NJRC NJU8721

NJU8721
PRELIMINARY
CLASS D HEADPHONE AMPLIFIER FOR DIGITAL AUDIO
! PACKAGE OUTLINE
! GENERAL DESCRIPTION
The NJU8721 is a class D Headphone Amplifier
th
featuring 6 ∆Σ modulation.
It includes Digital
Attenuator, Mute, and De-emphasis circuits.
It
converts Digital source input to PWM signal output
which is output PWM signal converted to analog
signal with simple external LC Filter. The NJU8721
realizes very high power-efficiency by class D
operation. Therefore, it is suitable for portable audio
set and others.
NJU8721V
! PIN CONFIGURATION
! FEATURES
# Stereo Headphone Power Amplifier
: 50mW+50mW
# Sixth-order 32fS Over Sampling ∆Σ & PWM
# Internal 8fS Over Sampling Digital Filter
# Sampling Frequency : 96kHz (Max.)
# De-Emphasis
: 32kHz, 44.1kHz, 48kHz
# System Clock
: 256fS
# Digital Processing
: Attenuator 107step, LOG Curve
: Mute
# Digital Audio Interface : 16bit, 18bit
2
: I S, LSB Justified, MSB Justified
# Operating Voltage
: 3.0 to 3.6V
# Driving Voltage
: VDD to 5.25V
# C-MOS Technology
# Package Outline
: SSOP20
STBY
TEST
VSSR
1
2
3
OUTR
VDDR
VDDL
4
5
6
7
8
9
10
OUTL
VSSL
MODE
RST
20
19
18
17
16
15
14
13
12
11
VDD
F0/DATA
F1/REQ
F2/SCK
MUTE
DIN
LRCK
BCK
MCK
VSS
! BLOCK DIAGRAM
VDD
VSS
Power On
Reset Circuit
VDDL
RST
Synchronization
Circuit
OUTL
MCK
LRCK
BCK
DIN
MUTE
STBY
MODE
F0/DATA
F1/REQ
F2/SCK
Serial
Audio Data
Interface
8fS
Over Sampling
Digital Filter
th
32fS 6 ∆Σ
&
PWM
VSSL
VDDR
OUTR
System
Control
VSSR
-1-
NJU8721
! TERMINAL DESCRIPTION
No.
SYMBOL
I/O
1
STBY
I
2
TEST
I
3
4
5
6
7
8
VSSR
OUTR
VDDR
VDDL
OUTL
VSSL
−
O
−
−
O
−
9
MODE
I
10
RST
I
11
VSS
−
12
MCK
I
13
BCK
I
14
LRCK
I
15
DIN
I
16
MUTE
I
17
F2/SCK
I
18
F1/REQ
I
19
F0/DATA
I
20
VDD
−
FUNCTION
Standby Control Terminal
Low : Standby ON
High : Standby OFF
Manufacturer Testing Terminal
Normally connect to GND.
Rch Power GND, VSSR=0V
Rch Output Terminal
Rch Power Supply, VDDR=VDD to 5.0V
Lch Power Supply, VDDL=VDD to 5.0V
Lch Output terminal
Lch Power GND, VSSL=0V
Control Mode selection Terminal
Low : Parallel Control Mode
High : Serial Control Mode
Reset Terminal
Low : Reset ON
High : Reset OFF
Logic Power GND, VSS=0V
Master Clock Input Terminal
256fS clock inputs this terminal.
Serial Audio Data Bit Clock Input Terminal
This clock must synchronize with MCK input signal.
L/R Channel Clock Input Terminal
This clock must synchronize with MCK input signal.
Serial Audio Data Input Terminal
Mute Control Terminal
Low : Mute ON
High : Mute OFF
MODE=”Low”
: Serial Audio Interface Format Selection Terminal 2
MODE=”High”
: Control Register Data Shift Clock Input Terminal
The data is fetched into the control register by rise edge of SCK
signal.
MODE=”Low”
: Serial Audio Interface Format Selection Terminal 1
MODE=”High”
: Control Register Data Request Input Terminal
MODE=”Low”
: Serial Audio Interface Format Selection Terminal 0
MODE=”High”
: Control Register Data Input Terminal
Logic Power Supply, VDD=3.3V
! INPUT TERMINAL STRUCTURE
VDD
Input Terminal
VSS
-2-
Inside Circuit
NJU8721
! FUNCTIONAL DESCRIPTION
(1) Signal Output
PWM signals of L channel and R output from OUTL and OUTR terminals respectively. These signals are
converted to analog signal by external 2nd-order or over LC filter. The output driver power supplied from VDDL,
VDDR, VSSL, and VSSR are required high response power supply against voltage fluctuation like as switching
regulator because Output THD is effected by power supply stability.
(2) Master Clock
Master Clock is 256fS clock into MCK terminal for the internal circuit operation clock.
(3) Reset
“L” level input over than 3ms to the RST terminal is initialization signal to initialize the internal circuit. This
initialization signal is synchronized with internal clock and executes logical OR with the internal power on reset
signal. This Reset signal initializes the internal function setting registers also. During initialization, the
output-drivers output GND level. The reset equivalent circuit is shown bellow.
RST
Internal Reset
D
D
D
D
D
D
D
D
Power on Reset
CLK
(About 10kHz)
Figure 1. Reset Equivalent Circuit
(4) 8fS Over Sampling Digital Filter
8fS Over Sampling Digital Filter interpolates Audio data and decreases aliasing noise.
It realizes Attenuation and De-Emphasis function by serial function control.
th
(5) 32fS 6 ∆Σ & PWM
th
32fS 6 ∆Σ & PWM convert from Audio data of the 8fS Over Sampling Digital Filter to the 32fS one bit PWM
data.
-3-
NJU8721
(6) System Control
(6-1) Standby
Standby functions by “L” level input to the STBY terminal. In busy of Standby, conditions of digital audio
format set, attenuation level, de-emphasis, and attenuator operation time are kept and output terminals of
OUTL and OUTR are high-impedance.
(6-2) Control Mode Set
A control mode as shown below is selected by the MODE terminal.
MODE
0
1
Parallel
Serial
Control Method
Parallel
Serial
Function
Digital Audio interface Format Set
Control Register serial data input
Terminals
F0, F1, F2
DATA, REQ, SCK
: Digital Audio Interface Format is set directly by using F0, F1, and F2 terminals.
: NJU8721 is controlled serial input data by 3-wire serial interface using DATA, REQ, and
SCK terminals
By this setting, the function of F0/DATA, F1/REQ, and F2/SCK are changed.
Refer to  (8-5)F0,F1,F2  about function of F0, F1, and F2 terminals.
Refer to  (8)Control Register  about function of DATA, REQ, and SCK terminals.
(6-3) Mute
Mute functions by “L” signal into the MUTE terminal. In busy of mute, a current attenuation value
becomes -∞ by internal digital attenuator. And MUTE is stopped by “H” signal into the MUTE terminal, the
attenuation value returns from -∞ to previous value.
MUTE
0
1
Attenuation Level
-∞
Set Value
MUTE
MCK
1024/fS
1024/fS
Attenuation Value
Set Value
Set Value
-∞
Figure 2. Mute Timing
-4-
-∞
NJU8721
(7) Serial Audio Data Interface
(7-1) Input Data Format Selection
2
The digital audio interface format is selected out of I S, MSB Justified or LSB Justified, and 16 bits or 18
bits data length.
(7-2) Input Timing
Digital audio signal data into DIN terminal is fetched into the internal shift register by BCK signal rising
edge. The fetched data in the shift register are transferred by rising edge or falling edge of LRCK as
shown below:
Data Format
2
IS
MSB Justified
LSB Justified
Rising Edge
Lch Input Register
Rch Input Register
Rch Input Register
Falling Edge
Rch Input Register
Lch Input Register
Lch Input Register
BCK and LRCK must be synchronized with MCK.
Left Channel
LRCK
Right Channel
BCK
DIN
15 14 13
1
15 14 13
0
1
0
2
Figure 3.1. 16 bits I S Data Format
Right Channel
LRCK
Left Channel
BCK
DIN
15 14 13
15 14 13
1 0
1
15
0
Figure 3.2. 16 bits MSB Justified Data Format
Right Channel
LRCK
Left Channel
BCK
DIN
0
15 14
3
2
1
0
15 14
3
2
1
0
Figure 3.3. 16 bits LSB Justified Data Format
-5-
NJU8721
Left Channel
LRCK
Right Channel
BCK
DIN
17 16 15
1
17 16 15
0
1
0
2
Figure 3.4. 18 bits I S Data Format
Right Channel
LRCK
Left Channel
BCK
DIN
17 16 15
1
17 16 15
0
1
0
17
Figure 3.5. 18 bits MSB Justified Data Format
Right Channel
LRCK
Left Channel
BCK
DIN
0
17 16
3 2
1
0
17 16
3 2
1 0
Figure 3.6. 18 bits LSB Justified Data Format
(7-3) Failure of Synchronization Operation
If the MCK clock fluctuates over than ±10 clocks against the LRCK and failure of synchronization is
detected the attenuation value is set to -∞. When the LRCK synchronizes with MCK again, the
attenuation value returns from -∞ to previous level.
Internal Condition
Out of Sync.
Normal Operation
Normal Operation
Set Value
Set Value
Attenuation Value
-∞
Figure 4. Out of Synchronization Operation
-6-
1024/fS
NJU8721
(8) Control Register
When Control Mode is set to Serial control by the Mode terminal, the control register sets various modes.
The Control Data is fetched by the rising edge of F2/SCK and is set into the control register by the rising edge of
F1/REQ. The latest 8 bits data are valid before the F1/REQ rising pulse.
F1/REQ
F2/SCK
F0/DATA
B7
B5
B6
B4
B2
B3
B1
B0
Figure 5. Control Register Timing
(8-1) Serial Data Format
B7
B6
B5
B4
0
ATTN6
ATTN5
ATTN4
1
0
0
0
1
0
0
1
1
0
1
0
1
1
0
0
1
1
0
1
1
1
1
0
1
1
1
1
Do not set other data excepting this table.
B3
ATTN3
0
F2
0
0
0
0
0
B2
ATTN2
0
F1
0
0
0
MUTT2
0
B1
ATTN1
DEMP1
F0
0
0
0
MUTT1
0
B0
ATTN0
DEMP0
MUTE
RST
TEST
0
MUTT0
TRST
(8-2) ATTN6 to ATTN0
When B7 is “0”, B0 to B6 set the attenuation data. When attenuation data is set, the attenuation value
is changed to the target value in the period of transition time set by MUTT0 to MUTT2. The attenuation
value (ATT) is fixed by following formula.
When ATT is 14h or less, the attenuator is set -∞ at reset. (When Control Mode is Parallel Control, ATT is
fixed 0db.)
ATT=DATA -121[dB]
DATA : attenuation point
7Fh=6dB
7Eh=5dB
7Dh=4dB
:
79h=0dB
:
16h=-99dB
15h=-100dB
14h=-∞
13h=-∞
:
00h=-∞ (initial value)
-7-
NJU8721
(8-3) DEMP0, DEMP1
DEMP0 and DEMP1 control De-Emphasis on/off and sampling frequency.
DEMP1
DEMP0
De-Emphasis
Initial Value
!
0
0
OFF
0
1
32kHz
1
0
44.1kHz
1
1
48kHz
(8-4) MUTE
Mute operation is controlled by the “MUTE” as same as the MUTE terminal control.
MUTE
Mute Operation
Initial Value
!
0
OFF
1
ON
(8-5) F0, F1, F2
F0, F1, and F2 select Digital Audio Interface Format. As same as the F0/DATA, F1/REQ, and F2/SCK
terminal control.
F0
F1
F2
Interface Format
Bit Length
Initial Value
2
!
0
0
0
IS
16
0
0
1
MSB Justified
16
0
1
0
LSB Justified
16
2
1
0
0
IS
18
1
0
1
MSB Justified
18
1
1
0
LSB Justified
18
(8-6) RST
When the RST is “1”, the control register and inner data (Digital filter, PWM modulator) are initialized.
RST
Reset Operation
Initial Value
!
0
OFF
1
ON
(8-7) TRST
When the TRST is “1”, only inner data (Digital filter, PWM modulator) is initialized.
TRST
Data Bus Initialize
Initial Value
!
0
OFF
1
ON
(8-8) MUTT2 to MUTT0
MUTT2 to MUTT0 set the attenuator transition time. This transition time is one attenuation step change
time.
MUTT2
MUTT1
MUTT0
Operation Time
Initial Value
!
0
0
0
1 / fS
0
0
1
2 / fS
0
1
0
4 / fS
0
1
1
8 / fS
1
0
0
16 / fS
1
0
1
32 / fS
1
1
0
64 / fS
1
1
1
128 / fS
-8-
NJU8721
! ABSOLUTE MAXIMUM RATINGS
(Ta=25°C)
PARAMETER
SYMBOL
VDD
VDDL
VDDR
Vin
Topr
Tstg
PD
Supply Voltage
Input Voltage
Operating Temperature
Storage Temperature
Power Dissipation SSOP20
RATING
-0.3 to +4.0
-0.5 to +5.5
-0.5 to +5.5
-0.3 to VDD+0.3
-40 to +85
-40 to +125
300
UNIT
V
V
V
V
°C
°C
mW
All voltage values are specified as VSS= VSSR= VSSL=0V.
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, VDDR-VSSR and VDDL-VSSL due to the
stabilized operation.
Note 1)
Note 2)
! ELECTRICAL CHARACTERISTICS
PARAMETER
VDDL, VDDR Supply Voltage
VDD Supply Voltage
Output Power Efficiency
Output THD
Output Power
S/N
Dynamic Range
Channel Separation
Output Level Difference
Between Lch and Rch
Maximum Mute Attenuation
Passband Response
Power Supply Current
At Standby
Power Supply Current
At Operating
Input Voltage
Input Leakage Current
Note 4)
Note 5)
(Ta=25°C, VDD=VDDL=VDDR=3.3V, fS=44.1kHz, Input Signal=1kHz,
Input Signal Level at Full Scale Output, MCK=256fS, Load Impedance=16Ω,
nd
Measuring Band=20Hz to 20kHz, 2 -order 34kHz LC Filter (Q=0.75),
unless otherwise noted)
SYMBOL
CONDITIONS
MIN.
TYP.
MAX.
UNIT
Note
VDD
5.25
V
3.0
3.3
3.6
V
Eeff
Vo= 0dB
80
%
4
THD16
Po=3mW,RL=16Ω
0.1
%
Po16
Vo= 0dB,RL=16Ω
22
48
mW/ch
Po08
Vo= 0dB,RL=8Ω
40
80
mW/ch
SN
A weight
85
90
dB
Drange
A weight
85
90
dB
Echn
EIAJ(1kHz)
60
dB
CHD
MAT
PR
IST
IDD
VIH
VIL
ILK
Power Efficiency (%) =
20Hz to 20kHz
Stopping MCK,
BCK, LRCK, DIN
No-load operating
No signal inputted
-
-
3
dB
90
-
-
±1
dB
dB
-
-
10
µA
-
9
14
mA
0.7VDD
0
-
-
VDD
0.3VDD
±1.0
V
V
µA
OUTL Output Power + OUTR Output Power (W)
VDDL Supply Power + VDDR Supply Power (W)
5
× 100
When the cut-off frequency is 10Hz or less using external AC-coupling capacitor.
-9-
NJU8721
Note 6)
Analog AC Characteristics Test System
Analog AC characteristics test system is shown in Figure 6. The analog AC characteristics of NJU8721
nd
is measured with 2 -order LC LPF on the test board and Filters in the Audio Analyzer.
Digital
Data
Digital Audio
Interface
Receiver Chip
nd
NJU8721
NJU8721 Evaluation Board
2 -order
LC LPF
Filters
Audio Analyzer
Figure 6. Analog AC Characteristics Measurement System
nd
2 -order LPF
Filters
- 10 -
THD
Measuring
Apparatus
: fc=34kHz, refer to the LPF on Application Circuit.
th
: 22Hz HPF + 20kHz 10 -order LPF
(with the A-Weighting Filter at measuring S/N and Dynamic-range)
NJU8721
! TIMING CHARACTERISTICS
•
Master Clock Input
tMCKH
tMCKL
MCK
(Ta=25°C, VDD=VDDL=VDDR=3.3V, unless otherwise noted)
PARAMETER
MCK Frequency
MCK Pulse Width (H)
SYMBOL
fMCKI
tMCKH
MCK Pulse Width (L)
tMCKL
Note 7)
•
CONDITIONS
256fS
MIN.
7.28
12
TYP.
-
MAX.
27.648
-
UNIT
MHz
ns
12
-
-
ns
tMCKI shows the cycle of the MCK signal.
Reset Input
tRST
RST
(Ta=25°C, VDD=VDDL=VDDR=3.3V, unless otherwise noted)
PARAMETER
Reset Low Level Width
•
SYMBOL
tRST
CONDITIONS
MIN.
3
TYP.
-
MAX.
-
UNIT
ms
tBCLK
Digital Audio Signal Interface
BCK
tBLR
tLRB
tBCKL
tBCKH
LRCK
tDS
tDH
DIN
PARAMETER
Audio DAC Sampling Rate
DIN Setup Time
DIN Hold Time
BCK Period
BCK Pulse Width (H)
BCK Pulse Width (L)
LRCK Hold Time
LRCK Setup Time
SYMBOL
fS
tDS
tDH
tBCLK
tBCKH
tBCKL
tBLR
tLRB
(Ta=25°C, VDD=VDDL=VDDR=3.3V, unless otherwise noted)
CONDITIONS
MIN.
TYP.
MAX.
UNIT
28
100
KHz
20
ns
20
ns
1/(128fS)
ns
20
ns
20
ns
20
ns
20
ns
- 11 -
NJU8721
•
Control Register Interface
tRQS
tRQH tREH
F1/REQ
tSCL
tSCH
F2/SCK
tSCK
B7
B6
B5
B4
B2
B3
B1
B0
tDAS tDAH
PARAMETER
F2/SCK Period
SYMBOL
tSCK
(Ta=25°C, VDD=VDDL=VDDR=3.3V, unless otherwise noted)
CONDITIONS
MIN.
TYP.
MAX.
UNIT
2
µs
F2/SCK Pulse Width (H)
tSCH
0.8
-
-
µs
F2/SCK Pulse Width (L)
tSCL
0.8
-
-
µs
F0/DATA Setup Time
tDAS
0.8
-
-
µs
F0/DATA Hold Time
tDAH
0.8
-
-
µs
F1/REQ Pulse Width (H)
tREH
1.6
-
-
µs
F2/SCK Setup Time
tRQS
0.8
-
-
µs
F1/REQ Hold Time
tRQH
0.8
-
-
µs
•
Input Signal Rise and Fall Time
tUP
tDN
(Ta=25°C, VDD=VDDL=VDDR=3.3V, unless otherwise noted)
PARAMETER
SYMBOL
CONDITIONS
MIN.
TYP.
MAX.
UNIT
Rise Time
tUP
-
-
100
ns
Fall Time
tDN
-
-
100
ns
Note 8)
- 12 -
All timings are based on 30% and 70% voltage level of VDD.
NJU8721
! APPLICATION CIRCUIT
•A915BY-101M is manufactured by TOKO, INC.
For further information, please refer to its technical papers.
Digital
Audio
Data
Mode
Control
12
13
14
15
MCK
BCK
LRCK
DIN
9
19
18
17
10
1
16
MODE
F0/DATA
F1/REQ
F2/SCK
RST
STBY
MUTE
2
TEST
1kΩ
100uH
VSS
220uF A915BY-101M
OUTL
7
100uH
VDDR
VSSR
VDDL
VSSL
2.2uF
5
3
Headphone
16Ω
1kΩ
11
OUTR 4
0.22uF
20
0.22uF
10uF
220uF A915BY-101M
VDD
NJU8721
0.1uF
3.3V
2.2uF
100uF
Switching
Regulator
6
8
2.2uF
Note 9) De-coupling capacitors must be connected between each power supply pin and GND pin.
Note 10) The power supply for VDDL and VDDR require fast driving response performance such as a switching
regulator for THD.
Note 11) The bigger capacitor value of AC-coupling capacitors for headphone outputs realize better frequency
response characteristics, especially low frequency area.
Note 12) 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.
[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.
- 13 -