MICROCOMPUTER
MN103S
MN103S65G
LSI Application Note Excerption
Pub.No.3326501-010E
Table of Contents
About This Manual
■Composition of this book
This LSI application note explains in order of the sample program which used the program collection which uses the
circumference circuit of MN103S65G loading, and 3-phase PWM.
■Composition as a manual
This book is roughly divided and consists of a title, the text, a sample program, an inclusion directory, cautions
information, and reference information.
Next, the layout and definition of each portion are shown.
1.Inside title
Panasonic
2-7 Input and output, a peripheral initial
2.Small title
2-7 Port0
It is the minimum block of this book.
Aport 0 is general-purpose 8-bit input/output port, and can set up input and output per bit.
a port 0 -- input and output -- also in which setup, addition of a pull-up resistor is possible
Moreover, it can be used as a terminal of the serial communication 0 and the serial communication 1 as a special
function.
3.Text
The bit 0-2 is made to serve a double purpose as an input-and-output terminal of the serial communication 0.
The bit 3-5 is made to serve a double purpose as an input-and-output terminal of the serial communication 2.
Abit 6-7 can be used as an input-and-output terminal as it is.
4.Sample program
5.Inclusion directory
When using serial communication, a serial output signal terminal is set as an "output."
It is [ following ] a sample program.
The inclusion directory is shown although
the sample program is recorded on
CD-ROM.
/* Declaration of control data When using the serial communication 0,
the serial communication 0 carries out a UART setup and a clock for monitors,
and it is an output setup. Other bits are input-set up. */
#define
#define
p0port
0x05
0x00
/* 0b00000101 Serial output Other inputs */
/* 0b00000000Apull-up is not carried out for all.*/
p0pulup
/* Declaration of control data When using serial ports 0 and 2,
the serial communication 0 carries out a UART setup and a clock for monitors,
and it is an output setup.
The serial communication 2 is synchronous system and a slave setup.
Other bits are input-set up. */
#define
#define
p0port
0x0D
0x00
/* 0b00001101 Bit0(CH0S),2(CH0CK),3(CH2S) */
/* 0b00000000Apull-up is not carried out for all.*/
p0pulup
/* Declaration of the register address*/
#define
#define
#define
#define
#define
#define
#define
#define
P0OUT_adr
P0OUT
0x3F10
(*(volatile unsigned char *)P0OUT_adr)
0x3F20
P0IN_adr
P0IN
(*(volatile unsigned char *)P0IN_adr)
0x3F30
P0DIR_adr
P0DIR
(*(volatile unsigned char *)P0DIR_adr)
0x3F40
P0PLU_adr
P0PLU
(*(volatile unsigned char *)P0PLU_adr)
/* Setting program*/
P0DIR = p0port;
P0PLU = p0pulup;
The example of this page is a
thing for explanation. It differs
from an actual page.
This sample is recorded on CD-ROM.
Inclusion directory:SAMPLE\INITIAL\ASM\IOPORT\PORT0\
Inclusion directory:SAMPLE\INITIAL\C\IOPORT\PORT0\
IV
Table of Contents
Chapter1
Chapter2
Chapter3
Chapter4
Power
supply
injection
1
2
3
4
(power-onboot)Initialization of
the memory at the time
Each peripheral initial by C
The sample program in a
sample circuit
Appendix
VII
Table of Contents
Chapter1 Initialization of the memory at the time of a power supply injection
(power-on boot)
Chapter2 Each peripheral initial by C
2-1 About description of C and an assembler............................................................................................................2-2
2-2 Interruption, a peripheral initial............................................................................................................................2-4
2-2-1 Interruption control register......................................................................................................................2-4
2-2-2 Interruption level (multiplex interruption)...............................................................................................2-6
2-3 The Interruption Processing Method.................................................................................................................2-7
2-3-1 Interrupt vector table..........................................................................................................................2-7
2-3-2 Interruption group handler routine.....................................................................................................2-7
2-3-3 Interruption processing program........................................................................................................2-7
2-3-4 The check of interruption...................................................................................................................2-7
2-4 A8-bit 16-bit timer, a peripheral initial ...............................................................................................................2-30
2-4-1 The various registers of a 8-bit timer.......................................................................................................2-30
2-4-2 The various registers of a 16-bit timer.....................................................................................................2-40
2-5 Serial communication, a peripheral initial...........................................................................................................2-51
2-5-1 The various registers of serial communication (channels 0 and 1)........................................................2-51
2-5-2 The various registers of serial communication (channel 2)....................................................................2-53
2-6 PWM for motor control........................................................................................................................................2-63
2-7 The initial of I/O Port ........................................................................................................................................2-70
2-7-1 Port0 ..........................................................................................................................................................2-71
2-7-2 Port1 ..........................................................................................................................................................2-71
2-7-3 Port2 ..........................................................................................................................................................2-72
2-7-4 Port3 ..........................................................................................................................................................2-73
2-7-5 Port4 ..........................................................................................................................................................2-74
2-7-6 Port5 ..........................................................................................................................................................2-75
2-7-7 Port6 ..........................................................................................................................................................2-76
2-7-8 Port7 ..........................................................................................................................................................2-77
2-7-9 Port8 ..........................................................................................................................................................2-78
2-7-10 Port9 ........................................................................................................................................................2-79
2-8 Noise filter function................................................................................................................................................2-87
2-9 A/D conversion, a peripheral initial.......................................................................................................................2-91
2-9-1 The various registers ofA/D conversion.................................................................................................2-91
VIII
Table of Contents
Chapter 3 The sample program in a sample circuit
3-1 The outline of a sample circuit.............................................................................................................................3-2
3-2 Composition of a sample program......................................................................................................................3-2
3-2-1 Sample program specification .................................................................................................................3-2
3-2-2 Composition of a sample program..........................................................................................................3-2
3-3 The set point about each processing in a sample program, and its explanation ...............................................3-3
3-3-1 Interruption processing (others [ - / external interruption and timer serial ]) ........................................3-3
3-3-2 Timer processing ......................................................................................................................................3-4
3-3-3 Processing about input/output port..........................................................................................................3-4
Chapter4 Appendix
4-1 Flash microcomputer............................................................................................................................................4-2
4-2 Purpose-oriented initialization.............................................................................................................................4-3
4-3 Such at the time ....................................................................................................................................................4-4
4-4 About use of MAKE............................................................................................................................................4-6
4-5 The notes on circuitry...........................................................................................................................................4-7
4-5-1 About supply voltage ...............................................................................................................................4-7
4-5-2 About an analog input terminal...............................................................................................................4-7
4-6 The notes on program creation............................................................................................................................4-7
4-6-1 Memory space..........................................................................................................................................4-7
4-7 The usage of C compiler......................................................................................................................................4-8
4-8 Class figure ...........................................................................................................................................................4-10
4-9 Reference circuit diagram....................................................................................................................................4-11
IX
2-4 A 8-bit 16-bit timer, a peripheral initial
2-4 A 8-bit 16-bit timer, a peripheral initial
2-4-1 The various registers of a 8-bit timer
Book LSI contains eight 8-bit timers, and is an interval timer, an event timer counter, and a clock output. It
can be used as the standard clock of a serial interface, and start timing of A/D conversion.
These timers can perform cascade connection use of a maximum of four.
●Timer register
It is the 8-bit register which counts a timer. A count value can be read by the down counter.
TM0BC,TM1BC,TM3BC,TM4BC,TM5BC,TM6BC,TM7BC
●Timer mode register
It is the 8-bit register which sets up the mode of a timer of operation.
The clock source which can be chosen by each timer is different. Be careful of a setup.
TM0D: Timer 0 mode register
Bit7 : Count operation permission
0: A stop of operation
1: Permission of operation
Bit6 : Base register setup
0: Usually, operation
1: Initialization
The value of a base register is loaded to a binary counter.
The timer pulse output 0 is reset on a low level.
Bit5-3: Prohibition (0 fixation)
Bit2-0: Clock source selection
000:IOCLK
001:IOCLK/8
010:IOCLK/32
011: Prohibition of a setup
100: Prohibition of a setup
101: Timer 1 underflow
2-30
2-4 A 8-bit 16-bit timer, a peripheral initial
110: Timer 1 underflow
111: TMIN0 terminal input
TM1MD: Timer 1 mode register
Bit7 : Count operation permission
0: A stop of operation
1: Permission of operation
Bit6 : Base register setup
0: Usually, operation
1: Initialization
The value of a base register is loaded to a binary counter.
The timer pulse output 1 is reset on a low level.
Prohibition (0 fixation)
Bit 2-0: Clock source selection
000:IOCLK
001:IOCLK/8
010:IOCLK/32
011: Cascade connection with a timer 0
100: Timer 0 underflow
101: Prohibition of a setup
110: Timer 2 underflow
111: TMIN1 terminal input
TM2MD: Timer 2 mode register
Bit7 : Timer operation permission
0: A stop of operation
1: Permission of operation
Bit6 : Timer initialization
0: Usually, operation
1: Initialization
The value of a base register is loaded to a binary counter.
The timer pulse output 2 is reset on a low level.
Bit 5-3: Prohibition (0 fixation)
Bit2-0: Clock source selection
000:IOCLK
001:IOCLK/8
010:IOCLK/32
011: Cascade connection with a timer 1
100: Timer 0 underflow
2-31
2-4 A 8-bit 16-bit timer, a peripheral initial
101: Timer 1 underflow
110: Prohibition of a setup
111: TMIN2 terminal input
TM3MD: Timer 3 mode register
Bit7 : Timer operation permission
0: Stop of operation
1: Initialization
Bit6 : Timer initialization
0: Usually, operation
1: Initialization
The value of a base register is loaded to a binary counter.
The timer pulse output 3 is reset on a low level.
Bit5-3: Prohibition (0 fixation)
Bit2-0: Clock source selection
000:IOCLK
001:IOCLK/8
010:IOCLK/32
011: Cascade connection with a timer 2
100: Timer 0 underflow
101: Timer 1 underflow
110: Timer 0 underflow
111: TMIN3 terminal input
TM4MD: Timer 4 mode register
Bit7 : Timer operation permission
0: Stop of operation
1: Permission of operation
Bit6 : Timer initialization
0: Usually, operation
1: Initialization
The value of a base register is loaded to a binary counter.
The timer pulse output 4 is reset on a low level.
Bit5-3: Prohibition (0 fixation)
Bit2-0: Clock source selection
000:IOCLK
001:IOCLK/8
010:IOCLK/32
011: Prohibition of a setup
100: Prohibition of a setup
101: Timer 5 underflow
2-32
2-4 A 8-bit 16-bit timer, a peripheral initial
110: Timer 6 underflow
111: TMIN4 terminal input
TM5MD: Timer 5 mode register
Bit7 : Timer operation permission
0: Stop of operation
1: Permission of operation
Bit6 : Timer initialization
0: Usually, operation
1: Initialization
The value of a base register is loaded to a binary counter.
The timer pulse output 5 is reset on a low level.
Bit5-3: Prohibition (0 fixation)
Bit2-0: Clock source selection
000:IOCLK
001:IOCLK/8
010:IOCLK/32
011: Cascade connection with a timer 4
100: Timer 4 underflow
101: Prohibition of a setup
110: Timer 6 underflow
111: TM5IN terminal input
TM6MD: Timer 6 mode register
Bit7 : Timer operation permission
0: Stop of operation
1: Permission of operation
Bit6 : Timer initialization
0: Usually, operation
1: Initialization
The value of a base register is loaded to a binary counter.
The timer pulse output 6 is reset on a low level.
Bit5-3: Prohibition (0 fixation)
Bit2-0: Clock source selection
000:IOCLK
001:IOCLK/8
010:IOCLK/32
011: Cascade connection with a timer 5
100: Timer 4 underflow
101: Timer 5 underflow
110: Prohibition of a setup
111: TM6IN terminal input
2-33
2-4 A 8-bit 16-bit timer, a peripheral initial
TM7MD: Timer 7 mode register
Bit7 : Timer operation permission
0: Stop of operation
1: Permission of operation
Bit6 : Timer initialization
0: Usually, operation
1: Initialization
The value of a base register is loaded to a binary counter.
The timer pulse output 7 is reset on a low level.
Bit5-3: Prohibition (0 fixation)
Bit2-0: Clock source selection
000:IOCLK
001:IOCLK/8
010:IOCLK/32
011: Cascade connection with a timer 6
100: Timer 4 underflow
101: Timer 5 underflow
110: Timer 6 underflow
111: TM7IN terminal input
TMMPSC: Prescaler mode register
Bit7 : Count operation permission
0: Stop of operation
1: Permission of operation
To use 1/8SYSCLK, and 1/32SYSCLK, a Prescaler control register needs to be set up.
When a TMnIO terminal input is chosen, the rising edge of a terminal input is counted.
TMEXPSC8: External Prescaler control register
Bit03-01: Count source selection (timers 0, 2, and 4)
0:TMINn terminal input
1:IOCLK/128
Bit00
: Prescaler (1 / 128 operation permission)
0: Stop of operation
1: Permission of operation
2-34
2-4 A 8-bit 16-bit timer, a peripheral initial
●Various setup of a 8-bit timer
It is a setup when using it as an interval timer.
/*******************************
* Register address
*******************************/
/* Timer 0 register address declaration */
#define TM0BC
#define TM0BR
#define TM0MD
(*((volatile unsigned char *)0x0000A150))
(*((volatile unsigned char *)0x0000A148))
(*((volatile unsigned char *)0x0000A140))
/* Timer 1 register address declaration */
#define TM1BC
#define TM1BR
#define TM1MD
(*((volatile unsigned char *)0x0000A151))
(*((volatile unsigned char *)0x0000A149))
(*((volatile unsigned char *)0x0000A141))
/* Timer 2 register address declaration */
#define TM2BC
#define TM2BR
#define TM2MD
(*((volatile unsigned char *)0x0000A154))
(*((volatile unsigned char *)0x0000A14C))
(*((volatile unsigned char *)0x0000A144))
/* Timer 3 register address declaration */
#define TM3BC
#define TM3BR
#define TM3MD
(*((volatile unsigned char *)0x0000A155))
(*((volatile unsigned char *)0x0000A14D))
(*((volatile unsigned char *)0x0000A145))
/* Timer 4 register address declaration */
#define TM4BC
#define TM4BR
#define TM4MD
(*((volatile unsigned char *)0x0000A170))
(*((volatile unsigned char *)0x0000A168))
(*((volatile unsigned char *)0x0000A160))
/* Timer 5 register address declaration */
#define TM5BC
#define TM5BR
#define TM5MD
(*((volatile unsigned char *)0x0000A171))
(*((volatile unsigned char *)0x0000A169))
(*((volatile unsigned char *)0x0000A161))
/* Timer 6 register address declaration */
#define TM6BC
#define TM6BR
#define TM6MD
(*((volatile unsigned char *)0x0000A174))
(*((volatile unsigned char *)0x0000A16C))
(*((volatile unsigned char *)0x0000A164))
/* Timer 7 register address declaration */
#define TM7BC
#define TM7BR
#define TM7MD
(*((volatile unsigned char *)0x0000A175))
(*((volatile unsigned char *)0x0000A16D))
(*((volatile unsigned char *)0x0000A165))
/* Pre-scaler register address declaration */
/* timer 0-3 */
#define TM03PSC
/* timer 4-7 */
(*((volatile unsigned char *)0x0000A158))
#define TM47PSC
(*((volatile unsigned char *)0x0000A178))
/* pre-scaler control register*/
#define TMEXPSC8
(*((volatile unsigned char *)0x0000A17C))
/* Declaration of setting data */
#define TM0MD_STOP
0x00
/* timer stop */
2-35
2-4 A 8-bit 16-bit timer, a peripheral initial
#define TM0_COUNT4
#define TM0MD_LOAD1
3
/* cycles/min ratio setup (4 cycles/min -1) */
/* TMIN0 Terminal input setup */
0x07
#define TM0MD_STABLE1 0x00
#define TM0MD_START1 0x40
#define TM0MD_ENABLE1 0x80
/* stabilization */
/* timer start */
/* timer permission*/
#define PS0MD_STOP
#define PS0MD_START 0x80
0x00
/* pre-scaler stop */
/* pre-scaler start*/
#define TM1MD_STOP
#define TM1_COUNT3
#define TM1MD_LOAD1
#define TM1MD_STABLE1 0x00
#define TM1MD_START1 0x40
#define TM1MD_ENABLE1 0x80
0x00
5
0x03
/* timer stop*/
/* cycles/min ratio setup (5 cycles/min -1) */
/* load cycles/min ratio*/
/* stabilization */
/* timer start */
/* timer permission*/
#define PS0_COUNT200 199
#define TM0_COUNT0x5f 0x5f
#define TM1_COUNT0xea 0xea
/* cycles/min setup (200 cycles/min-1) */
/* cycles/min setup (0xea5f = 0xea60(60000) - 1) */
/* cycles/min setup (0xea5f = 0xea60(60000) - 1) */
/* read cycles/min ratio */
#define TM0MD_LOAD2
0x42
/* clock source (pre-scaler 0 clock ) setup */
/* timer 0 and cascade connection*/
#define TM1MD_LOAD2
0x03
#define TM0MD_STABLE2 0x02
#define TM1MD_STABLE2 0x01
#define TM0MD_START2 0x82
#define TM1MD_START2 0x81
/* stabilization*/
/* stabilization*/
/* timer start*/
/* timer start */
/***********************************************
* Interval timer by 8-bit timer
* Pre-scaler 0 is used, and the cascade connection of the timers 0
* and 1 is carried out, and it is used as a 16-bit timer.
***********************************************/
void initInterval8( void )
{
unsigned short data0,data1;
TM03PSC = PS0MD_STOP;
TM0MD = TM0MD_STOP;
TM1MD = TM1MD_STOP;
/* pre-scaler stop*/
/* timer stop*/
/* timer stop*/
/* Setup of timer cycles/min ratio 60000-1 */
TM0BR = TM0_COUNT0x5f;
/* cycles/min setup 0xea5f=59999 */
TM1BR = TM1_COUNT0xea;
/* cycles/min setup*/
data0 = 0;
TM0MD = data0;
data1 = TM1MD_LOAD2;
TM1MD = data1;
/* Arbitrary setup */
/* timer 0 and cascade setup */
data0 |= TM0MD_START1;
TM0MD = data0;
data1 |= TM1MD_START1;
TM1MD = data1;
/* Timer 0 initialization LDE=1 */
/* Timer 1 initialization LDE=1 */
data0 &= ~TM0MD_START1;
TM0MD = data0;
/* Timer 0 start LDE=0 */
2-36
2-4 A 8-bit 16-bit timer, a peripheral initial
/* Timer 1 start LDE=0 */
data1 &= ~TM1MD_START1;
TM1MD = data1;
data1 |= TM1MD_ENABLE1;
TM1MD = data1;
data0 |= TM0MD_ENABLE1;
TM0MD = data0;
/* Timer 1 permission CNE=1 */
/* Timer 0 permission CNE=1 */
TM03PSC = PS0MD_START;
TM0MD = TM0MD_START2;
TM1MD = TM1MD_START2;
/* Pre-scaler start */
/* Timer start*/
/* Timer start */
}
The sample of a 8-bit timer is recorded on attached CD-ROM.
Inclusion director:program\initial\timecounter\timer8\
program :timer8int.c
It is a setup when using it as an event timer.
/*******************************
* Register address
*******************************/
/* Timer 0 register address declaration */
#define TM0BC
#define TM0BR
#define TM0MD
(*((volatile unsigned char *)0x0000A150))
(*((volatile unsigned char *)0x0000A148))
(*((volatile unsigned char *)0x0000A140))
/* Timer 1 register address declaration */
#define TM1BC
#define TM1BR
#define TM1MD
(*((volatile unsigned char *)0x0000A151))
(*((volatile unsigned char *)0x0000A149))
(*((volatile unsigned char *)0x0000A141))
/* Timer 2 register address declaration */
#define TM2BC
#define TM2BR
(*((volatile unsigned char *)0x0000A154))
(*((volatile unsigned char *)0x0000A14C))
#define TM2MD
(*((volatile unsigned char *)0x0000A144))
/* Timer 3 register address declaration */
#define TM3BC
#define TM3BR
#define TM3MD
(*((volatile unsigned char *)0x0000A155))
(*((volatile unsigned char *)0x0000A14D))
(*((volatile unsigned char *)0x0000A145))
/* Timer 4 register address declaration */
#define TM4BC
#define TM4BR
#define TM4MD
(*((volatile unsigned char *)0x0000A170))
(*((volatile unsigned char *)0x0000A168))
(*((volatile unsigned char *)0x0000A160))
/* Timer 5 register address declaration */
#define TM5BC
#define TM5BR
#define TM5MD
(*((volatile unsigned char *)0x0000A171))
(*((volatile unsigned char *)0x0000A169))
(*((volatile unsigned char *)0x0000A161))
/* Timer 6 register address declaration */
#define TM6BC
#define TM6BR
#define TM6MD
(*((volatile unsigned char *)0x0000A174))
(*((volatile unsigned char *)0x0000A16C))
(*((volatile unsigned char *)0x0000A164))
2-37
2-4 A 8-bit 16-bit timer, a peripheral initial
/* Timer 7 register address declaration */
#define TM7BC
#define TM7BR
#define TM7MD
(*((volatile unsigned char *)0x0000A175))
(*((volatile unsigned char *)0x0000A16D))
(*((volatile unsigned char *)0x0000A165))
/* Pre-scaler register address declaration */
/* timer 0-3 */
#define TM03PSC
/* timer 4-7 */
(*((volatile unsigned char *)0x0000A158))
#define TM47PSC
(*((volatile unsigned char *)0x0000A178))
/* Pre-scaler control register */
#define TMEXPSC8
(*((volatile unsigned char *)0x0000A17C))
/* Declaration of setting data */
#define TM0MD_STOP
#define TM0_COUNT4
#define TM0MD_LOAD1
0x00
3
0x07
/* Timer stop*/
/* cycles/min ratio setup (4 cycles/min-1) */
/* TMIN0 Terminal input setup */
#define TM0MD_STABLE1 0x00
#define TM0MD_START1 0x40
#define TM0MD_ENABLE1 0x80
/* Stabilization */
/* timer start*/
/* Timer permission */
#define PS0MD_STOP
#define PS0MD_START 0x80
0x00
/* Pre-scaler stop*/
/* Pre-scaler start*/
#define TM1MD_STOP
#define TM1_COUNT3
#define TM1MD_LOAD1
0x00
5
0x03
/* timer stop*/
/* cycles/min ratio setup(5 cycles/min-1) */
/* cycles/min ratio reloaded */
/* stabilization*/
#define TM1MD_STABLE1 0x00
#define TM1MD_START1 0x40
#define TM1MD_ENABLE1 0x80
/* timer start*/
/* timer permission */
#define PS0_COUNT200 199
#define TM0_COUNT0x5f 0x5f
#define TM1_COUNT0xea 0xea
/* cycles/min ratio setup (200 cycles/min-1) */
/* cycles/min ratio setup (0xea5f = 0xea60(60000) - 1) */
/* cycles/min ratio setup (0xea5f = 0xea60(60000) - 1) */
/* cycles/min ratio reloaded */
#define TM0MD_LOAD2
0x42
/* Clock source (Pre-scaler 0 clock) setup*/
/* timer 0 and cascade connection */
#define TM1MD_LOAD2
0x03
#define TM0MD_STABLE2 0x02
#define TM1MD_STABLE2 0x01
#define TM0MD_START2 0x82
#define TM1MD_START2 0x81
/* stabilization */
/* stabilization */
/* timer start */
/* timer start */
/***********************************************
* Event counter by 8-bit timer
* TMIN0 terminal is carried out for 1 / 4 cycles/min using a timer 0,
* and underflow interruption is generated.
***********************************************/
void initEventCounter8( void )
{
unsigned short data;
data = TM0MD_STOP;
TM0MD = data;
/* TM0 underflow interruption is permitted. */
2-38
/* timer stop */
2-4 A 8-bit 16-bit timer, a peripheral initial
/* A port 0 is set as TM0IO (input). */
TM0BR = TM0_COUNT4;
data |= TM0MD_LOAD1;
TM0MD = data;
/* cycles/min ratio setup */
/* count source setup input TMIN0*/
data |= TM0MD_START1;
TM0MD = data;
/* initialize timer LDE=1 */
/* Timer start LDE=0 */
data &= ~TM0MD_START1;
TM0MD = data;
data |= TM0MD_ENABLE1;
TM0MD = data;
/* Timer permission CNE=1 */
}
The sample of a 8-bit timer is recorded on attached CD-ROM.
Inclusion directory:program\initial\timecounter\timer8\
program :timer8evt.c
2-39
MN103S65G
LSI Application Note Excerption
March, 2004 1st Edition
Issued by Matsushita Electric Industrial Co., Ltd.
Matsushita Electric Industrial Co., Ltd.
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9444 Balboa Avenue, Suite 185, San Diego, California 92123,
U.S.A.
Tel:60-7-331-3822
Fax:60-7-355-3996
Tel:1-858-503-2910
Canada Sales Office:
Panasonic Canada Inc.
5770 Ambler Drive 27 Mississauga, Ontario L4W 2T3, Canada
Tel:1-905-238-2243 Fax:1-905-238-2414
Fax:1-858-715-5545
˜
Thailand Sales Office:
˜
Panasonic Industrial (Thailand) Ltd.
252-133 Muang Thai-Phatra Complex Building, 31st Floor
Rachadaphisek Road, Huaykwang, Bangkok 10320, Thailand
Tel:66-2-693-3400 to 3421 Fax:66-2-693-3422 to 3427
[PICT]
[PCI]
˜
Philippines Sales Office:
Panasonic Industrial Sales Philippines
[PISP]
LATIN AMERICA
102 Laguna Boulevard,Bo.Don Jose Laguna Technopark, Santa.
Rosa, Laguna 4026, the Philippines
˜ Mexico Sales Office:
Panasonic de Mexico, S.A. de C.V.
Amores 1120 Col. Del Valle Delegacion Benito Juarez C.P. 03100
Mexico, D.F. Mexico
Tel:52-5-488-1000
— Guadalajara Office:
Sucursal Guadarajara Av. Lazaro Cardenas 2305 Local G-102
Plaza Comercial Abastos; Col. Las Torres Guadalajara, Jal.
44920, Mexico
Tel:52-3-671-1205
˜ Brazil Sales Office:
Panasonic do Brasil Ltda.
Caixa Postal 1641, Sao Jose dos Campos, Estado de Sao Paulo,
Brasil
Tel:63-2-520-8615
China Sales Office:
Fax:63-2-520-8629
[PANAMEX]
˜
Panasonic Industrial (Shanghai) Co., Ltd.
[PI(SH)]
Floor 12, China Insurance Building, 166 East Road
Lujiazui, Pudong New District, Shanghai 200120, China
Fax:52-5-488-1073
Tel:86-21-6841-9642
Panasonic Industrial (Tianjin) Co., Ltd.
Fax:86-21-6841-9631
[PI(TJ)]
Room No.1001, Tianjin International Building 75, Nanjin Road,
Tianjin 300050, China
Fax:52-3-671-1256
Tel:86-22-2313-9771
Panasonic SH Industrial Sales (Shenzhen) Co., Ltd. [PSI(SZ)]
Shum Yip Centre Office:
Fax:86-22-2313-9770
[PANABRAS]
—
25F, Shum Yip Centre, #5045, East Shennan Road, Shenzhen,
China
Tel:55-12-3935-9000
Fax:55-12-3931-3789
Tel:86-755-8211-0888 Fax:86-755-8211-0970
Panasonic Shun Hing Industrial Sales (Hong Kong) Co., Ltd.
[PSI(HK)]
EUROPE
11th Floor, Great Eagle Center 23 Harbour Road, Wanchai, Hong
Kong
˜ Europe Sales Office:
Panasonic Industrial Europe GmbH
— Germany Sales Office:
[PIE]
Tel:852-2529-7322
Taiwan Sales Office:
Panasonic Industrial Sales (Taiwan) Co.,Ltd.
Head Office:
6F, 550, Sec. 4, Chung Hsiao E. RD. Taipei 110, Taiwan
Tel:886-2-2757-1900 Fax:886-2-2757-1906
Kaohsiung Office:
Fax:852-2865-3697
˜
Hans-Pinsel-Strasse 2 85540 Haar, Germany
[PIST]
Tel:49-89-46159-119
Fax:49-89-46159-195
—
—
6th Floor, Hsin Kong Bldg. No.251, Chi Hsien 1st Road,
Kaohsiung 800, Taiwan
Tel:886-7-346-3815
Korea Sales Office:
Panasonic Industrial Korea Co., Ltd.
Fax:886-7-236-8362
˜
[PIKL]
Kukje Center Bldg. 11th Floor, 191 Hangangro 2ga, Youngsan-ku,
Seoul 140-702, Korea
Tel:82-2-795-9600
Fax:82-2-795-1542
Semiconductor Company, Matsushita Electric Industrial Co., Ltd.
Nagaokakyo, Kyoto 617-8520, Japan
Tel:075-951-8151
050204
Printed in Japan
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