Renesas HS7125EDB01H User Manual
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Renesas HS7125EDB01H User Manual

Renesas HS7125EDB01H User Manual

Debugging mcu board, microcomputer development environment system superh family / sh7125 series
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REJ10J1433-0100
SH7125 Series Debugging MCU Board
HS7125EDB01H, HS7125EDB02H, HS7124EDB01H
User's Manual
Renesas Microcomputer Development Environment System
SuperH™ Family / SH7125 Series
HS7125EDB01HE
Rev.1.00
Revision Date: Jul. 21, 2006

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  • Page 1 REJ10J1433-0100 SH7125 Series Debugging MCU Board HS7125EDB01H, HS7125EDB02H, HS7124EDB01H User’s Manual Renesas Microcomputer Development Environment System SuperH™ Family / SH7125 Series HS7125EDB01HE Rev.1.00 Revision Date: Jul. 21, 2006...
  • Page 3 (iii) prevention against any malfunction or mishap. Notes regarding these materials 1. These materials are intended as a reference to assist our customers in the selection of the Renesas Technology Corp. product best suited to the customer's application; they do not convey any license under any intellectual property rights, or any other rights, belonging to Renesas Technology Corp.

  • Page 5: Important Information

    Improvement Policy: Renesas Technology Corp. (including its subsidiaries, hereafter collectively referred to as Renesas) pursues a policy of continuing improvement in design, performance, and safety of the emulator product. Renesas reserves the right to change, wholly or partially, the specifications,...
  • Page 6 2. In no event shall Renesas Solutions Corporation be liable for any consequence arising from the use of this emulator.

  • Page 7: Limited Warranty

    Renesas, upon inspection, shall determine to be defective in material and/or workmanship. The foregoing shall constitute the sole remedy for any breach of Renesas’ warranty. See the Renesas warranty booklet for details on the warranty period. This warranty extends only to you, the original Purchaser.
  • Page 8 3. This user's manual and emulator product are copyrighted and all rights are reserved by Renesas. No part of this user's manual, all or part, may be reproduced or duplicated in any form, in hard-copy or machine-readable form, by any means available without Renesas’ prior written consent.
  • Page 9 SAFETY PAGE READ FIRST • READ this user's manual before using this emulator product. • KEEP the user's manual handy for future reference. Do not attempt to use the emulator product until you fully understand its mechanism. DEFINITION OF SIGNAL WORDS Either in the user's manual or on the product, several icons are used to insure proper handling of this product and also to prevent injuries to you or other persons, or damage to your properties.
  • Page 10 WARNING Observe the precautions listed below. Failure to do so will result in a FIRE HAZARD and will damage the user system and the emulator product or will result in PERSONAL INJURY. The USER PROGRAM will be LOST. 1. Do not repair or remodel the emulator product by yourself for electric shock prevention and quality assurance.
  • Page 11 Without user registration, you will not be able to receive maintenance services such as a notification of field changes or trouble information. So be sure to carry out the user registration. For more information about user registration, send an email to the following address. regist_tool@renesas.com...

  • Page 13: Table Of Contents

    Contents Section 1 Product Overview ................1 Introduction........................1 Components ........................4 Components in the Package for the Debugging MCU Board ........... 5 Hardware Configuration ....................8 Environmental Conditions ....................15 Section 2 Setting Up the Debugging MCU Board..........17 Flow Chart before Using the Debugging MCU Board............17 Setting Up the Debugging MCU Board ................
  • Page 14 User System Interface Circuits ..................45 Delay Time for the User System Interface................ 49 Section 4 Maintenance and Guarantee ..............51 User Registration ......................51 Maintenance........................51 Guarantee.......................... 51 Repair Provisions......................52 4.4.1 Repair with Extra-Charge ..................52 4.4.2 Replacement with Extra-Charge ................52 4.4.3 Expiration of the Repair Period ................

  • Page 15: Section 1 Product Overview

    The High-performance Embedded Workshop is a graphical user interface intended to ease the development and debugging of applications written in C/C++ programming language and assembly language for Renesas microcomputers. Its aim is to provide a powerful yet intuitive way of accessing, measuring, and modifying the debugging platform in which the application is running.
  • Page 16 Host computer External power supply High-performance Embedded Workshop CD-R 5-V DC USB 1.1/2.0 (Full-Speed) User system E10A-USB emulator Debugging MCU board Figure 1.1 System Configuration with the Debugging MCU Board...
  • Page 17 The debugging MCU board provides the following features: • Excellent cost-performance in-circuit emulator Using the debugging MCU board with the E10A-USB emulator implements low-cost debugging of the user system without the user pins being occupied by the debugging interface (H-UDI). When the AUD function on the debugging MCU board is used, the debugging MCU board supports the window trace function for trace acquisition of a large-capacity realtime trace or a memory access (memory access address or memory access data) within the specified ranges.

  • Page 18: Components

    After removing the product from its packaging, confirm that you have all of the components. For details on the components of the debugging MCU board, refer to section 1.3, Components in the Package for the Debugging MCU Board. If any component is not present, contact your nearest Renesas sales office.

  • Page 19: Components In The Package For The Debugging Mcu Board

    Components in the Package for the Debugging MCU Board The debugging MCU board supports the SH7125 series (SH7124/SH7125). Table 1.1 lists the components supplied in the package for the debugging MCU board. In the product as shipped, the main unit of the debugging MCU board is connected to the user system interface board with the flexible flat cable (FFC).
  • Page 20 Table 1.1 Components in the Package for the Debugging MCU Board (cont.) Classi- fication Component Appearance Remarks Hard- IC socket Connect the IC socket to the user ware system. (cont.) *The IC socket provided will differ according to the supported MCU. Socket cover For installing the MCU *The socket cover provided will...
  • Page 21 CAUTION Use the following IC sockets and socket covers on the user sytem. • For SH7125 (package code: PLQP0064KB-A; former code: FP-64K): IC socket: NQPACK064SD-ND (manufactured by Tokyo Eletech Corporation) IC socket cover: HQPACK064SD (manufactured by Tokyo Eletech Corporation) • For SH7125 (package code: PRQP0064GB-A; former code: FP-64A): IC socket: NQPACK064SA (manufactured by Tokyo Eletech Corporation)

  • Page 22: Hardware Configuration

    Hardware Configuration As shown in figure 1.2, the usable configuration of the debugging MCU board consists of the main unit, FFC cable, user system interface board, and power cable. The debugging MCU board is connected, via the E10A-USB emulator, to the host computer over a USB 1.1/2.0 (Full-Speed) link.
  • Page 23 1.4.1 Configuration of the Main Unit of the Debugging MCU Board The names of each section of the debugging MCU board are explained below. Top of the Main Unit of the Debugging MCU Board (1) (b)(c) Figure 1.3 Top of the Main Unit of the Debugging MCU Board (1) (a) External power LED: Marked ‘BOARD POWER’.
  • Page 24 Top of the Main Unit of the Debugging MCU Board (2) Figure 1.4 Top of the Main Unit of the Debugging MCU Board (2)
  • Page 25 (a) Power-selection This switch is used to select the power source for the debugging MCU switch: board. When ‘EXTERNAL’ is selected, an external power supply is the source for the debugging MCU board. When ‘USER SYSTEM’ is selected, the VCC power supply on the user system is the source for the debugging MCU board.
  • Page 26 Top of the Main Unit of the Debugging MCU Board (3) Figure 1.5 Top of the Main Unit of the Debugging MCU Board (3) (a) Power-cable connector: This connector is used to connect the debugging MCU board to the power cable for the external power supply. (b) H-UDI interface This connector is used to connect the debugging MCU board to the connector (36 pins):...
  • Page 27 Bottom of the Main Unit of the Debugging MCU Board Figure 1.6 Bottom of the Main Unit of the Debugging MCU Board (a) User system interface This connector is used to connect the main unit of the debugging connector 2: MCU board to the FFC cable.
  • Page 28 1.4.2 Configuration of the User System Interface Board The names of each section of the user system interface board are explained below. (2) Bottom of the user system (1) Top of the user system interface board interface board Figure 1.7 User System Interface Board (a) User system interface This connector is used to connect the user system interface board to connector 1:...

  • Page 29: Environmental Conditions

    Item Description Host computer IBM PC or compatible machine that satisfies the operating-environment conditions of the E10A-USB emulator Emulator Renesas microcomputer development tool: E10A-USB emulator (HS0005KCU01H or HS0005KCU02H) Power supply DC 5 V ± 10% Supply current 300 mA (max.)

  • Page 31: Section 2 Setting Up The Debugging Mcu Board

    Section 2 Setting Up the Debugging MCU Board Flow Chart before Using the Debugging MCU Board Unpack the debugging MCU board and prepare it for use as follows: WARNING READ the reference sections shaded in figure 2.1 before using the debugging MCU board. Incorrect operation will damage the user system and the debugging MCU board uct.

  • Page 32: Setting Up The Debugging Mcu Board

    Setting Up the Debugging MCU Board To apply the debugging MCU board, you must obtain an E10A-USB emulator. This section describes how to connect the debugging MCU board, the E10A-USB emulator, and the user system interface board. Before making the connections, check that the host computer is turned off, the E10A-USB emulator is not connected to the host computer via the USB cable, and power is being supplied to neither the debugging MCU board nor the user system.
  • Page 33 2. Connect the 14-pin or 36-pin connector of the user system interface cable to the H-UDI interface connector on the debugging MCU board as shown in figures 2.3 and 2.4. Connect the 36-pin or 14-pin connector to CN2 or CN3, respectively. Figure 2.3 Connecting the User System Interface Cable (36 Pins) to the Debugging MCU Board...
  • Page 34 Figure 2.4 Connecting the User System Interface Cable (14 Pins) to the Debugging MCU Board...

  • Page 35: Connecting The Debugging Mcu Board To The User System

    2.2.2 Connecting the Debugging MCU Board to the User System To connect the debugging MCU board to the user system, follow the instructions below. WARNING Always switch OFF the emulator product, the debugging MCU board, and the user system before any connection or removal of the USER SYSTEM INTERFACE BOARD.
  • Page 36 2. Align pin 1 on the IC socket on the user system with pin 1 on the user system interface board, and plug the user system connector of the interface board into the IC socket on the user system, as is shown in figure 2.5. CAUTION Ensure that the locations of pin 1 on the socket and connector are aligned before inserting the connector.
  • Page 37 3. Fasten the user system interface board to the IC socket on the user system with the four screws (M2.0 10 mm) provided. Tighten each of the screws a little at a time, alternating between those on opposing corners. Do not concentrate on fully tightening one screw at a time. Take special care, such as manually securing the IC-socket soldered area, to prevent damage to the soldered IC socket due to excessive tightening of the screws or twisting of components.

  • Page 38: Setting The Power-Selection Switch

    2.2.3 Setting the Power-Selection Switch The external power supply or the VCC power supply on the user system can be selected as the source of power for the debugging MCU board. Refer to table 2.1 when selecting the power supply to be used. Figure 2.6 Power-Selection Switch Table 2.1 Correspondence of Power-Selection Switch Settings Silk-Screened Label...

  • Page 39: Connecting The Power Cable

    2.2.4 Connecting the Power Cable When the power-selection switch is set to ‘EXTERNAL’, the power cable must be connected to the debugging MCU board so that power can be supplied from beyond the board. Connect the power cable to the power-cable connector on the debugging MCU board as shown in figure 2.7. Figure 2.7 Connecting the Power Cable to the Debugging MCU Board...

  • Page 40: Setting The Clock-Selection Jumper

    2.2.5 Setting the Clock-Selection Jumper The EXTAL input from the user system or the crystal resonator installed on the debugging MCU board can be selected as the source of the clock signal for the MCU. Refer to table 2.2 when selecting the clock.

  • Page 41: Installing A Crystal Resonator

    2.2.6 Installing a Crystal Resonator ‘XTAL’ should only be selected if a crystal resonator has been mounted on the debugging MCU board. Install the crystal resonator across the crystal-resonator installation sockets of the debugging MCU board. Figure 2.9 Installing a Crystal Resonator...

  • Page 42: Setting The User-System Input Signal Enabling/Disabling Switches

    2.2.7 Setting the User-System Input Signal Enabling/Disabling Switches Enabling or disabling of particular input signals from the user system can be set on the debugging MCU board. In addition, connecting or disconnecting the user system must be set with these switches.

  • Page 43: Connecting The System Ground

    2.2.8 Connecting the System Ground WARNING Separate the frame ground and signal ground of the user system. Failure to do so will create a FIRE HAZARD that can damage the user system and emulator product, or produce PERSONAL INJURY. The signal grounds of the E10A-USB emulator and the debugging MCU board are connected to the user system's signal ground.

  • Page 44: Setting The E10A-Usb Emulator

    Setting the E10A-USB Emulator 2.3.1 Setting the DIP Switches of the E10A-USB Emulator Set the DIP switches of the E10A-USB emulator as follows. 1. Open the sliding switch cover in the lower right portion of the upper side of the E10A-USB emulator by sliding it to the right as shown in figure 2.12.

  • Page 45: Cd-R

    2.3.2 CD-R The emulator’s software for the debugging MCU board is included in the CD-R provided with the E10A-USB emulator. The root directory of the CD-R contains a setup program for installing the emulator’s software for the debugging MCU board. The folders contain the files and programs listed below. Table 2.4 Contents of the CD-R Directories Directory Name Contents...

  • Page 46: Connecting The E10A-Usb Emulator To The Host Computer

    2.3.3 Connecting the E10A-USB Emulator to the Host Computer This section describes how to connect the E10A-USB emulator to the host computer. For the position of each connector of the emulator, refer to the SuperH™ Family E10A-USB Emulator User’s Manual. Notes: 1.

  • Page 47: Setting Up The E10A-Usb Emulator

    The E10A-USB emulator is connected to the host computer via the USB 1.1, and also to the USB port conforming to USB 2.0. Figure 2.13 shows the system configuration. Figure 2.13 System Configuration when Connecting the E10A-USB Emulator to the Host Computer 2.3.4 Setting Up the E10A-USB Emulator...

  • Page 48: Setting Up The Debugging Mcu Board For Single Operation

    Setting Up the Debugging MCU Board for Single Operation Since the debugging MCU board can be initiated even if the user system has not been connected, it is available for simple evaluation before designing the user system. WARNING 1. Always disconnect the E10A-USB emulator from the host computer and switch OFF the debugging MCU board before setting switches on the debugging MCU board.

  • Page 49: Inputting Reset Signals To The Debugging Mcu Board

    2.4.2 Inputting Reset Signals to the Debugging MCU Board When reset signals must be input, such as the case when activating the High-performance Embedded Workshop or debugging, they can be manually input from the reset switch on the debugging MCU board. For details on inputting reset signals, see table 2.5. Figure 2.14 Reset Switch Table 2.5 Correspondence of Reset Switch Settings Setting of SW4...

  • Page 51: Section 3 Hardware Specifications

    Section 3 Hardware Specifications External Dimensions of the Debugging MCU Board Figures 3.1 through 3.3 show the external dimensions of the debugging MCU board. 274.0 149.0 Unit: mm Tolerance: ±0.5 mm Figure 3.1 External Dimensions of the Debugging MCU Board 85.0 Unit: mm Tolerance: ±0.5 mm...
  • Page 52 40.0 12.5 Pin 1 Unit: mm Tolerance: ±0.5 mm Figure 3.3 External Dimensions of the User System Interface Board...

  • Page 53: Resulting Dimensions After Connecting User System Interface Board

    Resulting Dimensions after Connecting User System Interface Board Figure 3.4 shows the resulting dimensions, after connecting the user system interface board to the user system. User system interface board User system IC socket Unit: mm Tolerance: ±1.0 mm Figure 3.4 Resulting Dimensions after Connecting User System Interface Board Recommended Dimensions for User System Mount Pad (Footprint) Figures 3.5 through 3.7 show the recommended dimensions for the mount pad (footprint) for the user system with an IC socket.

  • Page 54: Using The Plqp0064Kb-A (Fp-64K) Package

    3.3.1 Using the PLQP0064KB-A (FP-64K) Package Figure 3.5 shows the recommended dimensions for the mount pad (footprint) for the user system with an IC socket for a PLQP0064KB-A (former code: FP-64K) package (NQPACK064SD-ND: manufactured by Tokyo Eletech Corporation). 0.5 x 15 = 7.5 0.25 φ1.6 Pin 1...

  • Page 55: Using The Prqp0064Gb-A (Fp-64A) Package

    3.3.2 Using the PRQP0064GB-A (FP-64A) Package Figure 3.6 shows the recommended dimensions for the mount pad (footprint) for the user system with an IC socket for a PRQP0064GB-A (former code: FP-64A) package (NQPACK064SA: manufactured by Tokyo Eletech Corporation). 0.8 x 15 = 12 Pin 1 φ3.2 (SL-type)

  • Page 56: Using The Plqp0048Ja-A (Fp-48F) Package

    3.3.3 Using the PLQP0048JA-A (FP-48F) Package Figure 3.7 shows the recommended dimensions for the mount pad (footprint) for the user system with an IC socket for a PLQP0048JA-A (former code: FP-48F) package (NQPACK048SB: manufactured by Tokyo Eletech Corporation). 0.65 x 11 = 7.15 0.65 Pin 1 φ1.6...

  • Page 57: Installing The Mcu To The User System

    Installing the MCU to the User System CAUTION 1. Check the location of pin 1 before inserting. 2. Use a Philips-type screwdriver whose head matches the screw head. 3. The tightening torque must be 0.054 N•m or less. If the applied torque cannot be accurately measured, stop tightening when the force required to turn the screw becomes significantly greater than that needed when first tightening.
  • Page 58 Screws (M2.0 x 6 mm) Socket cover MCU (SH7124/SH7125) Pin 1 IC socket User system Figure 3.8 Installing MCU to User System...

  • Page 59: User System Interface Circuits

    User System Interface Circuits Figures 3.9 through 3.14 show user system interface circuits. Use them as a reference to determine the value of the pull-up resistance. SH7124/SH7125 User system 47 kΩ N.C. N.C. Figure 3.9 User System Interface Circuits User system SH7124/SH7125 47 kΩ...
  • Page 60 SH7124/SH7125 User system AHC14 AHC14 47 kΩ HC32 AHC14 AHC14 HC08 HC08 47 kΩ _RES _RES HC08 HC74 Figure 3.11 User System Interface Circuits...
  • Page 61 User system SH7124/SH7125 PLLVcL PLLVss N.C. 0.47 μF PLLVss XTAL N.C. XTAL N.C. HCU04 EXTAL EXTAL N.C. 0.47 μF PVcc 0.01 μF μF μF μF AVcc AVref AVcc 0.01 μF μF μF μF N.C. AVss AVss Figure 3.12 User System Interface Circuits...
  • Page 62 User system SH7124/SH7125 PF(7:0) PF(7:0) AVcc DALC112S1 ASEBCK 47 kΩ _ASEBRK N.C. _ASEBRK/_ASEBRKAK 47 kΩ _ASEBRKAK Figure 3.13 User System Interface Circuits SH7124/SH7125 User system PA(15:0), PB(3:1), PA(15:0), PB(3:1), PB5, PB16, PE(15:0) PB5, PB16, PE(15:0) Figure 3.14 User System Interface Circuits...

  • Page 63: Delay Time For The User System Interface

    Delay Time for the User System Interface Since the _RES and NMI signals are connected to the user system via the logic on the EV-chip unit, a delay time shown in table 3.1 will be generated until the signal is input from the user system to the MCU.

  • Page 65: Section 4 Maintenance And Guarantee

    Section 4 Maintenance and Guarantee This section describes maintenance, guarantee, repair provisions, and how to request for repair of the emulator. User Registration When you purchase our product, be sure to register as a user. For user registration, refer to the section of ‘User Registration’...

  • Page 66: Repair Provisions

    Repair Provisions 4.4.1 Repair with Extra-Charge The products elapsed more than one year after purchase can be repaired with extra-charge. 4.4.2 Replacement with Extra-Charge If your product's fault falls in any of the following categories, the fault will be corrected by replacing the entire product instead of repair, or you will be advised to purchase new one, depending on the severity of the fault.

  • Page 67: How To Make A Request For Repair

    How to Make a Request for Repair If your product is found faulty, follow the procedure below to send your product for repair. Fill in the Repair Request Sheet included with this product, then send it along with this product for repair to your local distributor.

  • Page 69: Appendix A Repair Request Sheet

    Appendix A Repair Request Sheet Thank you for purchasing the SH7125 series debugging MCU board (HS7125EDB01H, HS7125EDB02H, or HS7124EDB01H). In the event of a malfunction, fill in the repair request sheet on the following pages and send it to your distributor.
  • Page 70 • Provided CD-R (HS0005KCU01SR): Version: V. Shown as ‘V.x.xx release’ on the CD-R (x: numeral). • SH7125 series debugging MCU board (HS7125EDB01H, HS7125EDB02H, or HS7124EDB01H): Serial No.: Revision: These are impressed on the circuit board. •...
  • Page 71 Item Symptom 4. Settings when the malfunction Enter the operational settings of the debugging MCU board. occurred (1) Power-selection switch: EXTERNAL or USER SYSTEM (circle either item). (2) Clock-selection jumper: XTAL or USER CLK (circle either item). Input clock: (3) User-system input signal enabling/disabling switches: UNMI: ENABLE or DISABLE (circle either item).
  • Page 73 HS7125EDB01H, HS7125EDB02H, HS7124EDB01H Publication Date: Rev.1.00, July 21, 2006 Published by: Sales Strategic Planning Div. Renesas Technology Corp. Edited by: Customer Support Department Global Strategic Communication Div. Renesas Solutions Corp. © 2006. Renesas Technology Corp., All rights reserved. Printed in Japan.
  • Page 74 Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan http://www.renesas.com RENESAS SALES OFFICES Refer to "http://www.renesas.com/en/network" for the latest and detailed information. Renesas Technology America, Inc. 450 Holger Way, San Jose, CA 95134-1368, U.S.A Tel: <1> (408) 382-7500, Fax: <1> (408) 382-7501 Renesas Technology Europe Limited Dukes Meadow, Millboard Road, Bourne End, Buckinghamshire, SL8 5FH, U.K.
  • Page 76 SH7125 Series Debugging MCU Board HS7125EDB01H, HS7125EDB02H, HS7124EDB01H User’s Manual...

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