unisonic technologies co., ltd pa3332 preliminary cmos ic www.unisonic.com.tw 1 of 10 copyright ? 2010 unisonic technologies co., ltd qw-r502-488.a 2.6w stereo audio amplifier �? description the utc pa3332 is a stereo audio power amplifier. when the device is idle, it enters shdn mode for some low current consumption applications. the current dissipation is thus reduced below 5 a. mute function is includ ed to mute the output. operating on a 5v power supply, the utc pa3332 is capable of driving a 4.0 ? btl load at a continuous average rms output of 2.0w per channel with a less than 1% thd . there are two input paths, theref ore, two different gain loops can be set in the same pcb. we could choose one of the two gain paths through the logic level of /in in pin. this increases the flexibility of the hardware design. in order to prevent the speakers from burned-out, the utc pa3332 also has a function of maximum output power clamping is designed. �? features * including de-pop circuit * output power at 1% thd+n, vdd=5v 2.0w/ch (typ.) into a 4 ? load 1.3w/ch (typ.) into a 8 ? load * output power at 10% thd+n, vdd=5v 2.6w/ch (typical) into a 4 ? load 1.6w/ch (typical) into a 8 ? load * btl mode (bridge-tied load) * maximum output power clamping circuitry contained * mute and shutdown control available * stereo input mux * halogen free �? ordering information ordering number lead free halogen free package packing pa3332l-n24-t pa3332g-n24-t htssop-24 tube pa3332l-n24-r PA3332G-N24-R htssop-24 tape reel
pa3332 preliminary cmos ic unisonic technologies co., ltd 2 of 10 www.unisonic.com.tw qw-r502-488.a �? pin configuration note: recommend connecting the thermal pad to the gnd for excellent power dissipation. �? pin description pin no. pin name description 1, 12, 13, 24 gnd/hs ground connection for circuitry, di rectly connected to thermal pad. 2, 9, 11 nc embedded test mode pin, please keep it floating. 3 lout+ left channel + output in btl mode 4 lin1 left channel in1 input, selected when in1 /in2 pin is held low. 5 lin2 left channel in2 input, selected when in1 /in2 pin is held high. 6 lbpass connect to voltage divider for left channel internal mid-supply bias. 7 lvdd supply voltage input for left channel and for primary bias circuits. 8 shutdown shutdown mode control signal input, places entire ic in shutdown mode when held high, i dd < 5a. 10 lout- left channel - output in btl mode. 14 mute mode control signal input, hold low for activation, hold high for mute. 15 rout- right channel - output in btl mode 16 in1/in2 mux control input, hold high to select in2 inputs (5,20) , hold low to select in1 inputs (4,21). 17 gnd ground connection for circuitry. 18 rvdd supply voltage input for right channel. 19 rbypass connect to voltage divider for right channel internal mid-supply bias. 20 rin2 right channel in2 input, selected when in1 /in2 pin is held high. 21 rin1 right channel in1 input, selected when in1 /in2 pin is held low. 22 rout+ right channel + output in btl mode 23 vol the output power can be clamped by setting a low bound voltage to this pin. the high bound voltage will be generated internally. the output voltage will be clamped between high/low bound voltages. then the output power is lim-ited. it is weakly pull-low internally, let this pin fl oating or tied to gnd can deactivate this function. thermal pad recommend connecting the thermal pad to the gnd for excellent power dissipation.
pa3332 preliminary cmos ic unisonic technologies co., ltd 3 of 10 www.unisonic.com.tw qw-r502-488.a �? block diagram lin1 lin2 lbypass vol shutdown mute rbypass rin1 right mux bias, mute, shutdown, and mux control left mux lout+ in1/in2 rvdd rout- + - + - 21 20 19 14 8 23 6 5 4 rin2 3 10 lout- 7 lvdd 16 18 15 22 rout+
pa3332 preliminary cmos ic unisonic technologies co., ltd 4 of 10 www.unisonic.com.tw qw-r502-488.a �? absolute maximum rating parameter symbol ratings unit supply voltage v dd 6 v input voltage v in -0.3~v dd +0.3 v operating ambient temperature t a -40 ~ +85 c junction temperature t j 150 c storage temperature t stg -65 ~ +150 c reflow temperature (soldering, 10sec) 260 c t a 25c 2.7 t a 70c 1.7 power dissipation (note 2) t a 85c p d 1.4 w electrostatic discharge human body mode v esd -3000 ~ 3000 (note 3) v notes: 1. absolute maximum ratings are those values beyond which the device could be permanently damaged. absolute maximum ratings are stress ratings only and functional device oper ation is not implied. 2. recommended pcb layout 3. human body model : c = 100pf, r = 1500 ? , 3 positive pulses plus 3 negative pulses
pa3332 preliminary cmos ic unisonic technologies co., ltd 5 of 10 www.unisonic.com.tw qw-r502-488.a �? electrical characteristics parameter symbol test conditions min typ max unit dc electrical characteristics (t a =+25c) v dd =3.3v stereo btl 7 13 supply current in mute mode i dd(mte) v dd = 5v stereo btl 8 16 ma dc differential output voltage v o(diff) v dd = 5v,gain = 2 5 50 mv i dd in shutdown i sd v dd = 5v 2 5 a ac operation characteristics (v dd = 5.0v, t a =+25c, r l = 4 ? , unless otherwise noted) thd = 1%, btl, r l = 4 ? 2.0 thd = 1%, btl, r l = 8 ? 1.3 thd = 10%, btl, r l = 4 ? 2.6 output power (note 1) p out thd = 10%, btl, r l = 8 ? 1.6 w p o = 1.6w, btl, r l = 4 ? 100 p o = 1w, btl, r l = 8 ? 60 total harmonic distortion plus noise thd+n v i = 1v, r l = 10k ? , g = 1 10 m% max output power bandwidth b om g = 1, thd = 1% 20 khz phase margin r l = 4 ? , open load 60 power supply ripple rejection psrr f = 120hz 65 db mute attenuation 90 db channel-to-channel output separation f = 1khz 80 db in1/in2 input separation 80 db input impedance z i 2 m ? signal-to-noise ratio p o = 500mw, btl 90 db output noise voltage v n output noise voltage 55 v(rms) ac operation characteristics (v dd =3.3v, t a =+25c, r l = 4 ? , unless otherwise noted) thd = 1%, btl, r l = 4 ? 0.85 thd = 1%, btl, r l = 8 ? 0.55 thd = 10%, btl, r l = 4 ? 1.1 output power (note 1) p out thd = 10%, btl, r l = 8 ? 0.7 w p o = 0.7w, btl, r l = 4 ? 270 p o = 0.45w, btl, r l = 8 ? 100 total harmonic distortion plus noise thd+n v i = 1v, r l = 10k ? , g = 1 10 m% max output power bandwidth b om g = 1, thd = 1% 20 khz phase margin r l = 4 ? , open load 60 power supply ripple rejection psrr f = 120hz 65 db mute attenuation 90 db channel-to-channel output separation f = 1khz 80 db in1/in2 input separation 80 db input impedance z i 2 m ? signal-to-noise ratio p o = 500mw, btl 90 db output noise voltage v n output noise voltage 55 v(rms) note 1: output power is measured at the output terminals of the ic at 1khz.
pa3332 preliminary cmos ic unisonic technologies co., ltd 6 of 10 www.unisonic.com.tw qw-r502-488.a �? application information input mux operation for the utc pa3332 , there exist two input signal paths (in1 and in2) . thus, for different input sources, the utc pa3332 has different gains with this prompt setting. when the in 1 / in2 pin is in active high, this device operates in in2 input source; when it is in active low, this device operates in in1 input source. bridged-tied load mode operation the following figure a shows the btl (bridged-tied load) mode operation. the two lin ear amplifiers drive both ends of the speaker load. there are several advantages for using the btl mode: first of all, the differential dr iving to the speaker load means that when one side is slewing up, the other side is slewing down, and vice versa. the voltage swing on the load is two times that on a ground reference l oad. in this mode, the peak-to-peak voltage v o (pp) on the load will be double a ground reference configuratio n. 4 times output power on the load wi ll be generated at the same power supply rail and loading due to the voltage on the load is doubled. further more, this btl o peration can cancel the dc offsets which save the using of dc c oupling capacitor that is needed to cancel dc offsets in the ground reference configuration. then the input network and speaker responses can only lim it the low-frequency performance. moreover, the saving of dc coupling capacitor s can minimize pcb space and the cost. mute and shutdown mode operations circuits with mute and shutdown functions are contained in the utc pa3332 , which is designed to reduce i dd (supply current) to the absolute minimum level during nonuse periods for battery-power conservation. when pulling the shutdown pin (pin 8) high, all linear amplif iers will be deactivated to mute the amplifier outputs. then the device enters an extremely low current consumption condition, the supply current is less than 5a. when the mute pin (pin 14) is pulled high, it will force the ac tivated linear amplifier to suppl y the vdd/2 dc voltage on the output & shutdown the second linear amplifiers to mute the ac performance. the current dissipation will be smaller in the mute mode operation th an that in the btl mode. it is not allowed to leave the shutdown and mute pins floating, or unexpected conditions would occur for the amplifier operations.
pa3332 preliminary cmos ic unisonic technologies co., ltd 7 of 10 www.unisonic.com.tw qw-r502-488.a maximum power clampping function the utc pa3332 incorporated the maximum power clamping function that effectively reduces damage the speaker due to the larger power through the speaker. the vol pin (pin 23) is weakly pull-low internally. if a non-zero voltage applies in the vol pin, the utc pa3332 will generate a high boundary voltage which the difference between the vdd/2 and the high boundary volta ge is the same as the difference between the vdd/2 and the low boundary voltage. (i.e. v oh ? vdd/2 = vdd/2 ? v ol ). then the outputs of linear amplifiers will be effectively limited between the high/low boundary voltage, the maximum output power is clamped. thus, the maximum power is controlled perfectively by means of setting the value of vol, note that if this function is not used, the vol pin should be co nnected to the gnd or be floated. optimizing depop operation the utc pa3332 contains a circuit that can reduce poping to minimum during the power-up or shutdown mode. the poping can be generated as long as a voltage step is applied to the speaker and the differential voltage generated at the two ends of the speaker. to get a minimum poping, the bypass capacitor is critical, 1/(c b x100k ? ) Q 1/(c i *(r i +r f )). (where c b is the mid-rail bypass capacitor, 100k ? is the output impedance of the mid-rail generator, r i is the input impedance, c i is the input coupling capacitor, r f is the gain setting impedance which is on the feedback path. c b is the most important capacitor. it can be applied in reducing the poping together with determining the rate at which the amplifier starts up during startup or recovery from shutdown mode.) the figure b shows the de-poping circuit for the utc pa3332 . the pnp transistor effectively controls the voltage drop across the 50k ? by slewing the internal node slowly when power is applied. at start-up, the voltage at bypass capacitor is zero. the pnp is on to pull the mid-point of the bias circuit down. so the capacitor sees a lower effective voltage, and thus the charging is slower. this appears as a linear ramp (while the pnp transistor is conducting), followed by the expected exponential ramp of an rc circuit. 100k ? 100k ? 50k ? bypass v dd figure b.
pa3332 preliminary cmos ic unisonic technologies co., ltd 8 of 10 www.unisonic.com.tw qw-r502-488.a �? test circuit �? typical application circuit logical truth table output mute 1in /in2 shutdown i nput l/r out+ l/r out- mode x x high x - - shutdown (mute) low low low l/r in1 output output btl low high low l/r in2 output output btl high low low l/r in1 output - mute high high low l/r in2 output - mute
pa3332 preliminary cmos ic unisonic technologies co., ltd 9 of 10 www.unisonic.com.tw qw-r502-488.a
pa3332 preliminary cmos ic unisonic technologies co., ltd 10 of 10 www.unisonic.com.tw qw-r502-488.a utc assumes no responsibility for equipment failures that result from using products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all utc products described or contained herein. utc products are not designed for use in life support appliances, devices or systems where malfunction of these products can be reasonably expected to result in personal injury. reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. the information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice.
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