CM200DU-12F MITSUBISHI, CM200DU-12F Datasheet

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CM200DU-12F

Manufacturer Part Number
CM200DU-12F
Description
Trench Gate Design Dual IGBTMOD? 200 Amperes/600 Volts
Manufacturer
MITSUBISHI
Datasheet
1.CM200DU-12F.pdf (78 pages)

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DESCRIPTION
The 3822 group is the 8-bit microcomputer based on the 740 fam-
ily core technology.
The 3822 group has the LCD drive control circuit, an 8-channel
A-D converter, and a serial I/O as additional functions.
The various microcomputers in the 3822 group include variations
of internal memory size and packaging. For details, refer to the
section on part numbering.
For details on availability of microcomputers in the 3822 group, re-
fer to the section on group expansion.
FEATURES
Fig. 1 M38224M6HXXXFP pin configuration
PIN CONFIGURATION (TOP VIEW)
Basic machine-language instructions ...................................... 71
The minimum instruction execution time ........................... 0.5 µs
Memory size
ROM ................................................................. 4 K to 48 K bytes
RAM ................................................................. 192 to 1024 bytes
Programmable input/output ports ............................................ 49
Software pull-up/pull-down resistors (Ports P0-P7 except port P4
Interrupts ................................................. 17 sources, 16 vectors
Timers ........................................................... 8-bit
Serial I/O ...................... 8-bit
A-D converter ................................................. 8-bit
LCD drive control circuit
Bias ................................................................................... 1/2, 1/3
Duty ........................................................................... 1/2, 1/3, 1/4
Common output .......................................................................... 4
Segment output ........................................................................ 32
(The pin configuration of 80D0 is same as this.)
Package type : 80P6N-A (80-pin plastic-molded QFP)
1 (UART or Clock-synchronized)
(at 8 MHz oscillation frequency)
C O M
COM
C O M
COM
S E G
S E G
S E G
S E G
S E G
S E G
S E G
S E G
V
V
V L
(includes key input interrupt)
R E F
C C
7
6
5
4
3
2
1
0
3
2
1
0
3
6 5
6 6
6 7
6 8
6 9
7 0
7 1
7 2
7 3
7 4
7 5
76
7 7
78
7 9
8 0
6 4
1 2 3 4 5 6 7 8 9 1 0 1 1 12 1 3 1 4 1 5 1 6 1 7 1 8 1 9 20 2 1 22 2 3 24
6 3
6 2
3, 16-bit
61
8 channels
6 0
M 3 8 2 2 4 M 6 H X X X F P
5 9
5 8
57
56
0
2
)
55
5 4
53
52
APPLICATIONS
Camera, household appliances, consumer electronics, etc.
51
2 clock generating circuits
Power source voltage
In high-speed mode .................................................. 4.0 to 5.5 V
In middle-speed mode ............................................... 2.5 to 5.5 V
In low-speed mode .................................................... 2.5 to 5.5 V
Power dissipation
In high-speed mode .......................................................... 32 mW
In low-speed mode ............................................................ 45 W
Operating temperature range................................... – 20 to 85°C
(connect to external ceramic resonator or quartz-crystal oscillator)
5 0
(at 32 kHz oscillation frequency, at 3 V power source voltage)
49
(at 8 MHz oscillation frequency, at 5 V power source voltage)
4 8
SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER
47
(Extended operating temperature version: – 40 to 85 °C)
4 6
45
4 4
43
MITSUBISHI MICROCOMPUTERS
4 2
41
4 0
3 9
3 8
3 7
3 6
3 5
3 4
3 3
3 2
3 1
3 0
2 9
2 8
2 7
2 6
2 5
(Extended operating temperature version:
(Extended operating temperature version:
3822 Group
(One time PROM version: 2.5 to 5.5 V)
(One time PROM version: 2.5 to 5.5 V)
P2
P2
P2
P2
P2
P2
P2
P2
V
X
X
P7
P 4
P 7
RESET
P4
SS
OUT
IN
1
2
3
4
5
6
7
0
0
1
0
1
/ X
/X
/
3.0 to 5.5 V, Ta= – 40 to – 20°C)
3.0 to 5.5 V, Ta= – 40 to – 20°C)
C O U T
CIN
2.0 to 5.5 V, Ta= – 20 to 85°C
2.0 to 5.5 V, Ta= – 20 to 85°C
(M version: 2.2 to 5.5 V)
(M version: 2.2 to 5.5 V)
(H version: 2.0 to 5.5 V)
(H version: 2.0 to 5.5 V)

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CM200DU-12F Summary of contents

Page 1

... MITSUBISHI MICROCOMPUTERS 3822 Group (Extended operating temperature version: 2.0 to 5.5 V, Ta= – 85°C 3.0 to 5.5 V, Ta= – – 20°C) (One time PROM version: 2 version: 2 ...

Page 2

... COM Fig. 2 M38223M4MXXXGP/M38224M6HXXXHP pin configuration 2 SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER M38223M4MXXXGP M38224M6HXXXHP Package type : 80P6S-A/80P6Q-A (80-pin plastic-molded QFP) MITSUBISHI MICROCOMPUTERS 3822 Group /SEG /SEG ...

Page 3

... Fig. 3 Functional block diagram MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER ...

Page 4

... voltage to LCD. L3 and COM are not used at 1/2 duty ratio not used at 1/3 duty ratio. 3 MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Function except a port function . (For the limits refer to “Recom pin. OUT and X pins to set IN ...

Page 5

... CIN •CMOS 3-state output structure. •I/O direction register allows each pin to be individually programmed as either input or output. •Pull-up control is enabled. MITSUBISHI MICROCOMPUTERS SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Function Function except a port function • clock output pin •Interrupt input pins •Serial I/O function pins • ...

Page 6

... M : Mask ROM version E : EPROM or One Time PROM version RAM size 0 : 192 bytes 1 : 256 bytes 2 : 384 bytes 3 : 512 bytes 4 : 640 bytes 5 : 768 bytes 6 : 896 bytes 7 : 1024 bytes MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER 9 : 36864 bytes A : 40960 bytes B : 45056 bytes C : 49152 bytes ...

Page 7

... GROUP EXPANSION (STANDARD, ONE TIME PROM VERSION, EPROM VERSION) Mitsubishi plans to expand the 3822 group (Standard, One Time PROM version, EPROM version) as follows: Memory Type Support for Mask ROM, One Time PROM, and EPROM versions Memory Expansion Plan ROM size (bytes) ...

Page 8

... GROUP EXPANSION (EXTENDED OPERATING TEMPERATURE VERSION) Mitsubishi plans to expand the 3822 group (extended operating temperature version) as follows: Memory Type Support for Mask ROM version. Memory Size ROM size ........................................................................ 48 K bytes RAM size ....................................................................... 1024 bytes Memory Expansion Plan ROM size (bytes ...

Page 9

... GROUP EXPANSION (M VERSION) Mitsubishi plans to expand the 3822 group (M version) as follows: Memory Type Support for Mask ROM version. Memory Size ROM size ........................................................... bytes RAM size .............................................................. 512 to 640 bytes Memory Expansion Plan ROM size (bytes 28K 24K ...

Page 10

... GROUP EXPANSION (H VERSION) Mitsubishi plans to expand the 3822 group (H version) as follows: Memory Type Support for Mask ROM version. Memory Size ROM size ........................................................... bytes RAM size ............................................................ 512 to 1024 bytes Memory Expansion Plan ROM size (bytes 32K 28K 24K 20K ...

Page 11

... Program counter Processor status register (PS) Carry flag Zero flag Interrupt disable flag Decimal mode flag Break flag Index X mode flag Overflow flag Negative flag MITSUBISHI MICROCOMPUTERS 3822 Group ” used to indicate the address of the L 11 ...

Page 12

... ( Interrupt enable flag is “1” “ 0 ” Push instruction to stack PHA PHP MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER M (S) ( – 1 Push return address ...

Page 13

... When the BIT instruction is executed, bit 7 of the memory location operated on by the BIT instruction is stored in the negative flag. Z flag I flag D flag B flag – SEI SED – CLI CLD MITSUBISHI MICROCOMPUTERS 3822 Group N flag V flag T flag – – SET – – – CLT CLV ...

Page 14

... Stopped Main clock division ratio selection bit 0 : f(X )/2 (high-speed mode f(X )/8 (middle-speed mode) IN Internal system clock selection bit –X selected (middle-/high-speed mode) IN OUT –X CIN COUT MITSUBISHI MICROCOMPUTERS 3822 Group ) 16 oscillating function ) stop bit OUT selected (low-speed mode) ...

Page 15

... 8080 16 7080 16 FFDC 6080 16 5080 16 4080 16 FFFE MITSUBISHI MICROCOMPUTERS 3822 Group to 00FF are called the FFFF are called the SFR area Zero page ...

Page 16

... UART control register (UARTCON) 16 001C Baud rate generator (BRG) 16 001D 16 001E 16 001F 16 Fig. 13 Memory map of special function register (SFR) 16 MITSUBISHI MICROCOMPUTERS SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER 0020 Timer X (low) (TXL) 16 0021 Timer X (high) (TXH) 16 Timer Y (low) (TYL) 0022 16 Timer Y (high) (TYH) 0023 ...

Page 17

... Note: The contents of PULL register A and PULL register B do not affect ports programmed as the output port. Fig. 14 Structure of PULL register A and PULL register the PULL reg- 16 can control 0 MITSUBISHI MICROCOMPUTERS 3822 Group – ...

Page 18

... CMOS compatible Sub-clock input level generating circuit I/O CMOS 3-state output LCD common output LCD segment output during execution of the STP instruction. When an input level intermediate po- CC MITSUBISHI MICROCOMPUTERS 3822 Group Related SFRs Diagram No. PULL register A (1) Segment output enable register (2) ...

Page 19

... Ports P2, P4 Data bus Key input (Key-on wake-up) interrupt input (4) Port P4 0 (6) Port P4 4 Pull-up control Serial I/O enable bit Receive enable bit Direction register Data bus Port latch MITSUBISHI MICROCOMPUTERS 3822 Group , Pull-up control Direction register Port latch INT – ...

Page 20

... Ports P5 Pull-up control Data bus Real time port control bit Data for real time port (12) Ports P5 Pull-up control Data bus interrupt input 0 MITSUBISHI MICROCOMPUTERS 3822 Group Pull-up control Port latch Serial I/O clock input Pull-up control Direction register Port latch ...

Page 21

... MITSUBISHI MICROCOMPUTERS 3822 Group Pull-up control A-D conversion input ...

Page 22

... P2 (at input mode) FFDE At falling of ADT input completion of A-D conversion FFDC At BRK instruction execution 16 16 MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Timer X mode register (address 27 Timer Y mode register (address 28 16 Remarks Non-maskable External interrupt input (active edge selectable) ...

Page 23

... Fig. 19 Structure of interrupt-related registers SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER BRK instruction Reset ) Falling edge active 1 : Rising edge active MITSUBISHI MICROCOMPUTERS 3822 Group Interrupt request b0 Interrupt request register 2 (IREQ2 : address 003D ) 16 CNTR interrupt request bit 0 CNTR interrupt request bit 1 Timer 1 interrupt request bit ...

Page 24

... Fig. 20 Connection example when using key input interrupt and port P2 block diagram 24 MITSUBISHI MICROCOMPUTERS SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER “1” to “0”. An example of using a key input interrupt is shown in Figure 20, where an interrupt request is generated by pressing one of the keys consisted as an active-low key matrix which inputs to ports P2 – ...

Page 25

... Timer 3 ( “ 1 ” MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Timer X write control bit ...

Page 26

... Note on CNTR selection CNTR interrupt active edge depends on the CNTR 0 switch bit. pin Fig. 22 Structure of timer X mode register MITSUBISHI MICROCOMPUTERS 3822 Group and P5 each time the timer interrupt active edge 0 active edge ...

Page 27

... Fig. 23 Structure of timer Y mode register active edge 1 MITSUBISHI MICROCOMPUTERS 3822 Group “ 0 ” ...

Page 28

... SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER b7 pin to the output OUT Fig. 24 Structure of timer 123 mode register MITSUBISHI MICROCOMPUTERS 3822 Group b 0 Timer 123 mode register (T123M :address 0029 ) 16 T ...

Page 29

... MITSUBISHI MICROCOMPUTERS 3822 Group ...

Page 30

... MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER UART control register Address 001B 16 ...

Page 31

... Set the transmit enable bit to “1”. Set the serial I/O transmit interrupt request bit to “0” after 1 or more instructions have been executed. Set the serial I/O transmit interrupt enable bit to “1” (enabled). SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER pin MITSUBISHI MICROCOMPUTERS 3822 Group 31 ...

Page 32

... Fig. 29 Structure of serial I/O control registers MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER ) 1 6 BRG count source selection bit (CSS) 0: f(X ...

Page 33

... Comparator register 8 Resistor ladder MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER ...

Page 34

... CIN 1 : f(X )/8192 (or f(X IN mode MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Maximum number of display pixel 64 dots or 8 segment LCD 8 digits ...

Page 35

... Fig. 33 Block diagram of LCD controller/driver MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER 35 ...

Page 36

... LCD mode register). Contrast control 1/3 bias Fig. 34 Example of circuit at each bias 36 MITSUBISHI MICROCOMPUTERS SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Table 12 Bias control and applied voltage to V Bias value Voltage value LCD 1/3 bias V =2 LCD V ...

Page 37

... COM COM MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER (frequency of count source for LCDCK) (divider division ratio for LCD) f(LCDCK) (duty ratio SEG 0 SEG 2 SEG 4 ...

Page 38

... OFF ON OFF COM OFF COM COM MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER COM ...

Page 39

... OFF ON OFF MITSUBISHI MICROCOMPUTERS 3822 Group COM ...

Page 40

... Set bit 1 of the port P4 direction reg- ister to “1” when outputting clock Fig. 38 Structure of output control register 40 MITSUBISHI MICROCOMPUTERS SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER by setting ...

Page 41

... Fig. 39 Reset Circuit Example ? ? ? ? ) • MITSUBISHI MICROCOMPUTERS 3822 Group Reset input voltage ...

Page 42

... Note: The contents of all other registers and RAM are undefined after reset, so they must be initialized by software. : undefined Fig. 41 Initial status of microcomputer after reset 42 MITSUBISHI MICROCOMPUTERS SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER ...

Page 43

... CIN oscillations. The CIN C Fig. 42 Ceramic resonator circuit Fig. 43 External clock input circuit MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER and X oscillators stop. Timer 1 is set to IN CIN ” divided input to timer 1 as count ...

Page 44

... switch bit to “1” MITSUBISHI MICROCOMPUTERS 3822 Group ...

Page 45

... MITSUBISHI MICROCOMPUTERS 3822 Group b4 CPU mode register (CPUM : address 003B ...

Page 46

... The frequency of the internal clock signal, set the transmit output enable bit RDY D pin after X MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER ) is at least 500 kHz during an A-D conver the number of cycles needed to is half of the X IN frequency ...

Page 47

... Specification Form 3.Data to be written to ROM, in EPROM form (three identical cop- ies) or one floppy disk For the mask ROM confirmation and the mark specifications, re- fer to the “Mitsubishi MCU Technical Information” Homepage (http://www.infomicom.mesc.co.jp/). MITSUBISHI MICROCOMPUTERS SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER ...

Page 48

... P6 –P6 P7 ,P7 ( – –P4 ,P4 , MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Ratings –0 –0 +0.3 CC –0 +0 –0 +0.3 CC –0 +0.3 CC –0 +0.3 L3 – ...

Page 49

... (Note High-speed mode (4 5 High-speed mode (2 4 Middle-speed mode MITSUBISHI MICROCOMPUTERS 3822 Group Limits Unit Min. Typ. Max. –40 mA – –20 mA – –2 mA – ...

Page 50

... Pull-ups “on” Pull-ups “on” the CPU mode register, the drive ability of port P7 16 MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Limits Min. Typ. Max. V –2 –1 –2 –0.5 ...

Page 51

... Output transistors “off” All oscillation stopped (in STP state) Output transistors “off” f MHz, middle-/high-speed mode, unless otherwise noted) IN Test conditions REF f MHz REF MITSUBISHI MICROCOMPUTERS 3822 Group Limits Min. Typ. Max. 2.0 5.5 6.4 13 1 4.5 9 °C ...

Page 52

... Divide this value by four when bit 6 of address 001A 52 SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Parameter input “0” (UART). 16 Parameter input “0” (UART). 16 MITSUBISHI MICROCOMPUTERS 3822 Group Limits Unit Min. Typ. Max 125 ...

Page 53

... Notes 1: When the P-channel output disable bit of the UART control register (bit 4 of address 001B and X pins are excluded. OUT COUT SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Parameter Parameter MITSUBISHI MICROCOMPUTERS 3822 Group Limits Min. Typ. Max )/2–30 C CLK t (S )/2– ...

Page 54

... P6 –P6 P7 ,P7 ( – –P4 ,P4 , MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Ratings –0 –0 +0.3 CC –0 +0 –0 +0.3 CC –0 +0.3 CC –0 – ...

Page 55

... High-speed mode (4 5 High-speed mode (2 4 Middle-speed mode MITSUBISHI MICROCOMPUTERS 3822 Group Limits Min. Typ. Max. –40 –40 (Note (Note 1) 1 –20 (Note 1) – (Note 1) 1 –2 – ...

Page 56

... Pull-ups “on” Pull-ups “on” CPU mode register, the drive ability of port P7 16 MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Limits Min. Typ. Max. V –2 –0 –2 –0.5 ...

Page 57

... MHz, in middle/high-speed mode unless otherwise noted) IN Test conditions 4.0V to 5.5V CC REF f MHz 3 4.0V CC REF f MHz MHz REF MITSUBISHI MICROCOMPUTERS 3822 Group Limits Min. Typ. Max. 5.5 2.0 6.4 13 1 4.5 9 °C 0.1 1 °C 10 Limits Min. Typ. ...

Page 58

... Divide this value by four when bit 6 of address 001A 58 SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Parameter input “0” (UART 3 –40 to –20 °C, unless otherwise noted) CC Parameter input “0” (UART). 16 MITSUBISHI MICROCOMPUTERS 3822 Group Limits Unit Min. Typ. Max. 2 125 250 ...

Page 59

... D P-channel output disable bit of the UART control register (bit 4 of address 001B and X pins are excluded. OUT COUT SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Parameter = 3 –40 to –20 °C, unless otherwise noted Parameter MITSUBISHI MICROCOMPUTERS 3822 Group Limits Min. Typ. Max )/2–30 C CLK t (S )/2–30 C ...

Page 60

... At segment output –P4 ,P5 – 25°C Parameter High-speed mode f MHz IN Middle-speed mode f MHz IN Low-speed mode –AN 7 MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Ratings –0 –0 +0.3 CC –0 +0 –0 +0.3 CC – ...

Page 61

... P6 –P6 P7 ,P7 ( – –P4 ,P4 , MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Limits Min. Typ. Max ...

Page 62

... (Note High-speed mode (4 5 High-speed mode (2 4 Middle-speed mode MITSUBISHI MICROCOMPUTERS 3822 Group Limits Unit Min. Typ. Max. mA –40 mA – –20 mA – – – ...

Page 63

... Pull-ups “on” Pull-ups “on” CPU mode register, the drive ability of port P7 16 MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Limits Min. Typ. Max. V –2 –1 –2 –0.5 ...

Page 64

... Output transistors “off” All oscillation stopped (in STP state) Output transistors “off” f MHz, in middle/high-speed mode, unless otherwise noted) IN Test conditions REF f MHz REF MITSUBISHI MICROCOMPUTERS 3822 Group Limits Min. Typ. Max. 2.0 5.5 6.4 13 1 4.5 9 °C ...

Page 65

... Divide this value by four when bit 6 of address 001A SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Parameter input “0” (UART). 16 Parameter input “0” (UART). 16 MITSUBISHI MICROCOMPUTERS 3822 Group Limits Unit Min. Typ. Max. 2 125 ...

Page 66

... Notes 1: When the P-channel output disable bit of the UART control register (bit 4 of address 001B and X pins are excluded. OUT COUT 66 SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Parameter Parameter MITSUBISHI MICROCOMPUTERS 3822 Group Limits Min. Typ. Max )/2–30 C CLK t (S )/2–30 ...

Page 67

... P6 –P6 P7 ,P7 ( – –P4 ,P4 , MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Ratings –0 –0 +0.3 CC –0 +0 –0 +0.3 CC –0 +0.3 CC –0 – ...

Page 68

... (Note High-speed mode (4 5 High-speed mode (2 4 Middle-speed mode MITSUBISHI MICROCOMPUTERS 3822 Group Limits Unit Min. Typ. Max. –40 mA – –20 mA – –2 mA – ...

Page 69

... Pull-ups “on” Pull-ups “on” CPU mode register, the drive ability of port P7 16 MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Limits Min. Typ. Max. V –2 –1 –2 –0.5 ...

Page 70

... MHz, in middle/high-speed mode unless otherwise noted) IN Test conditions 4 5 REF f MHz 2 4.0V CC REF f MHz MHz REF MITSUBISHI MICROCOMPUTERS 3822 Group Limits Min. Typ. Max. 2.0 5.5 6.4 13 1 4.5 9 °C 0.1 1 °C 10 Limits Min. Typ. ...

Page 71

... Divide this value by four when bit 6 of address 001A SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Parameter input “0” (UART). 16 Parameter input “0” (UART). 16 MITSUBISHI MICROCOMPUTERS 3822 Group Limits Unit Min. Typ. Max. 2 125 ...

Page 72

... MITSUBISHI MICROCOMPUTERS 3822 Group Limits Min. ...

Page 73

... 0. C(S ) CLK WL(S ) CLK 0. 0. MITSUBISHI MICROCOMPUTERS 3822 Group 0. WL ...

Page 74

... Detail F Weight(g) Lead Material Alloy 42 1. Detail F MITSUBISHI MICROCOMPUTERS 3822 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Plastic 80pin 14 20mm body QFP Recommended Mount Pad Dimension in Millimeters Symbol Min Nom A – – 0 – ...

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... SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER Plastic 80pin 12 12mm body LQFP Weight(g) Lead Material Cu Alloy 0. Detail F MITSUBISHI MICROCOMPUTERS 3822 Group Recommended Mount Pad Dimension in Millimeters Symbol Min Nom Max A – – 1 0.1 0.2 1 – 1.4 – ...

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... These materials are intended as a reference to assist our customers in the selection of the Mitsubishi semiconductor product best suited to the customer’s application; they do not convey any license under any intellectual property rights, or any other rights, belonging to Mitsubishi Electric Corporation or a third party. ...

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REVISION HISTORY Rev. Date Page 1.0 01/20/98 First Edition 1 “ Memory size” of “FEATURES” is partly revised. 2.0 10/23/00 1 “ Serial I/O” of “FEATURES” is partly revised. 1 “ A-D converter” of “FEATURES” is added. 1 “ 2 ...

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REVISION HISTORY Rev. Date Page 35 Figure 33 is partly revised. 2.0 10/23/00 40 Explanations of “ CLOCK SYSTEM OUTPUT FUNCTION” are partly revised. 41 Explanations of “RESET CIRCUIT” are partly revised. 41 Figure 39 is partly revised. 43 Explanations ...

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