MSM9012_技术文档

MOSEL VITELIC

February 1996

MSu001/u001T

20" VOICE SMART

General Description

The MSu001 is a monolithic talking microcomputer that can memorize voice up to 22 seconds using

MOSEL qualified coding method(MPCM). It's an integration of traditional 4-bit microcomputer and voice

chip with minimal external components. LCD driver and miscellaneous interface are provided for

versatile applications. With more than 10K ROM/RAM inside, this chip meets every intelligent novelty.

Customer requested function and voice data will be built in by changing masks during fabrication.

Block Diagram

OSC

CAP

X1

TEST

PROGRAM

TIMER

CIRCUIT

DATA

RAM

/DATA

ROM

TESTA

TESTP

X2

RES

VBZ/INT

TESTN

CUP1,2

S1,2,3,4

M1,2,3,4

P1,2,3,4

BUZZER

&

VOICE

DATA

ROM

CPU

LOGICS

IOB3,4

EB2

PWR

CURRENT

BUFFER

LCD

MPCM

C

out

COM1-3

DRIVER

BUZZER

BUFFER

DECODER

Vout1

Vout2

SEG1-25

BAK

Vdd

Vss0-3

PID219D 02/96

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MOSEL VITELIC

MSu001/u001T

Hardware Features

Low current consumption

Maximal function with minimal cost

Built-In clock generator

Built-In doubler, halver, tripler

Internal program ROM : 1024 x 15 bits;

Internal program RAM : 64 x 4 bits

Two 4-bit input ports

Two 4-bit input/output ports

One 4-bit output port

Current output could drive 8 ohm speaker with a

transistor, Vout could drive buzzer directly.

The voice content is stored up to 20 seconds at 6 KHz

S.R. and can be separated up to 64 sections.

22 seconds at 5.51 KHz sample rate (1DA00h)

LCD driver provided, can drive up to 75 segments

Software Features

Sample Applications

78 instructions, in 48 categories

handy game with LCD

4-level subroutine nesting (also used for interrupt)

Two external factors (INT, S&M) for interrupt

Two internal factors (timer, divider) for interrupt

versatile timepiece with LCD

talking timer with LCD

intelligent calculator with LCD

smart stationery with LCD

talking home electronics with LCD

talking education kit with LCD

Development Supports

Development tools are provided

Software / Hardware programming guide is provided

Engineering sample could be provided

MSM9058 Developing Card

MSM9012 LCD display emulation board

MSM9011 Program code emulation board

MSM9009 20" (30") Sound emulation board

Mask Options

mask option for either open or hold transistor on S

port & M port

mask option for either pull down or put up on

Interrupt switch

mask option for either leading edge or trailing edge

on Interrupt edge

mask option for either power back-up activated or

not when power on

mask option for either slow (by 15.625 ms) or fast

(by 224.14 us) set time timer

mask option for either fast system clock ( Fosc)

or slow system clock ( Fosc / 2)

LCD display frequency : (1) 128 Hz /170.7 Hz (2)

64Hz /85.3 Hz (3) 32Hz /42.7Hz

LCD driver : (1) static (2) 1/2 bias 1/2 duty (3) 1/2

bias 1/3 duty

mask option for either with reset or not when power

on

mask option for either 8 ms or 2 ms chattering

removal time on S port & M port

AC Characteristics at 4.5 V & 6 KHz S.R.

Min.

Max.

Remarks

Timing

300ns

T

Write Enable pulse width

W

SRD

T

Trigger address hold time

80ns

H

S

Trigger address setup time

Write Enable to BUSY delay time

Write Enable to Audio delay time

220ns

SRD

1 us

WB

T

500us

SRD

WA

SRD := Sample Rate Dependent

PID219D 02/96

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MOSEL VITELIC

MSu001/u001T

Pad Descriptions

Pad No.

Signal

Vdd1

Vreg

I/O

F u n c t i o n s

1

2

1

2

1

3

Power Positive power supply for CPU function block

O

I

Voltage regulator

Voltage doubler capacitor

3,4 CUP1,2

5

6

7

X1

X2

CAP

I

Crystal Oscillator input, 32768 Hz

Crystal Oscillator Output, 32768 Hz

Phase compensating capacitor

Common plate for LCD panel

25 segment outputs for LCD panel

O

8,35,34 Com1,2,3

9-33 SEG1-25 25

38,39,36 Vss1,2,3

37 BAK

3

1

2

1

4

1

2

1

4

1

2

Power Negative power supply

Power BackUp negative power supply

40,41 S4,S3

42 PWR(alm)

43 #EB2

44-47 TG0,1,2,3

48 RESET

49 Vdd2

I

One-way input port; note 1

I/O

I

Pop noise eliminating signal; internally connected to CPU output port

Enable signal to latch section address; internally connected to CPU output port

Trigger address inputs to voice function block; note 2

System reset

Power Positive supply for voice function block, internally connected to pad 1

Oscillator Resistor for voice function block

Power Negative power supply for voice signal

50 Rosc

51 Vss0

52 Cout

I

O

Audio signal current output

53,54 Vout1,2

55,56 TG4,5

57,58 IOB3,4

59 VBZ/INT

60-63 P1,2,3,4

64-67 M1,2,3,4

68,69 NC

O

Audio signal voltage output

I/O

O

Trigger address inputs to voice function block; note 3

Bidirectional input/output port, 2 bits

Busy status output; internally connected to INT (interrupt request) pin of CPU

One-way output port, 4 bits

I

One-way input port; note 1

NC

I

No connection

One-way input port, note 1

70,71 S2,S1

Note 1. with chatter removal time for either 8 ms (ph8) or 2 ms (ph6)

Note 2. internally connected to CPU I/O port, IOA1=TG0, IOA2=TG1, IOA3=TG2, IOA4=TG3

Note 3. internally connected to CPU I/O port, IOB1=TG4, IOB2=TG5

Absolute Maximum Rating (Vdd=3.0V, Vss=Vss2=0.0V, Vss3=0.0V/-1.5V)

Symbol

Rating

1.2-1.8

0.0-0.6

Unit

V

Symbol

Rosc

Rating

Vss-Vdd

Vreg-Vdd

Vss-Vdd

Vss3-Vdd

Vss-Vdd

-60-+60

Unit

V

Vss1

BAK

Vreg

CAP

X1

X2

0.0-0.6

PWR(ALM)

#EB2

Vreg-Vd

Vreg-Vdd

Vss-Vdd

P1,2,3,4

SEG1-25

COM1,2,3

CUP1,2

Vout1,2

S1,2,3,4

M1,2,3,4

(IOA1,2,3,4)TG0,1,2,3

IOB1,2,3,4

V

VBZ/INT

RESET

T(operating)

T(storage)

Degree C

-55-+125

3/12

PID219D 02/96

MOSEL VITELIC

MSu001/u001T

Static

V

-

1/2 duty 1/3 duty

Common Plate Usage

COM1

COM2

V

COM2

-

V

Alternating Frequency

32 Hz

43 Hz

DC Characteristics at 3.0 Vdd (u001,u001T)

Symbol Name

Valid

Vdd

Vouts

Cout

Min.

Typ.

Max.

Unit

uA

mA

%

Remarks

I sb

I op

stand by I

operation I

-

1

0.2

5

-

I ohv output high I

I oLv output low I

5

I co

cuurent output

2.5

1.5

-

u001

u001T

-

d F/F frequency stability

d F/F frequency variation

R osc oscillation R

-5

-10

5

10

-

[Fosc(3.0V)-Fosc(2.7V)]/Fosc(3.0V)

6 KHz S.R., 1.2 Mohm Rosc

-

%

Rosc

-

1.2

880

1.1

830

Mohm S.R.=6000 Hz, u001

kohm S.R.=8000 Hz, u001

Mohm S.R.=6000 Hz, u001T

R osc oscillation R

-

kohm

S.R.=8000 Hz, u001T

DC Characteristics at 4.5 Vdd (u001, u001T)

Symbol Name

Valid

Vdd

Vouts

Cout

Min.

Typ.

1

0.8

12

4

Max.

Unit

uA

Remarks

I sb

I op

stand by I

operation I

-

mA

V

%

kohm

I ohv output high I

I oLv output low I

I co

current output

u001

u001T

I oh = -400 uA

I oL = 400 uA

I oh = -1 mA

I oL = 1 mA

I oh = -100 uA

I oL = 100 uA

I oh = -4 uA

I oL = 4 uA

I oh = -0.4 uA

I oL = 0.4 uA

[Fosc(4.5V)-Fosc(4.0V)]/Fosc(4.5V)

6 KHz S.R., 1.2 Mohm Rosc

pulldown X'tor=on & note 1

pulldown X'tor=off, halt mode & note 1

pulldown X'tor=on & note 1

pulldown X'tor=off, halt mode & note 1

Vss2=0V, Vi=Vdd, VBZ=high

Vss2=0V, Vi=Vdd, VBZ=low

Vss2=0V, Vi=Vdd

Cout

2.5

V ohp o/p high V

V oLp o/p low V

V ohw o/p low V

V oLw o/p high V

V ohio o/p low V

V oLio o/p high V

V ohc o/p low V

V oLc o/p high V

V ohg o/p low V

V oLg o/p high V

d F/F frequency stability

d F/F frequency variation

R isn input R when on

P port

PWR

i/o port

Com

Seg's

*-0.4V

*+0.4V

*-0.4V

*+0.4V

-5

-10

-

5

10

-

S port

M port

VBZ,INT

RESET

Rosc

-

330

30

140

3

R isf

input R when off

R imn input R when on

R imf input R when off

R inh input R

R inL input R

R ir

input R

18

R osc oscillation R

1.2

910

1.1

800

Mohm S.R.=6000 Hz, u001

kohm S.R.=8000 Hz, u001

Mohm S.R.=6000 Hz, u001T

kohm S.R.=8000 Hz, u001T

Rosc

R osc oscillation R

Note 1. Vss2=0V, Vi=Vss2+0.4V

Note 2. *:= Vdd

4/12

PID219D 02/96

MOSEL VITELIC

MSu001/u001T

DC Characteristics at 3.0 Vdd (u7001)

Symbol Name

Valid

Vdd

Vouts

Cout

Min.

-

-5

-10

-

Typ.

300

0.5

7

6

2.5

-

Max.

-

5

10

-

Unit

uA

Remarks

I sb

I op

stand by I

operation I

mA

%

kohm

I ohv output high I

I oLv output low I

I co

cuurent output

d F/F frequency stability

d F/F frequency variation

[Fosc(3.0V)-Fosc(2.7V)]/Fosc(3.0V)

6 KHz SR, 1.2 Mohm Rosc

R is

R im

input R

S port

M port

Rosc

-

R osc oscillation R

1.2

850

Mohm S.R.=6000 Hz

kohm

Rosc

S.R.=8000 Hz

Please refer next page for DC characteristics at 4.5V

COB Information I

Silk screen & copper print

COB model number : MOSEL 001

Chip bonded : either u001 or u7001

COM2

X1

COM3

COM2

COM1

2 cm

1

0

10P

C8

C1

C2

C3

C4

BAK

C7

C6

C7

Legend

C6

VSS3

VSS1

Copper pad for X'tal

Copper pad for LCD

Copper pad

S3

S2

A3

A1

M3

M1

P3

P1

B3

B1

S4

S1

A4

A2

M4

M2

P4

P2

B4

B2

VSS2

C5

R1

R2

Through hole

RESET

R1

Q1

Through hole

E

VR

Alignment hole for Jig

PID219D 02/96

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MOSEL VITELIC

MSu001/u001T

DC Characteristics at 4.5 Vdd (u7001)

Symbol Name

Valid

Vdd

Vouts

Cout

Min.

-

-5

-10

-

Typ.

900

1.0

16

12

4

Max. Unit

Remarks

I sb

I op

stand by I

operation I

-

uA

-

5

10

-

mA

%

kohm

I ohv output high I

I oLv output low I

I co

current output

d F/F frequency stability

d F/F frequency variation

-

[Fosc(4.5V)-Fosc(V-0.5)]/Fosc(4.5V)

6 KHz S.R., 1.2 Mohm Rosc

Vss2=0V, Vi=Vss2+0.4, halt mode

Vss2=0V, Vi=Vss2+0.4, open mode

R is

R im

input R

S port

M port

Rosc

140

150

1.2

880

-

R osc oscillation R

-

Mohm S.R.=6000 Hz

kohm S.R.=8000 Hz

Rosc

Please refer to previous page for Characteristics at 3.0 V

COB Information II

25

20

15

10

5

1

Signal Name & Location Description

C

O

C

O

M

2

C

O

M

3

S S S S S S S S S S S S S S S S

2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1

5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0

S S S S S S S S S M COM2

9 8 7 6 5 4 3 2 1 1

COB model number : MOSEL 001

Chip bonded : either u001 or u7001

Please refer previous page for legends

C

O

M

2

25

20

15

10

5

1

COM1

CAP

X1

2 cm

1

0

Xout

Xin

CAP

C8

C1

C2

C3

C4

BAK

VSS3

C7

CUP2 CUP1

S4

S3

C6

VREG

VSS1

VSS2

S3

S4

S1

A4

A2

M4

M2

P4

P2

B4

B2

VPP

INT

A4

S2

A3

A1

M3

M1

P3

P1

B3

B1

VDD

A3

A2

A1

RESET

LIGHT

RESET

Vout2

Cout

VDD

ALARM

C5

VDD Rosc

Vout1

VDD RESET VDD

R1

VSS

R2

VSS

Cout

B

C

E

Cout

VSS

VR

VSS

RESET

6/12

PID219D 02/96

MOSEL VITELIC

MSu001/u001T

Timing Diagram

I. Addressing 6 - bit

TW

EB2

Low

TG5(IOB2)

TG4(IOB1)

TH

TG3(IOA4)

T

S

TG2(IOA3)

TG1(IOA2)

TG0(IOA1)

T

WA

S09

S06

AUDIO

BUSY

T

WB

One portion of the program to play a sound

CLRM 4h

; #EB2 Low

OUT PA , R5 ;

OUT PB , R6 ;

SETM 4h

; #EB2 High

II. PWR Signal

AUDIO

PWR

BUSY

1. When PWR is high , MSu001 audio output signal will stay at approx. 2.4V even there is no audio output .

2. When PWR is low , MSu001 audio output signal will stay at GND level when there is no audio output .

3. For eliminating the "pop" noise purpose , PWR should be at high level when a sound section is played

over , and also at high level in between two sound sections .

4. For energy saving purpose , PWR should not always stay at high level , since there will be a hundred-mA

current consumption when PWR is high . So it should go to low level when its not needed .

StandardCode LineUp

MSSu001-066 Mandarin talking watch/clock

MSSu001-068 English talking watch/clock

MSSu001-078 Russian talking calculator

MSSu001-090 Mandarin talking calculator

7/12

PID219D 02/96

MOSEL VITELIC

MSu001/u001T

Bonding Diagram

Pad No.

Designation

Pad No.

Designation

X

Y

X

Y

1

2

3

4

5

6

7

8

9

VDD

-1983.1

325.2

145.2

34.8

13

14

15

16

17

18

19

20

21

22

23

24

SEG5

SEG6

SEG7

SEG8

-1443.1

-1263.1

-1083.1

- 903.1

- 723.1

- 543.1

- 363.1

- 183.1

-1639.5

VREG

CUP1

CUP2

X1

X2

CAP

COM1

SEG1

SEG2

SEG3

SEG4

-

- 214.8

- 394.8

- 665.1

-1033.7

-1261.4

-1459.4

-1639.5

SEG9

SEG10

SEG11

SEG12

SEG13

SEG14

SEG15

SEG16

-

3.1

176.9

356.9

536.9

10

11

12

Pad No.

25

Designation

SEG17

SEG18

SEG19

SEG20

SEG21

SEG22

SEG23

SEG24

SEG25

COM3

Pad No.

37

Designation

X

716.9

896.9

Y

X

Y

-1639.5

-1459.5

-1279.3

-1036.3

- 856.3

BAK

VSS1

VSS2

S4

1947.1

1937.1

-1983.1

- 676.3

- 496.3

- 316.3

- 136.3

43.7

223.7

403.7

583.7

763.7

943.7

1123.7

1303.7

26

27

28

29

30

31

32

33

38

39

40

41

42

43

44

45

1076.9

1256.9

1436.9

1616.9

1796.9

1976.9

1983.9

1947.1

S3

PWR(ALM)

EB2 (LIGHT)

TG0(IOA1)

TG1(IOA2)

TG2(IOA3)

TG3(IOA4)

RESET

34

35

36

46

47

48

COM2

VSS3

Pad No.

49

Designation

Pad No.

61

Designation

X

Y

X

Y

VDD

OSC

VSS0

1941.2*

1588.6

1370

1151.4

524.5

1637.8

1636.1

1630.6

1611.4

1612.3

1642.9

P2

P3

P4

M1

M2

M3

M4

NC

S2

S1

-1178.2

-1358.2

-1538.2

-1718.2

-1898.2

-1983.1

1642.9

1405.2

1225.2

1045.2

865.2

50

51

52

53

54

55

56

57

62

63

64

65

66

67

68

69

COUT

VOUT1

VOUT2

TG4(IOB1)

TG5(IOB2)

IOB3

IOB4

VBZ/INT

P1

122.1

- 98.2

- 278.2

- 458.2

- 638.2

- 818.2

- 998.2

58

59

60

70

71

685.2

505.2

8/12

PID219D 02/96

MOSEL VITELIC

MSu001/u001T

Application Circuit

P1

Rosc

VSS0

P2

P3

T T

G G

5 4

+

-

Buzzer

VBZ/INT

P4

Vout2

Vout1

R2

M3 M2 M1

VDD

Reset

64 63 62 61 60 59 58 57 56 55 54

53 52 51

RES

TG3

66

67

48

M4

47

46

45

TG2

TG1

0.1u

68

69

70

S2

TG0

EB2

44

43

42

S1

71

1

PWR

S3

S4

2

3

4

5

MSµ001

41

40

39

CUP1

CUP2

X1

VSS2

VSS1

0.1u

Substrate is Vdd

4290 x 3670 um

Pad size : 90 x 90 um

0.1u

38

37

36

BAK 0.1u

VSS3

32768Hz

X2

6

COM2

35

34

31

CAP

7

8

COM1

COM3

SEG25

SEG1

9

11 1213 14 1516 17 18 19 20 2122 23 2425 26

28 29 30

27

SEG1

COM1

SEG8

SEG16

SEG25

COM3

COM2

LCD (1/3 duty , 1/2 bias)

Note:

1. T(transistor) = ß > 150, R2=470Ω ,S(speaker) = 1/4 w, 8 Ω; all typical.

2. R2=470Ω ( typical ) to bypass extra current into base to get rid of waveform saturation on collector .

3. Piezo buzzer resonant frequency is around 1K Hz.

4. All the above components need to adjust possibly case by case to meet required performance.

5. Vout1,Vout2 are tristate during stand by.

Taiwan

Taipei

Hongkong

U.S.A.

#1, Creation Road I,

Science-based Industrial Park,

Hsinchu 30077

7F, #102 Section 3,

Ming Chung East Road,

Taipei,

#19 Dai Fu Street,

Taipo Industrial Estate,

Taipo, N.T.

#3910 North First Street,

San Jose,

CA.65134-1501

U.S.A.

Taiwan, ROC

Hongkong

"taylor_hsiao@ccmail.mosel.com.tw"

TEL: 886-35-770055

FAX: 886-35-772788

FAX: 886-35-784732

TEL: 852-2388-8277

TEL: 852-2665-4883

FAX: 852-2664-2406

FAX: 852-2770-8011

TEL: 886-2-5451213

FAX: 886-2-5451214

TEL: 1-408-433-6000

FAX: 1-408-433-0952

9/12

PID219D 02/96

MOSEL VITELIC

MSu001/u001T

T O :

Mosel Vitelic Inc.

886-35-772788 (fax)

Attention : Sales & Marketing Department

Product Request Form

We hereby request MVI to start preparing produce MSSu001 which is specified as

below descriptions as well as form A and form B.

I already read this data sheet and understand MSu001 completely and know how to

specify to fit my requirement.

General Descriptions

Chip Descriptions

Customer

Agent

T i t l e

SampleRate

Output

Hz

Sales

Buzzer (F fr= 1K Hz)

Represen.

Sound

Providing

to

Who is MVI sales you contact ?

8-bit PCM sound files

.WAV sound files

Device

Speaker (8 ohm, 1" diam)

Other

Working

Voltage

2.5 V

DAT or equivalent

3.0 V

MVI

Something special in written memo

Others

3.5 V

4.0 V

Code

Providing

to MVI

.TRA program file, name =

.EVA LCD file, name =

.HEX program file, name =

.HEX LCD file, name =

EPROMs with data inside

files to pro'med into EPROM

9011 & 9012 emulation boards

u7001 chip on board

Confirm table

4.5 V

5.0 V

5.5 V

6.0 V

Serviced

Required

from

Power

Battery size "D"

Battery size "AA"

Battery size "AAA"

Battery button cell

Mains

Source

MVI

Others

Other

Company Name :

Signature :

Position Title :

Department, Section :

Signature Date :

10/12

PID219D 02/96

MOSEL VITELIC

MSu001/u001T

T I T L E

Product Request Form A : Voice Word Definitions : There are

1<

<64

words defined.

Voice Description VoiceLength MuteLength ^W< ^o8^r0^d0^T0^o0^tah^l33

S

00h

S

00h

Address

21h

22h

23h

24h

25h

26h

27h

28h

29h

2Ah

2Bh

2Ch

2Dh

2Eh

2Fh

30h

31h

32h

33h

34h

35h

36h

37h

38h

39h

3Ah

3Bh

3Ch

3Dh

3Eh

3Fh

00h

00

S

00h

S

00h

^00h34

^00h35

^00h36

^00h37

^00h38

^00h39

^00h40

^00h41

^00h42

^00h43

^00h44

^00h45

^00h46

^00h47

^00h48

^00h49

^00h50

^00h51

^00h52

^00h53

^00h54

^00h55

^00h56

^00h57

^00h58

^00h59

^00h60

^00h61

^00h62

^00h63

00h

01h

01

02h

02

03h

03

04h

04

05h

05

06h

06

07h

07

08h

08

09h

09

0Ah

10

0Bh

11

0Ch

12

0Dh

13

0Eh

14

0Fh

15

10h

16

11h

17

12h

18

13h

19

14h

20

15h

21

16h

22

17h

23

18h

24

19h

25

1Ah

26

1Bh

27

1Ch

28

1Dh

29

1Eh

30

00h must be < 1DA00h

Length summ. of above 64 words

Signature & date

1Fh

31

00h

20h

32

MVI Sales & date

11/12

PID219D 02/96

MOSEL VITELIC

MSu001/u001T

T I T L E

Product Request Form B : Mask Definitions

Mask options

Power bias

S e l e c t i o n s

V

1

2

Li - 1/2 Bias

LCD driver &

1/2 duty 128 Hz

1/2 duty 64 Hz

1/3 duty 85.3 Hz

Static 64 Hz

Hold transistor

Pull up

1/2 duty 32 Hz

1/3 duty 42.7 Hz

Static 32 Hz

display frequency

1/3 duty 170.7 Hz

Static 128 Hz

Open

3

4

S-port defined

M-port defined

Interrupt switch

Interrupt edge

Power-on mode

External Reset

Chatter Removal time

Set time

Open

5

Pull down

Rising

6

Falling

7

BackUp

Non-BackUp

Only

8

and PowerOn reset

8 mS time

Slower (Tk=512 mS)

Crystal

note

9

2 mS time

10

11

12

13

14

15

16

17

18

19

Faster (Tk=8000uS)

V

Oscillator

System Clock

Alarm frequency

P-port

Fast (Fosc)

Level shift

Always

Slow (Fosc/2)

V

note

Input port signal

Light mode

Reset level

High

I/O port

Level shift

Light

Note 9 : For S port and M port

Note 10 : Set time = (set value + 1) * Tk / Fosc ; Fosc is in KHz

Note 15 : Input port control signal level shift, J48, J49

Signature & date

MVI sales & date

12/12

PID219D 02/96


型号：	MSM9012
厂家：	MOSEL VITELIC, CORP
描述：	20 VOICE SMART 20 VOICE SMART
文件：	总12页 (文件大小：131K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MSM9012 [MOSEL]

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