CMOS 16-BIT SINGLE CHIP MICROCONTROLLER S5U1C17001H User Manual (ICDmini Ver1.0 and Ver1.1) Rev.1.2 NOTICE No part of this material may be reproduced or duplicated in any form or by any means without the written permission of Seiko Epson. Seiko Epson reserves the right to make changes to this material without notice. Seiko Epson does not assume any liability of any kind arising out of any inaccuracies contained in this material or due to its application or use in any product or circuit and, further, there is no representation that this material is applicable to products requiring high level reliability, such as, medical products. Moreover, no license to any intellectual property rights is granted by implication or otherwise, and there is no representation or warranty that anything made in accordance with this material will be free from any patent or copyright infringement of a third party. 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Configuration of product number Devices S1 C 17xxx F 00E1 00 Packing specifications 00 : Besides tape & reel 0A : TCP BL 2 directions 0B : Tape & reel BACK 0C : TCP BR 2 directions 0D : TCP BT 2 directions 0E : TCP BD 2 directions 0F : Tape & reel FRONT 0G : TCP BT 4 directions 0H : TCP BD 4 directions 0J : TCP SL 2 directions 0K : TCP SR 2 directions 0L : Tape & reel LEFT 0M: TCP ST 2 directions 0N : TCP SD 2 directions 0P : TCP ST 4 directions 0Q : TCP SD 4 directions 0R : Tape & reel RIGHT 99 : Specs not fixed Specification Package D: die form; F: QFP, B: BGA Model number Model name C: microcomputer, digital products Product classification S1: semiconductor Development tools S5U1 C 17000 H2 1 00 Packing specifications 00: standard packing Version 1: Version 1 Tool type Hx : ICE Dx : Evaluation board Ex : ROM emulation board Mx : Emulation memory for external ROM Tx : A socket for mounting Cx : Compiler package Sx : Middleware package Yx : Writer software Corresponding model number 17xxx: for S1C17xxx Tool classification C: microcomputer use Product classification S5U1: development tool for semiconductor products Contents - Contents 1 Overview......................................................................................................................... 1 1.1 Features ............................................................................................................................ 2 1.2 Operating Environment ..................................................................................................... 2 2 Components Included with Package ........................................................................... 3 3 Name and Function of Each Part ................................................................................. 4 3.1 Left Side Panel .................................................................................................................. 4 3.2 Right Side Panel................................................................................................................ 6 3.3 Top Panel........................................................................................................................... 6 4 Connections ................................................................................................................... 9 4.1 Connecting the Target System .......................................................................................... 9 4.1.1 Target Interface Connector.................................................................................. 9 4.1.2 Flash Programming Power Supply Connector ................................................... 10 4.2 Connecting to the Host Computer .................................................................................... 11 5 ICD Mode ....................................................................................................................... 13 5.1 Specifying ICD Mode ....................................................................................................... 13 5.2 Activation in ICD Mode ..................................................................................................... 13 5.2.1 When the TARGET RST OUT Signal is Not Connected .................................... 13 5.2.2 When the TARGET RST OUT Signal is Connected ........................................... 14 5.3 Starting Up the Debugger ................................................................................................ 14 5.4 Connection Test................................................................................................................ 14 6 Flash Programmer Mode ............................................................................................. 15 6.1 Preparation for Flash Programming ................................................................................. 15 6.2 Operations in Flash Programmer Mode ........................................................................... 15 7 Firmware Update .......................................................................................................... 17 8 Precautions ................................................................................................................... 19 8.1 Restrictions on Debugging ............................................................................................... 19 8.2 Differences from the Actual IC ......................................................................................... 20 8.3 Notes on Use of S5U1C17001H ...................................................................................... 20 9 Troubleshooting ............................................................................................................ 22 10 Specifications ............................................................................................................. 23 Appendix ........................................................................................................................... 24 Initial Validation when Designing a Target Board ......................................................... 24 Revision History ............................................................................................................... 26 S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation i Explanation of Terms Explanation of Terms (various modes) S5U1C17001H (ICDmini) ICD mode This mode is for debugging the target. The debugging requires a PC and the debugger gdb (included in the S5U1C17001C S1C17 Family C Compiler Package). Flash programmer mode This mode is for programming the Flash of the target w i t h o u t a P C u s e d . B e fo r e p r o gra m m i n g c a n b e performed, the program to be written must be loaded to the S5U1C17001H (ICDmini) in ICD mode. Debugger gdb (included in the S5U1C17001C S1C17 Family C Compiler Package) Connect mode Simulator (SIM) mode ICD Mini mode The simulator mode simulates the target program This is the mode to debug the target program using the execution on the PC memory and no other tools are not S5U1C17001H (ICDmini) or ICD board. The program required. However, the debug functions depending on the will be executed on the target board. The S5U1C17001H ICD cannot be used. (ICDmini) must be used in this mode. Target (S1C17xxx) Normal mode The normal mode is the normal state while the target is executing the user program. The target enters debug mode by one of the conditions shown below. * When a beak condition set by the debugger gdb has met * When the break button on the gdb window is clicked while the debugger is connected to the target * When a low level signal is input to the DSIO pin of the target * When the CPU executes the brk instruction Debug mode In this mode, the target accepts the control by the debugger gdb. Various debugging operations, such as display and rewriting the registers/memory, can be performed. The target enters this mode when executing the startup sequence after connecting it to the S5U1C17001H (ICDmini). ii Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 1 Overview 1 Overview The S5U1C17001H (ICDmini) is a hardware tool (emulator) that allows software to be efficiently developed for the S1C17 Family of 16-bit processors*. The S5U1C17001H provides a software development environment with the debugger (gdb.exe) by communicating it to the S1C17 processor on the target system and the debugger. In addition to debugging, it can be used as a Flash programmer to program the Flash memory built into the S1C17 processor on the target system as flash writer at main unit. This manual primarily explains how to use the S5U1C17001H. For details on the debugger functions and commands, refer to the "Debugger" section in the "S5U1C17001C Manual (C Compiler Package for S1C17 Family)." S5U1C17001H External View Note: Do not open the case as it may cause a malfunction. This manual is for the following 2 models. * S5U1C17001H1100 (ICDmini ver1.0) * S5U1C17001H1200 (ICDmini ver1.1) * Through firmware update, support is also expected for the S1C33 family 32-bit processor. Precautions before using the S5U1C17001H Please read the sections shown below before getting started with the S5U1C17001H. These sections, especially (2) and (3), describe the answers to frequently asked questions. (1) Chapter 2, Components Included with Package Make sure all of the listed items are included with your package. (2) Section 4.2, Connecting to the Host Computer Install the USB driver before the S5U1C17001H can be used. (3) Section 4.1, Connecting the Target System Please pay particular attention to the Notes. S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 1 1 Overview 1.1 Features * S1C cores supported S1C17 Core S1C33 STD Core *1 S1C33 mini Core *1 S1C33 PE Core *1 S1C33 ADV Core *1 * Host interface USB 1.1 * Debugger(gdb) mode ICD Mini mode * Program break functions PC break function Lapse of time break function Forced break function External forced break function (BRK IN pin input) * Measurement of program execution time Can be measured from within 3 s to 6515 hours * Standalone Flash programmer function Available * Firmware update function Available * DCLK frequency to communicate with the target 4 kHz to 40 MHz*2 * Flash programming power voltage supply Available * Target reset signal output Available * Target system I/O interface voltage 3.3 V, 1.8 V, or voltage (Ver1.0 : 1.0 to 5.0V, Ver1.1 : 1.0 to 5.5V) input from the target * Target system interface connector 4-pin connector * Flash programming power supply connector 4-pin connector *1 Scheduled to be supported with a firmware update. The latest firmware will be released on the user's web site. *2 For data download speed, the reference value per each S1C processor model is disclosed by user's site. 1.2 Operating Environment As the host computer, the S5U1C17001H uses a PC with a USB port (USB 1.1) available. Windows 2000, Windows XP, or Windows Vista is recommended for the OS. 2 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 2 Components Included with Package 2 Components Included with Package The following shows the components included with the S5U1C17001H package: (1) (2) (3) (4) (5) (6) (7) (8) S5U1C17001H main unit .............................................. 1 USB cable...................................................................... 1 Target interface cable (4-pin) ........................................ 1 Flash programming power supply cable (4-pin) ........... 1 User registration card .................................................... English/Japanese, 1 each Warranty card ................................................................ English/Japanese, 1 each Usage precautions ......................................................... English/Japanese, 1 each Manual download guide ................................................ English/Japanese, 1 each The items specified below are not included with the package. These items must be prepared separately. (9) S5U1C17001H User Manual (ICDmini Ver 1.0 - 1.1) (this PDF, downloadable from the SEIKO EPSON HP) When developing an S1C17 application (10) Debugger (gdb.exe) for the S1C17 Family (included in the S1C17 Family C Compiler Package) (11) Manual for the S1C17 family debugger (included in the C compiler manual of the S1C17 family C compiler package.) When developing an S1C33 application (scheduled to be supported) (10) Debugger (gdb.exe) for the S1C33 Family (included in the S1C33 Family C Compiler Package) (11) Manual for the S1C33 family debugger (included in the C compiler manual of the S1C33 family C compiler package.) Figure 2.1 Components in the S5U1C17001H Package S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 3 3 Name and Function of Each Part 3 Name and Function of Each Part The following shows the name of each part of the S5U1C17001H. 3.1 Left Side Panel 4-pin Flash programming power supply connector (white) GND pin BRK IN pin 4-pin target interface connector (black) DIP switch Left Side Panel 4-pin target interface connector (black) This connector is used to input/output the debug signals (DCLK, DSIO, and DST2) from/to the S1C processor on the target system. See Section 4.1.1, "Target Interface Connector," for the pin assignment and connection. 4-pin Flash programming power supply connector (white) This connector is used to output the reset signal to the target system and to supply a power voltage for Flash programming (Note). Also it is used to input the target operating voltage when the target system voltage level is used for the debug signal interface. See Section 4.1.2, "Flash Programming Power Supply Connector," for the pin assignment and connection. Note: The S5U1C17001H is equipped with a 7-V Flash programming power supply with output capacities of 30mA. Note, however, that its usage depends on the S1C processor. Be sure to avoid using this power supply for the S1C processor (do not set SW8 of the DIP switch to ON) if its technical manual does not describe the usage of the Flash programming power supply, as the chip may be destroyed due to overvoltage. This pin must be left open if the connector is attached on the target system. DIP switch The DIP switch assembly is used to select the target CPU core, Flash programmer mode, DSIO signal level, connection test feature, firmware update feature, and Flash programming voltage output. OPEN 1 2 3 4 5 6 7 8 ON Figure 3.1.1 DIP Switch Assembly Note: The changed switch settings will take effect after the RESET/START switch is pressed. Selecting the target CPU core (SW1) Table 3.1.1 SW1 Settings SW1 OPEN (h) ON (i) Setting S1C17 Core (default) S1C33 Core * * Scheduled to be supported with a firmware update 4 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 3 Name and Function of Each Part Selecting either ICD mode or Flash programmer mode (SW2 and SW3) Table 3.1.2 SW2 and SW3 Settings SW2 OPEN (h) ON (i) OPEN (h) ON (i) SW3 OPEN (h) OPEN (h) ON (i) ON (i) Setting ICD mode (default) Flash programmer mode Flash programmer mode Flash programmer mode Erase g program Verify Erase g program g verify In ICD mode, the debugger on the PC controls the S5U1C17001H to execute the debug commands. (See Chapter 5.) In Flash programmer mode, the S5U1C17001H operates as a standalone Flash programmer. (See Chapter 6.) Selecting the DSIO signal level (SW4 and SW5) Table 3.1.3 SW4 and SW5 Settings SW4 OPEN (h) OPEN (h) ON (i) SW5 OPEN (h) ON (i) - Setting 3.3 V (default) 1.8 V Voltage (Ver1.0 : 1.0 to 5.0V,Ver1.1 : 1.0 to 5.5V) input from the target The target operating voltage should be input to Pin 4 on the Flash programming power supply connector. Enabling the connection test (SW6) Table 3.1.4 SW6 Settings SW6 OPEN (h) ON (i) Setting Omitt connection test (default) Execute connection test The connection test is a communication diagnostic feature at start up of the debugger. Setting firmware update mode (SW7) Table 3.1.5 SW7 Settings SW7 OPEN (h) ON (i) Setting OFF (default) ON When SW7 is set to ON, a connection between the S5U1C17001H and the debugger can be established even if a target is not connected. See Chapter 7, "Firmware Update," for how to update the firmware. Enabling voltage output for Flash programming (SW8) Table 3.1.6 SW8 Settings SW8 OPEN (h) ON (i) Setting OFF (default) ON Note: The S5U1C17001H is equipped with a 7-V Flash programming power supply with output capacities of 30mA. Note, however, that its usage depends on the S1C processor. Be sure to avoid using this power supply for the S1C processor (do not set SW8 of the DIP switch to ON) if its technical manual does not describe the usage of the Flash programming power supply, as the chip may be destroyed due to overvoltage. BRK IN pin In ICD mode, if a Low level signal is input to this pin when the target program is being executed, execution of the target program is suspended. After a Low level is input to the BRK IN pin, a break will occur after a few instructions have been executed. In Flash programmer mode, inputting a Low level to this pin has the same effect as pressing the RESET/ START switch (it starts erasing/writing/verification). Note: The voltage to apply to the BRK IN pin must be 0 V for low level and 3.3 V or open for high level. The BRK IN pin is always pulled up to 3.3 V. GND pin Connect this pin to the GND level (0 V). S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 5 3 Name and Function of Each Part 3.2 Right Side Panel USB connector Right Side Panel USB connector This connector is used to connect to a PC using the supplied USB cable. Note: When a bus-powered USB hub is used to connect the S5U1C17001H to the PC, there may be a shortage of drive power. Especially if supplying the flash programming voltage, either connect directly to the host computer's USB port, or use an AC adapter (with USB 5 V output) capable of supplying power to the USB cable. If using an AC adapter, set the S5U1C17001H mode to be used and confirm beforehand that erasing and writing is possible as desired. 3.3 Top Panel LED1 LED2 LED3 LED4 RESET/START switch Top Panel LED1-LED4 The four LEDs located on the top panel indicate debugging and Flash programming statuses. The indicated status differs between ICD mode and Flash programmer mode. 6 Seiko Epson Corporation S5U1C17001H USER MANUAL (ICDMINI VER1.0 and VER1.1) 3 Name and Function of Each Part In ICD mode LED1 (CPU) This LED indicates the target CPU selected using SW1. l (blue) C17: Target CPU is an S1C17xxx or a product in which the S1C17 Core is embedded. l (green) C33: Target CPU is an S1C33xxx or a product in which the S1C33 Core is embedded. * C33 is scheduled to be supported with a firmware update. LED2 (ICD MODE) This LED always lights in blue (l) when ICD mode is selected using SW2 and SW3. l (blue) The S5U1C17001H is being operated in ICD mode. LED3 (EMU) This LED lights when the target program is started from the debugger to indicate that the target system is executing the target program. Also this LED lights when the target system is in power-off status or it is not connected. In this case, the LED will go out by turning the target system on or by pressing the RESET/ START switch after connecting the target system properly. l (red) * The target system is in power-off status. * The target system is not connected properly. * The target system is executing the user program. l (out) Other LED4 (DBG) This LED indicates that the target S1C processor is placed in debug mode. l (green) The target S1C processor is placed in debug mode. Also this LED rights with LED3 before the initial connection between the S5U1C17001H and the target S1C processor has been established. l (out) Other In Flash programmer mode When the S5U1C17001H starts up in Flash programmer mode, LED2 lights in white ( ), LED3 lights in magenta (l), or LED4 lights in yellow (l). LED1 (CPU) This LED indicates the target CPU selected using SW1. l (blue) C17: Target CPU is an S1C17xxx or a product in which the S1C17 Core is embedded. l (green) C33: Target CPU is an S1C33xxx or a product in which the S1C33 Core is embedded. * C33 is scheduled to be supported with a firmware update. LED2 (ERASE) This LED indicates a Flash erasing selection/operation status. (white) The Flash erasing function is selected. (blinking in white) The Flash memory is being erased. l (green) The Flash erasing operation has completed normally. (OK) l (red) A Flash erase error has occurred. (ERR) LED3 (WRITE) This LED indicates a Flash programming selection/operation status. l (magenta) The Flash programming function is selected. W (blinking in magenta) The Flash memory is being programmed. l (green) The Flash programming operation has completed normally. (OK) l (red) A Flash program error has occurred. (ERR) S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 7 3 Name and Function of Each Part LED4 (VERIFY) This LED indicates a Flash verification selection/operation status. l (yellow) The Flash verification function is selected. W (blinking in yellow) The Flash memory is being verified. l (green) The Flash verify operation has completed normally. (OK) l (red) A Flash verify error has occurred. (ERR) RESET/START switch The function differs between ICD mode and Flash programmer mode. In ICD mode Click: The firmware restarts and performs the initial sequence for connecting with the S1C processor on the target system. If the target board has not been connected physically, the S5U1C17001H enters initial connection waiting status. When the TARGET RST OUT signal of the S5U1C17001H has been connected to the target system, a reset signal is output to the target system simultaneously. In Flash programmer mode Click: The S5U1C17001H starts the selected Flash operation (erasing, programming, verification). If the LED for the operation to be executed indicates OK or ERR, a hardware reset will return to default state. Press and hold (about three seconds): Issues a hardware reset to the S5U1C17001H. Note: When a DIP switch setting is changed, it will take effect by pressing the RESET/START switch (in both ICD and Flash programmer modes). 8 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 4 Connections 4 Connections 4.1 Connecting the Target System 4.1.1 Target Interface Connector The 4-pin target interface connector (black) on the S5U1C17001H is used to input/output the debug signals from/to the S1C processor on the target system. Use the target interface cable attached to the S5U1C17001H to connect between this connector and the target system. This connection is always required to perform debugging. The pin assignment of the 4-pin connector (black) on the S5U1C17001H is shown in the table below. For the debug pin numbers on the S1C processor, refer to the technical manual of each model. Table 4.1.1.1 Pin Assignment of the Target Interface Connector (Black) 4 3 21 **** No. 1 2 3 4 Pin name DCLK GND DSIO DST2 I/O I - I/O I Pin function Clock signal input pin for debugging Power supply GND pin Serial transfer I/O pin for debugging Debug status signal input pin S5U1C17001H Target system S1C processor Within 5 cm DST2 DSIO GND DCLK Target interface cable 4 3 2 1 4 3 2 1 4 3 2 1 Blue 4 3 2 1 White Place a 33 resistor in series at a location as close to the S1C processor as possible. Target interface connector Figure 4.1.1.1 Connecting the Target System Notes: * Set the interface level (3.3V/1.8V/target input) using the DIP switches SW4 and SW5, and select the CPU Core using the SW1 according to the target system before connecting the target system. * The signals connected to the S5U1C17001H are very high-speed signals, so the connector on the target system must be mounted within 5cm from the S1C processor. If there is more distance between the connector and the S1C processor, the S5U1C17001H may not work properly. * When wiring the S1C processor to the target connector for connecting the S5U1C17001H, insert a 33W resistor in series between the S1C processor DSIO pin and the connector. This resistor must be placed as close to the S1C processor as possible. Although the system can operate without this 33W resistor, we recommend inserting this resistor to prevent malfunctions. The other pins are connected directly. A low-level input to the DSIO pin issues a forced break to set the S1C processor into debug mode. Although this signal is pulled up through about 100kW internally, when not debugging, we recommend either removing the 33W resistor to reduce noise and other problems or pulling this line up to the VDD level. * Be sure to use the supplied 4-pin cable for connecting the target system to the S5U1C17001H. Using another cable may cause a malfunction. If another cable must be necessarily used, do not extend the target interface cable and connect the cable directly to the S5U1C17001H so that the distance to the S1C processor on the target system will be shortest. * The 4-pin connector does not have a projection for preventing reverse insertion. Check the cable color (blue) of pin 1 to be sure the insertion of connector is proper when connecting it to the target system. S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 9 4 Connections 4.1.2 Flash Programming Power Supply Connector The 4-pin Flash programming power supply connector (white) is used to output a reset signal and a Flash programming voltage to the target system, and to input the target interface voltage. These signals are not necessary for debugging. Connect between this connector and the target system using the Flash programming power supply cable attached to the S5U1C17001H as necessary. The pin assignment of the 4-pin connector (white) on the S5U1C17001H is shown in the table below. Table 4.1.2.1 Pin Assignment of the Flash Programming Power Supply Connector (White) 1 2 34 **** No. 1 2 3 4 Pin name FLASH VCC OUT GND TARGET RST OUT TARGET VCC IN I/O O - O I Pin function Flash programming voltage output pin Power supply GND pin Target reset signal output pin Target voltage input pin * Pay attention to the pin number assignment. (It is the reverse order of the target interface connector.) Target reset signal output (TARGET RST OUT) By pressing the RESET/START switch in ICD mode, the TARGET RST OUT outputs a reset signal to the target system. When using the TARGET RST OUT output, a reset circuit as shown in the figure below is recommended. The connection to #RESET of target reset signal is not essential, although it allows debugging to be performed more efficiently. When using the Flash protection function, it is best to have a connection. Connection is also recommended in the Flash programmer mode and when using the S5U1C17001H as the Gang Writer (Gang Programmer) using S5U1C17000Y2. S5U1C17001H TARGET RST OUT Target system 4 3 2 1 Pull-up resistor S1C processor #RESET Reset circuit on the target system Reset switch Figure 4.1.2.1 Example of Target Reset Circuit Target voltage input (TARGET VCC IN) In addition to 3.3 V and 1.8 V, the S5U1C17001H is capable of interfacing with the target system using the voltage (Ver1.0 : 1.0 to 5.0V, Ver1.1 : 1.0 to 5.5V) input from the target system. To use this function, set SW4 to ON and input the target voltage to the TARGET VCC IN pin. Flash programming voltage output (FLASH VCC OUT) Depending on the Flash memory module built into the S1C processor on the target system, its programming voltage (7V) can be supplied from the S5U1C17001H. The maximum current that can be supplied is 30mA. To use this output, set SW8 to ON and connect between the FLASH VCC OUT pin and the power supply pin on the target system. This mode functions only in Flash Writer mode. When SW8 is set to ON, the FLASH VCC OUT pin always outputs a 7-V voltage regardless of whether the RESET/START switch is pressed or not. Note: Refer to the technical manual of each model as to whether the target S1C processor is operable with this voltage or not. Do not use this voltage unless there is a description about the usage in the technical manual, as the S1C processor may be destroyed due to overvoltage. 10 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 3 Name and Function of Each Part 3.2 Right Side Panel USB connector Right Side Panel USB connector This connector is used to connect to a PC using the supplied USB cable. Note: When a bus-powered USB hub is used to connect the S5U1C17001H to the PC, there may be a shortage of drive power. Especially if supplying the flash programming voltage, either connect directly to the host computer's USB port, or use an AC adapter (with USB 5 V output) capable of supplying power to the USB cable. If using an AC adapter, set the S5U1C17001H mode to be used and confirm beforehand that erasing and writing is possible as desired. 3.3 Top Panel LED1 LED2 LED3 LED4 RESET/START switch Top Panel LED1-LED4 The four LEDs located on the top panel indicate debugging and Flash programming statuses. The indicated status differs between ICD mode and Flash programmer mode. 6 Seiko Epson Corporation S5U1C17001H USER MANUAL (ICDMINI VER1.0 and VER1.1) 4 Connections The device manager will be displayed as shown below when the USB driver has been installed correctly. Note: If the window above is not displayed correctly, try to reinstall the USB driver. 12 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 4 Connections 5 ICD Mode ICD mode is an S5U1C17001H operating mode for debugging the target system by connecting the S5U1C17001H to the debugger (gdb.exe) on the PC. The following explains the settings for activating ICD mode and operations. Downloading the program to Flash can also be performed in this mode. 5.1 Specifying ICD Mode Set the DIP switches as below so that the S5U1C17001H will start up in ICD mode. SW2 = OPEN SW3 = OPEN SW7 = OPEN 5.2 Activation in ICD Mode After connecting the S5U1C17001H to the target system and the host computer, start up the S5U1C17001H by following the procedure described below. If the S5U1C17001H is started up in another procedure, it may not be connected to the target system normally. 5.2.1 When the TARGET RST OUT Signal is Not Connected When the TARGET RST OUT signal is not connected to the reset input on the target system, start up the S5U1C17001H by the procedure described below. (1) Hold down the RESET/START switch on the S5U1C17001H. LED1 (white) LED2 (white) LED3 (white) LED4 l (out) (2) Hold down the reset switch on the target system. (3) Release the RESET/START switch on the S5U1C17001H. LED1 l (blue) or l (green) LED2 l (blue) LED3 l (red) LED4 l (green) (4) Release the reset switch on the target system. * For firmware Ver 1.1 and later, hold down the RESET/START switch on the S5U1C17001H. It is also possible to connect through the step of holding down the reset switch on the target system after releasing the RESET/ START switch. When the S5U1C17001H has been connected to the target S1C processor normally LED1 l (blue) or l (green) LED2 l (blue) LED3 l (out) LED4 l (green) When the S5U1C17001H has not been connected to the target system LED1 l (blue) or l (green) LED2 l (blue) LED3 l (red) LED4 l (out) In this case, retry from Step (1). S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 13 5 ICD Mode 5.2.2 When the TARGET RST OUT Signal is Connected When the TARGET RST OUT signal is connected to the reset input on the target system, just press the RESET/ START switch on the S5U1C17001H for starting up. The S5U1C17001H automatically generates a target reset signal with the proper connection sequence. (1) Press the RESET/START switch on the S5U1C17001H. LED1 (white) LED2 (white) LED3 (white) LED4 l (out) (2) Release the RESET/START switch on the S5U1C17001H. When the S5U1C17001H has been connected to the target S1C processor normally LED1 l (blue) or l (green) LED2 l (blue) LED3 l (out) LED4 l (green) When the S5U1C17001H has not been connected to the target system LED1 l (blue) or l (green) LED2 l (blue) LED3 l (red) LED4 l (out) In this case, retry from Step (1). 5.3 Starting Up the Debugger Start up the debugger (gdb.exe) on the PC after the connection between the S5U1C17001H and the target S1C processor has been established by the operations described above. When debugging using the debugger with the S5U1C17001H connected, the debugger must be set to ICD Mini mode by executing the target command. (gdb) target icd usb f Command to set the debugger in ICD Mini mode For the debug commands and how to operate the debugger, refer to the "S5U1C17001C Manual (C Compiler Package for S1C17 Family)." * When (gdb) target sim is executed, the software simulator starts up. Note: Before disconnecting the S5U1C17001H from the host computer, be sure to terminate the debugger. 5.4 Connection Test The S5U1C17001H has a connection test feature to diagnose if it can communicate with the target system properly when the debugger (gdb.exe) starts up. Perform the connection test, for example, when the S5U1C17001H does not start up by the correct procedure. Use the DIP switch to select whether the connection test will be omitted or executed. Omitting the connection test (default) When SW6 is set to OPEN, the S5U1C17001H will omit the connection test at the start up of the debugger (gdb.exe). Executing the connection test When SW6 is set to ON, the S5U1C17001H will execute the connection test at the start up of the debugger (gdb.exe). 14 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 5 ICD Mode 6 Flash Programmer Mode As flash writer at main unit, flash programmer mode is an S5U1C17001H operating mode for using it as a standalone Flash programmer. The following explains the settings for activating the Flash programmer mode and operations. This mode is not used when debugging programs. This task is only performed when using the ICDmini as a Flash writer without a PC for mass production and so on. 6.1 Preparation for Flash Programming The Flash programming feature allows programming the target system's Flash memory with data such as a program, which has been downloaded into the S5U1C17001H's internal Flash memory. First download the data to program the target system's Flash memory into the S5U1C17001H by the procedure described below. (1) Start up the S5U1C17001H in ICD mode (see Section 5.2). (2) Start up the debugger. 1. Launch GDB. 2. Connect the target. (gdb) target icd usb (3) Save the Flash erase/write program (FLS program) in the ICDmini with the c17 fwlp command. Example: When the S1C17701 is the target (ICDmini firmware ver1.1) (gdb) c17 fwlp C:\EPSON\GNU17\mcu_model\17701\fls\fwr17701v11.saf 0x48 0x80 A Flash erase/write program for the Mini target (S1C processor) or external Flash memory must be saved in the ICDmini. For details of the Flash erase/write program, refer to the readme file below following installation of GNU17. C:\EPSON\GNU17\mcu_model\xxxxx\fls\ (Default installation) (4) Save the user program for writing to the target Flash memory in the ICDmini with the c17 fwlp (or c17 fwdc) command. At the same time, set the range of the Flash memory to erase. Example: Erase all sectors and load sample.saf in the Flash memory (When the Flash starting address is 0x8000) (gdb) c17 fwld sample.saf 0 0 0x8000 (5) Quit the debugger. For details of the debugger (gdb.exe) and "objcopy.exe," refer to the "S5U1C17001C Manual (C Compiler Package for S1C17 Family)." 6.2 Operations in Flash Programmer Mode The following describes how to start up the S5U1C17001H and procedure for Flash programming. (1) Set SW2 and SW3 according to the Flash operation to be performed. One of the three sequences, erasing and programming, verification only, or erasing, programming, and verification, can be selected. Table 6.2.1 DIP Switch Settings in Flash Programmer Mode SW2 OPEN (h) ON (i) OPEN (h) ON (i) S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) SW3 OPEN (h) OPEN (h) ON (i) ON (i) Setting ICD mode (default) Flash programmer mode Flash programmer mode Flash programmer mode Seiko Epson Corporation Erase g program Verify Erase g program g verify 15 5 ICD Mode (2) If you change the DIP switches with power supplied from USB, press the RESET/START switch to set the ICDmini to the Flash programmer mode. The DIP switch settings are enabled by pressing the RESET/START switch. If you change the DIP switch settings with the power off, connect the USB cable of the ICDmini to the USB port of the host computer or to a 5 V AC USB adapter (see Section 3.2) to supply power. (In the Flash programmer mode, only power is required from the USB cable and there is no communication with the PC.) Waiting for connection with the target l ERASE l WRITE l VERIFY l (out) l (red) l (green) When connected normally, the LEDs light up in accordance with the selected operation. After connecting with the target l ERASE l WRITE l VERIFY Erase g Write (white) l (magenta) l (out) Verify l (out) l (out) l (yellow) Erase g Write g Verify (white) l (magenta) l (yellow) (3) Connect the target system including the Flash to be programmed to the S5U1C17001H. (4) Press the RESET/START switch. The S5U1C17001H starts the selected Flash operation. The LED indicates the operation being executed. l ERASE l WRITE l VERIFY During erasing (blinking in white) - - During programming - W (blinking in magenta) - During verification - - W (blinking in yellow) (5) When the Flash operation has finished, the LED lights as shown below to indicate that the operation has completed normally or an error has occurred. When completed normally l ERASE l WRITE l VERIFY Erasing has completed l (green) - - Programming has completed - l (green) - Verification has completed - - l (green) Program error - l (red) - Verify error - - l (red) When an error has occurred l ERASE l WRITE l VERIFY Erase error l (red) - - (6) Disconnect the target system. (7) Return to Step (3) to continue the same Flash operation. Return to Step (1) to change the Flash operation. When finishing Flash programming, disconnect the USB cable and set the DIP switch back to ICD mode. Supplement: Instead of pressing the RESET/START switch on the top panel, the operation can be performed by inputting a GND level signal to the BRK IN pin (pulled up to 3.3 V). 16 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 6 Flash Programmer Mode 7 Firmware Update The S5U1C17001H has a firmware update function using the debugger (gdb.exe). The following shows the procedure to update the S5U1C17001H firmware. Note: Before the firmware can be updated, the USB driver must be installed.For installation of the USB driver, see Section 4.2, "Connecting to the Host Computer." (1) Connect only S5U1C17001H to the host computer using USB cable. (2) Set the DIP switch SW7 of S5U1C17001H to ON (the other SWs are OPEN), then press the RESET/START switch. The LEDs of S5U1C17001H are as follows; LED1 l (blue) or l (green) LED2 l (blue) LED3 l (red) LED4 l (green) (3) Start up the debugger (gdb.exe). The same command can be executed by running the batch file provided with the firmware update. To invoke at the command prompt: >C: >cd \EPSON\gnu17 >gdb (4) Enter the commands shown below when debugger starts up. (gdb) target icd usb After entering the commands, the following will be displayed. C17 ICD17 debugging Connecting with target (ID_OK) ..... done ICD Initializing (ICD_INITALIZE) ... done Read ICD Version (ICD_VER_READ) ..... done ICDmini hardware version .......... 1.0 ICDmini software version .......... 1.1 f The current firmware version Debug base address (ID_DATA_READ) .. xxxx Boot address (ICD_DATA_READ) ........ xxxx (5) Check the current firmware version, and enter the following commands if you need to update the firmware. (gdb) c17 firmupdate path\filename.saf path: Path of the new firmware filename.saf: File name of the new firmware After entering the commands, the following will be displayed. Erase flash data ...done Load flash data ....done ICD firmware update ...done Please quit gdb, and power off ICD when LED2/LED3/LED4 is green. (LED is green in the case of SVT17701). This procedure may take about 15 minutes. While updating the firmware, DO NOT reset S5U1C17001H or turn off the power. Otherwise S5U1C17001H may not start up. S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 17 6 Flash Programmer Mode (6) The firmware update has completed when the LEDs light as below. LED1 l (blue) or l (green) LED2 l (green) LED3 l (green) LED4 l (green) (7) Set SW7 to OPEN and press the RESET/START switch to restart the S5U1C17001H. After completing the operation and the LEDs are as follows; LED1 l (blue) or l (green) LED2 l (red) LED3 l (red) LED4 l (red) or after pressing and releasing the RESET/START switch, if the LEDs are as follows; LED1 (white) LED2 (white) LED3 (white) LED4 l (out) the firmware update may have failed for some reason. If a malfunction occurs during a firmware update and the S5U1C17001H does not operate normally, please contact our sales office. 18 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 6 Flash Programmer Mode 8 Precautions 8.1 Restrictions on Debugging The debugging using the S5U1C17001H is subject to the restrictions specified below. Operation of the internal peripheral circuits The peripheral circuits of the target S1C processor stop operating when the debugger (gdb.exe) on the host computer is ready to accept commands, that is, unless the target program is running. For this reason, the peripheral circuits do not operate in real time when the target program is executed in the single-step mode. For details on single-step execution, refer to the "Debugger" section in the "S5U1C17001C Manual (C Compiler Package for S1C17 Family)". Interrupts when the target program is not running If an interrupt request to the S1C Core is generated by the target system when the target program is not running, interrupt processing is paused. The interrupt that has been paused is serviced immediately before the target program is executed or immediately after one instruction is executed after the debugger (gdb.exe) on the host computer has directed that the target program be executed. Interrupts when the target program is executed in a single step If an interrupt request to the S1C Core is generated by the target system during single-step execution of the target program, including functions and subroutines (STEP), the interrupt request is paused. During single-step execution of the target program, not including functions and subroutines (NEXT), an interrupt request received within a function or subroutine is serviced without being paused and an interrupt received in other parts of the program is paused as with the STEP command. The interrupt that has been paused is serviced immediately before the target program is executed or immediately after one instruction is executed after the debugger (gdb. exe) on the host computer has directed that the target program be executed. For details on single-step execution (STEP and NEXT), refer to the "Debugger" section in the "S5U1C17001C Manual (C Compiler Package for S1C17 Family)". Execution counter 1. The measuring execution times up to 6515 hours. 2. A 3 s or less of program execution time cannot be measured correctly. 3. As it includes the precision of the oscillator built into ICDmini and the processing of debug mode entry/ exit, the measurement result contains the following error. measuring result = actual time (50ppm) + debug mode entry/exit processing (around 40 cycles) The counter is also used for clocking of the lapse of time break function, therefore, execution times cannot be measured when the lapse of time break function is used. Reset sequence The sequence from when the S5U1C17001H is powered on until the target program is executed is entirely different from that of the actual S1C processor. However, a sequence for the reset request input from the target system while the target program is being executed is the same as that for the actual S1C processor. Regarding the reset sequence in the actual S1C processor, refer to the technical manual of each model. Break functions when a reset request is accepted If a reset request (reset input or reset interrupt from the watchdog timer) is accepted while the S1C processor on the target system is executing the target program in normal mode, the hardware PC break and software PC break functions are disabled. It will be enabled again when the S1C processor enters debug mode. S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 19 7 Firmware Update I/O memory dump by the S5U1C17001H Note that some S1C peripheral circuits may change the control register status due to their specifications when the I/O memory is read using the memory dump function of the S5U1C17001H or when the target program execution is suspended. For details on the memory dump function, refer to the "Debugger" section in the "S5U1C17001C Manual (C Compiler Package for S1C17 Family)". 8.2 Differences from the Actual IC The S5U1C17001H is different from the actual IC in the way specified below. If this difference is not taken into consideration in an application, the program may not operate normally in the actual IC. Register initialization The initial CPU register values may be different from those of the actual IC. Therefore, be sure not to create a program that depends on the initialized value. The initial values when the S5U1C17001H is connected are as follows: r0-r7: 0x000000 pc: 0x008000 (Note) sp: 0xfffffc psr: 0x00 (IL = 000, IE = 0, CVZN = 0000) Note: The PC initial value is decided according to the TTBR register setting value (boot address). Refer to the technical manual of each model for the TTBR value. 8.3 Notes on Use of S5U1C17001H Powering on/off After turning off the power to the S5U1C17001H by disconnecting the USB cable, wait at least 10 seconds before turning the power on (connecting the USB cable) again. If the power is turned on immediately after it is turned off, the S5U1C17001H may not be initialized correctly in a power-on reset, and may cause a malfunction. Connecting the target system The signals connected to the S5U1C17001H are very high-speed signals, so the connector on the target system must be mounted within 5 cm from the target S1C processor. If there is more distance between the connector and the S1C processor, the S5U1C17001H may not work properly. Furthermore, be sure to use the supplied 4-pin cable for connecting the target system to the S5U1C17001H. Using another cable may cause a malfunction. If another cable must be necessarily used, do not extend the target interface cable and connect the cable directly to the S5U1C17001H so that the distance to the S1C processor on the target system will be shortest. Operation of the S5U1C17001H system The S5U1C17001H can work by connecting a target system in which the actual S1C processor is mounted. Since the S5U1C17001H package does not include any board equivalent to a target system, please prepare separately. 20 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 8 Precautions Wiring between the S1C processor and target connector When wiring the S1C processor to the target connector for connecting the S5U1C17001H, insert a 33 W resistor in series between the S1C processor DSIO pin and the connector. This resistor must be placed as close to the S1C processor as possible. If the reset line is not connected, the system can be operated without this 33 W resistor. However, we recommend inserting this resistor to prevent malfunctions. The other pins are connected directly. The total length of the line must be under 5 cm. A low-level input to the DSIO pin issues a forced break to set the S1C processor into debug mode. Although this signal is pulled up through about 100 kW internally, when not debugging, we recommend either removing the 33 W resistor to reduce noise and other problems or pulling this line up to the VDD level. Within 5 cm DCLK S1C processor GND DSIO DST2 Target connector Place a 33 resistor in series at a location as close to the S1C processor as possible. Figure 8.3.1 Wiring between S1C Processor and Target Connector Reset request Do not reset the target system while the target program execution is suspended as the S5U1C17001H will be unable to operate normally. Notes on target system's interface The allowable voltage range for the signals input from the target system is 0 to 5.0V for Ver 1.0 and 0 to 5.5V for Ver 1.1. The S5U1C17001H may fail if voltages that exceed this range are input. Therefore, target systems to be connected to the S5U1C17001H must be designed so that voltages outside this range are not applied. Take special care in designing the target system power supply, and design the target system so that overvoltages are not applied to the S5U1C17001H when the target system power supply is turned on or off. S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 21 8 Precautions 9 Troubleshooting The following shows the problems attributable to the hardware: Table 9.1 Troubleshooting Symptom The LED3 (EMU) that lit when the S5U1C17001H was turned on does not go out. Cause/remedy (1) Is the target system turned on? gTurn the target system on. (2) Is the target system connected with the S5U1C17001H? g See Section 4.1, "Connecting the Target System," and check to see if the target system is connected correctly. (3) Was the start up sequence correct? g See Section 5.2, "Activation in ICD Mode," and start up in the correct order. The following message appears when the (1) Is the S5U1C17001H connected to the host computer correctly? debugger (gdb.exe) in the host computer is g See Section 4.2, "Connecting to the Host Computer" and check invoked: to see if the S5U1C17001H is connected to the host computer Cannot open ICD17 usb driver. correctly. (2) Was the debugger (gdb.exe) restar ted after resetting the S5U1C17001H while the debugger is running? g See Section 5.2, "Activation in ICD Mode," and start up in the correct order. The following message suddenly appears This problem is caused by low-level noise on the DSIO signal of the while the target program is being executed by target system or when the BRK IN pin goes GND level. the debugger (gdb.exe) in the host computer: (1) Is the target system connected with a cable other than the supplied, Break by external break. or is the supplied cable used with extension cables? Program received signal SIGINT, Interrupt. g Use the supplied cable. If it cannot be used then use extension cables that are as short as possible and shield them in order to avoid occurrence of low-level noise on the DSIO signal. (2) Is there any conductive material near the BRK IN pin? g Remove the conductive material. The operation is unstable. (1) Is the DSIO output level (SW4, SW5) set correctly? g See Section 3.1, "Left Side Panel," and make sure that the setting is correct. (2) Is the target system connected with a cable other than the one supplied, or is the supplied cable used with extension cables? g Use the supplied cable. If it cannot be used then use extension cables that are as short as possible and shield them in order to avoid occurrence of low-level noise on the DSIO signal. 22 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 8 Precautions 10 Specifications Table 10.1 Specifications Components S5U1C17001H USB cable Items Dimensions Input voltage Power consumption Length Connector Target system interface cable Length (4 pins) Flash programming power Length supply cable (4 pins) Specifications 100 mm (W) x 85 mm (L) x 25 mm (H) DC 5 V 2.5 W max. 1m S5U1C17001H side: Standard-B type Host PC side: Standard-A type Approx. 15 cm Remarks Rubber feet included Approx. 15 cm Table 10.2 Recommended Connectors on the Target System Components Target system interface connector (4 pins) Flash programming power supply connector (4 pins) Items Connector Specifications 4-pin (straight): A2-4PA-2.54DS(71) (HRS) Connector 4-pin (L angle): S04B-PASK-2 (JST) Remarks Table 10.3 Operating Environment Items Operating temperature Storage temperature Operating humidity Storage humidity S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Specifications 5 to 35C -10 to 60C 35 to 80% 20 to 90% Seiko Epson Corporation Remarks No condensation 23 9 Troubleshooting Appendix Initial Validation when Designing a Target Board This section explains the procedure for checking that the S1C processor mounted on the target board is working properly. Step 1 Check that the most basic circuits such as the power supply, reset, and debugging pins are working normally. (1) With the ICDmini switched on but not connected, input High g Low g High signals to the #RESET pin. This resets the S1C processor. (2) Input a Low signal to the DSIO pin (input pin). This sets the S1C processor to debug mode. (3) If DST2 pin (output pin) changes from Low to High, it indicates that the most basic functions of the S1C17 processor are working. (If the S1C processor is set to the debug mode, the DST2 pin changes from Low to High.) Strictly speaking, if a Low signal is input continuously, the output from DST2 is as follows. DST2 If DST2 pin (output pin) does not change from Low to High, check the hardware of the target board. Step 2 Try to establish a connection with the ICDmini. (1) Set the DIP switches of the ICDmini. The default is all open. Set the switches appropriately for the target board. In this test, make the following settings at the minimum. SW2 = OPEN SW3 = OPEN SW7 = OPEN SW8 = OPEN If the S1C17 processor is operating with IO voltage other than 3.3 V, it is necessary to change the settings of SW4 and SW5. (2) Connect the ICDmini to a PC installed with the ICDmini USB driver, and connect the debugging pins (DCLK, DSIO, and DST2) and GND to the ICDmini with the target interface cable provided. The target is functioning normally if the LEDs on the top of the case are as follows. LED1 l (blue) LED2 l (blue) LED3 l (out) LED4 l (green) g Normal. LED1 l (blue) LED2 l (blue) LED3 l (red) LED4 l (green) g Input High g Low g High signals to the #RESET pin. This resets the S1C processor. 24 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) 10 Specifications LED1 l (blue) LED2 l (blue) LED3 l (red) LED4 l (out) g Press the RESET/START switch on the ICDmini once and input High g Low g High signals to the #RESET pin. S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) Seiko Epson Corporation 25 APPENDIX Revision History Code No. 411153600 411153601 Page ALL Cover ii 1 2 3 4 5 7 8 9 10 Contents First edition Change title MICROCONTROLLER (ICDmini Ver1.0 and Ver1.1) Update the information of NOTICE to the latest version. Change the contents of Developement tools. Hx: ICE Dx: Evaluation board Ex: ROM emulation board Mx: Emulation memory for external ROM Tx: A socket for mounting Cx: Compiler package Sx: Middleware package Yx: Writer software Change name ICDmini Change name ICDmini Add description * as flash writer at main unit, * This manual is for the following 2 models. * S5U1C17001H1100 (ICDmini ver1.0) * S5U1C17001H1200 (ICDmini ver1.1) * * Through firmware update, support is also expected for the S1C33 family 32-bit processor. Deletion of item Data download rate Change description * Debugger (gdb) * (Ver1.0 : 1.0 to 5.0V,Ver1.1 : 1.0 to 5.5V) * The latest firmware will be released on the user's web site. * *2 For data download speed, the reference value per each S1C processor model is disclosed by user's site. * Windows 2000, Windows XP, or Windows Vista is recommended for the OS. Change description * S5U1C17001H main unit * S5U1C17001H User Manual (ICDmini Ver 1.0 - 1.1) * (11) Manual for the S1C17 family debugger (included in the C compiler manual of the S1C17 family C compiler package.) * (11) Manual for the S1C33 family debugger (included in the C compiler manual of the S1C33 family C compiler package.) Change the value 30mA Change description and the value * (Ver1.0:1.0 to 5.0V,Ver1.1 : 1.0 to 5.5V) * 30mA * In ICD mode, if a Low level signal is .... erasing/writing/verification). Adjust layout Change of description a hardware reset will be issued to the S5U1C17001H g a hardware reset will return to default state. Delete information Add description * The connection to #RESET of target reset signal is * This mode functions only in Flash Writer mode, Change description and the value * (Ver1.0:1.0 to 5.0V,Ver1.1:1.0 to 5.5V) * 30mA 26 Seiko Epson Corporation S5U1C17001H User Manual (ICDMini Ver1.0 and ver1.1) APPENDIX Code No. Page 11 13 14 15 16 17 Contents Add description * When used as the ICD for the S1C33 core, follow the instructions in the documentation provided with the firmware update. Add description * Downloading the program to Flash can also be performed in this mode. * SW7 = OPEN * * For firmware Ver 1.1 and later, ... It is also possible to connect through the step of .... Change description * (blue) or (green) Add description * When (gdb) target sim is executed, the software simulator starts up. Change description * (blue) or (green) Add description * As flash writer at main unit * This mode is not used when debugging ... production and so on. * refer to the readme file below. Change description * (3) Save the Flash erase/write program ... C17 fwld sample.saf 0 0 0x8000 * Debugger (gdb.exe) Deletion of item readme.txt Delete information Add description * (2)If you change the DIP switches with power .... (yellow) * The DIP switch settings are enabled by pressing the RESET/START switch. * Supplement:Instead of pressing .... signal to the BRK IN pin (pulled up to 3.3 V). Add description the USB * driver must be installed.For installation of the USB driver, see Section 4.2, "Connecting to the Host Computer." The same * command can be executed by ..... the firmware update. Change description * (1) Connect only S5U1C17001H to the host computer using USB cable. * (2) Set the DIP switch SW7 of S5U1C17001H ... LED4 (Green) * (4) Enter the commands shown below .... (5) Check the current firmware version, .... may not start up. * (5) (6) Change of step number * (6) (7) Change of step number (blue) * or (green) 18 19 20 21 411153602 24, 25 6 S5U1C17001H USER MANUAL (ICDMINI VER1.0 and VER1.1) Change description After completing the operation and the LEDs are as follows; .... the firmware update may have failed for some reason. Change of description 1. The measuring execution ... debug mode entry/exit processing (around 40 cycles) Delete information Change of description * Notes on target system's interface * 0 to 5.0V for Ver 1.0 and 0 to 5.5V for Ver 1.1 Add Appendix Change of description * Recommend AC adapters ... Seiko Epson Corporation 27 International Sales Operations AMERICA ASIA EPSON ELECTRONICS AMERICA, INC. EPSON (CHINA) CO., LTD. 2580 Orchard Parkway, San Jose, CA 95131, USA Phone: +1-800-228-3964 7F, Jinbao Bldg., No.89 Jinbao St., Dongcheng District, Beijing 100005, CHINA Phone: +86-10-8522-1199 Fax: +86-10-8522-1125 Fax: +1-408-922-0238 EUROPE EPSON EUROPE ELECTRONICS GmbH Riesstrasse 15, 80992 Munich, GERMANY Phone: +49-89-14005-0 Fax: +49-89-14005-110 SHANGHAI BRANCH 7F, Block B, Hi-Tech Bldg., 900 Yishan Road, Shanghai 200233, CHINA Phone: +86-21-5423-5577 Fax: +86-21-5423-4677 SHENZHEN BRANCH 12F, Dawning Mansion, Keji South 12th Road, Hi-Tech Park, Shenzhen 518057, CHINA Phone: +86-755-2699-3828 Fax: +86-755-2699-3838 EPSON HONG KONG LTD. 20/F, Harbour Centre, 25 Harbour Road, Wanchai, Hong Kong Phone: +852-2585-4600 FAX: +852-2827-4346 Telex: 65542 EPSCO HX EPSON TAIWAN TECHNOLOGY & TRADING LTD. 14F, No. 7, Song Ren Road, Taipei 110, TAIWAN Phone: +886-2-8786-6688 FAX: +886-2-8786-6660 EPSON SINGAPORE PTE., LTD. 1 HarbourFront Place, #03-02 HarbourFront Tower One, Singapore 098633 Phone: +65-6586-5500 FAX: +65-6271-3182 SEIKO EPSON CORP. KOREA OFFICE 50F, KLI 63 Bldg., 60 Yoido-dong, Youngdeungpo-Ku, Seoul 150-763, KOREA Phone: +82-2-784-6027 FAX: +82-2-767-3677 SEIKO EPSON CORP. MICRODEVICES OPERATIONS DIVISION Device Sales & Marketing Dept. 421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN Phone: +81-42-587-5814 FAX: +81-42-587-5117 Document Code: 411153602 First Issue November 2007 in JAPAN L Revised February 2012 in JAPAN Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Epson: S5U1C17001H2100