SH7750 E10A Emulation Memory Board (HS7750EJH01H) User`s

SH7750 E10A Emulation Memory Board (HS7750EJH01H) User`s
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User’s Manual
SH7750 E10A
Emulation Memory Board
(HS7750EJH01H)
User’s Manual
Rev.1.0 2002.09
To all our customers
Regarding the change of names mentioned in the document, such as Hitachi
Electric and Hitachi XX, to Renesas Technology Corp.
The semiconductor operations of Mitsubishi Electric and Hitachi were transferred to Renesas
Technology Corporation on April 1st 2003. These operations include microcomputer, logic, analog
and discrete devices, and memory chips other than DRAMs (flash memory, SRAMs etc.)
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Cautions
Keep safety first in your circuit designs!
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or property damage.
Remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i)
placement of substitutive, auxiliary circuits, (ii) use of nonflammable material or (iii) prevention against any malfunction or
mishap.
Notes regarding these materials
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Cautions
1. Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s
patent, copyright, trademark, or other intellectual property rights for information contained in
this document. Hitachi bears no responsibility for problems that may arise with third party’s
rights, including intellectual property rights, in connection with use of the information
contained in this document.
2. Products and product specifications may be subject to change without notice. Confirm that you
have received the latest product standards or specifications before final design, purchase or
use.
3. Hitachi makes every attempt to ensure that its products are of high quality and reliability.
However, contact Hitachi’s sales office before using the product in an application that
demands especially high quality and reliability or where its failure or malfunction may directly
threaten human life or cause risk of bodily injury, such as aerospace, aeronautics, nuclear
power, combustion control, transportation, traffic, safety equipment or medical equipment for
life support.
4. Design your application so that the product is used within the ranges guaranteed by Hitachi
particularly for maximum rating, operating supply voltage range, heat radiation characteristics,
installation conditions and other characteristics. Hitachi bears no responsibility for failure or
damage when used beyond the guaranteed ranges. Even within the guaranteed ranges,
consider normally foreseeable failure rates or failure modes in semiconductor devices and
employ systemic measures such as fail-safes, so that the equipment incorporating Hitachi
product does not cause bodily injury, fire or other consequential damage due to operation of
the Hitachi product.
5. This product is not designed to be radiation resistant.
6. No one is permitted to reproduce or duplicate, in any form, the whole or part of this document
without written approval from Hitachi.
7. Contact Hitachi’s sales office for any questions regarding this document or Hitachi
semiconductor products.
IMPORTANT INFORMATION
READ FIRST
• READ this user's manual before using this emulation memory board.
• KEEP the user's manual handy for future reference.
Do not attempt to use the emulation memory board until you fully understand its
mechanism.
Emulation Memory Board:
Throughout this document, the term "emulation memory board" shall be defined as the
following products produced only by Hitachi, Ltd. excluding all subsidiary products.
•
•
Emulation memory board
Power cables supplied together with this emulation memory board
The user system or a host computer is not included in this definition.
Purpose of the Emulation Memory Board:
This emulation memory board is an optional board for supporting the development of the
systems using the SH7750. This memory board must only be used for the above purpose.
Limited Applications:
This emulation memory board is not authorized for use in MEDICAL, atomic energy,
aeronautical or space technology applications without consent of the appropriate officer of a
Hitachi sales company. Such use includes, but is not limited to, use in life support systems.
Buyers of this emulation memory board must notify the relevant Hitachi sales offices before
planning to use the product in such applications.
Improvement Policy:
Hitachi, Ltd. (including its subsidiaries, hereafter collectively referred to as Hitachi) pursues a
policy of continuing improvement in design, functions, performance, and safety of the emulation
memory board. Hitachi reserves the right to change, wholly or partially, the specifications, design,
user's manual, and other documentation at any time without notice.
Target User of the Emulation Memory Board:
This emulation memory board should only be used by those who have carefully read and
thoroughly understood the information and restrictions contained in the user's manual. Do not
attempt to use the emulation memory board until you fully understand its mechanism.
It is highly recommended that first-time users be instructed by users that are well versed in the
operation of the emulation memory board.
i
LIMITED WARRANTY
Hitachi warrants its emulation memory boards to be manufactured
in accordance with published specifications and free from defects in
material and/or workmanship. Hitachi, at its option, will repair or
replace any emulation memory boards returned intact to the factory,
transportation charges prepaid, which Hitachi, upon inspection,
determine to be defective in material and/or workmanship. The
foregoing shall constitute the sole remedy for any breach of Hitachi's
warranty. See the Hitachi warranty booklet for details on the warranty
period. This warranty extends only to you, the original Purchaser. It is
not transferable to anyone who subsequently purchases the emulation
memory board from you. Hitachi is not liable for any claim made by
a third party or made by you for a third party.
DISCLAIMER
HITACHI MAKES NO WARRANTIES, EITHER EXPRESS OR
IMPLIED, ORAL OR WRITTEN, EXCEPT AS PROVIDED
HEREIN, INCLUDING WITHOUT LIMITATION THEREOF,
WARRANTIES AS TO MARKETABILITY, MERCHANTABILITY,
FITNESS FOR ANY PARTICULAR PURPOSE OR USE, OR
AGAINST INFRINGEMENT OF ANY PATENT. IN NO EVENT
SHALL HITACHI BE LIABLE FOR ANY DIRECT, INCIDENTAL
OR CONSEQUENTIAL DAMAGES OF ANY NATURE, OR
LOSSES OR EXPENSES RESULTING FROM ANY DEFECTIVE
EMULATION MEMORY BOARD, THE USE OF ANY
EMULATION MEMORY BOARD, OR ITS DOCUMENTATION,
EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
EXCEPT AS EXPRESSLY STATED OTHERWISE IN THIS
WARRANTY, THIS EMULATION MEMORY BOARD IS SOLD
"AS IS ", AND YOU MUST ASSUME ALL RISK FOR THE USE
AND RESULTS OBTAINED FROM THE EMULATION MEMORY
BOARD.
ii
State Law:
Some states do not allow the exclusion or limitation of implied warranties or liability for
incidental or consequential damages, so the above limitation or exclusion may not apply to you.
This warranty gives you specific legal rights, and you may have other rights which may vary from
state to state.
The Warranty is Void in the Following Cases:
Hitachi shall have no liability or legal responsibility for any problems caused by misuse, abuse,
misapplication, neglect, improper handling, installation, repair or modifications of the emulation
memory board without Hitachi's prior written consent or any problems caused by the user system.
All Rights Reserved:
This user's manual and emulation memory board are copyrighted and all rights are reserved by
Hitachi. No part of this user's manual, all or part, may be reproduced or duplicated in any form, in
hard-copy or machine-readable form, by any means available without Hitachi's prior written
consent.
Other Important Things to Keep in Mind:
1. Circuitry and other examples described herein are meant merely to indicate the characteristics
and performance of Hitachi's semiconductor products. Hitachi assumes no responsibility for
any intellectual property claims or other problems that may result from applications based on
the examples described herein.
2. No license is granted by implication or otherwise under any patents or other rights of any third
party or Hitachi.
Figures:
Some figures in this user's manual may show items different from your actual system.
Limited Anticipation of Danger:
Hitachi cannot anticipate every possible circumstance that might involve a potential hazard.
The warnings in this user's manual and on the emulation memory board are therefore not all
inclusive. Therefore, you must use the emulation memory board safely at your own risk.
iii
SAFETY PAGE
READ FIRST
• READ this user's manual before using this emulation memory board.
• KEEP the user's manual handy for future reference.
Do not attempt to use the emulation memory board until you fully understand its
mechanism.
DEFINITION OF SIGNAL WORDS
This is the safety alert symbol. It is used to alert you to potential personal
injury hazards. Obey all safety messages that follow this symbol to avoid
possible injury or death.
DANGER
WARNING
CAUTION
CAUTION
DANGER indicates an imminently hazardous situation which, if not
avoided, will result in death or serious injury.
WARNING indicates a potentially hazardous situation which, if not
avoided, could result in death or serious injury.
CAUTION indicates a potentially hazardous situation which, if not
avoided, may result in minor or moderate injury.
CAUTION used without the safety alert symbol indicates a
potentially hazardous situation which, if not avoided, may result
in property damage.
NOTE emphasizes essential information.
iv
WARNING
Observe the precautions listed below. Failure to do so
will result in a FIRE HAZARD and will damage the user
system, the emulation memory board, and the emulator
product or will result in PERSONAL INJURY. The USER
PROGRAM will be LOST.
1. Do not repair or remodel the emulation memory board
by yourself for electric shock prevention and quality
assurance.
2. Always switch OFF the emulator product, the emulation
memory board, and the user system before connecting
or disconnecting any CABLES or JUMPERS.
3. Always switch OFF the emulation memory board and
the user system before connecting or disconnecting
the IC socket or the user system interface connector.
4. When connecting the user system interface connector
to the IC socket on the user system, ensure that
pin 1 on both sides are correctly aligned.
5. Supply power according to the power specifications and
do not supply an incorrect power voltage. Use only the
provided power cables.
v
Warnings on Emulation Memory Board Usage
Be sure to read and understand the warnings below before using this emulation memory board.
Note that these are the main warnings, not a complete list.
WARNING
Always switch OFF the emulator product, the emulation
memory board, and the user system before connecting or
disconnecting any CABLES, JUMPERS, or PARTS.
Failure to do so will result in a FIRE HAZARD and will
damage the emulator product, the emulation memory board,
or the user system, or will result in PERSONAL INJURY.
The USER PROGRAM will be LOST.
CAUTION
Position the emulator product, the emulation memory
board, and the user system so that no cable is bent or
twisted. A bent or twisted cable will impose stress on the
user system interface leading to connection or contact
failure. Make sure that the emulation memory board is
placed in a secure position so that it does not move during
use nor impose stress on the user system interface.
vi
Preface
Thank you for purchasing the SH7750 E10A emulation memory board. The emulation memory
board supports the development of systems using Hitachi microcomputer SH7750.
Read this user's manual before using the emulation memory board, and keep the manual handy for
future reference.
CAUTION
READ this user's manual before using the emulation
memory board. Incorrect operation or connection will
damage the emulation memory board and the user system.
The USER PROGRAM will be LOST.
Related Manuals:
•
SH7750 Hardware Manual
•
SH7750 E10A Emulator User's Manual
Related Hardware: SH7750 E10A Emulators
•
HS7750KCM01H
•
HS7750KCI01H
vii
viii
Contents
Section 1 Overview..............................................................................................1
1.1
1.2
Features ............................................................................................................................. 1
Components ...................................................................................................................... 2
Section 2 Notes on Use ........................................................................................3
Section 3 Emulation Memory Board Functions...................................................5
Section 4 Emulation Memory Board Operation ..................................................7
4.1
4.2
Switch Setting ................................................................................................................... 8
4.1.1 Power Source Switch Setting............................................................................... 8
4.1.2 Jumper Switch Setting ......................................................................................... 8
4.1.3 DIP Switch (SW2) Setting ................................................................................... 10
4.1.4 RESET Switch (SW1).......................................................................................... 13
Monitor LEDs ................................................................................................................... 14
Section 5 Connection Procedures ........................................................................15
5.1
5.2
5.3
5.4
Connecting Emulation Memory Board to Emulator and User System ............................. 15
Operating Emulation Memory Board Without Connecting User System ......................... 21
Disconnecting Emulation Memory Board from User System........................................... 23
Recommended Dimensions for User System Mount Pad ................................................. 24
Section 6 Limitations ...........................................................................................25
6.1
Limitations on User System .............................................................................................. 25
Section 7 User System Interface ..........................................................................27
7.1
7.2
Pin Assignment and Handling of User System Interface Signals ..................................... 27
Signal Line Handling on the Emulation Memory Board and User System ...................... 31
Section 8 Emulation Memory Board Block Diagram..........................................33
ix
x
Section 1 Overview
The SH7750 E10A emulation memory board (hereinafter referred to as the emulation memory
board) has an SH7750 (hereafter referred to as the MCU), interface connectors (H-UDI port
connectors) for the E10A emulator (hereinafter called the emulator), a user system interface
connector, and SRAM devices. User programs can be emulated by connecting this emulation
memory board to the emulator.
1.1
Features
1. The emulation memory board has emulator connectors and a user system interface connector
(YQPACK208SD). When the user system has an IC socket (NQPACK208SD) but has no HUDI connector, the user system can be connected to the emulator through the emulation
memory board and the user program can be emulated.
2. The emulation memory board has SRAM devices that can be used as a substitute for the flash
memory or EPROM devices. User programs can be emulated by connecting the emulation
memory board to the emulator and supplying external power to the emulation memory, even
when no user system is connected to the emulator.
3. The emulation memory board has switches for various settings. These switches can select
(1) the source of the power supplied to the emulation memory board,
(2) the source of the clock supplied to the MCU on the emulation memory board, and
(3) the destination of the CS0 signal output from the MCU.
4. The emulation memory board has a DIP switch, which can set the MCU's MD terminal status.
1
1.2
Components
Figure 1.1 and table 1.1 show the components of the emulation memory board. Please make sure
you have all of these components when unpacking.
Emulation memory board
(HS7750EJH01H)
Pin 1 mark
Power cable
Emulator connector
User system interface
connector
Spacers
Figure 1.1 Emulation Memory Board Appearance
Table 1.1 Emulation Memory Board Components (HS7750EJH01H)
Item
Quantity
Notes
Emulation memory board
1
Power cables (2 cables for 5 V
and 2 cables for GND)
1 set
For an external power supply
Screws (M2 x 10 mm)
4
For fastening user system interface connector
NQPACK208SD
1
Connector for interfacing with the user system
Guide pins for NQPACK208SD
3
For determining the connector location
Screwdriver
1
For tightening screws
Spacers (13 mm)
4
Fixed to the emulation memory board
SH7750 E10A Emulation Memory
Board User's Manual
1
This manual
2
Section 2 Notes on Use
CAUTION
READ the following warnings before using the emulation
memory board. Incorrect operation will damage the
emulation memory board, the user system, and the emulator
product. The USER PROGRAM will be LOST.
1. Cover the emulation memory board with a casing before using it. If using the emulation
memory board without a casing, do not touch any component and prevent any short circuit.
2. Never place heavy objects on the emulation memory board.
3. Protect the emulation memory board from excessive impacts and stresses.
4. Do not supply power outside the specified voltage range.
5. When moving the emulation memory board, take care not to vibrate or damage it.
6. Supply power to the connected equipment only after connecting all cables. Cables must not be
connected or removed while the power is on.
7. The emulation memory board may operate incorrectly due to static electricity. In this case,
connect the GND patterns (the spacer-fixed sections at the four corners) on the emulation
memory board to those of the user system through cables to discharge static electricity.
8. The emulation memory board can operate only when connected to the emulator; the emulation
memory board cannot be used alone or only by connecting to the user system.
3
4
Section 3 Emulation Memory Board Functions
The functions of the emulation memory board are listed in table 3.1.
Table 3.1 Emulation Memory Board Functions
Function
Specifications
CPU clock
• Independently using emulation memory board without connecting the
user system.
Iö(CPU clock) = 200MHz(max)
• Connecting emulation memory board to the user system.
Iö(CPU clock) = 167MHz(max)
Substitution emulation
memory
• Capacity: 4 Mbytes (8 blocks of 256 kwords x 16 bits)
• ? Independently used (disconnecting emulation memory board to the
user system)
100MHz(Max.) = B (bus clock): Three wait cycles inserted by WCR2
? Connected (connecting emulation memory board to the user
system)
66MHz(Max.) = B (bus clock): Two wait cycles inserted by WCR2
• Can be allocated to the CS0 area
(Substitution memory area: H’00000000 to H’003FFFFF)
• Data bus width can be selected from 16, 32, or 64 bits
(8-bit width is not supported)
User interface
Supported package: 208 pin QFP
Crystal oscillator
Supported frequency for crystal oscillation: 9 MHz to 20 MHz
Switch settings
• SW3: Selects the power source
• JP1: Selects the clock source
• JP2: Selects the CS0 signal output destination
DIP switch settings
• SW2-1 to SW2-3: Selects the clock operating mode
• SW2-4 and SW2-5: Selects the memory bus width
• SW2-6: Selects the endian
• SW2-7: Selects the memory type of area 0
• SW2-8: Selects the master or slave mode
• SW2-9: Selects whether or not to use crystal oscillator
RESET switch
SW1: Issues a RESET signal
LEDs
• LED1: RESET and POWER
• LED2: SHRDY and U-RUN
• LED3: BREQ and NMI
• LED4: STATUS1 and STATUS0
5
Table 3.2 Emulation Memory Board Functions (cont)
Function
Specifications
Power supply
• The emulation memory board can operate without connecting the user
system by supplying +5 V through power connector J1 (IL-4P-S3FP2:
manufactured by Japan Aviation Electronics Industry, Ltd.)
The power connector pins work as follows:
Pin 1: GND (black)
Pin 2: 5 V (red )
Pin 3: 5 V (red)
Pin 4: GND (black)
• When the emulation memory board is connected to the user system,
supply +3.3 V from the VDDQ pin on the YQPACK208SD connector,
respectively.
Notes: 1. For the substitution emulation memory, a 16-bit bus, a 32-bit bus, and a 64-bit
bus are supported. Do not set the bus width to 8 bits when using the substitution
emulation memory.
2. When allocating substitution emulation memory to area 0, set BCR1 of the bus
state controller so that area 0 becomes the normal memory space (SRAM).
3. When allocating substitution emulation memory to an area, set WCR2 of the bus
state controller to provide an appropriate cycle access state.
CAUTION
Restriction on Buffer Control Using the RD Signal:
RD signal output cannot be disabled from the emulator.
Consequently, when the buffer control on the user
system uses only the RD signal, data read from this
emulation memory board and data output from the buffer
may conflict. For this reason, when using the emulation
memory board, be sure to control the data bus buffer of
the user system with both the CS and RD (used in
direction control) signals.
6
Section 4 Emulation Memory Board Operation
The emulation memory board has a RESET switch (SW1) for issuing a reset signal, a DIP switch
(SW2) and jumper switches (JP1 and JP2) for various settings, a switch (SW3) for selecting the
power source, a socket (SP1) for installing a crystal oscillator, and LEDs for signal monitoring.
Figure 4.1 shows the switches, socket, and LEDs.
1
1
3
JP2
3
SP1
JP1
HS7750EJH01H/2
USER
SW3
EML
10
9
8
7
6
4
3
2
1
5
SW2
J1
LED1 LED2 LED3 LED4
SW1
Figure 4.1 Switches, Socket, and LEDs
7
4.1
Switch Setting
4.1.1
Power Source Switch Setting
The SW3 selects whether the power for the emulation memory board is supplied from an external
source or through the user system interface.
WARNING
Always switch OFF the user system and the emulation
memory board before power source switch setting. Failure
to do so will damage the user system and the emulation
memory board. The USER PROGRAM will be LOST.
To supply power from an external source (sliding the switch to EML):
USER
SW3
EML
To supply power through the user system interface (sliding the switch to USER):
USER
SW3
EML
4.1.2
Jumper Switch Setting
The emulation memory board has two jumper switches JP1 and JP2 for the following settings.
JP1 Function: The JP1 selects whether the clock for the MCU is supplied from the emulation
memory board or from the user system. When installing a crystal oscillator into the socket (SP1)
on the emulation memory board, open JP1. In this case, set the jumper connector on pin 3 as
shown below so that the jumper connector will not be lost.
To supply the clock from the emulation memory board:
JP1
1
3
To supply the clock from the user system:
JP1
1
3
To install a crystal oscillator into the SP1 socket on the emulation memory board (JP1 is open):
JP1
1
3
8
Notes: 1. When closing 1-2 pins or 2-3 pins of JP1, turn switch 9 of SW2 ON (see table 4.6).
When leaving JP1 open (installing a crystal oscillator), turn switch 9 of SW2 OFF.
2. The emulation memory board supports the external clock input through the
EXTAL pin and the clock generated by the crystal oscillator connected to the
EXTAL and XTAL pins. Therefore, be sure to supply the clock to the EXTAL pin
when using the user system clock. If the clock is supplied to the XTAL, EXTAL2,
or XTAL2 pin, the emulation memory board cannot operate.
JP2 Function: The JP2 selects the CS0 signal output destination to specify whether the
substitution memory on the emulation memory board or the memory of the user system is used.
CAUTION
1. Restriction on Buffer Control Using the RD Signal:
RD signal output cannot be disabled from the emulator.
Consequently, when the buffer control on the user
system uses only the RD signal, data read from this
emulation memory board and data output from the buffer
may conflict. For this reason, when using the emulation
memory board, be sure to control the data bus buffer of
the user system with both the CS and RD (used in
direction control) signals.
2. The substitution emulation memory is allocated to the
4 Mbytes from the start address of area 0. If the memory
of the user system is allocated to area 0, that is, the
same area as the substitution emulation memory, only
the memory selected by the JP2 setting is used. When
the substitution emulation memory is selected by JP2,
the CS0 signal is not output to the user system.
To use the substitution memory on the emulation memory board:
JP2
1
3
To use the memory of the user system:
JP2
1
3
9
4.1.3
DIP Switch (SW2) Setting
The emulation memory board has one DIP switch for the following settings.
•
Selecting the clock operating mode: Three switches
•
Selecting the memory bus width: Two switches
•
Selecting the endian: One switch
•
Selecting the memory type of area 0: One switch
•
Selecting the master or slave mode: One switch
•
Selecting whether or not to install crystal oscillator: One switch
Note: For details on the mode control terminals (MD0 to MD8), refer to the SH7750
Hardware Manual.
CAUTION
O
N
When a user system is connected to the emulation
memory board, the DIP switch (SW2) settings are ignored,
and the MD0 to MD8 signals input to the user system are
used.
1
2
3
4
5
6
7
8
9
0
ON
OFF
Figure 4.2 DIP Switch (SW2) Appearance and Settings at Shipment
10
Clock Operating Mode Setting: Select the clock operating mode as shown in table 4.1.
Table 4.1
Clock Operating Mode Setting (Switches 1 to 3 in SW2)
Switches in SW2 (Corresponding Mode Pins)
1 (MD0)
2 (MD1)
3 (MD2)
Clock Mode
Remarks
ON
ON
ON
0
Initial setting at shipment
OFF
ON
ON
1
ON
OFF
ON
2
OFF
OFF
ON
3
ON
ON
OFF
4
OFF
ON
OFF
5
Memory Bus Width Setting: Select the memory bus width for area 0 as shown in table 4.2.
Table 4.2
Memory Bus Width Setting (Switches 4 and 5 in SW2)
Switches in SW2
(Corresponding Mode Pins)
4 (MD3)
5 (MD4)
Memory Bus Width
Remarks
OFF
ON
8 bits
Do not use this setting
ON
OFF
16 bits
OFF
OFF
32 bits
ON
ON
64 bits
Initial setting at shipment
Note: The substitution emulation memory does not support the 8-bit bus width.
Endian Setting: Select the endian as shown in table 4.3.
Table 4.3
Endian Setting (Switch 6 in SW2)
Switch in SW2
(Corresponding Mode Pin)
6 (MD5)
Endian
Remarks
ON
Big endian
Initial setting at shipment
OFF
Little endian
11
Memory Type Setting for Area 0: Select the memory type of area 0 as shown in table 4.4.
Table 4.4
Memory Type Setting for Area 0 (Switch 7 in SW2)
Switch in SW2
(Corresponding Pin)
7 (MD6)
Memory Type
ON
MPX bus type
OFF
Normal memory type
Remarks
Initial setting at shipment
Note: When using the substitution emulation memory board, set this switch to OFF.
Master or Slave Mode Setting: Select the master or slave mode as shown in table 4.5.
Table 4.5
Master or Slave Mode Setting (Switch 8 in SW2)
Switch in SW2
(Corresponding Pin)
8 (MD7)
Master or Slave Mode
ON
Slave mode
OFF
Master mode
Remarks
Initial setting at shipment
Crystal Oscillator Setting: Select whether or not to install a crystal oscillator as shown in table
4.6.
WARNING
Always switch OFF the user system and the emulation
memory board before installing or uninstalling the crystal
oscillator to/from the SP1 socket. Failure to do so will
damage the user system, the emulation memory board, and
the crystal oscillator. The USER PROGRAM will be LOST.
Table 4.6
Crystal Oscillator Setting (Switch 9 in SW2)
Switch in SW2 (Corresponding Pin)
9 (MD8)
Crystal Oscillator
Remarks
ON
Not installed
Initial setting at shipment
OFF
Installed
Note: When setting this switch to ON, do not open JP1. When setting this switch to OFF,
be sure to install a crystal oscillator into the SP1 socket on the emulation memory
board.
12
SEL Switch:
Table 4.7
SEL Switch (Switch 0 in SW2)
Switch in SW2
(Corresponding Pin)
0 (-)
Function
Remarks
ON
Reserved
Initial setting at shipment
OFF
Reserved
Note: Switch 0 in the SW2 is reserved. Use the initial setting at shipment and do not
change it.
4.1.4
RESET Switch (SW1)
The emulation memory board has RESET switch for issuing a reset signal.
The /RESETP signal to the MCU is obtained by ORing the reset signal from the RESET switch,
that from the power-on reset circuit on the emulation memory board, and the /RESETP signal
from the user system. The manual reset, on the other hand, is done using only the /RESETM
signal from the user system. Figure 4.3 shows the logic diagram for the reset circuit.
MCU
User system interface
/RESETM
/RESETM
/RESETP
/RESETP
RESET switch
SW1
Power-on
reset circuit
Figure 4.3 Reset Circuit Logic Diagram
13
4.2
Monitor LEDs
The emulation memory board has LEDs for monitoring the operating state. Table 4.8 shows the
LEDs and the states to be monitored.
For details on STATUS1 and STATUS0 signals, refer to the SH7750 Hardware Manual.
Table 4.8
LEDs and States to Be Monitored
Green LED lit when /RDY is asserted
U-RUN
Red LED lit when in USER RUN state
BREQ
Green LED lit when /BREQ is asserted
NMI
Red LED lit when /NMI is asserted
STATUS1
Green LED lit when STATUS1 is 0 (low)
STATUS0
Red LED lit when STATUS0 is 0 (low)
Signal: ASEBRKAK
0
9
LED4
Remarks
RESET
POWER
SHRDY
U-RUN
BREQ
NMI
STATUS1
STATUS0
LED3
8
Red LED lit when power is supplied
SHRDY
7
POWER
LED2
6
Green LED lit when /RESETP is asserted
5
RESET
4
LED1
3
LED Status
2
Indication
on the Board
1
LED
LED1 LED2 LED3 LED4
Figure 4.4 LED Location and Indication on the Board
14
Section 5 Connection Procedures
5.1
Connecting Emulation Memory Board to Emulator and User System
Be sure to switch off the emulator and user system before connecting the emulation memory
board, emulator, and user system. Do not supply power to the power connector on the emulation
memory board when using the user system.
WARNING
Observe the precautions listed below. Failure to do so
will result in a FIRE HAZARD and will damage the user
system, the emulation memory board, and the emulator
product or will result in PERSONAL INJURY. The USER
PROGRAM will be LOST.
1.
Always switch OFF the emulator product, the emulation
memory board, and the user system before connecting
the EMULATOR PRODUCT, EMULATION MEMORY
BOARD, or USER SYSTEM.
2.
DO NOT supply power to the emulation memory board
power connector (J1) when the emulation memory board
is connected to the user system. When connected to
the user system, the emulation memory board receives
power from the VDDQ pin of the IC socket
(NQPACK208SD) and operates by the user system power.
15
Connecting Emulation Memory Board to Emulator: Connect the emulator to the CN1
connector on the emulation memory board through an E10A emulator user system interface cable.
For details on the connection procedure, refer to the SH7750 E10A Emulator User’s Manual.
1
1
3
10
9
8
7
6
5
4
3
2
1
HS7750EJH01H/2
CN1
Figure 5.1 Connectors for Emulator
16
3
Connecting Emulation Memory Board to User System: Follow the instructions below.
WARNING
Observe the precautions listed below. Failure to do so
will result in a FIRE HAZARD and will damage the user
system, the emulation memory board, and the emulator
product or will result in PERSONAL INJURY. The USER
PROGRAM will be LOST.
1.
Always switch OFF the emulator product, the emulation
memory board, and the user system before connecting
the EMULATOR PRODUCT, EMULATION MEMORY
BOARD, or USER SYSTEM.
2.
Use the recommended IC socket on the user system.
Otherwise, excessive force will be applied to
the emulation memory board and the user system when
the emulation memory board is connected to or
disconnected from the user system.
CAUTION
1.
Use NQPACK208SD (manufactured by Tokyo Eletech
Corporation) as the QFP208 IC socket on the user
system.
2.
To mount the MCU directly on the NQPACK208SD
socket, a socket cover must be used. Separately
purchase HQPACK208SD (manufactured by Tokyo
Eletech Corporation).
17
1. Confirm that the pins of the YQPACK connector on the emulation memory board are not bent.
2.
Align pin 1 of the YQPACK connector on the emulation memory board with pin 1 of the
NQPACK socket on the user system, and insert the connector into the socket.
CAUTION
The structures of the YQPACK connector and NQPACK
socket prevent the connector from being fully inserted in the
wrong direction. If the connector cannot be inserted fully,
pin 1 on the connector and that on the socket may not be
aligned correctly. Check the pin 1 locations on the
connector and socket and re-insert the YQPACK connector.
3. After inserting the YQPACK connector on the emulation memory board into the NQPACK
socket of the user system, fix the emulation memory board in place with the supplied screws,
as shown in figure 5.2.
CAUTION
1. Use the supplied screwdriver.
2. The tightening torque must be 0.054 N•m or less. Stop
tightening when the force required to turn the screw
becomes significantly greater than that needed when
first tightening.
3. If a screw is tightened too much, the screw head may
break or an IC socket contact error may be caused
by a crack in the IC socket solder.
4. If the emulator does not operate correctly, cracks might
have occurred in the solder. Check conduction with
a tester and re-solder the IC socket if necessary.
18
Screws
Emulation memory board
Pin 1 mark
YQPACK208SD
Pin 1 mark
NQPACK208SD
User system
Figure 5.2 Connecting Emulation Memory Board to User System
19
Power Supply Specifications: When the user system is connected, the emulation memory board
operates by the user system power. Supply the user system power according to the specifications
and rising timing shown in table 5.1 and figure 5.3.
CAUTION
1.
Check that the SW3 switch is set to the power supply
through the user system interface, and supply 3.3-V
power to the VDDQ pin. Do not supply power to the
power connector (J1) on the emulation memory board.
When power is supplied through the user system
interface (YQPACK), only 3.3-V power should be supplied
from the user system, and the emulation memory board
generates 1.95-V power from the 3.3-V power. Therefore,
the VDD pin (1.95 V) of the user system interface
(YQPACK) is not connected to the MCU on the emulation
memory board.
2.
Table 5.1
Power Supply Specifications
Allowable Power Range
Current Consumption
+ 3.3 VDC ± 5%
2.0 A (max.)
Ta
+ 3.3 V
Ta
0V
Figure 5.3 Characteristics of DC Rising Timing
20
50 ms
5.2
Operating Emulation Memory Board Without Connecting User
System
Be sure to switch off the emulator and emulation memory board before connecting them together
and before connecting the power cables to the emulation memory board.
WARNING
Always switch OFF the emulator product and the
emulation memory board before connecting
the EMULATOR PRODUCT, EMULATION MEMORY BOARD,
or POWER CABLES. Failure to do so will result in a FIRE
HAZARD and will damage the emulator product and the
emulation memory board or will result in PERSONAL
INJURY. The USER PROGRAM will be LOST.
Connecting to the Emulator: Connect the emulation memory board to the emulator by using the
same procedure as in section 5.1, Connecting Emulation Memory Board to Emulator and User
System.
Connecting the Power Cables: After making sure the alignment is correct, connect the provided
power cables to the power connector (J1) on the emulation memory board to supply power, as
shown in figure 5.4. (The power cable and connector structures will prevent the power cables
from being connected in the wrong direction.)
Note that the red cables are for 5-V power and the black ones are for GND; connect them to the
DC power source correctly.
WARNING
Be sure to connect the power cables to the DC power
source correctly, that is, the red cables to the 5-V power and
the black ones to GND. Failure to do so will result in a FIRE
HAZARD and will damage the emulator product and the
emulation memory board or will result in PERSONAL
INJURY. The USER PROGRAM will be LOST.
21
Emulation memory board
(HS7750EJH01H)
Pin 1 mark
1: GND (black)
4: GND (black)
Power
connector
(J1)
2: 5 V (red)
3: 5 V (red)
Power cable
Figure 5.4 Connecting Power Cables to Power Connector
Power Supply Specifications: Table 5.2 shows the power supply specifications, and
figure 5.5 shows the rising timing of the power.
Table 5.2
Power Supply Specifications
Allowable Power Range
Current Consumption
+ 5.0 VDC ± 5%
2.0 A (max.)
Tc
+ 5.0 V
Tc
0V
Figure 5.5 Characteristics of DC Rising Timing
22
60 ms
5.3
Disconnecting Emulation Memory Board from User System
Be sure to switch off the emulator and user system before disconnection.
WARNING
Always switch OFF the emulator product, the emulation
memory board, and the user system before disconnecting
the EMULATOR PRODUCT, EMULATION MEMORY BOARD,
or USER SYSTEM. Failure to do so will result in a FIRE
HAZARD and will damage the emulator product, the
emulation memory board, and the user system or will result
in PERSONAL INJURY. The USER PROGRAM will be LOST.
Disconnecting Emulation Memory Board from User System: Follow the instructions below.
1. Remove the screws that connect the YQPACK connector and the NQPACK socket.
2. After removing all screws, remove the emulation memory board from the user system, taking
care not to bend any of the pins.
Screws
Emulation memory board
Pin 1 mark
YQPACK208SD
NQPACK208SD
User system
Figure 5.6 Disconnecting Emulation Memory Board
23
5.4
Recommended Dimensions for User System Mount Pad
Figure 5.7 shows the recommended dimensions for the mount pad (footprint) for the user system
with an IC socket for a QFP208 package (NQPACK208SD: manufactured by Tokyo Eletech
Corporation). Note that the dimensions in figure 5.7 are somewhat different from those of the
actual chip's mount pad.
31.0 min
27.0 max
0.5
0.05
2.0
0.1
0.25
0.05
12.0
0.1
0.1
0.5
51 = 25.5
12.0
0.1
0.1
0.5
0.05
0.5
51 = 25.5
3- 1.0
(For determining
the socket location)
Unit: mm
Figure 5.7 Recommended Dimensions for Mount Pad
24
Section 6 Limitations
6.1
Limitations on User System
To use the emulation memory board together with the user system, do not mount any components
in the mount-prohibited areas (figure 6.1) of the user system. If any component is mounted on any
of these areas, remove the corresponding spacer from the emulation memory board. In this case,
take special care not to give any stress to the user system interface section (NQPACK).
The height of the mounted components must be 8.0 mm or shorter in the height-limited area
(figure 6.1) of the user system. If any component in this area is higher than 8.0 mm, the emulation
memory board cannot be connected to the user system.
85.09
33.02
Pin 1
NQPACK
center
8.00
44.36
Mount-prohibited area
NQPACK
location
Height-limited area:
8.0 mm or shorter
Unit: mm
Tolerance: ± 0.20 mm
120.65
8.00
Figure 6.1 Mount-Prohibited and Height-Limited Areas of User System
25
26
Section 7 User System Interface
7.1
Pin Assignment and Handling of User System Interface Signals
The emulation memory board has a connector (YQPACK) for user system interface. Table 7.1
shows the pin assignment of the user system interface connector and signal handling on the
emulation memory board.
Table 7.1
Pin Assignment and Handling of User System Interface
No.
Signal Name
Handling
Notes
No.
Signal Name
Handling
1
RDY
Pull-up
47 kΩ
31
VDDQ
3.3 V
2
RESET
Pull-up
47 kΩ
32
VSSQ
GND
3
CS0
Pull-up
47 kΩ
33
D15
4
CS1
34
D0
5
CS4
35
D14
6
CS5
36
D1
7
CS6
37
D13
8
BS
38
D2
9
VDDQ
3.3 V
39
VDD
NC
10
VSSQ
GND
40
VSS
GND
11
D47
41
D12
12
D32
42
D3
13
VDD
NC
43
VDDQ
3.3 V
14
VSS
GND
44
VSSQ
GND
15
D46
45
D11
16
D33
46
D4
17
D45
47
D10
18
D34
48
D5
19
D44
49
D9
20
D35
50
D6
21
VDDQ
3.3 V
51
BACK/BSREQ
22
VSSQ
GND
52
BREQ/BSACK
23
D43
53
D8
24
D36
54
D7
25
D42
55
CKE
26
D37
56
VDDQ
3.3 V
27
D41
57
VSSQ
GND
28
D38
58
WE5/CAS5/DQM5
29
D40
59
WE4/CAS4/DQM4
30
D39
60
WE1/CAS1/DQM1
27
Pull-up
Notes
47 kΩ
Table 7.1
Pin Assignment and Handling of User System Interface (cont)
No.
Signal Name
61
62
Handling
Notes
No.
Signal Name
WE0/CAS0/DQM0
96
WE2/CAS2/DQM2/ICI
ORD
A17
97
WE3/CAS3/DQM3/ICI
OWR
Handling
Notes
63
A16
98
WE6/CAS6/DQM6
64
A15
99
VDDQ
3.3 V
65
VDD
NC
100
VSSQ
GND
66
VSS
GND
101
WE7/CAS7/DQM7/
REG
67
A14
102
D23
68
A13
103
D24
69
VDDQ
3.3 V
104
D22
70
VSSQ
GND
105
RXD
Pull-up
47 kΩ
71
A12
106
DREQ0
Pull-up
47 kΩ
72
A11
107
DREQ1
Pull-up
47 kΩ
73
A10
108
D25
74
A9
109
D21
75
A8
110
D26
76
A7
111
D20
77
CKIO
112
D27
78
VDDQ
3.3 V
113
VDDQ
3.3 V
79
VSSQ
GND
114
VSSQ
GND
80
A6
115
D19
81
A5
116
D28
82
A4
117
VDD
NC
83
A3
118
VSS
GND
84
A2
119
D18
85
DRAK1
120
D29
86
DRAK0
121
D17
87
VDDQ
3.3 V
122
D30
88
VSSQ
GND
123
D16
89
CS3
124
D31
90
CS2
125
VDDQ
3.3 V
91
VDD
NC
126
VSSQ
GND
92
VSS
GND
127
D55
93
RAS
128
D56
94
RD/CASS/FRAME
129
D54
95
RD/WR
130
D57
28
Table 7.1
Pin Assignment and Handling of User System Interface (cont)
No.
Signal Name
131
132
Handling
Notes
No.
Signal Name
Handling
D53
170
VSS
GND
D58
171
A18
133
D52
172
A19
134
D59
173
A20
135
VDDQ
3.3 V
174
A21
136
VSSQ
GND
175
A22
137
D51
176
A23
138
D60
177
VDDQ
3.3 V
139
D50
178
VSSQ
GND
140
D61
179
A24
141
D49
180
A25
142
D62
143
VDD
NC
144
VSS
GND
145
D48
146
D63
147
VDDQ
3.3 V
186
A0
148
VSSQ
GND
187
VDDQ
3.3 V
149
MD0/SCK
Pull-up
47 kΩ
188
VSSQ
GND
150
MD1/TXD2
Pull-up
47 kΩ
189
A1
151
MD2/RXD2
Pull-up
47 kΩ
190
STATUS0
152
IRL0
Pull-up
47 kΩ
191
STATUS1
153
IRL1
Pull-up
47 kΩ
192
MD6/IOIS16
Pull-up
154
IRL2
Pull-up
47 kΩ
193
ASEBRK/BRKACK
NC
155
IRL3
Pull-up
47 kΩ
194
TDO
NC
156
NMI
Pull-up
47 kΩ
195
VDD
NC
157
XTAL2
196
VSS
GND
158
EXTAL2
Pull-up
47 kΩ
197
TMS
NC
159
VSS-RTC
GND
198
TCK
NC
160
VDD-RTC
3.3 V
161
Reserved
Pull-up
162
VSS
GND
201
VDD-PLL2
3.3 V
163
VDDQ
3.3 V
202
VSS-PLL2
U-GND
164
CST2
Pull-up
47 kΩ
203
VDD-PLL1
3.3 V
165
TCLK
Pull-up
47 kΩ
204
VSS-PLL1
GND
166
MD8/RTS2
Pull-up
47 kΩ
205
VDD-CPG
3.3 V
167
MD7/TXD
Pull-up
47 kΩ
206
VSS-CPG
GND
168
SCK2/MRESET
Pull-up
47 kΩ
207
XTAL
NC
169
VDD
NC
208
EXTAL
Pull-up
47 kΩ
29
Notes
181
MD3/CE2A
Pull-up
47 kΩ
182
MD4/CE2B
Pull-up
47 kΩ
Pull-up
47 kΩ
183
MD5/RAS2
184
DACK0
185
DACK1
199
TDI
NC
200
TRST
NC
47 kΩ
47 kΩ
CAUTION
When power is supplied through the user system
interface (YQPACK), only 3.3-V power should be supplied
from the user system, and the emulation memory board
generates 1.95-V power from the 3.3-V power. Therefore,
the VDD pin (1.95 V) of the user system interface (YQPACK)
is not connected to the MCU on the emulation memory
board.
Handling:
Pull-up: The pin is pulled up to 3.3 V through a 47-kΩ resistor on the board.
3.3 V: 3.3 V is supplied from the user system (when sliding the switch to USER).
U-GND: The pin is connected to user system GND (to check whether or not the user
system is connected).
GND: The pin is connected to GND on the board.
NC: The MCU pin is not connected to the user system interface connector.
Blank: The MCU pin is directly connected to the user system interface connector.
30
7.2
Signal Line Handling on the Emulation Memory Board and User
System
The emulation memory board is connected to the user system through the user system interface
connector (YQPACK) and the IC socket (NQPACK). Figure 7.1 shows the signal line handling on
the emulation memory board and the user system.
Signal line handling
on the emulation memory board
MCU
(SH7750)
VDDQ (3.3 V)
Signal line handling
on the user system
User interface connector
and socket
47 k
Pulled-up signals
Connected to the signals
on the user system
Blank (no handling)
Connected to the signals
on the user system
YQPACK NQPACK
NC
Not connected
Not
connected
Connected to 3.3-V power
on the user system
3.3 V (VDDQ)
1.95 V (VDD)
Regulator
3.3 1.95 V
Not
connected
Connected to 1.95-V power
on the user system
GND
Connected to GND
on the user system
Connected to GND
Figure 7.1 Signal Line Handling on the Emulation Memory Board and User System
31
32
Section 8 Emulation Memory Board Block Diagram
The emulation memory board has an MCU (SH7750), a user system interface connector, emulator
connectors, and memory. Figure 8.1 shows the block diagram of the emulation memory board.
33
A25-A0
LVT245
A21-A3
D63-D0
LVT244
D63-D48
LVT245
D47-D32
Substitution
memory
(256 kB x 16
x 8 pieces)
D31-D16
LVT245
D15-D0
LVT245
MD3-MD4
MCU
(SH7750)
CS0
CS0
Bus switch
VDDQ (3.3 V)
JP switch
47 k
CS0
D63-D0
A25-A0
EXTAL
JP switch
OSC (33 MHz)
EXTAL
XTAL
RESETP
Others
TCK
TRST
TDI
TMS TDO
User system
interface
connector
ResetORing
logic
Power-on reset
circuit
RESETP
Reset switch
Power supply to
emulation memory board
(3.3 V and 1.95 V)
H-UDI port
RESETP
Emulator interface
connector
(14 pins)
Regulator
(3.3 V to 1.95 V)
Switch
External power
(5 V)
Regulator
(5 V to 3.3 V)
Figure 8.1 Emulation Memory Board Block Diagram
34
VDDQ (3.3 V)
Others
35
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