ETC IE-789835-NS-EM1

User’s Manual
IE-789835-NS-EM1
Emulation Board
Target Devices
µPD789835 Subseries
Document No. U16290EJ1V0UM00 (1st edition)
Date Published October 2002 N CP(K)
©
Printed in Japan
2002
1991
[MEMO]
2
User’s Manual U16290EJ1V0UM
Windows is either a registered trademark or a trademark of Microsoft Corporation in the United States and/or
other countries.
PC/AT is a trademark of International Business Machines Corporation.
• The information in this document is current as of July, 2002. The information is subject to change
without notice. For actual design-in, refer to the latest publications of NEC's data sheets or data
books, etc., for the most up-to-date specifications of NEC semiconductor products. Not all products
and/or types are available in every country. Please check with an NEC sales representative for
availability and additional information.
• No part of this document may be copied or reproduced in any form or by any means without prior
written consent of NEC. NEC assumes no responsibility for any errors that may appear in this document.
• NEC does not assume any liability for infringement of patents, copyrights or other intellectual property rights of
third parties by or arising from the use of NEC semiconductor products listed in this document or any other
liability arising from the use of such products. No license, express, implied or otherwise, is granted under any
patents, copyrights or other intellectual property rights of NEC or others.
• Descriptions of circuits, software and other related information in this document are provided for illustrative
purposes in semiconductor product operation and application examples. The incorporation of these
circuits, software and information in the design of customer's equipment shall be done under the full
responsibility of customer. NEC assumes no responsibility for any losses incurred by customers or third
parties arising from the use of these circuits, software and information.
• While NEC endeavours to enhance the quality, reliability and safety of NEC semiconductor products, customers
agree and acknowledge that the possibility of defects thereof cannot be eliminated entirely. To minimize
risks of damage to property or injury (including death) to persons arising from defects in NEC
semiconductor products, customers must incorporate sufficient safety measures in their design, such as
redundancy, fire-containment, and anti-failure features.
• NEC semiconductor products are classified into the following three quality grades:
"Standard", "Special" and "Specific". The "Specific" quality grade applies only to semiconductor products
developed based on a customer-designated "quality assurance program" for a specific application. The
recommended applications of a semiconductor product depend on its quality grade, as indicated below.
Customers must check the quality grade of each semiconductor product before using it in a particular
application.
"Standard": Computers, office equipment, communications equipment, test and measurement equipment, audio
and visual equipment, home electronic appliances, machine tools, personal electronic equipment
and industrial robots
"Special": Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster
systems, anti-crime systems, safety equipment and medical equipment (not specifically designed
for life support)
"Specific": Aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life
support systems and medical equipment for life support, etc.
The quality grade of NEC semiconductor products is "Standard" unless otherwise expressly specified in NEC's
data sheets or data books, etc. If customers wish to use NEC semiconductor products in applications not
intended by NEC, they must contact an NEC sales representative in advance to determine NEC's willingness
to support a given application.
(Note)
(1) "NEC" as used in this statement means NEC Corporation and also includes its majority-owned subsidiaries.
(2) "NEC semiconductor products" means any semiconductor product developed or manufactured by or for
NEC (as defined above).
M8E 00. 4
User’s Manual U16290EJ1V0UM
3
Regional Information
Some information contained in this document may vary from country to country. Before using any NEC
product in your application, pIease contact the NEC office in your country to obtain a list of authorized
representatives and distributors. They will verify:
•
Device availability
•
Ordering information
•
Product release schedule
•
Availability of related technical literature
•
Development environment specifications (for example, specifications for third-party tools and
components, host computers, power plugs, AC supply voltages, and so forth)
•
Network requirements
In addition, trademarks, registered trademarks, export restrictions, and other legal issues may also vary
from country to country.
NEC Electronics Inc. (U.S.)
Santa Clara, California
Tel: 408-588-6000
800-366-9782
Fax: 408-588-6130
800-729-9288
NEC do Brasil S.A.
Electron Devices Division
Guarulhos-SP, Brasil
Tel: 11-6462-6810
Fax: 11-6462-6829
• Filiale Italiana
Milano, Italy
Tel: 02-66 75 41
Fax: 02-66 75 42 99
NEC Electronics Hong Kong Ltd.
• Branch The Netherlands
Eindhoven, The Netherlands
Tel: 040-244 58 45
Fax: 040-244 45 80
NEC Electronics Hong Kong Ltd.
• Branch Sweden
Taeby, Sweden
Tel: 08-63 80 820
NEC Electronics (Europe) GmbH Fax: 08-63 80 388
Duesseldorf, Germany
• United Kingdom Branch
Tel: 0211-65 03 01
Milton Keynes, UK
Fax: 0211-65 03 327
Tel: 01908-691-133
Fax: 01908-670-290
• Sucursal en España
Madrid, Spain
Tel: 091-504 27 87
Fax: 091-504 28 60
Hong Kong
Tel: 2886-9318
Fax: 2886-9022/9044
Seoul Branch
Seoul, Korea
Tel: 02-528-0303
Fax: 02-528-4411
NEC Electronics Shanghai, Ltd.
Shanghai, P.R. China
Tel: 021-6841-1138
Fax: 021-6841-1137
NEC Electronics Taiwan Ltd.
Taipei, Taiwan
Tel: 02-2719-2377
Fax: 02-2719-5951
NEC Electronics Singapore Pte. Ltd.
Novena Square, Singapore
Tel: 253-8311
Fax: 250-3583
• Succursale Française
Vélizy-Villacoublay, France
Tel: 01-30-67 58 00
Fax: 01-30-67 58 99
J02.4
4
User’s Manual U16290EJ1V0UM
INTRODUCTION
Product Overview
The IE-789835-NS-EM1 is designed to be used with the IE-78K0S-NS or IE-78K0S-NS-A
to debug the following target devices that belong to the 78K/0S Series of 8-bit single-chip
microcontrollers.
• µPD789835 Subseries:
Target Readers
µPD789832, 789833, 789834, 789835, 78F9835
This manual is intended for engineers who will use the IE-789835-NS-EM1 with the IE78K0S-NS or IE-78K0S-NS-A to perform system debugging.
Engineers who use this manual are expected to be thoroughly familiar with the target
device’s functions and usage methods and to be knowledgeable about debugging.
Organization
When using the IE-789835-NS-EM1, refer to not only this manual (supplied with the IE789835-NS-EM1) but also the manual that is supplied with the IE-78K0S-NS or IE78K0S-NS-A.
IE-78K0S-NS
User’s Manual
• Basic specifications
IE-789835-NS-EM1
User’s Manual
• General
• System configuration
• Part names
• External interface functions
• Installation
• Differences between target devices
and target interface circuits
IE-78K0S-NS-A
User’s Manual
• Basic specifications
• System configuration
• External interface functions
Purpose
This manual is intended to give users an understanding of the various debugging
functions that can be performed when using the IE-789835-NS-EM1.
User’s Manual U16290EJ1V0UM
5
Terminology
The meanings of certain terms used in this manual are listed below.
Term
Meaning
Emulation device
This is a general term that refers to the device in the emulator that is used to emulate the target
device. It includes the emulation CPU.
Emulation CPU
This is the CPU block in the emulator that is used to execute user-generated programs.
Target device
This is the device that is the target for emulation.
Target system
This includes the target program and the hardware provided by the user. When defined narrowly, it
includes only the hardware.
IE system
This refers to the combination of the IE-78K0S-NS or IE-78K0S-NS-A and the IE-789835-NS-EM1.
Conventions
Related Documents
Data significance: Higher digits on the left and lower digits on the right
Note:
Footnote for item marked with Note in the text
Caution:
Information requiring particular attention
Remark:
Supplementary information
The related documents (user’s manuals) indicated in this publication may include
preliminary versions. However, preliminary versions are not marked as such.
Document Name
IE-78K0S-NS In-Circuit Emulator
U13549E
IE-78K0S-NS-A In-Circuit Emulator
U15207E
IE-789835-NS-EM1 Emulation Board
This manual
ID78K Series Integrated Debugger Ver. 2.30 or Later Operation (Windows™ Based)
U15185E
µPD789835 Subseries
U15559E
Caution
The documents listed above are subject to change without notice. Be sure to use the latest
documents when designing.
6
Document Number
User’s Manual U16290EJ1V0UM
CONTENTS
CHAPTER 1 GENERAL............................................................................................................................10
1.1
System Configuration................................................................................................................................ 11
1.2
Hardware Configuration ............................................................................................................................ 13
1.3
Basic Specifications .................................................................................................................................. 14
CHAPTER 2 PART NAMES ....................................................................................................................15
2.1
Parts of Main Unit ...................................................................................................................................... 16
2.2
Initial Switch and Jumper Settings .......................................................................................................... 17
2.3
Check Point Block ..................................................................................................................................... 17
CHAPTER 3 INSTALLATION...................................................................................................................18
3.1
Connection ................................................................................................................................................. 19
3.2
Switch and Jumper Settings of Main Unit ............................................................................................... 21
3.3
Power Supply Voltage Setting of Target Interface.................................................................................. 22
3.4
Clock Settings ............................................................................................................................................ 23
3.4.1
Overview of clock settings ............................................................................................................. 23
3.4.2
Main system clock settings ............................................................................................................ 26
3.4.3
Subsystem clock settings .............................................................................................................. 30
3.5
External Trigger ......................................................................................................................................... 33
3.6
LCD Emulation ........................................................................................................................................... 34
CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE
CIRCUITS ............................................................................................................................36
CHAPTER 5 RESTRICTIONS ..................................................................................................................40
APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE .......................................................41
APPENDIX B CAUTIONS ON DESIGNING TARGET SYSTEM .........................................................43
User’s Manual U16290EJ1V0UM
7
LIST OF FIGURES
Figure No.
Title
Page
1-1
System Configuration ....................................................................................................................................... 11
1-2
Basic Hardware Configuration .......................................................................................................................... 13
2-1
IE-789835-NS-EM1 Part Names....................................................................................................................... 16
2-2
Check Point Block............................................................................................................................................. 17
3-1
Connection of Emulation Probe (1)................................................................................................................... 19
3-2
Connection of Emulation Probe (2)................................................................................................................... 20
3-3
Connection of Emulation Probe (3)................................................................................................................... 20
3-4
Connecting TM1 and Power Supply Voltage of Target System........................................................................ 22
3-5
External Circuits Used as System Clock Oscillator .......................................................................................... 23
3-6
When Using Clock That Is Already Mounted on Emulation Board (Main System Clock) ................................. 24
3-7
When Using Clock That Is Already Mounted on Emulation Board (Subsystem Clock) .................................... 24
3-8
When Using User-Mounted Clock (Main System Clock) .................................................................................. 25
3-9
When Using User-Mounted Clock (Subsystem Clock) ..................................................................................... 25
3-10
When Supplying Pulse from Target System ..................................................................................................... 26
3-11
Connections on Parts Board (Main System Clock)........................................................................................... 27
3-12
Crystal Oscillator (Main System Clock) ............................................................................................................ 29
3-13
Pin Alignment of Crystal Oscillator and Socket (Main System Clock) .............................................................. 29
3-14
Connections on Parts Board (Subsystem Clock).............................................................................................. 31
3-15
Crystal Oscillator (Subsystem Clock) ............................................................................................................... 32
3-16
Pin Alignment of Crystal Oscillator and Socket ................................................................................................ 32
3-17
External Trigger Input Position ......................................................................................................................... 33
3-18
LCD Emulation Circuit ...................................................................................................................................... 34
3-19
Variable Resistance of External Boost Circuit .................................................................................................. 35
4-1
Equivalent Circuit of Emulation Circuit 1........................................................................................................... 37
4-2
Equipment Circuit of Emulation Circuit 2 .......................................................................................................... 38
4-3
Equivalent Circuit of Emulation Circuit 3........................................................................................................... 39
B-1
Distance Between In-Circuit Emulator and Conversion Connector .................................................................. 43
B-2
Connection to Target System ........................................................................................................................... 43
8
User’s Manual U16290EJ1V0UM
LIST OF TABLES
Table No
Title
Page
1-1
Correspence Between Emulation Probe and Conversion Connector................................................................12
1-2
Basic Specifications ..........................................................................................................................................14
2-1
Initial Switch and Jumper Settings.....................................................................................................................17
3-1
Switch and Jumper Settings on IE-78K0S-NS...................................................................................................21
3-2
Switch and Jumper Settings on IE-78K0S-NS-A ...............................................................................................21
3-3
Power Supply Settings of Target Interface ........................................................................................................22
3-4
Main System Clock Settings..............................................................................................................................26
3-5
Subsystem Clock Settings.................................................................................................................................30
3-6
LCD Switch Settings..........................................................................................................................................34
3-7
Switch Settings of External Boost Circuit ..........................................................................................................35
A-1
SWEX-144SD-1 Pin Assignments .....................................................................................................................41
User’s Manual U16290EJ1V0UM
9
CHAPTER 1 GENERAL
The IE-789835-NS-EM1 is a development tool for efficient debugging of hardware or software when using one of
the following target devices that belong to the 78K/0S Series of 8-bit single-chip microcontrollers.
This chapter describes the IE-789835-NS-EM1’s system configuration and basic specifications.
•
Target device
• µPD789835 Subseries
10
User’s Manual U16290EJ1V0UM
CHAPTER 1 GENERAL
1.1
System Configuration
Figure 1-1 illustrates the system configuration of the IE-789835-NS-EM1.
Figure 1-1. System Configuration
Debugger
ID78K0S-NS
(sold separately)
Device fileNote 1
(available separately)
Control software
Host machine
PC-9800 series
or IBM PC/AT TM
or compatibles
Interface board
IE-70000-98-IF-C
(sold separately)
Interface board
IE-70000-PC-IF-C
(sold separately)
Interface board
IE-70000-PCI-IF-A
(sold separately)
Interface card
or
Interface
cable
Interface cable
(NS IF Cable)
IE-78K0S-NS
or
IE-78K0S-NS-A
(sold separately)
NS CARD
Cable
In-circuit emulator
MC CARD
Cable
IE-70000-CD-IF-A
(sold separately)
FG Cable
IE-789835-NS-EM1
(This product)
AC adapter
IE-70000-MC-PS-B
(sold separately)
Emulation probe Note 2
(sold separately)
Conversion connectorNote 3
(sold separately)
User’s Manual U16290EJ1V0UM
11
CHAPTER 1 GENERAL
Notes 1. The device file is as follows, in accordance with the subseries.
µS××××DF789835: µPD789835 Subseries
The device file can be downloaded from the NEC Electron Devices Web site
(URL: http://www.ic.nec.co.jp/micro).
2. The emulation probe SWEX-144SD-1 is a product of TOKYO ELETECH CORPORATION.
For further information, contact Daimaru Kogyo Co., Ltd.
Tokyo Electronics Department (TEL: +81-3-3820-7112)
Osaka Electronics Department (TEL: +81-6-6244-6672)
3. The conversion connectors NQPACK144SD and YQPACK144SD are products of TOKYO ELETECH
CORPORATION.
For further information, contact Daimaru Kogyo Co., Ltd.
Tokyo Electronics Department (TEL: +81-3-3820-7112)
Osaka Electronics Department (TEL: +81-6-6244-6672)
Table 1-1. Correspondence Between Emulation Probe and Conversion Connector
Package
144-pin plastic
LQFP (GJ type)
12
Emulation Probe
SWEX-144SD-1 (probe
length: 315 mm)
User’s Manual U16290EJ1V0UM
Conversion Connector
NQPACK144SD
YQPACK144SD
CHAPTER 1 GENERAL
1.2
Hardware Configuration
Figure 1-2 shows the IE-789835-EM1’s position in the basic hardware configuration.
Figure 1-2. Basic Hardware Configuration
Dedicated bus interface
IE system
IE-78K0S-NS or IE-78K0S-NS-A
Host machine
Interface board
(Sold separately)
78K0S main board
(Sold separately)
Interface card
(Sold separately)
User’s Manual U16290EJ1V0UM
IE-789835-NS-EM1
Emulation board
(This product)
Emulation probe
(Sold separately)
13
CHAPTER 1 GENERAL
1.3
Basic Specifications
The IE-789835-EM1’s basic specifications are listed in Table 1-2.
Table 1-2. Basic Specifications
Parameter
Description
Target device
µPD789835 Subseries
System clock
Main system clock: 1.0 to 5.0 MHz, subsystem clock: 32.768 kHz
Main system
clock supply
External: Clock input from the target system via an emulation probe
Internal: Clock mounted on the emulation board (5.0 MHz) or clock mounted on the parts board by the user
Subsystem
clock supply
External: Clock input from the target system via an emulation probe
Internal: Clock mounted on the emulation board (32.768 kHz) or clock mounted on the parts board by the
user
Target interface
voltage
VDD = 1.8 to 3.6 V (same as the target device)
The IE-789835-NS-EM1 operates on the internal power supply (3 V) when not connected to the target
system.
14
User’s Manual U16290EJ1V0UM
CHAPTER 2 PART NAMES
This chapter introduces the parts of the IE-789835-NS-EM1 main unit.
The packing box contains the emulation board (IE-789835-NS-EM1), packing list, user’s manual, and guarantee
card.
If there are any missing or damaged items, please contact an NEC sales representative.
Fill out and return the guarantee card that comes with the main unit.
User’s Manual U16290EJ1V0UM
15
CHAPTER 2 PART NAMES
2.1
Parts of Main Unit
Figure 2-1. IE-789835-NS-EM1 Part Names
3
GND
TM1
X2
X1
XT1
JP2
1
P1
LowVolt
TM1
CP79 EXTOUT
CN3
SW5
SW6
CN1
CN1 connector
for connecting
emulation probe
IE-789835-NS-EM1
Check point
block
CN2
CP78 EXTIN
CN2, CN3
auxiliary connectors
for emulation probe
LED1
SW2
IC2
SW3
SW4
SW1
VLC3
VR1
IC1
CP57
P2
P3
Note CN2 and CN3 are not connectors for connecting the emulation probe.
These connectors allow
confirmation of the signal of each pin of CN1 as support for the emulation probe.
For details, refer to APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE.
16
User’s Manual U16290EJ1V0UM
CHAPTER 2 PART NAMES
2.2
Initial Switch and Jumper Settings
The initial switch and jumper settings of the IE-789835-NS-EM1 are shown in Table 2-1.
For the setting of JP2, refer to 3.4 Clock Settings.
For the settings of SW1 to SW6, refer to 3.6 LCD Emulation.
Table 2-1. Initial Switch and Jumper Settings
JP2
Initial setting
2 and 3 shorted
Initial setting
2.3
SW1
SW2
SW3
SW4
SW5
SW6
OFF
ICE side
ICE side
ICE side
ICE side
ICE side
Check Point Block
The through holes of the check point block (refer to Figure 2-1 IE-789835-NS-EM1 Part Names) are provided at
intervals of 2.54 mm (1 inch) both vertically and horizontally, allowing confirmation of the signal of each port pin
inside the IE-789835-NS-EM1.
Figure 2-2. Check Point Block
Signals inside IE system
P30, P31, P32, P33, P34, P35, P36, P37
P00, P01, P02, P03, P04, P05, P06, P07
P80, P81, P82, P83, P84, P85, P86, P87
P10, P11, P60, P61, P62, N.C, N.C, N.C
Signals inside IE system
P20, P21, P22, P23, P24, P25, P26, P27
Signals inside IE system
Signals inside IE system
Caution
Remark
Do not connect or capture the signal inside the IE system, or the IE system may be damaged.
The through holes indicated by
(N.C.) are not connected to any signal.
User’s Manual U16290EJ1V0UM
17
CHAPTER 3 INSTALLATION
This chapter describes methods for connecting the IE-789835-NS-EM1 to the IE-78K0S-NS or IE-78K0S-NS-A,
emulation probe, etc. Mode setting methods are also described.
Caution
Connecting or removing components to or from the target system, or making switch or other
setting changes must be carried out after the power supply to both the IE system and the target
system has been switched OFF.
18
User’s Manual U16290EJ1V0UM
CHAPTER 3 INSTALLATION
3.1
Connection
(1) Connection with IE-78K0S-NS or IE-78K0S-NS-A main unit
See the IE-78K0S-NS User’s Manual (U13549E)
Note
for a description of how to connect the IE-789835-NS-EM1
to the IE-78K0S-NS.
Note When using the IE-78K0S-NS-A, refer to the IE-78K0S-NS-A User’s Manual (U15207E).
(2) Connection with emulation probe
Connect an emulation probe and supplied FG cable to the IE-789835-NS-EM1 as follows.
On this board, connect the emulation probe to CN1.
Caution
Incorrect connection may damage the IE system.
Be sure to read the emulation probe’s user’s manual for a detailed description of the
connection method.
<Steps>
<1> Remove two plates on the side of the IE-78K0S-NS or IE-78K0S-NS-A frame. Loosen one FG screw on the
lower side of the connector on the IE system side of the emulation probe, align one end of the FG cable and
fix it by securing the FG screw.
Figure 3-1. Connection of Emulation Probe (1)
Emulation probe
SWEX-144SD-1
(sold separately)
CN1
FG cable (supplied)
Plate on side of
frame
Emulation board
IE-789835-NS-EM1
Main board of
IE-78K0S-NS
(sold separately) or
IE-78K0S-NS-A
(sold separately)
User’s Manual U16290EJ1V0UM
19
CHAPTER 3
INSTALLATION
<2> Open the upper side of the IE-78K0S-NS or IE-78K0S-NS-A main unit and connect the emulation probe to
the probe connector (CN1) on the IE-789835-NS-EM1.
Figure 3-2. Connection of Emulation Probe (2)
Emulation probe
SWEX-144SD-1
(sold separately)
FG cable (supplied)
Emulation board
IE-789835-NS-EM1
Main board
(sold separately)
IE-78K0S-NS or
IE-78K0S-NS-A
<3> Connect the other end of the FG cable by securing the screw on the plate of the IE-78K0S-NS or IE-78K0SNS-A frame.
Figure 3-3. Connection of Emulation Probe (3)
FG cable (supplied)
IE-789835-NS-EM1
IE-78K0S-NS or
IE-78K0S-NS-A
Emulation probe
SWEX-144SD-1
(sold separately)
20
User’s Manual U16290EJ1V0UM
CHAPTER 3 INSTALLATION
3.2
Switch and Jumper Settings of Main Unit
(1) Settings on the IE-78K0S-NS
When using the IE-789835-NS-EM1, set the switches and jumpers on the IE-78K0S-NS as shown in Table 3-1.
For details of these switch and jumper settings, refer to the IE-78K0S-NS User’s Manual (U13549E).
Table 3-1. Switch and Jumper Settings on IE-78K0S-NS
Setting
Caution
SW1
SW3
SW4
JP1
JP4
OFF
All switches ON
(fixed)
All switches ON
(fixed)
2 and 3 shorted
1 and 2 shorted
If the jumpers and switches are set incorrectly, the board may be damaged.
(2) Setting on IE-78K0S-NS-A
When using the IE-789835-NS-EM1, set the switches and jumpers on the IE-78K0S-NS-A as shown in Table 3-2.
For the position of the switches and jumpers, refer to the IE-78K0S-NS-A User’s Manual (U15207E).
Table 3-2. Switch and Jumper Settings on IE-78K0S-NS-A
Setting
Caution
SW1
JP1
JP3
OFF
1-2
Shorted (fixed)
If the jumpers and switches are set incorrectly, the board may be damaged.
User’s Manual U16290EJ1V0UM
21
CHAPTER 3
3.3
INSTALLATION
Power Supply Voltage Setting of Target Interface
The IE system allows emulation at the same voltage level as that of the target system.
When the target system is not connected, the system automatically operates on the internal power supply (3 V) of
the emulator. When debugging at the same voltage level as that of the target system, supply the TM1 terminal pin of
the IE-789835-NS-EM1 with the same voltage as that of the target system (the same applies when the voltage is 3
V).
For how to select the operating power supply, refer to the ID78K Series Ver. 2.30 or Later Operation (Windows
Based) User’s Manual (U15185E).
• Maximum current consumption of TM1 3 V: Approximately 100 mA
Table 3-3. Power Supply Settings of Target Interface
Power Supply of Target Interface
Integrated Debugger (ID78K0S-NS)
Selected Operating Power Supply
When connecting target system
1.8 to 3.6 V
Target
When not connecting target system
3V
Internal
Figure 3-4. Connecting TM1 and Power Supply Voltage of Target System
CN1
IE-789835-NS-EM1
LED1
LowVolt GND
TM1
USER VDD
Emulation
probe
Target system
VDD
GND
Power supply voltage of
target system
Caution
Before connecting TM1 on the board and the power supply voltage of the target system, turn
off the power to the IE-78K0S-NS or IE-78K0S-NS-A.
Remark
The VDD pin of the target system is exclusively used for the control of LED1 that monitors whether the
power supply of the target system is connected in the IE-789835-NS-EM1.
22
User’s Manual U16290EJ1V0UM
CHAPTER 3 INSTALLATION
3.4
Clock Settings
3.4.1 Overview of clock settings
The main system and subsystem clocks to be used during debugging can be selected from (1) to (3) below.
(1) Clock that is already mounted on emulation board
(2) Clock that is mounted by user
(3) Pulse input from target system
If the target system includes a clock oscillator, select either (1) Clock that is already mounted on emulation
board or (2) Clock that is mounted by user. For a clock oscillator, a resonator is connected to the target device
and the target device’s internal oscillator is used. An example of the external circuit is shown in part (a) of Figure 3-5.
During emulation, the oscillator that is mounted on the target system is not used. Instead, the clock that is mounted
on the emulation board installed for the IE-78K0S-NS or IE-78K0S-NS-A is used.
If the target system includes an external clock, select (1) Clock that is already mounted on emulation board,
(2) Clock that is mounted by user, or (3) Pulse input from target system. For an external clock, a clock signal is
supplied from outside the target device and the target device’s internal oscillator is not used. An example of the
external circuit is shown in part (b) of Figure 3-5.
Caution
The IE system will be hung-up if the main system clock is not supplied normally. Emulating
using the RC oscillator is not possible. Moreover, be sure to input a rectangular wave as the
clock from the target. However, there is no need to supply clocks to the X2 and XT2 pins. The
IE system does not operate if a crystal resonator or ceramic resonator is directly connected to
the X1 or XT1 pin.
Figure 3-5. External Circuits Used as System Clock Oscillator
(a) Clock oscillator
(b) External clock
Target device
Target device
External
clock
VSS
X1 or XT1
X1 or XT1
X2 or XT2
X2 or XT2
Crystal resonator
or
ceramic oscillator
User’s Manual U16290EJ1V0UM
23
CHAPTER 3
INSTALLATION
(1) Clock that is already mounted on emulation board
The oscillator mounted on the IE-789835-NS-EM1 can be used.
(a) For main system clock
A crystal oscillator (X1) is already mounted on the emulation board. Its frequency is 5.0 MHz.
Figure 3-6. When Using Clock That Is Already Mounted on Emulation Board (Main System Clock)
IE-78K0S-NS or IE-78K0S-NS-A
Target system
IE-789835-NS-EM1
Mounted
oscillator
(used)
X1
Emulation probe
Clock oscillator or
external clock (not used)
Remark
The clock that is supplied by the IE-789835-NS-EM1’s oscillator (encircled in the figure) is
used.
(b) For subsystem clock
A crystal resonator (XTC1) is already mounted on the emulation board. Its frequency is 32.768 kHz.
Figure 3-7. When Using Clock That Is Already Mounted on Emulation Board (Subsystem Clock)
IE-78K0S-NS or IE-78K0S-NS-A
Target system
IE-789835-NS-EM1
XT1
Emulation probe
Mounted
resonator
(used)
XTC1
Clock oscillator or
external clock (not used)
Remark
The clock that is supplied by the IE-789835-NS-EM1’s resonator (encircled in the figure) is
used.
24
User’s Manual U16290EJ1V0UM
CHAPTER 3 INSTALLATION
(2) Clock that is mounted by user
The user is able to mount any clock supported by the set specifications on the IE-789835-NS-EM1. This is
useful when using a different frequency from that of the pre-mounted clock.
(a) For main system clock
Remove the crystal oscillator (X1) that is already mounted on the emulation board, and mount either the
parts board on which the resonator to be used is mounted or an oscillator.
Figure 3-8. When Using User-Mounted Clock (Main System Clock)
IE-78K0S-NS or IE-78K0S-NS-A
IE-789835-NS-EM1
Target system
Parts board
+ oscillator
or
oscillator
(used)
Emulation probe
Clock oscillator or
external clock (not used)
Remark
The clock that is supplied by the oscillator on the IE-789835-NS-EM1 (encircled in the figure)
is used.
(b) For subsystem clock
Mount the resonator to be used on the parts board (X1) that is already mounted on the emulation board.
Alternatively, remove the parts board and mount an oscillator.
Figure 3-9. When Using User-Mounted Clock (Subsystem Clock)
IE-78K0S-NS or IE-78K0S-NS-A
Target system
IE-789835-NS-EM1
X2
Parts board
+ oscillator
or
oscillator (used)
Emulation probe
XTC1
Clock oscillator or
external clock (not used)
Remark
The clock that is supplied by the oscillator on the IE-789835-NS-EM1 (encircled in the figure)
is used.
User’s Manual U16290EJ1V0UM
25
CHAPTER 3
INSTALLATION
(3) Pulse input from target system
The pulse supplied by an external clock can be used as the main system clock and subsystem clock on the
target system via an emulation probe.
Figure 3-10. When Supplying Pulse from Target System
IE-78K0S-NS or IE-78K0S-NS-A
Target system
IE-789835-NS-EM1
X1
Emulation probe
Mounted oscillator,
resonator
(not used)
XTC1
External clock
(used)
Remark
The clock supplied by the target system’s external clock (encircled in the figure) is used.
3.4.2 Main system clock settings
The main system clock settings of the IE-789835-NS-EM1 are as shown in Table 3-4.
The following shows the respective IE-789835-NS-EM1 settings for the main system clocks used in (1) to (3) in
Table 3-4.
Table 3-4. Main System Clock Settings
Frequency of Main System Clock
IE-789835-NS-EM1
X1 Socket
(1) When using clock that is already
mounted on emulation board
5.0 MHz
Oscillator used
(2) When using clock mounted by user
Other than 5.0
MHz
Oscillator assembled by user
(3) When pulse is input from target system
Oscillator (not used)
CPU Clock Source
Selection (ID78K0S-NS)
Internal
External
Caution When a pulse is input from the target system, open the configuration dialog box when starting
the integrated debugger (ID78K0S-NS) and select “External” in the area (Clock) for selecting the
CPU’s clock source (this selects the user clock).
Emulating using the RC oscillator is not
possible.
Remark
When the IE-789835-NS-EM1 is shipped, the settings for “when using clock that is already mounted on
emulation board” are preset.
(1) When using clock that is already mounted on emulation board
When the IE-789835-NS-EM1 is shipped, a 5.0 MHz crystal oscillator is already mounted in the IE-789835-NSEM1’s X1 socket. When using the factory-set mode settings, there is no need to make any other hardware
settings.
When starting the integrated debugger (ID78K0S-NS), open the configuration dialog box and select “Internal” in
the area (Clock) for selecting the CPU’s clock source (this selects the emulator’s internal clock).
26
User’s Manual U16290EJ1V0UM
CHAPTER 3 INSTALLATION
(2) When using clock mounted by user
Perform the settings described under either (a) or (b) depending on the type of clock to be used.
When starting the integrated debugger (ID78K0S-NS), open the configuration dialog box and select “Internal” in
the area (Clock) for selecting the CPU’s clock source (this selects the emulator’s internal clock).
(a) When using a ceramic resonator or crystal resonator
•
Items to be prepared
• Parts board
• Capacitor CA
• Ceramic resonator or crystal resonator
• Capacitor CB
• Resistor Rx
• Solder kit
<Steps>
<1> Solder the target ceramic resonator or crystal resonator, resistor Rx, capacitor CA, and capacitor CB
(all with suitable oscillation frequency) onto the parts board (as shown below).
Figure 3-11. Connections on Parts Board (Main System Clock)
Parts board (X1)
1
14
Pin No.
Connection
2
13
2-13
Capacitor CA
3
12
3-12
Capacitor CB
4
11
4-11
Ceramic resonator or crystal resonator
5
10
6
9
5-10
Resistor Rx
7
8
8-9
Shorted
Circuit diagram
1 MΩ
HCU04
HCU04
5
Rx
10
4
3
CB
12
Remark
98
CLOCK OUT
11
13
CA
2
The sections enclosed in broken lines indicate parts that are attached to the parts board.
User’s Manual U16290EJ1V0UM
27
CHAPTER 3
INSTALLATION
<2> Prepare the IE-789835-NS-EM1.
<3> Remove the crystal oscillator that is mounted in the IE-789835-NS-EM1’s socket (the socket marked
as X1).
<4> Connect the parts board (from <1> above) to the socket (X1) from which the crystal oscillator was
removed. Check the pin 1 mark to make sure the board is mounted in the correct direction.
<5> Make sure that the parts board is wired as shown in Figure 3-11.
<6> Install the IE-789835-NS-EM1 in the IE-78K0S-NS or IE-78K0S-NS-A.
The above steps configure the following circuit and enable supply of the clock from the mounted resonator
to the emulation device.
28
User’s Manual U16290EJ1V0UM
CHAPTER 3 INSTALLATION
(b) When using a crystal oscillator
•
Items to be prepared
• Crystal oscillator (see pinouts shown in Figure 3-12)
Figure 3-12. Crystal Oscillator (Main System Clock)
VCC
NC
GND
CLOCK OUT
<Steps>
<1> Prepare the IE-789835-NS-EM1.
<2> Remove the crystal oscillator that is mounted in the X2 socket of the IE-789835-NS-EM1.
<3> Mount a crystal oscillator in the X2 socket from which the crystal oscillator was removed in <2> above.
Insert the crystal oscillator pin into the socket aligning the pins as shown in the figure below.
Figure 3-13. Pin Alignment of Crystal Oscillator and Socket (Main System Clock)
Crystal oscillator
NC
GND
Socket
VCC
CLOCK OUT
1
14
2
13
3
12
4
11
5
10
6
9
7
8
Crystal Oscillator Pin Name
Socket Pin No.
NC
1
GND
7
CLOCK OUT
8
VCC
14
<4> Install the IE-789835-NS-EM1 in the IE-78K0S-NS or IE-78K0S-NS-A.
User’s Manual U16290EJ1V0UM
29
CHAPTER 3
INSTALLATION
(3) When pulse is input from target system
No hardware settings are required for this situation.
When starting the integrated debugger (ID78K0S-NS), open the configuration dialog box and select “External” in
the area (Clock) for selecting the CPU’s clock source (this selects the user’s clock).
3.4.3 Subsystem clock settings
The subsystem clock settings of the IE-789835-NS-EM1 are as shown in Table 3-5. The following shows the
respective IE-789835-NS-EM1 settings for the subsystem clocks used in (1) to (3) in Table 3-5.
Table 3-5. Subsystem Clock Settings
Frequency of Subsystem Clock to Be Used
IE-789835-NS-EM1
X2 Socket
(1)
When using clock (XTC1)
that is already mounted
on emulation board
32.768 kHz
6 and 8 shorted
(2)
When using clock
mounted by user
Other than 32.768 kHz
Oscillator assembled by user
(3)
When pulse is input from
target system
Caution
Not used
JP2
Short 2 to 3 side
Short 1 to 2 side
Jumper JP2, which is used to select the board’s clock or an external clock, should be set only
after turning off the power of the IE-78K0S-NS or IE-78K0S-NS-A.
Remark
When the IE-789835-NS-EM1 is shipped, the settings for “when using clock that is already mounted on
emulation board” are preset.
(1) When using clock that is already mounted on emulation board
When the IE-789835-NS-EM1 is shipped, a 32.768 kHz crystal resonator (XTC1) and the parts board (X2) on
which pins 6 and 8 are shorted are already mounted on the IE-789835-NS-EM1. Short the 2 to 3 side on the IE789835-NS-EM1’s jumper (JP2). There is no need to make any other settings via the integrated debugger
(ID78K0S-NS).
(2) When using the clock mounted by user
The settings described under either (a) or (b) are required, depending on the type of clock to be used. Short the
2 to 3 side on the IE-789835-NS-EM1’s jumper (JP2).
There is no need to make any other settings via the integrated debugger (ID78K0S-NS).
(a) When using a ceramic resonator or crystal resonator
•
Items to be prepared
• Ceramic resonator or crystal resonator
• Capacitor CB
• Resistor Rx
• Solder kit
• Capacitor CA
30
User’s Manual U16290EJ1V0UM
CHAPTER 3 INSTALLATION
<Steps>
<1> Prepare the IE-789835-NS-EM1.
<2> Solder the ceramic resonator or crystal resonator, resistor Rx, capacitor CA, and capacitor CB (all with
suitable oscillation frequency) onto the supplied parts board (X2) (as shown below).
Figure 3-14. Connections on Parts Board (Subsystem Clock)
Parts board (X2)
1
14
2
13
3
12
4
11
5
10
6
9
7
8
Pin No.
Connection
2-13
Capacitor CA
3-12
Capacitor CB
4-11
Ceramic resonator or crystal resonator
5-10
Resistor Rx
8-9
Short
Circuit diagram
10 MΩ
HCU04
HCU04
9
CLOCK OUT
8
5
Rx
10
4
10 MΩ
6
HCU04
11
HCU04
3
12
Remark
13
CB
32.768 kHz
CA
2
22 pF
470 kΩ
22 pF
The sections enclosed in broken lines indicate parts that are attached to the parts board.
User’s Manual U16290EJ1V0UM
31
CHAPTER 3
INSTALLATION
<3> Make sure that the parts board (X2) is wired as shown in Figure 3-14.
<4> Install the IE-789835-NS-EM1 in the IE-78K0S-NS or IE-78K0S-NS-A.
The above steps configure the following circuit and enable supply of the clock from the mounted resonator
to the emulation device.
(b) When using a crystal oscillator
•
Items to be prepared
• Crystal oscillator (see pinouts shown in Figure 3-15)
Figure 3-15. Crystal Oscillator (Subsystem Clock)
VCC
NC
GND
CLOCK OUT
<Steps>
<1> Prepare the IE-789835-NS-EM1.
<2> Remove the parts board that is mounted in the X2 socket of the IE-789835-NS-EM1.
<3> Mount the crystal oscillator prepared by the user in the X2 socket from which the parts board was
removed in <2> above. Insert the crystal oscillator pin into the socket aligning the pins as shown in
the figure below.
Figure 3-16. Pin Alignment of Crystal Oscillator and Socket
Crystal oscillator
NC
GND
Socket
VCC
CLOCK OUT
1
14
2
13
3
12
4
11
5
10
6
9
7
8
Crystal Oscillator Pin Name
Socket Pin No.
NC
1
GND
7
CLOCK OUT
8
VCC
14
<4> Install the IE-789835-NS-EM1 in the IE-78K0S-NS or IE-78K0S-NS-A.
(3) When inputting pulse from target system
Short the 1 and 2 side of the jumper (JP2) on the IE-789835-NS-EM1. There is no need to make any settings
via the integrated debugger (ID78K0S-NS).
32
User’s Manual U16290EJ1V0UM
CHAPTER 3 INSTALLATION
3.5
External Trigger
To set up an external trigger, connect it to the check pins EXTOUT and EXTIN of the IE-789835-NS-EM1 as
shown below.
See the IE-78K0S-NS User’s Manual (U13549E) or IE-78K0S-NS-A User’s Manual (U15207E) for pin
characteristics, and the ID78K Series Integrated Debugger Ver. 2.30 or Later Operation (Windows Based)
User’s Manual (U15185E) for the usage methods.
(1) EXTOUT
Outputs a low level from the EXTOUT pin on the IE-789835-NS-EM1 for 1.3 µs upon the occurrence of a break
event.
Caution
Connect a pull-up resistor on the target system since this is an open-drain output.
(2) EXTIN
An event signal can be input from the EXTIN pin on the IE-789835-NS-EM1. Input a high-level pulse signal for 2
CPU operation clocks or more.
Figure 3-17. External Trigger Input Position
IC1
XT1
CP57
VLC3
VR1
CN1
X1
JP2
1
SW1
3
X2
SW6
SW3
SW5
SW2
IC2
P1
P2
P3
SW4
IE-789835-NS-EM1
CN2
CN3
LED1
TM1
CP11 EXTOUT
External trigger
CP12 EXTIN
User’s Manual U16290EJ1V0UM
33
CHAPTER 3
3.6
INSTALLATION
LCD Emulation
(1) LCD emulation
Using the LCD emulation circuit, the VLC and CAP signals can be switched to the IE system side or target
system side through switch activation, and an external boost circuit can also be used. The circuit configuration
shown in Figure 3-18 is used on the IE system side.
Figure 3-18. LCD Emulation Circuit
Target system
I/O EVA chip
SW3
VLC0 to VLC4
CAP0 to CAP3
VLC0
VLC1
External boost circuit
5V
10 kΩ
SW4
CP57 (check pin)
VLC3
SW1
VLC2
VLC3
VR1
(10 kΩ)
SW2
VLC4
4.7 kΩ
ZD
SW5
CAP0
IE system
CAP1
VLC0 to VLC4
Connect to GND via a capacitor (0.1 µ F).
CAP0 to CAP3
Connect CAP0 to CAP1, CAP1 to CAP2, and
CAP2 to CAP3 with a capacitor (0.1 µ F).
SW6
CAP2
CAP3
Table 3-6. LCD Switch Settings
Switch (Signal Name)
SW3 (VLC0, VLC1)
SW4 (VLC2, VLC3)
SW2 (VLC4)
SW5 (CAP0, CAP1)
SW6 (CAP2, CAP3)
34
Setting
Description
ICE side (initial setting)
Connects IE system's internal circuit.
USR side
Connects to target system via emulation probe.
ICE side (initial setting)
Connects IE system's internal circuit.
USR side
Connects to target system via emulation probe.
ICE side (initial setting)
Connects IE system's internal circuit.
USR side
Connects to target system via emulation probe.
ICE side (initial setting)
Connects IE system's internal circuit.
USR side
Connects to target system via emulation probe.
ICE side (initial setting)
Connects IE system's internal circuit.
USR side
Connects to target system via emulation probe.
User’s Manual U16290EJ1V0UM
CHAPTER 3 INSTALLATION
(2) External boost circuit
SW1 of the external boost circuit is set to OFF at shipment, and connection of an external boost circuit is
possible by setting this switch to ON. The external boost circuit is a circuit that re-boosts the reference value set
to VLCD00 (FFB3H). VR1 is used to adjust the VLC3 voltage (1.6 V to 2.2 V) and boost the voltage level of the
LCD reference voltage (VLC0 to VLC4). The VLC0 voltage can be adjusted up to the standard value − 0.35 V ±15%.
At shipment, VR1 is set to VLC3 = 2.0 V. The VLC3 voltage can be measured with the check pin (CP57).
Figure 3-19. Variable Resistance of External Boost Circuit
LOW
SW1
OFF
HIGH
VLC3
VR1
VLC
CP57
HIGH
ON
LOW
CP57
VLC3
VR1
1.6 V to 2.2 V
Table 3-7. Switch Settings of External Boost Circuit
SW1
ON: Connect circuit
OFF: Disconnect circuit (initial setting)
User’s Manual U16290EJ1V0UM
35
CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS
This chapter describes differences between the target device’s signal lines and the signal lines of the IE system
target interface circuit.
The target interface circuit of the IE system realizes emulation through an emulation circuit configuration
comprising the emulation CPU, TTL, CMOS-IC, etc. The protective circuit makes the electrical specifications of the
IE system different from those of the target device.
(1) Signals input to or output from the EVA chip and the peripheral EVA chip
(2) Signals input from the target system via a gate
(3) Other signals
The following shows the circuit of the IE-789835-NS-EM1 for the signals in (1) to (3) above. The same applies to
alternate pins for which no circuit is provided in the IE system.
(1) Signals input to or output from the emulation CPU
The following signals perform the same operations as in the µPD789835 Subseries. However, a 1 MΩ pull-down
resistor and 100 Ω resistor are inserted in series. Refer to Figure 4-1 Equivalent Circuit of Emulation Circuit
1.
1 MΩ pull-down resistors are connected to the signals related to port 0 and port 1 inside the IE-78K0S or IE78K0S-NS-A.
• Signals related to port 0
When used as pins for detecting key returns, port 0 is pulled up using HC4066 in the IE-789835-NS-EM1.
• Signals related to port 1
• Signals related to port 2
• Signals related to port 3
• Signals related to port 6
• Signals related to port 8
• Signals related to LCD
VLC0 to VLC4 and CAP0 to CAP3 are connected to the emulation circuit by switching slide SW. A Zener diode of 7
V is connected between VLC0 and GND to protect the pins.
36
User’s Manual U16290EJ1V0UM
CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS
Figure 4-1. Equivalent Circuit of Emulation Circuit 1
Probe side
(Target system)
IE system side
LVCC
HC4066
Check point block
(Through hole)
Port 0
(KR00 to KR07)
100 kΩ
100 Ω
Port 0
(KR00 to KR07)
100 Ω
Port 1
Port 1
Port 2
Port 3
100 Ω
Port 2
Port 3
1 MΩ
Port 6
Port 8
LCD0 to LCD87
Port 6
Port 8
LCD0 to LCD87
USR side
VLC0 to VLC4
CAP0 to CAP3
SW2 to SW6
VLC0 to VLC4
CAP0 to CAP3
Emulation circuit
ICE side
RD7.5SB2
(VLC0 only)
(2) Signals input from the target system via a gate
Since the following signals are input via a gate, their signals show a delay compared to the µPD789835
Subseries. Refer to Figure 4-2 Equivalent Circuit of Emulation Circuit 2.
• RESET signal
• Signals related to clock input
The X2 (CL2) and XT2 pins are not used in the IE-789835-NS-EM1.
• SEL pin
The SEL pin is not used in the IE-789835-NS-EM1. The IE system is fixed to ceramic/crystal oscillation.
• VROUT pin
The VROUT pin is not used in the IE-789835-NS-EM1. This pin is connected to GND via a capacitor of 47 µF in
the IE system.
User’s Manual U16290EJ1V0UM
37
CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS
Figure 4-2. Equipment Circuit of Emulation Circuit 2
Probe side
(Target system)
IE system side
LVCC
4.7 kΩ
HC4066
100 Ω
RESET
RESET
LVCC
HSK120
X1 (CL1),
XT1
100 Ω
X1, XT1
1 MΩ
X2 (CL2),
XT2
Open
VROUT
Open
HSK120
VROUT
47 µ F
SEL
Open
(3) Other signals
Refer to Figure 4-3 Equivalent Circuit of Emulation Circuit 3.
• VDD pin
The emulation CPU operates on the internal power supply (3 V) when not connected to the target system, and
operates on the voltage (LVCC) supplied from the low voltage supply pin (TM1) when connected to the target
system.
The VDD pin of the target system is used only to control the LED1 that indicates whether the target system’s
power is on or off in the IE-789835-NS-EM1.
• VSS pin
The VSS pin is are connected to GND in the IE-789835-NS-EM1.
• IC/VPP pin
The IC/VPP pin is not used in the IE-789835-NS-EM1.
38
User’s Manual U16290EJ1V0UM
CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS
Figure 4-3. Equivalent Circuit of Emulation Circuit 3
Probe side
(Target system)
IE system side
+
100 Ω
−
VDD
0.1 µ F
Filter
+
Power supply
detection
1 MΩ
G6H-2F
(Relay)
TM1
(Low Volt)
µ PC393
+
−
100 Ω
22 µ F
µ PC393
Power supply
generation
1 MΩ
VSS
TM1
(GND)
IC/VPP
Open
User’s Manual U16290EJ1V0UM
39
CHAPTER 5 RESTRICTIONS
This chapter describes the differences between the target device and IE system specifications. The emulation
circuit of the IE system is configured of an EVA chip, TTL, CMOS-IC, etc., to realize emulation. Therefore, there are
differences between the target device and IE system specifications.
• Emulating an RC oscillator not possible by SEL pin input in the IE-789835-NS-EM1
The SEL pin, which is left open, does not accept input. The IE system is fixed to ceramic/crystal oscillation.
Emulating the oscillator is limited to the functions described in 3.4 Clock Settings.
• The power supply voltage of the subsystem clock cannot be changed in the IE-789835-NS-EM1
The VROUT0 pin is fixed to VDD (LVCC: 1.8 V to 3.6 V). Even if PSC00 (FFAFH) is changed to “1”, switching to the
VROUT0 voltage will not be enabled. The VROUT0 pin is connected to GND via a capacitor of 0.47 µF in the IE789835-NS-EM1.
• The voltage level of the LCD reference voltage (VLC0 to VLC4) does not satisfy the specified value in the
IE-789835-NS-EM1
The VLC0 voltage is the specified value (when the voltage level of the boost circuit is set by VLCD00 (FFB3H)) –
0.53 V ±10%.
The VLC0 voltage can be controlled within the range of the specified value – 0.35 V ±15% by using the external
boost circuit of the IE-789835-NS-EM1. For the external boost circuit, refer to 3.6 LCD Emulation.
40
User’s Manual U16290EJ1V0UM
APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE
Table A-1. SWEX-144SD-1 Pin Assignments (1/2)
Tip on Target
System Side
Pin No.
Tip on Target
System Side
Pin No.
CN1
CN2
CN3
CN2
CN3
1
1
54
−
31
31
94
−
2
2
56
−
32
32
96
3
3
57
−
33
33
4
4
58
−
34
5
5
60
−
6
6
61
7
7
8
Pin No.
CN1
CN2
CN3
61
61
−
101
−
62
62
−
104
97
−
63
63
−
106
34
98
−
64
64
−
105
35
35
100
−
65
65
−
108
−
36
36
101
−
66
66
−
110
62
−
37
37
102
−
67
67
−
109
8
64
−
38
38
104
−
68
68
−
112
9
9
65
−
39
39
105
−
69
69
−
114
10
10
66
−
40
40
106
−
70
70
−
113
11
11
68
−
41
41
108
−
71
71
−
116
12
12
69
−
42
42
109
−
72
72
−
118
13
13
70
−
43
43
110
−
73
73
63
−
14
14
72
−
44
44
112
−
74
74
67
−
15
15
73
−
45
45
113
−
75
75
71
−
16
16
74
−
46
46
114
−
76
76
•
−
17
17
76
−
47
47
116
−
77
77
79
−
18
18
77
−
48
48
117
−
78
78
83
−
19
19
78
−
49
49
118
−
79
79
87
−
20
20
80
−
50
50
120
−
80
80
•
−
21
21
81
−
51
51
−
90
81
81
95
−
22
22
82
−
52
52
−
89
82
82
−
−
23
23
84
−
53
53
−
92
83
83
103
−
24
24
85
−
54
54
−
94
84
84
107
−
25
25
86
−
55
55
−
93
85
85
111
−
26
26
88
−
56
56
−
96
86
86
115
−
27
27
89
−
57
57
−
98
87
87
−
62
28
28
90
−
58
58
−
97
88
88
−
66
29
29
92
−
59
59
−
100
89
89
−
70
30
30
93
−
60
60
−
102
90
90
−
74
Remark
CN1
Tip on Target
System Side
SWEX-144SD-1 is a product of TOKYO ELETECH CORPORATION.
User’s Manual U16290EJ1V0UM
41
APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE
Table A-1. SWEX-144SD-1 Pin Assignments (2/2)
Pin No.
Tip on Target
System Side
CN1
CN2
91
91
92
CN3
CN1
CN2
−
46
111
111
92
−
50
112
93
93
−
54
94
94
−
95
95
96
Pin No.
CN3
Tip on Target
System Side
CN1
CN2
CN3
6
−
131
131
32
−
112
5
−
132
132
34
−
113
113
8
−
133
133
33
−
58
114
114
10
−
134
134
36
−
7
−
115
115
9
−
135
135
38
−
96
11
−
116
116
12
−
136
136
37
−
97
97
15
−
117
117
14
−
137
137
40
−
98
98
19
−
118
118
13
−
138
138
42
−
99
99
23
−
119
119
16
−
139
139
41
−
100
100
27
−
120
120
18
−
140
140
44
−
101
101
31
−
121
121
17
−
141
141
46
−
102
102
35
−
122
122
20
−
142
142
45
−
103
103
39
−
123
123
22
−
143
143
48
−
104
104
43
−
124
124
21
−
144
144
50
−
105
105
47
−
125
125
24
−
106
106
51
−
126
126
26
−
107
107
59
−
127
127
25
−
108
108
55
−
128
128
28
−
109
109
1
−
129
129
30
−
110
110
4
−
130
130
29
−
Remark
42
Pin No.
Tip on Target
System Side
SWEX-144SD-1 is a product of TOKYO ELETECH CORPORATION.
User’s Manual U16290EJ1V0UM
APPENDIX B CAUTIONS ON DESIGNING TARGET SYSTEM
Figures B-1 and B-2 show the conditions when connecting the emulation probe to the conversion connector.
Follow the configuration below and consider the shape of parts to be mounted on the target system when designing a
system.
SWEX-144SD-1, NQPACK144SD, and YQPACK144SD described in this appendix are products of TOKYO
ELETECH CORPORATION.
Figure B-1. Distance Between In-Circuit Emulator and Conversion Connector
In-circuit emulator
IE-78K0-NS or IE-78K0-NS-A
Target system
Emulation board
IE-789835-NS-EM1
335 ±8 mm
CN2 CN3
CN1
Emulation probe
SWEX-144SD-1
Conversion connector
NQPACK144SD +
YQPACK144SD
FG Cable
(Supplied)
Figure B-2. Connection to Target System
Emulation board
IE-789835-NS-EM1
Emulation probe
SWEX-144SD-1
Conversion
connector
NQPACK144SD+
YQPACK144SD
18.5 mm
29 mm
55.5 mm
29 mm
47.5 mm
Target system
User’s Manual U16290EJ1V0UM
43
[MEMO]
44
User’s Manual U16290EJ1V0UM
[MEMO]
User’s Manual U16290EJ1V0UM
45
[MEMO]
46
User’s Manual U16290EJ1V0UM
Facsimile Message
From:
Name
Company
Tel.
Although NEC has taken all possible steps
to ensure that the documentation supplied
to our customers is complete, bug free
and up-to-date, we readily accept that
errors may occur. Despite all the care and
precautions we've taken, you may
encounter problems in the documentation.
Please complete this form whenever
you'd like to report errors or suggest
improvements to us.
FAX
Address
Thank you for your kind support.
North America
Hong Kong, Philippines, Oceania
NEC Electronics Inc.
NEC Electronics Hong Kong Ltd.
Corporate Communications Dept. Fax: +852-2886-9022/9044
Fax: +1-800-729-9288
+1-408-588-6130
Korea
Europe
NEC Electronics Hong Kong Ltd.
NEC Electronics (Europe) GmbH
Seoul Branch
Market Communication Dept.
Fax: +82-2-528-4411
Fax: +49-211-6503-274
Taiwan
NEC Electronics Taiwan Ltd.
Fax: +886-2-2719-5951
South America
NEC do Brasil S.A.
Fax: +55-11-6462-6829
Japan
NEC Semiconductor Technical Hotline
Fax: +81- 44-435-9608
P.R. China
NEC Electronics Shanghai, Ltd.
Fax: +86-21-6841-1137
Asian Nations except Philippines
NEC Electronics Singapore Pte. Ltd.
Fax: +65-250-3583
I would like to report the following error/make the following suggestion:
Document title:
Document number:
Page number:
If possible, please fax the referenced page or drawing.
Document Rating
Excellent
Good
Acceptable
Poor
Clarity
Technical Accuracy
Organization
CS 02.3