background image

6

CHAPTER 1   GENERAL

1.7

Differences between 

µ

PD78044 Subseries and 

µ

PD78044A Subseries

Table 1-3 lists the differences between the 

µ

PD78044 Subseries and 

µ

PD78044A Subseries. Other than these

differences, the 

µ

PD78044 Subseries and 

µ

PD78044A Subseries have the same functions.

Table 1-3 Differences between 

µ

PD78044 Subseries and 

µ

PD78044A Subseries

Product Name

µ

PD78044 Subseries

µ

PD78044A Subseries

Internal high-speed RAM capacity

µ

PD78042

:

512 bytes

µ

PD78042A

:

512 bytes

µ

PD78043

: 1024 bytes

µ

PD78043A

:

512 bytes

µ

PD78044

: 1024 bytes

µ

PD78044A

: 1024 bytes

µ

PD78045A

: 1024 bytes

µ

PD78P044 : 1024 bytes

µ

PD78P048A : 2048 bytes

Minimum instruction execution time

0.48 

µ

s (operated at 4.19 MHz)

0.4 

µ

s (operated at 5.0 MHz)

Main system clock oscillation frequency

4.19 MHz

5.0 MHz

(maximum value)

FIP controller/driver display output current

– 22 mA TYP. (FIP0-15)

– 18 mA TYP. (FIP0-33)

– 5.5 mA TYP. (FIP16-33)

A/D converter conversion time

38.1 

µ

sMIN.

19.1 

µ

sMIN.

Summary of Contents for IE-78044-R-EM

Page 1: ...ok over all the business of both companies Therefore although the old company name remains in this document it is a valid Renesas Electronics document We appreciate your understanding Renesas Electron...

Page 2: ...t 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...

Page 3: ...IE 78044 R EM Emulation Board Document No EEU 1424C O D No EEU 833E Date Published February 1995 P Printed in Japan 1992...

Page 4: ...pied or reproduced in any form or by any means without the prior written consent of NEC Corporation NEC Corporation assumes no responsibility for any errors which may appear in this document NEC Corpo...

Page 5: ...values for each pin has been added to the table in the section 4 3 1 1 To use a ceramic crystal resonator P 45 The peripheral emulation device in APPENDIX A IE 78044 R EM SPECIFICATIONS has been chang...

Page 6: ...ies and 78044A Subseries functions and applications and debugger Organization To use IE 78000 R read the manual supplied with IE 78044 R EM this manual the manual supplied with IE 78000 R and the manu...

Page 7: ...this manual Term Meaning Emulation Device Device emulating the target device in the emulator Includes the emulation CPU Emulation CPU CPU executing the user developed program in the emulator Target D...

Page 8: ...emulaton device 13 3 2 2 Circuit inputting signal via gate to emulation device 21 3 2 3 Circuit inputting signal to control trace module 22 CHAPTER4 SETTING CLOCK 23 4 1 Outline of Clock Setting 23 4...

Page 9: ...29 4 8 Crystal Oscillator to use a user mounted clock as the main system clock 30 4 9 Crystal Oscillator Mounting Position to use a user mounted clock as the main system clock 31 4 10 Wiring of Compo...

Page 10: ...robe and Target Device 5 1 3 Difference between PD78044 Subseries and PD78044A Subseries 6 4 1 Main System Clock Settings 25 C 1 Pin Configuration of EP 78130GF R 51 C 2 Pin Configuration of EP 78024G...

Page 11: ...d 1 1 Features The IE 78044 R EM features when it is connected to IE 78000 R are as follows 1 Emulates the peripheral functions such as I O ports for the target device 2 Traces the I O port status dur...

Page 12: ...9 10 13 14 17 18 21 22 25 26 29 30 33 SW6 SW7 SW8 SW9 SW10 SW11 SW12 SW13 SW14 F1 MR5 MR6 MR7 MR8 MR9 IE 78044 R EM SS 70557 2 NO MR10 MR11 MR12 MR13 MR14 VER 2 IC6 IC39 IC7 MR24 IC8 IC9 MR25 IC10 MR2...

Page 13: ...0 33 SW6 SW7 SW8 SW9 SW10 SW11 SW12 SW13 SW14 F1 MR5 MR6 MR7 MR8 MR9 IE 78044 R EM SS 70557 2 NO MR10 MR11 MR12 MR13 MR14 VER 2 IC6 IC39 IC7 MR24 IC8 IC9 MR25 IC10 MR26 IC11 IC12 MR27 D1 D2 D3 D4 D5 D...

Page 14: ...Target Device Devices that can be emulated by IE 78000 R with IE 78044 R EM are as follows Series Name Target Device PD78024 Subseries PD78023 PD78024 PD78P024 PD78044 Subseries PD78042 PD78043 PD7804...

Page 15: ...ting IE 78000 R and the target system and changing the setting of switches 2 When emulating the target device by using IE 78044 R EM and IE 78000 R the target device operations slightly differ from th...

Page 16: ...78044 Subseries PD78044A Subseries Internal high speed RAM capacity PD78042 512 bytes PD78042A 512 bytes PD78043 1024 bytes PD78043A 512 bytes PD78044 1024 bytes PD78044A 1024 bytes PD78045A 1024 byte...

Page 17: ...connected to the following Break board installed in IE 78000 R IE 78000 R BK IE 78000 R Connector board and emulation probe optional Before connecting these boards and probe be sure to turn off the p...

Page 18: ...follows 1 Remove the six screws from the top cover of IE 78000 R and remove the cover 2 Disconnect cables J1 and J2 connecting the control trace board IE 78000 R CS A and break board 3 Pull the card p...

Page 19: ...Set the mask option by using the DIP switch on IE 78044 R EM refer to 3 1 Setting Mask Option 7 Connect connectors CN3 and CN4 for IE 78044 R EM to mating connectors CN3 and CN4 on the connector boar...

Page 20: ...R BK IE 78044 R EM Connector board supplied with emulation board J1 CN5 CN4 CN3 CN4 CN3 P2 CN5 Emulation probe connector Main board IE 78000 R housing Emulation probe for your target system Target sy...

Page 21: ...P3 P3 is a CMOS I O pin that can be connected to a pull down resistor Whether the pull down resistor is connected or not can be selected on the configuration panel of the screen debugger 2 P7 P7 is N...

Page 22: ...perating on the target system Individual target devices consist of CMOS LSIs The target interface circuit emulation device also consists of CMOS LSIs Therefore the DC and AC characteristics for the ta...

Page 23: ...emulation device 1 PD78024 Subseries as target a Signals related to port This circuit interfaces the following signals Signal related to port 0 Signal related to port 1 Signal related to port 2 Signa...

Page 24: ...tion Circuit 1 1 2 P00 P03 100 1 M HC374 D P04 XT1 100 k AC541 HC374 B D P15 ANI5 HC374 D P20 P27 100 1 M HC374 D P30 P36 100 HC374 D P17 ANI7 Probe side target system P10 ANI0 100 D HC157 HC374 HC406...

Page 25: ...CHAPTER 3 DIFFERENCES BETWEEN TARGET DEVICES Fig 3 2 Equivalent Emulation Circuit 2 2 2 P80 P81 P90 P97 P100 P107 P110 P117 70 k V Slide switch DIP SW IE 78000 R side emulation device Probe side SS VL...

Page 26: ...BETWEEN TARGET DEVICES b Analog signals Fig 3 3 Equivalent Emulation Circuit 2 P10 ANI0 P14 ANI4 P15 ANI5 P17 ANI7 AV SS AV REF AVSS AVREF 100 100 HC4066 39 k HC374 D D HC374 Probe side IE 78000 R si...

Page 27: ...ated to port This circuit interfaces the following signals Signal related to port 0 Signal related to port 1 Signal related to port 2 Signal related to port 3 Signal related to port 7 Signal related t...

Page 28: ...P04 XT1 100 k AC541 HC374 B D P15 ANI5 HC374 D P20 P27 100 1 M HC374 D P30 P37 100 HC374 D P17 ANI7 Probe side target system P10 ANI0 100 D HC157 HC374 HC4066 39 k I O P14 ANI4 100 HC4066 39 k I O IE...

Page 29: ...TARGET DEVICES Fig 3 4 Equivalent Emulation Circuit 3 2 2 P80 P81 P90 P97 P100 P107 P110 P117 P120 P127 70 k Slide switch DIP SW IE 78000 R side emulation device Probe side VSS VLOAD HC4050 D P70 P74...

Page 30: ...WEEN TARGET DEVICES b Analog signals Fig 3 5 Equivalent Emulation Circuit 4 100 HC4066 39 k I O HC374 D D P10 ANI0 P14 ANI4 AVSS HC374 100 P15 ANI5 P17 ANI7 AVSS AVDD AVDD AVREF AVREF Probe side IE 78...

Page 31: ...gnals related to clock input Fig 3 6 Equivalent Emulation Circuit 5 CA X1 100 k 3 12 13 2 X R 10 5 11 CB 4 X 6 9 8 1 M AC541 2 3 1 JP1 X F x 2 AS86 Break board X1 input Delay line 30 ns 5 V 5 V 4 7 k...

Page 32: ...S 3 2 3 Circuit inputting signal to control trace module This circuit interfaces the following signals VDD signal Fig 3 7 Equivalent Emulation Circuit 6 S 805 is a Seiko Instruments Inc IC S 805 VDD P...

Page 33: ...system is not used for emulation Instead the clock mounted on the break board installed in the IE 78000 R is used If the target system is provided with an external clock select 3 The external clock is...

Page 34: ...be used on the component block and connect the component block to the IE 78044 R EM In this way the target system can be debugged at a frequency different from that of the supplied clock Fig 4 3 Usin...

Page 35: ...stem Clock Settings X1 MAIN IE 78044 R EM Clock Setting Main System Clock Frequency Component for Screen Block of IE X1 USRCLK JP1 Debugger 78000 R BK Component Block To use board 4 19 MHz 6 8 shorted...

Page 36: ...d However if the user prepares a component block because another clock source is to be used or because the wired component block has been lost then make the connections in accordance with the procedur...

Page 37: ...the socket labeled X1 USRCLK on the IE 78044 R EM At this time make surethat the pin mark 1 faces the correct direction Fig 4 6 Component Block Mounting Position to use the clock mounted on break boa...

Page 38: ...en debugger has been started up select USER on the initial setting screen or the clock configuration panel selection of the user clock 1 To use a ceramic crystal oscillator Prerequisites Component blo...

Page 39: ...the external clock component block has been removed in step 3 At this time make sure that pin 1 faces the correct direction Fig 4 7 Component Block Mounting Position to use a user mounted clock as th...

Page 40: ...ent block 2 To use a crystal oscillator Prerequisites Crystal oscillator with pins wired as shown in Fig 4 8 Fig 4 8 Crystal Oscillator to use a user mounted clock as the main system clock Procedure P...

Page 41: ...LK IE 78044 R EM VCC CLOCK OUT GND NC Crystal oscillator Socket 1 2 3 4 5 6 7 Fig 4 9 Crystal Oscillator Mounting Position to use a user mounted clock as the main system clock Confirm that the compone...

Page 42: ...5V Crystal oscillator Delay line 30 ns AC541 JP1 1 2 3 CLK IN F X 2 AS86 X 14 7 8 The following circuit is configured by the above procedure and the clock can be supplied to the emulation device IE 78...

Page 43: ...onent block has been lost then make connections in accordance with the procedure described below When starting the screen debugger select USER for the clock setting on the initial setting screen or co...

Page 44: ...se an external clock as the main system clock Confirm that the component block attached to socket X1 MAIN on the break board is wired as shown in Fig 4 10 Connect the IE 78044 R EM and break board to...

Page 45: ...s the pin name of the target device 2 Indicates the pin name of the component block X1 pin of emulation probe Delay line 30 ns AC541 JP1 1 2 3 CLK IN F X 2 AS86 1 2 8 6 X Remarks The area enclosed by...

Page 46: ...2 768 kHz 330 k 4 3 Setting the Subsystem Clock 4 3 1 To use the user mounted clock Procedure 1 or 2 below must be carried out depending upon the type of the clock to be used These procedures do not h...

Page 47: ...Mountthecomponentblockin1tosocketX2 SUB from which theexternalclockcomponentblockwasremoved in step 3 Make sure that pin 1 faces in the correct direction Fig 4 12 Component Block Mounting Position to...

Page 48: ...CK IE 78000 R side emulation device 1M HCU04 IC98 HCU04 IC89 LS14 5V 4 7 k HCU04 CLK IN 98 5 Rx 10 11 4 13 CB 2 3 CA 12 Remarks The area enclosed by the broken line indicates the portion to be attache...

Page 49: ...wired as shown in Fig 4 13 Fig 4 13 Crystal Oscillator to use a user mounted clock as the subsystem clock Procedure Prepare the IE 78044 R EM and the wired break board Remove the external clock compo...

Page 50: ...stem clock Crystal oscillator 5V LS14 5V 4 7 k HCU04 CLK IN X2 SUB Break board PD65240 PD78009 X1 MAIN Connect the IE 78044 R EM and the break board to the IE 78000 R The following circuit is configur...

Page 51: ...s been lost make all connections in accordance with the procedure described below No special setting has to be made on the screen debugger Prerequisites Component block IE 78000 R accessory Lead wires...

Page 52: ...the subsystem clock Break board X2 SUB PD65240 PD78009 X1 MAIN 1413121110 9 8 1 2 3 4 5 6 7 Connect the IE 78044 R EM and the break board to the IE 78000 R The following circuit is configured by the...

Page 53: ...e 2 LS14 5V 4 7 k HCU04 CLK IN 1 6 XT1 pin of emulation probe 8 1 Indicates the pin name of the target device 2 Indicates the pin number of the component block Remarks The area enclosed by the broken...

Page 54: ......

Page 55: ...on device PD78P048A Operating temperature 0 to 50 C Humidity 10 to 80 RH without condensation Storage temperature 15 to 60 C Power requirements DC 0 5 A max 2 5 W supplied from IE 78000 R Board dimens...

Page 56: ......

Page 57: ...Q EV 9200G 80 K H No 1 pin index EV 9200G 80 G0 ITEM MILLIMETERS INCHES A B C D E F G H I J K L M O N P Q R S T U 25 0 20 30 4 0 14 45 19 0 4 C 2 8 0 8 11 0 22 0 24 7 5 0 16 2 18 9 8 0 7 8 2 5 2 0 1...

Page 58: ...0 03 5 00 0 08 2 50 0 03 0 5 0 02 2 36 0 03 1 57 0 03 1 012 0 827 0 598 0 783 0 433 0 217 0 197 0 098 0 02 0 093 0 062 0 8 0 02 23 18 4 0 05 0 8 0 02 15 12 0 0 05 0 002 0 001 0 003 0 002 0 002 0 001 0...

Page 59: ...M L T S J I R D U Q EV 9200G 64 K H EV 9200G 64 G0 ITEM MILLIMETERS INCHES A B C D E F G H I J K L M O N P Q R S T U 25 0 20 30 4 0 14 45 19 0 4 C 2 8 0 8 11 0 22 0 24 7 5 0 16 2 18 9 8 0 7 8 2 5 2 0...

Page 60: ...0 03 5 00 0 08 2 50 0 03 0 6 0 02 2 36 0 03 1 57 0 03 1 012 0 827 0 598 0 783 0 433 0 217 0 197 0 098 0 024 0 093 0 062 1 0 0 02 18 18 0 0 05 1 0 0 02 12 12 0 0 05 0 002 0 001 0 002 0 003 0 002 0 001...

Page 61: ...67 9 EXT6 33 57 46 81 68 10 EXT7 34 23 58 47 82 69 11 2 35 24 59 48 83 70 12 3 36 25 60 49 84 71 13 4 37 26 61 50 85 72 14 5 38 27 62 51 86 73 15 6 39 28 63 52 87 74 16 7 40 29 64 53 88 75 17 8 41 30...

Page 62: ...79 8 EXT5 32 22 56 46 80 9 EXT6 33 23 57 47 81 10 EXT7 34 24 58 48 82 11 1 35 25 59 49 83 12 2 36 26 60 50 84 13 3 37 27 61 51 85 14 4 38 28 62 52 86 15 5 39 29 63 53 87 16 6 40 30 64 54 88 17 7 41 3...

Page 63: ...APPENDIX D SYSTEM CONFIGURATION The IE 78000 R system configuration is shown on the following pages 53...

Page 64: ...e Board Break Board 78K Series housing w power supply IE 78000 R BK 78K 0 Series common break board PD78002 Subseries PD78002Y Subseries PD78044 Subseries PD78044A Subseries PD78014 Subseries PD78014Y...

Page 65: ...78024CW R Accessory EV 9200GC 64 1 EP 78240GC R IE 78014 R EM IE 78014 R EM A 1 EP 78240CW R Accessory EV 9500GK 64 1 EP 78012GK R 2 1 Under development 2 Only for PD78018F Subseries Screen Debugger...

Page 66: ...ice Housing and Control Trace Board Break Board IE 78000 R CS A 78K Series common control trace board IE 78000 R BK 78K 0 Series common break board 78K Series housing w power supply Under development...

Page 67: ...der development SD78K0 with ROM Accessory EV 9500GK 80 1 EP 78054GK R Emulation Board Optional Emulation Probe Optional DF78064 DF78078 Accessory EV 9200GC 80 1 EP 78230GC R Accessory EV 9200G 44 1 EP...

Page 68: ...onfiguration 5 6 Target Device Housing and Control Trace Board Break Board PD780208 Subseries PD78098 Subseries IE 78000 R CS A 78K Series common control trace board IE 78000 R BK 78K 0 Series common...

Page 69: ...MR24 IC8 MR23 IC6 IC5 IC4 TP4 USRCLK R4 X1 IC2 R3 R1 CLKOUT TP6TP7 USRCK1 1 2 3 4 5 IC10 1 2 3 1 2 Fx 2 2 Fx 2 30 31 50 51 1 100 81 51 IC7 D5 D4 D3 D2 D1 IC17 IC16 MR27 IC25 MR30 IC26 IC27 IC18 MR29...

Page 70: ...60 APPENDIX D SYSTEM CONFIGURATION MEMO...

Page 71: ...mulator IE 78000 R by replacing the internal break board with the IE 78000 R BK Table E 1 Upgrading System Series Name Your In Circuit Emulator Necessary Board 75X Series IE 75000 R IE 75001 R 78K I S...

Page 72: ...62 MEMO APPENDIX E SYSTEM CONFIGURATION...

Page 73: ...n changed Remarks have been added to the table Main System Clock Setting The figure on the IE 78000 R side emulation device in the case of using a crystal oscillator has been changed The typical value...

Reviews: