NJRC NJU8713V

NJU8713
2V Operation Switching Driver for Class D Amplifier
PACKAGE OUTLINE
GENERAL DESCRIPTION
The NJU8713 is a Switching Driver for a class D
Amplifier including Separated Power Source terminals
between Input and Output, BEEP and BPZ (Bipolar Zero)
output circuits. It converts 1bit digital signal input, such
as PWM or PDM signal, to an analog signal output through
a simple external LC low-pass filter.
The NJU8713 realizes very high power-efficiency
because of the class D operation. Therefore, it is suitable
for portable audio set and others.
NJU8713V
PIN CONFIGURATION
FEATURES
2-channel 1bit Audio Signal Input
Standby(Hi-Z), BPZ Control
Internal BPZ Charger
Beep Function
Operating Voltage
: 1.7V to 2.7V
Driving Voltage
: 1.7V to VDD
CMOS Technology
Package Outline
: SSOP14
MCK
VSS
IN1
EN1
VSSO
OUT1
VDDO
14
13
12
11
10
9
8
1
2
3
4
5
6
7
BEEP
VDD
IN2
EN2
VSSO
OUT2
VDDO
BLOCK DIAGRAM
VDD
VSS
VDDO
VSSO
BPZ Output
OUT1
IN1
BEEP
OUT2
IN2
Output Control
MCK
Ver.2004-06-02
EN1
BPZ Output
EN2
-1-
NJU8713
TERMINAL DESCRIPTION
No.
13
2
SYMBOL
VDD
VSS
I/O
-
7
8
VDDO
-
5
10
VSSO
-
1
MCK
I
4
11
3
12
EN1
EN2
IN1
IN2
14
BEEP
I
6
9
OUT1
OUT2
O
I
I
Function
Operation Power Supply, VDD=2V
Operation Power GND, VSS=0V
Driving Power Supply, VDDO=2V
Terminal No.7 and No.8 should be connected to the same electric
potential.
Driving Power GND, VSSO=0V
Terminal No.5 and No.10 should be connected to the same electric
potential.
Master Clock Input Terminal
The condition of the data input terminal is fetched with the rising
edge of this signal.
Output Control Terminal
Output circuit is selected by the condition of this terminal.
Audio Signal Input Terminal
1-bit Audio Signal inputs into this terminal.
Beep Signal Input Terminal
Beep signal inputs into this terminal.
Output Terminal
• When Output Terminal selects Audio Signal, IN1 terminal input data
outputs from OUT1 terminal and IN2 terminal input data outputs from
OUT2 terminal.
• When Output Terminal selects Beep Signal, BEEP terminal input
data outputs from OUT1 and OUT2 terminals.
INPUT TERMINAL STRUCTURE
VDD
Input Terminal
Inside Circuit
VSS
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Ver.2004-06-02
NJU8713
NJU3555
FUNCTIONAL DESCRIPTION
(1) Signal Output
PWM signals of L channel and R output from OUT1 and OUT2 terminals respectively. These signals are
converted to analog signal by external 2nd-order or over LC filter. The output driver power supplied from VDDO
and VSSO are required high response power supply against voltage fluctuation like as switching regulator
because Output T.H.D is effected by power supply stability.
(2) Master Clock
Master clock (MCK) synchronizes the Audio signal inputs (IN1 and IN2). The setup time and the hold time
should be kept in the AC characteristics because IN1 and IN2 are fetched with the rising edge of MCK. MCK
requires jitter-free or jitter as small as possible because the jitter downs S/N ratio.
OUT1 and OUT2 occur the pop noise when MCK is stopped in operation without standby mode.
Therefore,
the standby mode should be set before MCK stop.
(3) Output Control
Output circuit is selected by the conditions of EN1 and EN2 terminals.
EN2
EN1
0
0
Standby(High impedance)
0
1
Audio Signal Output
1
0
BPZ Output
1
1
Beep Signal Output
Output State of OUT1 & OUT2
(4) Beep Function
The beep signal must be input before the rising edge of EN2 signal and must be stopped after the falling edge
of EN2 signal.
EN1
EN2
MCK
BEEP
Audio Signal Output
Ver.2004-06-02
Beep Signal Output
Audio Signal Output
-3-
NJU8713
(5) BPZ Function
BPZ Function operates to charge the external AC coupling capacitor for the BPZ level which is a point of the
analog signal common. Be sure to input sound-less data to IN1 and IN2 in busy of the BPZ function. At this
time, the sound-less signal must be input before the rising edge of EN2 signal and must be continue after the
falling edge of EN2 signal. The charging time is in proportion to the capacity value of the external AC coupling
capacitor.
EN1
EN2
MCK
IN1, IN2
Standby
-4-
Sound-less Data
Audio Data
BPZ Output
Audio Signal Output
Standby
Ver.2004-06-02
NJU8713
NJU3555
ABSOLUTE MAXIMUM RATINGS
PARAMETER
(Ta=25°C)
UNIT
SYMBOL
RATING
Operation Supply Voltage
VDD
-0.3 to +4.0
V
Driving Supply Voltage
VDDO
-0.3 to +2.7
V
Input Voltage
Vin
-0.3 to VDD+0.3
V
Operating Temperature
Topr
-40 to +85
°C
Storage Temperature
Tstg
-40 to +125
°C
PD
300
mW
-
VDD ≥ VDDO
V
Power Dissipation
SSOP14
Power Supply Voltage Condition
Note 1) All voltage values are specified as VSS=VSSO=0V.
Note 2) If the LSI is used on condition beyond the absolute maximum rating, the LSI may be destroyed.
Using LSI within electrical characteristics is strongly recommended for normal operation. Use beyond
the electrical characteristics conditions will cause malfunction and poor reliability.
Note 3) Decoupling capacitors should be connected between VDD-VSS and VDDO-VSSO due to the stabilized
operation.
ELECTRICAL CHARACTERISTICS
(Ta=25°C, VDD=VDDO=2.0V, VSS=VSSO=0.0V, Load Impedance=32Ω, fS=44.1kHz, unless otherwise noted)
PARAMETER
SYMBOL
CONDITIONS
MIN.
TYP.
MAX.
UNIT
VDD Supply Voltage
VDD
1.7
2.0
2.7
V
VDDO Supply Voltage
VDDO
1.7
2.0
VDD
V
BPZ Driving Voltage
VBPZ
VDDO /2-0.2
VDDO /2
VDDO /2+0.2
V
Output Driver
High side Resistance
Output Driver
Low side Resistance
Beep
High side Current
Beep
Low side Current
Operating Current
At Standby
Operating Current
At no input signal
load operating
MCK=256fS
IN1, IN2=32fS Duty50%
RH
VOUT=VDDO-0.1V
-
1.5
2
Ω
RL
VOUT=0.1V
-
1.5
2
Ω
IBH
VOUT=VDDO-1V
20
50
150
uA
IBL
VOUT=1V
20
50
150
uA
-
-
1
uA
-
0.05
0.1
-
0.6
1.2
VIH
0.7VDD
-
VDD
V
VIL
0
-
0.3VDD
V
ILK
-
-
±1
uA
IST
IDD
IDDO
Stopping MCK, IN1, IN2,
BEEP
No-load operating
IN1, IN2=32fS
MCK=256fS
mA
Input Voltage
Input Leakage Current
Ver.2004-06-02
-5-
NJU8713
TIMING CHARACTERISTICS
Audio Signal Input
•
tMCKH
tMCKL
MCK
tMCKI
IN1, IN2
tDS
PARAMETER
tDH
(Ta=25°C, VDD=VDDO=2.0V, VSS=VSSO=0.0V, unless otherwise noted)
CONDITIONS
MIN.
TYP.
MAX.
UNIT
SYMBOL
MCK Frequency
fMCKI
8
-
25
MHz
MCK Pulse Width (H)
tMCKH
12
-
-
ns
MCK Pulse Width (L)
tMCKL
12
-
-
ns
IN1,IN2 Setup Time
tDS
20
-
-
ns
IN1,IN2 Hold Time
tDH
20
-
-
ns
BEEP Frequency
fBEEP
0.1
-
20
kHz
Note 4) tMCKI shows the cycle of the MCK signal.
Output Control Signal Input
•
EN1
tED
0.9VDD
0.5VDD
0.1VDD
tEr
EN2
0.9VDD
0.5VDD
0.1VDD
tEf
PARAMETER
SYMBOL
(Ta=25°C, VDD=VDDO=2.0V, VSS=VSSO=0.0V, unless otherwise noted)
CONDITIONS
MIN.
TYP.
MAX.
UNIT
Rise Time
tEr
-
-
50
ns
Fall Time
tEf
-
-
50
ns
Switching Time
tED
100
ns
Note 5) All timings are based on 30% and 70% voltage level of VDD.
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Ver.2004-06-02
NJU8713
NJU3555
APPLICATION CIRCUIT
4
Output Control
11
Master Clock
Logic Power
1
10uF 2.2uF 13
2
BEEP
EN1
EN2
OUT2 9
VDDO
MCK
VSSO
VDD
VDDO
VSS
VSSO
100uH
2.2uF
7
12
14
4
Output Control
11
Master Clock
Logic Power
1
10uF 2.2uF 13
2
2.2uF 100uF
5
Switching
Regulator
2.2uF
8
10
•A914BY-101M is manufactured by TOKO, INC.
For further information, please refer to its
technical papers.
A914BY-101M
IN1
OUT1
6
100uH
IN2
100uH
BEEP
EN1
EN2
NJU8713
3
1kΩ
Headphone
220uF A914BY-101M
channel BTL application example
Audio Signal
32Ω
1kΩ
14
0.22uF
Beep Signal
100uH
IN2
OUT2
32Ω
Speaker
0.22uF
12
OUT1 6
0.22uF
Audio Signal
220uF A914BY-101M
IN1
0.22uF
3
•1
•A914BY-101M is manufactured by TOKO, INC.
For further information, please refer to its
technical papers.
OTL application example
NJU8713
• Stereo
9
A914BY-101M
VDDO
MCK
VSSO
VDD
VDDO
VSS
VSSO
2.2uF
7
5
2.2uF 100uF
Switching
Regulator
2.2uF
8
10
Note 6) De-coupling capacitors must be connected between each power supply pin and GND pin.
Note 7) The power supply for VDDO requires fast driving response performance such as a switching regulator
for T.H.D.
Note 8) The bigger capacitor value of external AC-coupling capacitors realize better low frequency response
characteristics. In addition, ESR(Equivalent Series Resistance) should be low.
Note 9) The above circuit shows only application example and does not guarantee the any electrical
characteristics. Therefore, please consider and check the circuit carefully to fit your application.
Ver.2004-06-02
-7-
NJU8713
[CAUTION]
The specifications on this databook are only
given for information , without any guarantee
as regards either mistakes or omissions. The
application circuits in this databook are
described only to show representative usages
of the product and not intended for the
guarantee or permission of any right including
the industrial rights.
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Ver.2004-06-02