707A/17708A/17709A/ 17717/17718/17719 (slave) VDD LED1 SW2 RAM ROM PD431000A PD27C1001A ON GND SW4 CE INT SW11 JS6 VDD CP VDD CN9 PD17704A/17705A/ 17707A/17708A/17709A/ 17717/17718/17719 (master) CN7 Mam' Chip (gate array) P JS2 AM P JS4 H P JS5 L JS3 P FM OFF SW10 ON XI AMIF FMIF J2 VCOH VCOL RESET RESET PROBE SW1 PD6706GF XT1 C13 J1 CN8 LED2 User's Manual U10663EJ4V0UM 11 CHAPTER 3 BLOCK DIAGRAM Figure 3-1. SE-17709 Block Diagram Connector for emulation probe J1 RESET CE VDD J2 CN12 12 VDD P0A to P0D, P1A to P1D, P2A, P2D, P3A, P3B, INT, EO etc. P2B, P2C, P3C, P3D AI bus D bus J PD17704AGC/17705AGC/17707AGC/ 17708AGC/17709AGC/17717GC/ 17718GC/17719GC XOUT (master) CE XIN RESET PD17704AGC/17705AGC/17707AGC/ XOUT 17708AGC/17709AGC/17717GC/ 17718GC/17719GC (slave) RESET CE XIN CKOUT VDD JS1 Synchronization processing signal Level conversion chip LED Supervisor clock Overcurrent protection VDD Reset switch RES0 Mam' Chip (gate array) Program memory Trace bus Supervisor bus Coverage bus 12 CN11 CN7 CN8 Connector for memory board of in-circuit emulator CN9 12 User's Manual U10663EJ4V0UM VCC Source clock 4.5 MHz VDD CHAPTER 4 HOW TO USE 4.1 Using Level Conversion Chip (PD6706GF) (1) Outline of level conversion chip The level conversion chip is an IC that converts a voltage level of the target system (or SE board) into the voltage at which the SE board (or target system) operates if the operating voltages of the target system and SE board are different from each other (VDD VCC, VCC = +5 V). Therefore, this IC allows smooth signal transfer between the target system and SE board even when the operating voltages of the two are different. (2) Using level conversion chip The level conversion chip automatically operates when a voltage other than 5 V is applied between the VDD and GND pins of the emulation probe (EP-17K80GC) or to the CN12 pin of the SE board with the jumper switch JS1, which selects the method of supplying power to the SE board, set to the VDD side. Remarks 1. VDD is the supply voltage of the target system to be used. Power can be supplied from the target system to the real chip on the SE board from the CN12 pin or emulation probe. Consequently, debugging can be performed in an environment close to the actual environment. 2. VCC is the voltage at which the SE board (except the real chip) operates. Always supply +5 V as VCC. When the SE board is mounted on an in-circuit emulator, VCC is automatically supplied from the incircuit emulator. When the SE board is used alone, supply VCC from the CN11 pin. User's Manual U10663EJ4V0UM 13 CHAPTER 4 HOW TO USE 4.2 Supplying Power to SE Board Two types of power supplies must be supplied to the SE board: VCC and VDD. VCC is the power supply at which the SE board (except the real chip) operates. The real chip operates at VDD. Always supply +5 V as VCC. As VDD, supply a voltage in the range of the operating voltage of the real chip (+4.5 to +5.5 V). (1) Jumper switch for selecting method of power supply to SE board (JS1) Jumper switch JS1 selects whether the power supplied to the SE board (VCC = +5 V), or the voltage supplied from the emulation probe or CN12 pin (VDD) is supplied to the real chip. Table 4-1 shows the function of JS1 when the SE board is mounted on an in-circuit emulator. Table 4-2 shows the function of JS1 when the SE board is used alone. If the power supply of the target system is +5 V, set JS1 to the +5 V side. When the SE board is mounted on an in-circuit emulator, +5 V is automatically supplied from the in-circuit emulator. When the SE board is used alone, +5 V is supplied from the CN11 pin. This has the advantage that supplying power is extremely easy. If the power supply of the target system is other than +5 V while JS1 is set to the VDD side, the voltage of the target system can be supplied to the real chip from the emulation probe or CN12 pin, so that evaluation can be performed in an environment close to the actual environment. Caution Set the supply voltage to the real chip in the range of VDD = +4.5 to +5.5 V. Table 4-1. Function of JS1 When SE Board Is Mounted on In-Circuit Emulator Type of Power Setting of JS1 +5 V Power Supplied to Real Chip (VDD) +5 V is supplied from in-circuit emulator. Power Supply to Operate SE Board (Except Real Chip) (VCC) +5 V is supplied from in-circuit emulator. JS1 VDD +5 V Power must be supplied from emulation probe or CN12 pin. JS1 VDD Table 4-2. Function of JS1 When SE Board Is Used Alone Type of Power Setting of JS1 +5 V Power Supplied to Real Chip (VDD) +5 V is supplied from CN11 pin. Power to Operate SE Board (Except Real Chip) (VCC) +5 V is supplied from CN11 pin. JS1 VDD +5 V Power must be supplied from emulation probe or CN12 pin. JS1 VDD The shaded portions in the above figures indicate the selected switch positions. 14 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE (2) Power supply pins The SE board has three pins through which power is supplied from external sources. The appropriate pin and power supply must be selected and used in accordance with the evaluation environment. Table 4-3 shows the functions of these pins. Table 4-3. Power Supply Pins and Their Functions Pin Name CN11 Type of Power (Range of Supplied Voltage) Vcc (+5 V 5%) Function This pin is used to supply power when the SE board is used alone (except real chip). Always supply +5 V to this pin. Do not supply power through this pin when the SE board is mounted on in-circuit emulator. CN12 Emulation probe (VDD and GND pins) VDD (+4.5 to 5.5 V) VDD (+4.5 to 5.5 V) This pin supplies +4.5 to 5.5 V to the real chip. The function is equivalent to that of CN12 pin. The CN12 pin of the SE board is connected to the power supply pin of emulation probe. Remark Pin 1 of the CN11 pin is GND, and pin 2 is the power supply pin. To supply power, use the power supply cable supplied as an accessory. User's Manual U10663EJ4V0UM 15 CHAPTER 4 HOW TO USE (3) Example of actual use <1> When SE board is mounted on in-circuit emulator (a) When SE board is mounted on in-circuit emulator with VDD = +5 V, Vcc = +5 V Set JS1 to the +5 V side. Vcc and VDD are supplied from the in-circuit emulator. Figure 4-1. When SE Board Is Mounted on In-Circuit Emulator with VDD = +5 V, Vcc = +5 V SE board Target system Power supply (VDD) CN11 CN12 VDD +5 V JS1 VDD Emulation probe VCC (+5 V) +5 V JS1 Supplied from in-circuit emulator (b) When SE board is mounted on in-circuit emulator with VDD +5 V, Vcc = +5 V Set JS1 to the VDD side. Vcc is supplied from the in-circuit emulator, and VDD is supplied from the CN12 pin or emulation probe. Figure 4-2. When SE Board Is Mounted on In-Circuit Emulator and VDD (+4.5 to 5.5 V) Is Supplied from CN12 Pin SE board Target system Power supply (VDD) CN11 CN12 VDD +5 V JS1 VDD Emulation probe VCC (+5 V) +5 V JS1 Supplied from in-circuit emulator 16 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE Figure 4-3. When SE Board Is Mounted on In-Circuit Emulator and VDD (+4.5 to 5.5 V) Is Supplied from Emulation Probe SE board Target system Power supply (VDD) CN11 Note CN12 VDD +5 V JS1 VDD Emulation probe VCC (+5 V) +5 V JS1 Supplied from in-circuit emulator Note If additional voltage is supplied from the CN12 pin, be sure to supply the same voltage as supplied from the emulation probe. <2> When SE board is used alone (a) When SE board is used alone with VDD = +5 V, Vcc = +5 V Set JS1 to the +5 V side. Vcc and VDD are supplied from the CN11 pin. Figure 4-4. When SE Board Is Used Alone with VDD = +5 V, Vcc = +5 V VCC (+5 V) SE board Target system Power supply (VDD) CN11 CN12 VDD +5 V JS1 VDD Emulation probe +5 V JS1 User's Manual U10663EJ4V0UM 17 CHAPTER 4 HOW TO USE (b) When SE board is used alone with VDD +5 V, Vcc = +5 V Set JS1 to the VDD side. Vcc is supplied from the CN11 pin, and VDD is supplied from the CN12 pin or emulation probe. Figure 4-5. When SE Board Is Used Alone and VDD Is Supplied from CN12 Pin VCC (+5 V) SE board Target system Power supply (VDD) CN11 CN12 VDD +5 V JS1 VDD Emulation probe +5 V JS1 Figure 4-6. When SE Board Is Used Alone and VDD Is Supplied from Emulation Probe VCC (+5 V) SE board Target system Power supply (VDD) CN11 CN12 VDD +5 V JS1 VDD Note Emulation probe +5 V JS1 Note If the power supply voltage supplied from the emulation probe is low (less than +4.5 V), additional voltage should be supplied from the CN12 pin. In this case, be sure to supply the same voltage as supplied from the emulation probe. 18 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE 4.3 Setting of Other Switches (1) SW1: Reset switch SW1 is the reset switch used when the SE board is used alone. For details, refer to 4.5 Using SE Board Alone. (2) SW2: Slide switch selecting ROM/RAM This switch selects the setting of the program memory to be used. Figure 4-7. Setting of SW2 <1> When SE board is mounted on in-circuit emulator RAM ROM SW2 <2> When SE board is used alone RAM ROM SW2 The shaded portions in the above figures indicate the selected switch positions. User's Manual U10663EJ4V0UM 19 CHAPTER 4 HOW TO USE (3) SW4/SW10 pull-up select switch These switches specify whether the CE pin/RESET pin of the real chip is pulled up or not. When the SE-17709 is not connected to the target system, be sure to pull up the CE pin/RESET pin by setting these switches to the ON side. Figure 4-8. Setting of SW4 <1> To pull up CE pin SW4 ON OFF <2> To not pull up CE pin SW4 ON OFF Figure 4-9. Setting of SW10 <1> To pull up RESET pin SW10 ON OFF <2> To not pull up RESET pin SW10 ON OFF Remark The shaded portions in the above figures indicate the selected switch positions. 20 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE (4) SW11: Slide switch selecting CPU power supply This switch selects whether the VDD on the SE board is supplied or the capacitor on the SE board (0.01 F) is connected to the CPU power supply (REG) pin of the real chip. Figure 4-10. Setting of SW11 <1> If the VDD on the SE board is supplied to the CPU power supply (REG) pin of the real chip SW11 VDD CP <2> If the capacitor on the SE board is connected to the CPU power supply (REG) pin of the real chip SW11 VDD CP Remark The shaded portions in the above figures indicate the selected switch positions. User's Manual U10663EJ4V0UM 21 CHAPTER 4 HOW TO USE (5) JS2/JS3: Jumper switch for selecting I/O mode of AMIFC/P1C1 and FMIFC/P1C0 pins These switches select whether signals are input/output to/from the AMIFC/P1C1 and FMIFC/P1C0 pins of the real chip through a probe or a coaxial cable. The AMIFC/P1C1 and FMIFC/P1C0 pins are I/O ports that can also be used for an IF counter function. Figure 4-11. Peripheral Circuit of JS2, JS3 WT1 (0.01 F) Coaxial connector (AMIF) R27 (51) AMIFC/P1C1 28 JS2 AM P P FM 29 JS3 WT3 (0.01 F) Coaxial connector (FMIF) R28 (51) PD17704A/17705A/ 17707A/17708A/17709A/ 17717/17718/17719 FMIFC/P1C0 Probe connector (J2-49) Probe connector (J2-50) Figure 4-12. Setting of JS2, JS3 <1> Through probe <2> Through coaxial cable P AM P AM JS2 JS2 P FM P FM JS3 JS3 Remark The shaded portions in the above figures indicate the selected switch positions. 22 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE (6) JS4/JS5: Jumper switch for selecting input mode of VCOL and VCOH pins These switches select whether signals are input to the VCOL and VCOH pins of the real chip through a probe or a coaxial cable. The VCOL and VCOH pins are the input pins of PLL local oscillation signals. Figure 4-13. Peripheral Circuit of JS4, JS5 WT5 (0.01 F) Coaxial connector (VCOH) R29 (51) VCOH 31 JS4 H P P L 32 JS5 WT7 (0.01 F) Coaxial connector (VCOL) R30 (51) PD17704A/17705A/ 17707A/17708A/17709A/ 17717/17718/17719 Probe connector (J2-7) Probe connector (J2-53) VCOL Remark If a signal is input to the VCO pin through a probe, the signal may not be correctly input due to influence from the wiring capacitance of the probe, etc. When evaluating PLL, it is recommended to input signals to the VCOL and VCOH pins through a coaxial cable. Figure 4-14. Setting of JS4, JS5 <1> Signal input through probe P H <2> Signal input through coaxial cable P H JS4 JS4 P L P L JS5 JS5 Remark The shaded portions in the above figures indicate the selected switch positions. User's Manual U10663EJ4V0UM 23 CHAPTER 4 HOW TO USE (7) JS6: Jumper switch for selecting CPU power supply (REG) of the real chip This switch selects whether the CPU power supply (REG) pin of the real chip is connected to SW11 on the SE board or to the target system. Figure 4-15. Peripheral Circuit of JS6 PD17704A/17705A/ 17707A/17708A/17709A/ 17717/17718/17719 REG 74 JS6 Probe connector (J1-31) VDD power supply SW11 C12 (0.01 F) Figure 4-16. Setting of JS6 <1> To connect to SW11 on SE board INT <2> To connect to target system INT JS6 JS6 PROBE PROBE Remark The shaded portions in the above figures indicate the selected switch positions. 24 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE 4.4 When SE Board Is Mounted on In-Circuit Emulator The in-circuit emulator is connected to a host machine such as the PC-9800 series to debug the target system. For details on the operations of the in-circuit emulator, refer to the IE-17K or IE-17K-ET User's Manual. (1) Mounting on and removing SE board from in-circuit emulator Mount the SE-17709 on the in-circuit emulator as follows. <1> Remove the exterior and interior lids from the in-circuit emulator. <2> When the interior lid has been removed, a memory board is visible. Insert the connectors on the bottom of the SE-17709 (CN7, CN8, and CN9) into the three connectors on the memory board. To remove the SE-17709 from the in-circuit emulator, lift the SE-17709 in the vertical direction. Figure 4-17. Appearance of IE-17K (with Exterior Lid Removed) Exterior lid Interior lid IE-17K User's Manual U10663EJ4V0UM 25 CHAPTER 4 HOW TO USE Figure 4-18. Mounting and Removing SE-17709 Connector (female) SE board Connector (male) Memory board Spacer Next, connect the emulation probe (EP-17K80GC) to the connectors J1 and J2 on the SE-17709, to connect the target system. Then attach the interior and exterior lids to the in-circuit emulator. (2) Supplying power After the SE-17709 has been mounted on the in-circuit emulator and before attaching the exterior and interior lids of the in-circuit emulator, turn on power to the in-circuit emulator and confirm that LED1 on the SE-17709 lights. If LED1 does not light, the possible causes are as follows. * The power cable of the in-circuit emulator is not connected. * An overcurrent flows to the SE-17709 (about 500 mA or higher). * The SE-17709 is not correctly mounted on the in-circuit emulator. If LED1 does not light, turn off the power to the in-circuit emulator, and check to see if the SE-17709 is correctly mounted. If LED1 still does not light, the SE-17709 may be malfunctioning. 26 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE (3) Transferring ICE file to in-circuit emulator The in-circuit emulator (IE-17K or IE-17K-ET) is connected to a host machine such as the PC-9800 series and used to debug the software and hardware of the target system. For details, refer to the IE-17K or IE-17K-ET User's Manual. When using SIMPLEHOST, refer to the SIMPLEHOST User's Manual. The procedure to confirm that the SE-17709 has been correctly mounted on the in-circuit emulator when commercially available RS-232-C communication software is used is described below. When SIMPLEHOST is used, and if the SE-17709 has been correctly mounted, the message "LISTING" is displayed on the screen. <1> <2> Turn on the power to the in-circuit emulator. If the power is already being supplied, press the reset switch for restart. The prompt (@@@>) will then be displayed. Next, load the ICE file of the program created with the assembler (RA17K assembler package) or the ICE file output by using the ,.SP0 or ,.SP1 command to the in-circuit emulator by using the ,.LP0 or ,.LP1 command. The in-circuit emulator will not operate until this ICE file has been loaded to it. If the SE board is correctly connected to the in-circuit emulator at this time, a prompt (BRK>) will be displayed as shown in the following example. Example When ICE file for the PD17709 is loaded OK D17709 BRK> If the above messages are not displayed, the possible causes are as follows. * The real chip mounted on the SE-17709 does not correspond to the loaded ICE file. * An SE board other than the SE-17709 is mounted on the in-circuit emulator. * An ICE file other than that for the PD17709 has been loaded. * The SE-17709 is not completely connected to the in-circuit emulator. * The RESET pin (SW10) is not pulled-up. User's Manual U10663EJ4V0UM 27 CHAPTER 4 HOW TO USE If the in-circuit emulator makes no response, take the following measures. <1> The SE board may not be mounted correctly on the in-circuit emulator. Correctly mount the SE board. <2> The target system and SE board may not be connected correctly with the emulation probe (EP17K80GC). Check the connections again. <3> If JS1 is set to the VDD side, power may not be supplied to the real chip from the emulation probe or CN12 pin. Supply power from the emulation probe or CN12 pin to the real chip, or set JS1 to the +5 V side. If JS1 is set to the +5 V side, the in-circuit emulator supplies +5 V (refer to 4.2 Supplying Power to SE Board). <4> The reset circuit of the target system may not operate correctly. If this happens, the reset status of the SE board is not stable, and the in-circuit emulator cannot return a response. In this case, turn on SW10, which selects pull up of the RESET pin, to start the in-circuit emulator again. <5> Check the set baud rates of the in-circuit emulator and host machine. For the baud rate setting of the in-circuit emulator, refer to the IE-17K or IE-17K-ET User's Manual. (4) Error messages and countermeasures An error message is displayed if the correspondence between the real chip mounted on the in-circuit emulator and SE board, and the loaded ICE file is wrong. Moreover, an SE board number is registered to the SE-17709 and a device number is registered to the real chip, so that debugging can be correctly executed. Error messages that may be displayed and countermeasures to be taken if an error message is displayed are described next. 28 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE Table 4-4. Device Number and SE Board Number Evaluation Device Device Number 5F 5E 57 56 55 5D 5C 5B SE Board Number 55 55 55 55 55 55 55 55 PD17704A PD17705A PD17707A PD17708A PD17709A PD17717 PD17718 PD17719 Remarks 1. The device number is the registration number of each real chip. 2. The SE board number is the registration number of the SE board. 3. The device number and SE board number are contained in the data in the ICE file to be loaded and are used by the in-circuit emulator to check the development environment when the ICE file is loaded. For example, an ICE file assembled by using the device file for the PD17709A contains the device number 55 and SE board number 55. (a) Error message displayed and countermeasure when real chip mounted on SE-17709 does not correspond to loaded ICE file [Error message] ?IDI INVALID DEVICE ID NUMBER [xx-**] Remark xx indicates the device number of the real chip actually mounted, and ** indicates the device number contained in the loaded ICE file. If this message has been output, check to see if the correct real chip is mounted on the SE board. If the real chip is wrong, turn off power to the in-circuit emulator, replace the real chip, and load the ICE file again. If a wrong device file was selected at assembly time, assemble the source file again by using the correct device file, and load the ICE file again. (b) Error message displayed and countermeasure when SE board other than SE-17709 is mounted [Error message] ?ISE INVALID SE BOARD NUMBER [##-VV] Remark ## indicates the SE board number of the SE board actually mounted, and VV indicates the SE board number contained in the loaded ICE file. (5) Cautions <1> Turn on power to the in-circuit emulator and then to the target system. <2> Do not use the reset switch (SW1) on the SE board. To reset the in-circuit emulator, use the reset switch of the in-circuit emulator. User's Manual U10663EJ4V0UM 29 CHAPTER 4 HOW TO USE 4.5 Using SE Board Alone (1) Setting of slide switch selecting ROM/RAM Set the slide switch selecting ROM/RAM (SW2) to the ROM side as shown in Figure 4-19. Figure 4-19. Setting of Slide Switch Selecting ROM/RAM RAM SW2 ROM The shaded portion in the above figure indicates the selected switch position. (2) Mounting PROM When using the SE-17709 alone, mount a PROM (PD27C1001AD) as a program memory. Use a PROM that satisfies the following conditions. * ROM size 1 Mb: PD27C1001AD-12, -15, -20, or equivalent One of the following output files must be written to the PROM as a program. * PROM file (.PRO) for the PD17704A, 17705A, 17707A, 17708A, 17709A, 17717, 17718, or 17719 output by the 17K Series assembler (RA17K assembler package) Cautions 1. Do not write the ICE file (.ICE) that RA17K assembler package outputs to the in-circuit emulator. When the SE-17709 is used alone, the SE board does not operate with the ICE file. 2. The SE board does not operate with PROM files (.PRO) created by the AS17K. 3. The last address of the program memory of the PD17704A, 17705A, 17707A, 17708A, 17709A, 17717, 17718, and 17719 is as follows. PD17704A: PD17705A: PD17707A: PD17708A: PD17709A: PD17717: PD17718: PD17719: 3FFFH 5FFFH 5FFFH 7FFFH 7FFFH 5FFFH 7FFFH 7FFFH 30 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE Mount the PROM in a socket (IC2) on the SE board. Notes on mounting PROM * Mount the PD27C1001AD (32-pin) so that pin 1 is aligned with the upside-down triangle below it. Figure 4-20. PROM (IC2) Mounting Socket 2 IC2 (3) Supplying power Be sure to supply +5 V 5% (Vcc) to the CN11 pin of the SE-17709 from an external power source. For details, refer to 4.1 Using Level Conversion Chip (PD6706GF) and 4.2 Supplying Power to SE Board. When Vcc is correctly supplied, LED1 on the SE-17709 lights. If LED1 does not light, the possible causes are as follows. * Power is not being supplied. * An overcurrent is flowing (about 500 mA or higher). User's Manual U10663EJ4V0UM 31 CHAPTER 4 HOW TO USE (4) Executing program Connect the SE-17709 and the target system as illustrated in Figure 4-21. When the power to the target system is turned on, power is also supplied to the SE-17709, a power-on reset is effected, and the program written to the PROM is executed starting from address 0H. When the reset switch on the SE-17709 is pressed, the SE board is forcibly reset, and the program written to the PROM is executed starting from address 0H, in the same manner as when a power-on reset is effected. Figure 4-21. Example of Connection When SE-17709 Is Used Alone VCC (+5 V) Target system EP-17K80GC Reset switch PROM SE-17709 32 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE 4.6 Monitor Pins and LEDs The SE-17709 is provided with monitor pins that check the pin status of the real chip, and LEDs that indicate the operation status of the board. Table 4-5 lists the monitor pins and LEDs and their functions. Figure 4-22 shows the layout of the monitor pins and LEDs. Table 4-5. Monitor Pins, LEDs, and Their Functions Monitor Pin, LED Monitor pin XI RESET CE GND VDD LED1 To monitor CKOUT To monitor RESET To monitor CE GND To monitor power supply VDD Lit: Power ON Extinguished: Power OFF Function Figure 4-22. Layout of Monitor Pins and LEDs CN12 CN11 +5 V JS1 PD17704A/17705A/ 17707A/17708A/17709A/ 17717/17718/17719 (slave) VDD LED1 SW2 RAM ROM PD431000A PD27C1001A ON GND SW4 INT CE SW11 VDD CN9 JS6 VDD CP PD17704A/17705A/ 17707A/17708A/17709A/ 17717/17718/17719 (master) CN7 Mam' Chip (gate array) P JS2 AM P JS4 H P JS5 L JS3 P FM OFF SW10 ON XI AMIF FMIF J2 VCOH VCOL RESET RESET PROBE SW1 PD6706GF XT1 C13 J1 CN8 LED2 User's Manual U10663EJ4V0UM 33 CHAPTER 4 HOW TO USE 4.7 Fine-Tuning of Source Clock Oscillation Frequency (4.5 MHz) The frequency of the source clock for the supervisor operationNote of the SE board is 4.5 MHz. The clock (4.5 MHz) supplied to the real chip uses the source clock as is. To fine-tune the source clock, use a trimmer capacitor (C13) as shown in Figure 4-23. To monitor the oscillated waveform and measure oscillation, use the monitor pin "XI". Figure 4-23. Fine-Tuning of Source Clock Frequency counter oscilloscope XI Screwdriver (Phillips) PD6706 XT1 C13 LED2 Note An operation to be executed on the in-circuit emulator when CLICE is used. 34 User's Manual U10663EJ4V0UM CHAPTER 4 HOW TO USE 4.8 Setting of Jumper Switches and Slide Switches The jumper switches and slide switches of the SE-17709 are factory-set for shipment as indicated in Table 4-6. Confirm the setting of these switches before using them. Table 4-6. Setting of Jumper Switches and Slide Switches (1/2) Switch Number Jumper Switch, Slide Switch JS1 JS1 Set Conditions Set Position +5 V Refer to 4.1 Using Level Conversion Chip (PD6706GF) and 4.2 Supplying Power to SE Board. VDD JS2 P JS2 AM If signal is input/output to/from P1C1/AMIF through coaxial cable If signal is input/output to/from P1C1/AMIF through probe JS3 P JS3 FM If signal is input/output to/from P1C0/FMIF through coaxial cable If signal is input/output to/from P1C0/FMIF through probe JS4 P JS4 H If VCOH is input through coaxial cable If VCOH is input through probe JS5 P JS5 L If VCOL is input through coaxial cable If VCOL is input through probe JS6 If capacitor or VDD power supply on SE board is connected AM side P side FM side P side H side P side L side P side INT side INT JS6 PROBE to pins connecting capacitors for CPU power supply (REG) If capacitor on target system is connected to pins connecting capacitors for CPU power supply (REG) PROBE side Remark The shaded portions in the above figures indicate the factory settings at shipment. User's Manual U10663EJ4V0UM 35 CHAPTER 4 HOW TO USE Table 4-6. Setting of Jumper Switches and Slide Switches (2/2) Switch Number Jumper Switch, Slide Switch SW2 RAM SW4 ON SW4 OFF SW10 SW10 OFF SW11 If RESET pin on the target side is not pulled up If VDD power supply on SE board is connected to the INT side of JS6 If VDD power supply is connected to GND through capacitor (0.01 F) on the INT side of JS6 OFF side VDD side If CE pin on the target side is not pulled up OFF side SW2 ROM Set Conditions When SE board is mounted on in-circuit emulator (IE-17K) for evaluation When SE-17709 is used alone for evaluation If CE pin on the target side is pulled up Set Position RAM side ROM side ON side ON If RESET pin on the target side is pulled up ON side SW11 CP side VDD CP Remark The shaded portions in the above figures indicate the factory settings at shipment. 36 User's Manual U10663EJ4V0UM CHAPTER 5 CONNECTOR PIN LIST Table 5-1. Connector Pins of J1 J1 Pin Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Pin Name (Pin Number of IC) FCG1/P2A1 (15) P0B2/SCK1 (68) GND GND P2C3 (55) GND P2C2 (56) P2C1 (57) GND P2C0 (58) P0C3 (59) GND P0C2 (60) P0C1 (61) GND P0C0 (62) P0A3/SDA (63) GND P0A2/SCL (64) P0A1/SCK0 (65) J1 Pin Number 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 Pin Name (Pin Number of IC) GND P0A0/SO0 (66) P0B1/SO1 (69) GND P0B0/SI1 (70) P2D2 (71) GND P2D1 (72) P2D0 (73) GND REG (74) GND GND GND GND GND CE (78) VDD GND RESET (80) J1 Pin Number 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 Pin Name (Pin Number of IC) P2B2 (44) GND P2B0 (46) P3C3 (47) GND P3C2 (48) P3C1 (49) GND P3C0 (50) P3D3 (51) GND P3D0 (54) P0B3/SI0 (67) GND P3D2 (52) P2B3 (43) P3D1 (53) P1D3 (37) P1D2 (38) GND User's Manual U10663EJ4V0UM 37 CHAPTER 5 CONNECTOR PIN LIST Table 5-2. Connector Pins of J2 J2 Pin Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Pin Name (Pin Number of IC) P1D1/BEEP1 (39) GND GND EO1 (35) EO0 (34) GND VCOH (31) INT2 (1) GND INT4/P1A3 (2) INT3/P1A2 (3) GND P1A1 (4) TM0G/P1A0 (5) GND P3A3 (6) P3A2 (7) GND P3A1 (8) P3A0 (9) J2 Pin Number 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 Pin Name (Pin Number of IC) GND P3B3 (10) P3B2 (11) GND P3B1 (12) P3B0 (13) GND P2A2 (14) FCG0/P2A0 (16) GND P1B3 (17) P1B2/PWM2 (18) GND P2B1 (45) P1B1/PWM1 (19) GND P1B0/PWM0 (20) GND GND AD3/P0D3 (22) J2 Pin Number 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 Pin Name (Pin Number of IC) AD2/P0D2 (23) GND AD1/P0D1 (24) AD0/P0D0 (25) GND AD5/P1C3 (26) AD4/P1C2 (27) GND AMIFC/P1C1 (28) FMIFC/P1C0 (29) GND VDD VCOL (32) GND P1D0/BEEP0 (40) GND GND INT1 (41) INT0 (42) GND 38 User's Manual U10663EJ4V0UM CHAPTER 6 DRAWINGS OF PROBE AND CONVERSION SOCKET 6.1 Drawing of Probe Product Name EP-17K80GC Figure 6-1. Drawing of Probe 80 61 1 61 20 41 21 40 NEC EP-17K80GC 49 1PIN 4.8 11.5 25.4 54 415 21 Remark Unit: mm User's Manual U10663EJ4V0UM 39 CHAPTER 6 DRAWINGS OF PROBE AND CONVERSION SOCKET 6.2 Drawing of Conversion Socket (EV-9200GC-80) Figure 6-2. Drawing of EV-9200GC-80 A E B F M N O D C R S J K EV-9200GC-80 1 No.1 pin index P G H I EV-9200GC-80-G0 ITEM A B C D E F G H I J K L M O N P Q R S MILLIMETERS 18.0 14.4 14.4 18.0 4-C 2.0 0.8 6.0 16.0 18.7 6.0 16.0 18.7 8.2 8.0 2.5 2.0 0.35 INCHES 0.709 0.567 0.567 0.709 4-C 0.079 0.031 0.236 0.63 0.736 0.236 0.63 0.736 0.323 0.315 0.098 0.079 0.014 2.3 1.5 Q 0.091 0.059 Remark Unit: mm 40 User's Manual U10663EJ4V0UM L CHAPTER 6 DRAWINGS OF PROBE AND CONVERSION SOCKET 6.3 Recommended Footprint Figure 6-3. Recommended Footprint of EV-9200GC-80 G J K D E F L C B A EV-9200GC-80-P1 ITEM A B C D E F G H I J K L MILLIMETERS 19.7 15.0 0.650.02 x 19=12.350.05 INCHES 0.776 0.591 0.026+0.001 -0.002 x 0.748=0.486+0.003 -0.002 0.650.02 x 19=12.350.05 0.026+0.001 x 0.748=0.486 +0.003 -0.002 -0.002 15.0 19.7 6.0 0.05 6.0 0.05 0.35 0.02 0.591 0.776 0.236+0.003 -0.002 0.236+0.003 -0.002 0.014+0.001 -0.001 2.36 0.03 2.3 1.57 0.03 0.093+0.001 -0.002 0.091 0.062+0.001 -0.002 Caution Some of the recommended dimensions of the mount pad for the conversion socket may differ from these of the mount pad for the target device. When mounting a device, also take the recommended dimensions of the mount pad for the target device into consideration when designing. Remark Unit: mm I H User's Manual U10663EJ4V0UM 41 [MEMO] 42 User's Manual U10663EJ4V0UM Facsimile Message From: Name Company Although NEC has taken all possible steps to ensure that the documentation supplied to our customers is complete, bug free and up-to-date, we readily accept that errors may occur. Despite all the care and precautions we've taken, you may encounter problems in the documentation. Please complete this form whenever you'd like to report errors or suggest improvements to us. Tel. FAX Address Thank you for your kind support. North America Hong Kong, Philippines, Oceania NEC Electronics Inc. NEC Electronics Hong Kong Ltd. Corporate Communications Dept. Fax: +852-2886-9022/9044 Fax: +1-800-729-9288 +1-408-588-6130 Korea Europe NEC Electronics Hong Kong Ltd. NEC Electronics (Europe) GmbH Seoul Branch Technical Documentation Dept. Fax: +82-2-528-4411 Fax: +49-211-6503-274 South America NEC do Brasil S.A. Fax: +55-11-6462-6829 Taiwan NEC Electronics Taiwan Ltd. Fax: +886-2-2719-5951 Asian Nations except Philippines NEC Electronics Singapore Pte. Ltd. Fax: +65-250-3583 Japan NEC Semiconductor Technical Hotline Fax: +81- 44-435-9608 I would like to report the following error/make the following suggestion: Document title: Document number: Page number: If possible, please fax the referenced page or drawing. Document Rating Clarity Technical Accuracy Organization CS 01.2 Excellent Good Acceptable Poor |
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