M30620MCM MITSUBISHI [Mitsubishi Electric Semiconductor], M30620MCM Datasheet
M30620MCM
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M30620MCM Summary of contents
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Description Description The M16C/62M group of single-chip microcomputers are built using the high-performance silicon gate CMOS process using a M16C/60 Series CPU core and are packaged in a 100-pin plastic molded QFP. These single-chip microcomputers operate using sophisticated instructions featuring ...
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Description Pin Configuration Figures 1.1.1 and 1.1.2 show the pin configurations (top view). PIN CONFIGURATION (top view ...
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Description PIN CONFIGURATION (top view ...
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Description Block Diagram Figure 1.1 block diagram of the M16C/62M group. Block diagram of the M16C/62M group 8 I/O ports Port P0 Internal peripheral functions Timer Timer TA0 (16 bits) Timer TA1 (16 bits) Timer TA2 (16 bits) ...
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Description Performance Outline Table 1.1 performance outline of M16C/62M group. Table 1.1.1. Performance outline of M16C/62M group Item Number of basic instructions Shortest instruction execution time Memory ROM capacity RAM I/O port P0 to P10 (except P8 Input ...
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... Table 1.1.2. M16C/62M group Type No ROM capacity M30620MCM-XXXFP M30620MCM-XXXGP M30624MGM-XXXFP M30624MGM-XXXGP M30620FCMFP M30620FCMGP M30624FGMFP M30624FGMGP 6 M30624MGM-XXXFP/GP M30624FGMFP/GP M30620MCM-XXXFP/GP M30620FCMFP/GP Mask ROM version Flash memory version RAM capacity Package type 100P6S-A 128K byte 10K byte 100P6Q-A 100P6S-A 256K byte 20K byte 100P6Q-A 100P6S-A ...
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Description Type No – Figure 1.1.5. Type No., memory size, and package Mitsubishi microcomputers (Low voltage version) SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER Package type Package ...
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Electrical characteristics Table 1.26.1. Absolute maximum ratings Symbol Supply voltage Vcc Analog supply voltage AVcc RESET, Input voltage REF ...
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Electrical characteristics Table 1.26.2. Recommended operating conditions (referenced – Symbol Supply voltage Vcc AVcc Analog supply voltage Vss Supply voltage Analog supply voltage AVss ...
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Electrical characteristics Table 1.26.3. Electrical characteristics (referenced – ...
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Electrical characteristics Table 1.26.4. A-D conversion characteristics (referenced 0V – ...
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Timing Timing requirements (referenced 3V 0V – Specify a product of - use it. Table 1.26.8. External clock input Symbol t External ...
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Timing Timing requirements (referenced 3V 0V – Specify a product of – use it. Table 1.26.10. Timer A input (counter input in ...
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Timing Timing requirements (referenced 3V 0V – Specify a product of – use it. Table 1.26.15. Timer B input (counter input in ...
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Timing Switching characteristics (referenced to V (Note 3), CM15 = “1” unless otherwise specified) Table 1.26.21. Memory expansion and microprocessor modes (with no wait) Symbol Parameter t Address output delay time d(BCLK-AD) t Address output hold time (BCLK standard) h(BCLK-AD) ...
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Timing Switching characteristics (referenced to V (Note 3), CM15 = “1” unless otherwise specified) Table 1.26.22. Memory expansion and microprocessor modes (when accessing external memory area with wait) Symbol Parameter t Address output delay time d(BCLK-AD) t Address output hold ...
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Timing Switching characteristics (referenced to V (Note 2), CM15 = “1” unless otherwise specified) Table 1.26.23. Memory expansion and microprocessor modes (when accessing external memory area with wait, and select multiplexed bus) Symbol Parameter t Address output delay time d(BCLK-AD) ...
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Timing TAi input IN TAi input OUT TAi input OUT (Up/down input) During event counter mode TAi input IN (When count on falling edge is selected) TAi input IN (When count on rising edge is selected) TBi input IN AD ...
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Timing Memory Expansion Mode and Microprocessor Mode (Valid only with wait) BCLK RD (Separate bus) WR, WRL, WRH (Separate bus) RD (Multiplexed bus) WR, WRL, WRH (Multiplexed bus) RDY input (Valid with or without wait) BCLK t su(HOLD–BCLK) HOLD input ...
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Timing Memory Expansion Mode and Microprocessor Mode (With no wait) Read timing BCLK t d(BCLK–CS) 60ns.max CSi tcyc t d(BCLK–AD) 60ns.max ADi BHE t t d(BCLK–ALE) ALE 60ns.max t d(BCLK–RD) 60ns.max RD Hi– SU(DB–RD) 80ns.min Write timing BCLK ...
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Timing Memory Expansion Mode and Microprocessor Mode (When accessing external memory area with wait) Read timing BCLK t d(BCLK–CS) 60ns.max CSi tcyc t d(BCLK–AD) 60ns.max ADi BHE t d(BCLK–ALE) 60ns.max ALE RD DB Write timing BCLK t d(BCLK–CS) 60ns.max CSi ...
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Timing Memory Expansion Mode and Microprocessor Mode (When accessing external memory area with wait, and select multiplexed bus) Read timing BCLK t d(BCLK–CS) 60ns.max CSi t d(AD–ALE) (tcyc/2–45)ns.min ADi Address /DBi t h(ALE–AD) 40ns.min t d(BCLK–AD) 60ns.max ADi BHE t ...
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Usage precaution Usage Precaution Timer A (timer mode) (1) Reading the timer Ai register while a count is in progress allows reading, with arbitrary timing, the value of the counter. Reading the timer Ai register with the reload timing gets ...
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Usage precaution Timer B (pulse period/pulse width measurement mode) (1) If changing the measurement mode select bit is set after a count is started, the timer Bi interrupt request bit goes to “1”. (2) When the first effective edge is ...
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Usage precaution (4) External interrupt • When the polarity of the INT0 to INT5 pins is changed, the interrupt request bit is sometimes set to "1". After changing the polarity, set the interrupt request bit to "0". (5) Rewrite the ...
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Usage precaution Notes on the microprocessor mode and transition after shifting from the micropro- cessor mode to the memory expansion mode • Microprocessor mode In microprocessor mode, the SFR, internal RAM, and external memory space can be accessed. For that ...
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... The mark specification differs according to the type of package. After entering the mark specification on the separate mark specification sheet (for each package), attach that sheet to this masking check sheet for submission to Mitsubishi. For the M30620MCM-XXXFP, submit the 100P6S mark specification sheet. For the M30620MCM-XXXGP, submit the 100P6Q mark specification sheet. 3. Usage Conditions For our reference when of testing our products, please reply to the following questions about the usage of the products you ordered ...
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... GZZ-SH13-95B<02A0> MITSUBISHI ELECTRIC-CHIP 16-BIT MICROCOMPUTER M30620MCM-XXXFP/GP MASK ROM CONFIRMATION FORM (2) Which kind CIN COUT Ceramic resonator External clock input What frequency do not use? f CIN (3) Which operation mode do you use? Single-chip mode Microprocessor mode (4) Which operating supply voltage do you use? (Circle the operating voltage range of use) 2 ...
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GZZ-SH13-48B<98A1> MITSUBISHI ELECTRIC-CHIP 16-BIT MICROCOMPUTER M30624MGM-XXXFP/GP MASK ROM CONFIRMATION FORM Company name Customer Date Date : issued 1. Check sheet Mitsubishi processes the mask files generated by the mask file generation utilities out of those held on the floppy disks ...
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GZZ-SH13-48B<98A1> MITSUBISHI ELECTRIC-CHIP 16-BIT MICROCOMPUTER M30624MGM-XXXFP/GP MASK ROM CONFIRMATION FORM (2) Which kind CIN COUT Ceramic resonator External clock input What frequency do not use? f CIN (3) Which operation mode do you use? Single-chip ...
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Differences between M16C/62M (Low voltage version) and M30624FGLFP/GP Item M16C/62M (Low voltage version) Memory area 1 Mbyte fixed No CTS/RTS separate function Serial I/O Analog or digital delay is selected as IIC bus mode SDA delay Memory version Mask ROM ...
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Keep safety first in your circuit designs! Mitsubishi Electric Corporation puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead to ...
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MITSUBISHI SEMICONDUCTORS M16C/62M Group (Low voltage version) Specifications REV.B Jun. First Edition 2000 Edition by Committee of editing of Mitsubishi Semiconductor Published by Mitsubishi Electric Corp., Kitaitami Works This book, or parts thereof, may not be reproduced in any form ...