IE-780148-NS-EM1 Renesas Electronics America, IE-780148-NS-EM1 Datasheet
IE-780148-NS-EM1
Specifications of IE-780148-NS-EM1
Related parts for IE-780148-NS-EM1
IE-780148-NS-EM1 Summary of contents
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... NEC Electronics Corporation merged with Renesas Technology Corporation, and Renesas Electronics Corporation took over all the business of both companies. Therefore, although the old company name remains in this document valid Renesas Electronics document. We appreciate your understanding. Renesas Electronics website: http://www.renesas.com Issued by: Renesas Electronics Corporation (http://www ...
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... Renesas Electronics. Renesas Electronics shall not be in any way liable for any damages or losses incurred by you or third parties arising from the use of any Renesas Electronics product for an application categorized as “Specific” or for which the product is not intended where you have failed to obtain the prior written consent of Renesas Electronics. The quality grade of each Renesas Electronics product is “ ...
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... User’s Manual IE-780148-NS-EM1 Emulation Board Target Devices µ PD780103 Subseries µ PD780114 Subseries µ PD780124 Subseries Document No. U16963EJ1V0UM00 (1st edition) Date Published January 2004 N CP(K) 2004 © Printed in Japan µ PD780138 Subseries µ PD780148 Subseries ...
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User’s Manual U16963EJ1V0UM ...
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... Please check with an NEC Electronics 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 the prior written consent of NEC Electronics. NEC Electronics assumes no responsibility for any errors that may appear in this document. ...
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... Regional Information Some information contained in this document may vary from country to country. Before using any NEC Electronics product in your application, pIease contact the NEC Electronics office in your country to obtain a list of authorized representatives and distributors. They will verify: • Device availability • ...
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... 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. ...
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... 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 ...
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... 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 ...
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... 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 µ • 78K0/KB1, 78K0/KB1+: PD780103 Subseries µ ...
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... System Configuration Figure 1-1 illustrates the IE-780148-NS-EM1’s system configuration. Debugger ID78K0-NS (sold separately) Control software Interface board Interface board IE-70000-98-IF-C IE-70000-PC-IF-C (sold separately) (sold separately) or Interface cable (NS IF cable) IE-78K0-NS or IE-78K0-NS-A (sold separately) FG cable AC adapter IE-70000-MC-PS-B (sold separately) CHAPTER 1 GENERAL Figure 1-1 ...
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Notes 1. The device file is as follows. µ S××××DF780103: 78K0/KB1, 78K0/KB1+ µ S××××DF780114: 78K0/KC1, 78K0/KC1+ µ S××××DF780124: 78K0/KD1, 78K0/KD1+ µ S××××DF780138: 78K0/KE1, 78K0/KE1+ µ S××××DF780148: 78K0/KF1, 78K0/KF1+ The device file can be downloaded from the website of NEC Electronics ...
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... Hardware Configuration Figure 1-2 shows the IE-780148-NS-EM1’s position in the basic hardware configuration. Figure 1-2. Basic Hardware Configuration Interface board Host machine (sold separately) Interface card (sold separately) CHAPTER 1 GENERAL Dedicated bus interface IE-78K0-NS or IE-78K0-NS-A In-circuit emulator User’s Manual U16963EJ1V0UM ...
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... Basic Specifications The IE-780148-NS-EM1’s basic specifications are listed in Table 1-2. Item 78K0/KB1 ( Target device 78K0/KC1 ( 78K0/KD1 ( 78K0/KE1 ( 78K0/KF1 ( 78K0/KB1+ ( 78K0/KC1+ ( 78K0/KD1+ ( 78K0/KE1+ ( 78K0/KF1+ ( Ring-OSC: 240 kHz System clock Main system clock: MAX. 10.0 MHz (when emulating 78K0/Kx1) Subsystem clock: ...
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... 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. ...
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... Parts of Main Unit Figure 2-1. IE-780148-NS-EM1 Part Names JP1 JP2 OSC2 OSC1 LED1 USER VDD 78010X PROBE Board CN1 78012X PROBE Board CN1 78014X PROBE Board CN1 14 CHAPTER 2 PART NAMES Subsystem clock USCLK Main system clock UMCLK CN 6 CP34 CP35 Probe connector Figure 2-2 ...
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... 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 ...
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... 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 ...
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CHAPTER 3 INSTALLATION Table 3-1. Correspondence Between Target Device and Probe Conversion Board Target Device µ PD780101, 780102, 780103, 78F0103, 78F0101H, 78F0102H, 78F0103H µ PD780111, 780112, 780113, 780114, 78F0114, 78F0112H, 78F0113H, 78F0114H µ PD780121, 780122, 780123, 780124, 78F0124, 78F0122H, 78F0123H, ...
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... 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. ...
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... 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 USCLK Mounted oscillator (used) Remark The clock that is supplied by the IE-780148-NS-EM1’s resonator (encircled in the figure) is used. CHAPTER 3 INSTALLATION Emulation probe Emulation probe User’s Manual U16963EJ1V0UM Target system Clock oscillator or ...
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... 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 ...
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... The external clock on the target system can be used via an emulation probe. IE-78K0-NS or IE-78K0-NS-A Emulation board 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. IE-78K0-NS or IE-78K0-NS-A Emulation board Ring-OSC on emulation board ...
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... Note 1 (4) When using Ring-OSC 240 kHz 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. ...
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... Ceramic resonator or crystal resonator • Resistor Rx <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) 1 ...
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... 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. ...
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... 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 ...
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... 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) ...
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... 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) ...
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Figure 3-12. Connections on Parts Board (When Using Subsystem Clock or User-Mounted Clock) Parts board (USCLK Circuit diagram Remark The sections enclosed in broken lines indicate ...
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... 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> ...
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... 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 ...
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... 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 µ ...
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... 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 V pin of the emulation device to TP1, because POC and LVI power supply detection is performed via input ...
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... The EXTOUT pin on the IE-780148-NS-EM1 outputs a low level for 1.3 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 JP1 ...
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... Figure 3-16. Initial Settings of JP1 and JP2 JP1 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. 34 CHAPTER 3 INSTALLATION JP1 1 and 2 shorted 3 and 4 shorted 5 and 6 shorted 7 and 8 shorted ...
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... 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. ...
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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 ...
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... 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. ...
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... 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 ( (2) Signals input or output from the emulation CPU ( (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. 38 µ PD78F0148H) µ ...
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... Figure 4-1. Equivalent Circuit of Emulation Circuit 1 (1/3) • Probe side (Target system) P03 to P00 P17 to P10 P33 to P30 P120 P130 P23 to P20 AV REF µ PD78F0148H) µ PD780009A) Note , IC 100 Ω 1 MΩ User’s Manual U16963EJ1V0UM • IE system side µ PD78F0148H Emulation CPU 39 ...
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... HC08 HC04 HC02 33 pF µ PD780009A Emulation CPU (CLK block (RESET block) 4.7 kΩ (Level shift block) User’s Manual U16963EJ1V0UM • IE system side µ PD78F0148H Emulation CPU 10 12 JP1 9 11 HC32 HC04 Reset mask circuit ...
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... CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS Figure 4-1. Equivalent Circuit of Emulation Circuit 1 (3/3) • Probe side (Target system OPEN Note IC/V PP Note In the case of 78K0/KB1+, the pin name is FLMD0 3.3 k Ω 1.5 k Ω Ω µ PC393G User’s Manual U16963EJ1V0UM • IE system side Power supply detection 41 ...
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CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS 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 ...
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... P01 to P00 100 Ω P17 to P10 P33 to P30 P73 to P70 P120 100 Ω P130 P27 to P20 AV REF kΩ Photocoupler 100 Ω P63 to P60 User’s Manual U16963EJ1V0UM • IE system side µ PD78F0148H 1 MΩ Emulation CPU µ PD780009A Emulation CPU 43 ...
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... HC08 HC04 HC02 33 pF µ PD780009A Emulation CPU (CLK block (RESET block) 4.7 kΩ (Level shift block) User’s Manual U16963EJ1V0UM • IE system side µ PD78F0148H Emulation CPU 10 12 JP1 9 11 HC32 HC04 Reset mask circuit ...
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... USCLK XT2 Note IC/V PP Note In the case of 78K0/KC1+, the pin name is FLMD0. Level shifter µ PD780009A JP8 V CC 3.3 k Ω 1.5 k Ω Ω µ PC393G OPEN User’s Manual U16963EJ1V0UM • IE system side µ PD780009A Emulation CPU Power supply detection 45 ...
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CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS 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 ...
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... P06 to P00 100 Ω P17 to P10 P33 to P30 P77 to P70 P120 P140 100 Ω P130 P27 to P20 AV REF kΩ Photocoupler 100 Ω P63 to P60 User’s Manual U16963EJ1V0UM • IE system side µ PD78F0148H Emulation CPU 1 MΩ µ PD780009A Emulation CPU 47 ...
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... HC08 HC04 HC02 33 pF µ PD780009A Emulation CPU (CLK block (RESET block) 4.7 kΩ (Level shift block) User’s Manual U16963EJ1V0UM • IE system side µ PD78F0148H Emulation CPU 10 12 JP1 9 11 HC32 HC04 Reset mask circuit ...
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... SS X2 XT2 Note IC/V PP REGC Note In the case of 78K0/KD1+, the pin name is FLMD0. Level shifter 4 3 µ PD780009A JP8 3.3 k Ω 1.5 k Ω Ω µ PC393G OPEN User’s Manual U16963EJ1V0UM • IE system side µ PD780009A Emulation CPU Power supply detection 49 ...
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CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS 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 ...
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... P77 to P70 P120 P141 to P140 100 Ω P130 P27 to P20 AV REF 100 Ω P43 to P40 P53 to P50 kΩ 100 Ω P63 to P60 User’s Manual U16963EJ1V0UM 1 MΩ 1 MΩ Photocoupler • IE system side µ PD78F0148H Emulation CPU µ PD780009A Emulation CPU 51 ...
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... HC08 HC04 HC02 33 pF µ PD780009A Emulation CPU (CLK block (RESET block) 4.7 kΩ (Level shift block) User’s Manual U16963EJ1V0UM • IE system side µ PD78F0148H Emulation CPU 10 12 JP1 9 11 HC32 HC04 Reset mask circuit ...
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... SS X2 XT2 OPEN Note IC/V PP REGC Note In the case of 78K0/KE1+, the pin name is FLMD0. Level shifter 4 3 µ PD780009A JP8 3.3 k Ω 1.5 k Ω Ω µ PC393G User’s Manual U16963EJ1V0UM • IE system side µ PD780009A Emulation CPU Power supply detection 53 ...
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CHAPTER 4 DIFFERENCES BETWEEN TARGET DEVICES AND TARGET INTERFACE CIRCUITS 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 ...
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... P145 to P140 100 Ω P130 P27 to P20 AV REF 100 Ω P47 to P40 P57 to P50 P67 to P64 kΩ Photocoupler 100 Ω P63 to P60 User’s Manual U16963EJ1V0UM • IE system side µ PD78F0148H Emulation CPU 1 MΩ µ PD780009A Emulation CPU 1 MΩ 55 ...
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... HC08 HC04 HC02 33 pF µ PD780009A Emulation CPU (CLK block (RESET block) 4.7 kΩ (Level shift block) User’s Manual U16963EJ1V0UM • IE system side µ PD78F0148H Emulation CPU 10 12 JP1 9 11 HC32 HC04 Reset mask circuit ...
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... USCLK XT2 OPEN Note IC/V PP REGC Note In the case of 78K0/KF1+, the pin name is FLMD0. 4 Level shifter 3 µ PD780009A JP8 3.3 k Ω 1.5 k Ω Ω µ PC393G User’s Manual U16963EJ1V0UM • IE system side µ PD780009A Emulation CPU Power supply detection 57 ...
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... The numbers in the 78014X PROBE Board CN1 column refer to the 78014X PROBE Board pin (78014X PROBE Board side 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 connected to the 78014X PROBE Board. ...
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... The numbers in the 78014X PROBE Board CN1 column refer to the 78014X PROBE Board pin (78014X PROBE Board side 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 connected to the 78014X PROBE Board. ...
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... The numbers in the 78014X PROBE Board CN1 column refer to the 78014X PROBE Board pin (78014X PROBE Board side 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 connected to the 78014X PROBE Board. ...
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... The numbers in the 78013X PROBE Board CN1 column refer to the 78013X PROBE Board pin (78013X PROBE Board side 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 connected to the 78013X PROBE Board. ...
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... The numbers in the 78013X PROBE Board CN1 column refer to the 78013X PROBE Board pin (78013X PROBE Board side 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 connected to the 78013X PROBE Board. ...
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... The numbers in the 78012X PROBE Board CN1 column refer to the 78012X PROBE Board pin (78012X PROBE Board side 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 connected to the 78012X PROBE Board. ...
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... The numbers in the 78012X PROBE Board CN1 column refer to the 78012X PROBE Board pin (78012X PROBE Board side 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 connected to the 78012X PROBE Board. ...
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... The numbers in the 78011X PROBE Board CN1 column refer to the 78011X PROBE Board pin (78011X PROBE Board side 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 connected to the 78011X PROBE Board. ...
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... The numbers in the 78011X PROBE Board CN1 column refer to the 78011X PROBE Board pin (78011X PROBE Board side 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 connected to the 78011X PROBE Board. ...
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... The numbers in the 78010X PROBE Board CN1 column refer to the 78010X PROBE Board pin (78010X PROBE Board side 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 connected to the 78010X PROBE Board. 78010X PROBE Board ...
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... 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 NP-80GC-TQ TGC-080SBP ...
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... APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-1. Distance Between IE System and Conversion Adapter (80GC) In-circuit emulator IE-78K0-NS or IE-78K0-NS-A Emulation board CN1 Emulation probe NP-80GC-TQ, NP-H80GC-TQ Conversion board 78014X PROBE 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 board 24 ...
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APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-3. Connection Conditions of Target System (When Using NP-H80GC-TQ) Emulation board 25 Emulation probe NP-H80GC-TQ Conversion adapter TGC-080SBP 21 mm Pin User’s Manual U16963EJ1V0UM 11 ...
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... APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-4. Distance Between IE System and Conversion Adapter (80GK) In-circuit emulator IE-78K0-NS or IE-78K0-NS-A Emulation board CN1 Emulation probe NP-80GK, NP-H80GK-TQ Conversion board 78014X PROBE Board 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) ...
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APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-6. Connection Conditions of Target System (When Using NP-H80GK-TQ) Emulation board Emulation probe NP-H80GK-TQ Conversion adapter TGK-080SDW User’s Manual U16963EJ1V0UM ...
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... APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-7. Distance Between IE System and Conversion Adapter (64GK) In-circuit emulator IE-78K0-NS or IE-78K0-NS-A Emulation board CN1 Emulation probe NP-64GK, NP-H64GK-TQ Conversion board 78013X PROBE 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) Emulation board 21 ...
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APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-9. Connection Conditions of Target System (When Using NP-H64GK-TQ) Emulation board 21. Emulation probe NP-H64GK-TQ Conversion adapter TGK-064SBW 18.4 mm Pin User’s Manual U16963EJ1V0UM 11 ...
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... APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-10. Distance Between IE System and Conversion Adapter (64GC) In-circuit emulator IE-78K0-NS or IE-78K0-NS-A Emulation board CN1 Emulation probe NP-64GC-TQ, NP-H64GC-TQ Conversion board 78013X PROBE 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) ...
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APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-12. Connection Conditions of Target System (When Using NP-H64GC-TQ) Emulation board Emulation probe NP-H64GC-TQ Conversion adapter TGC-064SAP 20.65 mm Pin User’s Manual U16963EJ1V0UM 11 ...
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... APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-13. Distance Between IE System and Conversion Adapter (64GB) In-circuit emulator IE-78K0-NS or IE-78K0-NS-A Emulation board CN1 Emulation probe NP-64GB, NP-H64GB-TQ Conversion board 78013X PROBE 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) ...
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APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-15. Connection Conditions of Target System (When Using NP-H64GB-TQ) Emulation board 21 Emulation probe NP-H64GB-TQ Conversion adapter TGB-064SDP 16 mm 42.6 mm User’s Manual U16963EJ1V0UM ...
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... APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-16. Distance Between IE System and Conversion Adapter (52GB) In-circuit emulator IE-78K0-NS or IE-78K0-NS-A Emulation board CN1 Emulation probe NP-H52GB-TQ Conversion board 78012X PROBE Board Figure B-17. Connection Conditions of Target System (When Using NP-H52GB-TQ) Emulation board 23 mm ...
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... APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-18. Distance Between IE System and Conversion Adapter (44GB) In-circuit emulator IE-78K0-NS or IE-78K0-NS-A Emulation board CN1 Emulation probe NP-44GB-TQ, NP-H44GB-TQ Conversion board 78011X PROBE 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) Emulation board 24 ...
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APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-20. Connection Conditions of Target System (When Using NP-H44GB-TQ) Emulation board 23 mm Conversion adapter TGB-044SAP User’s Manual U16963EJ1V0UM Emulation probe NP-H44GB-TQ 10.95 mm 16.65 mm Pin 1 ...
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... APPENDIX B NOTES ON TARGET SYSTEM DESIGN Figure B-21. Distance Between IE System and Conversion Adapter (30MC) In-circuit emulator IE-78K0-NS or IE-78K0-NS-A Emulation board CN1 Emulation probe NP-30MC Conversion board 78010X PROBE Board Figure B-22. Connection Conditions of Target System (When Using NP-30MC) Emulation board 13 mm ...