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TDA8595JPHN/a13avaiI虏C-bus controlled 4 x 45 W power amplifier
TDA8595JNXPN/a200avaiI虏C-bus controlled 4 x 45 W power amplifier
TDA8595SDPHILIPS ?N/a7avaiI虏C-bus controlled 4 x 45 W power amplifier
TDA8595THNXPN/a18avaiI虏C-bus controlled 4 x 45 W power amplifier


TDA8595J ,I虏C-bus controlled 4 x 45 W power amplifier TDA85952I C-bus controlled 4  45 W power amplifierRev. 5 — 11 June 2013 Product data sheet1.
TDA8595J ,I虏C-bus controlled 4 x 45 W power amplifierBlock diagram ADSEL SDA SCL V VP1 P21 (28) 26 (26) 23 (22) 21 (20, 21) 7 (34, 35)5 (33)DIAG2 (29) 2 ..
TDA8595SD ,I虏C-bus controlled 4 x 45 W power amplifierFeatures and benefits2.1 General2 2 Operates in legacy mode (non I C-bus) and I C-bus mode (3.3 V ..
TDA8595TH ,I虏C-bus controlled 4 x 45 W power amplifierGeneral descriptionThe TDA8595 is a complementary quad Bridge Tied Load (BTL) audio power amplifier ..
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TDA8595J-TDA8595SD-TDA8595TH
I虏C-bus controlled 4 x 45 W power amplifier
1. General description
The TDA8595 is a complementary quad Bridge Tied Load (BTL) audio power amplifier
made in BCDMOS technology. It contains four independent amplifiers in BTL
configuration. Through the I2 C-bus, diagnosis of temperature warning and clipping level is
fully programmable and the information available via two diagnostic pins is selectable.
The status of each amplifier (output offset, load or no load, short-circuit or speaker
incorrectly connected) can be read separately.
2. Features and benefits
2.1 General
Operates in legacy mode (non I2 C-bus) and I2 C-bus mode (3.3 V and 5 V compliant) Three hardware-programmable I2 C-bus addresses Drive 4  or 2  loads Speaker fault detection Independent short-circuit protection per channel Loss of ground and open VP safe (with 150 m series impedance and a supply
decoupling capacitor of 2200 F maximum) All outputs short-circuit proof to ground, supply voltage and across the load All pins short-circuit proof to ground Temperature-controlled gain reduction to prevent audio holes at high junction
temperatures Low battery voltage detection Offset detection This part has been qualified in accordance with AEC-Q100
2.2I2 C-bus mode
DC load detection: open-circuit, short-circuit and load present AC load (tweeter) detection During start-up, can detect which load is connected so the appropriate gain can be
selected without audio pop Independently selectable soft mute of front channels (channel 1 and channel 3) and
rear channels (channel 2 and channel 4) Programmable gain (26 dB and 16 dB) of front channels and rear channels Fully programmable diagnostic levels can be set: Programmable clip detection: 2 %, 5 % or 10% Programmable thermal pre-warning
TDA85952 C-bus controlled 4  45 W power amplifier
Rev. 5 — 11 June 2013 Product data sheet
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier Selectable information on the DIAG and STB pins: The STB pin can be programmed/multiplexed with second clip detection Clip information of each channel can be directed separately to the DIAG pin or the
STB pin Independent enabling of thermal, clip or load fault detection (short across or to VP
or to ground) on DIAG pin
3. Quick reference data

4. Ordering information

Table 1. Quick reference data

Refer to test circuit (see Figure 30) at VP =VP1 =VP2 =14.4V; RL =4 ; f=1 kHz; RS =0;
normal mode; unless otherwise specified. Tested at Tamb =25 C; guaranteed for Tamb = 40 C to
+105 C. supply voltage RL =4  814.4 18 V quiescent current no load - 270 400 mA output power VP= 14.4V =4 ; THD= 0.5% 18 20 - W =4 ; THD=10% 2325- W =4 ; maximum
power; Vi =2V(RMS)
square wave 40 - W =2 ; maximum
power; Vi =2V(RMS)
square wave 64 - W
THD total harmonic
distortion =4 ; f=1 kHz; =1Wto12W 0.01 0.1 %
Vn(o) noise output
voltage
filter 20 Hz to 22 kHz; =1k
normal mode - 45 65 V
line driver mode - 22 29 V
Table 2. Ordering information

TDA8595J DBS27P plastic DIL-bent-SIL (special bent) power package; leads (lead length 6.8 mm)
SOT827-1
TDA8595TH HSOP36 plastic, heatsink small outline package; 36 leads;
low stand-off height
SOT851-2
TDA8595SD RDBS27P plastic rectangular-DIL-bent-SIL (reverse bent) power
package; 27 leads (row spacing 2.54 mm)
SOT878-1
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
5. Block diagram

NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
6. Pinning information
6.1 Pinning

NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
6.2 Pin description

Table 3. Pin description

ADSEL 1 28 I2 C-bus address select
STB 2 29 standby (I2 C-bus mode) or mode pin (legacy
mode); programmable second clip indicator
PGND2 3 31 power ground channel 2
OUT2 4 32 negative channel 2 output
DIAG 5 33 diagnostic/clip detection output
OUT2+ 6 30 positive channel 2 output
VP2 7 34 and 35 supply voltage 2
n.c. - 1 not connected
OUT1 8 2 negative channel 1 output
PGND1 9 3 power ground channel 1
OUT1+ 10 4 positive channel 1 output
SVR 11 5 half supply filter capacitor
IN1 12 6 channel 1 input
IN2 13 7 channel 2 input
n.c. - 8 not connected
SGND 14 9 signal ground
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
[1] To keep the output pins on the front side, special reverse bending is applied.
7. Functional description

The TDA8595 is a complementary quad BTL audio power amplifier made in BCDMOS
technology. It contains four independent amplifiers in BTL configuration (see Figure 1).
Through the I2 C-bus, the diagnostic functions of temperature level and clip level are fully
programmable and the information to be shown on the two diagnostic pins can be
selected. The status of each amplifier (output offset, load or no load, short-circuit or
speaker incorrectly connected) can be read separately. The TDA8595 is protected against
overvoltage, short-circuit, over-temperature, open ground and open VP connections.
Three different I2 C-bus addresses are selected with an external resistor connected to the
ADSEL pin. If the ADSEL pin is short-circuit to ground, the TDA8595 operates in legacy
mode. In this mode, no I2 C-bus is needed and the function of the STB pin will change from
two level (Standby mode and On mode) to a three level pin (Standby mode, On mode and
mute).
n.c. - 10 not connected
IN4 15 11 channel 4 input
IN3 16 12 channel 3 input
ACGND 17 13 AC ground input
OUT3+ 18 14 positive channel 3 output
n.c. - 15 not connected
PGND3 19 16 power ground channel 3
OUT3 20 17 negative channel 3 output
n.c. - 18 and 19 not connected
VP1 21 20 and 21 supply voltage 1
OUT4+ 22 25 positive channel 4 output
SCL 2322I2 C-bus clock input
OUT4 24 23 negative channel 4 output
PGND4 25 24 power ground channel 4
SDA 2626I2 C-bus data input/output
n.c. - 27 not connected
TAB 27 36 heatsink connection; must be connected to
ground
Table 3. Pin description …continued
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
7.1 Input stage

The input stage is a high-impedance pseudo-differential input stage. The negative inputs
of the four channels are combined on the ACGND pin. For the best performance on
supply voltage ripple rejection and pop noise, the capacitor connected to the ACGND pin
must be four times the value of the input capacitor (or as close to the value as possible).
7.2 Output stage

The output stage of each amplifier channel consists of two PMOS power transistors and
two NMOS transistors in BTL configuration. The process used is the BCDMOS process
with an isolated substrate, SOI process, which has almost no parasitic components and
therefore prevents latch-up.
7.3 Distortion (clip-) detection

If the output of the amplifier starts clipping to the supply voltage or to ground, the output
will become distorted. If the distortion per channel exceeds a selectable threshold (2 %, % or 10 %), one of the two diagnostic pins (DIAG pin or STB pin) will be activated. To be
able to detect if, for instance, the front channels (channel 1 and channel 3) or rear
channels (channel 2 and channel 4) are clipping, the clip information can be directed per
channel to the DIAG pin or the STB pin. It is possible to have only the clip information on
the diagnostic pins by disabling the temperature and load information on the diagnostic
pin. In this mode the temperature and load protection are still functional but can only be
read via the I2 C-bus.
7.4 Output protection and short-circuit operation

When a short-circuit to ground, VP or across the load occurs on one or more outputs of an
amplifier, only the amplifier with the short-circuit is switched off. The channel that has a
short-circuit and the type of short-circuit can be read-back via the I2 C-bus. If the
diagnostic pin is enabled for load fault information (IB2[D4]= 0) the DIAG pin will be
pulled LOW. After 16 ms the amplifier will be switched on again and, if the short-circuit
conditions still occur, the amplifier will be switched off.
The 16 ms cycle will reduce the dissipation. T o prevent audible distortion, the amplifier
channel with the short-circuit can be disabled via the I2 C-bus.
7.5 SOAR protection

The output transistors are protected by Safe Operating ARea (SOAR) protection. The
TDA8595 has a two-stage SOAR protection: If the differential output voltage across the load is less than 1 V, and the current
through the load is more than 4 A, the amplifier channel will be switched off during ms. To prevent incorrect switch-off with an inductive load or very high input signals,
the condition (Vo<1 V and IL>4 A) must exist for more than 300 s. If the differential output voltage across the load is more than 1 V, and the current
through the load is more than 8 A, the amplifier channel will be switched off during ms.
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
7.6 Speaker protection

To prevent damage of the speaker when one side of the speaker is connected to ground,
a missing current protection is implemented. When in one channel the current in the high
side power is not equal to the current in the low side power, a fault condition is assumed
and the channel will be switched off. The speaker protection will be activated under the
following conditions: Vo< 1.75 V and Imissing(det)>1 A during 80 s Vo> 1.75 V and Imissing(det)>3 A during 80 s
7.7 Standby and mute operation

The function of the STB pin is different in legacy mode and I2 C-bus mode.
7.7.1I2 C-bus mode

When the STB pin is LOW, the total quiescent current is low, and the I2 C-bus lines will not
be loaded.
When the STB pin is switched HIGH the TDA8595 is put in operating condition and will
perform a power-on reset, which results in a LOW-level DIAG pin. The TDA8595 will start
up when instruction bit IB1[D0] is set. Bit D0 will also reset the ‘power-on reset occurred’
bit (DB2[D7]) and releases the DIAG pin.
The soft mute and soft mute can be activated via the I2 C-bus. The soft mute can be
activated independently for the front channels (channel 1 and channel 3) and rear
channels (channel 2 and channel 4), and mutes the audio in 20 ms. The fast mute
activates the mute for all channels at the same time and mutes the audio in 0.1 ms.
Releasing the mute after a fast mute will be by a soft un-mute of approximately 20 ms.
When the STB pin is switched to Standby mode and the amplifier has started, first the fast
mute will be activated and then the amplifier will shut-down. For instance, during an
engine start, it is possible to fully mute the amplifiers within 100 s by switching the
STB pin to zero.
7.7.2 Legacy mode (pin ADSEL connected to ground)

The function of the STB pin will change from standby/operating to standby/mute/operating
and the amplifier will start directly when the STB is put into mute or operating. Mute
operating is controlled via an internal timer (20 ms) to minimize mute-on pops. When the
STB pin is switched directly from operating to standby, first the fast mute will be activated
(switching to mute within 100 s) and then the amplifier will shut-down.
7.8 Start-up and shut-down sequence

To prevent the amplifier producing switch-on or switch-off pop noise, the capacitor on the
SVR pin is used for smooth start-up and shut-down. Increasing the value of the SVR
capacitor will mean a longer start-up and shut-down time. The amplifier output voltage is
charged to half the supply voltage minus 1.4 V in mute condition, independent of the 2 C-bus mute settings in I2 C-bus mode or pin STB voltage in legacy mode. The last 1.4 V,
where the output will reach half the supply voltage, is used to release the mute if the 2 C-bus bits (IB2[D2:D0]= 000) were set to mute-off (VSTB> 6.5 V in legacy mode), or will
stay in mute when the bits were set to mute (2.6V< VSTB< 4.5 V in legacy mode).
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
When the amplifier is switched off by pulling the STB pin LOW, the amplifier is first muted
(fast mute) and then the capacitor on the SVR pin is discharged. With an SVR capacitor of F the standby current is reached 1 second after the STB pin is switched to zero (see
Figure 4, Figure 5, Figure 6 and Figure 7).
The start-up and shut-down pop can be further decreased by activating the low pop mode.
When the low pop mode is enabled (IB2[D3]= 0), the output voltage rise from ground
level during start-up will be slower (see Figure 6). This will decrease the pop even more
but will increase the start-up time.
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
7.9 Power-on reset and supply voltage spikes

If in I2 C-bus mode the supply voltage drops below 5 V (see Figure 10) the content of the 2 C-bus latches cannot be guaranteed and the power-on reset will be activated. All latches
are reset, the amplifier is switched off and the DIAG pin is pulled LOW to indicate that a
power-on reset has occurred (see bit DB2[D7]). When bit IB1[D0] is set, the power-on flag
is reset, the DIAG pin will be released and the amplifier will start-up.
In legacy mode a supply voltage drop below 5 V will switch off the amplifier and the DIAG
pin will not be pulled LOW.
7.10 Engine start and low voltage operation

The DC output voltage of the amplifier (VO) is set to half of the supply voltage and is
related to the voltage on the SVR pin (see Figure 8; VO =VSVR 1.4 V). A capacitor is
connected on the SVR pin to suppress the ripple on the power supply.
If the supply voltage drops, for instance, during an engine start, the output follows slowly
due to the SVR capacitor. The headroom voltage is the voltage needed for good operation
of the amplifier and is defined as Vhr = VP  VO (see Figure 8). If the headroom voltage
becomes lower than the headroom protection threshold of 1.6 V, the headroom protection
is activated to prevent pop noise at the output. This protection first activates the hard mute
and then discharges the capacitors on the SVR and ACGND pins to generate more
headroom for the amplifier (see Figure 9.)
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
When the SVR capacitor has discharged, the amplifier starts up again if the VP voltage is
above the low VP mute threshold, typically 7.5 V. Below the low VP mute threshold, the
outputs of the amplifier remain low. In I2 C-bus mode, a supply voltage drop below VP(reset),
typically 5 V, results in setting bit DB2[D7]. The amplifiers will not start-up but wait for an 2 C-bus command to start-up.
The amplifier prevents audio pops during engine start. To prevent pops on the output
caused by the application during an engine start (for instance tuner regulator out of
regulation), the STB pin can be made zero when an engine start is detected. The STB pin
activates the fast mute and disturbances at the amplifier inputs are suppressed.
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
7.11 Overvoltage and load dump protection

When the battery voltage VP is higher than 22 V, the amplifier stage will be switched to
high-impedance. The TDA8595 is protected against load dump voltage with supply
voltage up to 50V.
7.12 Thermal pre-warning and thermal protection

If the average junction temperature reaches a level that is adjustable via the I2 C-bus,
selected with bit IB3[D4], the pre-warning will be activated resulting in a LOW-level on pin
DIAG (if selected) and can be read out via the I2 C-bus. The default setting for the thermal
pre-warning is IB3[D4]= 0, setting the warning level at 145 C. In legacy mode the
thermal pre-warning is set at 145 C.
If the temperature increases further, the temperature controlled gain reduction will be
activated for all four channels to reduce the output power (see Figure 11). If this does not
reduce the average junction temperature, all four channels will be switched off at the
absolute maximum temperature Toff, typical 175 C.
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
7.13 Diagnostics

Diagnostic information can be read via the I2 C-bus, and can also be available on the
DIAG pin or on the STB pin. The DIAG pin has both fixed information (power-on reset
occurred, low battery and high battery) and, via the I2 C-bus, selectable information
(temperature, load fault and clip). This information will be seen at the DIAG pin as a logic
OR. In case of a failure, the DIAG pin remains LOW and the microprocessor can read the
failure information via the I2 C-bus (the DIAG pin can be used as microprocessor interrupt
to minimize I2 C-bus traffic). When the failure is removed, the DIAG pin will be released.
To have full control over the clipping information, the STB pin can be programmed as a
second clip detection pin. The clip detection level can be selected for all channels at once.
It is possible to select whether the clip information is available on the DIAG pin or on the
STB pin, for each channel separately. It is, for instance, possible to distinguish between
clipping of the front and the rear channels.
Diagnostic information selection possibilities are shown in Table4.
Table 4. Diagnostic information availability

Power-On Reset (POR) after power-on reset, DIAG pin will remain
LOW until amplifier has
been started no
Low battery yes no yes
Clip detection can be enabled per channel can be enabled per channel yes, fixed level for all channels on 2%
Temperature pre-
warning
can be enabled no yes, pre-warning level
is 145 C
Short can be enabled no yes
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
7.14 Offset detection

The offset detection can be performed with no input signal (for instance when the DSP is
in mute after a start-up) or with an input signal. In I2 C-bus mode, if an I2 C-bus read of the
output offset is performed, the I2 C-bus latches DBx[D2] will be set. When the amplifier
BTL output voltage is within a window with threshold of 1.75 V typical, the latches DBx[D2]
are reset and setting is disabled. If, for instance, after one second an I2 C-bus read is
performed again and the offset bits are still set, the output has not crossed the offset
threshold during the last second (see Figure 12). This can mean the applied frequency is
below 1 Hz (one second I2 C-bus read interval) or an output offset of more than 1.75 V is
present.
7.15 DC load detection

When the DC load detection is enabled with bit IB1[D1], an offset is slowly applied at the
output of the amplifiers during the start-up cycle and the load currents are measured.
Different load levels will be detected to differentiate between normal load, line driver load
or open load (see Figure 13).
Speaker protection
(missing current)
can be enabled no yes
Offset detection no no no
Load detection no no no
Overvoltage yes no yes
Table 4. Diagnostic information availability …continued
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
If the amplifier is used as line driver and the external booster has an input impedance of
more than 100  and less than 800  (DC-coupled), the DC load bits will contain
DBx[D5:D4]= 10, independent of the gain setting (see Table5).
By reading the I2 C-bus bits the microprocessor can determine, after the start-up of the
amplifier, whether a speaker or an external booster is connected.
Depending on these bits, the amplifier gain can be selected, 26 dB for normal mode or dB for line driver mode. If the gain select is performed when the amplifier is muted, the
gain select will be pop free.
The DC load bits are combined with the AC load bits and are only valid when the AC load
detection is disabled. When the AC load detection is enabled (IB1[D2] = 1), the bits
DBx[D4] will show the content of the AC load detection. When the AC load detection is
disabled again, bit DBx[D4] will show the content of the DC load measurement, which was
stored during the AC load measurement. The AC load detection can only be performed
after the amplifier has completed its start-up cycle and will not conflict with the DC load
detection.
7.16 AC load detection

The AC load detection, enabled with IB1[D2]= 1, is used to detect if AC coupled
speakers, for example tweeters, are connected correctly during assembly. The detection
is audible because a sine wave of a certain frequency (e.g. 19 kHz) needs to be applied to
the inputs of the amplifier. The output voltage over the load impedance will generate an
amplifier current. If the amplifier peak current triggers a 460 mA (peak) threshold detector
three times, the AC load detection bit will be set. A three ‘threshold cross’ counter is used
to prevent false AC load detection when switching the input signal on or off.
An AC coupled speaker will reduce the impedance at the output of the amplifier in a
certain frequency band. The presence of an AC coupled speaker can be determined using
460 mA (peak) and 230 mA (peak) threshold current detection. For instance, at an output
voltage of 2 V (peak) the total impedance must be less than 4  to detect the AC coupled
load, or more than 8  to guarantee only a DC connection is detected.
Table 5. DC load detection
0 normal load 0 line driver load 1 open load 1 not valid
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
The interpretation of line driver and normal mode DC load bit setting for AC load detection
is shown in Table6.
When bit IB1[D2]= 1, the AC load detection is enabled. The AC load detection can only
be performed after the amplifier has completed its start-up cycle and will not conflict with
the DC load detection.
7.17I2 C-bus diagnostic readout

The diagnostic information of the amplifier can be read via the I2 C-bus. The I2 C-bus bits
are set on a failure and will be reset with the I2 C-bus read command. Even when the
failure is removed, the microprocessor will know what was wrong by reading the I2 C-bus.
The consequence of this procedure is that old information is read during the I2 C-bus
readout. Most actual information will be gathered after two successive read commands.
The DIAG pin will give actual diagnostic information (when selected). When a failure is
removed, the DIAG pin will be released instantly, independently of the I2 C-bus latches.
Table 6. AC load detection
no AC load detected AC load detected
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
8. I2 C-bus specification

Table 7. TDA8595 hardware address select

Open 11011000= write to TDA8595= read from TDA8595
51 k to ground 11011010= write to TDA8595= read from TDA8595
10 k to ground 11011110= write to TDA8595= read from TDA8595
Ground no I2 C-bus; legacy mode
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
8.1 Instruction bytes
2 C-bus mode: If R/W bit = 0, the TDA8595 expects three instruction bytes; IB1, IB2 and IB3 After a power-on reset, all instruction bits are set to zero
Legacy mode: All bits equal to zero define the setting, with the exception of bit IB1[D0] which is
ignored (see Table8).
Table 8. Instruction byte IB1
don’t care channel 3 clip information on DIAG or STB pin= clip information on DIAG pin= clip information on STB pin channel 1 clip information on DIAG or STB pin= clip information on DIAG pin= clip information on STB pin
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier channel 4 clip information on DIAG or STB pin= clip information on DIAG pin= clip information on STB pin channel 2 clip information on DIAG or STB pin= clip information on DIAG pin= clip information on STB pin AC load detection enable:= AC load detection disabled= AC load detection enabled; bit DBx[D4] not available for DC load detection DC load detection enable:= DC load detection disabled= DC load detection enabled amplifier start enable= amplifier not enabled, DIAG pin will remain LOW= amplifier will start up, power-on occurred (DB2[D7] will be reset) and DIAG
pin will be released
Table 9. Instruction byte IB2

D7 and D6 clip detection level= clip detection level 2%= clip detection level 5%= clip detection level 10%= clip detection level disabled temperature information on DIAG pin= temperature information on DIAG pin= no temperature information on DIAG pin load fault information (shorts, missing current) on DIAG pin= fault information on DIAG pin= no fault information on DIAG pin low pop (slow start) enable= low pop enabled= low pop disabled soft mute channel 1 and channel 3 (mute delay 20 ms)
0=no mute
1=mute soft mute channel 2 and channel 4 (mute delay 20 ms)
0=no mute
1=mute
Table 8. Instruction byte IB1 …continued
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
8.2 Data bytes
2 C-bus mode: If R/W= 1, the TDA8595 sends four data bytes to the microprocessor: DB1, DB2,
DB3 and DB4 All bits except DB1[D7] and DB3[D7] are latched All bits except DBx[D4] and DBx[D5] are reset after a read operation. Bit DBx[D2] is
set after a read operation, see Section 7.14 For explanation of AC and DC load detection bits, see Section 7.15 and Section 7.16 fast mute all amplifier channels (mute delay 100 s)
0=no mute
1=mute
Table 10. Instruction byte IB3
don’t care amplifier channel 1 and channel 3 gain select
0=26 dB
1=16 dB amplifier channel 2 and channel 4 gain select
0=26 dB
1=16 dB temperature pre-warning level= warning level on 145 C= warning level on 122 C disable channel 3= channel 3 enabled= channel 3 disabled disable channel 1= channel 1 enabled= channel 1 disabled disable channel 4= channel 4 enabled= channel 4 disabled disable channel 2= channel 2 enabled= channel 2 disabled
Table 9. Instruction byte IB2 …continued
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
Table 11. Data byte DB1
temperature pre-warning= no warning= junction temperature too high speaker fault channel 2 (missing current)= no missing current= missing current
D5 and D4 channel 2 DC load or AC load detection
if bit IB1[D2]= 1, AC load detection is enabled, bit D5 is don’t care, bit D4 has the
following meaning
0=no AC load= AC load detected
if bit IB1[D2]= 0, AC load detection is disabled, bits D5 and D4 are available for
DC load detection= normal load= not valid= line driver load= open load channel 2 shorted load= not shorted load= shorted load channel 2 output offset= no output offset= output offset channel 2 short to VP= no short to VP= short to VP channel 2 short to ground= no short to ground= short to ground
Table 12. Data byte DB2
power-on reset and amplifier status= amplifier on= power-on reset has occurred; amplifier off speaker fault channel 4 (missing current)= no missing current= missing current
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
D5 and D4 channel 4 DC load or AC load detection
if bit IB1[D2]= 1, AC load detection is enabled, bit D5 is don’t care, bit D4 has the
following meaning
0=no AC load= AC load detected
if bit IB1[D2]= 0, AC load detection is disabled, bits D5 and D4 are available for
DC load detection= normal load= not valid= line driver load= open load channel 4 shorted load= not shorted load= shorted load channel 4 output offset= no output offset= output offset channel 4 short to VP= no short to VP= short to VP channel 4 short to ground= no short to ground= short to ground
Table 13. Data byte DB3
maximum temperature protection= no protection= maximum temperature protection speaker fault channel 1 (missing current)= no missing current= missing current
Table 12. Data byte DB2 …continued
NXP Semiconductors TDA85952 C-bus controlled 4  45 W power amplifier
D5 and D4 channel 1 DC load or AC load detection
if bit IB1[D2]= 1, AC load detection is enabled, bit D5 is don’t care, bit D4 has the
following meaning
0=no AC load= AC load detected
if bit IB1[D2]= 0, AC load detection is disabled, bits D5 and D4 are available for
DC load detection= normal load= not valid= line driver load= open load channel 1 shorted load= not shorted load= shorted load channel 1 output offset= no output offset= output offset channel 1 short to VP= no short to VP= short to VP channel 1 short to ground= no short to ground= short to ground
Table 14. Data byte DB4
reserved speaker fault channel 3 (missing current)= no missing current= missing current
D5 and D4 channel 3 DC load or AC load detection
if bit IB1[D2]= 1, AC load detection is enabled, bit D5 is don’t care, bit D4 has the
following meaning
0=no AC load= AC load detected
if bit IB1[D2]= 0, AC load detection is disabled, bits D5 and D4 are available for
DC load detection= normal load= not valid= line driver load= open load
Table 13. Data byte DB3 …continued
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