MSS1207_技术文档

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

September 1996

3"/ 6"/ 9"/ 12" / 15" / 18" VOICE ROM

Features

Single power supply can operate at 2.4 V through

6.0 V.

Off LED when Playing audio is provided optionally

entrywise.

Current output can drive 8 ohm speaker with a

transistor.

The voice content can be separated to 32 sections.

Duration of each section can be different and is

multiples of 100 h.

Duration of sections with appended memory-less

mute is up to 21.8 seconds (20000h).

3 straight trigger pins are provided TGA, TGB, TGC.

Each cross can access a sentence.

4 x 4 matrix trigger crosses are provided by RW1-4,

K1-4. Each cross can access a sentence.

Each sentence is composed of one or more sections.

Lower key priority is provided for straight inputs

and matrix cross inputs.

Slow Ring flash LED when playing audio is provided

optionally entrywise.

Dynamic flash LED when playing audio is provided

optionally entrywise.

Slow fix flash LED when playing audio is provided

optionally entrywise.

On LED when playing audio is provided optionally

entrywise.

High busy when playing audio is provided optionally

entrywise.

Low busy when playing audio is povided optionally

entrywise.

DC high (when playing audio and lasts to next trigger) is

provided optionally entrywise.

Last key priority is provided for straight inputs.

First key priority is provided for 4x4 crosses.

Up to 512 table entries for all 32 sentences.

Auto ramp up / ramp down & sleep functions are

built in.

DC low(when playing audio and lasts to next trigger) is

provided optionally entrywise.

Low Stop after playing audio is provided optionally

entrywise.

High Stop after playing audio is provided optionally

entrywise.

INT(interrupt) function is provided.

OKY function is provided optionally chipwise.

Play all OKY is provided optionally chipwise.

Random Play OKY is provided optionally chipwise.

Playnext OKY is provided optionally chipwise.

Continuous S.W.A.I. OKY is provided optionally

chipwise.

Home S.W.A.I. OKY is provided optionally chipwise.

5 output pins are provided.

20 ms debounce is provided.

OKY's sentences could be different from those from

TGS'.

8 loudness levels are provided entrywise.

8 different pitches are provided entrywise.

Edge trigger is provided optionally triggerwise.

Level trigger is provided optionally triggerwise.

Holdable output by TG is provided optionally triggerwise.

Retriggerrable TG by itself is provided optionally

triggerwise.

Sink LED is provided.

Retriggerrable TG by others is provided optionally

triggerwise.

High trigger is provided optionally triggerwise.

Low trigger is provided optionally triggerwise.

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Specifications subject to change without notice, contact your sales representatives for the most recent information.

1/39

(Preliminary)

PID247*** 09/96

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Description

The MSSnn07 is a single-chip CMOS VLSI ROM that can memorize voice data up to nn seconds using MOSEL

qualified coding method (5-bit MPCM) at 6.00 KHz in 32 sections with arbitrary length.

Both the volume and pitch can be masked and different for each entry each sentence. 5 versatile outputs are available

through programmable logic array. With minimum external components, this chip can be applied to various application.

Customer voice data will be edited and programmed into ROM by changing one layer of mask during fabrication.

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Mask Options Overall

Mask Options (entrywise)

among 8 pitches for each entry

either Large or Small cout driving current

either large (1-32) or small loop (17-32)

on OKY cycle

either continuously or homely PlayNext function

among PlayAll, PlayNext or Random for OKY

function

either direct TGA or OKY for TGA pin

either direct TGC or INTP for TGC pin

either sink or drive for LED output (fixed at sink)

among 8 loudness for each entry

among 15 features for OS pin for each entry

among 15 features for OW pin for each entry

among 15 features for OX pin for each entry

among 15 features for OY pin for each entry

among 15 features for OZ pin for each entry

among these 15 options for every entry every OUT pin:

(A) high stop (B) low stop (C) high busy (D) low busy (E)

DC high (F) DC low (G) LED dynamic 17/31 (H) LED

dynamic 23/31 (J) LED dynamic 27/31 (N) LED fixed

flash slow (R) LED ring flash slow (2) LED fix flash slow

inverse (4) LED ring flash slow inverse (7) LED on (8)

LED off.

Mask Options ^{(on straight triggers & OKY)}

either Level or Edge trigger type

either Holdable or not

either retriggerable or not

either quick or normal debounce time

either high or low active

either internal pulling or not

(fixed at pulling)

either internal latch or not

(fixed at latch)

either power on play or not

(fixed at no power on play)

Mask Options (on matrix K input)

either Level or Edge trigger type

either Holdable or not

either retriggerable or not

either quick or normal debounce time

(fixed at normal, =20 ms)

Mask Options (for INT)

either quick or normal debounce time

either high or low active

Developement Tools

M9026 emulaton board is provided

M9026 pack.exe program is provided

Computer format (Lotus 1-2-3 work sheet)

request forms A1-A8, F, H are provided

COB P28 is provided

COB M9226 is provided

Voice Storage Reference

Device

Capacity

1A600h

16000h

11A00h

D800h

9000h

Duration at 6KHz S.R. Section Entry / Sentence Word with mute behide

MSS1807

MSS1507

MSS1207

MSS0907

MSS0607

MSS0307

18.01 seconds

15.01 seconds

12.03 seconds

9.21 seconds

6.14 seconds

3.45 seconds

32

512/32

20000h

5100h

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

2/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Block Diagram

K1 K2 K3 K4

V

SS

DD

RW1

RW2

RW3

RW4

TGA/OKY

TGB

ADDRESS

GENERATOR

TIMING

GENERATOR

VOICE

ROM

CONTROL

LOGIC

TGC/INT

OS

OW

OX

OY

OZ

MPCM

Decoder

TRIGGER

TABLE

V1

V2

Buzzer

Buffer

Varaible Pitch

Varaible

Loudness

CLOCK

GENERATOR

C

OUT

Speaker

Buffer

Rosc

Pad Description

Signals

I/O

O

Function

Voltage output 1, to drive buzzer

Pad #

1

V2

V1

1

2

Voltage output 2, to drive buzzer

O

3

Vss

Ground

Rosc

1 Power

4

Rosc

TGC/INTP

TGB

TGA/OKY

Vdd

1

I

5

Trigger C or Interrupt input, mask optional

Trigger B input

6

7

Trigger A or one-key input, mask optional

Positive power supply

8

1 Power

9

NC

No connection

1

-

I

10

11

12

13

14

15

16

17

18

19

20

21

22

23

K4

Matrix trigger column input 4

Matrix trigger column input 3

Matrix trigger column input 2

Matrix trigger column input 1

K3

I

K2

I

K1

I

RW1

RW2

RW3

RW4

OZ

Matrix trigger row input 1, feed signal to K pin(s) when contact

Matrix trigger row input 2, feed signal to K pin(s) when contact

Matrix trigger row input 3, feed signal to K pin(s) when contact

Matrix trigger row input 4, feed signal to K pin(s) when contact

Output signal Z

-

O

OY

Output signal Y

OX

Output signal X

Cout

OW

Current Output, to drive speaker through transistor

Output signal W

OS

Output signal S

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

3/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Signals

Cout

OS, OW, OX, OY, OZ

There are 5 output pins provided. Each pin can

Cout is tristate during standby.

Cout has zero current output when sound data is

zero. Cout has full current output when sound

data is the highest. Cout has half of full current

output when sound is silence at middle data value.

Cout has half of full current output when playing

sound at appended memory-less mute.

Ico of Cout behaves two different characteristics

shown as curve 2 and curve 3. Curve 3 is

recommended when operating at 2.5V through

5.0V. Curve 2 is recommended when operating at

5.0V through 6.0V.

perform its performance independent on other four

pins.

An output pin can be masked to perform one out of

15 features per entry. But it has restriction : a pin

can perform up to 8 features only at a mask code.

These 8 features should not have too far

relationships.

Contact our sales representatives if you want to

use diverse output performance.

Rosc

The bypass Cout Resistor (named R2) is used to

bypass the audio output current from Cout. This

bypassing extra current to ground gives a way to

prevent the saturation of audio waveform amplified

by transistor. This Resistance of R2 is 470 ohm

typically. It always is not very small. Or user can

let it open if the transistor has a fair beta value.

Due to Cout depends on Vdd bias very much, this

R2 resistance needs be very carefully selected

when user supplies the voltage potential source in

poor flatness or in poor drive capability.

This is a pin to provide bias to activate built in

VCO circuit. A 600 K ohm resistor serial from Vdd

to this pin (named R1) can play the audio output at

6 KHz sample rate at pitch option 4. Larger

Resistance provided at this location plays lower

sample rate. A 240 Kohm resistor plays 15 KHz

sample rate at same condition.

The Vdd bias has very less impact on the

relationship between Rosc and sample rate. To

play 6 KHz, user needs 600 K ohm at 3 Vdd and

590 K ohm at 6 Vdd. To play 15 KHz, user needs

240 K ohm at 3 Vdd and 230 K ohm at 6 Vdd.

What the poor source means either its potential

drops as the load varies or its potential drops as its

capacity exhausted.

K1, K2, K3, K4

A transistor with beta value 150 is sufficient for

typical applications. Larger beta value get larger

sound but may have the amplified waveform

saturated.

8 ohm speaker is recommended. The speaker

characeristics and housing impacts the loudness

very much.

When user is using variable loudness, user must

carefully calculate the bypass resistance R2 and

transistor's beta value due to that the current from

Cout may vary very much due to user's specified

loudness variance.

These four pins have two ways to perform.

To cooperate with RW1, RW2, RW3 and RW4,

they form a 4 x 4 matrix in 16 cross points. The

touch of a cross point will pass signal from a RW

pin to this K pin and activates a trigger signal to

play respectively sentence.

To not cooperate with RWn, these K pins can act

as straight trigger and work standalone. A Vdd

provided to Kn can play sentence.

RW1, RW2, RW3, RW4

These four pins can cooperate with Kn pins to form

a 4 x 4 matrix in 16 cross points. The touch of a

cross point passes signal from this RW pin to K

pin(s) and activates a trigger signal to play

corresponding sentence.

The result to be played is not guaranteed when

operating at below three conditions:(1) All four

RWn signal pins tied together, (2) Any three RWn

signal pins connected together, (3) Any two RWn

signal pins connected together. The result may

even be no sound played.

V1, V2

They are tristate during standby state.

These two pins can drive buzzer directly. The

piezo buzzer used should have its resonant

frequency at the center of your sound frequency

domain or you are unable to play your sound good

by this buzzer.

For instance, you have your sound spans over

frequency from 100 Hz through 1 KHz. A buzzer

with resonant frequency at 300 Hz will play this

sound good. A buzzer with resonant frequency at

1 KHz will distort the sound very much because

that most of the energy of the playback sound is

unable to be played by this buzzer.

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

4/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Terms

Retriggerable TG

This active-high pin is internal pull low and no latch.

This active-low pin is internal pull high and no latch.

Retriggerable TGm means the sentence

addressed by TGm could be retriggerred by other

TGs.

See Timing diagrams I & III. Of course, it can be

retriggered by itself. See Timing diagrams I.

Small Loop & Large Loop

This is a function belongs to OKY. OKY plays

many sentences, up to 32. User can play 1st

sentence through 32nd sentence if user selects

"large loop". At this time the sentence lst, 2nd, 3rd

and 4th may be triggerred by TGs.

User will play 16 sentences, from 17th through

32nd sentence, when user selects "small loop".

User may have less sentences triggered by OKY at

this selection. But user definitely can prevent those

OKY's sentences triggerred by TGs.

Ramp up

When a sentence starts playing from silence, the

audio output (either Cout or V1, V2) starts from

zero current and ramps up to the half scale of full

audio output in 128 steps. These 128 steps' gaps

are uniform. After these 128 steps accomplished

the sentence sound data begins.

As this is hardware implement, the first data byte

of a sound file is asked to be center value. for 8 bit

PCM data file, the center value is 80h.

Cycle Loop

This is a count number ranges 1 through 32 which

defines the sentence range OKY will play. This

number is user definable and could be equal to or

less than sentence defined.

Herein zero output does not mean zero potential,

neither ground.

Ramp down

Whenever a sentence is played and finished, the

audio outputs (either Cout or V1, V2) try going

from last data down to zero.

There is an interval provided in width t PL.

Without redundant ramp down and up within this

interval, the audio output keeps at center value of

full audio signal. This is to keep the audio output

sounds continued if there comes a latter sentence.

This interval starts from the last data pixel to the

ramp down starts.

Because the output is kept at center value of full

audio signal, the last data pixel of a sound file is

recommended as center value. For 8 bit PCM

data file, the center value is 80h.

After this t PL interval finished and there comes no

new comer sentence, the audio output gradually

reduces in 128 steps from the center value of full

audio signal down to zero output.

Continuous OKY & Home OKY

This is a function belongs to OKY and determines

the play sequence when the first OKY comes after

any other trigger addressing. The "continuous"

preserves the sequence while the "home"rewinds

to the very beginning. This very beginning means

either 17th sentence or 1st sentence which is

determined by Loop Size - small or large.

You will see a term S.W.A.I. in this data sheet, it

means sequence when after interrupt by other

trigger addressing.

Ramdom Play OKY

A trigger at OKY will play a sentence randomly out

from specified sentence group.

But not every mask option combination provides

random play. It is provided only when masked as

edge and unhold. It is regardless retrigger or not.

Herein sentence group is determined by cycle loop

and small / large loop.

Herein zero output does not mean zero potential,

neither ground.

Trigger

A trigger mentioned in this data sheet does mean

either a certain pin or an activated input signal. It

could be:

(1) a high signal to straight input

(2) a low signal to straight input

(3) a cross touch of a pin K and a pin RW.

Power on play

This function is not provided even have

appropriate wiring.

Active high and active low

An input pin can be masked as either active high

or active low.

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

5/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

LED sink and drive

The LED lamp could be turned on at output pin by

sink connection. No drive is provided.

LEDW is turned on for t ONL and then turns off for 3 x t

ONL. And cycles. The LEDX turns on right after

LEDW turns off.

LEDX is turned on for t ONL and then turns off for 3 x t

ONL. And cycles. The LEDY turns on right after LEDX

turns off.

LEDY is turned on for t ONL and then turns off for 3 x t

ONL. And cycles.

This 340 ms t ONL equals 1 over 2.93. Of course, this

is valid within sound activated period.

This t ONL is sample rate dependent.

If user needs 4 LED lamps to perform ring flash. These

4 pins are only candidates.

Fix Flash slow LED

Fix flash slow means this pin turns LED lamp on for t

ONL and then turns it off for t ONL alternately. And it

truns on LED lamp right at the ramp up starts. It turns

off LED lamp right after sound ends. Even within t PL

interval, before ramp down starts, the LED lamp is

turned off.

Fix Flash LED slow & inverse

This is similar to "Fix flash slow LED" but inversed

within the sound activated period. The inverse means

whenever the LED pin turns on the "inverse pin" turns

off LED.

By this feature, user can specify two LEDs, or more,

turns on and off alternately within the sound activated

period.

Other 4 - lamp combinations are not guaranteed.

Ring Flash 3 LEDs slow

User can specify 3 LEDs ring at slow speed. It means

LEDS is turned on for t ONL and then turns off for 2 x t

ONL. And cycles. The LEDW turns on right after

LEDS turns off.

LEDW is turned on for t ONL and then turns off for 2 x t

ONL. And cycles. The LEDX turns on right after

LEDW turns off.

LEDX is turned on for t ONL and then turns off for 2 x t

ONL. And cycles.

This 340 ms t ONL equals 1 over 2.93. Of course, this

is valid within sound activated period.

This t ONL is sample rate dependent.

Dynamic Flash LED

The LED turns on whenever the sound amplitude is

over a certain threshold potential. This threshold can

be specified per pin per entry.

There are three thresholds:17/31, 23/31 and 27/31.

Five output pins could have identical thresholds or

not.

An output pin specified to 17/31 means it could be

turned on whenever the sound plays at an amplitude

over 54% of full scale output. An output pin specified

to 17/31 is easier to turn on than an output pin

specified to 23/31.

If user needs 3 LED lamps to perform ring flash. These

3 pins are only candidates.

Other 3 - lamp combinations are not guaranteed.

Ring Flash 3 LEDs slow & inverse

User can specify 3 LEDs ring at slow & inverse. It

means

LEDS is turned off for t ONL and then turns on for 2 x t

ONL. And cycles. The LEDW turns off right after

LEDS turns on.

LEDW is turned off for t ONL and then turns on for 2 x t

ONL. And cycles. The LEDX turns off right after

LEDW turns on.

LEDX is turned off for t ONL and then turns on for 2 x t

ONL. And cycles.

This 340 ms t ONL equals 1 over 2.93. Of course, this

is valid within sound activated period.

This t ONL is sample rate dependent.

If user needs 3 LED lamps to perform ring flash. These

3 pins are only candidates.

Ring Flash 5 LEDs slow

User can specify 5 LEDs ring at slow speed. It

means LEDS is turned on for t ONL and then turns off

for 4 x t ONL. And cycles. The LEDW turns on right

after LEDS turns off.

LEDW is turned on for t ONL and then turns off for 4 x

t ONL. And cycles. The LEDX turns on right after

LEDW turns off.

LEDX is turned on for t ONL and then turns off for 4 x

t ONL. And cycles. The LEDY turns on right after

LEDX turns off.

LEDY is turned on for t ONL and then turns off for 4 x

t ONL. And cycles. The LEDZ turns on right after

LEDY turns off.

LEDZ is turned on for t ONL and then turns off for 4 x

t ONL. And cycles.

Other 3 - lamp combinations are not guaranteed.

This 340 ms t ONL equals 1 over 2.93. Of course,

this is valid within sound activated period.

This t ONL is sample rate dependent.

Ring Flash 4 LEDs slow & inverse

User can specify 4 LEDs ring at slow & inverse.

It means LEDS is turned off for t ONL and then turns on

for 3 x t ONL. And cycles. The LEDW turns off right

after LEDS turns on.

LEDW is turned off for t ONL and then turns on for 3 x t

ONL. And cycles. The LEDX turns off right after LEDW

turns on.

Ring Flash 4 LEDs slow

User can specify 4 LEDs ring at slow speed. It

means LEDS is turned on for t ONL and then turns off

for 4 x t ONL. And cycles. The LEDW turns on right

after LEDS turns off.

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

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MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

LEDX is turned off for t ONL and then turns on for 2 x t

ONL. And cycles. The LEDY turns off right after LEDX

turns on.

LEDY is turned off for t ONL and then turns on for 2 x t

ONL. And cycles.

This 340 ms t ONL equals 1 over 2.93. Of course, this

is valid within sound activated period.

This t ONL is sample rate dependent.

DC 1 is read as D.C. one and is quick form of DC high.

This is a function belongs to OUTs. User may be

confused it with Busy. It is similar to Busy signal but it is

not only valid during audio is being played, like Busy, but

also valid after the audio has been played. Its response

lasts until next audio entry is activated.

DC0 means zero potential (Vss) while the DC1 means

the Vdd.

If user needs 4 LED lamps to perform ring flash.

These 4 pins are only candidates.

Other 4 - lamps combinations are not guaranteed.

Output pins at Cout plays mute

Mute has two types in MVI's Snn07 voice chip. Both

these two types of mute are treat as sound for

considering the output. The Stop is generated after

every mute. Busy is valid during every mute.

LED works at every mute.

Ring Flash 5 LEDs slow & inverse

User can specify 5 LEDs ring at slow & inverse.

It means

LEDS is turned off for t ONL and then turns on for 4 x t

ONL. And cycles. The LEDW turns off right after

LEDS turns on.

Be careful that t PL interval does not count in mute.

Stop Pulse

LEDW is turned off for t ONL and then turns on for 4 x t

ONL. And cycles. The LEDX turns off right after

LEDW turns on.

LEDX is turned off for t ONL and then turns on for 4 x t

ONL. And cycles. The LEDY turns off right after LEDX

turns on.

LEDY is turned off for t ONL and then turns on for 4 x t

ONL. And cycles. The LEDZ turns off right after LEDY

turns on.

LEDZ is turned off for t ONL and then turns on for 4 x t

ONL. And cycles.

Stop pulse is genrated right at the sound ends and lasts

for 40 ms typically. The mask options provide either high

stop pulse or low stop pulse. Stop pulse width is

determined on the sample rate as well as the pitch of

that playing entry when stop pulse occurs.

This 40 ms stop pulse is sufficiently wide to activate TGA

(or TGB or TGC) by feed back wiring.

Sample Rate

There are some parameters depend on sample rate.

They are debounce time, ramp up time, ramp down time,

plain time, LED Ring frequency, LED fix flash frequency

and Stop pulse width. The numbers mentioned in this

data sheet are based on 6 KHz sample rate if not

specified. Higher SR has LED flashes quicker. Higher

SR makes Stop pulse shorter. Higher SR let the

debounce time shorter. Higher SR makes the ramp up

time quicker. Higher SR makes the ramp down time

quicker, too. Higher SR makes shorter plain time.

This chip provides multi-SR function. What it means is

that user can digitize two different sounds in different SR

but plays them by a common Rosc. For example, user

has rocket sound digitized in 9.5 KHz but have rooster

digitized at 6 KHz. While manufactured, user just specify

different pitch numbers on request form - 4 for rocket and

1 for rooster. The chip could be played those two

sounds at a Rosc fit for 6 KHz SR. Because that "pitch

4" at 6 KHz Rosc means 6 KHz playback while "pitch 1"

at 6 KHz Rosc meas playback in 1.6 times 6 KHz.

The 600K ohm Rosc playback 6 KHz sample rate

typically, but just typical. Smaller Rosc playbacks

quicker - Higher pixel rate. MVI provides voice chip with

very flat response for playback vs working voltage.

Higher working voltage get slower playback but

insignificantly.

This 340 ms t ONL equals 1 over 2.93. Of course, this

is valid within sound activated period.

This t ONL is sample rate dependent.

Initial high & Initial low

This is a function belongs to OUTs. It defines the state

only from power on to the first audio activated. It is

effective for all 15 features.

"Initial low" means user want this OUT pin is put to low

whenever this chip is power on. "Initial high" means

vice versa.

Initial high is good for LED because that high will forbid

the LED to be turned on, user want not keep the LED

light even user don't use very long time since user

power on the chip. So, we suggest user to define

"initial high" whenever LED is chosen for that OUT pin.

But it is not absolutely right. User may on purpose turn

it on once user likes it.

Initial low is good for Busy because that low will have

every Busy starts from zero on whole time line. So,

user are suggested to define "initial low" whenever

Busy is chosen for that OUT pin.

But it is not absolutely right. User may on purpose

have a high to do whatever user want, to turn a motor

running this way or tell a situation since power on, etc.

The similar situation for DC high or low. The similar

situation for Stop signal.

Lower Key Priority

What's the result when multi triggers are activated simul-

taneously? Which trigger is acknowledged among these

ninteen? Among these sixteen? Among these three?

Between these two?

DC 0 & DC 1

DC 0 is read as D.C. zero and is quick form of DC low.

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

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MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

The lower key priority means the trigger with lower

index has the priority to be acknowledged and

responsed when there are several triggers activated

simultaneously.

For example: Three triggers are activated

simultaneously, RW3K1, RW2K3, RW4K2. The RW3K1

has the priority, sentence 3 will be responsed.

For another example: Five triggers are activated

simultan eously, RW1K2, RW2K3, TGA/OKY, TGB,

TGC. The RW1K2 has the priority, sentence 5 will be

responsed.

Application Notes

R1

Oscillation Resistor at pin Rosc, see chapter Signals

paragraph Rosc as well as DC Characteristics for

detail.

R2

Bypss Resistor at pin Cout, see chapter Signals

paragrahp Cout for detail.

There is a priority reference on page 9/39 and a timing

diagram III to illustrate it.

R cds

Maximal contact resistance. Whenever try to activate

the input signal pin at matrix triggers, to have the cross

point contacted will activate it. However, there may be

resistance on the cross point A resistance higher than

this R cds will be unable to activate the trigger.

To apply Vdd (or Vss, depends on mask option

specified) directly to stand-alone trigger will activate the

trigger. However, there may be resistance on the

contact point. A resistance higher than R cds will be

unable to activate the trigger, either.

First Key Priority

First key priority is available among 16 mafrix triggers.

This defines the relationship on time line for two or

more triggers overlap. While user activating a trigger,

for example RW2K2, and its sound plays, user is

unable to activate the other trigger once RW2K2 is kept

activated regardless sentence 6 is finished or not.

It means first trigger prohibits the acknowledge of later

triggers when trigger is kept true.

To limit current runs through LED lamp

Last Key Priority

Last key priority is available among three straight keys -

TGA, TGB, TGC.

This defines the relationship on time line for two or

more triggers overlap.

S1207 output pin provides huge drive (or sink) current

capability. But the LED lamp may not need so huge

current to have a best performance. To serial a resistor

along with LED lamp is recommended.

What will it result when a

trigger is activated while a trigger is true ahead and

kept true ?

Don't flash LED at Cout Silence

The LED lamp flashes well in whatever options user

specified when the sound is playing. Don't flash LED

lamp when Cout stays at mute is strongly

recommended.

If user insists, please be noted that there is a slight

drum stream comes out at speaker. Its frequency is

double the frequency of LED flash. Its loudness

depends on the Vdd bias, transistor amplification and

count of LED lamp flashes. It could be -35 dB (or even

lower as -50 dB) lower than the meaningful sound

played at the office operation environment and

hand-touchable distance.

While user already activates a trigger, for example

TGC, and keeps this TGC true, the later trigger is still

able to come in and acknowledged by chip. It means

the late trigger is not prohibited by priorer.

See timing diagrams III.4,5,6 for reference.

User may be confused it with "retrigger". They are

different.

Key Priority Reference

Between

Straight

Triggers

TGm

Between

Conditions

Straight trigger

And Matrix trigger

TGm

Between Matrix triggers

Priorer

Later

KiRWj

TGm

KhRWi

KhRWj

KiRWh

KjRWh

KiRWm

KjRWn

TGn

KiRWj

Priority Result

Last key

Not Guaranteed Not Guanranteed First key

First key

Legend : Priorer

Later

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

8/39

PID247*** 09/96

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Pitches Reference

Mask Index

Loudness Levels Reference

Playback

Pitch

Mask Index I output Loudness

111

110

101

100

011

010

001

000

7

6

5

4

3

2

1

0

73% x Fosc Fosc / 1.37 Slowest

80% x Fosc Fosc / 1.25

88% x Fosc Fosc / 1.13

111

110

101

100

011

010

001

000

7 100% x Ico Loudest

6

5

4

3

2

1

0

87% x Ico

75% x Ico

62% x Ico

50% x Ico

37% x Ico

25% x Ico

12% x Ico Least Loud

100% x Fosc

115% x Fosc

133% x Fosc

158% x Fosc

198% x Fosc

Standard

Fastest

The precision is +/- 10%

Lower Key Priority Reference

Ico Reference Curves

Ico(mA)

6

Priority

1

Trigger

K1RW1

K1RW2

K1RW3

K1RW4

K2RW1

K2RW2

K2RW3

K2RW4

K3RW1

K3RW2

K3RW3

K3RW4

K4RW1

K4RW2

K4RW3

K4RW4

TGA/OKY

TGB

Sentence

Remarks

Highest

1

2

Curve 3

Curev2

5

4

3

2

1

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

10

11

12

13

14

15

16

17

18

19

4

(Vdd)

3

5

6

These curves show the typical values. The max. and min.

values are not identified.

Lowest

TGC/INT

Absolute Maximum Rating

Fosc Characteristics

Fosc(H2)

6000

Rating

Unit

V

Symbol

~ V

-0.5 ~ +7.0

V

DD

SS

V

SS

-0.3 < V < V +0.3

V

IN

DD

IN

4000

2000

V

SS

<V

< V

V

DD

V

OUT

T (Operating)

T (Storage)

-10 ~ +60

-55 ~ +125

C

4

(Vdd)

3

5

6

@600 K ohm Rosc & pitch option 4

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

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MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

DC Characteristics at 3.0 Vdd

Condition

Valid

Vdd

Min. Typ.

Max.

Unit.

1 uA

Symbol Parameter

I sb

Stand by I

i/o open

I op

Operation I

input high I

input low I

output high I

output low I

input high I

input low I

output high I

output low I

current output

Current o/p V

Oscillation R

Bypass R

Vdd

75

3

0

-10

10

3

150 uA

15 uA

uA

I ihK

I iLK

I ohR

I oLR

I ihT

I iLT

I ohr

I oLr

I co

V co

R1

R2

K1,2,3,4

RW1,2,3,4

RW1,2.3.4

TGA,B,C

OS,W,X,Y,Z

Cout

mA

uA

15

mask:=active high

uA

0

-10

10

1.8

mA

mV

half scale, curve Ico 3

Cout

Rosc

600

450

240

Kohm SR=6 KHz

Kohm SR=8 KHz

Kohm SR=15 KHz

ohm

max contact R

Frq. stability

Frq. variation

R cds

d F/F

Kohm

%

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

lot by lot

+/- 5

+/- 10

DC Characteristics at 4.5 Vdd

Valid

Condition

Min. Typ.

Max.

Unit.

Symbol Parameter

I sb

Stand by I

1 uA

i/o open

Vdd

I op

Operation I

input high I

input low I

output high I

output low I

input high I

input low I

output high I

output low I

current output

Current o/p V

Oscillation R

Bypass R

150

10

0

-20

20

10

0

-20

20

3.7

200 uA

20 uA

uA

Vdd

I ihK

I iLK

I ohR

I oLR

I ihT

I iLT

I ohr

I oLr

I co

V co

R1

R2

K1,2,3,4

RW1,2,3,4

TGA,B,C

OS,W,X,Y,Z

Cout

mA

uA

20

mask:=active high

uA

mA

mV

half scale, curve Ico 3

Cout

Rosc

600

450

240

Kohm SR=6 KHz

Kohm SR=8 KHz

Kohm SR=15 KHz

ohm

max contact R

Frq. stability

Frq. variation

R cds

d F/F

Kohm

%

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

lot by lot

+/- 5

+/- 10

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

10/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

AC Characteristics at 6000 Hz S.R.

Timing Description

Max.

Min.

Typ.

Unit

Remark

LED turn on time (slow)

Trigger Pulse width (fast)

Trigger Pulse width (normal)

Lag from trigger to busy start

Ramp up width

t ONL

t T

-

340

-

ms

us

SRD

t T

21

-

ms

t TB

t RMU

t RMD

t PL

t VB

t BS

t STP

t P

20

40

0

-

Ramp down width

-

Plain width behind sound

Lag from voice end to busy end

Lag from busy end to stop start

Stop pulse width

-

0

-

40

-

Power Rise up time

-

1

Power ripple width

t R

-

SRD : Sample Rate Dependent

COB Information I

Silk screen & copper print

COB model number : MVI-P28

RW3

RW4

OZ

RW2

RW1

K1

15 mm

10

5

0

OY

K2

OX

K3

Legend

K4

Copper pad

NC

Chip covered

Vdd

COUT

OW

OS

TGA/OKY

TGB

TGC/INT

Rosc

V2

V1

Vss

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

11/39

PID247*** 09/96

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

COB Information II

Silk screen & copper print

COB model number : MSM9226

Board size : 100 mm x 80 mm

Double size

R1

Vdd

SN:

D5

JP3

D1

D2

D3

D4

OS OW OX OY OZ

JP5

Vdd

Vss

K1

DRV

TGA

TGB

TGC

OS

OW

OX

K2

K3

K4

RW1

RW2

RW3

RW4

Cout

GND

SPK

Legend

JP1

JP2

Through hole

OY

OZ

SNK

LED lamp

OS OW OX OY OZ

BUZZER

SW4

D6

D7

D8 D9

D10

SW8

SW12 SW16

SW11 SW15

SW10 SW14

Chip covered

RW4

RW3

RW2

RW1

copper pad & through hole

SW3

SW2

SW7

SW6

A

B

C

Vdd

HI

SEL JP4

RW1

LO

C

SW1

K1

SW5

K2

SW9

K3

SW13

K4

OKY

INT

TGA

TGB

TGC

Specifications subject to change without notice, contact your sales representatives for the most recent information.

12/39

(Preliminary)

PID247*** 09/96

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Timing Critical

I. Acceptable Power On Signal & Ripple

T

P

TR

V

DD

90% V

DD

10% V

DD

V

= 0.0 V

SS

II. To play a voice sound

Trigger

Audio

Sound

Busy

t

T

t

RMD

t

RMU

t

PL

t

VB

t

TB

t

BS

Stop

t

STP

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

13/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Timing Diagram

I.1 Edge/Unholdable/Retrigger/LED/STOP/BUSY Trigger Mask

TG2

AUDIO

LED

Sent2

STOP

BUSY

I.2 Level/Unholdable/Retrigger/LED/STOP/BUSY Trigger Mask

TG1

TG2

AUDIO

LED

Sent2

Sent1

Sent2

STOP

BUSY

II.1 Edge/Holdable/Retrigger/LED/STOP/BUSY Trigger Mask

TG1

TG2

Sentence 2

Sentence 1

Sentence 2

AUDIO

LED

STOP

BUSY

II.2 Level/Holdable/Retrigger/LED/STOP/BUSY Trigger Mask

TG1

TG2

Sentence 2

Sentence 1

Sentence 2

AUDIO

LED

STOP

BUSY

Specifications subject to change without notice, contact your sales representatives for the most recent information.

14/39

(Preliminary)

PID247*** 09/96

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

III.1 Lower Key priority 1

K1 RW2

K1 RW4

K2 RW3

K3 RW2

K4 RW1

K1RW1

Audio

sentence 4

sentence 7

sentence 1

III.2 Lower Key priority 2

K1 RW1

K2 RW1

K2 RW2

K2 RW3

K2 RW4

K4 RW4

Audio

sentence 8

III.3 Lower Key priority 3

K1 RW1

K4 RW4

TGA/OKY

TGB

TGC

sentence 17 or OKY's

sentence 18

sentence 1

sentence 16

Audio

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

15/39

PID247*** 09/96

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

III. 4 Triggered at different time 1, Last key priority and else

URL

TGA

URE

TGB

UIE

TGC

AUDIO

Sent17

Sent18

Sent19

Sent18

BUSY

Legend : E : = masked as Edge trigger type

I : = masked as Irretriggrable

L : = masked as Level trigger type

R : = masked as Retriggerable

U : = masked as Holdable audio output

III. 5 Triggered at different time 2, Last key priority and else

TGA

URL

URE

TGB

TGC

UIL

Sent19

AUDIO

BUSY

Sent17

Sent18

Sent19

Sent18

Sent19

Legend : The same as those in III.2

III. 6 Triggers Overlapped, Last key priority for TGs

TGA

TGB

Sent17

Sent18

Sent 2

Sent 5

Sent17

Audio

III. 7 Triggers Overlapped, First key priority for matrix at a column

K1RW1

K1RW2

Sent 1

Audio

III. 8 Triggers Overlapped, First key priority for matrix at a row

K1RW1

K2RW1

Sent 1

Audio

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

16/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

III. 9 Triggers Overlapped, First key priority for matrix

K1RW2

K3RW4

Sent 2

Audio

Sent 12

IV. 1 LED Ring Flash

All 5 output pins are masked as LED Ring Flash and speed is identical at slow speed.

LEDs are sunk.

Audio

OS

OW

OX

OY

OZ

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

17/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

IV. 2 LED Ring Flash Inverse

All 5 outputs are masked as LED Ring Flash Inversed and speed is identical at slow speed.

LEDs are sunk.

Audio

OS

OW

OX

OY

OZ

IV. 3 LED Ring Flash

Four LEDs are masked as LED Ring Flash and speed is identical at slow speed.

LEDs are sunk.

Audio

OS

OW

OX

OY

IV. 4 LED Ring Flash

Three LEDs are masked as LED Ring Flash and speed is identical at slow speed.

LEDs are sunk.

Audio

OS

OW

OX

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

18/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

V. 1 LED Fix Flash

All 5 output pins are masked as LED Fix Flash and speed is identical at slow speed.

LEDs are sunk.

Audio

OS

OW

OX

OY

OZ

V. 2 LED Fix Flash

OS pin is masked as LED fix flash.

All other 4 output pins are masked as LED fix flash inversed. These 5 LED output pins have identical speed.

LEDs are sunk.

Audio

OS

OW

OX

OY

OZ

VI. 1 Busy at initial high

Vdd

Audio

Busy

VI. 2 Stop at initial high

Vdd

Audio

Stop

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

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MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

VI. 3 LED flash inverse at initial high (LED is sunk)

Vdd

Audio

LED

VI. 4 LED flash at initial high (LED is sunk)

Vdd

Audio

LED

VII. 1 Busy at initial low

Vdd

Audio

Busy

VII. 2 Stop at initial low

Vdd

Audio

Stop

VII. 3 LED flash at initial low (LED is sunk)

Vdd

Audio

LED

VII. 4 LED flash inverse at initial low (LED is sunk)

Vdd

Audio

LED

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

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MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Application Circuits

I. Straight 7 Triggers

II. To limit current at LED

Vdd

Cout

K1 sentence 1

K2 sentence 5

K3 sentence 9

K4 sentence 13

Out

Snn07

Out

TGA/OKY

TGB

Snn07

Vss

TGC/INT

III. M9226 demo COB circuit

JP3

SW16

SW12

SW8

SW13

SW9

SW5

SW1

JP10

JP1

Speaker

SW4

JP4

Q

8050

K1

RW1

RW2

RW3

RW4

TGC/ INT

Rosc

Vss

V1

Snn07

Buzzer

R2

V2

D6

D7

D8

D9

D10

JP2

JP3

D1

D2

D3

D4

D5

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

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MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

IV. Typical Application Circuit

Pad Information

Pad#

Signal

X

Y

16

13

1

V2

-503

-269

-36

-706

-624

-447

-175

-27

2

V1

3

Vss

Rosc

R1

4

220

4

1

5

TGC/INT 453

TGB 699

TGA/OKY 699

Speaker

6

7

Q

8

Vdd

NC

699

522

299

63

9

13

14

15

16

11

10

9

8

7

5

4

3

2

1

10

11

12

13

14

15

16

17

18

19

20

21

22

23

K4

185

398

611

706

552

318

82

K3

Rosc

Vss

RW1

RW2

K2

MSSnn07

K1

1710 X 1730 um

Substrate is Vdd

RW1

RW2

RW3

RW4

OZ

RW3

RW4

V1

Pad size is 90 X 90um

-173

-409

-699

V2

17

18

Buzzer

19

20

21

22

OY

OX

COUT

OW

OS

-226

-460

-696

R2

Taiwan

#1 Creation Road I,

Science - based Industrial Park,

Hsinchu, 30077

Taipei

Hongkong

U.S.A.

China

(Vitelic HKG ShenZhen)

Room #209,

#19 ZhenHua road,

ShenZhen, China

7F, #102 Section 3,

Ming Chung E. Road,

Taipei, 105

#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

"audio_reply@ccmail.mosel.com.tw"

TEL: 886-3-5770055

FAX: 886-3-5772788

FAX: 886-3-5784732

TEL: 852-2388-8277 (MKO)

TEL: 852-2665-4883

FAX: 852-2664-2406

TEL: 886-2-5451213

FAX: 886-2-5451214

TEL: 1-408-433-6000

FAX: 1-408-433-0952

TEL: 86-755-334-5766

FAX: 86-755-332-3995

FAX: 852-2770-8011 (MKO)

Specifications subject to change without notice, contact your sales representatives for the most recent information.

(Preliminary)

PID247*** 09/96

22/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

MSS1207

T o :

Mosel Vitelic Inc. 886-3-577-2788 (fax)

Attn : Sales & Marketing Department

P r o d u c t R e q u e s t F o r m

I hereby request MVI to start preparing produce MSS1207 which is specified as below description as well

as attached form(s). I already read this data sheet PID247 *** and understand MSS1207 completely and know

how to specify to fit my requirement. Its voice storage limitation is 11A00h.

G e n e r a l D e s c r i p t i o n s

Customer

C h i p d e s c r i p t i o n s

TGA

No use & don't care

TGC INT

OKY

T i t l e

Cannot proceed when empty

SampleRate

Output

Hz

Buzzer (F fr =1KHz)

Speaker (0.25W,

8 ohm, 1" diam.)

Other:

Agent

Sales

No use & don't care

Ring 5 LEDs

Device

Repr'tives Who is MVI sales you contact ?

Providing

to

8-bit PCM sound files

.WAV sound files

DAT or equivalent

application is special,

see our written memo

Others

Ring 4 LEDs

Ring 3 LEDs

Working

Voltage

2.5 V at curve 3

3.0 V at curve 3

3.5 V at curve 3

4.0 V at curve 3

4.5 V at curve 3

5.0 V at curve 3

5.5 V at curve 2

6.0 V at curve 2

Battery size "D"

Battery size "AA"

Battery size "AAA"

other size =

MVI

No Ring LED

Specify below only for OKY

No use and don't care

Small Loop (17-32)

Large Loop (1-32)

No use and don't care

CycleLoop=Sentenc.Count

CycleLoop=

Service

Required

from

EPROMs with data inside

files to be programmed into

EPROM

MVI

9026 emul'n board & Eprom

Confirm table

Power

No use and don't care

PlayAll

Source

Others

Play Random

PlayNext in Home sequence after Interrupt

PlayNext in Continue seque. after Interrupt

Mains

Other

Form N is attached due to this Single page form meets my need.

Forms J, F and H are attached due to these quick forms meet my demand.

Form G, F, A8, 7, 6, 5, 4, 3, 2, 1 are attached due to my application is delicate.

Company Name :

Signature :

Fax number :

Date :

Department/Section :

Position Title :

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

23/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

MSS0907

T o :

Mosel Vitelic Inc. 886-3-577-2788 (fax)

Attn : Sales & Marketing Department

P r o d u c t R e q u e s t F o r m

I hereby request MVI to start preparing produce MSS0907 which is specified as below description as well

as attached form(s). I already read this data sheet PID247 *** and understand MSS0907 completely and know

how to specify to fit my requirement. Its voice storage limitation is D800h.

G e n e r a l D e s c r i p t i o n s

Customer

C h i p d e s c r i p t i o n s

TGA

No use & don't care

TGC INT

OKY

T i t l e

Cannot proceed when empty

SampleRate

Output

Hz

Buzzer (F fr =1KHz)

Speaker (0.25W,

8 ohm, 1" diam.)

Other:

Agent

Sales

No use & don't care

Ring 5 LEDs

Device

Repr'tives Who is MVI sales you contact ?

Providing

to

8-bit PCM sound files

.WAV sound files

DAT or equivalent

application is special,

see our written memo

Others

Ring 4 LEDs

Ring 3 LEDs

Working

Voltage

2.5 V at curve 3

3.0 V at curve 3

3.5 V at curve 3

4.0 V at curve 3

4.5 V at curve 3

5.0 V at curve 3

5.5 V at curve 2

6.0 V at curve 2

Battery size "D"

Battery size "AA"

Battery size "AAA"

other size =

MVI

No Ring LED

Specify below only for OKY

No use and don't care

Small Loop (17-32)

Large Loop (1-32)

No use and don't care

CycleLoop=Sentenc.Count

CycleLoop=

Service

Required

from

EPROMs with data inside

files to be programmed into

EPROM

MVI

9026 emul'n board & Eprom

Confirm table

Power

No use and don't care

PlayAll

Source

Others

Play Random

PlayNext in Home sequence after Interrupt

PlayNext in Continue seque. after Interrupt

Mains

Other

Form N is attached due to this Single page form meets my need.

Forms J, F and H are attached due to these quick forms meet my demand.

Form G, F, A8, 7, 6, 5, 4, 3, 2, 1 are attached due to my application is delicate.

Company Name :

Signature :

Fax number :

Date :

Department/Section :

Position Title :

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

24/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

MSS0607

T o :

Mosel Vitelic Inc. 886-3-577-2788 (fax)

Attn : Sales & Marketing Department

P r o d u c t R e q u e s t F o r m

I hereby request MVI to start preparing produce MSS0607 which is specified as below description as well

as attached form(s). I already read this data sheet PID247 *** and understand MSS0607 completely and know

how to specify to fit my requirement. Its voice storage limitation is 9000h.

G e n e r a l D e s c r i p t i o n s

Customer

C h i p d e s c r i p t i o n s

TGA

No use & don't care

TGC INT

OKY

T i t l e

Cannot proceed when empty

SampleRate

Output

Hz

Buzzer (F fr =1KHz)

Speaker (0.25W,

8 ohm, 1" diam.)

Other:

Agent

Sales

No use & don't care

Ring 5 LEDs

Device

Repr'tives Who is MVI sales you contact ?

Providing

to

8-bit PCM sound files

.WAV sound files

DAT or equivalent

application is special,

see our written memo

Others

Ring 4 LEDs

Ring 3 LEDs

Working

Voltage

2.5 V at curve 3

3.0 V at curve 3

3.5 V at curve 3

4.0 V at curve 3

4.5 V at curve 3

5.0 V at curve 3

5.5 V at curve 2

6.0 V at curve 2

Battery size "D"

Battery size "AA"

Battery size "AAA"

other size =

MVI

No Ring LED

Specify below only for OKY

No use and don't care

Small Loop (17-32)

Large Loop (1-32)

No use and don't care

CycleLoop=Sentenc.Count

CycleLoop=

Service

Required

from

EPROMs with data inside

files to be programmed into

EPROM

MVI

9026 emul'n board & Eprom

Confirm table

Power

No use and don't care

PlayAll

Source

Others

Play Random

PlayNext in Home sequence after Interrupt

PlayNext in Continue seque. after Interrupt

Mains

Other

Form N is attached due to this Single page form meets my need.

Forms J, F and H are attached due to these quick forms meet my demand.

Form G, F, A8, 7, 6, 5, 4, 3, 2, 1 are attached due to my application is delicate.

Company Name :

Signature :

Fax number :

Date :

Department/Section :

Position Title :

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

25/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

MSS0307

T o :

Mosel Vitelic Inc. 886-3-577-2788 (fax)

Attn : Sales & Marketing Department

P r o d u c t R e q u e s t F o r m

I hereby request MVI to start preparing produce MSS0307 which is specified as below description as well

as attached form(s). I already read this data sheet PID247 *** and understand MSS0307 completely and know

how to specify to fit my requirement. Its voice storage limitation is 5100h.

G e n e r a l D e s c r i p t i o n s

Customer

C h i p d e s c r i p t i o n s

TGA

No use & don't care

TGC INT

OKY

T i t l e

Cannot proceed when empty

SampleRate

Output

Hz

Buzzer (F fr =1KHz)

Speaker (0.25W,

8 ohm, 1" diam.)

Other:

Agent

Sales

No use & don't care

Ring 5 LEDs

Device

Repr'tives Who is MVI sales you contact ?

Providing

to

8-bit PCM sound files

.WAV sound files

DAT or equivalent

application is special,

see our written memo

Others

Ring 4 LEDs

Ring 3 LEDs

Working

Voltage

2.5 V at curve 3

3.0 V at curve 3

3.5 V at curve 3

4.0 V at curve 3

4.5 V at curve 3

5.0 V at curve 3

5.5 V at curve 2

6.0 V at curve 2

Battery size "D"

Battery size "AA"

Battery size "AAA"

other size =

MVI

No Ring LED

Specify below only for OKY

No use and don't care

Small Loop (17-32)

Large Loop (1-32)

No use and don't care

CycleLoop=Sentenc.Count

CycleLoop=

Service

Required

from

EPROMs with data inside

files to be programmed into

EPROM

MVI

9026 emul'n board & Eprom

Confirm table

Power

No use and don't care

PlayAll

Source

Others

Play Random

PlayNext in Home sequence after Interrupt

PlayNext in Continue seque. after Interrupt

Mains

Other

Form N is attached due to this Single page form meets my need.

Forms J, F and H are attached due to these quick forms meet my demand.

Form G, F, A8, 7, 6, 5, 4, 3, 2, 1 are attached due to my application is delicate.

Company Name :

Signature :

Fax number :

Date :

Department/Section :

Position Title :

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

26/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

1<

<512

There are

entries included in this sentence.

1<

<32

T I T L E

Product Request Form A1: Sentence

Definitions

Section Pitch Loud

OS

OW

OX

OY

OZ

words defined on this page.

There are 1<

32

<64

A - 8

31 - 0

7 - 0

A - 8

00

01

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of

Signature & date

MVI Sales & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

27/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

1<

<32

T I T L E

Definitions

Product Request Form A2: Sentence

Section Pitch Loud

OS

OW

OX

OY

OZ

words defined on this page.

<64

There are 1<

A - 8

31 - 0

7 - 0

A - 8

64

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127

of

Signature & date

MVI Sales & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

28/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

<32

Product Request Form A3: Sentence ^1<

Definitions

T I T L E

Section Pitch Loud

OS

OW

OX

OY

OZ

words defined on this page.

There are 1<

160

<64

A - 8

31 - 0

7 - 0

A - 8

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of

Signature & date

MVI Sales & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

29/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

<32

Product Request Form A4: Sentence ^1<

Definitions

T I T L E

Section Pitch Loud

OS

OW

OX

OY

OZ

words defined on this page.

There are 1<

224

<64

A - 8

31 - 0

7 - 0

A - 8

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of

Signature & date

MVI Sales & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

30/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

<32

Product Request Form A5: Sentence ^1<

Definitions

T I T L E

Section Pitch Loud

OS

OW

OX

OY

OZ

words defined on this page.

There are 1<

288

<64

A - 8

31 - 0

7 - 0

A - 8

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of

Signature & date

MVI Sales & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

31/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

<32

Product Request Form A6: Sentence ^1<

Definitions

T I T L E

Section Pitch Loud

OS

OW

OX

OY

OZ

words defined on this page.

There are 1<

352

<64

A - 8

31 - 0

7 - 0

A - 8

320

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of

Signature & date

MVI Sales & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

32/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

<32

Product Request Form A7: Sentence ^1<

Definitions

T I T L E

Section Pitch Loud

OS

OW

OX

OY

OZ

words defined on this page.

There are 1<

416

<64

A - 8

31 - 0

7 - 0

A - 8

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of

Signature & date

MVI Sales & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

33/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

<32

Product Request Form A8: Sentence ^1<

Definitions

T I T L E

Section Pitch Loud

OS

OW

OX

OY

OZ

words defined on this page.

There are 1<

480

<64

A - 8

31 - 0

7 - 0

A - 8

448

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510

511

of

Signature & date

MVI Sales & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

34/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

T I T L E

Product Request Form F: Word Section Definition

Address Voice Description

Voice Length Mute Length File name Check Sum

s

0

1

s

ooh

h

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

1<

<32

There are

words defined on this form F and their length sum'n is

MVI Sales & Date

ooh (< limit).

Signature & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

35/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Product Request Form G: (Trigger / Sentence dependent)

T I T L E

*Trigger Option Definition:

Edge

Active High

Active Low

Active High

Active Low

Active High

Don't care

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

TGA

OKY

Level

Edge

Level

Edge

Level

Edge

Level

Edge

Level

Edge

Level

Edge

Level

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

TGB

Hold & Irretrigger

Hold & Retrigger

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

TGC

INT

Active Low

Active High

K1

K2

K3

K4

Active Low

Active High

Don't care

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

Active Low

Active High

Hold & Irretrigger

Hold & Retrigger

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

Active Low

Active High

Active Low

Sentence & Their Entry Count

Trigger Sentence Entry Count

Entry Count

Trigger Sentence

RW1 K1

RW2 K1

RW3 K1

RW4 K1

RW1 K2

RW2 K2

RW3 K2

RW4 K2

RW1 K3

RW2 K3

RW3 K3

1

2

RW4 K3

RW1 K4

RW2 K4

RW3 K4

RW4 K4

TGA

12

13

14

15

16

17

18

19

20

21

22

OKY

23

24

25

26

27

28

29

30

31

32

3

4

5

6

7

TGB

8

TGC

9

OKY

10

11

OKY

Summation < 512

Output definition on initial state

OS

OW

OX

OY

OZ

initial High

initial Low

Don't care

iH iL Dnc

Forms An's are attached.

Signature & date

MVI Sales & Date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

36/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

T I T L E

Product Request Form H : Sentence Table Definitions

Address

count

Trigger

K1RW1

K1RW2

K1RW3

K1RW4

K2RW1

K2RW2

K2RW3

K2RW4

K3RW1

K3RW2

K3RW3

K3RW4

K4RW1

K4RW2

K4RW3

K4RW4

TGA

TGB

TGC

X

Sentence

1

Sentence Definition (word section addresses)

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

X

There are 1<

<32 sentences defined on this form H and their address entry sum'n =

MVI Sales & date

<512

Signature & date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

37/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Product Request Form J:

*Trigger Option Definition:

T I T L E

Edge

Active High

Don't care

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

TGA

OKY

Level

Active Low

Active High

Active Low

Active High

Edge

Level

Edge

Level

Edge

Level

Edge

Level

Edge

Level

Edge

Level

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

TGB

Hold & Irretrigger

Hold & Retrigger

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

TGC

INT

Active Low

Active High

K1

K2

K3

K4

Active Low

Active High

Don't care

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

Active Low

Active High

Hold & Irretrigger

Hold & Retrigger

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

Unhold & Irretrigger

Unhold & Retrigger

Active Low

Active High

Active Low

*Output Definition: Neither variable pitch nor variable loudness is used.

OS OW OX

initial Low i H i H

Don't care Don't Care

OY

OZ

initial High

i L

i H

i L

i H i L

Don't Care

Don't care

A: high Stop

B: low Stop

C: High Busy

D: low Busy

E: DC high

J: LED dy27/31

N: LED fix slow

R: LED ring slow

2: LED fix inverse

4: LED ring inverse

7: LED on

A

J

A

B

C

D

E

F

J

A

B

C

D

E

F

J

A

B

C

D

E

F

J

B

C

D

E

F

N

R

2

N

R

2

N

R

2

N

R

2

4

F: DC low

7

G: LED dy17/31

H: LED dy23/31

8: LED off

G

H

8

G

H

8

G

H

8

G

H

8

Don't care

Dnc

Signature & date

MVI Sales & Date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

38/39

MOSEL VITELIC INC.

MSS0307/S0607/S0907/S1207/S1507/S1807

Product Request Form N: (whole chip dependent)

T I T L E

*Section Definition : There are 1<

<8 sections defined.

Address Voice Description

Voice Length Mute Length File name Check Sum

0

1

2

3

4

s

ooh

h

5

6

7

ooh

< limit

*Tirgger Option Denfinition:

Edge

Level

Active high

Active low

Hold & Irretrigger

Hold & Retrigger

Unhold & Irretrigger

Unhold & Rerigger

Don't care

1<

<6

*Trigger Sentence Definition: There are

sentences define

Trigger

Sentence Description (Word section addresses)

Address Count

Address count summation=

OY

<512

*Output Definition: Neither variable pitch nor variable loudness is used.

OS OW OX

initial Low i H i H

Don't care Don't Care

OZ

initial High

i L

i H

i L

i H i L

Don't Care

Don't care

A: high Stop

B: low Stop

C: High Busy

D: low Busy

E: DC high

J: LED dy27/31

N: LED fix slow

R: LED ring slow

2: LED fix inverse

4: LED ring inverse

7: LED on

A

J

A

B

C

D

E

F

J

A

B

C

D

E

F

J

A

B

C

D

E

F

J

B

C

D

E

F

N

R

2

N

R

2

N

R

2

N

R

2

4

F: DC low

7

G: LED dy17/31

H: LED dy23/31

8: LED off

G

H

8

G

H

8

G

H

8

G

H

8

Don't care

Dnc

Signature & date

MVI Sales & Date

Specifications subject to change without notice, contact your sales representatives for the most recent information.

PID247*** 09/96

(Preliminary)

39/39


型号：	MSS1207
厂家：	MOSEL VITELIC, CORP
描述：	3/ 6/ 9/ 12 / 15 / 18 VOICE ROM 3 /6/9 /12 /一十八分之十五VOICE ROM 商用集成电路
文件：	总39页 (文件大小：387K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MSS1207 [MOSEL]

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