RENESAS M37903S4CHP

To all our customers
Regarding the change of names mentioned in the document, such as Mitsubishi
Electric and Mitsubishi XX, to Renesas Technology Corp.
The semiconductor operations of Hitachi and Mitsubishi Electric were transferred to Renesas
Technology Corporation on April 1st 2003. These operations include microcomputer, logic, analog
and discrete devices, and memory chips other than DRAMs (flash memory, SRAMs etc.)
Accordingly, although Mitsubishi Electric, Mitsubishi Electric Corporation, Mitsubishi
Semiconductors, and other Mitsubishi brand names are mentioned in the document, these names
have in fact all been changed to Renesas Technology Corp. Thank you for your understanding.
Except for our corporate trademark, logo and corporate statement, no changes whatsoever have been
made to the contents of the document, and these changes do not constitute any alteration to the
contents of the document itself.
Note : Mitsubishi Electric will continue the business operations of high frequency & optical devices
and power devices.
Renesas Technology Corp.
Customer Support Dept.
April 1, 2003
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16-BIT CMOS MICROCOMPUTER
• Instruction execution time
DESCRIPTION
These are microcomputers designed with high-performance CMOS
silicon gate technology. These microcomputers support the 7900
Series instruction set, which is enhanced and expanded instruction
set and is upper-compatible with the 7700/7751 Series instruction
set.
The CPU of these microcomputers is a 16-bit parallel processor that
can also be switched to perform 8-bit parallel processing. Also, the
bus interface unit of these microcomputers enhances the memory
access efficiency to execute instructions fast. Therefore, these microcomputers are suitable for office, business, and industrial equipment controller that require high-speed processing of large data.
The fastest instruction at 26 MHz frequency ........................ 38 ns
• Single power supply .................................................... 5 V ± 0.5 V
• Interrupts ........... 6 external sources, 15 internal sources, 7 levels
• Multi-functional 16-bit timer ................................................... 5 + 3
• Serial I/O (UART or Clock synchronous) ..................................... 2
• 10-bit A-D converter ............................................ 8-channel inputs
• 8-bit D-A converter ............................................ 2-channel outputs
• Real-time output
.... 4 bits × 2 channels, or 6 bits × 1 channel + 2 bits × 1 channel
• 12-bit watchdog timer
• Programmable input/output (ports P0, P2–P8, P11) ................. 65
APPLICATION
DISTINCTIVE FEATURES
<Microcomputer mode>
Number of basic machine instructions .................................... 203
Memory
ROM ................................................................................. External
RAM ............................................................................. 2048 bytes
•
•
Control devices for personal computer peripheral equipment such as
CD-ROM drives, DVD-ROM drives, hard disk drives, high density
FDD, printers
Control devices for office equipment such as copiers and facsimiles
Control devices for industrial equipment such as communication and
measuring instruments
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
→ P104/A4
→ P105/A5
→ P106/A6
→ P107/A7
↔ P110/A8
↔ P111/A9
↔ P112/A10
↔ P113/A11
↔ P114/A12
↔ P115/A13
↔ P116/A14
↔ P117/A15
↔ P00/A16
↔ P01/A17
↔ P02/A18
↔ P03/A19
↔ P04/A20
↔ P05/A21
↔ P06/A22
↔ P07/A23
VSS
← MD1
↔ P10/D0/LA0
↔ P11/D1/LA1
↔ P12/D2/LA2
M37903S4CHP PIN CONFIGURATION (TOP VIEW)
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
↔ P13/D3/LA3
↔ P14/D4/LA4
↔ P15/D5/LA5
↔ P16/D6/LA6
↔ P17/D7/LA7
↔ P20/D8
↔ P21/D9
↔ P22/D10
↔ P23/D11
↔ P24/D12
↔ P25/D13
↔ P26/D14
↔ P27/D15
VCC
→ XOUT
← XIN
VSS
← MD0
← RESET
← CDSEL
← BYTE
↔ P30/RDY
↔ P31/RD
↔ P32/BLW
↔ P33/BHW
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
M37903S4CHP
P70/AN0 ↔
P67/TB2IN ↔
P66/TB1IN ↔
P65/TB0IN ↔
P64/INT2 ↔
P63/INT1 ↔
P62/INT0 ↔
P61/TA4IN ↔
P60/TA4OUT ↔
P57/TA3IN/RTP13/KI3 ↔
P56/TA3OUT/RTP12/KI2 ↔
P55/TA2IN/RTP11/KI1 ↔
P54/TA2OUT/RTP10/KI0 ↔
P53/TA1IN/RTP03 ↔
P52/TA1OUT/RTP02 ↔
P51/TA0IN/RTP01 ↔
P50/TA0OUT/RTP00 ↔
P47/CS3 ↔
P46/CS2 ↔
P45/CS1 ↔
P44/CS0 ←
P43/HOLD ↔
P42/HLDA ↔
P41/φ1 ↔
P40/ALE ↔
P103/A3 ← 76
P102/A2 ← 77
P101/A1 ← 78
P100/A0 ← 79
P87/TXD1 ↔ 80
P86/RXD1 ↔ 81
P85/CTS1/CLK1 ↔ 82
P84/CTS1/RTS1/INT4 ↔ 83
P83/TXD0 ↔ 84
P82/RXD0 ↔ 85
P81/CTS0/CLK0 ↔ 86
VCC
87
AVCC
88
VREF → 89
90
AVSS
VSS
91
NMI → 92
P80/CTS0/RTS0/INT3 ↔ 93
P77/AN7/ADTRG/DA1/(INT2) ↔ 94
P76/AN6/DA0 ↔ 95
P75/AN5/(INT4) ↔ 96
P74/AN4/(INT3) ↔ 97
P73/AN3 ↔ 98
P72/AN2 ↔ 99
P71/AN1 ↔ 100
Outline 100P6Q-A
2
CDSEL
XOUT
Clock Generating Circuit
XIN
Clock output
(5V)
MD0
(0V)
MD1
Program Bank Register PG (8)
Data bank Register DT (8)
Input Buffer Register IB (16)
Processor Status Register PS (11)
Direct Page Register DPR0 (16)
Direct Page Register DPR1 (16)
Direct Page Register DPR2 (16)
Index Register Y (16)
Index Register X (16)
Accumulator A (16)
Arithmetic Logic
Unit (16)
Timer TB0 (16)
P7(8)
Input/Output
port P7
Timer TA0 (16)
Accumulator B (16)
P8(8)
Input/Output
port P8
UART1 (9)
Instruction Queue Buffer Q8 (8)
Data bus/
Input/Output port P2
(Note 1)
Instruction Queue Buffer Q6 (8)
Data bus
Address bus/
Input/Output ports P0, P11 (Note 2)
Middle-order address (8)
/P11(8)
Instruction Queue Buffer Q5 (8)
High-order address (8)
Instruction Queue Buffer Q3 (8)
/P0(8)
Instruction Queue Buffer Q4 (8)
Input/Output
port P3
Instruction Queue Buffer Q7 (8)
Low-order data (8)
Instruction Queue Buffer Q2 (8)
Input/Output
port P4
Instruction Queue Buffer Q9 (8)
High-order Data (8)
/P2(8)
Instruction Queue Buffer Q1 (8)
Input/Output
port P5
P3(2)
BLW
Write output
Instruction Queue Buffer Q0 (8)
P4(7)
RD
Read output
Data Buffer DQ3 (8)
Input/Output
port P6
D-A1 converter (8)
D-A0 converter (8)
BYTE
CS0
CS0 output
Address bus
Low-order address (8)
Address Bus
P5(8)
A-D converter (10)
NMI
Instruction register (8)
VREF
External data bus width
select input
Data Buffer DQ2 (8)
P6(8)
UART0 (9)
AVcc
Reference
voltage input
Data Buffer DQ1 (8)
Notes 1: When the external data bus width = 16 bits, this serves as the data bus; when the external data bus width = 8 bits, this serves as the I/O port.
2: According to the register setting, this can serve as the I/O port.
Timer TB1 (16)
Incrementer/Decrementer (24)
Timer TA1 (16)
Timer TB2 (16)
Stack Pointer S (16)
Timer TA2 (16)
Direct Page Register DPR3 (16)
Watchdog timer
Central Processing Unit (CPU)
Program Counter PC (16)
Timer TA3 (16)
Data Address Register DA (24)
Bus
Interface
Unit
(BIU)
(0V)
AVSS
Incrementer (24)
RAM
2048 bytes
Vcc
(0V)
Vss
Program Address Register PA (24)
Timer TA4 (16)
RESET
Reset input
PR
Clock input
BLOCK DIAGRAM
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MITSUBISHI MICROCOMPUTERS
M37903S4CHP
16-BIT CMOS MICROCOMPUTER
Data Bus (Odd)
Data Bus (Even)
Data Buffer DQ0 (8)
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16-BIT CMOS MICROCOMPUTER
FUNCTIONS (Microcomputer mode)
Parameter
Number of basic machine instructions
203
Instruction execution time
38 ns (the fastest instruction at f(fsys) = 26 MHz)
External clock input frequency f(XIN)
26 MHz (Max.) (Note)
System clock frequency f(fsys)
26 MHz (Max.)
Memory size
Functions
ROM
External
RAM
2048 bytes
Programmable input/output
P0, P2, P5–P8, P11
8-bit ✕ 7 (Max.)
ports
P3
2-bit ✕ 1 (Max.)
P4
7-bit ✕ 1 (Max.)
TA0–TA4
16-bit ✕ 5
TB0–TB2
16-bit ✕ 3
UART0 and UART1
(UART or Clock synchronous serial I/O) ✕ 2
Multi-functional timers
Serial I/O
A-D converter
10-bit successive approximation method ✕ 1 (8 channels)
D-A converter
8-bit ✕ 2
Watchdog timer
12-bit ✕ 1
Chip-select wait control
Chip select area ✕ 4 (CS0–CS3). A bus cycle type and bus width
can be set for each chip select area.
Real-time output
4 bits ✕ 2 channels; or 6 bits ✕ 1 channel + 2 bits ✕ 1 channel
Interrupts
Maskable interrups
5 external types, 13 internal types. Each interrupt can be set to a
priority level within the range of 0–7 by software.
Non-maskable interrups
1 external type, 2 internal types.
Clock generating circuit
Built-in (externally connected to a ceramic resonator or quartz
crystal resonator).
Power supply voltage
5 V±0.5 V
Power dissipation
Ports’ input/output
characteristics
Input/Output withstand voltage
Output current
Memory expansion
Operating ambient temperature range
Device structure
Package
150 mW (at f(fsys) = 26 MHz, Typ.)
5V
5 mA
Up to 16 Mbytes. Note that bank FF16 is a reserved area.
–20 to 85 °C
CMOS high-performance silicon gate process
100-pin plastic molded QFP
Note: When the XIN-input-clock division select bit = “0”, the maximum value = 52 MHz.
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16-BIT CMOS MICROCOMPUTER
PIN DESCRIPTION (MICROCOMPUTER MODE)
Pin
Name
Input/
Output
Functions
Vcc, Vss
Power supply input
MD0
MD0
Input
Connect this pin to VCC.
MD1
MD1
Input
Connect this pin to Vss.
RESET
Reset input
Input
The microcomputer is reset when VSS-level voltage is applied to this pin.
XIN
Clock input
Input
XOUT
Clock output
These are input and output pins of the internal clock generating circuit. Connect a
ceramic or quartz- crystal resonator between the X IN and XOUT pins. When an
external clock is used, the clock source should be connected to the XIN pin, and the
XOUT pin should be left open.
BYTE
External data bus width
select input
Input
This pin determines whether the external data bus has an 8-bit width or 16-bit width
for the memory expansion mode or microprocessor mode. The width is 16 bits when
VSS-level voltage is input, and 8 bits when VCC-level voltage is applied. When BYTE
= Vss level, by the register setting, the external data bus for each of areas CS1 to
CS3 can have a width of 8 bits.
CDSEL
Clock division select input
Input
This pin determines the XIN-input-clock division select bit’s (Note) state at reset and
the input level at pin XIN.
AVcc,
AVss
Analog power supply input
—
Power supply input pins for the A-D converter and the D-A converter. Connect AVcc
to Vcc, and AVss to Vss externally.
VREF
Reference voltage input
Input
This is the reference voltage input pin for the A-D converter and the D-A converter.
P00/A16–
P07/A23
Address (high-order) output
P10/D0–
P17/D7
Data (low-order) I/O
I/O
The low-order 8 bits of data (D0–D7) are input/output. When the external data bus
has an 8-bit width, address (LA0–LA7) output and data (D0–D7) input/output can
be performed with the time-sharing method, according to the register setting.
P20/D8–
P27/D15
I/O port P2,
Data (high-order) I/O
I/O
■ When 8-bit external data bus is used
Port P2 is an 8-bit I/O port. This port has an I/O direction register, and each pin
can be programmed for input or output. These pins enter the input mode at reset.
■ When 16-bit external data bus is used
The high-order 8 bits of data (D8–D15) are input or output.
P30–P33
I/O port P3
I/O
P30 functions as an input pin of RDY; and P31,P32, P33 function as the output
pins of RD, BLW, BHW, respectively. P30 also functions as an I/O port pin according to the register setting. When the external data bus has a width of 8 bits,
the BHW pin functions as an I/O port pin (P33).
P40–P47
I/O port P4
I/O
P40–P44 function as output or input pins of ALE, φ1, HLDA, HOLD, CS0, and
P45–P47 as I/O port pins, respectively. According to the register setting, P40–P43
also function as I/O port pins, and P45–P47 as output pins of CS1–CS3.
P50–P57
I/O port P5
I/O
Port P5 is an 8-bit I/O port. This port has an I/O direction register, and each pin can
be programmed for input or output. These pins enter the input mode at reset.
These pins also function as I/O pins for timers A0–A3, output pins for the real-time
output, and input pins for the key-input interrupt.
P60–P67
I/O port P6
I/O
Port P6 is an 8-bit I/O port. This port has an I/O direction register, and each pin can
be programmed for input or output. These pins enter the input mode at reset.
These pins also function as I/O pins for timer A4, input pins for external interrupt
inputs INT0–INT2, and input pins for timers B0–B2.
P70–P77
I/O port P7
I/O
Port P7 is an 8-bit I/O port. This port has an I/O direction register, and each pin
can be programmed for input or output. These pins enter the input mode at reset.
These pins also function as input pins for the A-D converter, output pins for the
D-A converter, and input pins for INT2, INT3, and INT4.
P80–P87
I/O port P8
I/O
Port P8 is an 8-bit I/O port. This port has an I/O direction register, and each pin
can be programmed for input or output. These pins enter the input mode at reset.
These pins also function as I/O pins for UART0, UART1, and input pins for INT3 and INT4.
P100/A0–P107/A7
Address (low-order) output
Output
Address (A0–A7) is output.
P110/A8–
P117/A15
Address (middle-order)
output
Output
Address (A8–A15) is output. Also, these pins function as I/O port pins according to
the register setting.
NMI
Non-maskable interrupt
Input
—
Output
Output
Apply 5 V±0.5 V to Vcc, and 0 V to Vss.
Address (A16–A23) is output. These pins also function as I/O port pins according
to the register setting.
This pin is for a non-maskable interrupt.
Note: The XIN-input-clock division select bit is used to determine whether the input clock to pin XIN is to be divided or not.
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16-BIT CMOS MICROCOMPUTER
BASIC FUNCTION BLOCKS
The M37903S4CHP has the same function as that of the
M37903F8CHP except for the following. Therefore, refer to the
datasheet of the M37903F8CHP.
• The memory allocation of the M37903S4CHP differs from that of
the M37903F8CHP.
• The M37903S4CHP operates only in the microprocessor mode.
MEMORY
Figure 1 shows the memory map. The address space is 16 Mbytes
from addresses 016 to FFFFFF16. The address space is divided into
00000016
00000016
0000FF16
Bank 016
00FFFF16
01000016
64-Kbyte units called banks. The banks are numbered from 016 to
FF16. Bank FF16 is a reserved area for the development support tool.
Therefore, do not use bank FF16.
Internal RAM is assigned as shown in Figure 1.
Addresses FFC016 to FFFF16 contain the RESET and the interrupt
vector addresses, and the interrupt vectors are stored there. For
these addresses, use the ROM.
For details, refer to the section on interrupts.
Assigned to addresses 016 to FF16 are peripheral devices such as
I/O ports, A-D converter, D-A converter, UART, timers, interrupt control registers, etc. Figures 2 and 3 show the location of SFRs.
Peripheral devices
control registers
Interrupt vector table
00FFC016
00080016
Bank 116
01FFFF16
Internal RAM
2048 bytes
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
000FFF16
INT4
INT3
A-D conversion
UART1 transmit
UART1 receive
UART0 transmit
UART0 receive
Timer B2
Timer B1
Timer B0
Timer A4
Timer A3
Timer A2
Timer A1
Timer A0
00FFC016
00FFFF16
INT2
INT1
INT0
NMI
Watchdog timer
FE000016
Bank FE16
FEFFFF16
FF000016
Bank FF16
FFFFFF16
Reserved area
Reserved area
Reserved area
Reserved area
Reserved area
Reserved area
Reserved area
Reserved area
Reserved area
for development
support tool
00FFFE16
DBC
BRK instruction
Zero divide
RESET
Fig. 1 Memory map of M37903S4CHP
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16-BIT CMOS MICROCOMPUTER
Address (Hexadecimal notation)
Address (Hexadecimal notation)
00000016
00000116
00000216
00000316
00000416
00000516
00000616
00000716
00000816
00000916
00000A16
00000B16
00000C16
00000D16
00000E16
00000F16
00001016
00001116
00001216
00001316
00001416
00001516
00001616
00001716
00001816
00001916
00001A16
00001B16
00001C16
00001D16
00001E16
00001F16
00002016
00002116
00002216
00002316
00002416
00002516
00002616
00002716
00002816
00002916
00002A16
00002B16
00002C16
00002D16
00002E16
00002F16
00003016
00003116
00003216
00003316
00003416
00003516
00003616
00003716
00003816
00003916
00003A16
00003B16
00003C16
00003D16
00003E16
00003F16
00004016
00004116
00004216
00004316
00004416
00004516
00004616
00004716
00004816
00004916
00004A16
00004B16
00004C16
00004D16
00004E16
00004F16
00005016
00005116
00005216
00005316
00005416
00005516
00005616
00005716
00005816
00005916
00005A16
00005B16
00005C16
00005D16
00005E16
00005F16
00006016
00006116
00006216
00006316
00006416
00006516
00006616
00006716
00006816
00006916
00006A16
00006B16
00006C16
00006D16
00006E16
00006F16
00007016
00007116
00007216
00007316
00007416
00007516
00007616
00007716
00007816
00007916
00007A16
00007B16
00007C16
00007D16
00007E16
00007F16
Port P0 register
Port P1 register
Port P0 direction register
Port P1 direction register
Port P2 register
Port P3 register
Port P2 direction register
Port P3 direction register
Port P4 register
Port P5 register
Port P4 direction register
Port P5 direction register
Port P6 register
Port P7 register
Port P6 direction register
Port P7 direction register
Port P8 register
Port P8 direction register
Port P10 register
Port P11 register
Port P10 direction register
Port P11 direction register
A-D control register 0
A-D control register 1
A-D register 0
A-D register 1
A-D register 2
A-D register 3
A-D register 4
A-D register 5
A-D register 6
A-D register 7
UART0 transmit/receive mode register
UART0 baud rate register (BRG0)
UART0 transmit buffer register
UART0 transmit/receive control register 0
UART0 transmit/receive control register 1
UART0 receive buffer register
UART1 transmit/receive mode register
UART1 baud rate register (BRG1)
UART1 transmit buffer register
UART1 transmit/receive control register 0
UART1 transmit/receive control register 1
UART1 receive buffer register
Count start register
One-shot start register
Up-down register
Timer A clock division select register
Timer A0 register
Timer A1 register
Timer A2 register
Timer A3 register
Timer A4 register
Timer B0 register
Timer B1 register
Timer B2 register
Timer A0 mode register
Timer A1 mode register
Timer A2 mode register
Timer A3 mode register
Timer A4 mode register
Timer B0 mode register
Timer B1 mode register
Timer B2 mode register
Processor mode register 0
Processor mode register 1
Watchdog timer register
Watchdog timer frequency select register
Particular function select register 0
Particular function select register 1
Particular function select register 2
Reserved area (Note)
Reserved area (Note)
Reserved area (Note)
INT3 interrupt control register
INT4 interrupt control register
A-D conversion interrupt control register
UART0 transmit interrupt control register
UART0 receive interrupt control register
UART1 transmit interrupt control register
UART1 receive interrupt control register
Timer A0 interrupt control register
Timer A1 interrupt control register
Timer A2 interrupt control register
Timer A3 interrupt control register
Timer A4 interrupt control register
Timer B0 interrupt control register
Timer B1 interrupt control register
Timer B2 interrupt control register
INT0 interrupt control register
INT1 interrupt control register
INT2 interrupt control register
Note: Do not write to this address.
Fig. 2 Location of SFRs (1)
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Address (Hexadecimal notation)
00008016
00008116
00008216
00008316
00008416
00008516
00008616
00008716
00008816
00008916
00008A16
00008B16
00008C16
00008D16
00008E16
00008F16
00009016
00009116
00009216
00009316
00009416
00009516
00009616
00009716
00009816
00009916
00009A16
00009B16
00009C16
00009D16
00009E16
00009F16
0000A016
0000A116
0000A216
0000A316
0000A416
0000A516
0000A616
0000A716
0000A816
0000A916
0000AA16
0000AB16
0000AC16
0000AD16
0000AE16
0000AF16
0000B016
0000B116
0000B216
0000B316
0000B416
0000B516
0000B616
0000B716
0000B816
0000B916
0000BA16
0000BB16
0000BC16
0000BD16
0000BE16
0000BF16
CS0 control register L
CS0 control register H
CS1 control register L
CS1 control register H
CS2 control register L
CS2 control register H
CS3 control register L
CS3 control register H
Area CS0 start address register
Area CS1 start address register
Area CS2 start address register
Area CS3 start address register
Port function control register
External interrupt input control register
External interrupt input read-out register
D-A control register
D-A register 0
D-A register 1
Reserved area (Note)
Reserved area (Note)
Reserved area (Note)
Reserved area (Note)
Real-time output control register
Pulse output data register 0
Pulse output data register 1
Reserved area (Note)
Serial I/O pin control register
Reserved area (Note)
Reserved area (Note)
Clock control register
Reserved area (Note)
Reserved area (Note)
Reserved area (Note)
16-BIT CMOS MICROCOMPUTER
Address (Hexadecimal notation)
0000C016
0000C116
0000C216
0000C316
0000C416
0000C516
0000C616
0000C716
0000C816
0000C916
0000CA16
0000CB16
0000CC16
0000CD16
0000CE16
0000CF16
0000D016
0000D116
0000D216
0000D316
0000D416
0000D516
0000D616
0000D716
0000D816
0000D916
0000DA16
0000DB16
0000DC16
0000DD16
0000DE16
0000DF16
0000E016
0000E116
0000E216
0000E316
0000E416
0000E516
0000E616
0000E716
0000E816
0000E916
0000EA16
0000EB16
0000EC16
0000ED16
0000EE16
0000EF16
0000F016
0000F116
0000F216
0000F316
0000F416
0000F516
0000F616
0000F716
0000F816
0000F916
0000FA16
0000FB16
0000FC16
0000FD16
0000FE16
0000FF16
Note: Do not write to this address.
Fig. 3 Location of SFRs (2)
7
MI
ELI
Y
NAR
.
.
nge
tion
ifica t to cha
pec
al s subjec
in
f
are
ot a
is n limits
his
e: T ametric
ic
t
No e par
Som
PR
ELECTRICAL CHARACTERISTICS
As for the following, the M37903S4CHP is the same as the
M37903F8CHP. Therefore, for the following, refer to the datasheet of
the M37903F8CHP.
• ABSOLUTE MAXIMUM RATINGS
• RECOMMENDED OPERATING CONDITIONS
• DC ELECTRICAL CHARACTERISTICS
• A-D CONVERTER CHARACTERISTICS
• D-A CONVERTER CHARACTERISTICS
• TIMING REQUIREMENTS
• SWITCHING CHARACTERISTICS
8
MITSUBISHI MICROCOMPUTERS
M37903S4CHP
16-BIT CMOS MICROCOMPUTER
MI
ELI
MITSUBISHI MICROCOMPUTERS
Y
NAR
M37903S4CHP
.
ion. hange
icat
ecif ct to c
p
s
al
bje
a fin are su
not
s
is is ric limit
h
T
t
me
ice:
Not e para
Som
PR
16-BIT CMOS MICROCOMPUTER
PACKAGE OUTLINE
100P6Q-A
Plastic 100pin 14✕14mm body LQFP
EIAJ Package Code
LQFP100-P-1414-0.50
Weight(g)
Lead Material
Cu Alloy
MD
e
JEDEC Code
–
b2
ME
HD
D
100
76
I2
75
1
Symbol
HE
E
Recommended Mount Pad
51
25
26
50
A
L1
F
b
y
A1
c
A2
e
L
Detail F
A
A1
A2
b
c
D
E
e
HD
HE
L
L1
y
b2
I2
MD
ME
Dimension in Millimeters
Min
Nom
Max
–
1.7
–
0.1
0.2
0
1.4
–
–
0.13
0.18
0.28
0.105
0.125
0.175
13.9
14.0
14.1
13.9
14.0
14.1
0.5
–
–
15.8
16.0
16.2
15.8
16.0
16.2
0.3
0.5
0.7
1.0
–
–
–
0.1
–
0°
10°
–
0.225
–
–
1.0
–
–
–
14.4
–
–
14.4
–
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 personal injury, fire or property damage. Remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placement of
substitutive, auxiliary circuits, (ii) use of non-flammable material or (iii) prevention against any malfunction or mishap.
•
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Notes regarding these materials
•
•
•
•
•
•
•
© 2000 MITSUBISHI ELECTRIC CORP.
New publication, effective Oct., 2000.
Specifications subject to change without notice.
Revision History
Rev.
No.
1.0
M37903S4CHP Datasheet
Revision Description
First Edition
Rev.
date
001004
(1/1)