IE-780148-NS-EM1 - NEC Electronics

User’s Manual

Target Devices

PD780103 Subseries

PD780138 Subseries

PD780114 Subseries

PD780148 Subseries

PD780124 Subseries

IE-780148-NS-EM1

Emulation Board

Document No. U16963EJ1V0UM00 (1st edition)

Date Published January 2004 N CP(K)

Printed in Japan

2004

User’s Manual U16963EJ1V0UM

[MEMO]

User’s Manual U16963EJ1V0UM 3

PC/AT is a trademark of International Business Machines Corporation.

The information in this document is current as of December, 2003. The information is subject to

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User’s Manual U16963EJ1V0UM

Regional Information

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User’s Manual U16963EJ1V0UM 5

INTRODUCTION

Product Overview The IE-780148-NS-EM1 is designed to be used with the IE-78K0-NS or IE-78K0-NS-A to

debug the following target devices that belong to the 78K/0 Series of 8-bit single-chip

microcontrollers.

• 78K0/KB1 (

PD780103 Subseries):

PD780101, 780102, 780103, 78F0103

• 78K0/KC1 (

PD780114 Subseries):

PD780111, 780112, 780113, 780114, 78F0114

• 78K0/KD1 (

PD780124 Subseries):

PD780121, 780122, 780123, 780124, 78F0124

• 78K0/KE1 (

PD780138 Subseries):

PD780131, 780132, 780133, 780134, 780136,

780138, 78F0134, 78F0138

• 78K0/KF1 (

PD780148 Subseries):

PD780143, 780144, 780146, 780148, 78F0148

• 78K0/KB1+ (

PD780103 Subseries):

PD78F0101H, 78F0102H, 780103H

• 78K0/KC1+ (

PD780114 Subseries):

PD78F0112H, 78F0113H, 780114H

• 78K0/KD1+ (

PD780124 Subseries):

PD78F0122H, 78F0123H, 780124H

• 78K0/KE1+ (

PD780138 Subseries):

PD78F0132H, 78F0133H, 780134H, 78F0136H,

78F0138H

• 78K0/KF1+ (

PD780148 Subseries):

PD78F0148H

Target Readers This manual is intended for engineers who will use the IE-780148-NS-EM1 with the IE-

78K0-NS or IE-78K0-NS-A to perform system debugging.

Engineers who use this manual are expected to be thoroughly familiar with the target

device’s functions and use methods and to be knowledgeable about debugging.

Organization When using the IE-780148-NS-EM1, refer to not only this manual (supplied with the IE-

780148-NS-EM1) but also the manual that is supplied with the IE-78K0-NS or IE-78K0-

NS-A.

The IE-78K0-NS used in combination with the IE-78K0-NS-PA is functionally equivalent

to the IE-78K0-NS-A. Therefore, as necessary, read IE-78K0-NS + IE-78K0-NS-PA for

IE-78K0-NS-A in this document.

IE-78K0-NS or IE-78K0-NS-A IE-780148-NS-EM1

User’s Manual User’s Manual

• General • General

• Part names • Part names

• Installation • Installation

• Differences between target devices

and target interface circuits

Purpose This manual’s purpose is to explain various debugging functions that can be performed

when using the IE-780148-NS-EM1.

User’s Manual U16963EJ1V0UM

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 in-circuit emulator (IE-78K0-NS or IE-78K0-NS-A) and

emulation board (IE-780148-NS-EM1).

Conventions 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

How to Read This Manual It is assumed that the readers of this manual have general knowledge in the fields of

electrical engineering, logic circuits, and microcontrollers.

To understand the overall functions of the IE-780148-NS-EM1

→ Read this manual according to the CONTENTS.

Related Documents The related documents (user’s manuals) indicated in this publication may include

preliminary versions. However, preliminary versions are not marked as such.

Document Name Document No.

IE-78K0-NS In-Circuit Emulator U13731E

IE-78K0-NS-A In-Circuit Emulator U14889E

IE-780148-NS-EM1 Emulation Board This manual

ID78K0-NS Ver. 2.52 Integrated Debugger Operation U16488E

78K0/KB1 8-Bit Single-Chip Microcontroller U15836E

78K0/KC1 8-Bit Single-Chip Microcontroller U16227E

78K0/KD1 8-Bit Single-Chip Microcontroller U16315E

78K0/KE1 8-Bit Single-Chip Microcontroller U16228E

78K0/KF1 8-Bit Single-Chip Microcontroller U15947E

78K0/KB1+ 8-Bit Single-Chip Microcontroller U16846E

78K0/KC1+ 8-Bit Single-Chip Microcontroller Under preparation

78K0/KD1+ 8-Bit Single-Chip Microcontroller Under preparation

78K0/KE1+ 8-Bit Single-Chip Microcontroller Under preparation

78K0/KF1+ 8-Bit Single-Chip Microcontroller U16819E

Caution The related documents listed above are subject to change without notice. Be sure to use the

latest version of each document for designing.

User’s Manual U16963EJ1V0UM 7

CONTENTS

CHAPTER 1 GENERAL .............................................................................................................................8

1.1 System Configuration.................................................................................................................................. 9

1.2 Hardware Configuration ............................................................................................................................ 11

1.3 Basic Specifications .................................................................................................................................. 12

CHAPTER 2 PART NAMES .....................................................................................................................13

2.1 Parts of Main Unit ...................................................................................................................................... 14

CHAPTER 3 INSTALLATION ..................................................................................................................15

3.1 Connection ................................................................................................................................................. 16

3.2 Clock Settings ............................................................................................................................................ 18

3.2.1 Overview of clock settings.............................................................................................................. 18

3.2.2 Main system clock settings ............................................................................................................ 22

3.2.3 Subsystem clock settings............................................................................................................... 27

3.3 Mask Options ............................................................................................................................................. 31

3.4 Emulation of POC and LVI Functions ...................................................................................................... 32

3.5 External Trigger ......................................................................................................................................... 33

3.6 Jumper Settings on IE-780148-NS-EM1 ................................................................................................... 34

3.7 Switch for Clock Monitor........................................................................................................................... 34

3.8 Jumper Settings on IE-78K0-NS ............................................................................................................... 35

3.9 LED2 and LED3 .......................................................................................................................................... 36

3.10 Low-Voltage Emulation Setting ................................................................................................................ 37

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE

CIRCUITS............................................................................................................................38

4.1 When Emulating 78K0/KB1 and 78K0/KB1+ ............................................................................................ 39

4.2 When Emulating 78K0/KC1 and 78K0/KC1+ ............................................................................................ 42

4.3 When Emulating 78K0/KD1 and 78K0/KD1+ ............................................................................................ 46

4.4 When Emulating 78K0/KE1 and 78K0/KE1+............................................................................................. 50

4.5 When Emulating 78K0/KF1 and 78K0/KF1+............................................................................................. 54

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE.............................................................58

APPENDIX B NOTES ON TARGET SYSTEM DESIGN............................................................................68

User’s Manual U16963EJ1V0UM

CHAPTER 1 GENERAL

The IE-780148-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/0 Series of 8-bit single-chip microcontrollers.

This chapter describes the IE-780148-NS-EM1’s system configuration and basic specifications.

• Target devices

• 78K0/KB1, 78K0/KB1+:

PD780103 Subseries

• 78K0/KC1, 78K0/KC1+:

PD780114 Subseries

• 78K0/KD1, 78K0/KD1+:

PD780124 Subseries

• 78K0/KE1, 78K0/KE1+:

PD780138 Subseries

• 78K0/KF1, 78K0/KF1+:

PD780148 Subseries

CHAPTER 1 GENERAL

User’s Manual U16963EJ1V0UM 9

1.1 System Configuration

Figure 1-1 illustrates the IE-780148-NS-EM1’s system configuration.

Figure 1-1. System Configuration

FG cable

IE-78K0-NS

IE-78K0-NS-A

(sold separately)

IE-70000-CD-IF-A

(sold separately)

Debugger

ID78K0-NS

(sold separately)

Device fileNote 1

(available separately)

Control software

Host machine

PC-9800 Series,

IBM PC/AT™

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 cable

(NS IF cable)

In-circuit emulator

IE-780148-NS-EM1

(this product)

AC adapter

IE-70000-MC-PS-B

(sold separately) Emulation probeNote 2

(sold separately)

Conversion socket/conversion adapterNote 3

(sold separately)

NS CARD

cable MC CARD

cable

Interface

cable

Interface card

Probe conversion board (included with IE-780148-NS-EM1)

CHAPTER 1 GENERAL

User’s Manual U16963EJ1V0UM

Notes 1. The device file is as follows.

S××××DF780103: 78K0/KB1, 78K0/KB1+

S××××DF780114: 78K0/KC1, 78K0/KC1+

S××××DF780124: 78K0/KD1, 78K0/KD1+

S××××DF780138: 78K0/KE1, 78K0/KE1+

S××××DF780148: 78K0/KF1, 78K0/KF1+

The device file can be downloaded from the website of NEC Electronics

(http://www.necel.com/micro/)

2. The emulation probes NP-80GC, NP-80GC-TQ, NP-H80GC-TQ, NP-80GK, NP-H80GK-TQ, NP-64GK,

NP-H64GK-TQ, NP-64GC, NP-64GC-TQ, NP-H64GC-TQ, NP-64GB, NP-H64GB-TQ, NP-H52GB-TQ,

NP-44GB, NP-44GB-TQ, NP-H44GB-TQ, and NP-30MC are products of Naito Densei Machida Mfg.

Co., Ltd.

For further information, contact Naito Densei Machida Mfg. Co., Ltd. (TEL: +81-45-475-4191)

3. The conversion adapters TGC-080SBP, TGK-080SDW, TGC-064SBW, TGC-064SAP, TGB-064SDP,

TGB-052SBP, TGB-044SAP, and YSPACK30BK + NSPACK30BK + YSGUIDE 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 Socket/Conversion Adapter

Package Probe Conversion Board Emulation Probe Conversion Socket/Conversion

Adapter

NP-80GC EV-9200GC-80

NP-80GC-TQ

80-pin plastic QFP

(GC type)

NP-H80GC-TQ

TGC-080SBP

NP-80GK 80-pin plastic TQFP

(GK type)

78014X PROBE Board

NP-H80GK-TQ

TGK-080SDW

NP-64GK 64-pin TQFP (12 x 12 mm)

NP-H64GK-TQ

TGK-064SBW

NP-64GC EV-9200GC-64

NP-64GC-TQ

64-pin LQFP (14 x 14 mm)

NP-H64GC-TQ

TGC-064SAP

NP-64GB 64-pin LQFP (10 x 10 mm)

78013X PROBE Board

NP-H64GB-TQ

TGB-064SDP

52-pin TQFP (10 x 10 mm) 78012X PROBE Board NP-H52GB-TQ TGB-052SBP

NP-44GB EV-9200G-44

NP-44GB-TQ

44-pin TQFP (10 x 10 mm) 78011X PROBE Board

NP-H44GB-TQ

TGB-044SAP

30-pin SSOP (300 mil) 78010X PROBE Board NP-30MC YSPACK30BK + NSPACK30BK

+ YSGUIDE

CHAPTER 1 GENERAL

User’s Manual U16963EJ1V0UM 11

1.2 Hardware Configuration

Figure 1-2 shows the IE-780148-NS-EM1’s position in the basic hardware configuration.

Figure 1-2. Basic Hardware Configuration

IE-78K0-NS or IE-78K0-NS-A IE-780148-NS-EM1

Dedicated bus interface IE system

Host machine Interface board

(sold separately)

Interface card

(sold separately)

Emulation probe

(sold separately)

In-circuit emulator Emulation board

(this product)

Probe conversion board

(included with

IE-780148-NS-EM1)

CHAPTER 1 GENERAL

User’s Manual U16963EJ1V0UM

1.3 Basic Specifications

The IE-780148-NS-EM1’s basic specifications are listed in Table 1-2.

Table 1-2. Basic Specifications

Item Description

Target device 78K0/KB1 (

PD780103 Subseries):

PD780101, 780102, 780103, 78F0103

78K0/KC1 (

PD780114 Subseries):

PD780111, 780112, 780113, 780114, 78F0114

78K0/KD1 (

PD780124 Subseries):

PD780121, 780122, 780123, 780124, 78F0124

78K0/KE1 (

PD780138 Subseries):

PD780131, 780132, 780133, 780134, 780136,

780138, 78F0134, 78F0138

78K0/KF1 (

PD780148 Subseries):

PD780143, 780144, 780146, 780148, 78F0148

78K0/KB1+ (

PD780103 Subseries):

PD78F0101H, 78F0102H, 78F0103H

78K0/KC1+ (

PD780114 Subseries):

PD78F0112H, 78F0113H, 78F0114H

78K0/KD1+ (

PD780124 Subseries):

PD78F0122H, 78F0123H, 78F0124H

78K0/KE1+ (

PD780138 Subseries):

PD78F0132H, 78F0133H, 78F0134H, 78F0136H,

78F0138H

78K0/KF1+ (

PD780148 Subseries):

PD78F0148H

System clock Ring-OSC: 240 kHz

Main system clock: MAX. 10.0 MHz (when emulating 78K0/Kx1)

MAX. 12.0 MHz (when emulating 78K0/Kx1+)

Subsystem clock: 32.768 kHz

(no subsystem clock for

PD78010x,

PD78F0103,

PD78F0103H, and

PD78F010xH)

Clock supply External: Pulse input

Internal: Mounted on the emulation board

Low voltage support 2.5 to 5.5 V (less than 2.5 V is not supported)

User’s Manual U16963EJ1V0UM 13

CHAPTER 2 PART NAMES

This chapter introduces the parts of the IE-780148-NS-EM1 main unit.

The packing box contains the emulation board (IE-780148-NS-EM1), probe conversion board, two jumper pins,

packing list, user’s manual, and guarantee card.

If there are any missing or damaged items, please contact an NEC Electronics sales representative.

Fill out and return the guarantee card that comes with the main unit.

CHAPTER 2 PART NAMES

User’s Manual U16963EJ1V0UM

2.1 Parts of Main Unit

Figure 2-1. IE-780148-NS-EM1 Part Names

EXT IN

EXT OUT

USER VDD

POC

RESET

RETRY

JP1 JP2

OSC1

OSC2 Main system clock

UMCLK

Subsystem clock

USCLK

CN 6

CP34 CP35

LED2 LED3 SW2

LED1

External trigger

Switch for clock

monitor

Probe connector

Figure 2-2. Probe Conversion Board

78010X PROBE Board

CN1

78012X PROBE Board

CN1

78011X PROBE Board

CN1

78013X PROBE Board

CN1

78014X PROBE Board

CN1

User’s Manual U16963EJ1V0UM 15

CHAPTER 3 INSTALLATION

This chapter describes methods for connecting the IE-780148-NS-EM1 to the IE-78K0-NS or IE-78K0-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.

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

3.1 Connection

(1) Connection with IE-78K0-NS or IE-78K0-NS-A main unit

See the IE-78K0-NS User’s Manual (U13731E) for a description of how to connect the IE-780148-NS-EM1 to the

IE-78K0-NS.

See the IE-78K0-NS-A User’s Manual (U14889E) for a description of how to connect the IE-780148-NS-EM1 to

the IE-78K0-NS-A.

(2) Connection with emulation probe

Use the probe conversion board corresponding to the used emulation probe.

Connect CN2 of the probe conversion board to CN6 of the IE-780148-NS-EM1 when using the probe conversion

board.

Connect CN1 of the probe conversion board to the emulation probe.

Use the probe conversion board corresponding to the target device listed in Table 3-1.

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.

Figure 3-1. Connection of Emulation Probe

IE-780148-NS-EM1

CN1

Main board of

IE-78K0-NS (sold separately) or

IE-78K0-NS-A (sold separately)

Emulation probe

(sold separately)

Probe conversion board

78010X PROBE Board,

78011X PROBE Board,

78012X PROBE Board,

78013X PROBE Board,

78014X PROBE Board

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 17

Table 3-1. Correspondence Between Target Device and Probe Conversion Board

Target Device Probe Conversion Board to Be Used

PD780101, 780102, 780103, 78F0103, 78F0101H,

78F0102H, 78F0103H

78010X PROBE Board

PD780111, 780112, 780113, 780114, 78F0114, 78F0112H,

78F0113H, 78F0114H

78011X PROBE Board

PD780121, 780122, 780123, 780124, 78F0124, 78F0122H,

78F0123H, 78F0124H

78012X PROBE Board

PD780131, 780132, 780133, 780134, 780136, 780138,

78F0134, 78F0138, 78F0132H, 78F0133H, 78F0134H,

78F0136H, 78F0138H

78013X PROBE Board

PD780143, 780144, 780146, 780148, 78F0148, 78F0148H 78014X PROBE Board

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

3.2 Clock Settings

3.2.1 Overview of clock settings

The main system clock to be used during debugging can be selected from (1) to (4) below. The subsystem clock 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

(4) Ring-OSC

If the target system includes a clock oscillator, select either (1) Clock that is already mounted on emulation

board, (2) Clock that is mounted by user, or (4) Ring-OSC. For the 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 3-2. 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 in the IE-78K0-NS or IE-78K0-NS-A is used.

If the target system includes an external clock, select either (1) Clock that is already mounted on emulation

board, (2) Clock that is mounted by user, (3) Pulse input from target system, or (4) Ring-OSC. For the external

clock, a clock signal is supplied from outside of 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 3-2.

Caution The IE system will hang up if the main system clock is not supplied normally. Moreover, be

sure to input a rectangular wave as the clock from the target. There is no need to supply a

clock to the X2 and XT2 pins. Also, even if a crystal resonator is connected directly to X1 (for

the main system clock) or XT1 (for the subsystem clock), the target device will not operate.

Figure 3-2. External Circuits Used as System Clock Oscillator

(a) Clock oscillator

(b) External clock

X1 or XT1

Crystal or ceramic

resonator

External

clock

X2 or XT2

X1 or XT1

X2 or XT2

Target device Target device

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 19

(1) Clock that is already mounted on emulation board

(a) For main system clock

A crystal oscillator (UMCLK) is already mounted on the emulation board. Its frequency is 10.0 MHz.

Figure 3-3. When Using Clock That Is Already Mounted on Emulation Board (Main System Clock)

IE-78K0-NS or IE-78K0-NS-A

Emulation board

Mounted

oscillator

(used)

Emulation probe

Target system

Clock oscillator or

external clock (not used)

UMCLK

Remark The clock that is supplied by the IE-780148-NS-EM1’s oscillator (encircled in the figure) is

used.

(b) For subsystem clock

A crystal resonator (USCLK) is already mounted on the emulation board. Its frequency is 32.768 kHz.

Figure 3-4. When Using Clock That Is Already Mounted on Emulation Board (Subsystem Clock)

IE-78K0-NS or IE-78K0-NS-A

Emulation board

Mounted

oscillator

(used)

Emulation probe

Target system

Clock oscillator or

external clock (not used)

USCLK

Remark The clock that is supplied by the IE-780148-NS-EM1’s resonator (encircled in the figure) is

used.

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

(2) Clock that is mounted by user

The user is able to mount any clock supported by the set specifications on the IE-780148-NS-EM1.

(a) For main system clock

Remove the crystal oscillator (UMCLK) 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. This method is useful when using

a different frequency from that of the pre-mounted clock.

Figure 3-5. When Using User-Mounted Clock (Main System Clock)

IE-78K0-NS or IE-78K0-NS-A

Emulation board

Parts board + oscillator

oscillator (used)

Emulation probe

Target system

Clock oscillator or

external clock (not used)

UMCLK

Remark The clock that is supplied by the IE-780148-NS-EM1’s resonator or oscillator (encircled in the

figure) is used.

(b) For subsystem clock

Mount the resonator to be used on the parts board (USCLK) that is already mounted on the emulation board.

Alternatively, remove the parts board and mount an oscillator.

Figure 3-6. When Using User-Mounted Clock (Subsystem Clock)

IE-78K0-NS or IE-78K0-NS-A

Emulation board

Parts board + oscillator

oscillator (used)

Emulation probe

Target system

Clock oscillator or

external clock (not used)

USCLK

Remark The clock that is supplied by the IE-780148-NS-EM1’s resonator or oscillator (encircled in the

figure) is used.

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 21

(3) Pulse input from target system

The external clock on the target system can be used via an emulation probe.

Figure 3-7. When Using External Clock

IE-78K0-NS or IE-78K0-NS-A

Emulation board

Emulation probe

Target system

External clock (used)

Mounted oscillator

(not used)

Remark The clock supplied by the target system’s external clock (encircled in the figure) is used.

(4) Ring-OSC

Ring-OSC on the emulation board can be used.

Figure 3-8. When Using Ring-OSC

IE-78K0-NS or IE-78K0-NS-A

Emulation board

Ring-OSC on emulation board

is used

Emulation probe

Target system

Clock oscillator or

external clock (not used)

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

3.2.2 Main system clock settings

Table 3-2. Main System Clock Settings

IE-780148-NS-EM1 Frequency of Main System Clock SFR Register

MCM0 UMCLK Socket

CPU Clock Source

SelectionNote 2 (ID78K0-NS)

(1) When using clock that is

already mounted on

emulation board

10.0 MHz Oscillator

(2) When using clock mounted by

user

Oscillator assembled by

user

Internal

(3) When inputting pulse from

target system

Other than 10.0 MHz

External

(4) When using Ring-OSCNote 1 240 kHz 0

Oscillator (not used)

Internal or external

Notes 1. The IE-780148-NS-EM1 operates with the Ring-OSC clock when the integrated debugger is started and

immediately after reset.

2. Select the source clock for the main system clock when the integrated debugger is started. After that, do

not change the setting.

(1) When using clock that is already mounted on emulation board

When the IE-780148-NS-EM1 is shipped, a 10.0 MHz crystal oscillator is already mounted in the IE-780148-NS-

EM1’s UMCLK socket. When using the factory-set mode settings, there is no need to make any other hardware

settings.

When starting the integrated debugger (ID78K0-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).

After the integrated debugger is started, if the SFR register MCM0 is changed to 1, the CPU operating clock is

switched from Ring-OSC to the clock already mounted on the emulation board.

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 23

(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 (ID78K0-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).

After the integrated debugger is started, if the SFR register MCM0 is changed to 1, the CPU operating clock is

switched from Ring-OSC to the clock mounted by user.

(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 and resistor Rx, capacitor CA, and capacitor

CB (all with suitable oscillation frequencies) as shown below.

Figure 3-9. Connections on Parts Board (When Using Main System Clock or User-Mounted Clock)

Parts board (UMCLK)

Pin No. Connection

2-13 Capacitor CA

3-12 Capacitor CB

4-11 Ceramic resonator or crystal resonator

5-10 Resistor Rx

8-9 Shorted

Circuit diagram

Remark The sections enclosed in broken lines indicate parts that are attached to the parts board.

1 MΩ

CB CA

98CLOCK OUT

HCU04 HCU04

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

<2> Prepare the IE-780148-NS-EM1.

<3> Remove the crystal oscillator that is mounted in the IE-780148-NS-EM1’s UMCLK socket.

<4> Connect the parts board (from <1> above) to the UMCLK socket 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 3-9 above.

<6> Install the IE-780148-NS-EM1 in the IE-78K0-NS or IE-78K0-NS-A.

The above steps configure the following circuit and enable supply of the clock from the mounted resonator to

the emulation device.

Remark The sections enclosed in broken lines indicate parts that are attached to the parts board.

1 MΩ

CB CA

HCU04HCU04

XVHC157

HSK120

LVCC

IE-78K0-NS or IE-78K0-NS-A side

(Emulation device)

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 25

(b) When using a crystal oscillator

• Items to be prepared

• Crystal oscillator (see pins shown in Figure 3-10)

Figure 3-10. Crystal Oscillator (When Using Main System Clock or User-Mounted Clock)

<Steps>

<1> Prepare the IE-780148-NS-EM1.

<2> Remove the crystal oscillator that is mounted in the IE-780148-NS-EM1’s UMCLK socket.

<3> Mount the crystal oscillator prepared by the user in the UMCLK socket from which the crystal oscillator

was removed in <2> above. Insert the crystal oscillator into the socket aligning the pins as shown in

the figure below.

Figure 3-11. Pin Alignment of Crystal Oscillator and Socket

Crystal Oscillator Pin Name Socket Pin No.

NC 1

GND 7

CLOCK OUT 8

VCC 14

<4> Install the IE-780148-NS-EM1 in the IE-78K0-NS or IE-78K0-NS-A.

CLOCK OUTGND

CLOCK OUT

GND

NC 1

Crystal oscillator Socket

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

The above steps configure the following circuit and enable supply of the clock from the mounted resonator to

the emulation device.

VHC157

IE-78K0-NS or IE-78K0-NS-A side

(Emulation device)

Crystal oscillator

HSK120

(3) When inputting pulse from target system

No hardware settings are required for this situation.

When starting the integrated debugger (ID78K0-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).

After the integrated debugger is started, if “X1orRC” is selected for the mask option SystemClock in the Mask

Option dialog box and the SFR register MCM0 is changed to 1, the CPU operating clock is switched from Ring-

OSC to the external clock.

(4) When using Ring-OSC

Ring-OSC (240 kHz) is selected as the CPU operating clock when the IE system is activated.

See 3.2.2 (1) to (4) when changing the setting.

Caution Use of the peripheral functions, except for the following cases, is prohibited when Ring-OSC

is selected as the CPU operating clock (MCM0 = 0).

• When watchdog timer is used

• When clock monitor is used

• TMH1 (When fosc/27 is selected for the count clock (CKS12 = 1, CKS11 = 0, CKS10 = 1))

• When peripheral function that uses an external clock as the operating clock is used

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 27

3.2.3 Subsystem clock settings

Table 3-3. Subsystem Clock Settings

IE-780148-NS-EM1 IE-78K0-NS or IE-78K0-NS-A Frequency of Subsystem Clock to Be Used

USCLK Socket JP8

(1) When using clock (XT1) that is

already mounted on emulation

board

32.768 kHz 6 and 8 shortedNote

(2) When using clock mounted by

user

Oscillator assembled by

user

Short 1 and 2 side

(3) When inputting pulse from target

system or when target device is

78K0/KB1 or 78K0/KB1+

(

PD780103 Subseries)

Other than

32.768 kHz

Not used Short 3 and 4 side

Note For the Ver. 1.x board, the oscillator is mounted on the parts board (USCLK).

For the Ver. 2.x board, short 6 and 8 because the oscillator is mounted on the board.

Remark When the IE-780148-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-780148-NS-EM1 is shipped, a 32.768 kHz crystal resonator and the parts board (USCLK) on which

pins 6 and 8 are shorted are already mounted on the IE-780148-NS-EM1. Short the 1 and 2 side of the jumper

(JP8) on the IE-78K0-NS or IE-78K0-NS-A. There is no need to make any other settings via the integrated

debugger (ID78K0-NS).

(2) When using the clock mounted by user

Perform the settings described under either (a) or (b), depending on the type of clock to be used. Short the 1 and

2 side on the jumper (JP8) of the IE-78K0-NS or IE-78K0-NS-A.

For the jumper position, refer to the IE-78K0-NS User’s Manual (U13731E) when using the IE-78K0-NS, and

refer to the IE-78K0-NS-A User’s Manual (U14889E) when using the IE-78K0-NS-A.

There is no need to make any other settings via the integrated debugger (ID78K0-NS).

(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> Prepare the IE-780148-NS-EM1.

<2> Solder the ceramic resonator or crystal resonator, resistor Rx, capacitor CA, and capacitor CB (all with

suitable oscillation frequencies) onto the parts board (USCLK) (as shown below).

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

Figure 3-12. Connections on Parts Board (When Using Subsystem Clock or User-Mounted Clock)

Parts board (USCLK)

Pin No. Connection

2-13 Capacitor CA

3-12 Capacitor CB

4-11 Ceramic resonator or crystal resonator

5-10 Resistor Rx

8-9 Shorted

Circuit diagram

1 MΩ

CB CA

98CLOCK OUT

HCU04 HCU04

Remark The sections enclosed in broken lines indicate parts that are attached to the parts board.

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 29

<3> Make sure that the parts board (USCLK) is wired as shown in Figure 3-12.

<4> Remove the parts board that is mounted in the IE-780148-NS-EM1’s USCLK socket.

<5> Connect the parts board from <2> above to the USCLK socket from which the parts board (from <4>

above) was removed. Check the pin 1 mark to make sure the board is mounted in the correct direction.

<6> Install the IE-780148-NS-EM1 in the IE-78K0-NS or IE-78K0-NS-A.

The above steps configure the following circuit and enable supply of the clock from the mounted resonator to

the emulation device.

Remarks 1. The sections enclosed in broken lines indicate parts that are attached to the parts board.

2. JP8 is on the IE-78K0-NS or IE-78K0-NS-A.

10 MΩ

HCU04 HCU04

9 8

114

IE-78K0-NS or IE-78K0-NS-A side

(Emulation device)

Target

system

135

246

JP8

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

(b) When using a crystal oscillator

• Items to be prepared

• Crystal oscillator (see pinouts shown in Figure 3-13)

Figure 3-13. Crystal Oscillator (When Using Subsystem Clock or User-Mounted Clock)

<Steps>

<1> Prepare the IE-780148-NS-EM1.

<2> Remove the parts board that is mounted in the IE-780148-NS-EM1’s USCLK socket.

<3> Mount the crystal oscillator prepared by the user in the USCLK socket from which the parts board was

removed in <2> above. Insert the crystal oscillator into the socket aligning the pins as shown in the

figure below.

Figure 3-14. Pin Alignment of Crystal Oscillator and Socket

Crystal Oscillator Pin Name Socket Pin No.

NC 1

GND 7

CLOCK OUT 8

VCC 14

<4> Install the IE-780148-NS-EM1 in the IE-78K0-NS or IE-78K0-NS-A.

CLOCK OUT

GND

CLOCK OUT

GND

NC 1

Crystal oscillator Socket

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 31

The above steps configure the following circuit and enable supply of the clock from the mounted oscillator to

the emulation device.

Remarks 1. The sections enclosed in broken lines indicate the parts that are attached to the parts board.

2. JP8 is on the IE-78K0-NS or IE-78K0-NS-A.

(3) When inputting pulse from target system or when target device is 78K0/KB1 or 78K0/KB1+ (

PD780103

Subseries)

Short the 3 and 4 side on the jumper (JP8) of the IE-78K0-NS or IE-78K0-NS-A.

There is no need to make any settings via the integrated debugger (ID78K0-NS).

3.3 Mask Options

The following mask options are provided in the IE-780148-NS-EM1.

(a) For target device 78K0/Kx1

• Ring-OSC

• POC ON/OFF and detection voltage 2.85 V, 3.5 V

• P60 to P63 (no setting for

PD780101/102/103 and

PD78F0103 since they do not have this port)

Open the Mask Option dialog box in the integrated debugger by selecting [Mask Option] on the [Option] menu

to set the mask options.

See the ID78K0-NS Ver. 2.52 Integrated Debugger Operation User’s Manual (U16488E) for details of the

settings.

• RINGMSK NONMSK Ring-OSC can be stopped by software

Watchdog timer can be stopped

MSK Ring-OSC cannot be stopped by software

Watchdog timer cannot be stopped

• POC ON POC function ON

OFF POC function OFF

Crystal oscillator

+5 V

14 Parts board

IE-78K0-NS or IE-78K0-NS-A side

(Emulation device)

Target

system

135

246

JP8

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

• POCV 2.85 V POC detection voltage 2.85 V

3.5 V POC detection voltage 3.5 V

• P60 to P63 ON Pulled up by mask option resistor

OFF No mask option resistor

(b) For target device 78K0/Kx1+

• Ring-OSC

Open the Mask Option dialog box in the integrated debugger by selecting [Mask Option] on the [Option] menu

to set the mask options.

See the ID78K0-NS Ver. 2.52 Integrated Debugger Operation User’s Manual (U16488E) for details of the

settings.

• RINGMSK NONMSK Ring-OSC can be stopped by software

Watchdog timer can be stopped

MSK Ring-OSC cannot be stopped by software

Watchdog timer cannot be stopped

Caution When emulating the 78K0/Kx1+, although “78K0Kx1plus” is displayed on the Mask Option

dialog box, no setting is required.

3.4 Emulation of POC and LVI Functions

When emulating the POC and LVI functions using the IE-780148-NS-EM1, supply a voltage of the same potential

as the VDD pin of the emulation device to TP1, because POC and LVI power supply detection is performed via input

from TP1 on the G-780009 BOARD of the IE-78K0-NS or IE-78K0-NS-A, not from the VDD pin of the target device.

See the IE-78K0-NS User’s Manual (U13731E) or IE-78K0-NS-A User’s Manual (U14889E) for details of the

connection with TP1.

In addition, LED2 is provided for confirming a POC reset. For details, see 3.9 LED2 and LED3.

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 33

3.5 External Trigger

To set an external trigger, connect the IE-780148-NS-EM1’s check pins EXTOUT and EXTIN as shown below.

See the IE-78K0-NS User’s Manual (U13731E) or IE-78K0-NS-A User’s Manual (U14889E) for pin

characteristics.

For the use methods, see the ID78K0-NS Ver. 2.52 Operation User’s Manual (U16488E).

(1) EXTOUT

The EXTOUT pin on the IE-780148-NS-EM1 outputs a low level for 1.3

s when a break event occurs.

Caution Connect a pull-up resistor on the target system because this is an open drain output.

(2) EXTIN

An event signal can be input from the EXTIN pin on the IE-780148-NS-EM1. Input a high-level pulse signal for 2

CPU operation clocks or more.

Figure 3-15. External Trigger Input Position

EXT IN

EXT OUT

JP1 JP2

OSC1

OSC2

CN 6

CP34 CP35

LED2 LED3 SW2

LED1

External trigger

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

3.6 Jumper Settings on IE-780148-NS-EM1

Set the IE-780148-NS-EM1 jumpers as shown in the table below.

Setting of multiplication circuit

Change the settings of the multiplication circuit as shown in Table 3-4 according to the operating frequency of the

main system clock.

Table 3-4. Settings of Multiplication Circuit

Figure 3-16. Initial Settings of JP1 and JP2

JP2

135

JP1

810

135

246

810

3.7 Switch for Clock Monitor

A switch for clock monitor emulation (SW2) is mounted on the IE-780148-NS-EM1 board.

Emulation for when the clock is stopped can be performed by pressing SW2.

Main System Clock Frequency JP1 JP2

2.0 MHz to less than 2.5 MHz 1 and 2 shorted 1 and 2 shorted

2.5 MHz to less than 3.5 MHz 3 and 4 shorted 3 and 4 shorted

3.5 MHz to less than 5.0 MHz 5 and 6 shorted 5 and 6 shorted

5.0 MHz to less than 6.5 MHz 7 and 8 shorted 7 and 8 shorted

6.5 MHz to less than 9 MHz 9 and 10 shorted 9 and 10 shorted

9 MHz to 10.0 MHz (shipment setting) 11 and 12 shorted 11 and 12 shorted

10 MHz to 12 MHz 9 and 10 shorted

11 and 12 shorted

9 and 10 shorted

11 and 12 shorted

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 35

3.8 Jumper Settings on IE-78K0-NS

When using the IE-780148-NS-EM1 in combination with the IE-78K0-NS, set the jumpers on the IE-78K0-NS as

shown below.

For details of these jumper positions, refer to the IE-78K0-NS User’s Manual (U13731E) or IE-78K0-NS-A User’s

Manual (U14889E).

Caution An incorrect jumper setting may damage the device.

Table 3-5. Jumper Settings on IE-78K0-NS or IE-78K0-NS-A

(a) Target device is 78K0/KB1 and 78K0/KB1+ (

PD780103 Subseries)

JP2 JP3 JP4 JP6 JP7 JP8

Setting 2 and 3 shorted 1 and 2 shorted 1 and 2 shorted 3 and 4 shorted 3 and 4 shorted 3 and 4 shorted

(b) Target device is other than 78K0/KB1 and 78K0/KB1+ (

PD780103 Subseries)

JP2 JP3 JP4 JP6 JP7 JP8

Setting 2 and 3 shorted 1 and 2 shorted 1 and 2 shorted 3 and 4 shorted 3 and 4 shorted 1 and 2

shortedNote 1 or

3 and 4

shortedNote 2

Notes 1. The subsystem clock is selected as the internal clock.

2. The subsystem clock is selected as the external clock.

Table 3-6. Jumper Settings on IE-78K0-NS-A G-78K0H Option Board

JP2

Setting 2 and 3 shorted

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM

3.9 LED2 and LED3

The lighting specifications of LED2 (POC RESET) and LED3 (RETRY) are as follows.

LED2 (POC RESET)

This is an LED for confirming a POC reset.

LED2 is lit during the reset shown below. Do not set a break when LED2 is lit; otherwise the integrated

debugger ID78K0-NS will hang up.

• Internal reset by comparing the power supply voltage and detection voltage of the POC circuit

• Internal reset by comparing the power supply voltage and detection voltage of the low-voltage detector (LVI)

• Clock monitor reset by pressing the switch for clock monitor emulation (SW2)

LED3 (RETRY)

This is an LED for confirming wait (retry) occurrence.

LED3 is lit when a wait occurs. The wait shown in LED3 is a wait that occurs during repetitive access due to

an access conflict between the CPU bus and the peripheral bus of the internal system bus, similar to the target

device specifications.

CHAPTER 3 INSTALLATION

User’s Manual U16963EJ1V0UM 37

3.10 Low-Voltage Emulation Setting

When the target system is operating on low voltage, supply the same voltage as the target system to the TP1

terminal pin on the main board (G-780009 board) of the IE-78K0-NS or IE-78K0-NS-A (this is unnecessary when

target system is operating on 5 V).

Set the supply voltage of the target system to between 2.5 to 5.5 V.

Caution To emulate at 4.5 V or lower, first start at 5 V, and then lower the target system voltage.

Table 3-7. Supply Voltage and Maximum Current Consumption

Supply Voltage to TP1

Maximum Current

Consumption of TP1

2.5 to 5.5 V 300 mA

Figure 3-17. Main Board (G-780009 Board) of IE-78K0-NS or IE-78K0-NS-A

GND V

Dedicated bus interface connector

(HOST-I/F)

TP1

User’s Manual U16963EJ1V0UM

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-780148-

NS-EM1’s target interface circuit.

Although the target device is a CMOS circuit, the IE-780148-NS-EM1’s target interface circuit consists of emulation

circuits such as an emulation CPU, TTL, and CMOS-IC.

When the IE system is connected with the target system for debugging, the IE system performs emulation so as to

operate as the actual target device would operate in the target system.

However, some minor differences exist since the operations are performed via the IE system’s emulation.

(1) Signals input or output from the emulation CPU (

PD78F0148H)

(2) Signals input or output from the emulation CPU (

PD780009A)

(3) Other signals

The IE-780148-NS-EM1’s circuit is used in each target device as follows for signals listed in (1) to (3) above.

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 39

4.1 When Emulating 78K0/KB1 and 78K0/KB1+

See Figure 4-1 Equivalent Circuit of Emulation Circuit 1 for the signals listed in (1) to (3) below.

(1) Signals input or output from the emulation CPU (

PD78F0148H)

• P03 to P00

• P17 to P10

• P23 to P20

• P33 to P30

• P120

• P130

• AVREF

(2) Signals input or output from the emulation CPU (

PD780009A)

None

(3) Other signals

• X1, X2, RESET, VDD, VSS, AVSS, IC/VPPNote

Note In the case of 78K0/KB1+, the pin name is FLMD0.

Figure 4-1. Equivalent Circuit of Emulation Circuit 1 (1/3)

P03 to P00

P17 to P10

P33 to P30

P120

P130

P23 to P20

AVREF

PD78F0148H

Emulation CPU

1 MΩ

100 Ω

• Probe side

(Target system)

• IE system side

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM

Figure 4-1. Equivalent Circuit of Emulation Circuit 1 (2/3)

LVDD

PVDD

(5 V)

PVDD

(5 V)

10 MHz

UMCLK

LVDD

2.2 kΩ1.5 kΩ

100 Ω

HC157

1 kΩ680 Ω390 Ω270 Ω

3.0 kΩ2.2 kΩ1.5 kΩ1.2 kΩ820 Ω680 Ω

JP2

LS07 HC04 HC02

HC08

HC32 HC04

LS07

HC04

100 Ω

4.7 kΩ

RESET

33 pF

JP1

• Probe side

(Target system)

• IE system side

PD78F0148H

Emulation CPU

Level shifter

PD780009A

Emulation CPU

(CLK block)

(Level shift block)

(RESET block) Reset mask

circuit

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 41

Figure 4-1. Equivalent Circuit of Emulation Circuit 1 (3/3)

3.3 kΩ

10 kΩ

PC393G

1.5 kΩ

OPEN

IC/V

PPNote

Power supply

detection

• Probe side

(Target system)

• IE system side

Note In the case of 78K0/KB1+, the pin name is FLMD0.

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM

4.2 When Emulating 78K0/KC1 and 78K0/KC1+

See Figure 4-2 Equivalent Circuit of Emulation Circuit 2 for the signals listed in (1) to (3) below.

(1) Signals input or output from the emulation CPU (

PD78F0148H)

• P01 to P00

• P17 to P10

• P27 to P20

• P33 to P30

• P73 to P70

• P120

• P130

• AVREF

(2) Signals input or output from the emulation CPU (

PD780009A)

• P63 to P60

(3) Other signals

• X1, X2, XT1, XT2, RESET, VDD, VSS, EVDD, EVSS, AVSS, IC/VPPNote

Note In the case of 78K0/KC1+, the pin name is FLMD0.

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 43

Figure 4-2. Equivalent Circuit of Emulation Circuit 2 (1/3)

P01 to P00

P17 to P10

P33 to P30

P73 to P70

P120

P27 to P20

REF

1 MΩ

100 Ω

P130

PD780009A

Emulation CPU

100 Ω

P63 to P60

39 kΩ

• Probe side

(Target system)

• IE system side

PD78F0148H

Emulation CPU

Photocoupler

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM

Figure 4-2. Equivalent Circuit of Emulation Circuit 2 (2/3)

(5 V)

10 MHz

UMCLK

2.2 kΩ1.5 kΩ

100 Ω

HC157

1 kΩ680 Ω390 Ω270 Ω

3.0 kΩ2.2 kΩ1.5 kΩ1.2 kΩ820 Ω680 Ω

JP2

LS07 HC04 HC02

HC08

HC32 HC04

LS07

HC04

100 Ω

4.7 kΩ

RESET

33 pF

JP1

• Probe side

(Target system)

• IE system side

PD78F0148H

Emulation CPU

Level shifter

PD780009A

Emulation CPU

(CLK block)

(Level shift block)

(RESET block) Reset mask

circuit

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 45

Figure 4-2. Equivalent Circuit of Emulation Circuit 2 (3/3)

VDD

EVDD

VCC

3.3 kΩ

VCC

10 kΩ

PC393G

1.5 kΩ

OPEN

VSS

EVSS

AVSS

XT2

IC/VPPNote

XT1

32.768 kHz

USCLK

LVDD

100 Ω

JP8

Power supply

detection

• Probe side

(Target system)

• IE system side

PD780009A

Emulation CPU

Level shifter

PD780009A

Note In the case of 78K0/KC1+, the pin name is FLMD0.

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM

4.3 When Emulating 78K0/KD1 and 78K0/KD1+

See Figure 4-3 Equivalent Circuit of Emulation Circuit 3 for the signals listed in (1) to (3) below.

(1) Signals input or output from the emulation CPU (

PD78F0148H)

• P03 to P00

• P17 to P10

• P27 to P20

• P33 to P30

• P77 to P70

• P120

• P130

• P140

• AVREF

(2) Signals input or output from the emulation CPU (

PD780009A)

• P63 to P60

(3) Other signals

• X1, X2, XT1, XT2, RESET, VDD, VSS, EVDD, EVSS, REGC, AVSS, IC/VPPNote

Note In the case of 78K0/KD1+, the pin name is FLMD0.

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 47

Figure 4-3. Equivalent Circuit of Emulation Circuit 3 (1/3)

P06 to P00

P17 to P10

P33 to P30

P77 to P70

P120

P140

P27 to P20

REF

1 MΩ

100 Ω

P130

100 Ω

P63 to P60

39 kΩ

• Probe side

(Target system)

• IE system side

PD78F0148H

Emulation CPU

PD780009A

Emulation CPU

Photocoupler

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM

Figure 4-3. Equivalent Circuit of Emulation Circuit 3 (2/3)

(5 V)

10 MHz

UMCLK

2.2 kΩ1.5 kΩ

100 Ω

HC157

1 kΩ680 Ω390 Ω270 Ω

3.0 kΩ2.2 kΩ1.5 kΩ1.2 kΩ820 Ω680 Ω

JP2

LS07 HC04 HC02

HC08

HC32 HC04

LS07

HC04

100 Ω

4.7 kΩ

RESET

33 pF

JP1

• Probe side

(Target system)

• IE system side

PD78F0148H

Emulation CPU

Level shifter

PD780009A

Emulation CPU

(CLK block)

(Level shift block)

(RESET block) Reset mask

circuit

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 49

Figure 4-3. Equivalent Circuit of Emulation Circuit 3 (3/3)

3.3 kΩ

10 kΩ

PC393G

1.5 kΩ

OPEN

XT2

IC/V

PPNote

REGC

XT1

32.768 kHz

USCLK

100 Ω

JP8

• Probe side

(Target system)

• IE system side

PD780009A

Emulation CPU

Level shifter

PD780009A

Power supply

detection

Note In the case of 78K0/KD1+, the pin name is FLMD0.

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM

4.4 When Emulating 78K0/KE1 and 78K0/KE1+

See Figure 4-4 Equivalent Circuit of Emulation Circuit 4 for the signals listed in (1) to (3) below.

(1) Signals input or output from the emulation CPU (

PD78F0148H)

• P06 to P00

• P17 to P10

• P27 to P20

• P33 to P30

• P77 to P70

• P120

• P130

• P141 to P140

• AVREF

(2) Signals input or output from the emulation CPU (

PD780009A)

• P43 to P40

• P53 to P50

• P63 to P60

(3) Other signals

• X1, X2, XT1, XT2, RESET, VDD, VSS, EVDD, EVSS, REGC, AVSS, IC/VPPNote

Note In the case of 78K0/KE1+, the pin name is FLMD0.

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 51

Figure 4-4. Equivalent Circuit of Emulation Circuit 4 (1/3)

P06 to P00

P17 to P10

P33 to P30

P77 to P70

P120

P141 to P140

P27 to P20

REF

1 MΩ

100 Ω

P43 to P40

P53 to P50

1 MΩ

100 Ω

P130

100 Ω

P63 to P60

39 kΩ

• Probe side

(Target system)

• IE system side

PD78F0148H

Emulation CPU

PD780009A

Emulation CPU

Photocoupler

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM

Figure 4-4. Equivalent Circuit of Emulation Circuit 4 (2/3)

(5 V)

10 MHz

UMCLK

2.2 kΩ1.5 kΩ

100 Ω

HC157

1 kΩ680 Ω390 Ω270 Ω

3.0 kΩ2.2 kΩ1.5 kΩ1.2 kΩ820 Ω680 Ω

JP2

LS07 HC04 HC02

HC08

HC32 HC04

LS07

HC04

100 Ω

4.7 kΩ

RESET

33 pF

JP1

• Probe side

(Target system)

• IE system side

PD78F0148H

Emulation CPU

Level shifter

PD780009A

Emulation CPU

(CLK block)

(Level shift block)

(RESET block) Reset mask

circuit

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 53

Figure 4-4. Equivalent Circuit of Emulation Circuit 4 (3/3)

3.3 kΩ

10 kΩ

PC393G

1.5 kΩ

OPEN

XT2

IC/V

PPNote

REGC

XT1

32.768 kHz

USCLK

100 Ω

JP8

• Probe side

(Target system)

• IE system side

PD780009A

Emulation CPU

Level shifter

PD780009A

Power supply

detection

Note In the case of 78K0/KE1+, the pin name is FLMD0.

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM

4.5 When Emulating 78K0/KF1 and 78K0/KF1+

See Figure 4-5 Equivalent Circuit of Emulation Circuit 5 for the signals listed in (1) to (3) below.

(1) Signals input or output from the emulation CPU (

PD78F0148H)

• P06 to P00

• P17 to P10

• P27 to P20

• P33 to P30

• P77 to P70

• P120

• P130

• P145 to P140

• AVREF

(2) Signals input or output from the emulation CPU (

PD780009A)

• P47 to P40

• P57 to P50

• P67 to P60

(3) Other signals

• X1, X2, XT1, XT2, RESET, VDD, VSS, EVDD, EVSS, REGC, AVSS, IC/VPPNote

Note In the case of 78K0/KF1+, the pin name is FLMD0.

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 55

Figure 4-5. Equivalent Circuit of Emulation Circuit 5 (1/3)

P06 to P00

P17 to P10

P33 to P30

P77 to P70

P120

P145 to P140

P27 to P20

REF

1 MΩ

100 Ω

P47 to P40

P57 to P50

P67 to P64 1 MΩ

100 Ω

P130

100 Ω

P63 to P60

39 kΩ

• Probe side

(Target system)

• IE system side

PD78F0148H

Emulation CPU

PD780009A

Emulation CPU

Photocoupler

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM

Figure 4-5. Equivalent Circuit of Emulation Circuit 5 (2/3)

(5 V)

10 MHz

UMCLK

2.2 kΩ1.5 kΩ

100 Ω

HC157

1 kΩ680 Ω390 Ω270 Ω

3.0 kΩ2.2 kΩ1.5 kΩ1.2 kΩ820 Ω680 Ω

JP2

LS07 HC04 HC02

HC08

HC32 HC04

LS07

HC04

100 Ω

4.7 kΩ

RESET

33 pF

JP1

• Probe side

(Target system)

• IE system side

PD78F0148H

Emulation CPU

Level shifter

PD780009A

Emulation CPU

(CLK block)

(Level shift block)

(RESET block) Reset mask

circuit

CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS

User’s Manual U16963EJ1V0UM 57

Figure 4-5. Equivalent Circuit of Emulation Circuit 5 (3/3)

VDD

EVDD

VCC

3.3 kΩ

VCC

10 kΩ

PC393G

1.5 kΩ

OPEN

VSS

EVSS

AVSS

XT2

IC/VPPNote

REGC

XT1

32.768 kHz

USCLK

LVDD

100 Ω

JP8

• Probe side

(Target system)

• IE system side

PD780009A

Emulation CPU

Level shifter

PD780009A

Power supply

detection

Note In the case of 78K0/KF1+, the pin name is FLMD0.

User’s Manual U16963EJ1V0UM

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

Table A-1. Pin Assignment of 78014X PROBE Board + NP-80GC, NP-80GC-TQ, NP-H80GC-TQ, NP-80GK, NP-

H80GK-TQ (1/3)

Emulation Probe

Device Side

78014X PROBE Board

CN1

IE-780148-NS-EM1

CN6

1 114 114

2 113 113

3 108 108

4 107 107

5 104 104

6 103 103

7 100 100

8 99 99

9 94 94

10 93 93

11 30 30

12 29 29

13 24 24

14 23 23

15 20 20

16 19 19

17 16 16

18 15 15

19 10 10

20 9 9

21 37 37

22 43 43

23 44 44

24 47 47

25 48 48

26 51 51

27 52 52

28 57 57

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78014X PROBE Board CN1 column refer to the 78014X PROBE Board pin

(78014X PROBE Board side) to be connected to the emulation probe.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78014X PROBE Board.

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

User’s Manual U16963EJ1V0UM 59

Table A-1. Pin Assignment of 78014X PROBE Board + NP-80GC, NP-80GC-TQ, NP-H80GC-TQ, NP-80GK, NP-

H80GK-TQ (2/3)

Emulation Probe

Device Side

78014X PROBE Board

CN1

IE-780148-NS-EM1

CN6

29 58 58

30 59 59

31 60 60

32 55 55

33 56 56

34 49 49

35 50 50

36 45 45

37 46 46

38 41 41

39 42 42

40 35 35

41 8 8

42 7 7

43 14 14

44 13 13

45 18 18

46 17 17

47 22 22

48 21 21

49 28 28

50 27 27

51 92 92

52 91 91

53 98 98

54 97 97

55 102 102

56 101 101

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78014X PROBE Board CN1 column refer to the 78014X PROBE Board pin

(78014X PROBE Board side) to be connected to the emulation probe.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78014X PROBE Board.

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

User’s Manual U16963EJ1V0UM

Table A-1. Pin Assignment of 78014X PROBE Board + NP-80GC, NP-80GC-TQ, NP-H80GC-TQ, NP-80GK, NP-

H80GK-TQ (3/3)

Emulation Probe

Device Side

78014X PROBE Board

CN1

IE-780148-NS-EM1

CN6

57 106 106

58 105 105

59 112 112

60 111 111

61 83 83

62 77 77

63 78 78

64 73 73

65 74 74

66 69 69

67 70 70

68 63 63

69 64 64

70 61 61

71 62 62

72 65 65

73 66 66

74 71 71

75 72 72

76 75 75

77 76 76

78 79 79

79 80 80

80 85 85

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78014X PROBE Board CN1 column refer to the 78014X PROBE Board pin

(78014X PROBE Board side) to be connected to the emulation probe.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78014X PROBE Board.

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

User’s Manual U16963EJ1V0UM 61

Table A-2. Pin Assignment of 78013X PROBE Board + NP-64GB, NP-H64GB-TQ, NP-64GK, NP-H64GK-TQ, NP-

64GC, NP-64GC-TQ, NP-H64GC-TQ (1/2)

Emulation Probe

Device Side

78013X PROBE Board

CN1

IE-780148-NS-EM1

CN6

1 108 114

2 107 113

3 104 99

4 103 94

5 100 93

6 99 30

7 94 29

8 93 24

9 30 23

10 29 20

11 24 19

12 23 16

13 20 108

14 19 107

15 16 104

16 15 103

17 43 100

18 44 51

19 47 52

20 48 48

21 51 47

22 52 44

23 57 43

24 58 37

25 59 9

26 60 10

27 55 15

28 56 56

29 49 55

30 50 58

31 45 57

32 46 59

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78013X PROBE Board CN1 column refer to the 78013X PROBE Board pin

(78013X PROBE Board side) to be connected to the emulation probe.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78013X PROBE Board.

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

User’s Manual U16963EJ1V0UM

Table A-2. Pin Assignment of 78013X PROBE Board + NP-64GB, NP-H64GB-TQ, NP-64GK, NP-H64GK-TQ, NP-

64GC, NP-64GC-TQ, NP-H64GC-TQ (2/2)

Emulation Probe

Device Side

78013X PROBE Board

CN1

IE-780148-NS-EM1

CN6

33 14 60

34 13 41

35 18 42

36 17 35

37 22 8

38 21 7

39 28 14

40 27 13

41 92 98

42 91 97

43 98 102

44 97 101

45 102 83

46 101 77

47 106 78

48 105 73

49 77 74

50 78 69

51 73 70

52 74 63

53 69 64

54 70 61

55 63 62

56 64 65

57 61 66

58 62 71

59 65 72

60 66 75

61 71 76

62 72 79

63 75 80

64 76 85

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78013X PROBE Board CN1 column refer to the 78013X PROBE Board pin

(78013X PROBE Board side) to be connected to the emulation probe.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78013X PROBE Board.

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

User’s Manual U16963EJ1V0UM 63

Table A-3. Pin Assignment of 78012X PROBE Board + NP-H52GB-TQ (1/2)

Emulation Probe

Device Side

78012X PROBE Board

CN1

IE-780148-NS-EM1

CN6

1 118 114

2 114 113

3 108 99

4 104 94

5 100 93

6 94 30

7 30 29

8 29 24

9 24 23

10 20 20

11 16 19

12 10 16

13 6 108

14 33 107

15 37 104

16 43 103

17 47 100

18 51 51

19 57 48

20 59 47

21 55 44

22 49 56

23 45 55

24 41 58

25 35 57

26 31 59

27 4 60

28 8 43

29 14 37

30 18 9

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78012X PROBE Board CN1 column refer to the 78012X PROBE Board pin

(78012X PROBE Board side) to be connected to the emulation probe.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78012X PROBE Board.

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

User’s Manual U16963EJ1V0UM

Table A-3. Pin Assignment of 78012X PROBE Board + NP-H52GB-TQ (2/2)

Emulation Probe

Device Side

78012X PROBE Board

CN1

IE-780148-NS-EM1

CN6

31 22 10

32 18 15

33 92 8

34 91 7

35 98 14

36 102 13

37 106 74

38 112 69

39 116 70

40 87 63

41 83 64

42 77 61

43 73 62

44 69 65

45 63 66

46 61 71

47 65 72

48 71 75

49 75 76

50 79 79

51 85 80

52 89 85

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78012X PROBE Board CN1 column refer to the 78012X PROBE Board pin

(78012X PROBE Board side) to be connected to the emulation probe.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78012X PROBE Board.

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

User’s Manual U16963EJ1V0UM 65

Table A-4. Pin Assignment of 78011X PROBE Board + NP-44GB, NP-44GB-TQ, NP-H44GB-TQ (1/2)

Emulation Probe

Device Side

78011X PROBE Board

CN1

IE-780148-NS-EM1

CN6

1 104 114

2 103 113

3 100 99

4 99 94

5 94 30

6 93 29

7 30 24

8 29 23

9 24 20

10 23 19

11 20 16

12 47 108

13 48 107

14 51 104

15 52 103

16 57 100

17 58 48

18 59 56

19 60 55

20 55 58

21 56 57

22 49 59

23 18 60

24 17 47

25 22 44

26 21 43

27 28 37

28 27 9

29 92 10

30 91 15

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78011X PROBE Board CN1 column refer to the 78011X PROBE Board pin

(78011X PROBE Board side) to be connected to the emulation probe.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78011X PROBE Board.

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

User’s Manual U16963EJ1V0UM

Table A-4. Pin Assignment of 78011X PROBE Board + NP-44GB, NP-44GB-TQ, NP-H44GB-TQ (2/2)

Emulation Probe

Device Side

78011X PROBE Board

CN1

IE-780148-NS-EM1

CN6

31 98 14

32 97 13

33 102 64

34 73 61

35 72 62

36 69 65

37 70 66

38 63 71

39 64 72

40 61 75

41 62 76

42 65 79

43 66 80

44 71 85

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78011X PROBE Board CN1 column refer to the 78011X PROBE Board pin

(78011X PROBE Board side) to be connected to the emulation probe.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78011X PROBE Board.

APPENDIX A EMULATION PROBE PIN ASSIGNMENT TABLE

User’s Manual U16963EJ1V0UM 67

Table A-5. Pin Assignment of 78010X PROBE Board + NP-30MC

Emulation Probe

Device Side

78010X PROBE Board

CN1

IE-780148-NS-EM1

CN6

1 58 107

2 56 104

3 49 103

4 55 100

5 19 99

6 18 30

7 22 94

8 62 29

9 65 24

10 66 23

11 92 8

12 91 7

13 98 14

14 97 13

15 21 15

16 99 10

17 63 9

18 64 37

19 70 43

20 69 44

21 72 47

22 102 48

23 71 16

24 94 76

25 93 79

26 30 80

27 29 85

28 24 114

29 23 113

30 20 108

Remarks 1. The numbers in the Emulation Probe Device Side column indicate the corresponding pin number on

the target system side tip.

2. The numbers in the 78010X PROBE Board CN1 column refer to the 78010X PROBE Board pin

(78010X PROBE Board side) to be connected to NP-30MC.

3. The numbers in the IE-780148 EM1 Board CN6 column refer to the IE-780148-NS-EM1 pin (IE-

780148-NS-EM1 side) to be connected to the 78010X PROBE Board.

User’s Manual U16963EJ1V0UM

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

The following shows a diagram of the connection conditions between the emulation probe and conversion adapter.

Design your system making allowances for conditions such as the shape of parts mounted on the target system, as

shown below.

Among the products described in this appendix, NP-80GC-TQ, NP-H80GC-TQ, NP-80GK, NP-H80GK-TQ, NP-

64GK, NP-H64GK-TQ, NP-64GC-TQ, NP-H64GC-TQ, NP-64GB-TQ, NP-H64GB-TQ, NP-H52GB-TQ, NP-44GB-TQ,

NP-H44GB-TQ, and NP-30MC are products of Naito Densei Machida Mfg. Co., Ltd., and TGC-080SBP, TGK-

064SBW, TGC-064SAP, TGB-064SDP, TGB-052SBP, TGB-044SAP, YSPACK30BK, NSPACK30BK, and YSGUIDE

are products of TOKYO ELETECH CORPORATION.

Table B-1. Distance Between IE System and Conversion Adapter

Emulation Probe Conversion Adapter Distance Between IE System

and Conversion Adapter

NP-80GC-TQ 170 mm

NP-H80GC-TQ

TGC-080SBP

370 mm

NP-80GK 170 mm

NP-H80GK-TQ

TGK-080SDW

370 mm

NP-64GK 170 mm

NP-H64GK-TQ

TGK-064SBW

370 mm

NP-64GC-TQ 170 mm

NP-H64GC-TQ

TGC-064SAP

370 mm

NP-64GB 170 mm

NP-H64GB-TQ

TGB-064SDP

370 mm

NP-H52GB-TQ TGB-052SBP 370 mm

NP-44GB-TQ 170 mm

NP-H44GB-TQ

TGB-044SAP

370 mm

NP-30MC YSPACK30BK + NSPACK30BK + YSGUIDE 150 mm

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM 69

Figure B-1. Distance Between IE System and Conversion Adapter (80GC)

In-circuit emulator

IE-78K0-NS or IE-78K0-NS-A

Conversion adapter:

TGC-080SBP

Emulation probe

NP-80GC-TQ, NP-H80GC-TQ

CN1

170 mmNote

Conversion board

78014X PROBE Board

Target system

Emulation board

Note Distance when using NP-80GC-TQ. This is 370 mm when using NP-H80GC-TQ.

Figure B-2. Connection Conditions of Target System (When Using NP-80GC-TQ)

Emulation probe

NP-80GC-TQ

24.8 mm

25 mm

40 mm 34 mm

Conversion

adapter

TGC-080SBP

21 mm Pin 1

11 mm

21 mm

Emulation board

Target system

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM

Figure B-3. Connection Conditions of Target System (When Using NP-H80GC-TQ)

Emulation probe

NP-H80GC-TQ

25.3 mm

42 mm 45 mm

11 mm

25 mm 21 mm 21 mm

Emulation board

Target system

Pin 1

Conversion

adapter

TGC-080SBP

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM 71

Figure B-4. Distance Between IE System and Conversion Adapter (80GK)

In-circuit emulator

IE-78K0-NS or IE-78K0-NS-A

Conversion adapter:

TGK-080SDW

Emulation probe

NP-80GK, NP-H80GK-TQ

CN1

Conversion board

78014X PROBE Board

Target system

Emulation board

170 mmNote

Note Distance when using NP-80GK. This is 370 mm when using NP-H80GK-TQ.

Figure B-5. Connection Conditions of Target System (When Using NP-80GK)

23 mm

40 mm 34 mm

16 mm

11 mm

25 mm

16 mm

Emulation probe

NP-80GK

Conversion

adapter

TGK-080SDW

Pin 1

Emulation board

Target system

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM

Figure B-6. Connection Conditions of Target System (When Using NP-H80GK-TQ)

23 mm

10 mm

42 mm 45 mm

16 mm 16 mm

11 mm

Emulation probe

NP-H80GK-TQ

Conversion

adapter

TGK-080SDW

Emulation board

Target system

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM 73

Figure B-7. Distance Between IE System and Conversion Adapter (64GK)

In-circuit emulator

IE-78K0-NS or IE-78K0-NS-A

Conversion adapter:

TGK-064SBW

Emulation probe

NP-64GK, NP-H64GK-TQ

CN1

170 mmNote

Conversion board

78013X PROBE Board

Target system

Emulation board

Note Distance when using NP-64GK. This is 370 mm when using NP-H64GK-TQ.

Figure B-8. Connection Conditions of Target System (When Using NP-64GK)

21.95 mm

40 mm 34 mm

18.4 mm

11 mm

25 mm

18.4 mm

Emulation probe

NP-64GK

Emulation board

Target system

Pin 1

Conversion

adapter

TGK-064SBW

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM

Figure B-9. Connection Conditions of Target System (When Using NP-H64GK-TQ)

42 mm 45 mm

18.4 mm

11 mm

18.4 mm

21.95 mm

23 mm

Emulation probe

NP-H64GK-TQ

Emulation board

Target system

Pin 1

Conversion

adapter

TGK-064SBW

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM 75

Figure B-10. Distance Between IE System and Conversion Adapter (64GC)

In-circuit emulator

IE-78K0-NS or IE-78K0-NS-A

Conversion adapter:

TGC-064SAP

Emulation probe

NP-64GC-TQ, NP-H64GC-TQ

CN1

170 mmNote

Conversion board

78013X PROBE Board

Target system

Emulation board

Note Distance when using NP-64GC-TQ. This is 370 mm when using NP-H64GC-TQ.

Figure B-11. Connection Conditions of Target System (When Using NP-64GC-TQ)

23 mm

25 mm

40 mm 34 mm

20.65 mm

11 mm

20.65 mm

Emulation probe

NP-64GC-TQ

Emulation board

Target system

Pin 1

Conversion

adapter

TGC-064SAP

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM

Figure B-12. Connection Conditions of Target System (When Using NP-H64GC-TQ)

23 mm

42 mm 45 mm

20.65 mm

11 mm

20.65 mm

Emulation probe

NP-H64GC-TQ

Emulation board

Target system

Pin 1

Conversion

adapter

TGC-064SAP

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM 77

Figure B-13. Distance Between IE System and Conversion Adapter (64GB)

In-circuit emulator

IE-78K0-NS or IE-78K0-NS-A

Conversion adapter:

TGB-064SDP

Emulation probe

NP-64GB, NP-H64GB-TQ

CN1

170 mmNote

Conversion board

78013X PROBE Board

Target system

Emulation board

Note Distance when using NP-64GB-TQ. This is 370 mm when using NP-H64GB-TQ.

Figure B-14. Connection Conditions of Target System (When Using NP-64GB)

22 mm

40 mm 34 mm

16 mm 16 mm

11 mm

Emulation probe

NP-64GB

Conversion

adapter

TGB-064SDP

Emulation board

Target system

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM

Figure B-15. Connection Conditions of Target System (When Using NP-H64GB-TQ)

21.4 mm

42.6 mm 45 mm

16 mm 16 mm

11 mm

Emulation probe

NP-H64GB-TQ

Emulation board

Target system

Conversion

adapter

TGB-064SDP

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM 79

Figure B-16. Distance Between IE System and Conversion Adapter (52GB)

In-circuit emulator

IE-78K0-NS or IE-78K0-NS-A

Conversion adapter:

TGB-052SBP

Emulation probe

NP-H52GB-TQ

CN1

370 mm

Conversion board

78012X PROBE Board

Target system

Emulation board

Figure B-17. Connection Conditions of Target System (When Using NP-H52GB-TQ)

23 mm

10 mm

43 mm 45 mm

16.45 mm

11 mm

16.45 mm

Emulation probe

NP-H52GB-TQ

Conversion

adapter

TGB-052SBP

Emulation board

Target system

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM

Figure B-18. Distance Between IE System and Conversion Adapter (44GB)

In-circuit emulator

IE-78K0-NS or IE-78K0-NS-A

Conversion adapter:

TGB-044SAP

Emulation probe

NP-44GB-TQ, NP-H44GB-TQ

CN1

170 mmNote

Conversion board

78011X PROBE Board

Target system

Emulation board

Note Distance when using NP-44GB-TQ. This is 370 mm when using NP-H44GB-TQ.

Figure B-19. Connection Conditions of Target System (When Using NP-44GB-TQ)

24.8 mm

25 mm

40 mm 34 mm

16.65 mm

10.95 mm

16.65 mm

Emulation probe

NP-44GB-TQ

Emulation board

Target system

Pin 1

Conversion

adapter

TGB-044SAP

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM 81

Figure B-20. Connection Conditions of Target System (When Using NP-H44GB-TQ)

23 mm

42 mm 45 mm

10.95 mm

10 mm 16.65 mm 16.65 mm

Emulation probe

NP-H44GB-TQ

Emulation board

Target system

Pin 1

Conversion

adapter

TGB-044SAP

APPENDIX B NOTES ON TARGET SYSTEM DESIGN

User’s Manual U16963EJ1V0UM

Figure B-21. Distance Between IE System and Conversion Adapter (30MC)

In-circuit emulator

IE-78K0-NS or IE-78K0-NS-A

CN1

Conversion board

78010X PROBE Board

150 mm

Emulation probe

NP-30MC

NP-30MC head PWB

Conversion adapter

YSPACK30BK,

NSPACK20BK

Target system

Emulation board

Figure B-22. Connection Conditions of Target System (When Using NP-30MC)

31 mm

37 mm

Emulation probe

NP-30MC

13 mm

15 mm

20 mm

5 mm

NP-30MC head PWB

Conversion adapter

YSPACK30BK,

NSPACK20BK

Guide pin

YSGUIDE

Target system

Emulation board