unisonic technologies co., ua1538 linear integrated circuit �� www.unisonic.com.tw 1 copyright ? 2005 unisonic technologies co., qw-r109-023,b �� 4-ch motor driver for portable cd players description the utc ua1538 contains a 4ch h bridge driver and dc-dc converter control circuit on one chip, and was developed for use in portable cd players. features *built-in 4ch h bridge driv er, and pwm control of load drive voltage is made possible by external components. *dc-dc converter control circuit on chip. *with reset output in version output pin. *empty detection level can be switched between rechargeable battery and dry battery. *constant current charging; current value can be varied using external resistor. *built-in power transistor for charging. *built-in independent thermal shutdown circuit. qfp-44-0.8 *pb-free plating product number: ua1538l ordering information ordering number normal lead free plating package packing UA1538-QM1-T ua1538l-qm1-t qfp-44-0.8 tube
ua1538 linear integrated circuit unisonic technologies co., ltd 2 www.unisonic.com.tw qw-r109-023,b �� pin configuration utc ua1538 rchg out1r out1f out2r out2f pow gnd out3f out3r out4f out4r brake1 amute emp hvc c psw cl k start off chgvcc sel pregnd pwmfil bsen batt reset dead sw eo ei sprt ct n.c. op- vsys1 opout op + vsys2 vref in3 in4 mute34 in2 mute2 in1 33 32 31 30 29 28 27 26 25 24 23 34 35 36 37 38 39 40 41 42 43 44 22 21 20 19 18 17 16 15 14 12 13 23456 7 8910 11 1 pin description pin no. pin name input/output function intermal equivalent circuit 1 bsen input battery voltage monitor 1 71k �? 20 k �? 10.5k �? 14.85k �? 16.5k �? 2 batt input battery power supply input power supply 3 reset output reset detect output 3 vsys1 90k �? 4 dead input dead time setting 4 49k ? 30.8k ? 13k ? 5 sw output transistor drive for voltage multiplier 150 ? 6k ? batt 5
ua1538 linear integrated circuit unisonic technologies co., ltd 3 www.unisonic.com.tw qw-r109-023,b �� pin no. pin name input/output function intermal equivalent circuit 6 eo output error amplifier output vsys1 6 7 ei input error amplifier input 7 vsys1 35k �? 21.6k �? 8 sprt output short circuit protection setting vsys1 8 220k ? 9 ct output triangular-wave output vsys1 9 2k ? 10k ? 420k ? batt 10 n.c. 11 14 op- op+ input op amp negative input op amp positive input 14 11 12 vsys1 input control circuit power supply input control circuit power supply 13 opout output op amp output vsys1 13 15 vsys2 input driver pre-step powe r supply pre-drive power supply 16 vref input refe rence voltage input 16 24k �? 50k �? 200 �? � 4 17 18 20 22 in3 in4 in2 in1 input ch3 control signal input ch4 control signal input ch2 control signal input ch1 control signal input 17 11k �? 20pin=7.5k �? 18 20 22 19 21 23 mute34 mute2 brake1 input ch3 and 4 mute ch2 mute ch1 brake 19 68k �? 68k �? 21 23
ua1538 linear integrated circuit unisonic technologies co., ltd 4 www.unisonic.com.tw qw-r109-023,b �� pin no. pin name input/output function intermal equivalent circuit 24 25 26 27 29 30 31 32 out4r out4f out3r out3f out2f out2r out1f out1r output ch4 negative output ch4 positive output ch3 negative output ch3 positive output ch2 positive output ch2 negative output ch1 positive output ch1 negative output 28 powgnd power block power supply ground 36 hvcc input h-bridge power supply input 28 24 26 30 32 25 27 29 31 36 33 rchg input charge current setting 33 950 ? 34 amute output reset invert output 34 batt 95k �? 35 emp output empty detect output 35 37 psw output pwm transistor drive 37 50 ? batt 38 clk input external clock synchronizing input 38 vsys1 2k ? 50k ? 100k ? 39 start input voltage multiplier dc-dc converter start 39 200k ? 390k ? batt 40 off input voltage multiplier dc-dc converter off 27k ? vsys1 40 180k ? 41 chgvcc input charging circuit power supply input charging circuit power supply
ua1538 linear integrated circuit unisonic technologies co., ltd 5 www.unisonic.com.tw qw-r109-023,b �� pin no. pin name input/output function intermal equivalent circuit 42 sel input/output empty detect level switch 15k �? batt 42 200k �? 130k �? 43 pregnd pre section power supply ground pre section power supply ground 44 pwmfil input pwm phase compensation 44 2k ? vsys1 2k ? *the positive and negative output s are the polarity with respect to the input block diagram 33 32 31 30 29 28 27 26 25 24 23 34 35 36 37 38 + - 39 40 41 42 43 22 21 20 v / i - + v / i - + v / i - + v / i - + ++ - 44 123456 + - 19 18 17 16 15 14 13 12 7891011 + + - + rchg outir out1f out2r out2f powgnd out3f out3r out4f o ut4r brake1 brake1 mute2 amute emp hvcc btl btl btl btl tsd psw clk start off chgvcc sel pregnd pwmfil clk maximum detection power off starter over-voltage tsd bsen batt reset dead sw eo ei sprt c t n.c. op- p o w e r u n i t p o w e r s u p p l y + - tria ngle w ave pre-driver power supply c o n t r o l c i r c u i t p o w e r s u p p l y mute34 vsys1 op out op+ vsys2 vref in3 in4 mute34 in2 mute2 in1 - -
ua1538 linear integrated circuit unisonic technologies co., ltd 6 www.unisonic.com.tw qw-r109-023,b �� absolute maximum ratings (ta=25 �
) parameter symbol ratings unit supply voltage vcc *1 13.5 v driver output current io 500 ma power dissipation p d 625 mw operating temperature t opr 0 ~ +70 c storage temperature t stg -40 ~ +150 c *1: vcc shows input voltage of vsys1,vsys2, hvcc, batt,and chgvcc. recommended operating conditions parameter symbol min typ max unit control circuit power suppl y voltage vsys1 2.7 3.2 5.5 v pre-driver circuit power s upply voltage vsys2 2.7 3.2 5.5 v h-bridge power supply voltage hvcc pwm batt v power supply voltage batt 1.5 2.4 8.0 v charging circuit power supply voltage chgvcc 3.0 4.5 8.0 v operating temperat ure ta -10 25 70 c electrical characteristics (ta=25 �
, batt=2.4v, vsys1=vsys2=3.2v, vref=1.6v, chgvcc=0v , fclk=88.2khz, unless otherwise specified.) parameter symbol test conditions min typ max unit common section batt stand-by current i st batt=9.0v, vsys1=vsys2=vref=0v 0 3 �0 a batt supply current (no load) i bat hvcc=0.45v, mute34=3.2v 2.5 4.0 ma vsys1 supply current (no load) i sys1 hvcc=0.45v, mute34=3.2v, ei=0v 4.5 ma vsys2 supply current (no load) i sys2 hvcc=0.45v, mute34=3.2v 4.1 5.5 ma chgvcc supply current (no load) i cgvcc chgvcc=4.5v, r out =open 0.65 2.00 ma h-bridge driver part voltage gain ch1,ch3.ch4 g vc134 12 14 16 db voltage gain ch2 g vc2 21.5 23.5 24.5 db gain error by polarity &? g vc -2 0 2 db input pin resistanc e ch1,ch3,ch4 r in134 in=1.7v and 1.8v 9 11 13 k �$ input pin resistance ch2 r in2 in=1.7v and 1.8v 6 7.5 9 k �$ maximum output voltage v out r l =8 �? ,hvcc=batt=4.0v in=0-3.2v 1.9 2.1 v saturation voltage (lower) v satl io=-300ma, in=0 and 3.2v 240 400 mv saturation voltage (upper) v satu io=-300ma, in=0 and 3.2v 240 400 mv input offset voltage v oi -8 0 8 mv output offset voltage ch1,ch3,ch4 v oo134 vref=in=1.6v -50 0 50 mv output offset voltage ch2 v oo2 vref=in=1.6v -130 0 130 mv dead zone v db -10 0 10 mv brake1on threshold voltage v bron in1=1.8v 2.0 v brake1off threshold voltage v broff in1=1.8v 0.8 v mute2 on threshold voltage v m2on in2=1.8v 2.0 v h-bridge driver part mute2 off threshold voltage v m2off in2=1.8v 0.8 v mute34 on threshold voltage v m34on in3=in4=1.8v 0.8 v mute34 off threshold voltage v m34off in3=in4=1.8v 2.0 v vref on threshold voltage v refon in1=in2=in3=in4=1.8v 1.2 v
ua1538 linear integrated circuit unisonic technologies co., ltd 7 www.unisonic.com.tw qw-r109-023,b �� parameter symbol test conditions min typ max unit vref off threshold voltage v refoff in1=in2=in3=in4=1.8v 0.8 v brake1 brake current i brake1 current difference between brake pin "h" time and "l" time. 4 7 10 ma pwm power supply driving psw sink current i psw in1=2.1v 10 13 17 ma hvcc level shift voltage v shif in1=1.8v, hvcc-out1f 0.35 0.45 0.55 v hvcc leak current i hlk hvcc=9.0v, vsys1=vsys2=batt=0v 0 5 �? a pwm amp transfer gain g pwm in1=1.8v, hvcc=1.2 ~ 1.4v 1/60 1/50 1/40 1/k �? dc-dc converter error amp vsys1 threshold voltage v s1th 3.05 3.20 3.35 v eo pin output voltage "h" v eoh ei=0.7v, io=-100a 1.4 1.6 v eo pin output voltage "l" v eol ei=1.3v, io=100a 0.3 v short circuit protection sprt pin voltage v spr ei=1.3v 0 0.1 v eo=h sprt pin current1 i spr1 ei=0.7v 6 10 16 �? a off=l sprt pin current2 i spr2 ei=1.3v, off=0v 12 20 32 �? a sprt pin current3 over-voltage i spr3 ei=1.3v, batt=9.5v 12 20 32 �? a sprt pin impedance r spr 175 220 265 k �? sprt pin threshold voltage v spth ei=0.7v, c t =0v 1.10 1.20 1.30 v over-voltage protection detect v hvpr bsen pin voltage 8.0 8.4 9.0 v transistor driving sw pin output voltage1 "h" v sw1h batt=c t =1.5v, vsys1=vsys2=0v, io=-2ma starting time 0.78 0.98 1.13 v sw pin output voltage2 "h" v sw2h c t =0v, io=-10ma, ei=0.7v, sprt=0v 1.00 1.50 v sw pin output voltage2 "l" v sw2l c t =2.0v, io=10ma 0.30 0.45 v sw pin oscillating frequency1 f sw1 c t =470pf, vsys1=vsys2=0v starting time 65 80 95 khz sw pin oscillating frequency2 f sw2 c t =470pf, clk=0v 60 70 82 khz sw pin oscillating frequency3 f sw3 c t =470pf 88.2 khz sw pin minimum pulse width t swmin c t =470pf, eo=0.5v �1 0.7v sweep 0.01 0.60 �? s pulse duty start d sw1 c t =470pf,vsys1=vsys2=0v 40 50 60 % max. pulse duty at self-running d sw2 c t =470pf, ei=0.7v, clk=0v 70 80 90 % max. pulse duty at clk synchronization d sw3 c t =470pf, ei=0.7v 65 75 85 % interface off pin threshold voltage v ofth ei=1.3v vsys1- 2.0 v off pin bias current i off off=0v 75 95 115 �? a start pin on threshold voltage v stath1 vsys1=vsys2=0v, c t =2.0v batt- 1.0 v start pin off threshold voltage v stath2 vsys1=vsys2=0v, c t =2.0v batt- 0.3 v start pin bias current i start start=0v 10 13 20 16 30 19 �? a clk pin threshold voltage "h" v clkthh 2.0 v clk pin threshold voltage "l" v clkthl 0.8 v clk pin bias current i clk clk=3.2v 10 �? a
ua1538 linear integrated circuit unisonic technologies co., ltd 8 www.unisonic.com.tw qw-r109-023,b �� parameter symbol test conditions min typ max unit dead time dead pin impedance r dead 52 65 78 k �? dead pin output voltage v dead 0.78 0.88 0.98 v starter circuit starter switching voltage v stnm vsys1=vsys2=0 �1 3.2v, start=0v 2.3 2.5 2.7 v starter switching hysteresis width v snhs start=0v 130 200 300 mv discharge release v dis 1.63 1.83 2.03 v empty detection emp detection voltage 1 v empt1 vsel=0v 2.1 2.2 2.3 v emp detection voltage 2 v empt2 isel=- 2a 1.7 1.8 1.9 v emp detection hysteresis voltage 1 v emhs1 vsel=0v 25 50 100 mv emp detection hysteresis voltage 2 v emhs2 isel=- 2a 25 50 100 mv emp pin output voltage v emp io=1ma, bsen=1v 0.5 v emp pin output leak current i empl bsen=2.4v 1.0 �? a bsen pin input resistance r bsen vsel=0v 17 23 27 k �? bsen pin leak current i bsenl vsys1=vsys2=0v bsen=4.5v 1.0 v sel pin detection voltage v selth vselth=batt-sel bsen=2.0v 1.5 v sel pin detection current i selt -2 �0 a reset circuit vsys1 reset threshold voltage ratio h srt comparison with error amplifier threshold voltage 85 90 95 % reset detection hysteresis width v rsths 25 50 100 mv reset pin output voltage v rst io=1ma, vsys1=vsys2=2.8v 0.5 v reset pin pull up resistance r rst 72 90 108 k �$ amute pin output voltage 1 v amt1 io=-1ma, vsys1=vsys2=2.8v batt -0.4 batt v amute pin output voltage 2 v amt2 io=-1ma, start=0v, vsys1=vsys2=0v batt -0.4 batt v amute pin pull down resistance r amt 77 95 113 k �$ op amp input bias current i bias op+=1.6v 300 na input offset voltage v oiop -5.5 0 5.5 mv high level output voltage v ohop r l =open 2.8 v low level output voltage v olop r l =open 0.2 v output drive current (source) i sou 50 �$ gnd -6.5 -3.0 ma output drive current (sink) i sin 50 �$ vsys1 0.4 0.7 ma open loop voltage gain g vo v in =-75dbv, f=1khz 70 db slew rate s r 0.5 v/ �0 s battery charging circuit rchg pin bias voltage v rchg chgvcc=4.5v, rchg=1.8k �? . 0.71 0.81 0.91 v rchg pin output resistance r rchg chgvcc=4.5v, rchg=0.5 and 0.6v 0.75 0.95 1.20 k �? sel pin leak current 1 i sellk1 chgvcc=4.5v, rchg=open, batt=4.5v 1.0 �? a sel pin leak current 2 i sellk2 chgvcc=0.6v, rchg=1.8k �? , batt=4.5v 1.0 �? a sel pin saturation voltage v selcg chgvcc=4.5v, io=300ma, rchg=0 �? 0.45 1.00 v
ua1538 linear integrated circuit unisonic technologies co., ltd 9 www.unisonic.com.tw qw-r109-023,b �� measuring circuit utc ua1538 rchg outir out1f out2r out2f p o w g n d out3f out3r out4f out4r brake1 amute emp hvcc psw clk start off chgvcc sel pregnd pwmfil bsen batt reset dead sw eo ei sprt ct n.c op- vsys1 opout op+ vsys2 vref in3 in4 mute34 in2 mute2 in1 33 32 31 30 29 28 27 26 25 24 23 34 35 36 37 38 39 40 41 42 43 44 22 21 20 19 18 17 16 15 14 12 13 234567 8910 11 1 v v v rf sw1 7 sw1 8 aa b b v a v a v a v a a v a v v v v a v v v a v a v a v a v a a a a a v a a a v v v a a v sw16 a b sw15 a b sw14 a b sw13 a b 1k + 10 �? sw12 sw11 a b 50 20k 100k 470 �? + sw10 d a b sw8 10k b sw9 a 470p b a sw7 a b f r e q u e n c y sw6 ba a sw5 sw4 a b 10k sw3 a b a a sw1 sw2 a b 10p 2200p 100 k ab sw28 sw27 a b a b sw26 sw25 a a sw24 sw23 sw22 sw21 a b b a c a b 51k 33 �? 47 �? + a b 100 �? + sw20 a b sw19 1.8k 47 1m c a b ��
ua1538 linear integrated circuit unisonic technologies co., ltd 10 www.unisonic.com.tw qw-r109-023,b �� switching position table sw no. item 1 4 5 6 7 8 22 24 25 26 batt stand-by current - - - - - - - - - - batt supply current (no load) - - - - - - a - a - vsys1 supply current (no load) - - - a - - a - a - vsys2 supply current (no load) - - - - - - a - a - chgvcc supply current (no load) - - - - - - - - - - vsys1 threshold voltage - - a - - - - - - - eo pin output voltage ?h? - - a a - - - - - - eo pin output voltage ?l? - - a a - - - - - - sprt pin voltage - - - a a - - - - - sprt pin current1 eo=?h? - - - a b - - - - - sprt pin current2 off=?l? - - - a b - - - - a sprt pin current3 over-voltage a - - a b - - - - - sprt pin impedance - - - - b - - - - - sprt pin threshold voltage - - - a a a - - - - over-voltage protection detect a - - - a - - - - - sw pin output voltage1?h? - a - - - a - - a - sw pin output voltage2?h? - a - a b a - - - - sw pin output voltage2?l? - a - - - a - - - - sw pin oscillating frequency 1 - b - - - b - - a - sw pin oscillating frequency 2 - b - - - b - b - - sw pin oscillating frequency 3 - b - - - b - a - - sw pin minimum pulse width - b b - - b - - - - pulse duty start - b - - - b - b a - max pulse duty at self-running - b - - - b - b - - max pulse duty at clk synchronization - b - a - b - a - - -: turn off switch sw no. item 2 3 4 6 7 8 20 24 25 26 dead pin impedance - b - - - - - - - - dead pin output voltage - a - - - - - - - - off pin threshold voltage - - - a a - - - - a off pin bias current - - - - - - - - - a start pin on threshold voltage - - a - - a - - a - start pin off threshold voltage - - a - - a - - a - start pin bias current - - - - - - - - a - clk pin threshold voltage ?h? - - a - - b - b - - clk pin threshold voltage ?l? - - a - - b - b - - clk pin bias current - - - - - - - a - - starter switching voltage - - a - - - - - a - starter switching hysteresis width - - a - - - - - a - discharge release voltage - - - - a - - - - - vsys1 pin reset threshold voltage ratio b - - - - - - - - - reset detection hysteresis width b - - - - - - - - - reset pin output voltage b - - - - - - - - - reset pin pull up resistance a - - - - - - - - - amute pin output voltage 1 - - - - - - b - -- - amute pin output voltage 2 - - - - - - b - a - amute pin pull down resistance - - - - - - a - - - -: turn off switch ��
ua1538 linear integrated circuit unisonic technologies co., ltd 11 www.unisonic.com.tw qw-r109-023,b �� sw no. item 1 9 10 11 12 21 27 emp detection voltage 1 a - - - - a a emp detection voltage 2 a - - - - a b emp detection hysteresis voltage 1 a a - - - a a emp detection hysteresis voltage 2 a - - - - a b emp pin output voltage a - - - - b - emp pin output leak current a - - - - c - bsen pin input resistance a - - - - - a bsen pin leak current a - - - - - - sel pin detection voltage a - - - - a a sel pin detection current a - - - - a b input bias current - - a - - - - input offset voltage - - d - - - - ?h? level output voltage - b c - - - - ?l? level output voltage - a c - - - - output drive current (source) - - d b - - - output drive current (sink) - - d a - - - open loop voltage gain - - b - a - - slew rate - - d - a - - -: turn off switch �� sw no. item 13 14 15 16 17 18 22 ch1r - - - b b b a ch2r - - b - b b a ch3r b - - - b b a voltage gain ch4r - b - - b b a ch1 - - - b b b a ch2 - - b - b b a ch3 b - - - b b a gain error by polarity ch4 - b - - b b a ch1 - - - b b b a ch2 - - b - b b a ch3 b - - - b b a input pin resistance ch4 - b - - b b a ch1r - - - b b b a ch2r - - b - b b a ch3r b - - - b b a maximum output voltage ch4r - b - - b b a ch1f - - - b a - a ch1r - - - b - a a ch2f - - b - a - a ch2r - - b - - a a ch3f b - - - a - a ch3r b - - - - - a ch4f - b - - a - a saturation voltage (lower) ch4r - b - - - a a ch1f - - - b a - a ch1r - - - b - a a ch2f - - b - a - a ch2r - - b - - a a ch3f b - - - a - a ch3r b - - - - a a ch4f - b - - a - a saturation voltage (upper) ch4r - b - - - a a
ua1538 linear integrated circuit unisonic technologies co., ltd 12 www.unisonic.com.tw qw-r109-023,b �� ch1 - - - a - - a ch2 - - a - - - a ch3 a - - - - - a input offset voltage ch4 - a - - - - a ch1 - - - b b b a ch2 - - b - b b a ch3 b - - - b b a output offset voltage ch4 - b - - b b a ch1 - - - b b b a ch2 - - b - b b a ch3 b - - - b b a dead zone ch4 - b - - b b a -: turn off switch �� sw no. item 13 14 15 16 17 18 22 23 28 brake1 on voltage ch1 - - - b b b a - - brake1 off voltage ch1 - - - b b b a - - mute2 on voltage ch2 - - b - b b a - - mute2 off voltage ch2 - - b - b b a - - ch3 b - - - b b a - - mute34 on voltage ch4 - b - - b b a - - ch3 b - - - b b a - - mute34 off voltage ch4 - b - - b b a - - ch1 - - - b b b a - - ch2 - - b - b b a - - ch3 b - - - b b a - - vref on voltage ch4 - b - - b b a - - ch1 - - - b b b a - - ch2 - - b - b b a - - ch3 b - - - b b a - - vref off voltage ch4 - b - - b b a - - break1 brake current ch1 - - - b b b a - - pwm sink current - - - b - - a b a hvcc level shift voltage - - - b b b b a b hvcc leak current - - - - b b a - - pwm amp transfer gain - - - b b b a - - sw no. item 19 27 chgset pin bias voltage a - chgset pin output resistance b - sel pin leak current 1 - a sel pin leak current 2 a a sel pin saturation voltage b b -: turn off switch ��
ua1538 linear integrated circuit unisonic technologies co., ltd 13 www.unisonic.com.tw qw-r109-023,b �� switching position table v in 1 v in 2 vo3 vo4 v in 3 v in 4 dead zone output offset voltage vo2 vo1 output voltage:vo (mv) input voltage:v in (mv) xc' xc ���� voltage gain gvc(+)=20 log gvc(-)=20 log ���� gain error by polarity gvc=gvc (+)-gvc (-) ���� dead zone xc-xc'= - vo1-vo2 v in 1-v in 2 vo3-vo4 v in 3-v in 4 v in 2 ? vo1 - v in 1 ? vo2 vo1-vo2 v in 3 ? vo4 - v in 4 ? vo3 vo3-vo4
ua1538 linear integrated circuit unisonic technologies co., ltd 14 www.unisonic.com.tw qw-r109-023,b �� application circuit 33 32 31 30 29 28 27 26 25 24 23 34 35 36 37 38 + - 39 40 41 42 43 22 21 20 v / i - + v / i - + v / i - + v / i - + ++ - 44 1 23456 + - 19 18 17 16 15 14 13 12 7891011 + - + rchg outir out1f out2r out2f powgnd out3f out3r out4f out4r brake1 brake1 mute2 amute emp hvcc btl btl btl btl tsd psw clk start off chgvcc sel pregnd pwmfil clk maximum detection power off starter over-voltage tsd bsen batt reset dead sw eo ei sprt c t n.c. op- + - triangle wave pre-driver power supply c o n t r o l c i r c u i t p o w e r s u p p l y mute34 vsys1 op out op+ vsys2 vref in3 in4 mute34 in2 mute2 in1 m 1.8k traverse spindle focus tracking filter 470p 0.1 �? 0.022 �? 8.2k 100 �? v out dc-dc converter application 0.1 �? v in 47 �? + 10p 100k 2200p 100k 0.1 �? 47 0.1 �? 33 �? 47 �? + * we shall not be liable for any trouble or damege caused by using this circuit. *in the evert a problem which may affect industrial property or any other rights of us or a third party is encountered during the use of information described in these circuit,mitsumi electric co.,ltd.shall not be liable for any such problem,nor grant a license therefor. m + + - - ��
ua1538 linear integrated circuit unisonic technologies co., ltd 15 www.unisonic.com.tw qw-r109-023,b �� circuit operation 1 h-bridge driver block (1) gain setting the driver input resist ance (ch 1,3 and 4) are 11k �$ typ. ,ch2 is 7.5k �$ typ. . set the gain according to the following formula. ch1 ch2 ch3 ch2 gv=20 log gv=20 log 55k 11k+r 110k 7.5k+r (db) (db) r:externally-connected input the driver output stage power suppl y is hvcc (36pin), and the bridge circuit power supply is vsys2 (15pin). connect a bypass capacitor between t hese two power supplies (approximately 0.1 �0 f). (2) mute function of the four drivers,ch1 has a brake function, and the other channels have a mute function. when brake1(23pin)is set to high level, both ch1 output s go low level, and the ci rcuit enters brake mode. when mute2(21pin)is set to high le vel, the ch2 output is muted. when mute34(19pin)is set to high leve l, the ch3 and 4 out puts are muted. (3) vref drop mute when the voltage applied to vref (16pin)is 1.0v or le ss typ. , the driver output s are set to high impedance. (4) thermal shutdown when the chip temperature reaches 150 � typ. the output current is cut. the chip starts operating again at about 120 � typ. . 2 pwm power supply drive block this detects the maximun output level from among the four channels, and supplies the load drive power supply (36pin)for the pwm. the external component s are a pnp transistor, coil, schottky diode, and capacitor. pwmfil psw hvcc 2200pf 100k �? 47k �? 44 37 batt 10pf sbd 47 �? f + 33 �? h 0.1 �? f 36 3 dc-dc converter block (1) output voltage 3.2v typ. voltage multiplier circuit can be construc ted using external com ponents. this voltage can be varied with the addition of an external re sistor. the setting method is as follows. vsys1=1.2 r1 r3 r1 + r3 r2 r4 r2 + r4 r2 r4 r2 + r4 + (v)
ua1538 linear integrated circuit unisonic technologies co., ltd 16 www.unisonic.com.tw qw-r109-023,b �� r3 r4 1.2v - + 7 12 vsys1 r1 r2 r1=external resistor r2=external resistor r3=35k ? r4=21k ? ei (2) short protect function when the error amplifier output(6pin) has switched to the high-level stat e, sprt (8pin)is charged, and when the voltage reaches 1.2v typ. , the sw(5pin)switching stops. the time unt il switching stops is set by the capacitor connected to sprt(8pin)a ccording to the following formula. t=csprt ��� v th isprt (sec) (v th =1.2v,isprt=10 �? a) �� (3) soft start function the soft start function operates when a capacit or is connected betw een dead(4pin)and gnd. also, the maximum duty can be varied by connecting a resistor to 4pin. t=cdead � r(sec) ( r=65k �? ) (4) power off function when low-level is applied to off(40pin), sprt(8pin)i s charged, and when the volt age reaches 1.2v typ. , the sw(5pin)switching stops. the time until switch ing stops is set by t he capacitor connected to sprt (8pin)according to the following formula. t=csprt � v th i off (sec) (v th =1.2v,i off =20 �? a) (5) over voltage protection circuit when the voltage applied to bsen(1pin )reaches 8.4v typ. , sprt (8pin) is charged, and when the voltage reaches 1.2v typ. , thesw (5pin)switching stops. the time until switching stops is set by the capacitor connected to sprt(8pin)according to the following formula. t=csprt � v th ihv (sec) (v th =1.2v,i hv =20 �? a) �� 4 empty detector block (1) output voltage when the voltage applied to the bsen(1 pin)falls below the detector vo ltage, emp(35pin)goes from high level to low level(open-collector out put). the detector voltage has 50mv ty p. of hysteresis to prevent output chattering. use sel (42pin) to sw itch the detection voltage as shown below. sel detect voltage return voltage l 2.20v typ. 2.25v typ. high-z 1.80v typ. 1.85v typ. 5 reset circuit block at about 90% typ. of the dc-dc conv erter output voltage, reset(3pin)goes from low level to high level, and amute(34pin)goes from high level to low level. the reset voltage has 50mv typ. of hysteresis to prevent output chattering. 6 charging circuit block the power supply for the charging circuit block is chgvcc(41pin), and is independent from the other circuits. the resistance between rchg (33pin) and gnd se ts the charging current. this current is drawn from sel (42pin). a thermal shutdown circuit is provided, and when the chip temperature reaches 150 � typ. the charging current is cut. the chip st arts operating again at about 120 � typ. .
ua1538 linear integrated circuit unisonic technologies co., ltd 17 www.unisonic.com.tw qw-r109-023,b �� typical characteristic input load fluctuation 3 2 1 0 -1 -2 -3 -0.8 -0.6 -0.4 0.2 0 0.4 0.6 output voltage:vo (v) input voltage:vin (v) 20 �? 0.8 -0.2 r l = � �? 8 �? 4 �? 4 �? 8 �? 20 �? *ta=normal temperature *batt=hvcc=4v *vsys1=vsys2=3.2v *vref=1.6v �� input load fluctuation (ch2) 3 2 1 0 -1 -2 -3 -0.8 -0.6 -0.4 0.2 0 0.4 0.6 input voltage:vin (v) 0.8 -0.2 r l = �? output voltage:vo (v) �? *ta=normal temperature *batt=hvcc=4v *vsys1=vsys2=3.2v *vref=1.6v 20 �? 8 �? 4 �? 4 �? 8 �? 20 �? �� dead zone 0.006 0.004 0.002 0 -0.002 -0.004 -0.006 -30 -20 -10 10 02030 input voltage: v in (mv) output voltage:vo(mv) 4 �? 8 �? 20 �? 4 �? 8 �? 20 �? *ta=normal temperature *batt=hvcc=4v *vsys1=vsys2=3.2v *vref=1.6v error amp output voltage 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 dead output voltage e:v daed (v) eo output voltage:v eo (v) control circuit power supply voltage:v sys1(v) ta=normal temperature batt=2.4v eopin daed pin
ua1538 linear integrated circuit unisonic technologies co., ltd 18 www.unisonic.com.tw qw-r109-023,b �� resete pin voltage 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0.0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 reset output voltage:v rst (v) ta=normal temperature batt=2.4v control circuit power supply voltage:vsys1(v) 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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