MOSEL MSS1807

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.
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.
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.
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.
Sink LED is provided.
•\؇°G
Off LED when Playing audio is provided optionally
entrywise.
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.
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.
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.
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.
(Preliminary)
1/39
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
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)
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)
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
Mask Options
(entrywise)
among 8 pitches for each entry
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 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
Voice Storage Reference
Device
MSS1807
MSS1507
MSS1207
MSS0907
MSS0607
MSS0307
Capacity
1A600h
16000h
11A00h
D800h
9000h
5100h
Duration at 6KHz S.R. Section
18.01 seconds
32
15.01 seconds
32
12.03 seconds
32
9.21 seconds
32
6.14 seconds
32
3.45 seconds
32
Entry / Sentence
512/32
512/32
512/32
512/32
512/32
512/32
Word with mute behide
20000h
20000h
20000h
20000h
20000h
20000h
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
2/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Block Diagram
K1 K2 K3 K4
RW1
RW2
RW3
RW4
TGA/OKY
TGB
TGC/INT
OS
OW
OX
OY
OZ
V DD
V SS
ADDRESS
GENERATOR
TIMING
GENERATOR
VOICE
CONTROL
ROM
LOGIC
MPCM
Decoder
TRIGGER
TABLE
CLOCK
GENERATOR
Rosc
Varaible Pitch
Buzzer
Buffer
V1
V2
Varaible
Loudness
Speaker
Buffer
C OUT
Pad Description
Signals
Pad #
I/O
Function
1
2
3
4
5
6
7
8
9
10
V2
V1
Vss
Rosc
TGC/INTP
TGB
TGA/OKY
Vdd
NC
K4
1
O
1
O
1 Power
1
I
1
I
1
I
1
I
1 Power
1
1
I
Voltage output 1, to drive buzzer
Voltage output 2, to drive buzzer
Ground
Rosc
Trigger C or Interrupt input, mask optional
Trigger B input
Trigger A or one-key input, mask optional
Positive power supply
No connection
Matrix trigger column input 4
11
12
K3
K2
K1
RW1
RW2
I
I
I
Matrix trigger column input 3
Matrix trigger column input 2
13
14
15
1
1
1
1
1
-
16
RW3
17
18
19
RW4
OZ
OY
1
1
1
O
20
21
OX
Cout
1
1
O
O
22
23
OW
OS
1
1
1
O
O
O
Matrix trigger column input 1
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
Output signal Y
Output signal X
Current Output, to drive speaker through transistor
Output signal W
Output signal S
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
3/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Signals
Cout
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.
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.
What the poor source means either its potential
drops as the load varies or its potential drops as its
capacity exhausted.
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.
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.
OS, OW, OX, OY, OZ
There are 5 output pins provided. Each pin can
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
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.
K1, K2, K3, K4
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.
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
4/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Terms
Retriggerable TG
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.
This active-high pin is internal pull low and no latch.
This active-low pin is internal pull high and no latch.
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.
Herein zero output does not mean zero potential,
neither ground.
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.
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.
Herein zero output does not mean zero potential,
neither ground.
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.
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)
5/39
PID247*** 09/96
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.
Other 4 - lamp combinations are not guaranteed.
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.
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.
If user needs 3 LED lamps to perform ring flash. These
3 pins are only candidates.
Other 3 - lamp combinations are not guaranteed.
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.
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.
Other 3 - lamp combinations are not guaranteed.
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.
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)
6/39
PID247*** 09/96
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.
If user needs 4 LED lamps to perform ring flash.
These 4 pins are only candidates.
Other 4 - lamps combinations are not guaranteed.
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.
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.
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.
DC 0 & DC 1
DC 0 is read as D.C. zero and is quick form of DC low.
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.
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.
Be careful that t PL interval does not count in mute.
Stop Pulse
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.
Lower Key Priority
What's the result when multi triggers are activated simultaneously? Which trigger is acknowledged among these
ninteen? Among these sixteen? Among these three?
Between these two?
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
7/39
PID247*** 09/96
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.
There is a priority reference on page 9/39 and a timing
diagram III to illustrate it.
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.
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.
What will it result when a
trigger is activated while a trigger is true ahead and
kept true ?
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.
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.
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.
To limit current runs through LED lamp
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.
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.
Key Priority Reference
Conditions
Between
Straight
Triggers
Priorer
Later
Priority Result
TGm
TGn
Last key
Legend :
Between
Straight trigger
And Matrix trigger
TGm
KiRWj
KiRWj
TGm
Not Guaranteed Not Guanranteed
Between Matrix triggers
KhRWi
KhRWj
First key
KiRWh
KjRWh
First key
KiRWm
KjRWn
First key
Priorer
Later
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
8/39
PID247*** 09/96
MSS0307/S0607/S0907/S1207/S1507/S1807
MOSEL VITELIC INC.
Pitches Reference
Loudness Levels Reference
h
Mask Index Playback PlaybackPitc
111
7 73% x Fosc Fosc / 1.37 Slowest
110
6 80% x Fosc Fosc / 1.25
101
5 88% x Fosc Fosc / 1.13
100
4 100% x Fosc
Standard
011
3 115% x Fosc
010
2 133% x Fosc
001
1 158% x Fosc
000
0 198% x Fosc
Fastest
Mask
111
110
101
100
011
010
001
000
Index
7
6
5
4
3
2
1
0
I output Loudness
100% x Ico Loudest
87% x Ico
75% x Ico
62% x Ico
50% x Ico
37% x Ico
25% x Ico
12% x Ico Least Loud
The precision is +/- 10%
The precision is +/- 10%
Lower Key Priority Reference
Ico Reference Curves
Priority
Trigger
Sentence
1
2
3
4
5
K1RW1
K1RW2
K1RW3
K1RW4
K2RW1
1
2
3
4
5
6
7
K2RW2
K2RW3
6
7
8
9
10
11
12
13
14
K2RW4
K3RW1
K3RW2
K3RW3
K3RW4
K4RW1
K4RW2
8
9
10
11
12
13
14
15
16
17
18
19
K4RW3
K4RW4
TGA/OKY
TGB
TGC/INT
15
16
17
18
19
Ico(mA)
6
Remarks
Highest
Curev2
4
3
2
1
3
VDD ~ VSS
VIN
4
5
6
(Vdd)
These curves show the typical values. The max. and min.
values are not identified.
Lowest
Absolute Maximum Rating
Symbol
Curve 3
5
Fosc Characteristics
Rating
Unit
-0.5 ~ +7.0
V
VSS -0.3 < V IN < VDD+0.3
Fosc(H2)
6000
V
VOUT
VSS <VOUT < VDD
V
T (Operating)
-10 ~ +60
C
T (Storage)
-55 ~ +125
C
4000
2000
3
4
5
6
(Vdd)
@600 K ohm Rosc & pitch option 4
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
9/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
DC Characteristics at 3.0 Vdd
SymbolParameter
I sb
Stand by I
I op
Operation I
I ihK
input high I
I iLK
input low I
I ohR output high I
I oLR output low I
I ihT
input high I
I iLT
input low I
I ohr
output high I
output low I
I oLr
current output
I co
Current o/p V
V co
Oscillation R
R1
Oscillation R
R1
Oscillation R
R1
Bypass R
R2
R cds max contact R
Frq. stability
d F/F
Frq. variation
d F/F
Valid
Min.
Vdd
Vdd
K1,2,3,4
K1,2,3,4
RW1,2,3,4
RW1,2.3.4
TGA,B,C
TGA,B,C
OS,W,X,Y,Z
OS,W,X,Y,Z
Cout
Cout
Rosc
Rosc
Typ.
Max.
Unit.
1 uA
150 uA
15 uA
uA
mA
mA
15 uA
uA
mA
mA
mA
mV
Kohm
Kohm
Kohm
ohm
Kohm
%
%
75
3
0
-10
10
3
0
-10
10
1.8
600
450
240
+/- 5
+/- 10
Condition
i/o open
mask:=active high
mask:=active high
half scale, curve Ico 3
SR=6 KHz
SR=8 KHz
SR=15 KHz
[F(3.0V)-F(2.7V)]/F(3.0V)
lot by lot
DC Characteristics at 4.5 Vdd
SymbolParameter
I sb
Stand by I
I op
Operation I
I ihK
input high I
I iLK
input low I
I ohR output high I
I oLR output low I
I ihT
input high I
I iLT
input low I
I ohr
output high I
output low I
I oLr
current output
I co
Current o/p V
V co
Oscillation R
R1
Oscillation R
R1
Oscillation R
R1
Bypass R
R2
R cds max contact R
Frq. stability
d F/F
Frq. variation
d F/F
Valid
Min.
Vdd
Vdd
K1,2,3,4
K1,2,3,4
RW1,2,3,4
RW1,2,3,4
TGA,B,C
TGA,B,C
OS,W,X,Y,Z
OS,W,X,Y,Z
Cout
Cout
Rosc
Rosc
Typ.
Max.
150
10
0
-20
20
10
0
-20
20
3.7
600
450
240
+/- 5
+/- 10
Unit.
1 uA
200 uA
20 uA
uA
mA
mA
20 uA
uA
mA
mA
mA
mV
Kohm
Kohm
Kohm
ohm
Kohm
%
%
Condition
i/o open
mask:=active high
mask:=active high
half scale, curve Ico 3
SR=6 KHz
SR=8 KHz
SR=15 KHz
[F(4.5V)-F(4.0V)]/F(4.5V)
lot by lot
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
10/39
PID247*** 09/96
MSS0307/S0607/S0907/S1207/S1507/S1807
MOSEL VITELIC INC.
AC Characteristics at 6000 Hz S.R.
Timing
Description
Min.
Typ.
Max.
Unit
21
-
340
20
20
20
40
0
0
40
-
1
1
ms
us
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
LED turn on time (slow)
Trigger Pulse width (fast)
Trigger Pulse width (normal)
Lag from trigger to busy start
Ramp up width
Ramp down width
Plain width behind sound
Lag from voice end to busy end
Lag from busy end to stop start
Stop pulse width
Power Rise up time
Power ripple width
t ONL
tT
tT
t TB
t RMU
t RMD
t PL
t VB
t BS
t STP
tP
tR
Remark
SRD
SRD
SRD
SRD
SRD
SRD
SRD
SRD
SRD
SRD
SRD : Sample Rate Dependent
COB Information I
Silk screen & copper print
COB model number : MVI-P28
RW3
RW2
RW4
RW1
OZ
10
5
K1
P28
15 mm
0
OY
K2
OX
K3
Legend
K4
Copper pad
NC
Chip covered
Vdd
COUT
TGA/OKY
OW
S1
TGB
OS
TGC/INT
V2
Rosc
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
Legend
R1
Vdd
JP3
D1
OS
D2
OW
D3
OX
D4
OY
SN:
D5
OZ
JP5
DRV
Vdd
SNK
TGA
TGB
TGC
OS
OW
OX
OY
OZ
GND
JP1
Through hole
SPK
JP2
LED lamp
Chip covered
BUZZER
SW4
OW
D7
SW12
OX OY
D8 D9
SW16
SW11
SW15
OZ
D10
SW3
SW7
RW3
A
B
C
Vdd
HI
SW2
copper pad & through hole
OS
D6
RW4
copper pad & through hole
copper pad & through hole
SW8
Vss
K1
K2
K3
K4
RW1
RW2
RW3
RW4
Cout
SW6
SW10
SW14
SEL
LO
RW2
A
SW1
SW5
SW9
SW13
OKY
K1
K2
K3
K4
TGA
JP4
RW1
B
C
INT
RW1
TGB
TGC
MOSEL-VITELIC INC. MSM9226 V1M1 (C) 1996
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
12/39
PID247*** 09/96
MSS0307/S0607/S0907/S1207/S1507/S1807
MOSEL VITELIC INC.
Timing Critical
I.
Acceptable Power On Signal & Ripple
TP
TR
90% V DD
V DD
10% VDD
VSS = 0.0 V
II.
90% V DD
To play a voice sound
Trigger
t
T
t
RMD
Audio
t
t PL
RMU
Sound
t VB
t TB
Busy
t BS
Stop
t STP
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
13/39
PID247*** 09/96
MSS0307/S0607/S0907/S1207/S1507/S1807
MOSEL VITELIC INC.
Timing Diagram
I.1
Edge/Unholdable/Retrigger/LED/STOP/BUSY Trigger Mask
TG2
AUDIO
Sent2
Sent2
Sent2
LED
STOP
BUSY
I.2 Level/Unholdable/Retrigger/LED/STOP/BUSY Trigger Mask
TG1
TG2
AUDIO
Sent2
Sent2
Sent1
Sent2
Sent2
LED
STOP
BUSY
II.1 Edge/Holdable/Retrigger/LED/STOP/BUSY Trigger Mask
TG1
TG2
AUDIO
Sentence 2
Sentence 1
Sentence 2
LED
STOP
BUSY
II.2 Level/Holdable/Retrigger/LED/STOP/BUSY Trigger Mask
TG1
TG2
AUDIO
Sentence 2
Sentence 1
Sentence 2
Sentence 2
LED
STOP
BUSY
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
14/39
PID247*** 09/96
MOSEL VITELIC INC.
III.1
MSS0307/S0607/S0907/S1207/S1507/S1807
Lower Key priority 1
K1 RW2
K1 RW4
K2 RW3
K3 RW2
K4 RW1
K1RW1
Audio
III.2
sentence 4
sentence 7
sentence 7
sentence 1
Lower Key priority 2
K1 RW1
K2 RW1
K2 RW2
K2 RW3
K2 RW4
K4 RW4
sentence 8
Audio
III.3 Lower Key priority 3
K1 RW1
K4 RW4
TGA/OKY
TGB
TGC
Audio
sentence 17 or OKY's
sentence 17 or OKY's
sentence 18
sentence 1
sentence 16
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
15/39
PID247*** 09/96
MSS0307/S0607/S0907/S1207/S1507/S1807
MOSEL VITELIC INC.
III. 4 Triggered at different time 1, Last key priority and else
URL
TGA
TGB
URE
UIE
TGC
Sent17
AUDIO
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
TGB
URE
TGC
UIL
AUDIO
Sent17
Sent18
Sent19
Sent19
Sent18
Sent19
BUSY
Legend : The same as those in III.2
III. 6 Triggers Overlapped, Last key priority for TGs
TGA
TGB
Audio
Sent17
Sent18
Sent18
Sent17
III. 7 Triggers Overlapped, First key priority for matrix at a column
K1RW1
K1RW2
Audio
Sent 1
Sent 2
III. 8 Triggers Overlapped, First key priority for matrix at a row
K1RW1
K2RW1
Audio
Sent 1
Sent 5
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
16/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
III. 9 Triggers Overlapped, First key priority for matrix
K1RW2
K3RW4
Audio
Sent 2
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)
17/39
PID247*** 09/96
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)
18/39
PID247*** 09/96
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)
19/39
PID247*** 09/96
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)
20/39
PID247*** 09/96
MSS0307/S0607/S0907/S1207/S1507/S1807
MOSEL VITELIC INC.
Application Circuits
I. Straight 7 Triggers
II. To limit current at LED
Vdd
Cout
K1 sentence 1
K2 sentence 5
Out
K3 sentence 9
K4 sentence 13
Snn07
TGA/OKY
Out
TGB
Snn07
TGC/INT
Vss
III. M9226 demo COB circuit
SW16
SW13
SW12
SW9
SW8
SW5
SW4
SW1
JP3
JP10
JP10
JP10
JP1
TGB
TGA/OKY
Vdd
NC
K4
K3
K2
Speaker
JP4
K1
TGC/
RW1
Rosc
RW2
Vss
RW3
Q
8050
INT
V1
Snn07
RW4
Buzzer
R2
V2
D1
D2
D3
D4
OS
OW
D10
Cout
D9
OX
D8
OY
D7
OZ
D6
JP2
JP3
D5
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
21/39
PID247*** 09/96
MSS0307/S0607/S0907/S1207/S1507/S1807
MOSEL VITELIC INC.
IV. Typical Application Circuit
Pad Information
Taiwan
#1 Creation Road I,
Science - based Industrial Park,
Hsinchu, 30077
Taiwan, ROC
"[email protected]"
TEL: 886-3-5770055
FAX: 886-3-5772788
FAX: 886-3-5784732
4
1
TGC/INT
TGB
TGA/OKY
Vdd
R1
Speaker
Q
13
11
10
9
8 7
14
15
RW3
16
RW4
17
18
19
20
Taipei
7F, #102 Section 3,
Ming Chung E. Road,
Taipei, 105
Taiwan, ROC
China
(Vitelic HKG ShenZhen)
Room #209,
#19 ZhenHua road,
ShenZhen, China
TEL: 886-2-5451213
FAX: 886-2-5451214
TEL: 86-755-334-5766
FAX: 86-755-332-3995
21
3
Rosc
Vss
2
V1
1
V2
Buzzer
22
OS
RW2
5
4
MSSnn07
1710 X 1730 um
Substrate is Vdd
Pad size is 90 X 90um
OW
RW1
COUT
-175
-27
185
398
611
706
706
706
706
706
552
318
82
-226
-460
-696
13
K4
699
699
699
699
699
522
299
63
-173
-409
-699
-699
-699
-699
-699
-699
16
OX
-706
-706
-706
-706
-706
-624
-447
K3
-503
-269
-36
220
453
699
699
OY
K3
K2
K1
RW1
RW2
RW3
RW4
OZ
OY
OX
COUT
OW
OS
Y
K2
V2
V1
Vss
Rosc
TGC/INT
TGB
TGA/OKY
Vdd
NC
K4
X
K1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
Signal
OZ
Pad#
Hongkong
#19 Dai Fu Street,
Taipo Industrial Estate,
Taipo, N.T.
Hongkong
TEL: 852-2388-8277 (MKO)
TEL: 852-2665-4883
FAX: 852-2664-2406
FAX: 852-2770-8011 (MKO)
R2
U.S.A.
#3910 North First Street,
San Jose,
CA. 65134-1501
U.S.A.
TEL: 1-408-433-6000
FAX: 1-408-433-0952
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
22/39
PID247*** 09/96
MOSEL VITELIC INC.
To:
Mosel Vitelic Inc.
Attn :
Sales & Marketing Department
MSS0307/S0607/S0907/S1207/S1507/S1807
MSS1207
886-3-577-2788 (fax)
Product Request Form
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.
General Descriptions
TGA
Customer
Cannot proceed when empty
No use & don't care
Hz
SampleRate
INT
Output
Buzzer (F fr =1KHz)
Device
Speaker (0.25W,
Ring 5 LEDs
8 ohm, 1" diam.)
8-bit PCM sound files
Ring 4 LEDs
Other:
.WAV sound files
Ring 3 LEDs
Working
2.5 V at curve 3
DAT or equivalent
No Ring LED
Voltage
3.0 V at curve 3
Repr'tives Who is MVI sales you contact ?
MVI
Title
No use & don't care
Sales
to
OKY
TGC
Agent
Providing
Chip descriptions
application is special,
Specify below only for OKY
3.5 V at curve 3
see our written memo
No use and don't care
4.0 V at curve 3
Others
Small Loop (17-32)
4.5 V at curve 3
EPROMs with data inside
Large Loop (1-32)
5.0 V at curve 3
files to be programmed into
No use and don't care
5.5 V at curve 2
from
EPROM
CycleLoop=Sentenc.Count
6.0 V at curve 2
MVI
9026 emul'n board & Eprom
CycleLoop=
Confirm table
No use and don't care
Others
PlayAll
Battery size "AAA"
Play Random
other size =
PlayNext in Home sequence after Interrupt
Mains
PlayNext in Continue seque. after Interrupt
Other
Service
Required
Power
Battery size "D"
Source
Battery size "AA"
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 :
Fax number :
Signature :
Date :
Department/Section :
Position Title :
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
23/39
PID247*** 09/96
MOSEL VITELIC INC.
To:
Mosel Vitelic Inc.
Attn :
Sales & Marketing Department
MSS0307/S0607/S0907/S1207/S1507/S1807
MSS0907
886-3-577-2788 (fax)
Product Request Form
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.
Chip descriptions
General Descriptions
TGA
Customer
Cannot proceed when empty
OKY
No use & don't care
Agent
TGC
Sales
No use & don't care
Repr'tives Who is MVI sales you contact ?
Providing
to
MVI
Title
Hz
SampleRate
INT
Output
Buzzer (F fr =1KHz)
Device
Speaker (0.25W,
Ring 5 LEDs
8 ohm, 1" diam.)
8-bit PCM sound files
Ring 4 LEDs
Other:
.WAV sound files
Ring 3 LEDs
Working
2.5 V at curve 3
DAT or equivalent
No Ring LED
Voltage
3.0 V at curve 3
application is special,
Specify below only for OKY
3.5 V at curve 3
see our written memo
No use and don't care
4.0 V at curve 3
Others
Small Loop (17-32)
4.5 V at curve 3
EPROMs with data inside
Large Loop (1-32)
5.0 V at curve 3
files to be programmed into
No use and don't care
5.5 V at curve 2
from
EPROM
CycleLoop=Sentenc.Count
6.0 V at curve 2
MVI
9026 emul'n board & Eprom
CycleLoop=
Confirm table
No use and don't care
Others
PlayAll
Battery size "AAA"
Play Random
other size =
PlayNext in Home sequence after Interrupt
Mains
PlayNext in Continue seque. after Interrupt
Other
Service
Required
Power
Battery size "D"
Source
Battery size "AA"
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 :
Fax number :
Signature :
Date :
Department/Section :
Position Title :
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
24/39
PID247*** 09/96
MOSEL VITELIC INC.
To:
Mosel Vitelic Inc.
Attn :
Sales & Marketing Department
MSS0307/S0607/S0907/S1207/S1507/S1807
MSS0607
886-3-577-2788 (fax)
Product Request Form
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.
General Descriptions
TGA
Customer
Cannot proceed when empty
Repr'tives Who is MVI sales you contact ?
MVI
Title
Hz
SampleRate
INT
No use & don't care
Sales
to
OKY
No use & don't care
TGC
Agent
Providing
Chip descriptions
Output
Buzzer (F fr =1KHz)
Device
Speaker (0.25W,
Ring 5 LEDs
8 ohm, 1" diam.)
8-bit PCM sound files
Ring 4 LEDs
Other:
.WAV sound files
Ring 3 LEDs
Working
2.5 V at curve 3
DAT or equivalent
No Ring LED
Voltage
3.0 V at curve 3
application is special,
Specify below only for OKY
3.5 V at curve 3
see our written memo
No use and don't care
4.0 V at curve 3
Others
Small Loop (17-32)
4.5 V at curve 3
EPROMs with data inside
Large Loop (1-32)
5.0 V at curve 3
files to be programmed into
No use and don't care
5.5 V at curve 2
from
EPROM
CycleLoop=Sentenc.Count
6.0 V at curve 2
MVI
9026 emul'n board & Eprom
CycleLoop=
Confirm table
No use and don't care
Others
PlayAll
Battery size "AAA"
Play Random
other size =
PlayNext in Home sequence after Interrupt
Mains
PlayNext in Continue seque. after Interrupt
Other
Service
Required
Power
Battery size "D"
Source
Battery size "AA"
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 :
Fax number :
Signature :
Date :
Department/Section :
Position Title :
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
25/39
PID247*** 09/96
MOSEL VITELIC INC.
To:
Mosel Vitelic Inc.
Attn :
Sales & Marketing Department
MSS0307/S0607/S0907/S1207/S1507/S1807
MSS0307
886-3-577-2788 (fax)
Product Request Form
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.
General Descriptions
TGA
Customer
Cannot proceed when empty
Repr'tives Who is MVI sales you contact ?
MVI
Title
Hz
SampleRate
INT
No use & don't care
Sales
to
OKY
No use & don't care
TGC
Agent
Providing
Chip descriptions
Output
Buzzer (F fr =1KHz)
Device
Speaker (0.25W,
Ring 5 LEDs
8 ohm, 1" diam.)
8-bit PCM sound files
Ring 4 LEDs
Other:
.WAV sound files
Ring 3 LEDs
Working
2.5 V at curve 3
DAT or equivalent
No Ring LED
Voltage
3.0 V at curve 3
application is special,
Specify below only for OKY
3.5 V at curve 3
see our written memo
No use and don't care
4.0 V at curve 3
Others
Small Loop (17-32)
4.5 V at curve 3
EPROMs with data inside
Large Loop (1-32)
5.0 V at curve 3
files to be programmed into
No use and don't care
5.5 V at curve 2
from
EPROM
CycleLoop=Sentenc.Count
6.0 V at curve 2
MVI
9026 emul'n board & Eprom
CycleLoop=
Confirm table
No use and don't care
Others
PlayAll
Battery size "AAA"
Play Random
other size =
PlayNext in Home sequence after Interrupt
Mains
PlayNext in Continue seque. after Interrupt
Other
Service
Required
Power
Battery size "D"
Source
Battery size "AA"
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 :
Fax number :
Signature :
Date :
Department/Section :
Position Title :
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
26/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
There are 1<
Product Request Form A1: Sentence
Section Pitch Loud
31 - 0
7-0
7-0
OS
A-8
OW
A-8
OX
A-8
1<
<32
OY
OZ
A-8
A-8
Definitions T I T L E
There are 1<
00
32
01
33
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39
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31
63
Page
of
Signature & date
<512 entries included in this sentence.
<64 words defined on this page.
MVI Sales & date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
27/39
PID247*** 09/96
MOSEL VITELIC INC.
Product Request Form A2: Sentence
Section Pitch Loud
31 - 0
7-0
7-0
OS
A-8
OW
A-8
OX
A-8
MSS0307/S0607/S0907/S1207/S1507/S1807
1<
<32
OY
OZ
A-8
A-8
Definitions T I T L E
There are 1<
64
96
65
97
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94
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95
127
Page
of
Signature & date
<64 words defined on this page.
MVI Sales & date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
28/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Product Request Form A3: Sentence 1<
Section Pitch Loud
31 - 0
7-0
7-0
OS
A-8
OW
A-8
OX
A-8
OY
A-8
<32
OZ
A-8
Definitions T I T L E
There are 1<
128
160
129
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191
Page
of
Signature & date
<64 words defined on this page.
MVI Sales & date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
29/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Product Request Form A4: Sentence 1<
Section Pitch Loud
31 - 0
7-0
7-0
OS
A-8
OW
A-8
OX
A-8
OY
A-8
<32
OZ
A-8
Definitions T I T L E
There are 1<
192
224
193
225
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Page
of
Signature & date
<64 words defined on this page.
MVI Sales & date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
30/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Product Request Form A5: Sentence 1<
Section Pitch Loud
31 - 0
7-0
7-0
OS
A-8
OW
A-8
OX
A-8
OY
A-8
<32
OZ
A-8
Definitions T I T L E
There are 1<
256
288
257
289
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Page
of
Signature & date
<64 words defined on this page.
MVI Sales & date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
31/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Product Request Form A6: Sentence 1<
Section Pitch Loud
31 - 0
7-0
7-0
OS
A-8
OW
A-8
OX
A-8
OY
A-8
<32
OZ
A-8
Definitions T I T L E
There are 1<
320
352
321
353
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Page
of
Signature & date
<64 words defined on this page.
MVI Sales & date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
32/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Product Request Form A7: Sentence 1<
Section Pitch Loud
31 - 0
7-0
7-0
OS
A-8
OW
A-8
OX
A-8
OY
A-8
<32
OZ
A-8
Definitions T I T L E
There are 1<
384
416
385
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447
Page
of
Signature & date
<64 words defined on this page.
MVI Sales & date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
33/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Product Request Form A8: Sentence 1<
Section Pitch Loud
31 - 0
7-0
7-0
OS
A-8
OW
A-8
OX
A-8
OY
A-8
<32
OZ
A-8
Definitions T I T L E
There are 1<
448
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Page
of
Signature & date
<64 words defined on this page.
MVI Sales & date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
34/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
TITLE
Product Request Form F: Word Section Definition
Address Voice Description
Voice Length
Mute Length File name Check Sum
0
s
ooh
s
ooh
h
1
s
ooh
s
ooh
h
2
s
ooh
s
ooh
h
3
s
ooh
s
ooh
h
ooh
h
4
s
ooh
s
5
s
ooh
s
ooh
h
6
s
ooh
s
ooh
h
7
s
ooh
s
ooh
h
8
s
ooh
s
ooh
h
9
s
ooh
s
ooh
h
ooh
h
10
s
ooh
s
11
s
ooh
s
ooh
h
12
s
ooh
s
ooh
h
13
s
ooh
s
ooh
h
14
s
ooh
s
ooh
h
15
s
ooh
s
ooh
h
16
s
ooh
s
ooh
h
17
s
ooh
s
ooh
h
18
s
ooh
s
ooh
h
19
s
ooh
s
ooh
h
20
s
ooh
s
ooh
h
21
s
ooh
s
ooh
h
22
s
ooh
s
ooh
h
23
s
ooh
s
ooh
h
24
s
ooh
s
ooh
h
25
s
ooh
s
ooh
h
26
s
ooh
s
ooh
h
27
s
ooh
s
ooh
h
28
s
ooh
s
ooh
h
ooh
h
29
s
ooh
s
30
s
ooh
s
ooh
h
31
s
ooh
s
ooh
h
There are 1<
<32 words defined on this form F and their length sum'n is
Signature & date
ooh (< limit).
MVI Sales & Date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
35/39
PID247*** 09/96
MSS0307/S0607/S0907/S1207/S1507/S1807
MOSEL VITELIC INC.
Product Request Form G: (Trigger / Sentence dependent)
TITLE
*Trigger Option Definition:
TGA
OKY
TGB
TGC
INT
K1
K2
K3
K4
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Hold & Retrigger
Unhold & Retrigger
Edge
Active Low
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Don't care
Don't care
Don't care
Don't care
Don't care
Don't care
Don't care
Sentence & Their Entry Count
Trigger
Sentence
Trigger
Sentence
RW1 K1
1
RW4 K3
RW2 K1
2
RW3 K1
Entry Count
Entry Count
Trigger
Sentence
12
OKY
23
RW1 K4
13
OKY
24
3
RW2 K4
14
OKY
25
RW4 K1
4
RW3 K4
15
OKY
26
RW1 K2
5
RW4 K4
16
OKY
27
RW2 K2
6
TGA
17
OKY
28
RW3 K2
7
TGB
18
OKY
29
RW4 K2
8
TGC
19
OKY
30
RW1 K3
9
OKY
20
OKY
31
RW2 K3
10
OKY
21
OKY
32
RW3 K3
11
OKY
22
Summation < 512
Entry Count
Output definition on initial state
OS
initial High
initial Low
OW
Don't care
iH
iL
OX
Dnc
iH
iL
OY
Dnc
iH
iL
OZ
Dnc
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.
(Preliminary)
36/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Product Request Form H : Sentence Table Definitions T I T L E
Trigger Sentence
K1RW1
1
K1RW2
2
K1RW3
3
K1RW4
4
K2RW1
5
K2RW2
6
K2RW3
7
K2RW4
8
K3RW1
9
K3RW2
10
K3RW3
11
K3RW4
12
K4RW1
13
K4RW2
14
K4RW3
15
K4RW4
16
TGA
17
TGB
18
TGC
19
X
20
X
21
X
22
X
23
X
24
X
25
X
26
X
27
X
28
X
29
X
30
X
31
X
32
Address
count
Sentence Definition (word section addresses)
There are 1<
<32 sentences defined on this form H and their address entry sum'n =
<512
MVI Sales & date
Signature & date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
37/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Product Request Form J:
TITLE
*Trigger Option Definition:
TGA
OKY
TGB
TGC
INT
K1
K2
K3
K4
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Hold & Retrigger
Unhold & Retrigger
Edge
Active Low
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
Edge
Active High
Hold & Irretrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger
Unhold & Retrigger
*Output Definition:
Don't care
Don't care
Don't care
Don't care
Don't care
Don't care
Neither variable pitch nor variable loudness is used.
OS
initial High
Don't care
initial Low
Don't care
OW
iH
OX
iL
iH
OY
iL
iH
OZ
iL
iH
iL
Don't care
Don't Care
Don't Care
Don't care
A: high Stop
J: LED dy27/31
A
J
A
J
A
J
A
J
B: low Stop
N: LED fix slow
B
N
B
N
B
N
B
N
C: High Busy
R: LED ring slow
C
R
C
R
C
R
C
R
D: low Busy
2: LED fix inverse
D
2
D
2
D
2
D
2
E: DC high
4: LED ring inverse
E
4
E
4
E
4
E
4
F: DC low
7: LED on
F
7
F
7
F
7
F
7
G: LED dy17/31
8: LED off
G
8
G
8
G
8
G
8
H: LED dy23/31
Don't care
H
Dnc
H
Dnc
H
Dnc
H
Dnc
Signature & date
MVI Sales & Date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
38/39
PID247*** 09/96
MOSEL VITELIC INC.
MSS0307/S0607/S0907/S1207/S1507/S1807
Product Request Form N: (whole chip dependent)
TITLE
*Section Definition : There are 1<
<8 sections defined.
Address Voice Description
Voice Length
Mute Length File name Check Sum
0
s
ooh
s
ooh
h
1
s
ooh
s
ooh
h
2
s
ooh
s
ooh
h
3
s
ooh
s
ooh
h
4
s
ooh
s
ooh
h
5
s
ooh
s
ooh
h
s
ooh
h
ooh
h
6
s
ooh
7
s
s
ooh
ooh < limit
*Tirgger Option Denfinition:
Edge
Active high
Level
Active low
*Trigger Sentence
Trigger
Hold & Irretrigger
Unhold & Irretrigger
Don't care
Hold & Retrigger
Unhold & Rerigger
<6 define
Definition: There are 1<
sentences
Sentence Description (Word section addresses)
*Output Definition:
Neither variable pitch nor variable loudness is used.
OS
initial High
Address Count
initial Low
Don't care
OW
iH
OX
iL
iH
<512
Address count summation=
OY
iL
iH
OZ
iL
iH
iL
Don't care
Don't Care
Don't Care
Don't care
A: high Stop
J: LED dy27/31
A
J
A
J
A
J
A
J
B: low Stop
N: LED fix slow
B
N
B
N
B
N
B
N
C: High Busy
R: LED ring slow
C
R
C
R
C
R
C
R
D: low Busy
2: LED fix inverse
D
2
D
2
D
2
D
2
E: DC high
4: LED ring inverse
E
4
E
4
E
4
E
4
F: DC low
7: LED on
F
7
F
7
F
7
F
7
G: LED dy17/31
8: LED off
G
8
G
8
G
8
G
8
H: LED dy23/31
Don't care
H
Dnc
H
Dnc
H
Dnc
H
Dnc
Signature & date
MVI Sales & Date
Specifications subject to change without notice, contact your sales representatives for the most recent information.
(Preliminary)
39/39
PID247*** 09/96