SANYO LA4581MB

Ordering number: EN3535A
Monolithic Linear IC
LA4581MB
Preamplifier + Power Amplifier
for 3V Headphone Stereos
Overview
Package Dimensions
The LA4581MB is an auto reverse-supported preamplifier +
power amplifier IC that is intended for use in 3V headphone
stereos.
unit : mm
3112-MFP24S
[LA4581MB]
Features
. Preamplifier muting and preamplifier output on/off can be
.
.
.
.
implemented with one pin. This IC can easily be used to
construct a set with a radio.
The power amplifier needs no input/output coupling
capacitor.
A high-frequency cut capacitor is connected to the
preamplifier input pin and the power amplifier input pin.
(Anti-buzz provision)
Because Vref AMP (r0 = 10 Ω) is built in, the virtual
grounding impedance is about 10 Ω. This eliminates the
need for a large capacitor.
8 Ω speaker drivable.
SANYO : MFP24S
Specifications
Maximum Ratings at Ta = 25 °C
Parameter
Symbol
Maximum supply voltage
Conditions
Ratings
Unit
VCC max
4.5
V
Pd max
530
mW
Allowable power dissipation
Operating temperature
Topr
–20 to +75
°C
Storage temperature
Tstg
–40 to +125
°C
Operating Conditions at Ta = 25 °C
Parameter
Symbol
Recommended supply voltage
VCC
Operating supply voltage range
VCC op
Conditions
Ratings
Unit
3.0
V
1.8 to 3.6
V
Operating Characteristics at Ta = 25 °C, VCC = 3.0 V, f = 1 kHz, 0.775 V = 0 dBm,
RL = 10 kΩ (preamplifier), RL = 16 Ω (power amplifier)
Parameter
[Pre + Power]
Quiescent current
Voltage gain (Closed)
Symbol
ICCO
VGT
Output
Rg = 2.2 kΩ (preamplifer) VIN = 0 V
VO = –5 dBm
min
typ
max
Unit
65
17
68
27
71
mA
dB
Continued on next page.
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TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110 JAPAN
22896HA(II) No.3535-1/8
LA4581MB
Continued from preceding page.
Parameter
[Preamplifier]
Voltage gain (Open)
Voltage gain (Closed)
Maximum output voltage
Total harmonic distortion
Equivalent input noise voltage
Crosstalk
Ripple rejection ratio
[Power Amplifer]
Output voltage
Voltage gain (Closed)
Total harmonic distortion
Interchannel crosstalk
Output noise voltage
Ripple rejection ratio
Input resistance
DC offset voltage
Symbol
VGo
VG1
VOmax
THD1
VN1
CT1
Rr1
PO
VG2
THD2
CTT
VNO
Rr2
RIN
VODCoff
Output
VO = –5 dBm
VO = –5 dBm
THD = 1 %, VCC = 1.8 V
VO = 0.2 V, VG = 40 dB/NAB
Rg = 2.2 kΩ, B.P.F = 20 to 20 kHz
Rg = 2.2 kΩ, TUNE 1 kHz
Rg = 2.2 kΩ, VCC = 1.8 V, Vr = –20 dBm,
f = 100 Hz
typ
70
60
80
40
0.2
0.05
1.3
80
40
50
23
25
32
28
0.4
40
24
60
30
0.1
THD = 10%
VO = –5 dBm
PO = 1 mW
VO = –5 dBm, Rv = 0 Ω
Rg = 0, B.P.F = 20 to 20 kHz
Rg = 0, Vr = –20 dB, f = 100 Hz, VCC = 1.8 V
Between 13-14 and 15
min
30
45
22
–90
max
0.5
2.0
Unit
dB
dB
V
%
µV
dB
dB
31
1.0
40
38
+90
mW
dB
%
dB
µV
dB
kΩ
mV
Note) Power amplifier voltage gain VG2 increases by about 1 dB for min/max respectively than specified above when RL = 32 Ω.
Block Diagram
Test Circuit
1.8 to 3.0 V
Unit (resistance: Ω, capacitance: F)
No.3535-2/8
Allowable power dissipation, Pd max − mW
LA4581MB
Ambient temperature, Ta − °C
Sample Application Circuit
Preamplifier input is applied to pins 2,23/
pins 3,22 when SW ON/OFF, respectively.
Note) Pre closed loop gain VG = 40 dB/1 kHz NAB
POWER MUTE ON when
connected to GND.
1.8 to 3.6 V
PRE MUTE ON when
connected to VCC
Unit (resistance: Ω, capacitance: F)
Pin and external part functions (when the voltage is VCC = 3.0 V)
Pin No.
Pin Function
1
PRE GND
2
PRE IN1R 1.8 V
v Turns ON when pin 17 is grounded.
v A bias resistor (2.2 kΩ) must be connected between pin 2 and pin 24 (Vref) when no head is in use.
3
PRE IN1F 1.8 V
v Turns ON when pin 17 is floating.
v A bias resistor (2.2 kΩ) must be connected between pin 3 and pin 24 (Vref) when no head is in use.
4
PRE NF1 1.8 V
5
PRE OUT1 1.8 V
v Like pin 6, 10 kΩ load drivable.
6
SW OUT1 1.8V
v Provides PRE AMP1 output when pin 8 is floating (PRE MUTE OFF)(equivalent to pin 5).
v Disconnects from PRE AMP1 and sets RIN ^ 500 kΩ when pin 8 is at VCC (PRE MUTE ON).
7
POWER IN1 1.8V
v Input resistance RIN 7 30 kΩ
Continued on next page.
No.3535-3/8
LA4581MB
Continued from preceding page.
Pin No.
8
9
10
Pin Function
PRE MUTE
v When VCC is applied, PRE MUTE ON.
v MUTE ON conditions: V8IN ^ VCC – 0.2 V, inflow current I7 7 60 µA (when VCC = 3 V)
Ripple Filter REF 2.7 V(C7 = 2.2 µF to 33 µF)
v Ripple Filter, Vref reference
v The Vref ripple rejection ratio worsens when C7 is made smaller.
v Rr is 55 dB for 22 µF; 35 dB for 2.2 µF.
Ripple Filter OUT 2.7 V
v Ripple rejection ratio: Rr is 38 dB when C7 = 22 µF; 30 dB when C7 = 2.2 µF.
v Outflow current I7 max = 1 mA
11
VCC 3.0 V
12
POWER GND
13
COMMON 1.2 V
14
POWER OUT1 1.2 V
v CH1 output.
15
POWER OUT2 1.2 V
v CH2 output
16
POWER MUTE 0.7 V (C10 = 1.0 µF to 4.7 µF)
v When connected to GND: POWER MUTE ON.
v MUTE ON conditions: V16 % 0.3 V, outflow current I16 7 2.5 µA.
v C10 can be used to control MUTE TIME.
v When C10 = 2.2 µF, VCC =3.0 V 0.7 sec.
17
FWD/REV SW (C11 % 0.47 µF)
v When connected to GND, PRE IN1R (pin 2) and IN2R (pin 23) turn on.
v When floating, PRE IN1F (pin 3) and IN2F (pin 22) turn on.
v C11 and R7 are intended for smoothing at the time of switching.
v REV condition: V17 % 0.2 V.
18
POWER IN2 1.8 V
v Input resistance RIN 7 30 kΩ
19
SW OUT2 1.8 V
v Provides PRE AMP2 when pin 8 is floating (PRE MUTE OFF) (equivalent to pin 20).
v Disconnects from PRE AMP2 and RIN ^ 500 kΩ when pin 8 is VCC (PRE MUTE ON).
20
PRE OUT2 1.8 V
v Like pin 19, 10 kΩ load drivable.
21
PRE NF2 1.8V
22
PRE IN2F 1.8 V
v Turns on when pin 17 is floating.
v A bias resistor (2.2 kΩ) must be connected between pin 22 and pin 24 (Vref) when no head is in use.
23
PRE IN2R 1.8 V
v Turns on when pin 17 is connected to GND.
v A bias resistor (2.2 kΩ) must be connected between pin 23 and pin 24(Vref) when no head is in use.
24
Vref 1.8 V
v The reference voltage is set to 3/5 × VCC. Because Vref AMP (rO 7 10 Ω) is built in, C17 can be made smaller (1 µF).
v Inflow/outflow current I24 = ± 500 µA available.
Sample Application:
Radio set application.
As shown above, Radio on and
Pre Mute can be implemented with one-circuit
switch.
No.3535-4/8
LA4581MB
IC Usage Notes
1.
The power amplifier outputs and the common amplifier output are connected through resistors of about 60 Ω. The resistors
are for common amplifier oscillation blocking.
Ω
2.
3.
Ω
The preamplifier muting function isolates the preamplifier outputs from SW OUT. The preamplifier is on even when the
preamplifier muting is on.
If transient noise is noticeable when the power supply is turned off, add the external circuit described below. Transient noise
when the power is turned off can be improved by rapidly applying the power amplifier muting.
However, the standby current IST flows even when the
power switch is off
IST = (VCC − VBE)/600 kΩ
When VCC = 3.0 V
IST = (3.0 − 0.6)/600 kΩ 7 4 µA
4.
Unit (resistance: Ω, capacitance: F)
Internal equivalent circuit for each SW pin.
. Pre-mute
MUTE ON condition : V8IN ^ VCC – 0.2 V
Inflow current : I8 7 60 µA (when VCC = 3.0 V)
. Power mute
Unit (resistance: Ω)
MUTE ON condition : V16 % 0.3 V
Outflow current : I16 7 2.5 µA
. F/R SW
Unit (resistance: Ω, capacitance: F)
REV condition : V17 % 0.2 V
Unit (resistance: Ω, capacitance: F)
No.3535-5/8
LA4581MB
Preamp
Voltage gain, VG – dB
Quiescent current, Icco – mA
Pre + Power
Unit (resistance: Ω, capacitance: F)
Supply voltage, VCC – V
Frequency, f – Hz
Preamp
Voltage gain, VGo – dB
Total harmonic distortion, THD – %
Preamp
Supply voltage, VCC – V
Output voltage, Vo – V
Preamp
Crosstalk, CT – dB
Maximum output voltage, Vomax – V
[Interchannel]
Preamp
79 dB at tune 1 kHz
The base correction turns off, causing output
DC to increase, and output is obtained.
Supply voltage, VCC – V
[Between F/R]
Frequency, f – Hz
Crosstalk, CT – dB
89 dB at tune 1 kHz
Preamp
Output noise voltage, VNO – µF
Preamp
equivalent
equivalent
ch1, ch2 equivalent
Frequency, f – Hz
Supply voltage, VCC – V
No.3535-6/8
LA4581MB
amp
Drops because of 1 µF at
5 kH or more when
impedance is small.
Unit (resistance: Ω, capacitance: F)
Reference voltage, Vref – V
Output voltage, Vo – dBm
amp
Virtual grounding inflow current is I = 500 µA max.
Output current, Io – mA
Frequency, f – Hz
DC voltage, VDC – V
DC voltage, VDC – V
Power amp
Supply voltage, VCC – V
Supply voltage, VCC – V
Power amp
Power amp
Voltage gain, VG – dB
Maximum output voltage, VO – V
(Vitrual
Grounding)
When both channels output simultaneously
When both channels output simultaneously
Frequency, f – Hz
Supply voltage, VCC – V
Crosstalk, CT – dB
Voltage gain, VG – dB
Power amp
Power amp
equivalent
When both channels output
Supply voltage, VCC – V
Frequency, f – Hz
No.3535-7/8
Power amp
When both channels output simultaneously
Total harmonic distortion, THD – %
Total harmonic distortion,THD – %
LA4581MB
Output voltage, PO – mW
Power amp
Power amp
When both channels output simultaneously
Supply voltage, VCC – V
Power amp
SVRR – dB
Output power, PO – mW
SVRR – dB
When both channels output simultaneously
Output noise voltage, VNO – µV
Total harmonic distortion, THD – %
Supply voltage, VCC – V
Power amp
Preamp
ch1 and ch2 OUT are equivalent
Supply voltage, VCC – V
Supply voltage, VCC – V
No products described or contained herein are intended for use in surgical implants, life-support systems, aerospace equipment,
nuclear power control systems, vehicles, disaster/crime-prevention equipment and the like, the failure of which may directly or
indirectly cause injury, death or property loss.
Anyone purchasing any products described or contained herein for an above-mentioned use shall:
1 Accept full responsibility and indemnify and defend SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors
and all their officers and employees, jointly and severally, against any and all claims and litigation and all damages, cost and
expenses associated with such use:
2 Not impose any responsibility for any fault or negligence which may be cited in any such claim or litigation on SANYO
ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors or any of their officers and employees jointly or severally.
Information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed for volume
production. SANYO believes information herein is accurate and reliable, but no guarantees are made or implied regarding its use
or any infringements of intellectual property rights or other rights of third parties.
This catalog provides information as of February, 1996. Specifications and information herein are subject to change without notice.
No.3535-8/8