F-ZTAT microcomputer On-Board Programming Adapter
Contents
1. board power cable Adapter board power supply 1 1000 mm 2 HITACHI Section 3 Connectors Switches and LEDs 31 Connectors This adapter board has connectors P1 P2 and P3 3 1 1 User Interface Connector P1 A WARNING Observe the precautions listed below Failure to do so will result in a FIRE HAZARD and will damage the user system and the adapter board or will result in PERSONAL INJURY 1 Always switch OFF the adapter board and the user system before connecting or disconnecting ANY CABLES or PARTS Before connecting always make sure that pin 1 on both sides are correctly aligned When disconnecting cables take care not to put excessive stress on the cables The signals required for writing to flash memory are shown in figures 3 1 and 3 2 Connect the adapter board and the user system using the user system interface cable provided with an 20 pole connector on each end and a user system interface cable connector used for connecting the cable to the user system The user system interface cable provided straight matches the pins in the adapter board to those in the user system as shown in figure 3 2 3428 6002LCSC manufactured by Sumitomo 3M Ltd is used as a user system interface cable connector HITACHI Serial interface Lserinientaos connector Pe connector iP 1 User m 1 RES 3 PRE PA F MDO 7 MD1 q EMO 11 61 12 02 User 15 RxD TED 17 TXD RxD 12 IN tutes a 201 WIN Proc 2 4 6 22. e Power is supplied from the user system power supply via the user system interface cable and connector VIN pin e Asa countermeasure against insufficient current supply by the above method power is supplied through the power supply connector P3 In this case the user must prepare a separate power supply Vec 5 V 5 is supplied to the power supply connector P3 of the adapter board This switch works as the power supply switch on and off of the adapter board only when power is supplied from the power supply connector P3 of the adapter board Refer to figure 3 3 In this case power also needs to be supplied through the VIN pin of the user system interface cable When power is supplied to the adapter board only from the user system power supply this power supply switch does not work In this case the power supply switch on the user system is used as the power supply switch for the adapter board zu un Figure 3 3 Power Supply Switch POWER HITACHI 3 2 3 Jumper Terminals for Power Supply Switch JP1 The jumper terminals are inside the chassis Open the upper panel by removing the screw in each corner attaching the upper and lower panels After jumper setting close the chassis by re fixing the screws The following two methods are available for supplying power to the adapter board appropriate jumper setting is required for these jumper terminals e To supply power from the user system via the user system interf
3. 00 S4 4 Enabled Disabled 101 S4 5 Enabled Disabled 102 S4 6 Enabled Disabled 3 2 6 Low 0 High 1 Switches S3 Level 0 or 1 can be selected by enabling the enable disable switch S4 see table 3 2 Select 0 or 1 for the control signals according to the F ZTAT microcomputer you are using to program the F ZTAT microcomputer These switches are inside the case Open the upper panel by removing the screw in each corner between the upper and lower panels After switch setting reclose the case and refasten the screws Table 3 3 Low 0 High 1 Switches S3 Signal 1 FWE S3 1 MDO S3 2 MD1 S3 3 IO0 S3 4 IO1 S3 5 IO2 S3 6 O 0 0 0 0 0 0 4 11 HITACHI 3 2 7 Vec and PVcc Switches S5 and S6 Select Vcc or PVcc level for the control signals according to the F ZTAT microcomputer you are using to program the F ZTAT microcomputer The Vcc or PVcc level can be selected by the switch settings of S5 and S6 see table 3 4 The switches are inside the case Open the upper panel by removing the screw in each corner between the upper and lower panels After switch setting reclose the case and refasten the screws Table 3 4 Vec and PVcc Switches S5 and S6 Signal P V FWE S5 1 PVcc Vcc MD0 S5 2 PVcc Vcc MD1 S5 3 PVcc Vcc IO0 S5 4 PVcc Vcc IO1 S6 1 PVcc Vcc IO2 S6 2 PVcc Vcc 12 HITACHI 3 2 8 S3 S4 S5 and S6 Setting Examples Table 3 5 shows examples of S3 to S6 switch settings for on bo
4. 10 412 14 16 GHD 1 Color of provided cable Figure 3 1 Connector Pin Location HITACHI Connector SAZEGODELCS Sumitomo SM Ltd Figure 3 2 User System Interface Cable HITACHI Table 3 1 Correspondence between Signals and Numbers Indicated on the User System Interface Cable Number on Cable Signal 1 RES 2 GND 3 FWE FWP 4 GND 5 MDO 6 GND 7 MD1 8 GND 9 IO0 10 GND 11 101 12 GND 13 102 14 GND 15 RXD TXD for the user system 16 GND 17 TXD RXD for the user system 18 VIN Vcc 19 NC 20 VIN PVec If the device has Vcc and PVcc provide Vcc pin 18 and PVcc pin 20 to the VIN pin of the P1 connector If the condition is Vcc PVcc and the device that does not have both Vcc and PVcc is used provide Vcc pin 18 or PVcc pin 20 to the two VIN pins of the Pl connector When the target microcomputer requires port control during on board programming connect necessary port signals For details refer to table 3 5 in section 3 2 8 S3 S4 S5 and S6 Setting Examples HITACHI 3 1 2 Serial Interface Connector P2 Connect the adapter board and host computer using the serial interface cable provided 3 1 3 Adapter Board Power Supply Connector P3 Supply power to the adapter board from the user system power supply Vcc 2 7 V to 5 25 V PVcc 2 7 V t05 25 V via the VIN pin of the user system interface cable If the device does not use the PVcc provide Vcc to the two VIN pins If the current supply capab
5. ARTISTOP switch is pressed Eh is pressed The START LED ison 27 vito 25 WIR ics Owtowec 2 2 Y 005254 Figure 5 1 Reset Signal 2 7 to 5 25 V Application and Stop Timing 15 HITACHI
6. For revision A 47 kQ or more is recommended 3 After program transfer press the transfer switch START STOP and confirm that the START LED red is turned off If the user system power supply VIN Vcc 2 7 V to 5 25 V PVcc 2 7 V to 5 25 V is turned off while the START LED is on the user system will be damaged 4 The host computer DOS V compatible machines with built in Pentium can be connected to the adapter board 5 Ifthe device has Vcc and PVcc provide Vcc pin 18 and PVcc pin 20 to the VIN pin of the Pl connector If the condition is Vcc PVcc and the device that does not have both Vcc and PVcc is used provide Vcc pin 18 or PVcc pin 20 to the two VIN pins of the Pl connector Control sigreals dr controler Figure 4 1 Control Signal Circuit Example 14 HITACHI Section 5 Specifications 5 1 Input Voltage and Consumption Current e Power supply input VIN from the user interface connector Vcc 2 7 V to 5 25 V PVcc 2 7 V to 5 25 V e Power supply input Vcc from the P3 connector of the adapter board 5 V 5 e Consumption current 200 mA at 5 V or 330 mA at 3 V 5 2 Write Processing 1 When the transfer switch is pressed the RES signal is held to the low level for 500 ms 2 After 10 ms of the falling edge of the RES signal 2 7 to 5 25 V application to the FWE FWP pin starts or stops figure 5 1 The Users em power suppe or POWER Match is med on POWER LED is Umed on The STARTSTOP The ST
7. H connected between a host computer and the user system can write and erase user application programs on the flash memory incorporated in the E ZTAT microcomputer on the user system on board when it is used with the on board programming tool HS6400FWIWISF Therefore the burden on the peripheral circuit required during on board programming can be reduced A system configuration using the adapter board is shown in figure 1 1 This board can only be used for the F ZTAT microcomputers that incorporate a flash memory and use Vec 2 7 V to 5 25 V and PVcc 2 7 V to 5 25 V Note F ZTAT Flexible Zero Turn Around Time is a registered trademark of Hitachi Ltd Figure 1 1 System Configuration Using Adapter Board HITACHI Section 2 Configuration The configuration and components of the adapter board are shown in figure 2 1 and table 2 1 respectively Se al meros connector Power supply saith Adapter board power supply connector a Q Ln q Circuit protector breaker tor protection HITACHI Four soe tor fing the upper and lower panels Unit mm Figure 2 1 Adapter Board Table 2 1 Components Item Name Description Quantity Adapter board Main unit 1 Serial interface cable Connection between main unit and host computer 1 2000 mm User system interface cable Connection between main unit and user system 1 300 mm User system interface cable Connection between main unit and user system 1 connector Adapter
8. To all our customers Regarding the change of names mentioned in the document such as Hitachi Electric and Hitachi XX to Renesas Technology Corp The semiconductor operations of Mitsubishi Electric and Hitachi were transferred to Renesas Technology Corporation on April 1st 2003 These operations include microcomputer logic analog and discrete devices and memory chips other than DRAMs flash memory SRAMs etc Accordingly although Hitachi Hitachi Ltd Hitachi Semiconductors and other Hitachi brand names are mentioned in the document these names have in fact all been changed to Renesas Technology Corp Thank you for your understanding Except for our corporate trademark logo and corporate statement no changes whatsoever have been made to the contents of the document and these changes do not constitute any alteration to the contents of the document itself Renesas Technology Home Page http www renesas com Renesas Technology Corp Customer Support Dept April 1 2003 ENESAS Renesas Technology Corp F ZTAT Microcomputer On Board Programming Adapter Board HSOOO8EASF4H User s Manual HITACHI HS0008EASF4HE D Cautions Hitachi neither warrants nor grants licenses of any rights of Hitachi s or any third party s patent copyright trademark or other intellectual property rights for information contained in this document Hitachi bears no responsibility for problems that may arise with third party s right
9. ace cable connector VIN pin insert a jumper into 2 and 3 e To supply power from power supply connector P3 prepare a power supply for the adapter board Insert a jumper into 1 and 2 default setting at shipment Figure 3 4 Jumper Terminals for Power Supply Switch JP1 HITACHI 3 2 4 Circuit Protector F1 This adapter board is provided with a resumable circuit protector on the input section of the user system power supply to prevent damage to the system If the circuit protector is turned off due to erroneous power supply connection or excessive current 1 A or more check the system then return the circuit protector to the original state by pressing the switch in the hole with a thin pin or wire to activate the circuit protector figure 3 5 Figure 3 5 Circuit Protector Setting 10 HITACHI 3 2 5 Control Signal Enable Disable Switches S4 This adapter board is provided with switches so that each control signal can be enabled or disabled separately as shown in table 3 2 the control signal switches that are necessary to program the F ZTAT microcomputer should be set to E These switches are inside the case Open the upper panel by removing the screw in each corner between the upper and lower panels After switch setting reclose the case and refasten the screws Table 3 2 Control Signal Enable Disable Switches S4 Signal E D FWE S4 1 Enabled Disabled MDO S4 2 Enabled Disabled MD1 S4 3 Enabled Disabled 1
10. ard programming in boot mode When using an F ZTAT microcomputer that is not listed in table 3 5 refer to the corresponding hardware manual Table 3 5 S3 S4 S5 and S6 Setting Examples HS0008EASF4H SH7055F P1 Connector Signal MCU Signal S4 s3 S5 and S6 VIN Vcc Vcc 4 A 4 VIN PVY Pm MT TO GND Vss RES RES A TXD RXD a 5 A RXD TXD o i FWE FWP FWE E 1 C S5 1 MDO MD1 E 0 P S5 2 MD1 MD2 E 1 P S5 3 Te 101 D E 102 D Notes 1 The P1 connector signals and MCU signals on the user system must always be connected regardless of the S3 S4 S5 and S6 settings 2 Either setting is available 3 Need not be connected 3 3 LEDs 3 3 1 START LED START Red This LED is turned on or off when the transfer switch START STOP is pressed 3 3 2 Power LED POWER Green This LED is on while the user system power supply VIN Vcc 2 7 V t05 25 V PVcc 2 7 V t05 25 V or the power supply Vcc 5 V 5 dedicated to the adapter board is supplied 13 HITACHI Section 4 Notes on Use 1 The RES pin of the adapter board is an open collector output Pull up the RES pin on the user system using a 1 kQ resistor 2 Do not directly connect control signals FWP FWE MDO MD1 IO0 IO1 or IO2 to Vcc or GND The user interface of the adapter board is shown figure 4 1 The resistance value is 20 Q when analog switch HC4066 is on Itis recommended to pull up or pull down the resistance with 4 7 kQ or more
11. ility of the user system power supply is insufficient power Vcc 5 V 5 can be supplied using a separate power supply from the P3 connector to the adapter board 3 2 Switches 3 2 1 Transfer Switch START STOP When this switch is pressed once a programming control is initiated In this case the START LED red is turned on When this switch is pressed again after program transfer the programming control is terminated At this time the START LED red is turned off CAUTION After program transfer press the transfer switch START STOP and confirm that the START LED red is turned off If the user system power supply VIN Vcc 2 7 V to 5 25 V PVcc 2 7 V to 5 25 V is turned off while the START LED is on the user system will be damaged For details on activating the on board programming tool refer to the On Board Programming Tool User s Manual Activate the on board programming tool and select the boot mode or user program mode displayed on the host computer The hardware setting sequence is displayed Then press the transfer switch The START LED red is turned on and a programming control is initiated After programming the flash memory in the selected mode confirm the end message press the transfer switch again and complete the programming control At this time the START LED is turned off HITACHI 3 2 2 Power Supply Switch POWER The following two power supply methods are available for this adapter board
12. ned to be radiation resistant No one is permitted to reproduce or duplicate in any form the whole or part of this document without written approval from Hitachi Contact Hitachi s sales office for any questions regarding this document or Hitachi semiconductor products Contents Section de UNS O E aa l Section 2 COMM PTIPALON e seen da oi 2 Section 3 Connectors Switches and LEDS onccccccnnnnninocncnnnccnononaninacicoconononanons 3 3 1 CODMECLONS ii id ee 3 3 1 1 User Interface Connector Pidesi n ay 3 3 1 2 Serial Interface Connector P2 4 7 3 1 3 Adapter Board Power Supply Connector P3 nenn 7 PAES e ATE E see ep ves cores ase iva in nee Maes eet Ate Mn scien 7 32 1 Transfer Switch STARTAS TO P ja rae or ae ara rareta ar EKER 7 3 2 2 Power Supply Switch POWER errei 8 3 2 3 Jumper Terminals for Power Supply Switch JP1 ee 9 324 CircuitProtector Al ii dai RSs ace 10 3 2 5 Control Signal Enable Disable Switches S4 a 11 32 6 Low 0 High 1 Switches S3 nennen 11 3 2 7 Vcc and PVcc Switches S5 and S6 nennen 12 32 8 S3 S4 S5 and S6 Setting Examples Ne 13 33 LEDs 13 3 3 1 START LED START Red 4 13 332 Power LED ROWER Green cit Ei A E ies 13 Section 4 Notes on USC ssa arestas tia ai na ai 14 SECOND POCO eigen 5 1 Input Voltage and Consumption Current 3 2 WWirlte Processinp is HITACHI Section 1 Overview The adapter board HS0008EASF4
13. s including intellectual property rights in connection with use of the information contained in this document Products and product specifications may be subject to change without notice Confirm that you have received the latest product standards or specifications before final design purchase or use Hitachi makes every attempt to ensure that its products are of high quality and reliability However contact Hitachi s sales office before using the product in an application that demands especially high quality and reliability or where its failure or malfunction may directly threaten human life or cause risk of bodily injury such as aerospace aeronautics nuclear power combustion control transportation traffic safety equipment or medical equipment for life support Design your application so that the product is used within the ranges guaranteed by Hitachi particularly for maximum rating operating supply voltage range heat radiation characteristics installation conditions and other characteristics Hitachi bears no responsibility for failure or damage when used beyond the guaranteed ranges Even within the guaranteed ranges consider normally foreseeable failure rates or failure modes in semiconductor devices and employ systemic measures such as fail safes so that the equipment incorporating Hitachi product does not cause bodily injury fire or other consequential damage due to operation of the Hitachi product This product is not desig
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