LA4265.PDF

(326 KB) Pobierz
LA4265
Ordering number:ENN1463C
Monolithic Linear IC
LA4265
3.5W Monaural Power Amplifier
, THD=10%).
• Soft clip, causing little harmonic disturbance to radios.
• Small pop noise at the time of power switch ON/OFF.
• Built-in protector against abnormal modes (Thermal shut-
down, overvoltage)
W
Package Dimensions
unit:mm
3018A-SIP10FD
[LA4265]
25.5
24.0
3.6
12.0
3.6
1
10
0.45
1.6
1.32
2.54
0.5
1.3
Specifications
Absolute Maximum Ratings at Ta = 25˚C
SANYO : SIP10FD
P
S
C
R
U
M
s
v
V C
m
2
V
M
o
c
I o
p
2A
A
p
d
P
m
W
1
´
1
´
1
3
A
h
s
7
W
O
t
T
t
+
˚C
˚C
S
t
T
t
+
Operating Conditions at Ta = 25˚C
P
S
C
R
U
R
s
v
V C
1
V
R
l
r
R L
8
W
O
s
v
r
V C
9
t
2
V
Operating Characteristics at Ta = 25˚C, V CC =16V, R L =8
W
, f=1kHz, Rg=600
W
, See specified test circuit
(based on sample application circuit).
R
P
S
C
U
m
t
m
Q
c
I C
3
5
m
V
g
V
4
5
5
d
O
p
P O
T
3
3
W
T
h
d
T
P O
=
0
1
%
O
n
v
V N
R
W
,
B
t
2
0
1
m
R
r
S
R
f
R
=
V
R
=
4
5
d
Any and all SANYO products described or contained herein do not have specifications that can handle
applications that require extremely high levels of reliability, such as life-support systems, aircraft’s
control systems, or other applications whose failure can be reasonably expected to result in serious
physical and/or material damage. Consult with your SANYO representative nearest you before using
any SANYO products described or contained herein in such applications.
SANYO assumes no responsibility for equipment failures that result from using products at values that
exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges,or other
parameters) listed in products specifications of any and all SANYO products described or contained
herein.
SANYO Electric Co.,Ltd. Semiconductor Company
TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110-8534 JAPAN
21500TH (KT)/33194HO/0237KI/8064KI/4034KI, TS No.1463–1/8
Features
• Minimum number of external parts requierd (No input
capacitor, bootstrap capacitor requierd).
• High output : 3.5W typ (V CC =16V, R L =8
11028119.004.png 11028119.005.png
 
LA4265
Equivalent Circuit Block Diagram
Sample Application Circuit 1
Sampl Application Circuit 2
(Recommended circuit)
(Circuit with minimum number of external parts)
Sample Printed
Circuit Pattern
No.1463–2/8
11028119.006.png
LA4265
Description of External Parts
C1 (330pF) : Input short capacitor
Reduces the high frequency noise when the input impedance is increased. Not required when the input
impedance is decreased.
C2 (100
m
F) : Feedback capacitor
Decreasing the capacitance value lowers the low frequency response. Increasing the capacitance value
makes the starting time later.
F : Oscillation blocking capacitor
polyester film Decreasing the capacitance value causes oscillation to occur easily. Use a polyester film capacitor that is
capacitor)
m
good in high frequency response and temperature characteristic. The use of an electrolytic capacitor may
cause oscillation to occur at low temperatures.
C4 (470
m
F) : Output capacitor
Decreasing the capacitance value causes insufficient power at low frequencies.
C5 (470
m
F) : Power capacitor
Decreasing the capacitance value causes ripple to occur easily. Locating at a distance from the IC or
removing this capacitor may cause oscillation to occur.
C6 (100
m
F) : Ripple filter capacitor
Decreasing the capacitance value excessively or removing this capacitor causes ripple to occur. However,
increasing the capacitance value does not always cause ripple to be reduced. Decreasing the capacitance
value makes the starting time earlier.
R1 (100k
W
) : Input bias resistor
Determines the bias (bias of zero potential) to be applied to the input pin and the input impedance. Not
required if a variable resistor is also used as this resistor.
R2 (3.3
W
)
: Resistor connected in series with oscillation blocking capacitor
Prevents phase shift attributable to the oscillation blocking capacitor so that oscillation is hard to occur.
Note for Changing Voltage Gain
The voltage gain can be reduced by adding an external resistor (R NF ) in series with the feedback capacitor. (See VG · R NF
characteristic curve). However, it should be noted that various characteristics are also changed (THD-VG, V NO -VG, Vro-
VG). The voltage gain must not be reduced to be less than 30dB. Since the frequency response is extended and oscillation
is liable to occur when the voltage gain is reduced, high-cut must be made as required. (High-cut is made by connecting
a capacitor of approximately 30pF across pins (6) and (7).)
External Muting
If external muting is required, make the circuit as shown on next page. In this case, the pop noise is similar to that which
occurs at the time of power switch ON/OFF. If the value of the series resistor is decreased, more pop noise is heard at the
time of attack ; if increased, muting is hard to work.
Measure against Fold-back of Output Waveform
Since the input pin is zero-biased, the circuit may be saturated at an overinput, causing a part of the output waveform to
be folded back (e. g. when the peak input voltage exceeds 600mV). In such a case, the fold-back of the waveform can be
prevented by using the built-in diode (also can be prevented by using an external diode). When the built-in diode is used,
a resistor must be connected in series with the input pin to cause the diode to conduct no overcurrent (10mA or less).
No.1463–3/8
C3 (0.1
11028119.001.png
LA4265
Fold-back Output Waveform
No.1463–4/8
11028119.002.png
LA4265
No.1463–5/8
11028119.003.png

Plik z chomika:

Inne pliki z tego folderu:

Inne foldery tego chomika:

Zgłoś jeśli naruszono regulamin