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TDA8920B_2

© Koninklijke Philips Electronics N.V. 2005. All rights reserved.

Product data sheet

Rev. 02 — 07 November 2005

19 of 34

Philips Semiconductors

TDA8920B

2

×

100 W class-D power amplifier

A typical value for the capacitor on the PROT pin is 220 pF. After a fixed time of
100 ms the amplifier is switched on again. If the requested output current is still too
high the amplifier will switch-off again. Thus the amplifier will try to switch to the
Operating mode every 100 ms. The average dissipation will be low in this situation
because of this low duty cycle. If the overcurrent condition is removed the amplifier will
remain in Operating mode once restarted.

In this way the TDA8920B amplifier is fully robust against short circuit conditions while at
the same time so-called audio holes as a result of loudspeaker impedance drops are
eliminated.

13.7 Pumping effects

In a typical stereo half-bridge SE application the TDA8920B class-D amplifier is supplied
by a symmetrical voltage (e.g V

DD

= +27 V and V

SS

=

−

27 V). When the amplifier is used

in a SE configuration, a so-called ‘pumping effect’ can occur. During one switching
interval, energy is taken from one supply (e.g. V

DD

), while a part of that energy is

delivered back to the other supply line (e.g. V

SS

) and visa versa. When the voltage supply

source cannot sink energy, the voltage across the output capacitors of that voltage supply
source will increase: the supply voltage is pumped to higher levels. The voltage increase
caused by the pumping effect depends on:

•

Speaker impedance

•

Supply voltage

•

Audio signal frequency

•

Value of decoupling capacitors on supply lines

•

Source and sink currents of other channels

The pumping effect should not cause a malfunction of either the audio amplifier and/or the
voltage supply source. For instance, this malfunction can be caused by triggering of the
undervoltage or overvoltage protection or unbalance protection of the amplifier.

Best remedy for pumping effects is to use the TDA8920B in a mono full-bridge application
or in case of stereo half-bridge application adapt the power supply (e.g. increase supply
decoupling capacitors).

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Summary of Contents for TDA8920B

Page 1: ...art up no pop noise due to DC offset High efficiency Operating supply voltage from 12 5 V to 30 V Low quiescent current Usable as a stereo Single Ended SE amplifier or as a mono amplifier in Bridge Tied Load BTL Fixed gain of 30 dB in Single Ended SE and 36 dB in Bridge Tied Load BTL High output power High supply voltage ripple rejection Internal switching frequency can be overruled by an external...

Page 2: ... V Iq tot total quiescent supply current no load no filter no RC snubber network connected 50 65 mA Stereo single ended configuration Po output power RL 3 Ω THD 10 VP 27 V 110 W RL 4 Ω THD 10 VP 27 V 86 W Mono bridge tied load configuration Po output power RL 6 Ω THD 10 VP 27 V 210 W Table 2 Ordering information Type number Package Name Description Version TDA8920BTH HSOP24 plastic heatsink small ...

Page 3: ...BTH TDA8920BJ BOOT1 DRIVER LOW RELEASE1 SWITCH1 ENABLE1 CONTROL AND HANDSHAKE PWM MODULATOR MANAGER OSCILLATOR TEMPERATURE SENSOR CURRENT PROTECTION VOLTAGE PROTECTION STABI MODE INPUT STAGE mute 9 3 8 2 IN1M IN1P 22 15 21 14 20 13 17 11 16 10 15 9 VSSP2 VSSP1 DRIVER HIGH DRIVER LOW RELEASE2 SWITCH2 ENABLE2 CONTROL AND HANDSHAKE PWM MODULATOR 11 5 SGND1 7 1 OSC 2 19 SGND2 6 23 MODE INPUT STAGE mut...

Page 4: ...DA1 SGND1 VSSA1 PROT VDDP1 BOOT1 OUT1 VSSP1 STABI VSSP2 OUT2 BOOT2 VDDP2 VSSD VSSA2 SGND2 VDDA2 IN2M IN2P MODE 001aab218 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 Table 3 Pin description Symbol Pin Description TDA8920BTH TDA8920BJ VSSA2 1 18 negative analog supply voltage for channel 2 SGND2 2 19 signal ground for channel 2 VDDA2 3 20 positive analog supply voltage for channel 2 ...

Page 5: ...ector are built in The two audio channels of the TDA8920B contain two PWM modulators two analog feedback loops and two differential input stages It also contains circuits common to both channels such as the oscillator all reference sources the mode functionality and a digital timing manager The TDA8920B contains two independent amplifier channels with high output power high efficiency low distorti...

Page 6: ...pin in Mute mode the bias current setting of the VI converters is zero VI converters disabled and in Operating mode the bias current is at maximum The time constant required to apply the DC output offset voltage gradually between Mute and Operating mode levels can be generated via an RC network on the MODE pin An example of a switching circuit for driving pin MODE is illustrated in Figure 4 If the...

Page 7: ...is at least 350 ms for the transition between mute and operating Lower diagram When switching directly from standby to operating there is a first delay of 100 ms before the outputs starts switching The audio signal is available after a second delay of 50 ms For pop noise free start up it is recommended that the time constant applied to the MODE pin is at least 500 ms for the transition between sta...

Page 8: ...UBP The reaction of the device to the different fault conditions differs per protection 8 3 1 OverTemperature Protection OTP If the junction temperature Tj 150 C then the power stage will shut down immediately The power stage will start switching again if the temperature drops to approximately 130 C thus there is a hysteresis of approximately 20 C 8 3 2 OverCurrent Protection OCP When the loudspea...

Page 9: ...e start up procedure is interrupted and the system waits for open circuit outputs Because the test is done before enabling the power stages no large currents will flow in the event of a short circuit This system is called Window Protection WP and protects for short circuits at both sides of the output filter to both supply lines When there is a short circuit from the power PWM output of the power ...

Page 10: ...ed if the voltage difference between them exceeds a certain level This level depends on the sum of both supply voltages An expression for the unbalanced threshold level is as follows Vth ub 0 15 VDDA VSSA When the supply voltage difference drops below the threshold level the system is restarted again after 100 ms Example With a symmetrical supply of 30 V the protection circuit will be triggered if...

Page 11: ...input configuration for a mono BTL application is illustrated in Figure 6 In the stereo single ended configuration it is also recommended to connect the two differential inputs in anti phase This has advantages for the current handling of the power supply at low signal frequencies 9 Limiting values 1 Overvoltage protection might be activated 2 Current limiting concept See also Section 13 6 Fig 6 I...

Page 12: ...in Typ Max Unit Supply VP supply voltage 1 12 5 27 30 V Iq tot total quiescent supply current no load no filter no RC snubber network connected 50 65 mA Istb standby supply current 150 500 µA Mode select input pin MODE VI input voltage 2 0 6 V II input current VI 5 5 V 100 300 µA Vstb input voltage for Standby mode 2 3 0 0 8 V Vmute input voltage for Mute mode 2 3 2 2 3 0 V Von input voltage for O...

Page 13: ...itching characteristics Temperature protection Tprot temperature protection activation 150 C Thys hysteresis of temperature protection 20 C Table 7 Static characteristics continued VP 27 V fosc 317 kHz Tamb 25 C unless otherwise specified Symbol Parameter Conditions Min Typ Max Unit Fig 7 Behavior of mode selection pin MODE STBY MUTE ON 5 5 coa021 VMODE V 4 2 3 0 2 2 0 8 0 VO V Voo mute Voo on slo...

Page 14: ... of Rs 7 Po 1 W Rs 0 Ω fi 1 kHz 8 Vi Vi max 1 V RMS fi 1 kHz Table 9 Stereo and dual SE application characteristics VP 27 V RL 4 Ω fi 1 kHz fosc 317 kHz RsL 0 1 Ω 1 Tamb 25 C unless otherwise specified Symbol Parameter Conditions Min Typ Max Unit Po output power RL 3 Ω VP 27 V 2 THD 0 5 87 W THD 10 110 W RL 4 Ω VP 27 V 2 THD 0 5 69 W THD 10 86 W RL 6 Ω VP 27 V 2 THD 0 5 48 W THD 10 60 W RL 8 Ω VP ...

Page 15: ...When using the power amplifier in a mono BTL application the inputs of both channels must be connected in parallel and the phase of one of the inputs must be inverted see Figure 6 In principle the loudspeaker can be connected between the outputs of the two single ended demodulation filters Table 10 Mono BTL application characteristics VP 27 V RL 8 Ω fi 1 kHz fosc 317 kHz RsL 0 1 Ω 1 Tamb 25 C unle...

Page 16: ...ient to guarantee pop noise free start up see also Figure 4 5 and 7 13 3 Output power estimation The achievable output powers in several applications SE and BTL can be estimated using the following expressions SE 1 Maximum current internally limited to 8 A 2 BTL 3 Maximum current internally limited to 8 A 4 Variables RL load impedance fosc oscillator frequency tmin minimum pulse width typically 15...

Page 17: ...llator ROSC connected between pin OSC and VSSA External oscillator connect the oscillator signal between pins OSC and SGND ROSC and COSC removed 13 5 Heatsink requirements In some applications it may be necessary to connect an external heatsink to the TDA8920B Limiting factor is the 150 C maximum junction temperature Tj max which cannot be exceeded The expression below shows the relationship betwe...

Page 18: ...like dynamic impedance drops of the loudspeakers used The impedance threshold Zth depends on the supply voltage used Depending on the impedance of the short circuit the amplifier will react as follows 1 Short circuit impedance Zth the maximum output current of the amplifier is regulated to 8 A but the amplifier will not shut down its PWM outputs Effectively this results in a clipping output signal...

Page 19: ...lied by a symmetrical voltage e g VDD 27 V and VSS 27 V When the amplifier is used in a SE configuration a so called pumping effect can occur During one switching interval energy is taken from one supply e g VDD while a part of that energy is delivered back to the other supply line e g VSS and visa versa When the voltage supply source cannot sink energy the voltage across the output capacitors of ...

Page 20: ...920BTH The internal heat spreader of the TDA8920BTH is internally connected to VSS The external heatsink must be connected to the ground plane Use a thermal conductive electrically non conductive Sil Pad between the backside of the TDA8920BTH and a small external heatsink The differential inputs enable the best system level audio performance with unbalanced signal sources In case of hum due to flo...

Page 21: ...FB GND C28 220 pF R11 470 nF 5 6 kΩ R13 10 Ω R14 22 Ω OUT2M OUT2P LS2 C32 100 nF C9 100 nF C31 FB GND 470 nF 5 6 kΩ C29 100 nF VDDA VSSA 19 24 13 VSSA VSSP V DDA2 V SSA2 PROT n c 20 21 22 VSSP V SSP2 OUT2 BOOT2 23 VDDP V DDP2 V SSD C34 100 nF C35 FB GND FB GND 100 nF VDDA VSSA C12 100 nF C13 V DDA1 V SSA1 100 nF C37 15 nF C27 L4 100 nF C39 100 nF C38 VSSP VDDP 17 V SSP1 14 U1 V DDP1 6 MODE 7 12 10...

Page 22: ... as a function of output power SE configuration with 2 4 Ω load VP 27 V 1 6 Ω BTL configuration 1 f 6 kHz 2 f 1 kHz 3 f 100 Hz VP 27 V 1 8 Ω BTL configuration 1 f 6 kHz 2 f 1 kHz 3 f 100 Hz Fig 12 THD N S as a function of output power BTL configuration with 1 6 Ω load Fig 13 THD N S as a function of output power BTL configuration with 1 8 Ω load Po W 10 2 103 102 10 1 10 1 001aab225 10 1 10 2 10 1...

Page 23: ...nction of frequency SE configuration with 2 4 Ω load VP 27 V 1 6 Ω BTL configuration 1 Pout 1 W 2 Pout 10 W VP 27 V 1 8 Ω BTL configuration 1 Pout 1 W 2 Pout 10 W Fig 16 THD N S as a function of frequency BTL configuration with 1 6 Ω load Fig 17 THD N S as a function of frequency BTL configuration with 1 8 Ω load 001aab229 10 1 10 2 10 1 102 10 3 f Hz 10 105 104 102 103 1 2 THD N S 001aab230 10 1 ...

Page 24: ...y SE configuration with 2 4 Ω load VP 27 V f 1 kHz 1 2 3 Ω SE configuration 2 2 4 Ω SE configuration 3 1 6 Ω BTL configuration 4 1 8 Ω BTL configuration VP 27 V f 1 kHz 1 2 3 Ω SE configuration 2 2 4 Ω SE configuration 3 1 6 Ω BTL configuration 4 1 8 Ω BTL configuration Fig 20 Power dissipation as a function of total output power Fig 21 Efficiency as a function of total output power 001aab233 60 4...

Page 25: ... function of supply voltage THD N 10 Vi 100 mV Rs 5 6 kΩ Ci 330 pF VP 27 V 1 1 8 Ω BTL configuration 2 1 6 Ω BTL configuration 3 2 4 Ω BTL configuration 4 2 3 Ω BTL configuration Vi 100 mV Rs 0 Ω Ci 330 pF VP 27 V 1 1 8 Ω BTL configuration 2 1 6 Ω BTL configuration 3 2 4 Ω BTL configuration 4 2 3 Ω BTL configuration Fig 24 Gain as a function of frequency Rs 5 6 kΩ and Ci 330 pF Fig 25 Gain as a fu...

Page 26: ... Both supply lines rippled 2 One supply line rippled Vi 100 mV f 1 kHz Fig 26 SVRR as a function of frequency Fig 27 Output voltage as a function of mode voltage VP 27 V Rs 5 6 kΩ 20 kHz AES17 filter 1 2 3 Ω SE configuration and 1 6 Ω BTL configuration 2 2 4 Ω SE configuration and 1 8 Ω BTL configuration Fig 28 S N ratio as a function of output power 001aab241 60 40 80 20 0 SVRR dB 100 f Hz 10 105...

Page 27: ... 0 35 DIMENSIONS mm are the original dimensions Notes 1 Limits per individual lead 2 Plastic or metal protrusions of 0 25 mm maximum per side are not included SOT566 3 0 5 10 mm scale HSOP24 plastic heatsink small outline package 24 leads low stand off height SOT566 3 A max detail X A2 3 5 3 2 D2 1 1 0 9 HE 14 5 13 9 Lp 1 1 0 8 Q 1 7 1 5 2 7 2 2 v 0 25 w 0 25 y Z 8 0 θ 0 07 x 0 03 D1 13 0 12 6 E1 ...

Page 28: ...l dimensions Note 1 Plastic or metal protrusions of 0 25 mm maximum per side are not included SOT411 1 98 02 20 02 04 24 0 5 10 mm scale D L L1 L2 E2 E c A4 A5 A2 m L3 E1 Q w M bp 1 d Z e 2 e e 1 23 j DBS23P plastic DIL bent SIL power package 23 leads straight lead length 3 2 mm SOT411 1 v M D x h Eh non concave view B mounting base side B β e1 bp c D 1 E 1 Z 1 d e Dh L L3 m 0 75 0 60 0 55 0 35 30...

Page 29: ...ed up to the seating plane but the temperature of the plastic body must not exceed the specified maximum storage temperature Tstg max If the printed circuit board has been pre heated forced cooling may be necessary immediately after soldering to keep the temperature within the permissible limit 16 2 2 Manual soldering Apply the soldering iron 24 V or less to the lead s of the package either below ...

Page 30: ...itudinal axis is preferred to be parallel to the transport direction of the printed circuit board smaller than 1 27 mm the footprint longitudinal axis must be parallel to the transport direction of the printed circuit board The footprint must incorporate solder thieves at the downstream end For packages with leads on four sides the footprint must be placed at a 45 angle to the transport direction ...

Page 31: ...ate between the printed circuit board and the heatsink On versions with the heatsink on the top side the solder might be deposited on the heatsink surface 7 If wave soldering is considered then the package must be placed at a 45 angle to the solder wave direction The package footprint must incorporate solder thieves downstream and at the side corners 8 Wave soldering is suitable for LQFP QFP and T...

Page 32: ...r 17 Revision history Table 12 Revision history Document ID Release date Data sheet status Change notice Doc number Supersedes TDA8920B_2 20051107 Product data sheet TDA8920B_1 Modifications In Section 9 Limiting values the maximum value for the supply voltage is given for both operating and non operating conditions see Table 5 TDA8920B_1 20041001 Preliminary data sheet 9397 750 13356 ...

Page 33: ... for use in such applications do so at their own risk and agree to fully indemnify Philips Semiconductors for any damages resulting from such application Right to make changes Philips Semiconductors reserves the right to make changes in the products including circuits standard cells and or software described or contained herein in order to improve design and or performance When the product is in f...

Page 34: ...ns 8 8 3 1 OverTemperature Protection OTP 8 8 3 2 OverCurrent Protection OCP 8 8 3 3 Window Protection WP 9 8 3 4 Supply voltage protections 10 8 4 Differential audio inputs 11 9 Limiting values 11 10 Thermal characteristics 12 11 Static characteristics 12 12 Dynamic characteristics 13 12 1 Switching characteristics 13 12 2 Stereo and dual SE application 14 12 3 Mono BTL application 15 13 Applicat...

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