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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.
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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.
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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.
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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
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