The following document contains information on Cypress products. FUJITSU MICROELECTRONICS SUPPORT SYSTEM SS01-71129-1E DSU-FR EMULATOR BGA-660P ADAPTER TYPE 2 MB2198-300A-E OPERATION MANUAL PREFACE Thank you for purchasing the DSU-FR emulator adapter type 2 for the BGA-660P (MB2198-300AE)*1. This product is used together with the DSU-FR emulator header type 4 for the LQFP-176P (MB2198-305-E)* 2 to connect the DSU-FR emulator (MB2198-01-E)* 3 and DSU-FR cable (MB2198-10-E)*4 to the user system that uses a FUJITSU FR*5 family microcontroller MB91460 series. This manual describes how to use the DSU-FR emulator adapter type 2 for the BGA-660P. Read this manual carefully before using this product. Please contact the sales or support representative for details on the mass production and evaluation MCU models that can be used with this product. *1 : *2 : *3 : *4 : *5 : Referred to below as the "adapter" Referred to below as the "header board" Referred to below as the "emulator" Referred to below as the "DSU cable" FR, the abbreviation of FUJITSU RISC controller, is a line of products of FUJITSU MICROELECTRONICS LIMITED. ■ Safe use of this product This manual contains important information relating to the safe use of this product. Please read this before using the product and use the product correctly in accordance with the instructions in this manual. In particular, carefully read “■ Caution of the products described in this manual” at the beginning of this manual and “2. Precautions when using this product” to understand the requirements for safe use of the product before using it. After reading the manual, keep it handy for future reference. ■ Related manuals Please refer also to the following manuals. • “DSU-FR EMULATOR MB2198-01 OPERATION MANUAL” • “DSU-FR EMULATOR DSU-FR CABLE MB2198-10-E OPERATION MANUAL” • “DSU-FR EMULATOR LQFP-64P HEADER TYPE 4 MB2198-304A-E OPERATION MANUAL” • “DSU-FR EMULATOR LQFP-176P HEADER TYPE 4 MB2198-305-E OPERATION MANUAL” ■ 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 ■ Caution of the products described in this document The following precautions apply to the product described in this manual. WARNING Electric shock, Damage Electric shock, Damage Indicates a feature that, if not used correctly, may result in minor or moderate injuries, and which may cause the customer system to malfunction. 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. 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 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. Cuts, Damage 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. Cuts The product contains sharp edges that are left unavoidably exposed, such as jumper plugs. Handle the product with due care not to get injured with such pointed parts. Damage 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. Damage 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. Damage Use the product within the ranges given in the specifications. Operation over the specified ranges may cause a fault. Damage 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. Damage When turning the power on or off, follow the relevant procedure as described in this document. Before turning the power on, in particular, be sure to finish making all the required connections. Furthermore, be sure to configure and use the product by following the instructions given in this document. Using the product incorrectly or inappropriately may cause a fault. Damage Always turn the power off before connecting or disconnecting any cables from the product. When unplugging a cable, unplug the cable by holding the connector part without pulling on the cable itself. Pulling the cable itself or bending it may expose or disconnect the cable core, resulting in a fault. Damage Because the structure of the MCU socket does not allow an evaluation MCU to be mounted in the incorrect orientation, be very careful of the orientation of the evaluation MCU when mounting it. Inserting the evaluation MCU in the wrong orientation may damage the MCU, causing the MCU to become faulty. Damage WBecause 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. ii • 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 MICROELECTRONICS semiconductor device; FUJITSU MICROELECTRONICS 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 MICROELECTRONICS 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 MICROELECTRONICS or any third party or does FUJITSU MICROELECTRONICS warrant non-infringement of any third-party's intellectual property right or other right by using such information. FUJITSU MICROELECTRONICS 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 MICROELECTRONICS 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 ©2009 FUJITSU MICROELECTRONICS LIMITED All rights reserved. iii 1. Product Overview ■ Overview This product is an option product for use with the DSU-FR emulator and is intended to support the development of user systems that use the Fujitsu FR family of microcontrollers. The main features of the adapter are as follows. • The BGA-660P adapter type 2 consists of the adapter and AC adapter. • The adapter has an on-board IC socket for evaluation MCU (660-pin BGA package code: BGA-660P-M02) . • Used in conjunction with the header board to connect the user system to an emulator. • The adapter has two power supplies, one is supplied from the user system via the header board and the other is supplied from the AC adaptor. • Dual (UVCC3, UVCC5) user power supplies are monitored. The power supply voltage of each supply voltage +1V (VCC3H, VCC5H) is supplied to the header board (upper limit value 5.4V, lower limit value 4.0V). • The VCC3 pin of the evaluation MCU is connected to power supply following the UVCC3 voltage as lower voltage limit of 3.15V or power supply of fixed voltage 3.5V. The power supply connection is selected using a jumper plug. Select the 3.5V fixed voltage when using MB91V460. • Each power supply supplied from the adapter (power supply supplied to VCC3H, VCC5H, and VCC3 of evaluation MCU) monitors UVCC3 or UVCC5 of the user system, and shuts down when the supply voltage drop to the shutdown voltage or less (Set to 2.5V at shipping and can be adjusted). • Supports internal ROM emulation function. • Supports external ROM emulation function. • Supports external trace function. • Supports external trace functions using SuperTrace Probe by GHS (Green Hills Software) 1 ■ System configuration The adaptor is used together with the DSU cable and the header board, and connects the emulator and the user system. Figure 1 shows the system configuration of this product. General-purpose measurement instrument External trigger/ program execution RS-232C,USB,LAN Host computer AC in AC adapter DSU-FR emulator unit DSU-FR cable SuperTrace Probe (GHS) AC in AC adapter Evaluation MCU Adapter Header board User system Figure 1 System configuration To use the emulator, a host computer and emulator/debugger software are required separately. Please refer to the “3. Connections” for details about how to connect the adapter and header board. Refer to each operation manual for the emulator and the header board specifications. 2 ■ Appearance and part names Figure 2 shows the external view of the adapter and the names of each part. Note that Figure 2 shows the state of the adapter when it is shipped (20) (21) (29) (30) (31) (27) (28) (23) (24) (25) (26) (22) (1) (19) (18) (17) (16) (15) (14) (13) (12) No. (11) (9) (8) (7) (6) (10) Part name (5) (4) No. (3) (2) Part name (1) Socket mounting resistor (10kΩ) (17) Monitor pins C group (2) Pull-up resistor (10kΩ) (18) Jumper plugs for setting X0/X1, X0A/ X1A (3) MCLKI/MCLKO jumper plug (19) IC socket for evaluation MCU (4) P10_7 jumper plug (20) STP connector (5) VCC5 jumper plug (21) (6) VCC3SEL jumper plug (22) EDSU_BREAKX switch Jumper plugs for setting the evaluation MCU (7) VCC3H jumper plug (23) DSU connector (8) MONCLK monitor pins (24) Jumper plugs for setting the tool bus (9) Trimmer potentiometers for adjusting the shutdown voltage (10) SHDNSEL jumper plug (11) (25) C jumper plug (26) Jumper plugs for setting P225, P243 Trimmer potentiometers for setting the reference voltage * (27) Socket mounting resistor (100kΩ) (12) Power lamp (28) Header I/F connector 1 (13) DC jack (29) Socket mounting resistor (100kΩ) (14) Power switch (30) Header I/F connector 2 (15) External ROM emulation memory setting jumper plug (16) IC socket for crystal unit (31) Jumper plugs for setting P224, P242 - - * : Please do not change the setting of the trimmer potentiometers for reference voltage setting since the trimmer potentiometers are adjusted at shipping. Figure 2 Apperance 3 ■ Check package contents Before starting to use the adapter, check that the following items are all present. • Adapter (Isolation board is mounted on the back of the PC board and the legs for the PC board are mounted on the sides of PC board.) • AC adapter • Operation manual (This manual in English version) • Operation manual (Japanese version) :1 :1 :1 :1 ■ Option products Table 1 shows the option products available for the adapter. Please purchase these separately, as required. Table 1 Option products Name Model DSU-FR emulator MB2198-01-E DSU-FR cable MB2198-10-E LQFP-64P header type 4*1 MB2198-304A-E LQFP-176P header type 4*1 MB2198-305-E Evaluation MCU*2 MB91V460 *1 : When used together with the header board, this product can be used as an adapter unit. Please refer to the operation manual of each header board for details including how to handle the header board, how to use it, and safety precautions. *2 : Evaluation MCUs are mounted in the adapter. Please contact the sales or support representative for details on compatible evaluation MCUs. 4 2. Precautions When Using this Product The following general restrictions apply to the adapter. • Before setting any of the jumper plugs on the adapter, turn off all of the power supplies for the adapter, emulator, and user system. • Use an oscillator as the supply source of the CLK signal on the user system when the CLK signal is supplied from the user system to the evaluation MCU. • When the CLK signal is supplied from the user system to the evaluation MCU using an oscillator, the evaluation MCU has a restriction that, if the X0 or X1 pin must be opened, the jumper plug for selecting the corresponding CLK signal source must be removed. This also applies to X0A and X1A. • When the emulator is used, INITX jumper plug of "Jumper plugs for setting the tool bus" should be set to the ICE side. By this settings, the INITX pin of the evaluation MCU is controlled by the emulator and the reset signal from the user system is input to the evaluation MCU via the emulator. The reset timing is therefore delayed several clock cycles from the actual reset timing. And the reset command of the emulator only resets the evaluation MCU, and does not reset the user system. In addition, the signal sent from the user system to the INITX pin during a break is masked by the emulator. • The pin state of the external bus when the evaluation MCU is in the user hold/low power consumption mode is the same as the one stated in the evaluation MCU hardware manual. • The power supply is not supplied from the adaptor, header board, or emulator to the user system. • The data of the internal ROM emulation memory, external ROM emulation memory, and external trace memory is lost when the power supply to the user system is disconnected. • All measurement functions such as an external tracing function and performance measurement cannot be supported at emulator because an adapter is connected with emulator by the DSU cable. When the LQFP-176P header type 4 (MB2198-305-E) is used and mass production MCU (Referred to below as the "MB91460R series") of the MB91460R series corresponding to header board is emulated by MB91V460, the following restrictions are added. • If the user system is accessed via an external bus when UVCC3 = 3.3V ± 0.3V and UVCC5 = 5V ± 10%, use the EPILRx.y registers (see the MB91V460 or MB91460R series datasheets for details) to set the external bus input level to the 5V TTL level. • The level shift function of the header board does not support the ports assigned in pins 98 to 113 of MB91460R series when UVCC3 = 3.3V ± 0.3V and UVCC5 = 5V ± 10%. Therefore, these pins become 5V I/O terminal when these ports are used as general-purpose ports. • The level shift function is available on all I/O terminals of the MB91460R series except as detailed above. Therefore, even if the VCC5 (pin numbers 176, 162, 147, 133) and VCC3 (pin numbers 11, 12, 36, 44, 57, 73, 89) pins of the MB91460R series are connected to the power supply voltages to allow the MB91460R series I/O terminals to operate at a mixture of 3.3V ± 0.3V and 5V ± 10%, in order to enable the MB91V460 to interface with the user system pins that are driven at 3.3V ± 0.3V, the corresponding pins on the MB91V460 should be performed with pull-up treatment (resistance: 10kΩ) to the VCC5. Furthermore, because the pull-up resistors are removable, remove them when unnecessary. • When the power supplies are connected to the VCC5 (pin numbers 176, 162, 147, 133) and VCC3 (pin numbers 11, 12, 36, 44, 57, 73, 89) pins such that all of the I/O terminals that have the level shift function operate at 5V ± 10%, the voltage of signals input to the MB91V460 becomes 4.4V ± 0.1V. 5 • When you apply 5V ± 10% to VCC5 on the evaluation MCU using the LQFP-176P header type 4 (MB2198-305-E), the clock input needs to be supplied from the adapter because clock input from the user system is not supported. • When 3.3V is supplied to VCC5 of MB91V460, please insert the 1 wait time to access the external ROM emulation memory. 6 3. Connections ■ Connecting the evaluation MCU See Figure 3 when the evaluation MCU is connected. Refer to “1. Product Overview ■ External view and names of each part” for details on the position of the IC socket for the evaluation MCU. 1. IC socket upper part is depressed perpendicularly. 2. Please check that IC hook has raised and place evaluation MCU on IC socket. 3. Please raise IC socket upper part calmly and check that IC hook has fixed the evaluation MCU. Note : When you depress IC socket upper part, be careful of handling, such as supporting the bottom of a substrate so that a substrate may not bend. To mount the evaluation MCU to the IC socket, align the index mark (●) on the evaluation MCU to index mark (▲) of the IC socket indicated on the PC board. Index mark Index mark Evaluation MCU Latch for evaluation MCU fixation Figure 3 Connecting the evaluation MCU ■ Connecting the crystal unit See Figure 4 when the crystal unit is connected. Refer to “1. Product Overview ■ External view and names of each part” for the position of the crystal unit IC socket. 1. Connect the crystal unit to pins 1 and 8 of the crystal unit IC socket. 2. Connect the capacitor between pins 2 (or 3) and 4 of the crystal unit IC socket. 3. Connect the capacitor between pins 7 (or 6) and 5 of the crystal unit IC socket. Crystal unit Capacitor Capacitor Figure 4 Connecting the crystal unit Note : For a capacitor that is mounted with the oscillator, use a capacitor about 10pF smaller than the recommended value of the oscillator. When a capacitor of the recommended value of the oscillator is mounted, an oscillator stabilization time becomes longer than the standard time due to the parasitic capacitance of a socket and the influence of an interconnect load and that may cause a failure such as instability of clock switching operation etc. 7 ■ Connecting the header board See Figure 5 when the header board is connected. Refer to “1. Product Overview ■ External view and names of each part” for the position of header I/F connectors 1 and 2. The header I/F connectors 1 and 2 of an adapter and the adapter I/F connectors 1 and 2 of the header board are connected, respectively. Adapter leg for the PC board Header board Figure 5 Connecting the header board ■ Connecting the user system See Figure 6 and 7 when the user system is connected. 1. Match Pin 1 of the index mark (▲) on NQPACK mounted on the user system (header board accessories) with the index mark (▲) on the header board and then insert it (see Figure 6). The pin of YQPACK is thin and easy to bend. Check that the YQPACK pins are not bent when inserting the YQPACK into the NQPACK. 2. Loosening the butterfly screws and adjusting the height of the legs for the PC board and tighten the butterfly screws of the legs. 3. Insert the screws (header board accessories) for securing the header board through the washers and into the screw holes at the 4 locations on the header board (see Figure 7). To tighten the screws, use the screwdriver supplied with the NQPACK to finally tighten the four screws in sequence. 8 leg for the PC board Adapter Header board User system Insulation board Header board index mark (▼) NQPACK index mark (▲) YQPACK (mounted on solder side.) Figure 6 Connecting the user system Screw for header board fixation Washers Header board YQPACK NQPACK User system Figure 7 Fixation of the header board 9 ■ Connecting the SuperTrace Probe manufactured by GHS Refer to Figure 8 when connecting the SuperTrace Probe manufactured by GHS. See section “1. Product Overview ■ External view and names of each part” for the position of the STP connector. SuperTrace Probe STP connector No. 1 pin Figure 8 Connecting the SuperTrace Probe manufactured by GHS ■ Connecting the AC adapter See Figure 9 when the AC adapter is connected. Refer to “1. Product Overview ■ External view and names of each part” for the position of the DC jack. 1. The AC code is connected to an AC adapter. 2. The AC adapter is connected to an adapter. 3. Please put AC plug in AC wall socket. DC jack AC Adapter Figure 9 Connecting the AC adapter 10 4. Operation The following describes the procedure for turning on and off the power supply, and making various settings. Be sure to read below before turning on the power. Moreover, please be sure to carry out the settings after disconnecting all the power supplies of the system except when the shutdown voltage setting. 4.1 Jumper plug settings ■ VCC5 jumper plug setting Figure 10 shows the functions and shipment settings of the VCC5 jumper plug. Refer to “1. Product Overview ■ External view and names of each part” for the position of the VCC5 jumper plug on the adapter. The power supply which connects with VCC5 of evaluation MCU using this jumper plug is chosen, and also the power supply connected to VCC5 is monitored. Then, the power supply voltage + 1V is output to the header board as VCC5H. Upper limit value is 5.4V and lower limit value is 4.0V. UVCC3 VCC5 UVCC5 S28 Name Setting value Description Remarks UVCC3 UVCC3 is connected to VCC5 of the evaluation MCU. This value is chosen when 3.3V system power is supplied to VCC5 of MB91V460. UVCC5 UVCC5 is connected to VCC5 of the evaluation MCU. This value is chosen when 5V system power is supplied to VCC5 of MB91V460. VCC5 You can choose either UVCC5 or UVCC3 when driving the evaluation MCU with a single power supply of 5V or 3.3V. Figure 10 VCC5 jumper plug setting 11 USER EVA S31 S30 MCLKI MCLKO USER EVA ■ MCLKI/MCLKO jumper plug setting Figure 11 shows the functions and shipment settings of the MCLKI/MCLKO jumper plugs. Refer to “1. Product Overview ■ External view and names of each part” for the position of the MCLKI / MCLKO jumper plugs on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plugs in accordance with your usage environment. Name Setting value USER Description Pin F36 (MCLKI) is connected with the user system. MCLKI EVA Pin F36 (MCLKI) is connected with pin F35 (MCLKO). USER Pin F35 (MCLKO) is connected with the user system. EVA Pin F36 (MCLKI) is connected with pin F35 (MCLKO). MCLKO Figure 11 MCLKI/MCLKO jumper plug setting 12 Remarks The terminal name in ( ) is a terminal name of MB91V460. S21 Name Setting value PULLDOWN P10_7 PULLUP ■ P10_7 jumper plug setting Figure 12 shows the functions and shipment settings of the P10_7 jumper plug. Refer to “1. Product Overview ■ External view and names of each part” for the position of the P10_7 jumper plug on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plug in accordance with your usage environment. Description Remarks 100kΩ pull-up processing is added to pin E37 (P10_7) by The terminal name in ( ) VCC5. P10_7 is a terminal name of 100kΩ pull-down processing is added to pin E37 MB91V460. PULLDOWN (P10_7). PULLUP Please remove a jumper plug when pull-up processing and pull down processing are unnecessary. Figure 12 P10_7 jumper plug setting 3.3V VCC3SEL S27 3.5V ■ VCC3SEL jumper plug setting Figure 13 shows the functions and shipment settings of the VCC3SEL jumper plug. Refer to “1. Product Overview ■ External view and names of each part” for the position of the VCC3SEL jumper plug on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plug in accordance with your usage environment. Name Setting value Description Remarks 3.5V The power supply of 3.5V is connected to VCC3 of evaluation MCU. Please choose this value when using the MB91V460. The power supply is supplied from the regulator on the adapter. 3.3V The VCC3 pin of the evaluation MCU is connected to power supply following the UVCC3 voltage of lower voltage limit of 3.15V. The power supply is supplied from the regulator on the adapter. VCC3SEL Figure 13 VCC3SEL jumper plug setting 13 S29 Name VCC3H Setting value UVCC5 VCC3H UVCC3 ■ VCC3H jumper plug setting Figure 14 shows the functions and shipment settings of the VCC3H jumper plug. Refer to “1. Product Overview ■ External view and names of each part” for the position of the VCC3H jumper plug on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plug in accordance with your usage environment. Description The voltage of UVCC3 is monitored, and supplied to UVCC3 VCC3H of the header board that is 1V higher than UVCC3. The voltage of UVCC5 is monitored, and supplied to UVCC5 VCC3H of the header board that is 1V higher than UVCC5. Figure 14 VCC3H jumper plug setting 14 Remarks Upper limit value is 5.4V and lower limit value is 4.0V. Name Setting value UVCC3 S26 UVCC5 SHDNSEL ■ SHDNSEL jumper plug setting Figure 15 shows the functions and shipment settings of the SHDNSEL jumper plug. Refer to “1. Product Overview ■ External view and names of each part” for the position of the SHDNSEL jumper plug on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plug in accordance with your usage environment. Description Remarks When the voltage of UVCC3 is monitored and this voltage becomes shutdown voltage or less, the power UVCC3 supply (power supplied to VCC3H, VCC5H, and Shutdown voltage is set to VCC3 of the evaluation MCU) from the adaptor is the 2.5V when shipped. stopped. The shutdown voltage can SHDNSEL be adjusted. When the voltage of UVCC5 is monitored and this voltage becomes shutdown voltage or less, the power Adjustment range: 1.3V to 3.1V UVCC5 supply (power supplied to VCC3H, VCC5H, and VCC3 of the evaluation MCU) from the adaptor is stopped. Figure 15 SHDNSEL jumper plug setting 15 D32 S13 D16 D32_D16SL 1 S12 0 MDENS2 1 S10 0 MDENS1 1 S11 0 MDENS0 ■ Settings of the jumper plugs for external ROM emulation memory setting Figure 16 shows the functions and shipment settings of the external ROM emulation memory jumper plugs. Refer to “1. Product Overview ■ External view and names of each part” for the position of the jumper plugs for the external ROM emulation memory setting on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plugs in accordance with your usage environment. A * A * * : The silk screen printing may be in a different location depending on the PCB layout. The "A" silk screen symbol corresponds to the jumper plugs. Setting value Name Description MDENS2 MDENS1 MDENS0 MDENS0 MDENS1 MDENS2 0 0 0 Disables memory. 0 0 1 Disables memory. 0 1 0 Disables memory. 0 1 1 Sets the memory capacity to 512KB. 1 0 0 Sets the memory capacity to 1MB. 1 0 1 Sets the memory capacity to 2MB. 1 1 0 Sets the memory capacity to 4MB. 1 1 1 Sets the memory capacity to 8MB. D32 Set the 32-bit bus width when accessing the external ROM emulation memory. D16 Set the 16-bit bus width when accessing the external ROM emulation memory. D32_D16SL Figure 16 Jumper plug settings for setting external ROM emulation memory 16 * B * B S23 EML X1 USER S22 EML X0 USER S25 EML X1A USER S24 EML X0A USER ■ X0/X1, X0A/X1A jumper plug setting Figure 17 shows the functions and shipment settings of the X0/X1 and X0A/X1A jumper plugs. Refer to “1. Product Overview ■ External view and names of each part” for the position of the X0/X1 and X0A/X1A jumper plugs on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plugs in accordance with your usage environment. * : The silk screen printing may be in a different location depending on the PCB layout. The "B" silk screen symbol corresponds to the jumper plugs. Name Setting value USER X1 EML USER X0 EML USER X1A EML USER X0A EML Description Remarks Connects pin AB35 (X1) to the user system. This setting option must be selected when usConnects the X1 pin of the IC socket for ing the LQFP-176P header type 4 (MB2198crystal unit on the adapter to pin AB35 305-E) and supplying 5V ± 10% to VCC5 of the (X1). evaluation MCU. Connects pin AA36 (X0) to the user system. This setting option must be selected when usConnects the X0 pin of the IC socket for ing the LQFP-176P header type 4 (MB2198crystal unit on the adapter to pin AA36 305-E) and supplying 5V ± 10% to VCC5 of the (X0). evaluation MCU. Connects pin AB38 (X1A) to the user system. This setting option must be selected when usConnects the X1A pin of the IC socket for ing the LQFP-176P header type 4 (MB2198crystal unit on the adapter to Pin AB38 305-E) and supplying 5V ± 10% to VCC5 of the (X1A). evaluation MCU. Connects pin AA35 (X0A) to the user system. This setting option must be selected when usConnects the X0A pin of the IC socket for ing the LQFP-176P header type 4 (MB2198crystal unit on the adapter to pin AA35 305-E) and supplying 5V ± 10% to VCC5 of the (X0A). evaluation MCU. Figure 17 X0/X1, X0A/X1A jumper plug setting 17 S5 EN CSV_KILL DIS S2 EN ADC_SEL DIS S7 EN FSC_DISABLE DIS S1 EN ALARM_SEL DIS ■ Settings of the jumper plugs for setting the evaluation MCU Figure 18 shows the functions and shipment settings of the evaluation MCU jumper plugs. Refer to “1. Product Overview ■ External view and names of each part” for the position of the jumper plugs for setting the evaluation MCU on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plugs in accordance with your usage environment. Positions of jumper plugs for setting evaluation MCU marked in silk screen* S6 DIS SRAM_SFX EN S4 DIS FIX_ENX EN S3 EN HWWDG_KILL DIS Jumper plugs for setting evaluation MCU* * : The silk screen printing may be in a different location depending on the PCB layout. The evaluation MCU setting jumper silk screen corresponds to the evaluation MCU setting jumper plugs. Name SRAM_SFX CSV_KILL FIX_ENX HWWDG_KILL FSC_DISABLE ADC_SEL ALARM_SEL Setting value Description DIS Connects pin AE3 (SRAM_SFX) to VCC5. EN Connects pin AE3 (SRAM_SFX) to GND. DIS Connects pin AF3 (CSV_KILL) to GND. EN Connects pin AF3 (CSV_KILL) to VCC5. DIS Connects pin AH2 (FIX_ENX) to VCC5. EN Connects pin AH2 (FIX_ENX) to GND. DIS Connects pin AG2 (HWWDG_KILL) to GND. EN Connects pin AG2 (HWWDG_KILL) to VCC5. DIS Connects pin AF4 (FSC_DISABLE) to GND. EN Connects pin AF4 (FSC_DISABLE) to VCC5. DIS Connects pin AF1 (ADC_SEL) to GND. EN Connects pin AF1 (ADC_SEL) to VCC5. DIS Connects pin AE4 (ALARM_SEL) to GND. EN Connects pin AE4 (ALARM_SEL) to VCC5. Figure 18 Jumper plug settings for setting evaluation MCU 18 Remarks The names in ( ) refer to pin names used for MB91V460. ■ Settings of the jumper plugs for setting the tool bus Figure 19 shows the functions and shipment settings of the jumper plugs for setting the tool bus. Refer to “1. Product Overview ■ External view and names of each part” for the position of the jumper plugs for setting the tool bus on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plugs in accordance with your usage environment. Positions of jumper plugs for setting the tool bus marked in silk screen* *: Name PD_OFF PD_OFF PD_OFF PD_OFF S16 ICD3 S17 PD_ON ICD2 S17 PD_ON ICD1 S17 PD_ON ICD0 PD_ON S15 USER TRSTX ICE S14 USER INITX ICE S20 PD_ON BREAK PD_OFF Jumper plugs for setting the tool bus* The silk screen printing may be in a different location depending on the PCB layout. The tool bus setting jumper silk screen corresponds to the tool bus setting jumper plugs. Setting value ICE INITX USER ICE TRSTX USER Description Connects the INITX signal from the user system to the INITX pin of the evaluation MCU via the emulator. Connects the INITX signal from the user system directly to the evaluation MCU. The TRSTX of the evaluation MCU is controlled with the emulator. Connects the INITX signal from the user system directly to the TRSTX of the evaluation MCU. PD_ON Connects a pull-down resistance of 100kΩ. PD_OFF Does not connect a pull-down resistance of 100kΩ. PD_ON Connects a pull-down resistance of 100kΩ. PD_OFF Does not connect a pull-down resistance of 100kΩ. PD_ON Connects a pull-down resistance of 100kΩ. PD_OFF Does not connect a pull-down resistance of 100kΩ. PD_ON Connects a pull-down resistance of 100kΩ. PD_OFF Does not connect a pull-down resistance of 100kΩ. PD_ON Connects a pull-down resistance of 100kΩ. PD_OFF Does not connect a pull-down resistance of 100kΩ. BREAK ICD3 ICD2 ICD1 ICD0 Remarks This value must be set when the emulator is used. This value must be selected when using the adapter without connecting the emulator. This value must be set when using the emulator. This value must be selected when using the adapter without connecting the emulator. This value must be selected when using MB91460 as the evaluation MCU as well as using the adapter without connecting the emulator. This value must be selected when using MB91460 as the evaluation MCU as well as using the adapter without connecting the emulator. This value must be selected when using MB91460 as the evaluation MCU as well as using the adapter without connecting the emulator. This value must be selected when using MB91460 as the evaluation MCU as well as using the adapter without connecting the emulator. This value must be selected when using MB91460 as the evaluation MCU as well as using the adapter without connecting the emulator. Figure 19 Settings of jumper plugs for setting tool bus 19 ■ C jumper plug setting Figure 20 shows the functions and shipment settings of the C jumper plug. Refer to “1. Product Overview ■ External view and names of each part” for the position of the C jumper plug on the adapter. Refer to the hardware manual of the evaluation MCU to be used when setting up the jumper plug in accordance with your usage environment. S8 VCC3C C VCC3 Name Setting value Description VCC3C Connects the VCC3C (pin B95 of header I/F connector 1) of the header board to the VCC3C (pin : AA38, Y37, Y36, Y35) of the evaluation MCU. VCC3 Connects the VCC3 to the VCC3C (pins : AA38, Y37, Y36, Y35) of the evaluation MCU. C The each VCC3C (pins : AA38, Y37, Y36, Y35) of the evaluation MCU is connected separately wth the 0.1µF capacitor. Figure 20 C jumper plug setting P243 CN3_A5 S35 S34 CN2_B67 CN2_B68 S33 P225 S32 P242 CN3_A6 P224 ■ Settings of the jumper plugs for setting P225/P243 and P224/P242 Figure 21 shows the shipment settings of the jumper plugs for setting P225/P243 and P224/P242. Refer to “1. Product Overview ■ External view and names of each part” for the position of the jumper plugs for setting P225/P243 and P224/P242 on the adapter. Figure 21 Settings of jumper plugs for setting P225/P243 and P224/P242 Note : Change the setting of these jumper plugs according to the specification of the header board used. Refer to the operation manuals of each header board for the setting of the jumper plugs. Please make the setting in Figure 21 unless otherwise specified in the operation manual of the header board. 20 4.2 Handling socket-mounted resistors The adaptor has the resistor networks (10kΩ) of 10 pieces, the lead-type resistors (100kΩ) of 4 pieces, and the lead-type resistors (10kΩ) of 8 pieces and those resistors are mounted on the socket. These resistors can be disconnected according to the specifications of the evaluation MCU and environment of the user system. Use resistor names shown on the board in silk screen to check each resistor on Table 2. Table 2 Handling socket-mounted resistors Resistor Description ALARM_0 Pin L4 (ALARM_0) is pulled-down with the lead-type resistor of 100kΩ. ALARM_1 Pin L3 (ALARM_1) is pulled-down with the lead-type resistor of 100kΩ. RSTX Pin AD2 (RSTX) is pulled-up with the lead-type resistor of 100kΩ. HSTX Pin AC3 (HSTX) is pulled-up with the lead-type resistor of 100kΩ. Remarks The names in ( ) indicate pin names used for MB91V460. Shown here is the handling method of unused pins when LQFP176P header type 4 is used. The resistors can be disconnected when this handling process is not required depending on the user system environment. 21 Resistor Description NMIX Pin AD3 (NMIX) is pulled-up to the VCC5 with the lead-type resistor of 10kΩ. P16_7 Pin B26 (P16_7) is pulled-up to the VCC5 with the lead-type resistor of 10kΩ. P17_4 Pin B22 (P17_4) is pulled-up to the VCC5 with the lead-type resistor of 10kΩ. P17_5 Pin D23 (P17_5) is pulled-up to the VCC5 with the lead-type resistor of 10kΩ. P17_6 Pin D24 (P17_6) is pulled-up to the VCC5 with the lead-type resistor of 10kΩ. P17_7 P14_[7 : 0] P15_[7 : 0] P17_[3 : 0] P18_[7 : 0] P19_[7 : 0] Pin A25 (P17_7) is pulled-up to the VCC5 with the lead-type resistor The resistors that are subject to the pin level shift function (from of 10kΩ. 5V ± 10 % to 3.3V ± 0.3V) must Pins B30, A31, B29, C29, D29, C28, D28 and A30 (P14_[7 : 0]) are not be demounted when applying pull-up to VCC5 according to the resistor networks of 10kΩ. 5V ± 10 % to the VCC5 of Pins A29, B28, B27, D27, C27, D26, C26 and A28 (P15_[7 : 0]) are MB91V460 and also using a header board with a level shift pull-up to VCC5 according to the resistor networks of 10kΩ. function such as MB2198-305-E. Pins C23, B21, C22 and A24 (P17_[3 : 0]) are pull-up to VCC5 ac- For details of the level shift funccording to the resistor networks of 10kΩ. tion, refer to the operation manual Pins D22, A23, C21, A22, D21, A21, D20 and B20 (P18_[7 : 0]) are of each header board. For information about a mass-produced pull-up to VCC5 according to the resistor networks of 10kΩ. MCU that is emulated in Pins C20, A20, C19, A19, D19, B19, D18 and A18 (P19_[7 : 0]) are MB91V460, refer to the correpull-up to VCC5 according to the resistor networks of 10kΩ. sponding data sheet. P20_[7 : 0] Pins A17, B18, C18, B17, C17, D17, D16 and A16 (P20_[7 : 0]) are pull-up to VCC5 according to the resistor networks of 10kΩ. P21_[7 : 0] Pins B16, A15, B15, C16, C15, B14, B13 and A14 (P21_[7 : 0]) are pull-up to VCC5 according to the resistor networks of 10kΩ. P22_[7 : 0] Pins A13, D14, C14, D13, C13, B12, B11 and A14 (P22_[7 : 0]) are pull-up to VCC5 according to the resistor networks of 10kΩ. P23_[7 : 0] Pins D12, A11, D11, C12, C11, B10, B9 and A10 (P23_[7 : 0]) are pull-up to VCC5 according to the resistor networks of 10kΩ. P24_[7 : 0] Pins A9, D10, C10, D9, C9, B8, B7 and A8 (P24_[7 : 0]) are pull-up to VCC5 according to the resistor networks of 10kΩ. 22 Remarks 4.3 Observing monitor data The signal can be observed by connecting the general-purpose measurement instrument with the monitor pin. For information about the positions of the MONCLK monitor pins and the monitor pins C group in the adapter, refer to “1. Product Overview ■ External view and names of each part”. The MONCLK monitor pins monitor signals from the W37 pin of the evaluation MCU. Figure 22 shows the positional correlation between the monitor pin C group and the positions of monitor pins C group marked in silk screen. IHIT0 FLASH_ALE FLASH_RDY FLASH_SECUR FLASH_ATDIN TP4 TP5 TP14 TP6 TP11 TP2 TP7 TP8 TP12 C TP1 TP3 TP9 TP10 Monitor pins C group silk screen marks * Monitor pins C group * IHIT3 IHIT1 FLASH_EQIN FLASH_BYTEX IHIT2 FLASH_SYSNC FLASH_FRSTX FLASH_RD32 C * : The silk screen printing may be in a different location depending on the PCB layout. The monitor pin C group silk screen corresponds to the monitor pin C group. Monitor Pin Description IHIT3 Monitors the signal from pin AN36 (IHIT3) of the evaluation MCU. IHIT2 Monitors the signal from pin AN37 (IHIT2) of the evaluation MCU. IHIT1 Monitors the signal from pin AM36 (IHIT1) of the evaluation MCU. IHIT0 Monitors the signal from pin AP38 (IHIT0) of the evaluation MCU. FLASH_ALE FLASH_SECUR Remarks Monitors the signal from pin AN38 (FLASH_ALE) of the evaluation MCU. Monitors the signal from pin AM38 (FLASH_SECUR) of the evaluation MCU. FLASH_ATDIN Monitors the signal from pin AL35 (FLASH_ATDIN) of the evaluation MCU. FLASH_EQIN Monitors the signal from pin AL36 (FLASH_EQIN) of the evaluation MCU. FLASH_BYTEX Monitors the signal from pin AK36 (FLASH_BYTEX) of the evaluation MCU. FLASH_FRSTX Monitors the signal from pin AK37 (FLASH_FRSTX) of the evaluation MCU. FLASH_RDY Monitors the signal from pin AM37 (FLASH_RDY) of the evaluation MCU. FLASH_SYNC Monitors the signal from pin AL37 (FLASH_SYNC) of the evaluation MCU. FLASH_RD32 Monitors the signal from pin AK35 (FLASH_RD32) of the evaluation MCU. The names in ( ) indicate pin names used for MB91V460. Figure 22 Correlation between monitor pin C group and positions of monitor pins C group marked in silk screen 23 4.4 Shutdown voltage setting The shutdown voltage is set to 2.5V at shipment. However, it can be adjusted by using a trimmer potentiometer designed for shutdown voltage adjustment on the adapter. For information about the position of the trimmer potentiometer for shutdown voltage adjustment, refer to “1. Product Overview ■ External view and names of each part”. The shutdown voltage should be adjusted according to Figure 23, as described below. 1. Connect to the voltmeter between the land indicated in silk screen of the SHDN and the monitor pin indicated in silk screen of the GND. 2. Connect the supplied AC adapter to the adapter. 3. Turn on the power supply of the adapter. RV4 4. Adjust the shutdown voltage by turning left or right the trimmer potentiometer for shutdown voltage adjustment while confirming the voltmeter. Adjustable shutdown voltage range: 1.3V to 3.1V S26 SHDNSEL f UVCC3 UVCC5 M37 M29 SHDN GND Connect the voltmeter. Shutdown voltage goes down. Shutdown voltage goes up. Figure 23 Adjusting shutdown voltage Note : Trimmer potentiometer settings other than those for the trimmer potentiometer for shutdown voltage adjustment should not be changed. 24 4.5 Power-on/shutdown procedures ■ Power-on procedure To turn the power on, finish making all the required connections and follow the procedure in Figure 24. To turn on the emulator, press the power switch on the back of the emulator. The power switch remains depressed. Refer to the hardware manual of the emulator for position of the power switch. The power switch of the adapter is used to turn on the adapter. For information about the position of the power switch of the adapter, refer to “1. Product Overview ■ External view and names of each part”. At the shipment setting, the emulator must be initialized (by monitor-loading) before the user system is turned on. Refer to “SOFTUNE Workbench OPERATION MANUAL” for the initialization of the emulator. A host computer is turned on. An emulator is turned on. POWER LED lights up “SOFTUNE Workbench” is started. “Emulator Debugger” is started. Is the emulator initialized? YES NO Initialization is performed. A dialog display is checked (see Figure 25). An adapter is turned on. The user system is turned on. (When using the SuperTrace Probe from GHS, turn on the power to the SuperTrace Probe after turning on the power to the user system) “OK” is clicked by dialog display. Figure 24 Power-on procedure 25 Figure 25 Displayed dialog box Note : To turn the power on, finish making all the required connections. To avoid shock hazards, do not touch any of the metal parts of the product after turning the power on. The “UVCC LED” on the emulator turns on when the user system power supply is turned on. When the user system power supply is turned on and the “UVCC LED” does not light, please turn on the power supply again after turning off the power supply of all systems, and confirming the connection and solving the cause. ■ Shutdown procedure Turn off the power supply according to the procedure shown in Figure 26. To turn off the emulator, press and release the power switch on the back of the emulator. This returns the depressed switch to the OFF (raised) state. Refer to the hardware manual of the emulator for position of the power switch. The power switch of the adapter is used to turn off the adapter. For information about the position of the power switch of the adapter, refer to “1. Product Overview ■ External view and names of each part”. “Emulator Debugger” is ended. The user system is turned off. (When using the SuperTrace Probe from GHS, turn off the power to the SuperTrace Probe before turning off the power to the user system) An adapter is turned off. An emulator is turned off. A host computer is turned off (when required). Figure 26 Shutdown procedure 26 5. Specifications 5.1 General specifications Table 3 lists the general specifications of the adapter. Table 3 General specifications Item Description Product name (model number) User system power supply Remarks DSU-FR EMULATOR BGA-660P ADAPTER TYPE 2 (MB2198-300A-E) UVCC5 * 3.0V to 5.5V Supplied from user system UVCC3 * 3.15V to 3.6V Supplied from user system 16V Supplied from AC adapter Adapter power supply VCC5H UVCC5 + 1V (lower limit value 4.0V, upper limit value 5.4V) Supplied to header board Used for level shifter VCC3H UVCC3 + 1V (lower limit value 4.0V, upper limit value 5.4V) Supplied to header board Used for level shifter Operating temperature and storage temperature Operation: +5 °C to +35 °C Storage: 0 °C to +70 °C No condensation Operating humidity and storage humidity Operation: 20% to 80% Storage: 20% to 80% No condensation External dimensions 170mm (W) × 230mm (D) × 42mm (H) Excluding of spacer Header board power supply Weight *: 487.0g As for the user system power-supply, the range of the operation voltage is different according to the evaluation MCU used. VCC3 of the evaluation MCU supplies power from the regulator on the adapter. For details, refer to 5.2 “Function specifications”. VCC5 of the evaluation MCU supplies power from the user system. For details, refer to 5.2 “Function specifications”. 27 5.2 Function specifications Table 4 lists the function specifications of the adapter. Table 4 Function specifications of adapter Item Adapter function Description Use together with the header board. And the adaptor functions as the adaptor that connects the emulator and evaluation MCU to the user system. Using the DSU cable for the connection with the emulator, the DSU cable is connected with the DSU connector on the adaptor. Internal ROM 8MB (2M words × 8 bits × 4) of SRAM is provided as the internal ROM emulation memory. emulation memory 8MB (2M words × 8 bits × 4) of SRAM is provided as the external ROM emulation memory. The capacity of the external ROM emulation memory can be switched between 0B, 512KB, 1MB, 2MB, 4MB and 8MB. Moreover, when the memory capacity is limited, upper address pins can be used as ports. The following table shows the relationship between the memory capacities and using address. External ROM emulation memory Memory capacity 32-bit bus width 16-bit bus width 8MB A[22:2] A[22:1] 4MB A[21:2] A[21:1] 2MB A[20:2] A[20:1] 1MB A[19:2] A[19:1] 512KB A[18:2] A[18:1] 0B - - For setting the memory capacity, jumper plugs MDENS2, MDENS1 and MDENS0 are used. For details of each jumper plug, refer to 4.1 “Jumper plug settings”. The I/O level of the external bus is compatible with 3.3V TTL and 5V CMOS. For details of the AC specifications, refer to 5.4 “External ROM emulation memory AC specifications”. 16-bit and 32-bit bus widths are supported. The D32_D16SL jumper plug is used to setting the bus width. For details of the jumper plugs, refer to 4.1 “Jumper plug settings”. External trace memory The SSRAM of 64k frames (64K words × 36 bits × 2) are provided as external trace memory. When the GHS SuperTrace Probe is connected, this memory is invalid. Refer to the data stored in the SuperTrace Probe for the trace data when the SuperTrace Probe is used. GHS SuperTrace Probe connection The adapter has a 38-pin MICTOR connector that is used to connect to the SuperTrace Probe manufactured by GHS. When the SuperTrace Probe is connected, the external trace data of the evaluation MCU is stored in the SuperTrace Probe. For details on the SuperTrace Probe, refer to the instruction manual included with the SuperTrace Probe. (Continued) 28 Item Description An AC adapter (16V) is connected to the DC jack of the adapter, and the power is supplied to the level shifter on the header board, evaluation MCU on the adapter, external trace memory and internal/external emulation memory. Moreover, the adaptor has power switch, the power supply from the AC adaptor can be turned on, and off. A power supply lamp is linked to this power switch. Power supply The VCC3 pin of the evaluation MCU is connected to power supply following the UVCC3 voltage of lower voltage limit of 3.15V or fixed power supply of 3.5V. The VCC3SEL jumper plug is used to select the power to be connected. The 3.5V fixed voltage is selected when using MB91V460. For details of the jumper plug, refer to 4.1 “Jumper plug settings”. UVCC5 or UVCC3 is connected to the VCC5 pin of the evaluation MCU. The VCC5 jumper plug is used to select the connecting power. In general, the UVCC5 connection is expected. However, when using the MB91V460, UVCC3 is connected to VCC5 when the external bus pin (corresponding power pin: VCC3) of the mass-produced MCU which is subject to emulation is driven at 5V and the general-purpose port (corresponding power supply pin: VCC5) is driven at 3.3V.In addition, the power supply connected to VCC5 is monitored, and the voltage that is 1V higher than that voltage is supplied to VCC5H of the header board. Upper limit value is 5.4V and lower limit value is 4.0V. UVCC3 or UVCC5 is monitored, and the voltage that is 1V higher than that voltage is supplied to VCC3H of the header board. Upper limit value is 5.4V and lower limit value is 4.0V. The VCC3H jumper plug is used to select the monitoring power. The settings of this jumper plug do not affect the power connected to the VCC3 pin of the evaluation MCU. A 0.1µF capacitor is separately connected to each VCC3C pin of the evaluation MCU (Pin: AA38, Y37, Y36, Y35). Either VCC3 or VCC3C pin on the header board can be selected to connect each VCC3C pin. The C jumper plug is used to perform this selection. When the voltage of UVCC3 or UVCC5 is monitored and this voltage becomes shutdown voltage (value at shipping: 2.5V) or less, the power supply (power supplied to VCC3H, VCC5H, and VCC3 of the evaluation MCU) supplied from the adaptor is stopped. The SHDNSEL jumper plug is used to select the power to be monitored. For details of the jumper plugs, refer to 4.1 “Jumper plug settings”. CLK IC sockets (X0/X1 × 1 unit ; X0A/X1A × 1 unit) IC sockets for crystal unit are provided to supply CLK signals from the adapter to the evaluation MCU. (CLK signals are not supplied to the user system.) Jumper plugs are used to switch the supplying source of CLK signals between the user system and the adapter. Such plugs include X0, X1, X0A and X1A. For details of the jumper plugs, refer to “4.1 Jumper plug settings”. The other jumper plugs and switches are as follows. • INITX jumper plug: Selects the emulator (connected to pin 7 of DSU Connector) or the user system (connected to pin A96 of Header I/F Connector 1) as the INITX control source of the evaluation MCU. • TRSTX jumper plug: Selects the emulator (connected to pin 5 of DSU Connector) or the user system (connected Other jumper plugs and switches to pin A96 of Header I/F Connector 1) as the TRSTX control source of the evaluation MCU. • BREAK, ICD3, ICD2, ICD1 and ICD0 jumper plugs: Select whether or not to connect a pull-down resistor to the above pins of the evaluation MCU. For details of the jumper plugs, refer to 4.1 “Jumper plug settings”. (Continued) 29 Item Description The following jumper plugs set up the evaluation MCU. The pin names used here refer to pin names used for MB91V460. • P10_7 jumper plug: This jumper plug is used to select the pull-down (resistance: 100kΩ) to the GND or pull-up (resistance: 100kΩ) to the VCC5 as for the pin E37 (P10_7). Moreover, this pin is connected to the user system (connected to pin A29 of header I/F connector 1). • ADC_SEL, ALARM_SEL, FSC_DISABLE, CSV_KILL, HWWDC_KILL, FIX_ENX and SRAM_SFX jumper plugs : These jumper plugs are used to select the GND or the VCC5 (Referred to as the "VCC5") of the evaluation MCU as for the following pins. Other jumper plugs and switches AF1 (ADC_SEL), AE4 (ALARM_SEL), AF4 (FSC_DISABLE), AF3 (CSV_KILL), AG2 (HWWDC_KILL), AH2 (FIX_ENX) and AE3 (SRAM_SFX) • MCLKI and MCLKO jumper plugs: These jumper plugs select either to short-circuit pin F36 (MCLKI) and pin F35 (MCLKO) respectively or to connect them to the user system (MCLKI is connected to A27 of header I/F connector 1 and MCLKO is connected to A28 of header I/F connector 1). • EDSU_BREAKX switch: Pin AG4 (EDSU_BREAKX) is pulled-up (10kΩ) to the VCC5. The push switch can be used to set it to the GND level (chattering is eliminated by a RC circuit). For details of the jumper plugs, refer to 4.1 “Jumper plug settings”. Monitor pins Signals from the evaluation MCU are connected to monitor pins. The pin names used here refer to pin names used for MB91V460. • FLASH_RDY: Pin AM37 (FLASH_RDY) is connected to the monitor pin and pulled-up (resistance: 3.3kΩ) to the VCC3 (Referred to as the VCC3) of the evaluation MCU. • FLASH_ALE, FLASH_SYNC, FLASH_ATDIN, FLASH_EQIN, FLASH_RD32, FLASH_BYTEX, FLASH_SECUR, FLASH_FRSTX, MONCLK and IHIT[3 : 0]: - The following pins are connected to the monitor pins: AN38 (FLASH_ALE), AL37 (FLASH_SYNC), AL35 (FLASH_ATDIN), AL36 (FLASH_EQIN), AK35 (FLASH_RD32), AK36 (FLASH_BYTEX), AM38 (FLASH_SECUR), AK37 (FLASH_FRSTX), W37 (MONCLK), AN36, AN37, AM36 and AP38 (IHIT[3 : 0]). (Continued) 30 (Continued) Item Pin handling Description The following pins of the evaluation MCU are disposed. The pin names used here refer to pin names used for MB91V460. For information about how to handle each resistor, refer to 4.2 “Handling socket-mounted resistors”. • RSTX and HSTX: Pin AD2 (RSTX) and pin AC3 (HSTX) are pulled-up to the VCC5 according to the 100kΩ respectively, the pull-up resistor can be disconnected. • NMIX, P16_7, P17_4, P17_5, P17_6 and P17_7: The following pins are pulled-up to the VCC5 according to the 10kΩ respectively: AD3 (NMIX), B26 (P16_7), B22 (P17_4), D23 (P17_5), D24 (P17_6) and A25 (P17_7). The pullup resistor can be disconnected. • ALARM_0 and ALARM_1: Pin L4 (ALARM_0) and pin L3 (ALARM_1) are pulled-down respectively according to the 100kΩ. The pull-down resistor can be disconnected. • P14_[7 : 0], P15_[7 : 0], P17_[3 : 0], P18_[7 : 0], P19_[7 : 0], P20_[7 : 0], P21_[7 : 0], P22_[7 : 0], P23_[7 : 0] and P24_[7 : 0]: The following pins are pulled-up to the VCC5 according to the 10kΩ respectively: B30, A31, B29, C29, D29, C28, D28 and A30 (P14_[7 : 0]), A29, B28, B27, D27, C27, D26, C26 and A28 (P15_[7 : 0]), C23, B21, C22 and A24 (P17_[3 : 0]), D22, A23, C21, A22, D21, A21, D20 and B20 (P18_[7 : 0]), C20, A20, C19, A19, D19, B19, D18 and A18 (P19_[7 : 0]), A17, B18, C18, B17, C17, D17, D16 and A16 (P20_[7 : 0]), B16, A15, B15, C16, C15, B14, B13 and A14 (P21_[7 : 0]), A13, D14, C14, D13, C13, B12, B11 and A12 (P22_[7 : 0]), D12, A11, D11, C12, C11, B10, B9 and A10 (P23_[7 : 0]), and A9, D10, C10, D9, C9, B8, B7 and A8 (P24_[7 : 0]). The pull-up resistor can be disconnected. User I/O pins other than described above are connected to the header board without any additional circuitry. 31 5.3 Connector specifications Tables 5 to 10 show connector specifications. Table 5 Connector specification Item 32 Description DC jack Connects the supplied AC adapter. DSU cable Connects the DSU cable. For information about how to connect the DSU cable, refer to the operation manual for the emulator. Header I/F connector 1, 2 Connect the header board. For information about how to connect the connector, refer to “■ Connecting the header board” in 3. “Connections”. Tables 6 to 9 show the pin arrangement of header I/F connectors 1 and 2. STP connector Connects to the SuperTrace Probe manufactured by GHS. For information about how to connect the connector, refer to “■ Connecting the SuperTrace Probe manufactured by GHS” in 3. “Connections”. Table 6 Header I/F connector 1 (Row A) Connector pin number A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43 A44 A45 A46 A47 A48 A49 A50 Evaluation MCU pin number ⎯ ⎯ J36 H37 K36 J35 J83 K35 J37 K38 ⎯ ⎯ E38 F37 F38 G35 G38 H36 G37 H38 ⎯ ⎯ C38 D37 D38 E35 F36 F35 E37 G36 ⎯ ⎯ C34 A36 C35 B35 D36 B36 E36 C37 ⎯ ⎯ C32 A34 C33 B33 D33 B34 D34 A35 Pin name UVCC5 UVCC5 P081 P080 P083 P082 P085 RDX P087 P086 GND GND P091 P090 P093 P092 P095 P094 P097 P096 GND GND P101 P100 P103 P102 P105 P104 P107 P106 GND GND P111 P110 P113 P112 P115 P114 P117 P116 GND GND P121 P120 P123 P122 P125 P124 P127 P126 Connector pin number A51 A52 A53 A54 A55 A56 A57 A58 A59 A60 A61 A62 A63 A64 A65 A66 A67 A68 A69 A70 A71 A72 A73 A74 A75 A76 A77 A78 A79 A80 A81 A82 A83 A84 A85 A86 A87 A88 A89 A90 A91 A92 A93 A94 A95 A96 A97 A98 A99 A100 Evaluation MCU pin number ⎯ ⎯ C30 A32 C31 D30 B31 D31 B32 A33 ⎯ ⎯ D28 A30 D29 C28 B29 C29 B30 A31 ⎯ ⎯ C26 A28 C27 D26 B27 D27 A29 B28 AC38 AB36 AC36 AC35 ⎯ AF38 AD36 AE36 AG38 ⎯ AD3 AC3 ⎯ ⎯ ⎯ AD1 ⎯ AD2 ⎯ ⎯ Pin name GND GND P131 P130 P133 P132 P135 P134 P137 P136 GND GND P141 P140 P143 P142 P145 P144 P147 P146 GND GND P151 P150 P153 P152 P155 P154 P157 P156 D0 D2 D4 D6 GND D9 D11 D13 D15 NC NMIX HSTX NC UVCC5 GND INITX GND RSTX GND VCC5H Row A corresponds to the polarity display side of the connector, while Row B corresponds to the opposite side. 33 Table 7 Header I/F connector 1 (Row B) Connector pin number B1 B2 B3 B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29 B30 B31 B32 B33 B34 B35 B36 B37 B38 B39 B40 B41 B42 B43 B44 B45 B46 B47 B48 B49 B50 Evaluation MCU pin number ⎯ ⎯ B23 A26 B24 C24 B25 C25 B26 A27 ⎯ ⎯ C22 A24 C23 B21 D23 B22 A25 D24 ⎯ ⎯ D20 B20 D21 A21 C21 A22 D22 A23 ⎯ ⎯ D18 A18 D19 B19 C19 A19 C20 A20 ⎯ ⎯ D16 A16 C17 D17 C18 B17 A17 B18 Pin name NC NC P161 P160 P163 P162 P165 P164 P167 P166 GND GND P171 P170 P173 P172 P175 P174 P177 P176 GND GND P181 P180 P183 P182 P185 P184 P187 P186 GND GND P191 P190 P193 P192 P195 P194 P197 P196 GND GND P201 P200 P203 P202 P205 P204 P207 P206 Connector pin number B51 B52 B53 B54 B55 B56 B57 B58 B59 B60 B61 B62 B63 B64 B65 B66 B67 B68 B69 B70 B71 B72 B73 B74 B75 B76 B77 B78 B79 B80 B81 B82 B83 B84 B85 B86 B87 B88 B89 B90 B91 B92 B93 B94 B95 B96 B97 B98 B99 B100 Evaluation MCU pin number ⎯ ⎯ B13 A14 C15 B14 B15 C16 B16 A15 ⎯ ⎯ B11 A12 C13 B12 C9 B6 A13 D14 ⎯ ⎯ B9 A10 C11 B10 D11 C12 D12 A11 AD38 AA37 AB37 AD35 AE38 AC37 AD37 AE37 ⎯ ⎯ L4 L3 ⎯ ⎯ ⎯ ⎯ ⎯ ⎯ ⎯ ⎯ Pin name GND GND P211 P210 P213 P212 P215 P214 P217 P216 GND GND P221 P220 P223 P222 P243 P242 P227 P226 GND GND P231 P230 P233 P232 P235 P234 P237 P236 D1 D3 D5 D7 D8 D10 D12 D14 GND NC ALARM_0 ALARM_1 NC UVCC5 VCC3C NC NC NC NC VCC3H Row A corresponds to the polarity display side of the connector, while Row B corresponds to the opposite side. 34 Table 8 Header I/F connector 2 (Row A) Connector pin number A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43 A44 A45 A46 A47 A48 A49 A50 Evaluation MCU pin number ⎯ ⎯ B7 A8 C14 D13 C10 D9 A9 D10 ⎯ ⎯ E2 F2 D1 F4 C1 E4 D2 E3 ⎯ ⎯ H4 J4 F1 H2 E1 G2 F3 G3 ⎯ ⎯ K3 K4 H1 K2 G1 J2 H3 J3 ⎯ ⎯ D5 A3 D6 A4 C7 C6 A5 B5 Pin name UVCC3 UVCC3 P241 P240 P225 P224 P245 P244 P247 P246 GND GND P251 P250 P253 P252 P255 P254 P257 P256 GND GND P261 P260 P263 P262 P265 P264 P267 P266 GND GND P271 P270 P273 P272 P275 P274 P277 P276 GND GND P281 P280 P283 P282 P285 P284 P287 P286 Connector pin number A51 A52 A53 A54 A55 A56 A57 A58 A59 A60 A61 A62 A63 A64 A65 A66 A67 A68 A69 A70 A71 A72 A73 A74 A75 A76 A77 A78 A79 A80 A81 A82 A83 A84 A85 A86 A87 A88 A89 A90 A91 A92 A93 A94 A95 A96 A97 A98 A99 A100 Evaluation MCU pin number ⎯ ⎯ J1 L2 C2 D3 B3 C4 B4 C5 ⎯ ⎯ L1 N2 N4 N3 M4 M3 K1 M2 ⎯ ⎯ N1 P1 R3 T2 P3 R2 M1 P2 AF37 AF36 AG36 AG37 ⎯ AK38 AH36 AJ36 AL38 AE1 AE2 ⎯ A6 C8 E9 ⎯ ⎯ AB38 ⎯ AA35 Pin name GND GND P291 P290 P293 P292 P295 P294 P297 P296 GND GND P301 P300 P303 P302 P305 P304 P307 P306 GND GND P311 P310 P313 P312 P315 P314 P317 P316 D16 D18 D20 D22 GND D25 D27 D29 D31 MD0 MD2 NC AVRH3 AVRL AVSS UVCC3 GND X1A GND X0A Row A corresponds to the polarity display side of the connector, while Row B corresponds to the opposite side. 35 Table 9 Header I/F connector 2 (Row B) Connector pin number B1 B2 B3 B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29 B30 B31 B32 B33 B34 B35 B36 B37 B38 B39 B40 B41 B42 B43 B44 B45 B46 B47 B48 B49 B50 Evaluation MCU pin number ⎯ ⎯ ⎯ ⎯ R1 U4 V2 U3 U2 T3 R4 T4 ⎯ ⎯ W2 W3 V1 W4 U1 V4 T1 V3 ⎯ ⎯ AA1 AB1 Y2 AA4 Y1 Y4 W1 Y3 ⎯ ⎯ AC1 AC2 AB4 AC4 AB2 AB3 AA2 AA3 ⎯ ⎯ L36 K37 L35 M36 M35 L38 Pin name NC NC NC NC P321 P320 P323 P322 P325 P324 P327 P326 GND GND P331 P330 P333 P332 P335 P334 P337 P336 GND GND P341 P340 P343 P342 P345 P344 P347 P346 GND GND P351 P350 P353 P352 P355 P354 P357 P356 GND GND A1 A0 A3 A2 A5 A4 Connector pin number B51 B52 B53 B54 B55 B56 B57 B58 B59 B60 B61 B62 B63 B64 B65 B66 B67 B68 B69 B70 B71 B72 B73 B74 B75 B76 B77 B78 B79 B80 B81 B82 B83 B84 B85 B86 B87 B88 B89 B90 B91 B92 B93 B94 B95 B96 B97 B98 B99 B100 Evaluation MCU pin number L37 M38 M37 ⎯ N35 N36 P35 P36 P38 N38 ⎯ N37 R36 P37 R37 T36 T37 R38 T354 T38 U35 ⎯ U37 U36 V37 V36 V38 U38 ⎯ V35 AH38 AF35 AG35 AH37 AJ38 AH35 AJ35 AJ37 ⎯ AF2 ⎯ ⎯ D7 B6 A7 ⎯ ⎯ AA36 ⎯ AB35 Pin name A7 A6 A8 GND A10 A9 A12 A11 A14 A13 GND A15 A17 A16 A19 A18 A21 A20 A23 A22 A24 GND A26 A25 A28 A27 A30 A29 GND A31 D17 D19 D21 D23 D24 D26 D28 D30 GND MD1 NC NC AVCC5 AVCC3 AVRH5 UVCC3 GND X0 GND X1 Row A corresponds to the polarity display side of the connector, while Row B corresponds to the opposite side. 36 Table 10 STP connector Connector pin number Pin name Connector pin number Pin name 2 NC 1 NC 4 NC 3 NC 6 NC 5 TRCCLK 8 NC 7 NC 10 NC 9 TRSTART 12 VCCIO 11 TRCD0 14 VCCIO 13 TRCD1 16 TRCD7 15 NC 18 TRCD8 17 STP_POWERED 20 TRCD9 19 nSTP_CONNECTED 22 TRCD10 21 TRCD2 24 TRCD11 23 TRCD3 26 TRCD12 25 TRCD4 28 TRCD13 27 TRCD5 30 TRCD14 29 TRCD6 32 TRCD16 31 TRCD15 34 TRCD18 33 TRCD17 36 TRCD20 35 TRCD19 38 TRCD22 37 TRCD21 Pins marked NC are not used by the adapter. Refer to the instruction manual of the SuperTrace Probe for details on the pin name and function. The row of odd numbered pins corresponds to the polarity display side. The row of even numbered pins corresponds to the opposite side. 37 5.4 External ROM emulation memory AC specifications ■ Write timing of external ROM emulation memory Figure 27 shows the write timing of the external ROM emulation memory. twc A[22:0] twr tcw ECSX twp tds tdh EWRX D[31:0] Symbol Parameter Min Max Unit 45.2 ⎯ ns 33.9 ⎯ ns twc Write cycle time tcw ECSX ↓ => EWRX twp Write pulse width 22.6 ⎯ ns tds Data setup time 22.6 ⎯ ns tdh Data hold time 0.0 ⎯ ns twr Address hold time 1.0 ⎯ ns ↑ Figure 27 Write timing of external ROM emulation memory 38 ■ Read timing of external ROM emulation memory Figure 28 shows the read timing of the external ROM emulation memory. It should be noted that the AC specifications vary depending on the voltage supplied to VCC5. trc A[22:0] ECSX trd RDX taa D[31:0] Read access at VCC5 = 3.3V Symbol Parameter Min Max Unit 25.0 ⎯ ns trc Read cycle time taa Address access time ⎯ 25.0 ns trd Valid data output time from RDX ↓ ⎯ 17.1 ns Min Max Unit 30.5 ⎯ ns Read access at VCC5 = 5V Symbol Parameter trc Read cycle time taa Address access time ⎯ 30.5 ns trd Valid data output time from RDX ↓ ⎯ 22.5 ns Figure 28 Read timing of external ROM emulation memory 39 SS01-71129-1E FUJITSU MICROELECTRONICS • SUPPORT SYSTEM DSU-FR EMULATOR BGA-660P ADAPTER TYPE 2 MB2198-300A-E OPERATION MANUAL January 2009 the first edition Published FUJITSU MICROELECTRONICS LIMITED Edited Sales Promotion Department