LC78833V [SANYO]
Digital Audio 16-Bit D/A Converter with Built-In Digital Filters; 数字音频的16位D / A转换器内置的数字滤波器型号: | LC78833V |
厂家: | SANYO SEMICON DEVICE |
描述: | Digital Audio 16-Bit D/A Converter with Built-In Digital Filters |
文件: | 总11页 (文件大小:295K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Ordering number : EN*5212
CMOS LSI
LC78833M, 78833V
Digital Audio 16-Bit D/A Converter
with Built-In Digital Filters
Preliminary
Overview
Package Dimensions
unit: mm
The LC78833M and LC78833V are CMOS 16-bit D/A
converters with built-in 4× oversampling digital filters.
3036B-MFP20
Functions and Features
[LC78833M]
[Digital Filter Block]
• 4× oversampling filters: Two FIR filter stages (33rd and
ninth order)
• De-emphasis filter: Supports a 44.1 kHz sampling
frequency (fs).
[D/A Converter Block]
• Dynamic level shifting conversion 16-bit D/A converter
• D/A converters for two channels (synchronized outputs)
on a single chip
• On-chip output operational amplifiers
• System clock: 384fs
• 5-V single-voltage power supply
• Supports low-voltage operation (3.0 V)
• Implemented in a Si gate CMOS process for low power.
SANYO: MFP20
unit: mm
3175A-SSOP24
[LC78833V]
SANYO: SSOP24
Specifications
Absolute Maximum Ratings at Ta = 25°C, V = 0 V
SS
Parameter
Maximum supply voltage
Symbol
Conditions
Ratings
Unit
V
V
max
max
max
–0.3 to +7.0
DD
Maximum input voltage
Maximum output voltage
Operating temperature
Storage temperature
V
–0.3 to V
+ 0.3
+ 0.3
V
IN
DD
V
–0.3 to V
V
OUT
DD
Topr
Tstg
–30 to +75
°C
°C
–40 to +125
SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters
TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110-8534 JAPAN
D3095HA (OT) No. 5212-1/11
LC78833M, 78833V
Allowable Operating Ranges
Parameter
Supply voltage
Symbol
Conditions
min
typ
5.0
max
5.5
Unit
V
V
3.0
DD
Reference voltage (high)
Reference voltage (low)
Vref H
Vref L
V
– 0.3
0
V
V
DD
DD
+0.3
V
Electrical Characteristics (1)
at Ta = 25°C, AV = DV = Vref H = 5.0 V, AGND = DGND = Vref L = 0 V, unless otherwise specified
DD
DD
Parameter
Symbol
Conditions
min
typ
16
max
0.08
–85
Unit
Bit
D/A converter resolution
Total harmonic distortion
Dynamic range
RES
THD
DR
*1
At 1 kHz and 0 dB
At 1 kHz, –60 dB
At 1 kHz and 0 dB
JIS-A
%
92
94
dB
Crosstalk
CT
dB
Signal-to-noise ratio
Full-scale output voltage
Power dissipation
S/N
VFS
Pd
96
100
2.8
60
dB
2.6
3.0
90
Vp-p
mW
kΩ
At fs = 44.1 kHz
*2
Output load resistance
Note: 1. Here, 0 dB means full scale.
RL
Pins 1 and 20 (1 and 24)
5
2. Pin numbers in parentheses are for the LC78833V.
Electrical Characteristics (2)
at Ta = 25°C, AV = DV = Vref H = 3.0 V, AGND = DGND = Vref H = 0 V, unless otherwise specified
DD
DD
Parameter
Symbol
Conditions
min
typ
16
max
0.10
–85
Unit
Bit
D/A converter resolution
Total harmonic distortion
Dynamic range
RES
THD
DR
*1
At 1 kHz and 0 dB
At 1 kHz, –60 dB
At 1 kHz and 0 dB
JIS-A
%
90
92
dB
Crosstalk
CT
dB
Signal-to-noise ratio
Full-scale output voltage
Power dissipation
S/N
VFS
Pd
94
98
1.7
15
dB
1.55
1.85
25
Vp-p
mW
kΩ
At fs = 44.1 kHz
*2
Output load resistance
Note: 1. Here, 0 dB means full scale.
RL
Pins 1 and 20 (1 and 24)
30
2. Pin numbers in parentheses are for the LC78833V.
No. 5212-2/11
LC78833M, 78833V
Block Diagram
DC characteristics at Ta = –30 to 75°C, V = 3.0 to 5.5 V, V = 0 V
DD
SS
Parameter
Symbol
Conditions
min
2.2
typ
max
Unit
V
Input high-level voltage (1)
Input low-level voltage (1)
Input high-level voltage (2)
Input low-level voltage (2)
Output high-level voltage
Output low-level voltage
V
1
1
2
Pins 5, 6, 7, 12, 13, and 14 (pins 6, 7, 8, 14, 16, and 17)*
Pins 5, 6, 7, 12, 13, and 14 (pins 6, 7, 8, 14, 16, and 17)*
Pin 8 (pin 9)*
IH
V
V
0.8
V
IL
0.7 V
V
IH
DD
V
2
Pin 8 (pin 9)*
0.3 V
V
IL
DD
V
Pin 9 (pin 11)*: I
= –3 mA
OH
2.4
V
OH
V
Pin 9 (pin 11)*: I = 3 mA
0.4
V
OL
OL
Pins 5, 6, 7, 8, 12, 13, and 14
(pins 6, 7, 8, 9, 14, 16, and 17)*: V = V , V
Input leakage current
I
–25
+25
µA
L
I
SS DD
Note: * Pins in parentheses apply to the LC78833V.
AC Characteristics at Ta = –30 to 75°C, V = 3.0 to 5.5 V, V = 0 V
DD
SS
Parameter
Clock pulse width
Symbol
Conditions
min
typ
max
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
t
25
50
CW
Clock pulse period
BCLK pulse width
BCLK pulse period
Data setup time
Data hold time
t
1000
CY
t
60
BCW
t
120
40
BCY
t
DS
t
40
DH
LRCK setup time
LRCK hold time
BCLK rise time
t
40
LRS
t
40
LRH
t
40
40
20
20
Br
BCLK fall time
t
Bf
SYSCLK rise time
SYSCLK fall time
t
Sr
t
Sf
No. 5212-3/11
LC78833M, 78833V
Audio Input Waveforms
Pin Assignments
No. 5212-4/11
LC78833M, 78833V
Pin Functions
Pin No.
Pin
Description
LC78833M
1
LC78833V
1
CH1OUT
REFH
Channel 1 analog output
High-level reference voltage
2
2
Normally connected to AGND through a capacitor.
—
3
3
4
5
NC
No connection
Vref H
High-level reference voltage input
Analog system power supply
4
AV
DD
LR clock input
5
6
6
7
LRCK
DATA
A high level specifies channel 1 and a low level channel 2.
Digital audio data input
Accepts data in a two’s complement MSB first format.
7
8
8
BCLK
SYSCLK
NC
Bit clock input
9
System clock input (384fs)
No connection
—
9
10
11
12
13
CKOUT
System clock output (384fs)
Digital system power supply
Test output
10
11
DV
DD
TSTOUT
Test output
12
—
14
15
TST
This pin must be connected to DGND in normal operation.
NC
No connection
De-emphasis filter on/off control input
13
16
EMP
A high level specifies on and a low level off.
This function supports a sampling frequency fs of 44.1 kHz.
14
15
17
18
INITB
Initialization input. A low level input to this pin initializes the IC.
Digital system ground
DGND
Low-level reference voltage
Normally connected to AGND through a capacitor.
16
19
REFL
17
18
—
19
20
20
21
22
23
24
AGND
Vref L
NC
Analog system power supply
Low-level reference voltage input
No connection
NC
No connection
CH2OUT
Channel 2 analog output
No. 5212-5/11
LC78833M, 78833V
LC78833M/V Operation
1. Digital Filters
The LC78833M and LC78833V perform the computations shown in the figure.
• Oversampling
The oversampling circuit in these ICs consists of two 2× interpolation filters (implemented as FIR filters)
connected vertically.
In particular, these ICs implement 4× oversampling by the vertical connection of two FIR filter stages, a 33rd-order
stage and a ninth-order stage. See page 9 for the filter characteristics.
• De-emphasis
A first-order IIR filter is used for de-emphasis. The filter coefficients are optimized for a sampling frequency of
44.1 kHz. See page 9 for the filter characteristics when de-emphasis is applied.
— De-emphasis on/off switching
De-emphasis is on when the EMP pin is high.
De-emphasis is off when the EMP pin is low.
2. Digital Audio Data Input
These ICs handle digital audio data in a 16-bit two’s complement MSB first format. The 16-bit serial data is input to
an internal register from the DATA pin on BCLK rising edges and read in on rising and falling edges of the LRCK
signal.
No. 5212-6/11
LC78833M, 78833V
3. Initialization
These ICs must be initialized when power is first applied and when the system clock frequency is changed.
Initialization is performed by applying a low level to the INITB pin. That low level must be held for at least one full
cycle of the LRCK signal after the power supply voltage has stabilized and the SYSCLK, BCLK, and LRCK signals
have been applied.
When INITB is low, all 16 bits of the digital filter outputs go to 0, and the D/A converter outputs (CH1OUT and
CH2OUT) go to the analog 0 level, which is a potential equal to (REFH +REFL)/2.
4. System Clock
These ICs support a 384fs system clock. Apply a 384fs clock to the SYSCLK pin.
• CKOUT pin
The SYSCLK and CKOUT pins are related as shown in the figure below.
No. 5212-7/11
LC78833M, 78833V
5. D/A Converter Block
Channel 1 and channel 2 each include an independent 16-bit D/A converter and an output operational amplifier.
These D/A converters use the dynamic level-shifting conversion scheme shown in the figure below. This scheme
combines three conversion techniques, resistor string D/A conversion, PWM (pulse width modulation) D/A
conversion, and level-shifting D/A conversion.
No. 5212-8/11
LC78833M, 78833V
• Resistor string D/A converter
8
This 8-bit D/A converter uses a total of 256 (= 2 ) unit-resistance (R) resistors connected in series to voltage divide
the potential applied to the ends of that resistor string into 256 equal intervals. Of these resistor-divided potentials,
two adjacent potentials, V1 and V2, are selected by a switching circuit according to the value of the upper 8 bits
(D15 to D8) of the data. These two potentials are output to the PWM D/A converter. Note that these potentials are
related as follows:
V2 – V1 = (VH – VL)/256
• PWM D/A converter
This 4-bit D/A converter divides (by 16) the interval between the two potentials, V1 and V2, output by the resistor-
string D/A converter. This circuit outputs one or the other of the V1 and V2 potentials from the CH1OUT (or
CH2OUT) pin according to the value of the middle 4 bits (D7 to D4) of the data.
• Level shifting D/A converter
This 4-bit D/A converter is implemented by connecting the variable resistors VRH and VRL in series at the ends of
the resistor-string D/A converter. The values of the VRH and VRL variable resistors are modified according to the
value of the low-order 4 bits of the data as follows:
— The value of VRH + VRL is held fixed regardless of the value of the data.
— The values of VRH and VRL are changed in R/256 unit steps (where R is the value of the resistor-string D/A
converter unit resistors) over the range zero to 15·R/256.
This causes the resistor-string D/A converter V1 and V2 outputs to change in ∆V/256 steps (where ∆V = (VH –
VL)/256) over the range 0 to 15 × ∆V/256 according to the value of the lower 4 bits of the data.
— The Vref H/L and REFH/L pins
The Vref H/L pins provide the reference voltage to the resistor string, and are normally connected to AV and
DD
AGND, respectively. REFH and REFL are each connected to AGND through a capacitor of about 10 µF.
The maximum output amplitude is acquired when Vref H is 5.0 V and Vref L is 0 V. The internal resistors RH
and RL cause the output range to be between 0.7 V (minimum) and 3.5 V (maximum) (2.8 Vp-p) for 0 dB.
Filter Characteristics (as calculated)
4× oversampling
Ripple: Less than ±0.1 dB
Attenuation: –35 dB or lower
No. 5212-9/11
LC78833M, 78833V
Application Circuit Example
Note 1. V and Vref H must be provided from a low-impedance, high-stability power supply, for example, a
DD
commercial three-terminal regulator or equivalent.
2. Since it is possible for the IC to latch up if there is a discrepancy between the pin 4 (AV ) and pin 10 (DV
)
DD
DD
power supply power-on timing, application circuits should be designed so that there is no time difference
between the application of these voltages.
3. Bypass capacitors of at least 47 µF must be inserted between AV and AGND and between DV and
DD
DD
DGND. These capacitor must be placed as close as possible to the IC.
4. Bypass capacitors of at least 10 µF must be inserted between REFH and AGND and between REFL and
AGND for reference voltage stability.
No. 5212-10/11
LC78833M, 78833V
Power On Timing
1. The analog power supply (AV ) and the digital power supply (DV ) should be applied (or removed) at the same
DD
DD
time.
2. If a time difference between application of the analog and digital power supplies cannot be avoided, the timing must
meet the following conditions:
• The power supply power up (and power down) time differences must be under 3 ms. (See Figure 1.)
• If the time difference exceeds 3 ms, the rise (fall) time of the power supply that rises (falls) first must be at least
5 ms, and the time difference must be under 50 ms. (See Figure 2.)
Figure 1
Figure 2
■ 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:
➀ 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:
➁ 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, 1997. Specifications and information herein are subject to
change without notice.
No. 5212-11/11
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