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TA8233HTOSHIBAN/a100avai30W BTL x 2CH AUDIO POWER AMPLIFIER


TA8233H ,30W BTL x 2CH AUDIO POWER AMPLIFIERTA8233HTAR722H"W9gPM-tt-The thermal resistance f?) -T of TA8233H Ipackage designed I IIUI IUW Lllt‘ ..
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TA8233H
30W BTL x 2CH AUDIO POWER AMPLIFIER
TOSHIBA TA8233H
TOSHIBA BIPOLAR LINEAR INTEGRATED CIRCUIT SILICON MONOLITHIC
TA8233H
30W BTLX2CH AUDIO POWER AMPLIFIER
The thermal resistance 6j-T of TA8233H package designed
for low thermal resistance, has high efficiency of heat
radiation.
The temperature rise of chip can be reduced, and the
influence from the degradation of the features due to
the temperature rise at the high output can also be
reduced.
This stereo audio power IC, designed for car audio use,
has two built-in channels to reduce the characteristic
difference between L and R channels. It also contains
output short detection circuit, output clip detection and
various kind of protection.
HZlP17-P-2.00
Weight : 9.8g (Typ.)
FEATURES
0 High Power
. POUT (1) = 30W (Typ.) / Channel
(Vcc=14.4v, f=1kHz, THD=10%, RL=20)
POUT (2) = 26W (Typ.) /Channel
(vcc=13.2v, f=1kHz, THD=10%, RL=2Q)
POUT (3) = 19W (Typ.) /Channel
(Vcc= 13.2v, f=1kHz, THD-- 10%, RL=4Q)
0 Low Thermal Resistance : 6j-T=1.5°C/W(Infinite Heat Sink)
0 Low Distortion Ratio : THD =0.04% (Typ.)
(Vcc =13.2V, f=1kHZ, POUT =1W, RL =40, GV = 50dB)
0 Low Noise : VNO = 0.30mVrms (Typ.)
(Vcc=13.2V, RL=4Q, Gv=50dB, Rg--on, BW=20Hz--20kHz)
o Built-in Stand-by Function
(With pin@ set at LOW, Power is turned OFF.) '53 =1/zA(Typ.)
o Built-in Output Clip Detection Circuit
(pinC) : Open Collector(Active Low))
0 Built-in Output Short Detection Circuit
(pin© : Open Collector(Active Low))
0 Built-in Various Protection Circuits
Thermal Shut Down, Over Voltage, Out-sue Short, Out-9GND Short and OUT-OUT Short.
0 Operating Supply Voltage : 1/cc(opr)=9--181/
980508EBA2
O TOSHIBA is continually working to improve the quality and the reliability of its products. Nevertheless, semiconductor devices in general can
malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing
TOSHIBA products, to observe standards of safety, and to avoid situations in which a malfunction or failure of a TOSHIBA product could cause loss
of human life, bodily injury or damage to property. In developing your designs, please ensure that TOSHIBA products are used within specified
operating ranges as set forth in the most recent products specifications Also, please keep in mind the precautions and conditions set forth in the
TOSHIBA Semiconductor Reliability Handbook.
1998-05-15 1/13
TOSHIBA TA8233H
BLOCK DIAGRAM
TA8233H (GV = 50dB)
xl.,, J, +
1.1..f 'dy Q9 Q9 I
Clip-Det. Short-Det. VCC2 VCC1
1 NFI RL
J - OUTI
Pre-Amp Flat- 16 T
GND1 i
- PROTECTOR - .
is) Ripple LOAD DUMP TAB
THERMAL SHUT DOWN
SHORT CIRCUIT (C'
GND2 Q
l OUT4 1
3—IVW—II—c
C -g+ - dp, IN2 1 l
l NF2 RL
+ utr.) OUT3 12 T -
J Pre-Amp FIat-Amp I
Pre-GND Stand-By SW
'ji' f
Active-High
(Power-ON) f
CAUTION AND APPLICATION METHOD
(Description is made only on the single channel.)
1. Voltage Gain Adjustment
Amp?, Am p4'=. 20dB
OUT Amp1 : Pre-Amp
Amp2 : Phase Amp
Amp3 : POWER Amp(FIat-Amp)
Amp4 : POWER Amp(FIat-Amp)
(Fig.1)
This IC has the amplifier constructions as shown in Fig. 1. The Pre-Amp(Amp 1) is provided to the
primary stage, and the input voltage is amplified by the Flat Amps, Amp 3 and Amp 4 of each
channel through the phase Amp(Amp 2).
Since the input offset is prevented by Pre-Amp when VCC is set to ON, this circuit can remarkably
reduce the pop noise.
980508EBA2'
O The products described in this document are subject to foreign exchange and foreign trade laws.
0 The information contained herein is presented only as a guide for the ap lications of our products. No responsibility is assumed by TOSHIBA
CORPORATION for any infringements of intellectual property or other rights D the third parties which may result from its use. No license is granted
, implication or otherwise under any intellectual property or other rights of TOSHIBA CORPORATION or others.
0 T e information contained herein is subject to change without notice.
1998-05-15 2/13
TOSHIBA TA8233H
The total closed loop gain GV of this IC can be obtained by expression below when the closed
loop voltage gain of Amp 1 is Gv1.
R1 R R2
Gu1=20tog +f(+'%)(d8) ......... (1)
The closed loop voltage gain of POWER Amp, Amp
3 and Amp 4 is fixed at GV3'=.GV4=20dB.
Therefore, the total closed circuit voltage gain GV is
obtained through BTL connection by the expression
as below. fi? 50
GV=GV1+Gv3 +6(dB) ......... (2) i", 40 "s
k9 <‘~.
For example, when Rf=OQ, GV is obtained by the Q ''"s,,
expressions (1) and (2) as below. 3 \
GV'=.24+20+6=50dB iii
The voltage gain is reduced when Rf is increased. > 20
(Fig.2) :5
With the voltage gain reduced, since (1) the
oscillation stability is reduced, and (2) the pop noise 0 " 300 500 1k 3k
changes when VCC is set to ON, refer to the items FEEDBACK RESISTANCE Rf (Q)
3 and 4. (Fig.2)
2. Stand-by SW Function
By means of controlling pin@ (Stand-by terminal) to High
and Low, the power supply can be set to ON and OFF. Vcc
The threshold voltage of pin@ is set at 2.1V(3VBE), and
the Power Supply current is about 1pA(Typ.) at the l ONLPOWer W
L = BE
stand-by state. OFF /
i To BIAS
CUTTING CIRCUIT
Control Voltage of pin@ : V(SB)
Stand-By Power V(SB) (V)
ON OFF o--2 (Fig.3)With pin© set to High,
OFF ON 3~VCC Power is turned ON
Adjustage of Stand-by SW
(1) Since VCC can directly be controlled to ON or OFF by the microcomputer, the switching relay can
be omitted.
(2) Since the control current is microscopic, the switching relay of small current capacity is
satisfactory for switching
1998-05-15 3/13
TOSHIBA TA8233H
Large current capacity switch r - 1
BATTERY
BATTERY
(j, - Conventional Method -
DIRECTLY FROM
MICROCOMPUTER
MICROCOMPUTER
Small current capacity switch
BATTERY
BATTERY
Stand-By VCC Stand-By VCC
- Stand-by Switch Method -
3. Preventive Measure Against Oscillation
For preventing the oscillation, it is advisable to use C4, the condenser of polyester film having small
characteristic fluctuation of the temperature and the frequency.
The condenser (C6) between input and GND is effective for preventing oscillation which is
generated with a feedback signal from a output stage.
The resistance R to be series applied to C4 is effective for phase correction of high frequency, and
improves the oscillation allowance.
(1) Voltage gain to be used (GV Setting)
(2) Capacity value of condenser
(3) Kind of condenser
(4) Layout of printed board
In case of its use with the voltage gain GV reduced or with the feedback amount increased, care
must be taken because the phase-inversion is caused by the high frequency resulting in making the
oscillation liable generated.
4. Adjustment of Output Offset (When the power supply turn on)
As this IC is constructed with DC circuit on the Pre-Amp stage, it is necessary to lower a input
offset or output offset by agreement with the each leading edge time constant of the input
voltage in the Pre-Amp stage and NF terminal voltage.
Concretely, monitor the output DC voltage and vary the capacity value in input condenser and NF
condenser (See Fig.4)
(Reference) In case of setting the condition (GV=40dB) with Rf=4700
VOUT (DC) VOUT (DC)
OUTPUT OFFSET
POWER ON Cr POWER ON
ADJUSTMENT
Cl =4.7,uF, C2=47pF (Fig.4) C1=3.3/1F, C2=33pF
1998-05-15 4/13
TOSHIBA TA8233H
5. Output Clip Detection Function (pinC))
The output clip detection terminal of pin0) has the open collector output structure on chip as
shown in Fig.5. In case that the output waveform is clipping, the clip detection circuit is operated
and NPN Tr. is turned on.
It is possible to improve the tone quality with the current of flowing into pinC) and with
controlling the volume, tone control circuit through L.P.F smoothing circuit as shown in Fig.5.
In case of being unused this function, use this IC as open connection on Pino).
(Application)
VOLUME CONTROL CIRCUIT
SMOOTHING
CIRCUIT
TONE CONTROL CIRCUIT
pinC) : Open Collector Output(Active Low)
(Fig.5)
CLIP DETECTOR
CIRCUIT
(A)OUTPUT (AC WAVE FORM) (A)
l l l t
'tv/ i E
Dc 5 i
(B)CLIP DETECTOR CIRCUIT (B) i i : :
(INTERNAL) l l l l
l l l i
i i l l
I I I I
'f'') {N t
i i I I
l i i l
I I I I
DC l l l l
(C) CLIP DET. TERMINAL (C) E E E E
(pinC)) 5V ' , : :
1998-05-15 5/13
TOSHIBA TA8233H
6. Output to VCC: Output to GND Short Detection Function (pin©)
The Output Short Detection Terminal of pin© has open collector output structure on chip as shown
in Fig.6.
In unusual case that output terminal of Power Amp. is condition of output to VCC or output to
GND short, it is possible to protect all the system of apparatus as well as power IC protection.
In case of being unused this function, use this IC as open-connection on pins).
(Application)
V9 LED / LCD (Flashing)
SHORT CIRCUIT [1 CO
Announcement from
a spea er.
GND t REGULATOR-90FF
(Relay-9OFF)
Output Short Time MEMORY (Count and record)
pin® : Open Collector Output(Active Low)
(Fig.6) (Fig.7)
7. Rapid Ripple Discharging Circuit at the Time of VCC OFF
This circuit is effective in such a mode where the VCC and the stand-by terminals become high or
Low simultaneously ; for instance, for a pop noise produced when the power is turned ON or OFF
repeatedly by operating the ignition key.
I I VCC
Vcc - OFF
Q2 Q? DETECTION CIRCUIT
Ncc= 8V)
l, Power Stage Bias Cut
(Fig.8)
When VCC is OFF, this detection circuit detect Vcc'=.8v internally on IC.
(1)The power stage bias circuit is cut.
(2) pin. : Ripple Capacitor is rapidly discharged by turning Q3 ON and then Q1 and Q2 ON.
1998-05-15 6/13
TOSHIBA TA8233H
(Precaution 1)
When the stand-by terminal was put to the low level after the ripple
rapid discharging circuit was operated Nctyer81/) at the time when VCC
was turned OFF, a pop noise may be generated. Therefore, VCC which
makes the Stand-by terminal low shall be set at 8V or above so that
(1) the Stand-by terminal is put at the low level and (2) the ripple (Fig.9)
rapid discharging circuit is turned ON when VCC is turned OFF (in order
of (1) and (2)). An example of application is shown in Fig.9.
(Precaution 2)
If the falling time constant of the VCC line is large (the fall is gentle), the pop noise may become
worse.
In this case, it is possible to prevent the pop noise from becoming worse by reducing the ability of
"Ripple Rapid Discharging Circuit at the time of VCC OFF" according to the increase of the capacity
of ripple capacitor of pin..
However, it shall be kept in mind that the time for turning the power ON becomes longer as the
result of this method.
8. External Part List and Description
SYM- RECOMMENDED INFLUENCE
BOL VALUE FEATURE SMALLER THAN LARGER THAN REMARKS
RECOMMENDED VALUE RECOMMENDED VALUE
C1 4.7pF DC blocking Related to pop noise at VCC" ON. Related to gain.
Related to pop noise at VCC-> ON. Refer to item 4.
Determination of low cut-off frequency
C2 47,uF Feedback condenser 1
C2 = -
2rr . fL. Rf
I I Time constant is small Time constant is Large
C3 220pF Ripple reduction
at vcc-9ON or OFF. at VCC-AF or OFF.
C4 0.12,uF Oscillation prevention Made liable to oscillate. Oscillation allowance Refer to item 3.
For filtering power supply hum and ripple.
C5 1000pF Ripple filter Large at using AC rectified power supply.
Small at using DC power supply.
I I I Oscillation allowance improved. I
C6 1000pF Oscillation prevention . I Refer to item 3.
Noise Reduction
1998-05-15 7/13
TOSHIBA
TA8233H
MAXIMUM RATINGS (Ta = 25°C)
CHARACTERISTIC SYMBOL RATING UNIT
Peak Supply Voltage (0.2s) VCC (surge) 50 V
DC Supply Voltage VCC (DC) 25 V
Operating Supply Voltage VCC (opr) 18 V
Output Current (Peak) |o(peak) 9 A
Power Dissipation PD 50 W
Operating Temperature Topr - 30~85 °C
Storage Temperature Tstg - 55--150 °C
ELECTRICAL CHARACTERISTICS (Unless otherwise specified, VCC=13.2V, RL=4Q, f=1kHz, Ta =25°C)
Saturation Voltage
CHARACTERISTIC SYMBOL CIR- TEST CONDITION MIN. TYP. MAX. UNIT
Quiescent Supply Current Icco - VIN =0 - 120 250 mA
v =14.4v, R =20
POUT(1) - CC - o L - 30 -
O t t P THD=10% W
u pu ower POUTQ) - RL--2ft, THD= 10% 17 26 -
POUT (3) - THD = 10% 16 19 -
Total Harmonic n
Distortion Ratio THD - POUT-- 1W - 0.04 0.4 A:
Voltage Gain GV - 48 50 52 dB
Voltage Gain Ratio AGV - - 1.0 0 1.0 dB
Output Noise Voltage VNO - Rq=00, BW=20Hz--20kHz - 0.3 0.7 mVrms
Ripple Rejection Ratio R.R. - frippie=100Hz, Rg=6000 40 54 - dB
Input Resistance RIN - - 30 - kn
Output Offset Voltage Voffset - VIN =0 - 100 0 100 mV
Current at Stand-by State ISB - - 1 10 pzA
R =6000
T Ik t - g - - B
Cross a C VOUT=0.775Vrms(0dBm) 60 d
. Stand-By-ao)
Ping) Control Voltage V53 - (Power-SON) 2.5 - VCC V
Pino) (CLIP DET)
Saturation Voltage Vsat® - lc=1mA - 100 - mV
Pins) (SHORT DET) Vsat© - lc=1mA - 100 - mV
Vsat oy Vsat S) Test Circuit
1998-05-15 8/13
TOSHIBA TA8233H
TEST CIRCUIT
TA8233H (GV = 50dB)
\1, Q; {0/ £71
Clip-Det. Short-Det. VCC2 Vcc1
- IN1 u.
2* I fp, + Li
47m: la NF1 3 N RL
8 izzz'; LL Iv - oun Tg
lrzf u, Pre-Amp Flat- 16 wr,.
I C" w Amp U) tt,
-PROTECTOR-
i) Ripple LOAD DUMP
8+ t THERMAL SHUT DOWN
l 3 SHORT CIRCUIT
C -"+ - m,hllu2
47/4013 li, NF2 RL
U 0 I VV
J?-'ct l Pre-Amp FIat-Amp
u', '3 -Nvv- CI t
Pre-GND Stand-By SW ru' o
'jj' (f
Active-High 3V
(Power-ON) f
1998-05-15 9/13
TOSHIBA TA8233H
THD - POUT(1) THD - P0UT(2)
Vcc=13.2V
IO RL=4Q 10
0.5 0.5
0.3 0.3
f=10kHz
0.1 0.1
TOTAL HARMONIC DISTORTION THD (%)
TOTAL HARMONIC DISTORTION THD (%)
0.05 0.05
. 2 0.02
0.3 0.5 1 3 5 10 30 50 0.3 0.5 1 3 5 10 30 50
OUTPUT POWER POUT (W)/CH OUTPUT POWER POUT (W)/CH
THD - POUT(3) THD - PQUT(4)
Vcc=13.2V
IO RL=2Q
05 f=10kHZ 0.5
0.3 0.3
0.1 0.1
TOTAL HARMONIC DISTORTION THD (%)
TOTAL HARMONIC DISTORTION THD (%)
0.05 0.05
.02 0.02
0.3 0.5 1 3 5 10 30 50 0.3 0.5 1 3 5 10 30 50
OUTPUT POWER POUT (W)/CH OUTPUT POWER POUT (W)/CH
1998-05-15 10/13
TOSHIBA
THD - f
Vcc=13.2V
3 POUT=1W
RL--4n
TOTAL HARMONIC DISTORTION THD ("/o)
30 100 300 1k 3k 10k 30k 100k
FREQUENCY f (Hz)
C.T. - f
Vcc=13.2V
VoUT=ih775Vrms
(OdBm)
:fl RL=4Q
F- Rg=6000
30 100 300 1k 3k 10k 30k 100k
FREQUENCY f (Hz)
R.R. - Rg
A Vcc=13.2V
t'a.. vrip=0.775Vrms
ai. (OdBm)
u: frip=100Hz
o RL=4Q
100 300 1k 3k 10k 30k 100k
SIGNAL SOURCE RESISTANCE R9 (Q)
OUTPUT NOISE VOLTAGE VNO (mVrms)
RIPPLE REJECTION RATIO R.R.
OUTPUT POWER POUT (W)/CH
TA8233H
VNO - Rg
Vcc =13.2V
BW=20Hz-20kHz
0.5 GV-- 50dB
0.1 40
30 100 300 1k 3k 10k 30k 100k
SIGNAL SOURCE RESISTANCE R9 (Q)
R.R. - f
VCC =13.2V
vrip=0.775vrms
(OdBm)
30 100 300 1k 3k 10k 30k 100k
FREQUENCY f (Hz)
POUT - Vcc
f=1kHz /
THD=10% /
RL--yy/" /
0 4 8 12 16
SUPPLY VOLTAGE VCC (V)
1998-05-15 11/13
TOSHIBA TA8233H
ICCQ - VCC PD - POUT(1)
l', E Vcc=16V
-f,r,' J?
1:) g' THD=1%
0 4 8 12 16 20 24 28 o 4 8 12 16 20
POWER SUPPLY VOLTAGE Vcc (V) OUTPUT POWER POUT/CH (W)
PD - POUT(2) PD MAX - Vcc
v =16V
PD MAx=sow - ffi..
[i. - - - - - E
THD=15f F
CI o 5
Jir.:'?
ae 'iii?..
V) = t2
Ty go.
tV f=1kHz E
0 8 16 24 32 40 0 2 4 6 8 10 12 14 16 18
OUTPUT POWER POUTICH (W) POWER SUPPLY VOLTAGE Vcc (v)
PD MAX - Ta
C) INFINITE HEAT SINK
R&c--15'C/w
© HEAT SINK
(ReHs--35'C/W)
Rejc+ReHs--5''C/w
c3) NO HEAT SINK
Rgja--25''c/w
ALLOWABLE POWER DISSIPATION
PD MAX (W)
0 25 50 75 100 125 150 175 200
AMBIENT TEMPERATURE Ta (°C)
1998-05-15 12/13
TOSHIBA TA8233H
OUTLINE DRAWING
HZlP17-P-2.00 Unit : mm
N l, N
. to. .I .
£3 r fi', FE.-),?: - a?
" c'? ct cu 'ei
- a ts
_1_ T"
"2.575TYP
1.2Hhl 0.41335
0.55AO.1 jFlriiLciiliijL
l 36.5MAX S,
I 36.0i0.2
Weight : 9.8g (Typ.)
1998-05-15 13/13

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