The following document contains information on Cypress products. FUJITSU SEMICONDUCTOR SUPPORT SYSTEM SS705-00001-1v0-E F2MC-16FX/FR Family MICROCONTROLLER MCU Evaluation Board MB2198-760-E OPERATION MANUAL PREFACE This document describes the use of "MCU evaluation board" which is the evaluation environment of MB96600 series of F2MC*2-16FX-16-bit microcontroller and MB91500 series of FR*1-32-bit microcontroller. Relation MB number • MB2198-760-E Fujitsu Semiconductor MCU Evaluation Board Contents - Fujitsu Semiconductor MCU Evaluation Board (MB2198-760-E) Quantity Description 1 Fujitsu Semiconductor MCU Evaluation Board 1 AC adaptor (AC100V to 240V→DC12V) 1 C-type plug for AC adaptor 1 USB A to B cable 6 15mm spacer with M3×8 screws *1 : FR, the abbreviation of FUJITSU RISC controller, is a line of products of Fujitsu Semiconductor Limited. *2 : F2MC is the abbreviation of FUJITSU Flexible Microcontroller. ■ Using the product safely This manual contains important information for using this product safely. Be sure to read this manual before using the product, and to follow the directions given in this manual in order to use the product correctly. In particular, thoroughly read the "Caution of the product described in this manual" at the start of this document, and perform a thorough safety check before using the product. Store this manual in a safe location where it can easily be accessed at any time while you are using the product. ■ European RoHS compliance Products with a -E suffix on the part number are European RoHS compliant products. ■ Notice on this document All information included in this document is current as of the date it is issued. Such information is subject to change without any prior notice. Please confirm the latest relevant information with the sales representatives. i ■ Target products The available products with the contents described in this document are shown below. Series Product Number (not included Package suffix) MB96610 MB96F612R, MB96F612A MB96F613R, MB96F613A MB96F615R, MB96F615A MB96620 MB96F622R, MB96F622A MB96F623R, MB96F623A MB96F625R, MB96F625A MB96630 MB96F633R, MB96F633A MB96F635R, MB96F635A MB96F636R MB96F637R MB96640 MB96F643R, MB96F643A MB96F645R, MB96F645A MB96F646R MB96F647R MB96650 MB96F653R, MB96F653A MB96F655R, MB96F655A MB96F656R MB96F657R MB96670 MB96F673R, MB96F673A MB96F675R, MB96F675A MB96680 MB96F683R, MB96F683A MB96F685R, MB96F685A MB96690 MB96F693R, MB96F693A MB96F695R, MB96F695A MB96F696R MB966A0 MB96F6A5R, MB96F6A5A MB96F6A6R MB966B0 MB96F6B5R, MB96F6B5A MB96F6B6R MB966C0 MB96F6C5R, MB96F6C5A MB96F6C6R MB91520B MB91F522BS, MB91F522BU, MB91F522BY, MB91F522BK MB91F522BW, MB91F522BL, MB91F522BH, MB91F522BJ MB91F523BS, MB91F523BU, MB91F523BY, MB91F523BK MB91F523BW, MB91F523BL, MB91F523BH, MB91F523BJ MB91F524BS, MB91F524BU, MB91F524BY, MB91F524BK MB91F524BW, MB91F524BL, MB91F524BH, MB91F524BJ MB91F525BS, MB91F525BU, MB91F525BY, MB91F525BK MB91F525BW, MB91F525BL, MB91F525BH, MB91F525BJ MB91F526BS, MB91F526BU, MB91F526BY, MB91F526BK MB91F526BW, MB91F526BL, MB91F526BH, MB91F526BJ ii Series Product Number (not included Package suffix) MB91520D MB91F522DS, MB91F522DU, MB91F522DY, MB91F522DK MB91F522DW, MB91F522DL, MB91F522DH, MB91F522DJ MB91F523DS, MB91F523DU, MB91F523DY, MB91F523DK MB91F523DW, MB91F523DL, MB91F523DH, MB91F523DJ MB91F524DS, MB91F524DU, MB91F524DY, MB91F524DK MB91F524DW, MB91F524DL, MB91F524DH, MB91F524DJ MB91F525DS, MB91F525DU, MB91F525DY, MB91F525DK MB91F525DW, MB91F525DL, MB91F525DH, MB91F525DJ MB91F526DS, MB91F526DU, MB91F526DY, MB91F526DK MB91F526DW, MB91F526DL, MB91F526DH, MB91F526DJ MB91520F MB91F522FS, MB91F522FU, MB91F522FY, MB91F522FK MB91F522FW, MB91F522FL, MB91F522FH, MB91F522FJ MB91F523FS, MB91F523FU, MB91F523FY, MB91F523FK MB91F523FW, MB91F523FL, MB91F523FH, MB91F523FJ MB91F524FS, MB91F524FU, MB91F524FY, MB91F524FK MB91F524FW, MB91F524FL, MB91F524FH, MB91F524FJ MB91F525FS, MB91F525FU, MB91F525FY, MB91F525FK MB91F525FW, MB91F525FL, MB91F525FH, MB91F525FJ MB91F526FS, MB91F526FU, MB91F526FY, MB91F526FK MB91F526FW, MB91F526FL, MB91F526FH, MB91F526FJ MB91520J MB91F522JS, MB91F522JU, MB91F522JY, MB91F522JK MB91F522JW, MB91F522JL, MB91F522JH, MB91F522JJ MB91F523JS, MB91F523JU, MB91F523JY, MB91F523JK MB91F523JW, MB91F523JL, MB91F523JH, MB91F523JJ MB91F524JS, MB91F524JU, MB91F524JY, MB91F524JK MB91F524JW, MB91F524JL, MB91F524JH, MB91F524JJ MB91F525JS, MB91F525JU, MB91F525JY, MB91F525JK MB91F525JW, MB91F525JL, MB91F525JH, MB91F525JJ MB91F526JS, MB91F526JU, MB91F526JY, MB91F526JK MB91F526JW, MB91F526JL, MB91F526JH, MB91F526JJ MB91520K MB91F522KS, MB91F522KU, MB91F522KY, MB91F522KK MB91F522KW, MB91F522KL, MB91F522KH, MB91F522KJ MB91F523KS, MB91F523KU, MB91F523KY, MB91F523KK MB91F523KW, MB91F523KL, MB91F523KH, MB91F523KJ MB91F524KS, MB91F524KU, MB91F524KY, MB91F524KK MB91F524KW, MB91F524KL, MB91F524KH, MB91F524KJ MB91F525KS, MB91F525KU, MB91F525KY, MB91F525KK MB91F525KW, MB91F525KL, MB91F525KH, MB91F525KJ MB91F526KS, MB91F526KU, MB91F526KY, MB91F526KK MB91F526KW, MB91F526KL, MB91F526KH, MB91F526KJ MB91520L MB91F522LS, MB91F522LU, MB91F522LY, MB91F522LK MB91F522LW, MB91F522LL, MB91F522LH, MB91F522LJ MB91F523LS, MB91F523LU, MB91F523LY, MB91F523LK MB91F523LW, MB91F523LL, MB91F523LH, MB91F523LJ MB91F524LS, MB91F524LU, MB91F524LY, MB91F524LK MB91F524LW, MB91F524LL, MB91F524LH, MB91F524LJ MB91F525LS, MB91F525LU, MB91F525LY, MB91F525LK MB91F525LW, MB91F525LL, MB91F525LH, MB91F525LJ MB91F526LS, MB91F526LU, MB91F526LY, MB91F526LK MB91F526LW, MB91F526LL, MB91F526LH, MB91F526LJ MB91580M MB91F583MG, MB91F583MH, MB91F583MJ, MB91F583MK MB91F584MG, MB91F584MH, MB91F584MJ, MB91F584MK MB91F585MG, MB91F585MH, MB91F585MJ, MB91F585MK iii Series MB91580S Product Number (not included Package suffix) MB91F583SG, MB91F583SH, MB91F583SJ, MB91F583SK MB91F584SG, MB91F584SH, MB91F584SJ, MB91F584SK MB91F585SG, MB91F585SH, MB91F585SJ, MB91F585SK iv ■ Caution of the product described in this manual The following precautions apply to the product described in this manual. WARNING Indicates a potentially hazardous situation which could result in death or serious injury and/or a fault in the user's system if the product is not used correctly. Electric shock, Damage Before performing any operation described in this manual, turn off all the power supplies to the system. Performing such an operation with the power on may cause an electric shock or device fault. Electric shock, Damage Once the product has been turned on, do not touch any metal part of it. Doing so may cause an electric shock or device fault. CAUTION Cuts, Damage Damage Damage Damage Damage Damage Damage Indicates the presence of a hazard that may cause a minor or moderate injury, damages to this product or devices connected to it, or may cause to loose software resources and other properties such as data, if the device is not used appropriately. Before moving the product, be sure to turn off all the power supplies and unplug the cables. Watch your step when carrying the product. Do not use the product in an unstable location such as a place exposed to strong vibration or a sloping surface. Doing so may cause the product to fall, resulting in an injury or fault. Do not place anything on the product or expose the product to physical shocks. Do not carry the product after the power has been turned on. Doing so may cause a malfunction due to overloading or shock. Since the product contains many electronic components, keep it away from direct sunlight, high temperature, and high humidity to prevent condensation. Do not use or store the product where it is exposed to much dust or a strong magnetic or electric field for an extended period of time. Inappropriate operating or storage environments may cause a fault. Use the product within the ranges given in the specifications. Operation over the specified ranges may cause a fault. To prevent electrostatic breakdown, do not let your finger or other object come into contact with the metal parts of any of the connectors. Before handling the product, touch a metal object (such as a door knob) to discharge any static electricity from your body. When installing the sub board, align the key positions of main board connector and sub board connector, and fix with the screw set before use. When removing, remove all screws of screw set, then remove the sub board vertically from the main board. Otherwise, the product may be damaged, such as corruption of the connector section. Because the product has no casing, it is recommended that it be stored in the original packaging. Transporting the product may cause a damage or fault. Therefore, keep the packaging materials and use them when re-shipping the product. v • The contents of this document are subject to change without notice. Customers are advised to consult with sales representatives before ordering. • The information, such as descriptions of function and application circuit examples, in this document are presented solely for the purpose of reference to show examples of operations and uses of FUJITSU SEMICONDUCTOR semiconductor device; FUJITSU SEMICONDUCTOR does not warrant proper operation of the device with respect to use based on such information. When you develop equipment incorporating the device based on such information, you must assume any responsibility arising out of such use of the information. FUJITSU SEMICONDUCTOR assumes no liability for any damages whatsoever arising out of the use of the information. • Any information in this document, including descriptions of function and schematic diagrams, shall not be construed as license of the use or exercise of any intellectual property right, such as patent right or copyright, or any other right of FUJITSU SEMICONDUCTOR or any third party or does FUJITSU SEMICONDUCTOR warrant non-infringement of any third-party's intellectual property right or other right by using such information. FUJITSU SEMICONDUCTOR assumes no liability for any infringement of the intellectual property rights or other rights of third parties which would result from the use of information contained herein. • The products described in this document are designed, developed and manufactured as contemplated for general use, including without limitation, ordinary industrial use, general office use, personal use, and household use, but are not designed, developed and manufactured as contemplated (1) for use accompanying fatal risks or dangers that, unless extremely high safety is secured, could have a serious effect to the public, and could lead directly to death, personal injury, severe physical damage or other loss (i.e., nuclear reaction control in nuclear facility, aircraft flight control, air traffic control, mass transport control, medical life support system, missile launch control in weapon system), or (2) for use requiring extremely high reliability (i.e., submersible repeater and artificial satellite). Please note that FUJITSU SEMICONDUCTOR will not be liable against you and/or any third party for any claims or damages arising in connection with above-mentioned uses of the products. • Any semiconductor devices have an inherent chance of failure. You must protect against injury, damage or loss from such failures by incorporating safety design measures into your facility and equipment such as redundancy, fire protection, and prevention of over-current levels and other abnormal operating conditions. • Exportation/release of any products described in this document may require necessary procedures in accordance with the regulations of the Foreign Exchange and Foreign Trade Control Law of Japan and/or US export control laws. • The company names and brand names herein are the trademarks or registered trademarks of their respective owners. Copyright ©2012 FUJITSU SEMICONDUCTOR LIMITED All rights reserved vi 1. Overview The Fujitsu Semiconductor MCU Evaluation Board provides the evaluative environment of various Fujitsu Semiconductor MCUs (referred to below as MCU). The whole picture is shown below. Figure 1 Fujitsu Semiconductor MCU Evaluation Board 1 1.1 Functional overview This board can mount various sub-boards. Therefore, it is possible to evaluate various MCUs. There are various sub boards which support Fujitsu Semiconductor MCUs. The location of the main function is shown as follows. AC Jack (12V) Power supply SW LIN bus Power Supply setting FUSE Sub connector Sub connector Pin for external Power supply connection LIN I/F (ch.0/ch.1) CAN I/F (ch.0/ch.1) USB RS I/F (ch.0/ch.1) Volume SW Monitor LED INT SW NMI SW RESET SW Figure 2 Fujitsu Semiconductor MCU Evaluation Board functional overview Note : LIN I/F, CAN I/F, RS I/F: These connectors are the stack structures. Lower is ch.0, upper is ch.1. 2 Table 1 Fujitsu Semiconductor MCU Evaluation Board function list Item Function Specification MCU Mounted with or without socket on Sub board. Xtal Main clock: 4MHz Sub clock: 32.768kHz Remarks Mounted on sub board External power DC12V external power supply supply connector connection AC adaptor jack AC adaptor connection (AC100V to 240V→DC12V) Power supply SW DC12V power supply ON/OFF SW LIN I/F LIN communication port (2ch) D-sub9 male 2 stages CAN I/F CAN communication port (2ch) D-sub9 male 2 stages Fujitsu RS I/F Semiconductor MCU Evaluation Board USB I/F RS232C communication port (2ch) D-sub9 female 2 stages USB communication port USB typeB connector SUB connector SUB board connector Monitor LED Monitor LED Connect to MCU general-purpose port NMIX SW Push SW for NMI input Volume SW Volume SW Connect to MCU ADC input pin INT SW Interrupt SW Connect to MCU INT input pin RESET SW RESET SW LIN bus power Supply select Jumper for LIN bus power supply source select FUSE Max 2A with socket 3 1.2 Block diagram The block diagram of this board is shown below. Power SW AC Jack Regulator Regulator DC12V DC5V DC5V DC3.3V +3.3V +5V LIN Transceiver Push SW NMI RESET INT0 to 3 CAN Transceiver Volume SW Sub Board RS232C Transceiver Monitor LED LED0 to LED7 USB Conv BUS Power Figure 3 Fujitsu Semiconductor MCU Evaluation Board Block Diagram 4 U S B 2. Jumpers settings, Switches, LEDs, and monitors This chapter explains various jumper settings, switches, LEDs function, and monitors. 2.1 Power monitor LEDs After the AC adaptor is connected, the power supply is turned on with the power switch. Green LED lights to the following parts when the power supply is turned on. The power supply turns on when this switch is slid to the left. PWR_ON If the power supply is turned on, these LEDs turn green. +3.3V +5.0V USB5V Figure 4 Power supply monitor LED location Table 2 Power supply monitor LED function Name PWR_ON Function LED2 12V power supply monitor LED (with Power supply SW ON) +3.3V LED1 +3.3V power supply monitor LED +5.0V LED3 +5.0V power supply monitor LED USB5V LED5 USB bus power 5.0V power supply monitor LED 5 2.2 Power supply monitor land The monitor land for each supply voltage check is shown below. +12V +3.3V +5.0V USB5V VCC Figure 5 Power supply monitor land location Table 3 Power supply monitor land function Name +12V Q1 +12V power supply monitor land +3.3V Q3 +3.3V power supply monitor land +5.0V Q5 +5.0V power supply monitor land VCC Q10 VCC power supply monitor land USB5V 6 Function Q7 USB bus power 5.0V power supply monitor land 2.3 Power Supply Jumper The jumper for each power supply is shown below. +12V for SUB board VCC_SEL +3.3V Figure 6 Power supply jumper location Table 4 Power supply jumper function Name Function +12V J48 +12V power supply to SUB board Default open (disable) +3.3V J38 +3.3V regulator control Default close (enable) J5 3-pin jumper for VCC power supply select Refer to the chapter 3.7 VCC power supply select VCC_SEL Remarks 7 2.4 Communication monitor LED This board has LEDs to indicate the status of each communication. LIN ch.0 TX/RX LIN ch.1 TX/RX CAN ch.0 TX/RX USB TX/RX CAN ch.1 TX/RX RS ch.0/1 TX/RX Figure 7 Communication monitor LED location Table 5 Communication monitor LED function Name LIN communication monitor LED LED12: LIN0 RX LED14: LIN0 TX LED17: LIN1 RX LED18: LIN1 TX CAN communication monitor LED LED6: CAN0 TX LED4: CAN0 RX LED10: CAN1 TX LED8: CAN1 RX RS communication monitor LED USB communication monitor LED 8 Function LED20: RS0 RX LED22: RS0 TX LED26: RS1 TX LED24: RS1 RX LED49: TX LED48: RX 2.5 Switch This board has the following switches. Power supply Volume Generalpurpose interrupt NMI RESET Figure 8 Location of various switches Table 6 Various switches' functions Name Function NMI NMI switch SW3 RESET Reset switch SW2 INT0, INT1, INT2, INT3 Volume Power Remarks General-purpose interrupt switch SW4 SW7 SW9 SW11 Volume switch VR1 Variable resistor 10kΩ Power supply switch SW1 9 2.6 Signal connection jumpers These jumpers can control the connection between the MCU pin and the peripheral IO. Volume LED SW RESET NMI Figure 9 Signal connection jumper location Table 7 Signal connection jumper correspondence Jumper No. 10 Corresponding I/O 23 NMI SW 35 RESET SW 22 LED0 24 LED1 26 LED2 27 LED3 31 LED4 32 LED5 33 LED6 34 LED7 21 INT0 SW 25 INT1 SW 28 INT2 SW 30 INT3 SW 29 Volume SW 2.7 VCC power supply select This is the jumper which selects the VCC power supply (3.3V/5.0V) to supply to the MCU. VCC_SEL VCC_SEL 3 2 Starting from the right side, pin1, pin2 and pin3 1 Figure 10 VCC power supply select jumper location Table 8 VCC power supply select jumper (J5) setting Setting VCC power supply select 1-2 VCC=5.0V (default) 2-3 VCC=3.3V 11 2.8 LIN bus power supply select The LIN bus power supply can select internal supply/external supply by jumpers (J11/J14). These jumpers location and settings are shown below. LIN PWR0 LIN PWR1 1 2 3 Starting from the left side, pin1, pin2 and pin3 Figure 11 LIN bus power supply select jumper location Table 9 LIN bus power supply select jumper (J11, J14) setting Setting 12 LIN bus power supply 1-2 LIN bus power supply is supplied from internal power supply (default). 2-3 LIN bus power supply is supplied from external power supply (LIN connector). 2.9 Jack and pins There are AC jack(AC100V DC12V) and external power supply connection pins for power supply on this board. AC Jack External power supply connection pin Figure 12 Jack and pin location Table 10 Jack and pin function Name Function +12V IN P1 +12V supply AC Jack (φ2.1mm) The polarity is center plus, and shown in a right figure is printed in silk on the board. It has the reverse protection circuit. External power supply Remarks External power supply connection pin J1: +12V, J2:GND It is printed in silk on the board. 13 2.10 Communication port Connectors Various communication port connectors are shown below. LIN connector CAN connector USB connector RS232C connector Figure 13 Communication port connectors location Table 11 Communication port connectors function Name LIN connector (CN3) LIN0 : CN3 Lower LIN1 : CN3 Upper CAN connector (CN1) CAN0 : CN1 Lower CAN1 : CN1 Upper RS232C connector (CN2) USB connector (CN5) 14 Function RS0 : CN2 Lower RS1 : CN2 Upper USB : typeB connector 3. Function details A detailed function of this board is described as follows. 3.1 CAN I/F The CAN interface has 2 channels on this board. The channel number actually used depends on the sub board and MCU installed on the board. CAN_PWR (power supply where VCC or 5V was selected) is supplied to the CAN transceiver. The circuit configuration of CAN is shown below. CAN_PWR0 CAN_PWR0 0.1μF Main/sub connector CAN_RX0 CAN_TX0 3 DGND CN7-10pin 4 CN7-9pin 1 2 10kΩ MAX3059 VCC TERM RxD CANH 5 3A 7 7A 6 2A Dsub-9 CANL TxD GND 8 RS DGND DGND 62Ω 62Ω DGND CAN ch.0 4.7nF DGND CAN_PWR1 CAN_PWR1 0.1μF 3 CAN_RX1 DGND CN7-12pin CN7-11pin TERM RxD CANH TxD CANL 4 1 CAN_TX1 10kΩ MAX3059 VCC 2 GND RS 5 3B 7 7B 6 2B 8 DGND DGND Dsub-9 DGND 62Ω CAN_PWR is the power supply selected by jumper (+5.0V or VCC). VCC is the power supply selected by jumper (3.3V or 5.0V). 62Ω CAN ch.1 4.7nF DGND Figure 14 CAN I/F block diagram Table 12 CAN I/F parts list Parts Parts name manufacture remarks CAN transceiver MAX3059ASA+ Maxim RoHS Dsub-9×2 stages CD81V1PPAAC Cvilux male / male 15 Table 13 CAN I/F pin assignment (D-SUB9P[M]) Pin No. Signal Function 1 - - 2 CANL CAN bus signal Low 3 GND Common ground 4 - - 5 - - 6 - - 7 CANH CAN bus signal High 8 - - 9 - - Note: "-" means open. 1 2 3 4 5 CAN ch.1 6 1 7 8 9 2 3 4 5 CAN ch.0 6 7 8 9 Figure 15 CAN I/F connector 16 3.2 LIN I/F The LIN interface has 2 channels on this board. (The channel number actually used depends on the sub board and MCU installed on the board. ) With the LIN_PWR jumper setting, it is possible to select the VBAT supply source as either the internal power supply or the external power supply . The circuit configuration of LIN is shown below. +12V LIN_PWR0 0.1F Main/sub connector LIN_NSLP0 CN7-3pin 2 CN7-2pin 1 LIN_RX0 LIN_TX0 MAX13020 NSLP 9A DGND BAT DGND 3 RxD 0 6 TxD GND 7A LIN 5 INH Dsub-9 lower 3A NWAKE 4 CN7-1pin 7 3k 8 10k CMS04 1k DGND DGND 1000pF LIN ch.0 +12V DGND DGND LIN_PWR1 0.1F CN7-4pin 2 LIN_NSLP1 BAT 1 CN7-6pin LIN_RX1 LIN_TX1 MAX13020 NSLP 9B DGND DGND 3 RxD 0 6 TxD GND 7B LIN 5 INH Dsub-9 upper 3B NWAKE 4 CN7-5pin 7 3k 8 10k CMS04 1k DGND DGND LIN ch.1 1000pF DGND DGND Figure 16 LIN I/F block diagram Table 14 LIN I/F Parts Parts Parts name Manufacture Remarks LIN transceiver MAX13020ASA+ Maxim RoHS Dsub-9×2 stages CD81V1PPAAC Cvilux Male / Male Note : When you use LIN communication, please be sure to enable the LIN transceiver turning the NSLP signal on (=1) for the corresponding LIN channel (LIN_NSLPx=1). 17 Table 15 LIN I/F pin assignment (D-SUB9P[M]) Pin No. Signal Function 1 - - 2 - - 3 GND Common ground 4 - - 5 - - 6 - - 7 LIN LIN bus I/O 8 - - 9 VCC VBAT power supply Note: "-" means open. 1 2 3 4 5 LIN ch.1 6 1 7 8 9 2 3 4 5 LIN ch.0 6 7 8 9 Figure 17 LIN I/F connector 18 3.3 RS232C I/F The RS232C interface has 2 channels on this board. The channel number actually used depends on the sub board and MCU installed on the board. VCC (power supply where 3.3V or 5V was selected) is supplied to the RS232C transceiver. The circuit configuration of RS232C interface is shown below. RS ch.0 9A Dsub-9 lower 8A VCC MAX3232 Main/Sub connector 1 7A 16 6A VCC C1+ 5A 0.1F 3 2 4A V+ C1- DGND RS_RX0 CN7-16pin 12 CN7-15pin 11 RS_TX0 RS_RX1 R1_OUT R1_IN CN7-18pin 9 CN7-17pin 10 RS_TX1 T1_OUT 1A 8 R2_OUT R2_IN 7 T2_IN 6 2A 14 T1_IN 3A 13 T2_OUT 9B 4 V- C2+ 8B 0.1F 0.1F 7B 5 15 GND Dsub-9 upper C26B DGND DGND DGND 5B 4B DGND 3B 2B 1B RS ch.1 Figure 18 RS232C I/F block diagram Table 16 RS232C I/F Parts Parts Parts name Manufacture Remarks RS232C Transceiver MAX3232CUE+ Maxim RoHS Dsub9×2 stages CD81V1SSAAC Cvilux Dsub9 Female / Female 19 Table 17 RS I/F pin assignment (D-SUB9P[F]) Pin No. Signal Function 1 - - 2 TXD Transmission data (boardPC) 3 RXD Reception data (PCboard) 4 DTR DTR connected to DSR (pin6) 5 GND Common Ground 6 DSR DSR connected to DTR (pin4) 7 RTS RTS connected to CTS (pin8) 8 CTS CTS connected to RTS (pin7) 9 - - Note: "-" means open. 5 4 3 2 1 RS ch.1 9 5 8 7 6 4 3 2 1 RS ch.0 9 8 7 6 Figure 19 RS I/F connector 20 3.4 USB This board has the USB interface. It is connected to UART0 of MCU, which is by selection with jumper on the sub-board. The connector uses type B receptacle. USB5V VCC5V0 USB 0.1F Main/sub connector 10k +5V0 +5V0 VCC USB typeB FT 232RL CN7-1pin 1 USB_TX0 CN7-2pin 5 USB_RX0 3 TXD RXD RTS# 11 CTS# Reset IC 2 6 220 23 22 220 LED 13 TX 14 12 27 28 USBDP VCCIO RESET# DSR# 3V3OUT DCD# TEST 10 RX USBDM DTR# 9 VCC VCC RI# AGND 1 20 Vbus 16 2 Choke coil 15 3 4 4 4.7k 19 DM DP GND 5 FG fil 17 6 FG 26 7 FG DGND 25 8 FG 7 CBUS0 GND CBUS1 GND CBUS2 CBUS3 18 fil 10k 21 0.1F GND DGND CBUS4 DGND DGND DGND OSCI OSCO Figure 20 USB block diagram Table 18 USB Parts Parts Parts name Manufacture USB converter FT232RL FTDI USB type B connector UBB-4R-D14T-4D JST 21 Table 19 USB pin assignment (USB receptacle typeB) Pin No. Signal Function 1 Vbus Bus power supply (+5V) 2 DM USB data (+) 3 DP USB data (-) 4 GND Common ground 5 FG Frame ground 6 FG Frame ground 7 FG Frame ground 8 FG Frame ground Figure 21 USB connector 22 3.5 RESET The power-on reset signal is generated by the voltage monitor using reset IC and connected to the reset input pin for the MCU. Push switch "RESET SW" is connected with reset IC, and it is possible to use the manual reset with this switch. Reset IC observes +3.3V power supply and +5.0V power supply, and when +3.3V power supply falls below +3.052 to +3.143V (+3.118V Typ) or +5.0V power supply falls below +4.687 to +4.750V (+4.725V Typ), the reset signal is output. The circuit configuration of RESET is shown below. VCC VCC5V0 VCC5V0 100pF LTC1726 RESET 1 2.7k 2 3 4 DGND Vcc3 RT Vcc5 WT 8 7 VccA RST 6 GND WDT 5 10k RSTX 1k DGND 0.1F DGND DGND VCC is the power supply selected by jumper (3.3V or 5.0V). Figure 22 RESET block diagram Table 20 Reset parts Parts Parts name Manufacture Remarks Reset IC LTC1726ES8-5#PBF Linear technology 3.3V, 5.0V Power-on reset IC Push SW SMTE3-01 fujisoku Tactile pushbutton switch Surface mount type 23 3.6 Power Supply This board is operated by supplying either of AC adaptor (12V), external power supply (12V) or USB bus power (5V) power supply. The power supply (VCC) to MCU can select 3.3V or 5V. The power supply block circuit configuration is shown below. CMS04 +12V IN DC12V IN LT1086CM CMS04 LT1086CM Fuse 2A Regulator 12V=>5.0V SW Regulator 5V=>3.3V +3V3 LED LED External Power supply (12V) CMS04 USB bus power USB 5.0V +5V0 LED Figure 23 Power block diagram Table 21 List of power supply block parts Parts 24 Parts name Manufacture Remarks Regulator LT1086CM Linear technology Diode CMS04 Toshiba LED PG1111C Stanley green Surface mounted type Fuse 154 002 Littelfuse Max 2A With socket mounted Power supply sw 25136NAH Apem Slide switch 3.7 Sub board connector The connector connected with a sub-board is shown below. It has 2 connectors. 26 pins (13pins×2rows) 2.54mm pitch Table 22 Pin assignment for sub board connector (CN6) Pin No. Signal Pin No. Signal 1 USB_TX0 2 USB_RX0 3 GND 4 Reserved (Q22) 5 LED6 6 LED7 7 LED4 8 LED5 9 LED2 10 LED3 11 LED0 12 LED1 13 INT_SW2 14 INT_SW3 15 INT_SW0 16 INT_SW1 17 +12V 18 Volume_SW 19 GND 20 GND 21 DVCC 22 +5V0 23 VCC 24 +3V3 25 VCC 26 VCC Table 23 Pin assignment for sub board connector (CN7) Pin No. Signal Pin No. Signal 1 LIN_TX0 2 LIN_RX0 3 LIN_NSLP0 4 LIN_NSLP1 5 LIN_TX1 6 LIN_RX1 7 GND 8 GND 9 CAN_TX0 10 CAN_RX0 11 CAN_TX1 12 CAN_RX1 13 GND 14 GND 15 RS_TX0 16 RS_RX0 17 RS_TX1 18 RS_RX1 19 GND 20 GND 21 NMI_SW 22 RESETX 23 GND 24 GND 25 AVCC 26 AVCC 25 C +12V Q Q1 Q Q2 2 +12V0 +12V0 DGND U1 LT1086CM VIN VOUT +12V->+5V 3 PAD 2 4 +5V3 DGND DGND 2 1 D4 1 C C CMS04 D2 CMS04 A A 154 002 Max.2A F1 F2 F-6 Non-Mount (E) 1 2 5 D9 CMS04 +5V0 DGND 1 2 L2 BLM21PG600SN1 +5V1 1 (E) 2 SMTE3-01 RESET SW2 4 3 6 6 6 DGND USB_TX0 2 WL-1-2P USB_RX0 J39 1 Default=J39(1pin-2pin) open (+5V or +3.3V) 2 +5V2 2 VCC (+5V or +3.3V) VCC R72 1005 0 1 1 J38 WL-1-2P 2 Default=J38(1pin-2pin) short 1 +5V0 DGND Area-Passcon DGND DGND DGND DGND U3 Vcc3 Vcc5 VccA GND VIN U2 LT1086CM DGND RT WT XRST WDI 7 6 5 1 1 DGND PAD VOUT +5V->+3.3V 3 (Vref=1.25V, Iadj=50uA) 1 2 3 4 LTC1726ES8-5#PBF 8 Vout=Vref(1+r2/r1)+Iadj*R2 [LT1086] DGND C8 1005 0.1F (+5V or +3.3V) DGND VCC DGND 2 4 DGND DGND 2 2 DGND DGND DGND VCC +3.3V +5.0V 2 WL-1-2P Q Q3 DGND LED1 +3V3 +5V0 +3.3V PG1111C 6 +5.0V PG1111C LED3 Q Q6 GND Q Q4 GND DGND +3V3 Q Q5 DGND DGND RESETX Default=J35(1pin-2pin) short J35 1 R6 1005 10k Non-Mount DGND C10 3225 10F (+5V or +3.3V) C19 1005 100pF C20 1005 100pF Q Q14 (Open drain output) Q Q13 DGND Q Q12 GND Q Q11 DGND 1 L1 BLM21PG600SN1 1 DGND 2 2 1 2 R73 2 1005 0 R94 1005 220 R95 1005 220 R5 1005 2.7k GND DGND +12V1 DGND DGND Non-Mount TR22 DTA144EE R91 1005 220 1 LED46 PG1111C 1 C41 3225 10F 2 R17 1005 120 1% Power,Reset,USB IF 1 2 2 DGND [LT1086] Vout=Vref(1+r2/r1)+Iadj*R2 +5V0 2 1 1 LED48 PG1111C 1 Rx 1 2 D1 CMS04 A DGND PWR_ON (Vref=1.25V, Iadj=50uA) USB5V0 +5V0 TR21 DTA144EE 2 Tx DGND 1 5 2 LED49 PG1111C Tx C 1 D3 CMS04 DGND +12V DGND 2 L4 BLM21PG600SN1 1 Rx DGND TXD RXD 3 11 2 9 10 6 2 C5 3225 22F 1 +12V2 J1 T-15 GND USB5V (+5V or +3.3V) VCC VCCIO DGND VCC U9 FT232RL RTS# CTS# VCCIO DTR# DSR# USBDM USBDP RESET# DCD# RI# 23 22 13 14 12 27 28 8 24 RB050L-40 -> CMS04 - D1,D2,D3,D4,D9 (Rev1.1) C16 3225 10F 2 3 1 J2 T-15 Q Q8 GND DGND LED5 +5V0 VCC_Pass-con DGND 20 16 15 3V3OUT NC1 NC2 OSCI OSCO CBUS0 CBUS1 CBUS2 CBUS3 CBUS4 TEST AGND GND GND GND 1 2 SW1 25136NAH +12V_IN 1 Q Q7 USB5V C PG1111C C34 3225 22F L5 DLW21SN900SQ2 3 2 4 19 17 26 25 7 18 21 1 2 ADJ 1 OFF ON P1 MJ-179P +12V IN 1 2 DGND USB5V DGND C39 1005 10nF 1 4 C3 3225 10F DGND R2 1005 220 R4 1005 470 1 2 1 2 C18 3225 10F 2 1 2 1 2 1 2 C9 3225 22F 1 2 1 2 C17 3225 10F 1 2 ADJ 1 C15 3225 10F R20 1005 200 1% 1 2 1 2 1 2 1 2 1 2 1 2 1 1 2 1 2 1 2 1 2 C14 3225 22F C7 3225 10F C12 3225 22F 1 2 C13 3225 22F C6 3225 22F 1 2 2 1005 0.1F C22 1005 0.1F C21 1 2 1 2 3 (-) 1 2 3 4 DGND DGND 1 2 2 1 DGND DGND 1005 10k R46 1 2 1 2 R11 1005 120 1% R14 1005 390 1% 1 2 1 3 1 2 1 2 1 3 C4 1005 0.1F R92 1005 220 LED45 PG1111C C2 3225 22F 1 1 2 1 2 (+) USB FG Vbus FG DM FG DP FG GND CN5 UBB-4R-D14T-4D Center plus 5 6 7 8 1 2 1 2 DGND 1 2 1 2 1 2 2 1 1 2 1 2 C40 3225 22F C38 1608 4.7F 1 R1 1005 1k 1 2 C37 1005 100nF SZ96 EZAEG3A50AV R25 1005 470 LED2 PG1111C SZ95 EZAEG3A50AV C11 3225 22F 360 -> 390 - R14 26 L3 BLM21PG600SN1 DGND Non-Mount 2 1 2 A 1 2 1 2 2 2 1 R76 1005 4.7k R77 1005 10k 1 2 C36 1005 0.1F 1005 100nF C35 L6 BLM21PG600SN1 1 2 R7 1005 1k A 4. Circuit diagram Figure 24 Power,Reset,USB IF Figure 25 RS232C(2ch) IF 6 RS_RX0 Rx Rx TR9 DTA144EE TR11 DTA144EE 2 2 Tx +5V0 2 2 +5V0 DGND Tx DGND TR10 DTA144EE 1 R42 1005 220 LED22 PG1111C TR12 DTA144EE 2 2 1 2 1 2 R47 1005 220 1 LED26 PG1111C DGND 1 3 6 12 9 11 10 15 U8 C1+ V+ VCC C2- C2+ R1_IN R2_IN T1_OUT T2_OUT C1R1_OUT R2_OUT T1_IN T2_IN V- GND MAX3232CUE+ 16 2 13 8 14 7 4 5 C31 1005 0.1F DGND C32 1005 0.1F (+5V or +3.3V) VCC DGND C33 1005 0.1F 1 +5V0 DGND +5V0 DGND 1 2 RS_TX0 RS_TX1 RS_RX1 1 2 1 2 C29 1005 0.1F C30 1005 0.1F 1 2 1 2 6 6 6 1 3 3 1 3 1 3 1 2 1 2 R40 1005 220 LED20 PG1111C R45 1005 220 LED24 PG1111C 1 2 1 2 DGND DGND 5A 9A 4A 8A 3A 7A 2A 6A 1A 5B 9B 4B 8B 3B 7B 2B 6B 1B CN2-1 CD81V1SSAAC RS0 RS1 CN2-2 CD81V1SSAAC RS232C(2ch) IF 27 Figure 26 CAN(2ch) IF Rx Rx CAN_RX0 CAN_RX1 Tx +5V0 2 +5V0 DGND Tx 2 DGND 1 2 2 TR2 DTA144EE R13 1005 220 1 LED6 PG1111C 2 2 TR4 DTA144EE R19 1005 220 1 LED10 PG1111C 1 DGND DGND 1 J6 3 WL-1-3P CAN_PWR0 2 DGND 2 1 4 3 CAN_Drv_VCC=+5.0V CAN_Drv_VCC=+3.3V [Jumper Setting] +5V0 1 C23 1005 0.1F 1 2 J9 3 WL-1-3P CAN_PWR1 CAN_Drv_VCC=+5.0V CAN_Drv_VCC=+3.3V [Jumper Setting] +5V0 1 C25 1005 0.1F 3 4 1 2 VCC 1pin-2pin short 2pin-3pin short RxD VCC CANL CANH TERM 8 6 7 5 (+5V or +3.3V) TxD RS CAN_PWR0 U4 GND 1pin-2pin short 2pin-3pin short VCC CANH TERM 8 6 7 5 (+5V or +3.3V) RxD CANL 1 1 CAN_PWR0 DGND 2 DGND J36 WL-1-2P CAN_PWR1 Default=J36(1pin-2pin) short. MAX3059ASA+ VCC TxD RS CAN_PWR1 GND DGND 2 DGND J37 WL-1-2P Default=J37(1pin-2pin) short. MAX3059ASA+ U5 1 TR1 DTA144EE 2 TR3 DTA144EE 2 1 +5V0 6 CAN_TX0 DGND 6 +5V0 6 CAN_TX1 DGND 6 DGND DGND DGND 1 2 C24 1005 4.7nF 1 2 C26 1005 4.7nF 1 J3 WL-1-2P R12 1005 62 2 2 R15 1005 62 J4 WL-1-2P 1 2 2 1 J7 WL-1-2P R22 1005 62 R23 1005 62 J10 WL-1-2P 1 DGND DGND 5A 9A 4A 8A 3A 7A 2A 6A 1A 5B 9B 4B 8B 3B 7B 2B 6B 1B CN1-1 CD81V1PPAAC CN1-2 CD81V1PPAAC CAN(2ch) IF CAN0 CAN1 28 1 2 1 2 1 2 1 2 Non-Mount Non-Mount R8 1005 10k R9 1005 10k 2 1 2 1 2 1 2 R18 1005 10k R21 1005 10k 2 2 1 3 3 1 3 1 3 1 2 1 2 R10 1005 220 LED4 PG1111C R16 1005 220 LED8 PG1111C 1 2 1 2 +5V0 2 TR6 DTA144EE R26 1005 220 1 LED14 PG1111C TR8 DTA144EE R34 1005 220 1 LED18 PG1111C 2 2 1 2 2 1 VCC (+5V or +3.3V) DGND (+5V or +3.3V) VCC 5 4 1 2 C1- C1+ U10 C2- Vout C2+ Vcc 7 6 1 2 ChargePump(+5V->+12V) 3 4 5 8 XSHDN GND MAX662ACSA+ DGND R27 1005 0 1 2 1 +12V_CP C42 3216 0.22F 1 C45 3225 10F 1 2 2 R96 1005 1k 1 2 2 WL-1-2P D6 CMS04 J43 1 J45 WL-1-2P 1 2 1 WL-1-2P D5 CMS04 J42 2 J44 WL-1-2P 1 C LIN_INH0 Q Q19 D7 CMS04 A 2 1pin-2pin short 2pin-3pin short VBAT=+12V/30mA(Max) Board Supply Line Supply [Jumper Setting] 1 1 DGND R35 1005 0 2 1pin-2pin short 2pin-3pin short 2 7 6 3 8 DGND Board Supply Line Supply [Jumper Setting] 7 3 1 C 1 2 +12V_CP +12V0 DGND 5B 9B 4B 8B 3B 7B 2B 6B 1B 5A 9A 4A 8A 3A 7A 2A 6A 1A J12 WL-1-3P CN3-2 +12V_LIN LIN_VBAT Default=J12(1pin-2pin) short LIN0 CD81V1PPAAC LIN1 CD81V1PPAAC CN3-1 2 LIN_VBAT(+12V) POWER SUPPLY SELECT LIN_PWR0 Default=J11(1pin-2pin) short J11 WL-1-3P +12V_LIN DGND 2 2 LIN_PWR1 Default=J14(1pin-2pin) short 2 DGND Master LIN Node=J46(1pin-2pin) short J46 WL-1-2P 1 J14 WL-1-3P +12V_LIN DGND 2 DGND 2 J47 WL-1-2P LIN(2ch) IF Master LIN Node=J47(1pin-2pin) short (Rev1.1) - D5,D6,D7,D8 RB050L-40 -> CMS04 1 3 C43 3216 0.22F BAT 6 8 A R97 1005 1k 1 2 +5V0 BAT C44 3225 10F NSLP LIN NWAKE DGND TxD INH RxD GND NSLP LIN NWAKE MAX13020ASA+ U6 Non-Mount DGND U7 TxD RxD C 2 Tx DGND +5V0 2 2 1 4 5 INH D8 CMS04 1 +5V0 TR5 DTA144EE 6 6 2 Tx DGND R30 2 1 1 GND 1 LIN_INH1 Q Q20 A Rx DGND +5V0 TR7 DTA144EE 6 1005 10k 2 MAX13020ASA+ 1 DGND C LIN_NSLP0 LIN_TX0 Rx DGND 6 R29 1005 2.2k 2 1 R38 2 DGND R31 1005 3k R33 1005 3k 3 1 3 1 2 1 2 2 1 2 C27 1005 0.1F C28 1005 0.1F LIN_RX0 LIN_NSLP1 LIN_TX1 LIN_RX1 DGND Non-Mount Non-Mount 1005 10k 1 R37 1005 2.2k 2 1 1005 10k 1 1005 10k 1 R28 2 1005 10k 1 R36 2 2 1 2 Non-Mount Non-Mount C46 1005 1nF C47 1005 1nF 1 2 1 2 1 3 3 1 3 1 3 1 2 1 2 R24 1005 220 LED12 PG1111C R32 1005 220 LED17 PG1111C 1 2 1 2 R39 1005 10k R41 A Figure 27 LIN(2ch) IF 29 Figure 28 LED, SW, Main/Sub_CN IF J22 WL-1-2P 1 2 2 Default short J26 WL-1-2P 1 LED0 2 LED2 2 DGND R49 1005 220 LED28 PG1111C 2 R56 1005 220 TR13 DTC144EE 2 LED32 PG1111C TR15 DTC144EE 1 1 LED1 LED3 J24 WL-1-2P 1 2 2 Default short 1 J27 WL-1-2P Default short LED1 2 LED3 2 LED5 2 DGND DGND R51 1005 220 LED29 PG1111C 2 TR14 DTC144EE R58 1005 220 LED33 PG1111C 2 R65 1005 220 TR16 DTC144EE 2 LED37 PG1111C TR18 DTC144EE 1 1 1 +5V0 +5V0 +5V0 +5V0 DGND DGND DGND 4 4 5 5 5 RS_TX0 RS_TX1 CAN_TX0 CAN_TX1 LIN_TX0 LIN_NSLP0 LIN_TX1 DGND 3 3 (E) 1 2 5 SMTE3-01 INT0 (E) SW4 4 3 6 (E) 1 2 5 SMTE3-01 INT1 (E) SW7 4 3 6 (E) 1 2 5 SMTE3-01 INT2 (E) SW9 4 3 6 (E) 1 2 5 SMTE3-01 INT3 (E) SW11 4 3 6 NMI_SW 1 DGND DGND DGND DGND VCC (+5V or +3.3V) WL-1-2P 2 2 WL-1-2P (+5V or +3.3V) Default short 1 J21 R53 1005 10k C56 1005 0.1F VCC R55 1005 10k J25 1 Default short (+5V or +3.3V) 2 WL-1-2P Default short 1 J28 R61 1005 10k C57 1005 0.1F VCC VCC C58 1005 0.1F 2 WL-1-2P (+5V or +3.3V) 2 4 6 8 10 12 14 16 18 20 22 24 26 AVCC Default short 1 J30 R67 1005 10k C59 1005 0.1F 1 3 5 7 9 11 13 15 17 19 21 23 25 DGND CN7 HIF3FC-26PA-2.54DSA(71) DGND INT_SW0 INT_SW1 INT_SW2 INT_SW3 LIN_RX0 5 5 2 L7 BLM21PG600SN1 (CN7 side mount) 1 LIN_NSLP1 LIN_RX1 RS_RX0 RS_RX1 2 3 3 CAN_RX0 CAN_RX1 RESETX 4 4 VCC DGND VCC 5 1 2 5 SMTE3-01 (E) NMI (E) SW3 4 3 6 Volume 1 VCC 3 2 WL-1-2P 2 WL-1-2P GND J15 WL-1-4P +3V3 +3V3 25 23 21 19 17 15 13 11 9 7 5 3 1 NMI_SW Volume_SW DGND 1pin-2pin short 2pin-3pin short 2 Default open J48 WL-1-2P +12V0 USB_TX0 INT_SW0 INT_SW2 LED0 LED2 LED4 LED6 +12V0_CN VCC=+5.0V VCC=+3.3V [Jumper Setting] VCC Default short 1 J29 (+5V or +3.3V) Default short 1 J23 (+5V or +3.3V) R54 1005 10k 2 C60 1005 0.1F J8 WL-1-3P 3 WL-1-3P 26 24 22 20 18 16 14 12 10 8 6 4 2 DGND CN6 HIF3FC-26PA-2.54DSA(71) J5 VCC_SEL 1 VCC DGND DGND WL-1-4P J13 VCC VR1 RK09K1130A8G VCC +5V0 +5V0 Non-Mount GND Q Q9 +3V3 DGND - CN6-2pin, USB_TX0 -> USB_RX0 - CN6-1pin, USB_RX0 -> USB_TX0 (Rev1.1) LED, SW, Main/Sub_CN IF USB_RX0 Volume_SW INT_SW1 INT_SW3 LED1 LED3 LED5 LED7 +5V0 DGND Q Q10 Q Q22 2 1 +5V0 +5V0 +5V0 2 1 Area-Passcon VCC 4 3 2 1 LED0 LED2 Default short DGND R63 1005 220 1 J32 WL-1-2P 1 Default short DGND R70 1005 220 LED41 PG1111C 2 TR20 DTC144EE DGND 4 3 2 1 1 2 2 1 3 2 2 LED36 PG1111C 2 LED5 LED7 2 DGND 1 2 LED4 TR17 DTC144EE 2 DGND C54 3225 10F +5V0 J34 WL-1-2P 1 Default short DGND C53 3225 10F J31 WL-1-2P 2 DGND R68 1005 220 1 LED7 DGND C48 3225 10F LED40 PG1111C 2 TR19 DTC144EE DGND C52 3225 22F 2 LED6 2 DGND C50 3225 10F 1 2 1 2 1 2 1 2 1 2 1 2 2 1 2 C51 3225 22F 1 2 DGND C55 3225 22F Default short J33 WL-1-2P 1 Default short DGND 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 LED4 LED6 DGND 30 C49 3225 22F 1 2 1 2 1 2 1 2 3 1 3 1 3 1 3 1 1 2 1 2 1 2 1 2 3 1 3 1 3 1 3 1 5. Recycling Valid for European Union Countries: According to the European WEEE-Directive and its implementation into national laws we take this device back. For disposal please send the device to the following address: Fujitsu Semiconductor Europe GmbH Warehouse / Disposal Monzastraße 4a 63225 Langen Gültig für EU-Länder: Gemäß der Europäischen WEEE-Richtlinie und deren Umsetzung in landesspezifische Gesetze nehmen wir dieses Gerät wieder zurück. Zur Entsorgung schicken Sie das Gerät bitte an die folgende Adresse: Fujitsu Semiconductor Europe GmbH Warehouse / Disposal Monzastraße 4a 63225 Langen 31 6. China-RoHS regulation Compliance with Administration on the Control of Pollution Caused by Electronic Information Products of the People’s Republic of China 这标记是按照2006年2月28日公布的[电子信息产品污染控制管理办法]以及SJ/T11364-2006[电子信 息产品污染控制标识要求]在中国销售的电子信息产品的环保使用期限。如遵守关于这产品的安全或 使用上的注意,在这期限内(从生产日期起算)不会因产品中的有害物质漏到外部、或发生突然变异, 而引起环境污染和对人体或财产的重大影响。 产品中有毒有害物质或元素的名称及含量 有毒有害物质或元素 部件名称 铅 汞 镉 六价铬 多溴联苯 多溴二苯醚 (Pb) (Hg) (Cd) (Cr(VI)) (PBB) (PBDE) 印刷线路板 × ○ ○ ○ ○ ○ 电源 ○ ○ ○ ○ ○ ○ ○:表示该有毒有害物质在该部件所有均质材料中的含量均在SJ/T 11363-2006规定的限量要求以下。 ×:表示该有毒有害物质至少在该部件的某一均质材料中的含量超出SJ/T 11363-2006规定的限量要求。 32 SS705-00001-1v0-E FUJITSU SEMICONDUCTOR • SUPPORT SYSTEM F2MC/FR Family MICROCONTROLLER MCU Evaluation Board MB2198-760-E OPERATION MANUAL May 2012 the first edition Published FUJITSU SEMICONDUCTOR LIMITED Edited Sales Promotion Department