PANASONIC AN7561Z

ICs for Audio Common Use
AN7561Z
BTL output power IC for car audio
■ Overview
31.0±0.3
27.0±0.3
21.0±0.1
(10.50) (10.50)
• Pin arrangement which does not allow the input/output
patterns to intersect each other so that it is possible to
make a pattern design on a one-sided printed circuit
board.
• Incorporating various protection circuits (thermal protection, short-circuit to VCC , short-circuit to VCC in VCCopened, short-circuit to GND, short-circuit to GND in
GND-opened, over voltage, power supply surge, and
ASO protection, etc.)
• Incorporating standby function (shock noise-free at STBon/off)
• Incorporating standby function (shock noise-free at
Mute-on/off)
• External components reduction
• Provided with beep sound input pin
• Equipped with auxiliary sound input pin
• Inverted pin layout of AN7560Z on right and left pins
0.6 +0.2
–0.1
(5.08)
(4.29)
(3.30)
(5.70)
25
1.27
(2.15)
0.40 +0.15
–0.05
33.0±0.3
33.36±0.30
■ Features
2.4±0.5
18.75±0.30
(24.45)
14.5±0.3
15.5±0.3
1
(1.26)
1.5±0.1
Seating plane
(1.95)
R1.8±0.1
4.5±0.2
φ3.6±0.1
3.75±0.10
Unit: mm
3.6±0.1
The AN7561Z is an audio power IC developed as a car
audio output (35 W × 4-ch). CR to stop oscillation is built
in between the output pin and GND so that a space saving of set is possible. Also, it is incorporating a perfect
muting circuit which does not make a shock noise so that
a shock noise design in the set transitional state can be
made easily when used together with its standby function. In addition, it is incorporating various protective
circuits to protect the IC from destruction by GND-open
earth short-circuiting and power supply surge which are
the important subject of power IC, and the IC will largely
contribute to a high reliability design of equipment.
HZIP025-P-0980
■ Applications
• Car stereo, miniature audio component, karaoke and
other audio equipment.
1
AN7561Z
ICs for Audio Common Use
1
VCC
7
14
5
22
VCC
■ Block Diagram
10
Ripple
Filter
25
GND (Output)
17
Protection
Circuit
24
18
23
GND (Output)
15
Beep
Input
21
GND (Output)
13
Attenuation
Control
20
12
11
19
Muting
4
GND (Sub)
9
Attenuator
AUX
2
8
Beep
3
6
GND (Input)
16
AUX
Input
Attenuator
■ Pin Descriptions
Pin No.
Description
Pin No.
Description
1
Ripple filter
14
Supply voltage VCC
2
Mute
15
ch.2 − output
3
ch.3 input
16
AUX input
4
GND (Sub)
17
ch.2 + output
5
ch.4 input
18
GND (ch.2 output)
6
GND (Input)
19
ch.3 − output
7
ch.2 input
20
GND (ch.3 output)
8
Beep input
21
ch.3 + output
9
ch.1 input
22
Supply voltage VCC
10
Standby
23.
ch.4 − output
11
ch.1 − output
24
GND (ch.4 output)
12
GND (ch.1 output)
25
ch.4 + output
13
ch.1 + output
Note) The output pin requires no capacitor and resistor for oscillation prevention.
If those are required for countermeasure against noise, be sure to use after confirmation.
2
GND (Output)
ICs for Audio Common Use
AN7561Z
■ Absolute Maximum Ratings
Parameter
Supply voltage
Symbol
Rating
Unit
VCC
25
V
VSurge
65
V
ICC
12
A
PD
59
W
Topr
−30 to +85
°C
Tstg
−55 to +150
°C
*2
Peak power-supply-voltage
*3
Supply current
Power dissipation
*4
Operating ambient temperature
Storage temperature
*1
*1
Note) *1 : Ta = 25 °C except power dissipation, operating ambient temperature and storage temperature.
*2 : Without signal
*3 : Time = 0.2 s
*4 : Ta = 85 °C
■ Recommended Operating Range
Parameter
Supply voltage
Symbol
Range
Unit
VCC
8.0 to 18.0
V
■ Electrical Characteristics at VCC = 13.2 V, freq = 1 kHz, Ta = 25°C
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Quiescent circuit current
ICQ
RG = 10 kΩ, RL = 4 Ω

300
450
mA
Standby current
ISTB
RG = 10 kΩ, RL = 4 Ω

1
10
µA
VNO
RG = 10 kΩ, RL = 4 Ω

0.15
0.5
mV[rms]
GV
VIN = 40 mV, RL = 4 Ω
32
34
36
dB
THD1
VIN = 40 mV, RL = 4 Ω

0.05
0.2
%
PO
THD = 10%, RL = 4 Ω
16.0
19.5

W
RR
RL = 4 Ω, RG = 10 kΩ,
VR = 1 V[rms], fr = 1 kHz
60
68

dB
Channel balance
CB
VIN = 40 mV, RL = 4 Ω

0
1
dB
Crosstalk
CT
VIN = 40 mV, RL = 4 Ω
RG = 10 kΩ
60
70

dB
VOFF
RG = 10 kΩ, RL = 4 Ω
−250
0
250
mV
MT
VIN = 40 mV, RL = 4 Ω
70
86

dB
ZI
VIN = ±0.3 VDC
24
30
36
kΩ
VS
RL = 4 Ω, RG = 10 kΩ,
VMUTE = 5 V, VSTB = On/Off
50 Hz HPF
−100
0
100 mV[p-0]
Output noise voltage
*1
Voltage gain
Total harmonic distortion 1
Maximum output power
Ripple rejection ratio
*1
Output offset voltage
Muting effect
*1
Input impedance
Shock noise
*2
Note) *1 : Use 15 Hz to 30 kHz (12 dB/OCT) band-pass filter at measurement.
*2 : Change over the standby pin at 0V and 5V with the following time.
Standby pin voltage
5V
0V
500 ms
500 ms
3
AN7561Z
ICs for Audio Common Use
■ Electrical Characteristics at VCC = 9 V, Ta = 25 °C (continued)
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Total harmonic distortion 2
THD2
VIN = 20 mV, fIN = 20 kHz,
RG = 10 Ω, RL = ∞

0.1
0.5
%
Mute-on threshold voltage
MTON
VIN = 40 mV, RL = 4 Ω
4


V
Mute-off threshold voltage
MTOFF
VIN = 40 mV, RL = 4 Ω


0.8
V
VIN = 40 mV, RL = 4 Ω
GV = −1 dB (0 dB: 1 kHz)
20
40

kHz
Cutoff frequency
fC
• Design reference data at VCC = 13.2 V, f = 1 kHz, measuring bandwidth 15 Hz to 30 kHz (12 dB/OCT) filter
is used
Note) The characteristic values below are theoretical values for designing and not guaranteed.
Parameter
4
Symbol
Conditions
Min
Typ
Max
Unit
max. power, RL = 4 Ω

28

W
Maximum output power
POmax
Maximum output power
PO2
VCC = 14.4 V, THD = 10%,
RL = 4 Ω

21

W
Maximum output power
POmax2
VCC = 14.4 V, max. power,
RL = 4 Ω

34

W
Power band
fPL
VCC = 14.4 V, THD = 1%,
RL = 4 Ω,
POL = −3 dB (1 kHz: 0 dB)

10

Hz
Power band
fPH
VCC = 14.4 V, THD = 1%,
RL = 4 Ω,
POH = −3 dB (1 kHz: 0 dB)

18

kHz
STB threshold voltage
VSTB1
RG = 10 kΩ, RL = 4 Ω,
STB→ACT

2.2

V
STB threshold voltage
VSTB2
RG = 10 kΩ, RL = 4 Ω,
ACT→STB

1.5

V
ICs for Audio Common Use
AN7561Z
■ Terminal Equivalent Circuits
Pin No.
Equivalent circuit
Description
1
VCC
DC Voltage
Ripple filter pin:
Output current from 3 mA to 10mA
13 V
Mute pin:
Mute switchover pin
Threshold voltage about 2.1 V
0V
15 kΩ
350 µA
1
1.7 mA
20 kΩ
2
2
200 Ω
10 kΩ
100 kΩ
3
ch.3 input pin:
ch.3 input signal application pin
Input impedance 30 kΩ
3
200 Ω
abt.
15 µA
0 mV to 10 mV
abt.
15 µA
600 Ω
30 kΩ

4
5
GND (circuit board): Circuit board
5
abt.
15 µA
200 Ω
abt.
15 µA
ch.4 input pin:
ch.4 input signal application pin
Input impedance 30 kΩ
0V
0 mV to 10 mV
600 Ω
30 kΩ
5
AN7561Z
ICs for Audio Common Use
■ Terminal Equivalent Circuits (continued)
Pin No.
Equivalent circuit
Description
Voltage
6

GND (input): Grounding pin for input
0V
7
7
abt.
15 µA
200 Ω
abt.
15 µA
ch.2 input pin:
ch.2 input signal application pin
Input impedance 30 kΩ
0 mV to 10 mV
600 Ω
30 kΩ
8
VREF = 6.3 V
Beep input
600 Ω
15 kΩ
13
Beep sound input pin:
Beep sound signal input pin
Input impedance 15 kΩ
0V
600 Ω
8
13 kΩ
2 kΩ
2 kΩ
2 kΩ
17
VREF = 6.3 V 600 Ω
600 Ω 15 kΩ
9
9
abt.
15 µA
200 Ω
abt.
15 µA
ch.1 input pin:
ch.1 input signal application pin
Input impedance 30 kΩ
0 mV to 10 mV
600 Ω
30 kΩ
10
Standby control pin:
Standby switch over pin
Threshold voltage about 2.1 V
10
10 kΩ
2 kΩ
6
5V
ICs for Audio Common Use
AN7561Z
■ Terminal Equivalent Circuits (continued)
Pin No.
11
Equivalent circuit
Description
14
Drive circuit
Voltage
ch.1 output pin (−):
ch.1 negative phase output pin
6.3 V
GND (output):
Grounding pin for ch.1 output
0V
ch.1 output pin (+):
ch.1 positive phase output pin
6.3 V
Power supply voltage pin:
Power supply connection pin
13.2 V
ch.2 output pin (−):
ch.2 negative phase output pin
6.3 V
AUX input pin:
Input impedance 10.6 kΩ
6.3 V
Pre-amp.
11
Drive circuit
12
600 Ω
15 kΩ

12
13
14
Drive circuit
Pre-amp.
13
Drive circuit
12
VREF = 6.3 V
600 Ω
15 kΩ

14
15
14
Drive circuit
Pre-amp.
15
Drive circuit
18
15 kΩ
600 Ω
16
VREF = 6.3 V 600 Ω
15 kΩ
17
600 Ω
16
10 kΩ
7
AN7561Z
ICs for Audio Common Use
■ Terminal Equivalent Circuits (continued)
Pin No.
17
Equivalent circuit
Description
14
Drive circuit
Voltage
ch.2 output pin (+):
ch.2 positive phase output pin
6.3 V
GND (output):
Grounding pin for ch.2 output
0V
ch.3 output pin (−):
ch.3 negative phase output pin
6.3 V
GND (output):
Grounding pin for ch.3 output
0V
ch.3 output pin (+):
ch.3 positive phase output pin
6.3 V
Power supply voltage pin:
Power supply connection pin
13.2 V
Pre-amp.
17
Drive circuit
18
VREF = 6.3 V
15 kΩ
600 Ω

18
19
22
Drive circuit
Pre-amp.
19
Drive circuit
20
VREF = 6.3 V
15 kΩ

20
21
600 Ω
22
Drive circuit
Pre-amp.
21
Drive circuit
24
VREF = 6.3 V
15 kΩ
22
8

600 Ω
ICs for Audio Common Use
AN7561Z
■ Terminal Equivalent Circuits (continued)
Pin No.
23
Equivalent circuit
Description
22
Drive circuit
Voltage
ch.4 output pin (−):
ch.4 negative phase output pin
6.3 V
GND (output):
Grounding pin for ch.4 output
0V
ch.4 output pin (+):
ch.4 positive phase output pin
6.3 V
Pre-amp.
23
Drive circuit
24
15 kΩ
600 Ω

24
25
22
Drive circuit
Pre-amp.
25
Drive circuit
24
VREF = 6.3 V
15 kΩ
600 Ω
9
AN7561Z
ICs for Audio Common Use
■ Application Circuit Example
VCC
7
14
18
23
15
21
13
20
12
19
11
2
1 µF
22 kΩ
10 kΩ
AUX
10 kΩ
5V
Muting
Beep
1 µF
4Ω
4Ω
4
24
9
17
16
25
6
4Ω
10
8
4Ω
1 µF
1
3
33 µF
10 kΩ
22
10 kΩ
5
1 µF
2200 µF
1 µF
0V
5V
■ Usage notes
1. Be sure to use the circuit with an external heat-sink and fix the external heat-sink on chassis when using it.
2. Connect the heat radiating fin to GND potential.
3. This IC has built-in protection circuit against short-circuit to VCC , short-circuit to GND and ASO. However avoid
short-circuit to VCC , short-circuit to GND and short-circuit of load.
4. The thermal protection circuit operates at Tj = about 150 °C but it automatically returns to the normal operation when
the temperature decreases.
5. The over voltage protection circuit operates at VCC = about 20 V.
6. Be especially careful to heat radiation design when used at an increased VCC.
7. Connect the beep sound input pin to GND when the beep sound function is not used.
8. Do not lower the beep sound input pin below − 0.3 V.
9. Keep AUX input pin in open state when AUX function is not used.
10. Connect only GND pin (signal source) to the signal GND of the amplifier in previous stage.
• There is a possibility of device destruction under the following conditions;
1. If the power supply pin and GND pin are connected in reverse to the power supply.
2. If the power supply pin and GND pin are in open state and the power supply is connected across the output pins.
3. If the output pin is grounded when GND pin is open.
4. If more than three output pins are grounded to the earth at a time with more than 1.3 Ω short-circuiting resistor with
which the protection circuit does not operate.
5. If plus and minus output pins are short circuited to the supply line at a time with more than 1 Ω short-circuiting resistor
with which the protection circuit does not operate.
6. If the RF pin and the output pin are short circuited and short-circuited to the earth.
10
ICs for Audio Common Use
AN7561Z
■ Technical Information
• HZP025-P-0980 package power dissipation
PD  T a
120
113.6
With an infinitely
heat-sink
Power dissipation PD (W)
100
Rth(j-c) = 1.1°C/W
Rth(j-a) = 31.1°C/W
80
1°C/W heat-sink
59.5
60
2°C/W
heat-sink
40.3
40
5°C/W heat-sink
20.5
20
Package without heat-sink
4.02
0
0
25
50
75
100
125
150
Ambient temperature Ta (˚C)
11