MOSEL VITELIC
MSS0306
3" VOICE ROM
Features
Single power supply can operate at 2.4V through
4.5V.
Current output can drive 8 ohm speaker with a
transistor.
The voice content is stored up to 3.5 seconds
(5100h) and can be separated to 8 sections.
Five trigger input pins are provided. Each trigger
pin can access a sentence instead of a simple
section. A sentence is composed of one or more
sections, or table entries.
Duration of sections with appended memory-less
mute is up to 22 seconds (20000h).
Higher key priority is provided.
Last key priority is provided.
Up to 192 table entries for all sentences.
Auto ramp up / ramp down & sleep functions are
built in.
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.
Off LED when Playing audio is provided optionally
entrywise.
3/6/12 Hz Ring LED when playing audio is provided
optionally entrywise.
Dynamic flash LED when playing audio is provided
optionally entrywise.
3Hz fix flash LED when playing audio is provided
optionally entrywise.
6Hz 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 lasting to next trigger)
is provided optionally entrywise.
DC low(when playing audio and lasting 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.
High trigger is provided optionally triggerwise.
Low trigger is provided optionally trigger wise.
1/19
PID239 05/96
MSS0306
MOSEL VITELIC
Description
The MSS0306 is a monolithic CMOS VLSI ASIC that can memorize voice up to 3.5 seconds
(at 6KHz
S.R.) using MOSEL qualified coding method (MPCM-4) in 8 sections. Both the volume and pitch can be
different for each entry each sentence. 3 versatile outputs are available through programmable logic array.
Most of the necessary circuit are built in like oscillator, ROM, DAC and interface logic. Customer voice
data will be edited and built in by mask programming during the device fabrication.
Mask Option
Either LED function or STATUS function for OUT X pin.
Either LED function or STATUS function for OUT Y pin.
Either LED function or STATUS function for OUT Z pin.
Either initial low or inital high for OUT X pin.
Either initial low or inital high for OUT Y pin.
Either initial low or inital high for OUT Z pin.
Among (0) on LED (1) 3Hz Ring (2) dynamic flash (3) 6Hz Ring (4) 12Hz Ring (5) 3Hz fix flash (6) 6Hz fix flash
(7) off LED for LED selection when playing audio for every entry.
Among (0) high busy (1) low busy (2) DC high (3) reserved (4) reserved (5) DC low (6) low stop (7) high stop
for STATUS selection for every entry.
Either TG5 or OKY for TG5/OKY pin.
Either Continuous S.W.A.I. or Home S.W.A.I. for PLAYNEXT selection. S.W.A.I. means sequence when after
interrupt occured.
Either small loop or large loop for OKY cycle.
8 loudness levels 7, 6, 5, 4, 3, 2, 1, 0 for each sentence each entry.
8 different pitches 7, 6, 5, 4, 3, 2, 1, 0 for each sentence each entry.
Either Edge or Level trigger type for TG1 pin.
Either Edge or Level trigger type for TG2 pin.
Either Edge or Level trigger type for TG3 pin.
Either Edge or Level trigger type for TG4 pin.
Either Edge or Level trigger type for TG5/OKY pin.
Either active high or active low for TG1 pin.
Either active high or active low for TG2 pin.
Either active high or active low for TG3 pin.
Either active high or active low for TG4 pin.
Either active high or active low for TG5/OKY pin.
Among (a) Holdable & Irretrigger & No stop (b) Unhold & Irretrigger (c) Unhold & Retrigger for TG1 pin.
Among (a) Holdable & Irretrigger & No stop (b) Unhold & Irretrigger (c) Unhold & Retrigger for TG2 pin.
Among (a) Holdable & Irretrigger & No stop (b) Unhold & Irretrigger (c) Unhold & Retrigger for TG3 pin.
Among (a) Holdable & Irretrigger & No stop (b) Unhold & Irretrigger (c) Unhold & Retrigger for TG4 pin.
Among (a) Holdable & Irretrigger & No stop (b) Unhold & Irretrigger (c) Unhold & Retrigger for TG5/OKY pin.
2/19
PID239 05/96
MSS0306
MOSEL VITELIC
Block Diagram
V DD
TG1
TG2
CONTROL
V SS
TIMING
GENERATOR
ADDRESS
GENERATOR
VOICE
TG3
LOGIC
TG4
ROM
TG5/OKY
TRIGGER
TABLE
OUTX
OUTY
OUTZ
OSC
MPCM
DECODER
CURRENT
BUFFER
CLOCK
GENERATOR
C OUT
Pad Description
Pad No. Signal Name
1
V DD
2
OUTZ
C
3
OUT
I/O
Power
Function
Positive power supply
O
Status ( STOP/BUSY) or LED output
O
Audio signal current output (for speaker)
4
OUTY
O
Status ( STOP/BUSY) or LED output
5
O
Status ( STOP/BUSY) or LED output
6
OUTX
VSS
Power
Negative power supply
7
OSC
I
Oscillator resistor input
8
NC
NC
No connection
9
10
TG5/OKY
I
Tirgger 5 or One-key input, high active or low active, mask optional
TG4
I
Trigger 4 input, high active or low active, mask optional
11
TG3
I
Trigger 3 input, high active or low active, mask optional
12
TG2
I
Trigger 2 input, high active or low active, mask optional
13
TG1
I
Trigger 1 input, high active or low active, mask optional
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.
The bypass Cout Resistor 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 is 470
ohm typically. It always is not very small. Or user can let it open if the transistor has a fair beta value.
A transistor with beta value 150 is sufficient for typical applications. Larger beta value get larger sound but may
have the amplified waveform saturated.
3/19
PID239 05/96
MSS0306
MOSEL VITELIC
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 and transistor's
beta value due to that the current from Cout may vary
very much due to user's specified loudness variance.
Terms
Retriggerable TG
Retriggerable TGm means the sentence addressed by
TGm could be retriggerred by other TGs.
See Timing diagrams. Of course, it can be retriggered
by itself. See Timing diagrams II.
Hold and Retrigger
This combination allows user controlling both the output
and the input.
Its output is holdable and the input
could retrigger the former. This is an exquisite feature,
to ensure your application is fit to this feature or not
before being manufactured is recommended strongly.
Or the user may overshoot the mark and end up with a
blunder.
To contact MVI sales representatives is the best
solution for this feature.
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.
Cycle Loop
This is a count number ranges 1 through 32 which
defines the sentence range OKY will play. This number
is determined automatically by the sentences user filled,
user defined.
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.
Ring 3 Hz LED
Ring 3 Hz LED had better to mask 3 LED sink pins
together. But if user insists, two LED pins or one LED pin
could be used to perform this ring function.
LEDX and LEDY must be adopted to perform "Ring" if user
specifies 2 LEDs. Adopting LEDX and LEDZ is not
guaranteed the performance. Of course adopting LEDY
and LEDZ is not guaranteed, either.
LEDX must be adopted to perform "Ring" if user specifies
one LED. Neither adopting LEDY nor LEDZ can perform
guaranteed function.
Each LED turns on for 333 ms (1/3 second) and turns off
for 667 ms (2/3 second). LEDX turns on first. LEDY
turns on immediately after LEDX turns off. LEDZ turns on
immediately after LEDY turns off. LEDX turns on again
immediately after LEDZ turns off.
This 3Hz is sample rate dependent.
Ring 6 Hz LED
It performs what "Ring 3 Hz LED" works except the turn on
and off frequency. Each LED turns on for 1/6 second and
turns off for 2/6 seconds.
Ring 12 Hz LED
It performs what "Ring 3 Hz LED" works except the turn on
and off frequency. Each LED turns on for 1/12 second
and turns off for 2/12 seconds.
Fix flash LED
Fix 3 Hz flash means this pin turns LED lamp on for 166ms
and then turns it off for 166ms alternately. Fix 6 Hz flash
means quicker, it turns on 83 ms and then turns off 83 ms.
There are up to 3 LED sink pins could be manufactured as
user's mask specified. LEDX is synchronous with LEDZ.
LEDY shifts 180 degrees phase with LEDX. User can find
their timing relationships on timing diagram VI.
These 3Hz as well as 6Hz are sample rate dependent.
Dynamic Flash LED
The LED turns on whenever the sound amplitude is over a
certain threshold potential. Three LEDs (X, Y and Z) have
different threshold. LEDX is the easiest to turn on. LEDY's
threshold is the highest. LEDX's is 4/8 of full scale output
current. LEDY's is 7/8 while LEDZ's is 6/8.
For example, A point (a sample pixel) of sound in volume
level 90% of full scale output current, it will turn on all three
LEDs. A point in 80% current will turn on LEDX as well
as LEDZ. A point in 70% current will turn on LEDX only.
A point in 49% current or less turns no LED on.
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
both for LED and Status.
"Initial low" means user want this OUT pin is put to low
4/19
PID239 05/96
MSS0306
MOSEL VITELIC
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 STATUS because that low will
have every Status starts from zero on whole time line.
So, user are suggested to define "initial low"
whenever Status 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.
DC 0 & DC 1
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.
Sample Rate
There are some parameters depend on sample rate.
They are debounce 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.
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 6KHz. 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 1.2 M 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 Stop pulse is not guaranteed when user defines the
trigger behavior as Holdable. Stop pulse width is determined on the sample rate as well as the pitch of that playing entry when stop pulse occurs.
Higher Key Priority
What's the result when multi triggers are activated simultaneously? Which trigger is acknowledged among these
five? Among these four? Among these three? Between
these two?
The higher key priority means the trigger with higher index
has the priority to be acknowledged and responsed when
there are several triggers activated simultaneously.
For example: Three triggers are activated simultaneously,
TG1,2,3. The TG3 has the priority, sentence 3 will be responsed.
For another example: Five triggers are activated simultaneously, TG1,2,3,4,5. The TG5 has the priority, sentence 5
will be responsed.
First Key Priority
This feature is not provided on this MSS0306 chip. But it
still worth to explain.
This defines the relationship on time line for two or more
triggers. While user activating a trigger, for example
TG1, and its sound plays, user is unable to activate the
other trigger once the TG1 is kept activated regardless
TG1's sound is finished or not.
It means first TGn prohibits the acknowledge of latter
TGms when TGn is kept true.
Last Key Priority
This defines the relationship on time line for two or more
triggers. 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 TG1,
and keeps this TG1 true, the latter trigger is still able to
come in and acknowledged by chip. It means the last
trigger is not prohibited by formers.
See timing diagram VII for reference.
User may be confused it with "retrigger". They are
different.
Stop Pulse
Stop pulse is one of Status definition. There never is
this pulse o/p if user defines this o/p pins as LEDs.
5/19
PID239 05/96
MSS0306
MOSEL VITELIC
Loudness Levels Reference
Mask
111
110
101
100
011
010
001
000
Index
7
6
5
4
3
2
1
0
Pitches Reference
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
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
The precision is +/- 10%
The precision is +/- 10%
Absolute Maximum Rating
Symbol
VDD ~ VSS
VIN
Rating
Unit
-0.5 ~ +7.0
V
VSS -0.3 < V IN < VDD+0.3
V
VOUT
VSS <VOUT < VDD
V
T (Operating)
-10 ~ +60
C
T (Storage)
-55 ~ +125
C
DC Characteristics at 4.5 Vdd (S0306T)
SymbolParameter
I sb
Standardby I
I op
Operation I
I ih4
input high I
I iL4
input low I
I ih5
input high I
I iL5
input low I
I ohr
output high I
I oLr
output low I
I co
current output
V co
Current o/p V
R osc Oscillation R
R osc Oscillaion R
R cds cds R
d F/F
Frq. stability
d F/F
Frq. variation
Valid
Min.
Vdd
Vdd
TG1-4
TG1-4
TG5/OKY
TG5/OKY
OUTX,Y,Z
OUTX,Y,Z
Cout
Cout
Rosc
Rosc
Typ.
100
10
0
10
0
-20
20
4.4
1200
940
+/- 5
+/- 10
6/19
Max.
1
200
20
20
5
Unit.
uA
uA
uA
uA
uA
uA
mA
mA
mA
mV
Kohm
Kohm
Kohm
%
%
Condition
i/o open
mask:=active high
mask:=active high
mask:=active high
mask:=active high
half scale
SR=6 KHz
SR=8 KHz
[F(4.5V)-F(4.0V)]/F(4.5V)
lot by lot
PID239 05/96
MSS0306
MOSEL VITELIC
DC Characteristics at 3.0 Vdd (S0306T)
SymbolParameter
I sb
Stand by I
I op
Operation I
I ih4
input high I
I iL4
input low I
I ih5
input high I
I iL5
input low I
I ohr
output high I
output low I
I oLr
current output
I co
Current o/p V
V co
R osc Oscillation R
R osc Oscillaion R
R cds cds R
Frq. stability
d F/F
Frq. variation
d F/F
Valid
Min.
Vdd
Vdd
TG1-4
TG1-4
TG5/OKY
TG5/OKY
OUTX,Y,Z
OUTX,Y,Z
Cout
Cout
Rosc
Rosc
Typ.
Max.
75
0
0
-10
10
2.2
1200
950
+/- 5
+/- 10
Unit.
1 uA
150 uA
15 uA
uA
15 uA
uA
mA
mA
mA
mV
Kohm
Kohm
Kohm
%
%
Condition
i/o open
mask:=active high
mask:=active high
mask:=active high
mask:=active high
half scale
SR=6 KHz
SR=8 KHz
[F(3.0V)-F(2.7V)]/F(3.0V)
lot by lot
DC Characteristics at 4.5 Vdd (S0306J)
SymbolParameter
I sb
Stand by I
I op
Operation I
I ih4
input high I
I iL4
input low I
I ih5
input high I
I iL5
input low I
I ohr
output high I
output low I
I oLr
current output
I co
Current o/p V
V co
R osc Oscillation R
R osc Oscillaion R
R cds cds R
Frq. stability
d F/F
Frq. variation
d F/F
Valid
Min.
Vdd
Vdd
TG1-4
TG1-4
TG5/OKY
TG5/OKY
OUTX,Y,Z
OUTX,Y,Z
Cout
Cout
Rosc
Rosc
Typ.
100
10
0
10
0
-20
20
3.4
1200
900
+/- 5
+/- 10
7/19
Max.
1
200
20
20
Unit.
uA
uA
uA
uA
uA
uA
mA
mA
mA
mV
Kohm
Kohm
Kohm
%
%
Condition
i/o open
mask:=active high
mask:=active high
mask:=active high
mask:=active high
half scale
SR=6 KHz
SR=8 KHz
[F(4.5V)-F(4.0V)]/F(4.5V)
lot by lot
PID239 05/96
MSS0306
MOSEL VITELIC
DC Characteristics at 3.0 Vdd (S0306J)
Valid
Min.
Vdd
Vdd
TG1-4
TG1-4
TG5/OKY
TG5/OKY
OUTX,Y,Z
OUTX,Y,Z
Cout
Cout
Rosc
Rosc
SymbolParameter
I sb
Standardby I
I op
Operation I
I ih4
input high I
I iL4
input low I
I ih5
input high I
I iL5
input low I
I ohr
output high I
output low I
I oLr
current output
I co
Current o/p V
V co
R osc Oscillation R
R osc Oscillaion R
R cds cds R
Frq. stability
d F/F
Frq. variation
d F/F
Typ.
Max.
1
150
15
75
0
15
0
-10
9
1.7
1200
910
+/- 5
+/- 10
Unit.
uA
uA
uA
uA
uA
uA
mA
mA
mA
mV
Kohm
Kohm
Kohm
%
%
Condition
i/o open
mask:=active high
mask:=active high
mask:=active high
mask:=active high
half scale
SR=6 KHz
SR=8 KHz
[F(3.0V)-F(2.7V)]/F(3.0V)
lot by lot
AC Characteristics
Timing
Min.
Typ.
Max.
Unit
T STOP
Stop Pulse width
40
-
-
ms
SRD
TR
Power Ripple width
-
-
1
ms
-
TP
Power Rise up time
-
-
1
ms
-
TT
Debounce time or minimal Trigger pulse width
-
10
-
ms
SRD
SRD : Sample Rate Dependent
Standard Codes Lineup
Code #
Triggers
OKY
Title
002
003
004
006
007
008
010
013
026
031
1,2,3,4,5
1,2
1,2,3,4,5
1,2,3,4
1,2,3
1,2,3,4
1,2,3,4
1,2,3
1,2,3,4,5
1,2,3
NO
OKY
NO
OKY
OKY
OKY
OKY
NO
NO
OKY
Police Car
Happy Chinese New Year
Go Go Train
Laughing Witch
Cuckoo Bird
Gun Set
Shrilling Gird
Running Car
Happy Train
Running Neighing
8/19
PID239 05/96
MSS0306
MOSEL VITELIC
Timing Diagram
I. Acceptable Power On Signal & Ripple
TP
TR
90% V DD
90% V DD
V DD
10% VDD
VSS = 0.0 V
II. Edge/Unholdable/Retrigger/LED/STOP/BUSY Trigger Mask
TG2
AUDIO
Sent2
Sent2
Sent2
LED
STOP
BUSY
III. Level/Unholdable/Retrigger/LED/STOP/BUSY Trigger Mask
TG1
TG2
AUDIO
Sent2
Sent2
Sent1
Sent2
Sent2
LED
STOP
BUSY
IV. Edge/Holdable/Retrigger/LED/STOP/BUSY Trigger Mask
TG1
TG2
AUDIO
Sent2
Sent1
Sent2
LED
STOP
BUSY
V. Level/Holdable/Retrigger/LED/STOP/BUSY Trigger Mask
TG1
TG2
AUDIO
Sent2
Sent1
Sent2
Sent2
LED
STOP
BUSY
9/19
PID239 05/96
MSS0306
MOSEL VITELIC
VI. Status & LED Outputs
AUDIO
LEDX
Fix flash
{ LEDY
LEDZ
LEDX
Ring
{ LEDY
LEDZ
STOP
BUSY
VII. Key Priority
VII. 1 At the same time ( Higher priority, TG5>TG4>TG3>TG2>TG1)
TG1
URLS
TG2
URES
TG3
UILS
TG4
UIES
TG5
UIES
AUDIO
Sent5
Sent3
VII. 2 Triggered at different time 1, Last key priority and else
TG1
URLS
TG2
URES
TG3
UILS
UIES
TG4
AUDIO
Sent1
Sent2
Sent3
Sent4
Sent2
BUSY
VII. 3 Triggered at different time 2, Last key priority and else
TG1
URLS
TG2
URES
TG3
UILS
UIES
TG4
AUDIO
Sent1
Sent2
Sent3
Sent3
Sent4
Sent2
Sent3
BUSY
VIII. Debounce Time
TG
TT
AUDIO
10/19
PID239 05/96
MSS0306
MOSEL VITELIC
Application Circuit
1. Typical Application
VDD
S
OUTZ
Pad No. Designation
1550um
1
TG1
13
2
1
2
3
4
5
6
7
8
9
10
11
12
13
TG2
12
COUT
3
T
1850um
R2
TG3
11
TG4
10
OUTY
4
6
OUTX
VSS
OSC
TG5
9
7
R1
NOTE : SUBSTRATE is VDD
Y
728.7
415.9
173.5
-389.5
-731.7
-731.7
-731.7
-731.7
-629.9
-316.7
-3.5
309.7
622.9
Pad Size = 90um X 90um
3. Use LED Pin To Drive LED
VDD
OSC
TG
X
-608.5
-608.5
-608.5
-608.5
-602.9
-602.9
95.1
333.7
608.5
608.5
608.5
608.5
608.5
Unit: µm
NC
2. CDS Application
R1
VDD
OUTZ
COUT
OUTY
OUTX
VSS
OSC
NC
TG5 / OKY
TG4
TG3
TG2
TG1
COUT
VSS
R1
S
T
VDD
OSC
S
COUT
TG1
TG2
R2
TG3
TG4
TG5 OUTX
R2
T
LED
OUTY
OUTZ
VSS
Taiwan
Taipei
Hongkong
U.S.A.
#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
7F, #102 Sec. 3,
Ming Chung E. Road,
Taipei
Taiwan, ROC
#19 Dai Fu Street,
Taipo Industrial Estate,
Taipo, N.T.
Hongkong
TEL: 852-2388-2777
TEL: 852-2665-4883
FAX: 852-2664-2406
FAX: 852-2770-8011
#3910 North First Street,
San Jose,
CA. 65134-1501
U.S.A.
TEL: 886-2-5451213
FAX: 886-2-5451214
11/19
TEL: 1-408-433-6000
FAX: 1-408-433-0952
PID239 05/96
MOSEL VITELIC
MSS0306
To:
Mosel Vitelic Inc.
886-3-5772788 (fax)
Attn :
Sales & Marketing Department
TITLE
Product Request Form
I hereby request MVI to start preparing produce MSS0306 which is specified as below description as well
as attached form(s).
I already read this data sheet PID 239 and understand MSS0306 completely and know
how to specify to fit my requirement.
Chip descriptions
General Desciptions
Customer
Cannot proceed when empty
TG5
Title
OKY
SampleRate
No use & don't care
Agent
Specify below only for OKY
Sales
Repr'tives Who is MVI sales you contact ?
Hz
Output
Buzzer (F fr =1KHz)
Device
Speaker (0.25W,
Playnext
8 ohm, 1" diam.)
8-bit PCM sound files
No use & don't care
Other:
.WAV sound files
Home sequence when
DAT or equivalent
after Interrupt
application is special,
Continue sequence when
3.5 V
see our written memo
after Interrupt
4.0 V
Others
No use & don't care
4.5 V
EPROMs with data inside
Small Loop (17-32)
Power
files to be programmed into
Large Loop (1-32)
Source
from
EPROM
No use and don't care
MVI
9016 emul'n board & Eprom
Providing
to
MVI
Service
Required
Working
2.5 V
Voltage
3.0 V
Battery
size "D"
size "AA"
size "AAA"
Confirm table
other size =
Others
Mains
Other
Form K is attached due to this Single form meets my need.
Form H and J are attached due to these simple forms meet my demand.
Form G, C, B, A are attached due to my application is delicate.
Company Name :
Fax number :
Signature :
Date :
Department/Section :
Position Title :
12/19
PID239 05/96
MOSEL VITELIC
MSS0306
There are 1<
Product Request Form A: Sentence
Section
Pitch
Loudness
76543210
76543210
76543210
OUTX
1<
OUTY
76543210 76543210
<32
Definitions T I T L E
OUTZ
76543210
There are 1<
00
32
01
33
02
34
03
35
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36
05
37
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38
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27
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29
61
30
62
31
63
Page
of
<192 entries included in this sentence.
Signature & date
<64 words defined on this page.
MVI Sales & date
13/19
PID239 05/96
MOSEL VITELIC
MSS0306
Product Request Form B: Sentence
Section
Pitch
Loudness
76543210
76543210
76543210
OUTX
1<
OUTY
76543210 76543210
<32
Definitions T I T L E
OUTZ
76543210
There are 0<
64
96
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Page
of
Signature & date
<64 words defined on this page.
MVI Sales & date
14/19
PID239 05/96
MOSEL VITELIC
MSS0306
Product Request Form C: Sentence
Section
Pitch
Loudness
76543210
76543210
76543210
OUTX
1<
OUTY
76543210 76543210
<32
Definitions T I T L E
OUTZ
76543210
There are 0<
128
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159
191
Page
of
Signature & date
<64 words defined on this page.
MVI Sales & date
15/19
PID239 05/96
MOSEL VITELIC
MSS0306
Product Request Form G: (Trigger & Entry dependent)
*Section Definition: There are 1<
section defined.
Address Voice Description
TITLE
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
6
s
ooh
s
ooh
h
7
s
ooh
s
ooh
h
ooh < 5100h
*Trigger Option Definition:
TG1
TG2
TG3
TG4
TG5
Don't care
Edge
Active High
Retrigger & Unhold
Irretrigger & Unhold
Level
Active Low
Retrigger & Hold & No stop
Irretrigger & Hold & No stop
Edge
Active High
Retrigger & Unhold
Irretrigger & Unhold
Level
Active Low
Retrigger & Hold & No stop
Irretrigger & Hold & No stop
Edge
Active High
Retrigger & Unhold
Irretrigger & Unhold
Level
Active Low
Retrigger & Hold & No stop
Irretrigger & Hold & No stop
Edge
Active High
Retrigger & Unhold
Irretrigger & Unhold
Level
Active Low
Retrigger & Hold & No stop
Irretrigger & Hold & No stop
Edge
Active High
Retrigger & Unhold
Irretrigger & Unhold
Level
Active Low
Retrigger & Hold & No stop
Irretrigger & Hold & No stop
*Trigger Sentence Definition & Its Outputs definition: There are 1<
Don't care
Don't care
Don't care
Don't care
sentences define
Forms A,B,C (pages
,
,
respectively) are attached to define sentence of TG1.
Forms A,B,C (pages
,
,
respectively) are attached to define sentence of TG2.
Forms A,B,C (pages
,
,
respectively) are attached to define sentence of TG3.
Forms A,B,C (pages
,
,
respectively) are attached to define sentence of TG4.
Forms A,B,C (pages
,
,
respectively) are attached to define sentence of TG5.
d
Forms As,Bs,Cs are attached to define TG6 through TG16's sentences for OKY responses.
Forms As,Bs,Cs are attached to define TG17 through TG32's sentences for OKY responses.
Company Name :
MVI Sales :
Signature :
Date :
16/19
PID239 05/96
MOSEL VITELIC
MSS0306
Product Request Form H: (Trigger / Sentence dependent)
*Section Definition: There are 1<
section defined.
Address Voice Description
TITLE
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
6
s
ooh
s
ooh
h
7
s
ooh
s
ooh
h
ooh
*Trigger Option Definition:
TG1
TG2
TG3
TG4
TG5
< 5100h
Don't care
Edge
Active High
Unhold & Retrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger & No stop
Hold & Irretrigger & No stop
Edge
Active High
Unhold & Retrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger & No stop
Hold & Irretrigger & No stop
Edge
Active High
Unhold & Retrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger & No stop
Hold & Irretrigger & No stop
Edge
Active High
Unhold & Retrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger & No stop
Hold & Irretrigger & No stop
Edge
Active High
Unhold & Retrigger
Unhold & Irretrigger
Level
Active Low
Hold & Retrigger & No stop
Hold & Irretrigger & No stop
*Trigger Sentence Definition: There are
1<
sentences define
Don't care
Don't care
Don't care
Don't care
d
Sentence Description (Word section addresses)
Address Count
TG1
TG2
TG3
TG4
TG5
*Output Definition 1:
SS & iH
OUTX
LED & iH
Address count summation=
DNC
SS & iH
OUTY
LED & iH
DNC
SS & iL
LED & iL
SS & iL
LED & iL
SS:=StausiH:=initial highiL:=initial lowDNC:=Don't care
Company Name :
MVI Sales :
Signature :
Date :
17/19
SS & iH
OUTZ
LED & iH
SS & iL
LED & iL
<192
DNC
PID239 05/96
MOSEL VITELIC
MSS0306
Product Request Form J:(Trigger / Sentence dependent)
*Output Definition 2 :
TITLE
Neither variable pitch nor variable loudness is used.
TG1
TG2
TG3
TG4
TG5
OUTX
OUTY
OUTZ
7, High Stop or Off LED
7
7
7
7
6, Low Stop or 6Hz LED
6
6
6
6
5, DC ø or 3Hz fixed LED
5
5
5
5
4, NA or 12 Hz Ring LED
4
4
4
4
3, NA or 6 Hz Ring LED
3
3
3
3
2, DC 1 or Dynamice LED
2
2
2
2
1, Low Busy or 3Hz Ring LED
1
1
1
1
0, High busy or On LED
0
0
0
0
Don't care
don't care
don't care
don't care
don't care
7, High Stop or Off LED
7
7
7
7
6, Low Stop or 6Hz LED
6
6
6
6
5, DC ø or 3Hz fixed LED
5
5
5
5
4, NA or 12 Hz Ring LED
4
4
4
4
3, NA or 6 Hz Ring LED
3
3
3
3
2, DC 1 or Dynamice LED
2
2
2
2
1, Low Busy or 3Hz Ring LED
1
1
1
1
0, High busy or On LED
0
0
0
0
Don't care
don't care
don't care
don't care
don't care
7, High Stop or Off LED
7
7
7
7
6, Low Stop or 6Hz LED
6
6
6
6
5, DC ø or 3Hz fixed LED
5
5
5
5
4, NA or 12 Hz Ring LED
4
4
4
4
3, NA or 6 Hz Ring LED
3
3
3
3
2, DC 1 or Dynamice LED
2
2
2
2
1, Low Busy or 3Hz Ring LED
1
1
1
1
0, High busy or On LED
0
0
0
0
Dont'care
don't care
don't care
don't care
don't care
Company Name :
MVI Sales :
Signature :
Date :
18/19
PID239 05/96
MOSEL VITELIC
MSS0306
Product Request Form K: (whole chip dependent)
*Section Definition : There are 1<
TITLE
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
6
s
ooh
s
ooh
h
7
s
s
ooh
ooh < 5100h
ooh
h
*Tirgger Option Denfinition:
Edge
Level
Active high
Unhold & Irretrigger
Hold & Irretrigger & No Stop Status
Unhold & Retrigger
Hold & Retrigger & No Stop Status
Active low
Don't care
*Trigger Sentence Definition: There are 1<
sentences define
Sentence Description (Word section addresses)
Address Count
TG1
TG2
TG3
TG4
TG5
*Output Definition:
Neither variable pitch nor variable loudness is used.
OUTX
<192
OUTX
OUTY
SS & iH
SS & iH
SS & iH
7
7
7
SS & iL
SS & iL
SS & iL
6
6
6
LED & iH
LED & iH
LED & iH
5
5
5
LED & iL
LED & iL
LED & iL
4
4
4
Don't Care
Don't Care
Don't care
3
3
3
2
2
2
1
1
1
0
0
0
Don't Care
Don't Care
Don't care
SS:= Status iH:= initial high
OUTZ
Address count summation=
iL:= initail low
7:= High Stop or Off LED
3:= NA or 6 Hz Ring LED
6:= Low Stop or 6Hz LED
2:= DC1 or Dynamic LED
5:= DC ø or 3Hz fixed LED
1:= Low Busy or 3Hz Ring LED
4:= NA or 12 Hz Ring LED
0:= High Busy or On LED
Company Name :
MVI Sales :
Signature :
Date :
19/19
OUTY
OUTZ
PID239 05/96