Panasonic MN103SFJ7A 32-bit single-chip microcontroller Datasheet

MN103SJ7/N0/N1/N2/N4/N5/N6 Series
32-bit Single-chip Microcontroller
 Overview
The MN103S is a 32-bit microcontroller combining ease of use intended for programs development in the C language with a simple,
high-performance architecture made possible through pursuit of cost performance.
Built around a compact 32-bit CPU with a basic instruction word length of 1 byte, this LSI includes internal memory for instructions
and data, DMA controller, a clock generator, bus controller, interrupt controller, watchdog timer, standard peripheral circuitry such as timers
and serial interfaces, PWM circuit best suited to controlling 3-phase motors and A/D converters for motor position control. The MN103S
Series' high-speed CPU coupled with abundance of peripheral features provides an easy means of developing low-cost, high-performance
and multifunctional system on LSI for motor and power control applications requiring fast response - a feature previously unavailable with
conventional microcontrollers.
 Product Summary
This datasheet describes the following model.
Model
MN103SFJ7A
MN103SFN0D
MN103SFN0X
MN103SFN0G
MN103SFN0Y
MN103SFN1D
MN103SFN1X
MN103SFN1G
MN103SFN1Y
MN103SFN2D
MN103SFN2X
MN103SFN2G
MN103SFN2Y
MN103SFN4D
MN103SFN4X
MN103SFN4G
MN103SFN4Y
MN103SFN5D
MN103SFN5X
MN103SFN5G
MN103SFN5Y
MN103SFN6D
MN103SFN6X
MN103SFN6G
MN103SFN6Y
ROM
Size
RAM
Size
Pins
Timer
(8bit/
16bit)
PWM
Serial
I/F
A/D
VGA
Package
32 KB
2 KB
TQFP48
8/1
1
2
2
—
TQFP48-P-0707B
QFP44
TQFP48
8/2
1
2
2
—
QFP044-P-1010F
TQFP48-P-0707B
TQFP64
12/3
2
3
2
—
TQFP064-P-1010C
TQFP80
12/5
2
3
2
—
TQFP080-P-1212D
QFP44
TQFP48
8/2
1
2
2
1
QFP044-P-1010F
TQFP48-P-0707B
TQFP64
12/3
2
3
2
2
TQFP064-P-1010C
TQFP80
12/5
2
3
2
2
TQFP080-P-1212D
64 KB
128 KB
64 KB
128 KB
64 KB
128 KB
64 KB
128 KB
64 KB
128 KB
64 KB
128 KB
Publication date: September 2013
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Ver. DEM
1
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Features
 CPU core
MN103S core
4 GB of address space (for instructions / data)
LOAD/STORE architecture with 5-stage pipeline
46 basic instructions + 8 extension instructions
6 addressing modes
Instruction set of 1 byte in word length
Extension arithmetic unit incorporated (high-speed multiply instruction, high-speed division instruction etc.)
Machine cycle: 16.7 ns (oscillation frequency: 10 MHz, 6 multiplying)
Operation mode: NORMAL mode, SELLP mode, HALT mode, STOP mode
 Oscillation Circuit
External oscillation (crystal/ ceramic)
Clock multiply circuit Oscillation clock can be multiplied by from 3 to 12
 Internal memory
ROM: 32 K/64 K/128 K bytes
RAM: 2 K/4 K/6 K/8 K bytes
The ROM/RAM size is different in each product.
Please refer to [ Product Summary] for details.
 DMA Controller
Number of channels: 1 channel
Startup sources:
15 sources (MN103SFN0/N4 series)
20 sources (MN103SFN1/N5 series)
22 sources (MN103SFN2/N6 series)
(External interrupts: Max 12 sources, Serial Interface: Max 9 sources, Software start: 1 source)
Transfer modes:
3 modes (One word transfer, Burst transfer, Intermittent transfer)
*: There is not the function in the MN103SFJ7A.
 Interrupts
Non-maskable interrupts
Watchdog timer overflow interrupts
System error interrupts
Fail safe function interrupts
Internal interrupts (Level interrupt)
MN103SFJ7A
: 23 interrupts
MN103SFN0/N4 series: 29 interrupts
MN103SFN1/N5 series: 42 interrupts
MN103SFN2/N6 series: 48 interrupts
<Timer Interrupts>
Timer 0 underflow interrupt
Timer 1 underflow interrupt
Timer 2 underflow interrupt
Timer 3 underflow interrupt
Timer 4 underflow interrupt
Timer 5 underflow interrupt
Timer 6 underflow interrupt
Timer 7 underflow interrupt
Timer 8 underflow interrupt
Timer 9 underflow interrupt
Timer 10 underflow interrupt
Timer 11 underflow interrupt
Timer 16 overflow/underflow interrupt
Timer 16 compare/capture A interrupt
Ver. DEM
2
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Features (continued)
<Timer Interrupts> (continued)
Timer 16 compare/capture B interrupt
Timer 17 overflow/underflow interrupt
Timer 17 compare/capture A interrupt
Timer 17 compare/capture B interrupt
Timer 18 overflow/underflow interrupt
Timer 18 compare/capture A interrupt
Timer 18 compare/capture B interrupt
Timer 19 overflow/underflow interrupt
Timer 19 compare/capture A interrupt
Timer 19 compare/capture B interrupt
Timer 20 overflow/underflow interrupt
Timer 20 compare/capture A interrupt
Timer 20 compare/capture B interrupt
<Serial Interface>
Serial 0 reception end interrupts
Serial 0 communication/transmission end interrupts
Serial 1 reception end interrupts
Serial 1 communication/transmission end interrupts
Serial 2 reception end interrupts
Serial 2 communication/transmission end interrupts
<PWM>
PWM0 overflow interrupts
PWM0 underflow interrupts
PWM0 synchronous A/D start A
PWM0 synchronous A/D start B
PWM1 overflow interrupts
PWM1 underflow interrupts
PWM1 synchronous A/D start A
PWM1 synchronous A/D start B
<A/D>
A /D 0 conversion end interrupt
A /D 0 conversion end B interrupt
A /D 1 conversion end interrupt
A /D 1 conversion end B interrupt
<DMA>
DMA transfer end interrupt
DMA request after DMA transfer end interrupt
DMA transfer request overflow interrupt
External interrupts:
MN103SFJ7A
MN103SFN0/N4 series
MN103SFN1/N5 series
MN103SFN2/N6 series
:
:
:
:
4 interrupts
8 interrupts
10 interrupts
12 interrupts
External interrupt pins
: From IRQ00 to IRQ11
Interrupt detection condition : Each edge, both edges, high-level and low-level detection
Each interrupt detection condition is able to filtering with the noise filter
Ver. DEM
3
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Features (continued)
 Timer counter
8-bit timer
16-bit timer
8
12
1
2
3
5
sets (MN103SFJ7A, MN103SFN0/N4 series)
sets (MN103SFN1/N5, MN103SFN2/N6 series)
sets (MN103SFJ7A)
sets (MN103SFN0/N4 series)
sets (MN103SFN1/N5 series)
sets (MN103SFN2/N6 series)
Timer 0 (8-bit timer)
Interval timer, Timer pulse output, Event count, Baud rate timer
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM0IO pin input,
Timer 1 underflow, Timer 2 underflow
Timer 1 (8-bit timer)
Interval timer, Timer pulse output, Event count, Baud rate timer, Cascade connection (connected to Timer 0)
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM1IO pin input,
Timer 0 underflow, Timer 2 underflow
Timer 2 (8-bit timer)
Interval timer, Timer pulse output *1 , Event count *1, Baud rate timer, Cascade connection (connected to Timer 1)
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM2IO pin input *1,
Timer 0 underflow, Timer 1 underflow
Timer 3 (8-bit timer)
Interval timer, Timer pulse output *1, Event count *1, Baud rate timer, Cascade connection (connected to Timer 2)
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM3IO pin input *1,
Timer 0 underflow, Timer 1 underflow, Timer 2 underflow
Timer 4 (8-bit timer)
Interval timer, Timer pulse output, Event count
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM4IO pin input,
Timer 5 underflow, Timer 6 underflow
Timer 5 (8-bit timer)
Interval timer, Timer pulse output, Event count, Cascade connection (connected to Timer 4)
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM5IO pin input,
Timer 4 underflow, Timer 6 underflow
Timer 6 (8-bit timer)
Interval timer, Timer pulse output, Event count, Cascade connection (connected to Timer 5)
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM6IO pin input,
Timer 4 underflow, Timer 5 underflow
Timer 7 (8-bit timer)
Interval timer, Timer pulse output, Event count, Cascade connection (connected to Timer 6)
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM7IO pin input,
Timer 4 underflow, Timer 5 underflow, Timer 6 underflow
Timer 8 (8-bit Timer ) *2
Interval timer, Timer pulse output *3 , Event count *3
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM8IO pin input *3 ,
Timer 9 underflow, Timer 10 underflow
Ver. DEM
4
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Features (continued)
 Timer counter (continued)
Timer 9 (8-bit timer) *2
Interval timer, Timer pulse output *3, Event count *3, Cascade connection (Connected to Timer 8)
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM9IO pin input *3,
Timer 8 underflow, Timer 10 underflow
Timer 10 (8-bit timer) *2
Interval timer, Timer pulse output, Event count, Cascade connection (Connected to Timer 9)
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM10IO pin input,
Timer 8 underflow, Timer 9 underflow
Timer 11 (8-bit timer) *2
Interval timer, Timer pulse output, Event count, Cascade connection (Connected to Timer 10)
Count clock source : IOCLK, IOCLK/8, IOCLK/32, IOCLK/128, TM11IO pin input,
Timer 8 underflow, Timer 9 underflow, Timer 10 underflow
Timer 16 (16-bit timer)
Interval timer, Event count, Up/down count, Timer output, PWM output, Input capture, one-shot output, External trigger start
Start by PWMn overflow interrupt, PMWn underflow interrupt, A/D conversion start trigger generation
Count clock source : IOCLK, IOCLK/8, Timer 6 underflow, Timer 7 underflow, TM16BIO pin input
Timer 17 (16-bit timer) *2 , *4
Interval timer, Event count, Up/down count, Timer output, PWM output, Input capture, one-shot output, External trigger start
Count clock source : IOCLK, IOCLK/8, IOCLK/64, Timer 11 underflow, TM17BIO pin input
Timer 18 (16-bit timer) *5
Interval timer, Event count, Up/down count, Timer output, PWM output (output to 6 ports all at once is possible),
Input capture, one-shot output, External trigger start
Count clock source : IOCLK, IOCLK/8, IOCLK/64, Timer 7 underflow, TM18BIO pin input
Timer 19 (16-bit timer) *2
Interval timer, Event count, Up/down count, Timer output, PWM output, Input capture, one-shot output, External trigger start
Start by PWMn overflow interrupt, PWMn underflow interrupt, A/D conversion start trigger generation
Count clock source : IOCLK, IOCLK/8, Timer 10 underflow, Timer 11 underflow, TM19BIO pin input
Timer 20 (16-bit timer) *2 , *4
Interval timer, Event count, Up/down count, Timer output, PWM output, Input capture, one-shot output, External trigger start,
Count clock source : IOCLK, IOCLK/8, Timer 6 underflow, Timer 7 underflow, TM20BIO pin input
Note) *1: The function using the TMnIO pin (n = 2, 3) cannot be used by the MN103SFN0/N4 series.
*2: There is not the function in the MN103SFN0/N4 series.
*3: The function using the TMnIO pin (n = 8, 9) cannot be used by the MN103SFN1/N5 series.
*4: There is not the function in the MN103SFN1/N5 series.
*5: There is not the function in the MN103SJ7A.
Ver. DEM
5
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Features (continued)
 Watchdog Timer
Detection time 6.55 ms to 1677.72 ms (oscillation frequency 10 MHz)
Generates non-maskable interrupt at detection
Generates hard-reset at second consective overflow
 A /D Converter
A/D0
Resolution 10 bits
Minimum conversion time 0.5 ms
Analog input 5 channels (AD0IN00 to AD0IN04)
A/D conversion start trigger is in synchronization with complementary 3-phase PWM cycle and 16-bit timer
A/D1
Resolution 10 bits
Minimum conversion time 0.5 ms
Analog input
MN103SFJ7A
: 3 channels (AD1IN00 to AD1IN02)
MN103SFN0/N4 series: 3 channels (AD1IN00 to AD1IN02)
MN103SFN1/N5 series: 7 channels (AD1IN00 to AD1IN06)
MN103SFN2/N6 series: 11 channels (AD1IN00 to AD1IN10)
A/D conversion start trigger is in synchronization with complementary 3-phase PWM cycle and 16-bit timer
 Complementary 3-phase PWM output
Min. resolution: 16.7 ns
Triangular and saw-tooth waves output
Incorporates a dead time insertion circuit
Can overwrite registers by double buffer during PWM operation
PWM output protection circuit supporting external interrupts and non-maskable interrupt
Output timing varying function
A/D conversion start trigger, 16-bit timer start trigger
 VGA
VGA
MN103SFN4 series
1 sets
MN103SFN5/N6 series 2 sets
The gain of eight stages can be set (2.05, 3.03, 4.00, 4.98, 5.96, 7.90, 9.83, and 19.40times)
Offset voltage cancel cansel function(short-circuit or switching)
Ver. DEM
6
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Features (continued)
 Serial Interface 3 channels
Serial 0 (Full duplex UART / Synchronous serial interface)
Synchronous serial interface
Overrun error detection
Transfer clock source:
1/2, 1/4, 1/16 and 1/64 of timer 0 underflow,
1/2, 1/4, 1/16 and 1/64 of timer 1 underflow,
1/2, 1/4, 1/16 and 1/64 of timer 2 underflow,
1/2, 1/4, 1/16 and 1/64 of timer 3 underflow,
IOCLK/2, IOCLK/4, SBT0 pin
Can be selected as the first bit to be transferred, Any transfer size from 2 to 8 bits can be selected.
Can be continuously transmitted, received or transmitted and received.
Maximum transfer rate: 5.0 Mbps
Full duplex UART
Parity check, Overrun and flaming error detection
Transfer clock source:
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 0 underflow,
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 1 underflow,
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 2 underflow,
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 3 underflow,
IOCLK/16, IOCLK/32, IOCLK/64
Can be selected as the first bit to be transferred, Any transfer size from 7 to 8 bits can be selected.
Continuous transmission, reception, and transmission/reception
Maximum transfer rate: 300 kbps
Serial 1 (Full duplex UART / Synchronous serial interface)
Synchronous serial interface
Overrun error detection
Transfer clock source:
1/2, 1/4, 1/16 and 1/64 of timer 0 underflow,
1/2, 1/4, 1/16 and 1/64 of timer 1 underflow,
1/2, 1/4, 1/16 and 1/64 of timer 2 underflow,
1/2, 1/4, 1/16 and 1/64 of timer 3 underflow,
IOCLK/2, IOCLK/4, SBT1 pin
Can be selected as the first bit to be transferred, Any transfer size from 2 to 8 bits can be selected.
Continuous transmission, reception, and transmission/reception
Maximum transfer rate: 5.0 Mbps
Full duplex UART
Parity check, Overrun and flaming error detection
Transfer clock source:
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 0 underflow,
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 1 underflow,
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 2 underflow,
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 3 underflow,
IOCLK/16, IOCLK/32, IOCLK/64
Can be selected as the first bit to be transferred, Any transfer size from 7 to 8 bits can be selected.
Continuous transmission, reception, and transmission/reception
Maximum transfer rate: 300 kbps
Ver. DEM
7
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Features (continued)
Serial 2 (Full duplex UART / Synchronous serial interface)
Synchronous serial interface
Overrun error detection
Transfer clock source
1/2, 1/4, 1/16 and 1/64 of timer 0 underflow,
1/2, 1/4, 1/16 and 1/64 of timer 1 underflow,
1/2, 1/4, 1/16 and 1/64 of timer 2 underflow,
1/2, 1/4, 1/16 and 1/64 of timer 3 underflow,
IOCLK/2, IOCLK/4, SBT2 pin
Can be selected as the first bit to be transferred, Any transfer size from 2 to 8 bits can be selected.
Continuous transmission, reception and transmission / reception
Maximum transfer rate: 5.0 Mbps
Corresponding to the 4 channel system communication and the SPI communication
Full duplex UART
Parity check, Overrun and flaming error detection
Transfer clock source
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 0 underflow,
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 1 underflow,
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 2 underflow,
1/16, 1/32, 1/64, 1/128, 1/256, 1/512 and 1/1024 of timer 3 underflow,
IOCLK/16, IOCLK/32, IOCLK/64
Can be selected as the first bit to be transferred, Any transfer size from 7 to 8 bits can be selected.
Continuous transmission, reception and transmission / reception
Maximum transfer rate: 300 kbps
 Regulator
Incorporates regulator, and use of 5 V power supply is possible
 Power Supply Detection
Detection level
3.6 V to 4.3 V
When power supply voltage is under detection level, reset is generated.
Ver. DEM
8
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Features (continued)
 Port / pins
(MN103SFJ7A)
I/O ports
Motor control output
External interrupt
A/D input
Input ports
VGA, A/D input
Special pins
Reset input pin
Oscillation pin
Mode pin
Debug pin
Power pin
(MN103SFN0/N4 series)
I/O ports
Motor control output
External interrupt
A/D input
Input ports
VGA, A/D input
Special pins
Reset input pin
Oscillation pin
Mode pin
Debug pin
Power pin
(MN103SFN1/N5 series)
I/O ports
Motor control output
External interrupt
A/D input
Input ports
VGA, A/D input
Special pins
Reset input pin
Oscillation pin
Mode pin
Debug pin
Power pin
(MN103SFN2/N6 series)
I/O ports
Motor control output
External interrupt
A/D input
Input ports
VGA, A/D input
Special pins
Reset input pin
Oscillation pin
Mode pin
Debug pin
Power pin
28 pins
6 pins
4 pins
6 pins
2 pins
14 pins
1 pin
2 pins
2 pins
2 pins
7 pins
28 pins
6 pins
8 pins
6 pins
2 pins
14 pins
1 pin
2 pins
2 pins
2 pins
7 pins
46 pins
12 pins
10 pins
8 pins
4 pins
14 pins
1 pin
2 pins
2 pins
2 pins
7 pins
60 pins
12 pins
12 pins
12 pins
4 pins
16 pins
1 pin
2 pins
2 pins
2 pins
9 pins
Ver. DEM
9
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Features (continued)
 Package
(MN103SFJ7A)
TQFP048-P-0707B (7 mm square, 0.5 mm pitch)
(MN103SFN0/N4 series)
QFP044-P-1010F
(10 mm square, 0.8 mm pitch)
TQFP048-P-0707B (7 mm square, 0.5 mm pitch)
(MN103SFN1/N5 series)
TQFP064-P-1010C (10 mm square, 0.5 mm pitch)
(MN103SFN2/N6 series)
TQFP080-P-1212D (12 mm square, 0.5 mm pitch)
Ver. DEM
10
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Pin Description
 MN103SFJ7A (TQFP048-P-0707B)
Ver. DEM
11
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Pin Description (continued)
P51/TM16BIO/TM18O3/IRQ11
P80/PWM00
P81/NPWM00
P82/PWM01
P83/NPWM01
P84/PWM02
P85/NPWM02
P60/TM18AIO/TM18O4
VSS
P61/TM18BIO/TM18O5
44
43
42
41
40
39
38
37
36
35
34
VDD50
 MN103SFN0/N4 Series (QFP044-P-1010F)
1
2
3
4
5
6
7
8
9
10
11
33
32
31
30
29
28
27
26
25
24
23
MN103SFN0/N4
Series
QFP 44pin 0.8mm pitch
P50/TM16AIO/TM18O2/IRQ10
P41/TM7IO/TM18O1/IRQ09
P40/TM6IO/TM18O0/IRQ08
P25/SBI1
P24/SBT1
P23/SBO1
P22/SBI0
P21/SBT0
P20/SBO0
P03/IRQ03/TM5IO/EXTRG0
P02/IRQ02/TM4IO/EXTRG1
NRST
NBOOT
VDD50
OSCI
OSCO
VSS
TM1IO/IRQ01/P01
VOUT18
SCLK
SDATA
TM0IO/IRQ00/P00
12
13
14
15
16
17
18
19
20
21
22
* VGA0(+)/AD0IN00
* VGA0(-)/AD0IN01
AD0IN02/PC2
AVSS
AD0IN03/PC3
TEST
AVDD50
AD0IN04/PC4
AD1IN00/PC5
AD1IN01/PC6
AD1IN02/PC7
* VGA is not in the MN103SFN0 series.
1,2 pin of MN103SFN0 series are the dedicated input pin for A/D converter.
Ver. DEM
12
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Pin Description (continued)
P51/TM16BIO/TM18O3/IRQ11
N.C.
P80/PWM00
P81/NPWM00
P82/PWM01
P83/NPWM01
P84/PWM02
P85/NPWM02
P60/TM18AIO/TM18O4
VSS
P61/TM18BIO/TM18O5
48
47
46
45
44
43
42
41
40
39
38
37
VDD50
 MN103SFN0/N4 Series (TQFP048-P-0707B)
1
2
3
4
5
6
7
8
9
10
11
12
36
35
34
33
32
31
30
29
28
27
26
25
MN103SFN0/N4
Series
TQFP 48pin 0.5mm pitch
P50/TM16AIO/TM18O2/IRQ10
P41/TM7IO/TM18O1/IRQ09
P40/TM6IO/TM18O0/IRQ08
N.C.
P25/SBI1
P24/SBT1
P23/SBO1
P22/SBI0
P21/SBT0
P20/SBO0
P03/IRQ03/TM5IO/EXTRG0
P02/IRQ02/TM4IO/EXTRG1
NRST
N.C.
NBOOT
VDD50
OSCI
OSCO
VSS
VOUT18
TM1IO/IRQ01/P01
SCLK
SDATA
TM0IO/IRQ00/P00
13
14
15
16
17
18
19
20
21
22
23
24
VGA0(+)/AD0IN00
VGA0(-)/AD0IN01
AD0IN02/PC2
AVSS
AD0IN03/PC3
TEST
AVDD50
AD0IN04/PC4
AD1IN00/PC5
AD1IN01/PC6
AD1IN02/PC7
N.C.
* VGA is not in the MN103SFN0 series.
1,2 pin of MN103SFN0 series are the dedicated input pin for A/D converter.
Ver. DEM
13
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Pin Description (continued)
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
VDD50
P61/TM18BIO/TM18O5
VSS
P60/TM18AIO/TM18O4
P95/NPWM12
P94/PWM12
P93/NPWM11
P92/PWM11
P91/NPWM10
P90/PWM10
P85/NPWM02
P84/PWM02
P83/NPWM01
P82/PWM01
P81/NPWM00
P80/PWM00
 MN103SFN1/N5 Series (TQFP064-P-1010C)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
MN103SFN1/N5
Series
TQFP 64pin 0.5mm pitch
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
P51/TM16BIO/TM18O3
P50/TM16AIO/TM18O2
P47/TM11IO/IRQ05
P46/TM10IO/IRQ04
P43/TM3IO/IRQ11
P42/TM2IO/IRQ10
P41/TM7IO/TM18O1/IRQ09
P40/TM6IO/TM18O0/IRQ08
P33/SBCS2
P32/SBI2
P31/SBT2
P30/SBO2
P25/SBI1
P24/SBT1
P23/SBO1
P22/SBI0
TM0IO/IRQ00/P00
TM1IO/IRQ01/P01
EXTRG1/TM4IO/IRQ02/P02
EXTRG0/TM5IO/IRQ03/P03
SCLK
SDATA
VOUT18
TEST
VSS
OSCO
OSCI
VDD50
NBOOT
NRST
SBO0/P20
SBT0/P21
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
TM19AIO/P64
TM19BIO/P65
* VGA0(+)/AD0IN00
* VGA0(-)/AD0IN01
AD0IN02/PC2
AVSS
AD0IN03/PC3
AVDD50
AD0IN04/PC4
AD1IN00/PC5
AD1IN01/PC6
AD1IN02/PC7
* VGA1(+)/AD1IN03
* VGA1(-)/AD1IN04
AD1IN05/PD2
AD1IN06/PD3
* VGA is not in the MN103SFN1 series.
3,4,13,14 pin of MN103SFN1 series are the dedicated input pin for A/D converter.
Ver. DEM
14
MN103SJ7/N0/N1/N2/N4/N5/N6 Series
 Pin Description (continued)
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
VOUT18
P61/TM18BIO/TM18O5
VSS
P60/TM18AIO/TM18O4
PB1/TM20BIO
PB0/TM20AIO
P95/NPWM12
P94/PWM12
P93/NPWM11
P92/PWM11
P91/NPWM10
P90/PWM10
P85/NPWM02
P84/PWM02
P83/NPWM01
P82/PWM01
P81/NPWM00
P80/PWM00
P55/TM17BIO
P54/TM17AIO
 MN103SFN2/N6 Series (TQFP080-P-1212D)
MN103SFN2/N6
Series
TQFP 80pin 0.5mm pitch
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
P51/TM16BIO/TM18O3
P50/TM16AIO/TM18O2
VDD50
P47/TM11IO
VSS
P46/TM10IO
P45/TM9IO
P44/TM8IO
P43/TM3IO/IRQ11
P42/TM2IO/IRQ10
P41/TM7IO/TM18O1/IRQ09
P40/TM6IO/TM18O0/IRQ08
P33/SBCS2
P32/SBI2
P31/SBT2
P30/SBO2
P25/SBI1
P24/SBT1
P23/SBO1
P22/SBI0
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
TM0IO/IRQ00/P00
TM1IO/IRQ01/P01
EXTRG1/TM4IO/IRQ02/P02
EXTRG0/TM5IO/IRQ03/P03
SCLK
SDATA
VOUT18
TEST
VSS
OSCO
OSCI
VDD50
NBOOT
NRST
IRQ04/P04
IRQ05/P05
IRQ06/P06
IRQ07/P07
SBO0/P20
SBT0/P21
TM19AIO/P64
TM19BIO/P65
* VGA0(+)/AD0IN00
* VGA0(-)/AD0IN01
AD0IN02/PC2
AVSS
AD0IN03/PC3
AVDD50
AD0IN04/PC4
AD1IN00/PC5
AD1IN01/PC6
AD1IN02/PC7
* VGA1(+)/AD1IN03
* VGA1(-)/AD1IN04
AD1IN05/PD2
AD1IN06/PD3
AD1IN07/PD4
AD1IN08/PD5
AD1IN09/PD6
AD1IN10/PD7
* VGA is not in the MN103SFN2 series.
3,4,13,14 pin of MN103SFN2 series are the dedicated input pin for A/D converter.
Ver. DEM
15
Request for your special attention and precautions in using the technical information and
semiconductors described in this book
(1) If any of the products or technical information described in this book is to be exported or provided to non-residents, the laws and
regulations of the exporting country, especially, those with regard to security export control, must be observed.
(2) The technical information described in this book is intended only to show the main characteristics and application circuit examples
of the products. No license is granted in and to any intellectual property right or other right owned by Panasonic Corporation or any
other company. Therefore, no responsibility is assumed by our company as to the infringement upon any such right owned by any
other company which may arise as a result of the use of technical information described in this book.
(3) The products described in this book are intended to be used for general applications (such as office equipment, communications
equipment, measuring instruments and household appliances), or for specific applications as expressly stated in this book.
Consult our sales staff in advance for information on the following applications:
– Special applications (such as for airplanes, aerospace, automotive equipment, traffic signaling equipment, combustion equipment,
life support systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of
the products may directly jeopardize life or harm the human body.
It is to be understood that our company shall not be held responsible for any damage incurred as a result of or in connection with
your using the products described in this book for any special application, unless our company agrees to your using the products in
this book for any special application.
(4) The products and product specifications described in this book are subject to change without notice for modification and/or improvement. At the final stage of your design, purchasing, or use of the products, therefore, ask for the most up-to-date Product
Standards in advance to make sure that the latest specifications satisfy your requirements.
(5) When designing your equipment, comply with the range of absolute maximum rating and the guaranteed operating conditions
(operating power supply voltage and operating environment etc.). Especially, please be careful not to exceed the range of absolute
maximum rating on the transient state, such as power-on, power-off and mode-switching. Otherwise, we will not be liable for any
defect which may arise later in your equipment.
Even when the products are used within the guaranteed values, take into the consideration of incidence of break down and failure
mode, possible to occur to semiconductor products. Measures on the systems such as redundant design, arresting the spread of fire
or preventing glitch are recommended in order to prevent physical injury, fire, social damages, for example, by using the products.
(6) Comply with the instructions for use in order to prevent breakdown and characteristics change due to external factors (ESD, EOS,
thermal stress and mechanical stress) at the time of handling, mounting or at customer's process. When using products for which
damp-proof packing is required, satisfy the conditions, such as shelf life and the elapsed time since first opening the packages.
(7) This book may be not reprinted or reproduced whether wholly or partially, without the prior written permission of our company.
20100202
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