INFINEON Q67000

Audioprocessor
1
TDA 4390-2X
Overview
The TDA 4390-2X is a single-chip audio sound system.
The circuit can be partitioned into two functional
blocks.
P-DSO-28-3
1.1
Features
1. Stereo sound processing
• Four stereo AF inputs
• Input/Output interface for external equalizer
• Max. gain switchable between 0 dB and 6 dB
• Bass and treble control
• Four independent attenuators for volume balance and fader control
2. Control part
• I2C Bus interface compatible for standard and fast mode
• Control of sound processing
Type
Ordering Code
Package
TDA 4390-2X
Q67000-A5183
P-DSO-28-3
Semiconductor Group
1
02.96
TDA 4390-2X
1.2
Pin Configuration
(top view)
P-DSO-28-3
Figure 1
Semiconductor Group
2
02.96
TDA 4390-2X
1.3
Pin No.
Pin Definitions and Functions
Symbol
Function
1
AF input 1 left
2
AF input 2 left
3
AF input 3 left
4
AF input 3 left
5
AF output switch left
6
AF input tone control volume left
7
Reset (all functions in power ON status)
8
I2C Bus SCL
9
I2C Bus SDA
10
Supply voltage
11
Corner frequency treble left
12
Corner frequency treble right
13
AF output right front
14
AF output right rear
15
AF output left rear
16
AF output left front
17
Corner frequency bass right output
18
Corner frequency bass right input
19
Corner frequency bass left output
20
Corner frequency bass left input
21
Ground
22
Blocking AF operating point
23
AF input tone control volume right
24
AF output switch right
25
AF input 4 right
26
AF input 3 right
27
AF input 2 right
28
AF input 1 right
Semiconductor Group
3
02.96
TDA 4390-2X
1.3.1
Pin Description
Figure 2
AF Inputs PIN 1/2/3/4/6/23/25/26/27/28
Figure 3
AF Outputs PIN 5/24
Semiconductor Group
4
02.96
TDA 4390-2X
Figure 4
Reset PIN 7, I2C Bus SCL PIN 8
Figure 5
I2C Bus SDA PIN 9
Semiconductor Group
5
02.96
TDA 4390-2X
Figure 6
Corner Frequency Treble PIN 11/12
Figure 7
AF Outputs PIN 13/14/15/16
Semiconductor Group
6
02.96
TDA 4390-2X
Figure 8
Corner Frequency Bass PIN 17/18/19/20
Figure 9
AF Operating Point PIN 22
Semiconductor Group
7
02.96
TDA 4390-2X
1.4
Functional Block Diagram
Figure 10
Block Diagram
Semiconductor Group
8
02.96
TDA 4390-2X
2
Circuit Description
2.1
Signal Processing
1. The selection of the AF inputs happens in the input switch. There are four stereo
inputs available. An input level switch circuitry behind the input switch realizes the
adaption of different signal source levels. A gain of 0 dB or 6 dB is possible. After this
section a stereo output/input is placed for connecting external circuits like an
equalizer.
2. In the following signalpath there is tone control, consisting of bass and treble control.
Bass control offers a control range of + 18 dB to – 12 dB with a stepwidth of 2 dB.
Frequency characteristic, 1st order or 2nd order (resonance type) is fixed by external
components. Treble control offers a control range of ± 12 dB with a stepwidth of 2 dB.
The treble control corner frequency is fixed by an external capacitor. Last stage in
signalpath is volume control which can be adjusted independent for left, right, rear and
front. 57 steps with an increment of 1.25 dB give a setting range of 70 dB, the 57th
step activates muting.
2.2
Controlpart
All functions are controlled via an I2C Bus interface. All data is stored into a latch circuit.
The telegram structure is built as follows:
Startcondition – chipaddress – any number of databytes – stopcondition.
For the databytes the following conditions must be fulfilled:
Before transmitting a databyte a subaddress byte must first be placed in the data
telegram.
Semiconductor Group
9
02.96
TDA 4390-2X
2.2.1
Chipaddress
MSB
1
2.2.2
LSB
0
0
0
0
0
1
0
Subaddress bytes
MSB
LSB
Volume front left
×
×
×
×
×
0
0
0
Volume front right
×
×
×
×
×
0
0
1
Volume rear left
×
×
×
×
×
0
1
0
Volume rear right
×
×
×
×
×
0
1
1
Bass/treble
×
×
×
×
×
1
0
1
Switchbyte
×
×
×
×
×
1
1
1
2.2.3
Controlbytes
a) Volume left, right, front, rear
MSB
LSB
Max. volume
×
×
1
1
1
1
1
1
Max-1
×
×
1
1
1
1
1
0
Max-16
×
×
1
1
0
0
0
0
Max-55
×
×
0
0
1
0
0
0
MUTE
×
×
0
0
0
1
1
1
MUTE
×
×
0
0
0
0
0
0
MUTE
×
×
0
0
0
×
×
×
Power ON
0
0
0
0
0
0
0
1
Semiconductor Group
10
02.96
TDA 4390-2X
b) Treble/Bass
MSB
LSB
Linear
1
0
0
0
1
0
0
1
Max. treble, lin. bass
0
0
1
0
1
0
0
1
Max. treble, lin. bass
0
0
0
×
1
0
0
1
Min. treble, lin. bass
1
1
1
0
1
0
0
1
Min. treble, lin. bass
1
1
1
×
1
0
0
1
Lin. treble, max. bass
1
0
0
0
0
0
0
0
Lin. treble, min. bass
1
0
0
0
1
1
1
1
Max. treble, max. bass
0
0
0
×
0
0
0
0
Min. treble, min. bass
1
1
1
×
1
1
1
1
Power ON
0
0
0
0
0
0
0
1
MSB
treble
Semiconductor Group
LSB MSB
treble bass
11
LSB
bass
02.96
TDA 4390-2X
c) Switchbyte
MSB
MUTE IN1
LSB
IN2
IN3
IN4
Gain
MUTE = 0
MUTE = 1
MUTE OFF; power ON
MUTE ON
IN1 = 0
IN1 = 1
Input1 OFF; power ON
Input1 ON
IN2 = 0
IN2 = 1
Input1 OFF; power ON
Input1 ON
IN3 = 0
IN3 = 1
Input1 OFF; power ON
Input1 ON
IN4 = 0
IN4 = 1
Input1 OFF; power ON
Input1 ON
Gain = 0
Gain = 1
Gain 0 dB; power ON
Gain 6 dB
×
×
If no signal is activated, this is interpreted as muting.
There is no mutual lockout of the inputs for multiple selections.
Semiconductor Group
12
02.96
TDA 4390-2X
3
Electrical Characteristics
3.1
Absolute Maximum Ratings
TA = – 40 °C to 85 °C
Parameter
Supply voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC voltage
Max. DC current
Max. DC current
Max. DC current
Max. DC current
Semiconductor Group
Symbol
V10
V1
V2
V3
V4
V6
V7
V8
V11
V12
V18
V20
V22
V23
V25
V26
V27
V28
I5
I9
I13
I14
Limit Values
min.
max.
0
14
V
0
V
0
V10
V10
V10
V10
V10
V10
0
6
V
0
V
0
V10
V10
V10
V10
V10
V10
V10
V10
V10
V10
0
2
mA
0
2
mA
0
2
mA
0
2
mA
0
0
0
0
0
0
0
0
0
0
0
0
13
Unit Remarks
V
V
V
V
V
V
V
V
V
V
V
V
V
V
02.96
TDA 4390-2X
3.1
Absolute Maximum Ratings (cont’d)
TA = – 40 °C to 85 °C
Parameter
Max. DC current
Max. DC current
Max. DC current
Max. DC current
Max. DC current
Junction temperature
Storage temperature
Thermal resistance
Symbol
I15
I16
I17
I19
I24
Tj
TS
RthSA
Limit Values
Unit Remarks
min.
max.
0
2
mA
0
2
mA
0
2
mA
0
2
mA
0
2
mA
150
°C
125
°C
76
K/W
– 40
Note: Maximum ratings are absolute ratings; exceeding only one of these values may
cause irreversible damage to the integrated circuit.
3.2
Operating Range
Parameter
Symbol
Limit Values
Unit
min.
max.
7.5
13.2
V
Ambient temperature range
VS
TA
– 40
85
°C
Input frequency range
ƒI
0.01
20
kHz
Supply voltage
Note: In the operating range the functions given in the circuit description are fulfilled.
Semiconductor Group
14
02.96
TDA 4390-2X
3.3
AC/DC Characteristics
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
AF reference level 0 dB = 150 mV, fi = 1 kHz, if not stated otherwise.
I2C Bus preset: Start – 82 – 00, 3F – 01, 3F – 02, 3F – 03, 3F – 05, 89 – 07, 40 – Stop
Chipaddr. – Vol 63 – Vol 63 – Vol 63 – Vol 63 – tone lin – IN1
The basic setting for each point in the specification is always preset; only settings which are deviate
from this, are given in the test conditions. Details in italics only provide explanation of the
hexadecimal code and which switch bits on the setbytes are stated.
Current
consumption
I10
39
55
mA
1
A. Signal Section
Gain1)
V5-1
–1
0
1
dB
1
Gain1)
V24-28
–1
0
1
dB
1
Gain1)
V5-1
5
6
7
dB
07, 44; gain = 6 dB
1
Gain1)
V24-28
5
6
7
dB
07, 44; gain = 6 dB
1
Max. gain
V15-6
–2
0
2
dB
1
Max. gain
V16-6
–2
0
2
dB
1
Max. gain
V13-23
–2
0
2
dB
1
Max. gain
V14-23
–2
0
2
dB
1
Min. gain
V15-6
– 70
– 60
dB
00, 08-02, 08; Vol 8
1
Min. gain
V16-6
– 70
– 60
dB
00, 08-02, 08; Vol 8
1
Min. gain
V13-23
– 70
– 60
dB
01, 08-03, 08; Vol 8
1
Min. gain
V14-23
– 70
– 60
dB
01, 08-03, 08; Vol 8
1
Tracking error
∆V13-14
±3
dB
01, 3F to 01, 24
1
03, 3F to 03, 24; Vol 63-36
Tracking error
∆V15-16
±3
dB
00, 3F to 00, 24
1
02, 3F to 02, 24; Vol 63-36
Tracking error
∆V13-16
±3
dB
00, 3F to 00, 24
1
01, 3F to 01, 24; Vol 63-36
Tracking error
∆V14-15
±3
dB
02, 3F to 02, 24
1
03, 3F to 03, 24; Vol 63-36
1)
Same values apply for feeding in on pins 2 … 4, and 25 … 27.
Semiconductor Group
15
02.96
TDA 4390-2X
3.3
AC/DC Characteristics (cont’d)
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
min. typ.
max.
Unit
Test Condition
Test
Circuit
Step width Vol13
∆V13
0
1.25
2.5
dB
01, X-01, (X ± 1)
Vol X-Vol (X ± 1)
1
Step width Vol14
∆V14
0
1.25
2.5
dB
03, X-03, (X ± 1)
Vol X-Vol (X ± 1)
1
Step width Vol15
∆V15
0
1.25
2.5
dB
02, X-02, (X ± 1)
Vol X-Vol (X ± 1)
1
Step width Vol16
∆V16
0
1.25
2.5
dB
02, X-02, (X ± 1)
Vol X-Vol (X ± 1)
1
Bass boost
V15-6
15
18
dB
05, 80; fi = 40 Hz
bass max, treble lin
1
Bass boost
V16-6
15
18
dB
05, 80; fi = 40 Hz
bass max, treble lin
1
Bass boost
V13-23
15
18
dB
05, 80; fi = 40 Hz
bass max, treble lin
1
Bass boost
V14-23
15
18
dB
05, 80; fi = 40 Hz
bass max, treble lin
1
Bass boost
V15-6
– 12
dB
05, 8F; fi = 40 Hz
bass min, treble lin
1
Bass boost
V16-6
– 12
dB
05, 8F; fi = 40 Hz
bass min, treble lin
1
Bass boost
V13-23
– 12
dB
05, 8F; fi = 40 Hz
bass min, treble lin
1
Bass boost
V14-23
– 12
dB
05, 8F; fi = 40 Hz
bass min, treble lin
1
Step width bass
∆V13
1
2
3
dB
05, 8X-05,8 (X ± 1)
bass X-bass (X ± 1)
1
Step width bass
∆V14
1
2
3
dB
05, 8X-05,8 (X ± 1)
bass X-bass (X ± 1)
1
Step width bass
∆V15
1
2
3
dB
05, 8X-05,8 (X ± 1)
bass X-bass (X ± 1)
1
Step width bass
∆V16
1
2
3
dB
05, 8X-05,8 (X ± 1)
bass X-bass (X ± 1)
1
Semiconductor Group
16
02.96
TDA 4390-2X
3.3
AC/DC Characteristics (cont’d)
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
Test
Circuit
max.
Treble boost
V15-6
9
12
dB
05, 09; fi = 15 kHz
treble max, bass lin
1
Treble boost
V16-6
9
12
dB
05, 09; fi = 15 kHz
treble max, bass lin
1
Treble boost
V13-23
9
12
dB
05, 09; fi = 15 kHz
treble max, bass lin
1
Treble boost
V14-23
9
12
dB
05, 09; fi = 15 kHz
treble max, bass lin
1
Treble boost
V15-6
9
12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Treble boost
V15-6
– 12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Treble boost
V16-6
– 12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Treble boost
V13-23
– 12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Treble boost
V14-23
– 12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Step width treble
∆V13
1
2
3
dB
05, X9-05, (X ± 1) 9
treble X-treble (X ± 1)
1
Step width treble
∆V14
1
2
3
dB
05, X9-05, (X ± 1) 9
treble X-treble (X ± 1)
1
Step width treble
∆V15
1
2
3
dB
05, X9-05, (X ± 1) 9
treble X-treble (X ± 1)
1
Step width treble
∆V16
1
2
3
dB
05, X9-05, (X ± 1) 9
treble X-treble (X ± 1)
1
Semiconductor Group
17
02.96
TDA 4390-2X
3.3
AC/DC Characteristics (cont’d)
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
Tone linearity
∆V13
±3
dB
05, 89; fi = 40 Hz … 15 kHz 1
treble, bass lin
Tone linearity
∆V14
±3
dB
05, 89; fi = 40 Hz … 15 kHz 1
treble, bass lin
Tone linearity
∆V15
±3
dB
05, 89; fi = 40 Hz … 15 kHz 1
treble, bass lin
Tone linearity
∆V16
±3
dB
05, 89; fi = 40 Hz … 15 kHz 1
treble, bass lin
Channel separation ∆V14-15
60
dB
V6 or V23 = 300 mVrms
1
Channel separation ∆V13-16
60
dB
V6 or V23 = 300 mVrms
1
ainput unwanted/ 80
dB
Vi wanted = 0
Vi unwanted = 300 mVrms
1
Crosstalk of the
switch1)
output wanted
Attenuation MUTE2) a1-5
80
dB
01, 00-03, 00;
V1 = 300 mVrms; Vol 0
1
Attenuation MUTE2) a1-5
80
dB
07, C0; V1 = 300 mVrms
MUTE active
1
Attenuation MUTE2) a1-5
80
dB
07, 00; V1 = 300 mVrms
not select
1
Attenuation MUTE3) a28-24
80
dB
00, 00 to 03, 00;
V28 = 300 mVrms; Vol 0
1
Attenuation MUTE3) a28-24
80
dB
07, 00; V28 = 300 mVrms
MUTE active
1
Attenuation MUTE3) a28-24
80
dB
07, 00; V28 = 300 mVrms
not select
1
Same values apply for feeding in on pins 1 … 4 or 25 … 28, and measurement on pins 5 or 24.
Analogous values apply for feeding in on pins 2, 3, 4.
3)
Same values apply for feeding in on pins 25, 26, 27.
1)
2)
Semiconductor Group
18
02.96
TDA 4390-2X
3.3
AC/DC Characteristics (cont’d)
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
min. typ.
Max. input voltage1) V1
Unit
Test Condition
Test
Circuit
Vrms
k15, 16 ≤ 1 %;
1
max.
1.5
RL15, 16 = 2.2 kΩ
0.75
Vrms
k15, 16 ≤ 1 %; 07, 44
RL15, 16 = 2.2 kΩ
1
Max. input voltage2) V28
1.5
Vrms
k13, 14 ≤ 1 %;
RL13, 14 = 2.2 kΩ
1
Max. input voltage2) V28
0.75
Vrms
k13, 14 ≤ 1 %; 07, 44
RL13, 14 = 2.2 kΩ
1
250
Vrms
k15, 16 < 1 %; 05, XX
1
Max. input voltage
1)
Max. input voltage
V1
V6
any sound
Max. input voltage
V23
250
Vrms
k13, 14 < 1 %; 05, XX
1
any sound
Max. output voltage V13
2.0
Vrms
k13 < 1 %
1
Max. output voltage V14
2.0
Vrms
k14 < 1 %
1
Max. output voltage V15
2.0
Vrms
k15 < 1 %
1
Max. output voltage V16
2.0
Vrms
kv < 1 %
1
Distortion
k5
0.01
0.1
%
V1 = 150 mVrms
1
Distortion3)
k24
0.01
0.1
%
V28 = 150 mVrms
1
Distortion3)
k13
0.01
0.1
%
V28 = 150 mVrms
1
Distortion3)
k14
0.01
0.1
%
V28 = 150 mVrms
1
Distortion3)
k15
0.01
0.1
%
V1 = 150 mVrms
1
Distortion3)
k16
0.01
0.1
%
V1 = 150 mVrms
1
Distortion3)
k13
0.01
0.1
%
V28 = 150 mVrms
1
3)
01, 2F; Vol 47
Distortion3)
k14
0.01
0.1
%
V28 = 150 mVrms
1
03, 2F; Vol 47
Distortion3)
k15
0.01
0.1
%
V1 = 150 mVrms
1
02, 2F; Vol 47
Distortion
3)
k16
0.01
0.1
%
V1 = 150 mVrms
1
00, 2F; Vol 47
Same values apply for feeding in on pins 2, 3, 4.
Same values apply for feeding in on pins 25, 26, 27.
3)
Same values apply for feeding in on pins 2 … 4 or 25 … 27.
1)
2)
Semiconductor Group
19
02.96
TDA 4390-2X
3.3
AC/DC Characteristics (cont’d)
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
min. typ.
k13
Distortion1)
0.05
Unit
Test Condition
Test
Circuit
%
V28 = 150 mVrms
1
max.
0.5
05, XX; any sound
k14
Distortion
1)
0.05
0.5
%
V28 = 150 mVrms
1
05, XX; any sound
k15
Distortion1)
0.05
0.5
%
V1 = 150 mVrms
1
05, XX; any sound
k16
Distortion1)
0.05
0.5
%
V1 = 150 mVrms
1
05, XX; any sound
Signal/noise ratio1)
aS/N13
80
95
dB
VNrms 20 Hz-20 kHz
V28 = 0.3 Vrms
1
Signal/noise ratio1)
aS/N14
80
95
dB
VNrms 20 Hz-20 kHz
V28 = 0.3 Vrms
1
Signal/noise ratio1)
aS/N15
80
95
dB
VNrms 20 Hz-20 kHz
V1 = 0.3 Vrms
1
Signal/noise ratio1)
aS/N16
80
95
dB
VNrms 20 Hz-20 kHz
V1 = 0.3 Vrms
1
Signal/noise ratio1)
aS/N13
60
80
dB
VNrms 20 Hz-20 kHz
V28 = 0.3 Vrms
1
01, 27; Vol 39
Signal/noise ratio1)
aS/N14
60
80
dB
VNrms 20 Hz-20 kHz
V28 = 0.3 Vrms
1
03, 27; Vol 39
1)
Signal/noise ratio
aS/N15
60
80
dB
VNrms 20 Hz-20 kHz
V1 = 0.3 Vrms; 02, 27
1
Signal/noise ratio1)
aS/N16
60
80
dB
VNrms 20 Hz-20 kHz
V1 = 0.3 Vrms
1
00, 27; Vol 39
1)
Same values apply for feeding in on pins 2 … 4 or 25 … 27.
Semiconductor Group
20
02.96
TDA 4390-2X
3.3
AC/DC Characteristics (cont’d)
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
Noise voltage
VN13
2
10
µVrms VNrms 20 Hz-20 kHz
01, 00-03, 00; Vol 0
1
Noise voltage
VN14
2
10
µVrms VNrms 20 Hz-20 kHz
00, 00-03, 00; Vol 0
1
Noise voltage
VN15
2
10
µVrms VNrms 20 Hz-20 kHz
00, 00-02, 00; Vol 0
1
Noise voltage
VN16
2
10
µVrms VNrms 20 Hz-20 kHz
01, 00-02, 00; Vol 0
1
DC jump ∆ 1 bit
∆V13
± 10
mV
01, X-01, (X ± 1)
Vol X-Vol (X ± 1)
1
DC jump ∆ 1 bit
∆V14
± 10
mV
03, X-03, (X ± 1)
Vol X-Vol (X ± 1)
1
DC jump ∆ 1 bit
∆V15
± 10
mV
02, X-02, (X ± 1)
Vol X-Vol (X ± 1)
1
DC jump ∆ 1 bit
∆V16
± 10
mV
00, X-00, (X ± 1)
Vol X-Vol (X ± 1)
1
DC jump ∆ 1 bit
∆V13
± 10
mV
05, X-05, (X ± 1)
tone X-tone (X ± 1)
1
DC jump ∆ 1 bit
∆V14
± 10
mV
05, X-05, (X ± 1)
tone X-tone (X ± 1)
1
DC jump ∆ 1 bit
∆V15
± 10
mV
05, X-05, (X ± 1)
tone X-tone (X ± 1)
1
DC jump ∆ 1 bit
∆V16
± 10
mV
05, X-05, (X ± 1)
tone X-tone (X ± 1)
1
PSRR
APSRR13
70
dB
Vundesired = 1 Vrms
1
fundesired = 100 Hz … 20 kHz
PSRR
APSRR14
70
dB
input termination with 220 Ω 1
PSRR
APSRR15
70
dB
measurement rms
according CCIR 651
PSRR
APSRR16
70
dB
Semiconductor Group
21
1
1
02.96
TDA 4390-2X
3.3
AC/DC Characteristics (cont’d)
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
Design Hints
Input resistance
R1
22
27
kΩ
Input resistance
R2
22
27
kΩ
Input resistance
R3
22
27
kΩ
Input resistance
R4
22
27
kΩ
Input resistance
R6
24
30
kΩ
Input resistance
R23
24
30
kΩ
Input resistance
R25
22
27
kΩ
Input resistance
R26
22
27
kΩ
Input resistance
R27
22
27
kΩ
Input resistance
R28
22
27
kΩ
Output resistance
R5
200
Ω
Output resistance
R13
200
Ω
Output resistance
R14
200
Ω
Output resistance
R15
200
Ω
Output resistance
Rv
200
Ω
Output resistance
R24
200
Ω
Vs = 8.5 V
Max. input voltage
V6
180
mVrms k15, 16 < 5 %; 05, XX
any sound
1
Max. input voltage
V23
180
mVrms k13, 14 < 5 %; 05, XX
any sound
1
Bass boost
V15-6
10
12
dB
05,83; fi = 40 Hz
bass step 6, treble lin
1
Bass boost
V16-6
10
12
dB
05,83; fi = 40 Hz
bass step 6, treble lin
1
Bass boost
V13-23
10
12
dB
05,83; fi = 40 Hz
bass step 6, treble lin
1
Bass boost
V14-23
10
12
dB
05,83; fi = 40 Hz
bass step 6, treble lin
1
Semiconductor Group
22
02.96
TDA 4390-2X
3.3
AC/DC Characteristics (cont’d)
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
Vs = 12 V
Max. input voltage
V6
300
mVrms k15, 16 < 1 %; 05, XX
any sound
1
Max. input voltage
V23
300
mVrms k13, 14 < 1 %; 05, XX
any sound
1
B. I2C Bus (SCL, SDA edges)
Rise time
tR
300
ns
Fall time
tF
300
ns
400
kHz
Shift Register Clock Pulse SCL
Frequency
fSCL
0
H-pulse width
tHIGH
0.6
µs
L-pulse width
tLOW
1.3
µs
Set-up time
tSUSTA
0.6
µs
Hold time
tHDSTA
0.6
µs
Set-up time
tSUSTO
0.6
µs
Bus free time
tBUF
1.3
µs
Set-up time
tSUDAT
100
µs
Hold time
tHDDAT
0
Start
Stop
Data Transfer
Semiconductor Group
0.9
23
µs
02.96
TDA 4390-2X
3.3
AC/DC Characteristics (cont’d)
VS = 10 V, TA = – 40 °C to 85 °C
Parameter
Symbol
Limit Values
Unit
min. typ.
max.
3
5.5
V
1.5
V
Test Condition
Test
Circuit
Inputs SCL, SDA
Input voltage
VQH
VQL
Hysteresis
VHYS
0.2
V
Spike suppression
tSP
50
ns
Input current
IQH
50
µA
VQL
100
µA
Output SDA (open collector)
Output voltage
VQH
5.4
V
RL = 2.5 kΩ
IQL = 3 mA
VQL
0.4
V
Reset inactive
VL
1.5
V
Reset active
VH
5.5
V
3
Note: The listed characteristics are ensured over the operating range of the integrated
circuit. Typical characteristics specify mean values expected over the production
spread. If not otherwise specified, typical characteristics apply at TA = 25 ° C and
the given supply voltage.
Semiconductor Group
24
02.96
TDA 4390-2X
3.4
AC/DC Characteristics
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
AF reference level 0 dB = 150 mV, fi = 1 kHz, if not stated otherwise.
I2C Bus preset: Start – 82 – 00, 3F – 01, 3F – 02, 3F – 03, 3F – 05, 89 – 07, 40 – Stop
Chipaddr. – Vol 63 – Vol 63 – Vol 63 – Vol 63 – tone lin – IN1
The basic setting for each point in the specification is always preset; only settings which are deviate
from this, are given in the test conditions. Details in italics only provide explanation of the
hexadecimal code and which switch bits on the setbytes are stated.
Current
consumption
I10
39
50
mA
1
A. Signal Section
Gain1)
V5-1
–1
0
1
dB
1
Gain1)
V24-28
–1
0
1
dB
1
Gain1)
V5-1
5
6
7
dB
07, 44; gain = 6 dB
1
Gain
V24-28
5
6
7
dB
07, 44; gain = 6 dB
1
Max. gain
V15-6
–2
0
2
dB
1
Max. gain
V16-6
–2
0
2
dB
1
Max. gain
V13-23
–2
0
2
dB
1
Max. gain
V14-23
–2
0
2
dB
1
Min. gain
V15-6
– 70
– 65
dB
00, 08-02, 0; 8 Vol 8
1
Min. gain
V16-6
– 70
– 65
dB
00, 08-02, 0; 8 Vol 8
1
Min. gain
V13-23
– 70
– 65
dB
01, 08-03, 0; 8 Vol 8
1
Min. gain
V14-23
– 70
– 65
dB
01, 08-03, 08; Vol 8
1
Tracking error
∆V13-14
±2
dB
01, 3F to 01, 24
1
03, 3F to 03, 24; Vol 63-36
Tracking error
∆V15-16
±2
dB
00, 3F to 00, 24
1
02, 3F to 02, 24; Vol 63-36
Tracking error
∆V13-16
±2
dB
00, 3F to 00, 24
1
01, 3F to 01, 24; Vol 63-36
Tracking error
∆V14-15
±2
dB
02, 3F to 02, 24
1
03, 3F to 03, 24; Vol 63-36
1)
1)
Same values apply for feeding in on pins 2 … 4, and 25 … 27.
Semiconductor Group
25
02.96
TDA 4390-2X
3.4
AC/DC Characteristics (cont’d)
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
min. typ.
max.
Unit
Test Condition
Test
Circuit
Step width Vol13
∆V13
0
1.25
2.5
dB
01, X-01, (X ± 1)
Vol X-Vol (X ± 1)
1
Step width Vol14
∆V14
0
1.25
2.5
dB
03, X-03, (X ± 1)
Vol X-Vol (X ± 1)
1
Step width Vol15
∆V15
0
1.25
2.5
dB
02, X-02, (X ± 1)
Vol X-Vol (X ± 1)
1
Step width Vol16
∆V16
0
1.25
2.5
dB
00, X-00, (X ± 1)
Vol X-Vol (X ± 1)
1
Bass boost
V15-6
16
18
dB
05, 80; fi = 40 Hz
bass max, treble lin
1
Bass boost
V16-6
16
18
dB
05, 80; fi = 40 Hz
bass max, treble lin
1
Bass boost
V13-23
16
18
dB
05, 80; fi = 40 Hz
bass max, treble lin
1
Bass boost
V14-23
16
18
dB
05, 80; fi = 40 Hz
bass max, treble lin
1
Bass boost
V15-6
– 12
dB
05, 8F; fi = 40 Hz
bass min, treble lin
1
Bass boost
V16-6
– 12
dB
05, 8F; fi = 40 Hz
bass min, treble lin
1
Bass boost
V13-23
– 12
dB
05, 8F; fi = 40 Hz
bass min, treble lin
1
Bass boost
V14-23
– 12
dB
05, 8F; fi = 40 Hz
bass min, treble lin
1
Step width bass
∆V13
1
2
3
dB
05, 8X-05, 8 (X ± 1)
bass X-bass (X ± 1)
1
Step width bass
∆V14
1
2
3
dB
05, 8X-05, 8 (X ± 1)
bass X-bass (X ± 1)
1
Step width bass
∆V15
1
2
3
dB
05, 8X-05, 8 (X ± 1)
bass X-bass (X ± 1)
1
Step width bass
∆V16
1
2
3
dB
05, 8X-05, 8 (X ± 1)
bass X-bass (X ± 1)
1
Semiconductor Group
26
02.96
TDA 4390-2X
3.4
AC/DC Characteristics (cont’d)
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
Test
Circuit
max.
Treble boost
V15-6
10
12
dB
05, 09; fi = 15 kHz
treble max, bass lin
1
Treble boost
V16-6
10
12
dB
05, 09; fi = 15 kHz
treble max, bass lin
1
Treble boost
V13-23
10
12
dB
05, 09; fi = 15 kHz
treble max, bass lin
1
Treble boost
V14-23
10
12
dB
05, 09; fi = 15 kHz
treble max, bass lin
1
Treble boost
V15-6
10
12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Treble boost
V15-6
– 12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Treble boost
V16-6
– 12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Treble boost
V13-23
– 12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Treble boost
V14-23
– 12
dB
05, F9; fi = 15 kHz
treble min, bass lin
1
Step width treble
∆V13
1
2
3
dB
05, X9-05, (X ± 1) 9
treble X-treble (X ± 1)
1
Step width treble
∆V14
1
2
3
dB
05, X9-05, (X ± 1) 9
treble X-treble (X ± 1)
1
Step width treble
∆V15
1
2
3
dB
05, X9-05, (X ± 1) 9
treble X-treble (X ± 1)
1
Step width treble
∆V16
1
2
3
dB
05, X9-05, (X ± 1) 9
treble X-treble (X ± 1)
1
Semiconductor Group
27
02.96
TDA 4390-2X
3.4
AC/DC Characteristics (cont’d)
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
Tone linearity
∆V13
±2
dB
05, 89; fi = 40 Hz … 15 kHz 1
treble, bass lin
Tone linearity
∆V14
±2
dB
05, 89; fi = 40 Hz … 15 kHz 1
treble, bass lin
Tone linearity
∆V15
±2
dB
05, 89; fi = 40 Hz … 15 kHz 1
treble, bass lin
Tone linearity
∆V16
±2
dB
05, 89; fi = 40 Hz … 15 kHz 1
treble, bass lin
Channel separation ∆V14-15
60
dB
V6 or V23 = 300 mVrms
1
Channel separation ∆V13-16
60
dB
V6 or V23 = 300 mVrms
1
ainput unwanted/ 80
dB
Vi wanted = 0
Vi unwanted = 300 mVrms
1
Crosstalk of the
switch1)
output wanted
a1-5
80
dB
01, 00-03, 00;
V1 = 300 mVrms; Vol 0
1
Attenuation MUTE2) a1-5
80
dB
07, C0; V1 = 300 mVrms
MUTE active
1
Attenuation MUTE2) a1-5
80
dB
07, 00; V1 = 300 mVrms
not select
1
Attenuation MUTE3) a28-24
80
dB
00, 00 to 03, 00;
V28 = 300 mVrms; Vol 0
1
Attenuation MUTE3) a28-24
80
dB
07, C0; V28 = 300 mVrms
MUTE active
1
Attenuation MUTE3) a28-24
80
dB
07, 00; V28 = 300 mVrms
not select
1
Attenuation MUTE
2)
Same values apply for feeding in on pins 1 … 4 or 25 … 28, and measurement on pins 5 or 24.
Analogous values apply for feeding in on pins 2, 3, 4.
3)
Same values apply for feeding in on pins 25, 26, 27.
1)
2)
Semiconductor Group
28
02.96
TDA 4390-2X
3.4
AC/DC Characteristics (cont’d)
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
Test
Circuit
max.
Max. input voltage1) V1
2
Vrms
k15, 16 ≤ 1 %;
RL15, 16 = 2.2 kΩ
1
Max. input voltage1) V1
1
Vrms
k15, 16 ≤ 1 %; 07, 44
RL15, 16 = 2.2 kΩ
1
Max. input voltage2) V28
2
Vrms
k13, 14 ≤ 1 %;
RL13, 14 = 2.2 kΩ
1
Max. input voltage2) V28
1
Vrms
k13, 14 ≤ 1 %; 07, 44
RL13, 14 = 2.2 kΩ
1
280
Vrms
k15, 16 < 1 %; 05, XX
1
Max. input voltage
V6
any sound
Max. input voltage
V23
280
Vrms
k13, 14 < 1 %; 05, XX
1
any sound
Max. output voltage V13
2.2
Vrms
k13 < 1 %
1
Max. output voltage V14
2.2
Vrms
k14 < 1 %
1
Max. output voltage V15
2.2
Vrms
k15 < 1 %
1
Max. output voltage V16
2.2
Vrms
k16 < 1 %
1
Distortion3)
k5
0.01
0.05
%
V1 = 150 mVrms
1
Distortion3)
k24
0.01
0.05
%
V28 = 150 mVrms
1
Distortion3)
k13
0.01
0.05
%
V28 = 150 mVrms
1
Distortion3)
k14
0.01
0.05
%
V28 = 150 mVrms
1
Distortion3)
k15
0.01
0.05
%
V1 = 150 mVrms
1
Distortion3)
k16
0.01
0.05
%
V1 = 150 mVrms
1
Distortion
k13
0.01
0.1
%
V28 = 150 mVrms
1
3)
01, 2F; Vol 47
Distortion3)
k14
0.01
0.1
%
V28 = 150 mVrms
1
03, 2F; Vol 47
Distortion3)
k15
0.01
0.1
%
V1 = 150 mVrms
1
02, 2F; Vol 47
Distortion3)
k16
0.01
0.1
%
V1 = 150 mVrms
1
00, 2F; Vol 47
Same values apply for feeding in on pins 2, 3, 4.
Same values apply for feeding in on pins 25, 26, 27.
3)
Same values apply for feeding in on pins 2 … 4 or 25 … 27.
1)
2)
Semiconductor Group
29
02.96
TDA 4390-2X
3.4
AC/DC Characteristics (cont’d)
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
min. typ.
k13
Distortion1)
0.05
Unit
Test Condition
Test
Circuit
%
V28 = 150 mVrms
1
max.
0.2
05, XX; any sound
k14
Distortion1)
0.05
0.2
%
V28 = 150 mVrms
1
05, XX; any sound
k15
Distortion1)
0.05
0.2
%
V1 = 150 mVrms
1
05, XX; any sound
k16
Distortion1)
0.05
0.2
%
V1 = 150 mVrms
1
05, XX; any sound
Signal/noise ratio1)
aS/N13
90
95
dB
VNrms 20 Hz-20 kHz
V28 = 0.3 Vrms
1
Signal/noise ratio1)
aS/N14
90
95
dB
VNrms 20 Hz-20 kHz
V28 = 0.3 Vrms
1
Signal/noise ratio1)
aS/N15
90
95
dB
VNrms 20 Hz-20 kHz
1
V1 = 0.3 Vrms
Signal/noise ratio
1)
aS/N16
90
95
dB
VNrms 20 Hz-20 kHz
1
V1 = 0.3 Vrms
Signal/noise ratio1)
aS/N13
70
80
dB
VNrms 20 Hz-20 kHz
V28 = 0.3 Vrms
1
01, 27; Vol 39
Signal/noise ratio
1)
aS/N14
70
80
dB
VNrms 20 Hz-20 kHz
V28 = 0.3 Vrms
1
03, 27; Vol 39
Signal/noise ratio1)
aS/N15
70
80
dB
VNrms 20 Hz-20 kHz
V1 = 0.3 Vrms; 02, 27
1
Signal/noise ratio1)
aS/N16
70
80
dB
VNrms 20 Hz-20 kHz
V1 = 0.3 Vrms
1
00, 27; Vol 39
1)
Same values apply for feeding in on pins 2 … 4 or 25 … 27.
Semiconductor Group
30
02.96
TDA 4390-2X
3.4
AC/DC Characteristics (cont’d)
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
Noise voltage
VN13
2
5
µVrms VNrms 20 Hz-20 kHz
01, 00-03, 00; Vol 0
1
Noise voltage
VN14
2
5
µVrms VNrms 20 Hz-20 kHz
01, 00-03, 00; Vol 0
1
Noise voltage
VN15
2
5
µVrms VNrms 20 Hz-20 kHz
00, 00-02, 00; Vol 0
1
Noise voltage
VN16
2
5
µVrms VNrms 20 Hz-20 kHz
00, 00-02, 00; Vol 0
1
DC jump ∆ 1 bit
∆V13
± 10
mV
01, X-01, (X ± 1)
Vol X-Vol (X ± 1)
1
DC jump ∆ 1 bit
∆V14
± 10
mV
03, X-03, (X ± 1)
Vol X-Vol (X ± 1)
1
DC jump ∆ 1 bit
∆V15
± 10
mV
02, X-02, (X ± 1)
Vol X-Vol (X ± 1)
1
DC jump ∆ 1 bit
∆V16
± 10
mV
00, X-00, (X ± 1)
Vol X-Vol (X ± 1)
1
DC jump ∆ 1 bit
∆V13
± 10
mV
05, X-05, (X ± 1)
tone X-tone (X ± 1)
1
DC jump ∆ 1 bit
∆V14
± 10
mV
05, X-05, (X ± 1)
tone X-tone (X ± 1)
1
DC jump ∆ 1 bit
∆V15
± 10
mV
05, X-05, (X ± 1)
tone X-tone (X ± 1)
1
DC jump ∆ 1 bit
∆V16
± 10
mV
05, X-05, (X ± 1)
tone X-tone (X ± 1)
1
PSRR
APSRR13
70
dB
Vundesired = 1 Vrms
1
fundesired = 100 Hz … 20 kHz
PSRR
APSRR14
70
dB
input termination
with 220 Ω
1
PSRR
APSRR15
70
dB
measurement rms
according CCIR 651
1
PSRR
APSRR16
70
dB
Semiconductor Group
31
1
02.96
TDA 4390-2X
3.4
AC/DC Characteristics (cont’d)
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
Design Hints
Input resistance
R1
23
27
kΩ
Input resistance
R2
23
27
kΩ
Input resistance
R3
23
27
kΩ
Input resistance
R4
23
27
kΩ
Input resistance
R6
25.5
30
kΩ
Input resistance
R23
25.5
30
kΩ
Input resistance
R25
23
27
kΩ
Input resistance
R26
23
27
kΩ
Input resistance
R27
23
27
kΩ
Input resistance
R28
23
27
kΩ
Output resistance
R5
200
Ω
Output resistance
R13
200
Ω
Output resistance
R14
200
Ω
Output resistance
R15
200
Ω
Output resistance
R16
200
Ω
Output resistance
R24
200
Ω
Vs = 8.5 V
Max. input voltage
V6
220
mVrms k15, 16 < 5 %; 05, XX
any sound
1
Max. input voltage
V23
220
mVrms k13, 14 < 5 %; 05, XX
any sound
1
Bass boost
V15-6
11
12
dB
05,83; fi = 40 Hz
bass step 6, treble lin
1
Bass boost
V16-6
11
12
dB
05,83; fi = 40 Hz
bass step 6, treble lin
1
Bass boost
V13-23
11
12
dB
05,83; fi = 40 Hz
bass step 6, treble lin
1
Bass boost
V14-23
11
12
dB
05,83; fi = 40 Hz
bass step 6, treble lin
1
Semiconductor Group
32
02.96
TDA 4390-2X
3.4
AC/DC Characteristics (cont’d)
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
min. typ.
Unit
Test Condition
max.
Test
Circuit
Vs = 12 V
Max. input voltage
V6
370
mVrms k15, 16 < 1 %; 05, XX
any sound
1
Max. input voltage
V23
370
mVrms k13, 14 < 1 %; 05, XX
any sound
1
B. I2C Bus (SCL, SDA edges)
Rise time
tR
300
ns
Fall time
tF
300
ns
400
kHz
Shift Register Clock Pulse SCL
Frequency
fSCL
0
H-pulse width
tHIGH
0.6
µs
L-pulse width
tLOW
1.3
µs
Set-up time
tSUSTA
0.6
µs
Hold time
tHDSTA
0.6
µs
Set-up time
tSUSTO
0.6
µs
Bus free time
tBUF
1.3
µs
Set-up time
tSUDAT
100
µs
Hold time
tHDDAT
0
Start
Stop
Data Transfer
Semiconductor Group
0.9
33
µs
02.96
TDA 4390-2X
3.4
AC/DC Characteristics (cont’d)
VS = 10 V, TA = 25 °C
Parameter
Symbol
Limit Values
Unit
min. typ.
max.
3
5.5
V
1.5
V
Test Condition
Test
Circuit
Inputs SCL, SDA
Input voltage
VQH
VQL
Hysteresis
VHYS
0.2
V
Spike suppression
tSP
50
ns
Input current
IQH
50
µA
VQL
100
µA
Output SDA (open collector)
Output voltage
VQH
5.4
V
RL = 2.5 kΩ
IQL = 3 mA
VQL
0.4
V
Reset inactive
VL
1.5
V
Reset active
VH
5.5
V
3
Note: The listed characteristics are ensured over the operating range of the integrated
circuit. Typical characteristics specify mean values expected over the production
spread. If not otherwise specified, typical characteristics apply at TA = 25 ° C and
the given supply voltage.
Semiconductor Group
34
02.96
TDA 4390-2X
Figure 11
Test Circuit
Semiconductor Group
35
02.96
TDA 4390-2X
Figure 12
Application Circuit
Semiconductor Group
36
02.96
TDA 4390-2X
Figure 13
Application Circuit
Semiconductor Group
37
02.96
TDA 4390-2X
Figure 14
I2C Bus Timing
Semiconductor Group
38
02.96
TDA 4390-2X
4
Package Outlines
GPS05182
P-DSO-28-3
(Plastic Dual Small Outline Package)
Sorts of Packing
Package outlines for tubes, trays etc. are contained in our
Data Book “Package Information”.
SMD = Surface Mounted Device
Semiconductor Group
39
Dimensions in mm
02.96