tag:blogger.com,1999:blog-6856680564019935182024-03-16T08:10:18.679+07:00BLOG MULTI ELEKTRONIK TEGALSajian artikel elektronika sebagai sumber referensi bagi saya pribadi, juga tidak menutup kemungkinan bagi anda yang kebetulan menemukan halaman kami dalam pencariaan artikel seputar tekhnik reparasi dan penanganan elektronika, sebagai catatan informasi yang kami sajikan adalah hasil dari pengalaman pribadi dan juga artikel dari blog lain yang telah teruji dan terverifikasi Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.comBlogger13125tag:blogger.com,1999:blog-685668056401993518.post-20325042696659315572013-04-14T21:55:00.004+07:002013-07-12T21:32:21.052+07:00MULTIMETER SERBA GUNA<div dir="ltr" style="text-align: left;" trbidi="on">
<div dir="ltr" style="text-align: left;" trbidi="on">
<h2>
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : INFO BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a> </h2>
<h2>
Sanwa CD800a Digital Multimeter</h2>
Sanwa CD800a Digital Multimeter<br />
Fitur:<br />
* 3-3/4 digit 4000 count<br />
* Akurasi dasar 0.7%<br />
* Pengukuran kapasitansi<br />
* Tidak cocok untuk pengukuran kondenser dengan arus bocor yang besar<br />
* Pengukuran frekuensi (hanya gelombang sinus AC saja)<br />
* Data hold / Range hold<br />
* Nilai relative<br />
* Fungsi auto power off (30 menit) (dapat dibatalkan)<br />
* Low power ohm (tegangan input 0.4V) pada rentang kontinuitas<br />
* Cover bodi yang kuat dapat juga di jadikan dudukan unit<br />
* Tampilan : tampilan display angka 4000<br />
* Sampling rate : 3 kali / detik<br />
<div class="field field-type-filefield field-field-foto">
<div class="field-items">
<table align="center" cellpadding="0" cellspacing="0" class="tr-caption-container" style="margin-left: auto; margin-right: auto; text-align: center;"><tbody>
<tr><td style="text-align: center;"><img alt="Sanwa CD800a multitester digital serbaguna" class="imagefield imagefield-field_foto" height="500" src="http://www.meterdigital.com/sites/default/files/sanwa_cd800a.jpg?1301665351" style="margin-left: auto; margin-right: auto;" title="Sanwa CD800a Digital Multimeter" width="500" /></td></tr>
<tr><td class="tr-caption" style="text-align: center;"><br /></td></tr>
</tbody></table>
<div class="field-item odd">
</div>
</div>
</div>
</div>
<br />
<span style="color: navy;">General Information</span>
<br />
<hr size="1" style="border: 1px dotted;" />
■ 3-3/4 digits 4000 count<br />
■ Auto power off (Enable or Disable)<br />
■ Relative Function<br />
■ Face cover as tilt stand for desktop use<br />
<br />
<table border="0" cellpadding="0" id="table5" style="width: 100%;">
<tbody>
<tr>
<td><b><i>General Specification</i></b></td>
</tr>
<tr>
<td><hr size="1" style="border: 1px dotted;" />
</td>
</tr>
<tr>
<td><img alt="table" border="0" height="389" src="http://www.bhumika.ca/instrumentations/dmm/images/CD800a_spec.gif" width="450" /></td>
</tr>
</tbody>
</table>
</div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com0tag:blogger.com,1999:blog-685668056401993518.post-33213665474057287532013-03-24T21:37:00.000+07:002013-07-12T21:33:57.601+07:00DATA PIN IC PADA TELEVISI<div dir="ltr" style="text-align: left;" trbidi="on">
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a><br />
AN 5192 K-A<br />
-------------------------<br />
pin1 =R CLAMP<br />
pin2 =G CLAMP<br />
pin3 =B CLAMP<br />
pin4 =KILLER FILTER<br />
pin5 =KILLER OUTPUT<br />
pin6 =APC FILTER<br />
pin7 =4.43<br />
pin8 =3.58<br />
pin9 =SPOT KILLER<br />
pin10 =BLK IN<br />
pin11 =R IN<br />
pin12 =G IN<br />
pin13 =B IN<br />
pin14 =VCC [9V]<br />
pin15 =R OUT<br />
pin16 =G OUT<br />
pin17 =B OUT<br />
pin18 =LOCK DET<br />
pin19 =GND<br />
pin20 =ACL<br />
pin21 =SDA<br />
pin22 =SCL<br />
pin23 =VCC [5V]<br />
pin24 =IF IN<br />
pin25 =IF IN<br />
pin26 =GND<br />
pin27 =RF AGC<br />
pin28 =AUDIO OUT<br />
pin29 =DE-EMPHASIS<br />
pin30 =AFT OUT<br />
pin31 =VIDEO IN<br />
pin32 =DECOP<br />
pin33 =AV AUDIO IN<br />
pin34 =SIF IN<br />
pin35 =IF AGC<br />
pin36 =VIDEO OUT<br />
pin37 =APC2<br />
pin38 =VIDEO DET IN<br />
pin39 =DET OUT<br />
pin40 =APC1<br />
<br />
pin41 =VCO<br />
pin42 =BLACK DET<br />
pin43 =Y-IN<br />
pin44 =V-CLAMP<br />
pin45 =V-SEPARATION<br />
pin46 =H-SEPARATION<br />
pin47 =VCC [5V]<br />
pin48 =CHROMA IN<br />
pin49 =GND<br />
pin50 =FBT IN<br />
pin51 =H VCC [20V]<br />
pin52 =AFC2 FILT<br />
pin53 =AFC1 FILT<br />
pin54 =H OSC<br />
pin55 =X-RAY<br />
pin56 =H OUT<br />
pin57 =50/60 DET OUT<br />
pin58 =V OUT<br />
pin59 =CW<br />
pin60 =B-Y OUT<br />
pin61 =R-Y OUT<br />
pin62 =SCP<br />
pin63 =B-Y IN<br />
pin64 =R-Y IN<br />
<br />
<br />
AN 5601 K<br />
TV SIGNAL PROCESSOR<br />
pin1=.GND<br />
pim2=.chr vco<br />
pim3=.color control<br />
pim4=.acc filt<br />
pim5=.chr signal in<br />
pim6=.contras color<br />
pim7=.acc amp out<br />
pim8=.apc1<br />
pim9=.apc2<br />
pim10=.vcc[5v]<br />
pim11=.R-Y in<br />
pim12=.color killer filt<br />
pim13=.B-Y in<br />
pim14=.data blanking<br />
pim15=.video in1<br />
pim16=.video in2<br />
pim17=.pic control<br />
pim18=.brightness control<br />
pim19=.B out<br />
pim20=.G out<br />
pim21=.original G<br />
pim22=.ext G<br />
pim23=.ext B<br />
pim24=.original B<br />
pim25=.original R<br />
pim26=.out R<br />
pim27=.ext R<br />
pim28=.sync.separation clamp<br />
pim29=.vcc1[12v]<br />
pim30=.sync.separation filt<br />
pim31=.V out<br />
pim32=.feedbck in<br />
pim33=.V osc<br />
pim34=.Vdrv<br />
pim35=.Vintegration<br />
pim36=.SCPout<br />
pim37=.FBPin<br />
pim38=.Hafc out<br />
pim39=.Hosc<br />
pim40=.Hcenter adj.<br />
pim41=.Hout<br />
pim42=.VCC3/H[8,6v<br />
<br />
<br />
IX3311CE<br />
----------------------<br />
pin1 =POWER<br />
pin2 =SCL<br />
pin3 =SDA<br />
pin4 =S-VOL<br />
pin5 =EXIT BUS<br />
pin6 =AV S-MUTE<br />
pin7 =KEY IN<br />
pin8 =PROTECT IN<br />
pin9 =GND-VSSC/P<br />
pin10 =POWER LED<br />
pin11 =ST-BY LED<br />
pin12 =GND-VSSA<br />
pin13 =SECAM PLL<br />
pin14 =VP2[8V]<br />
pin15 =DEC DIG<br />
pin16 =PH2 LF<br />
pin17 =PH1 LF<br />
pin18 =GND3<br />
pin19 =DEC BG<br />
pin20 =AVL<br />
pin21 =VERT DRV A<br />
pin22 =VERT DRV B<br />
pin23 =IF IN1<br />
pin24 =IF IN2<br />
pin25 =VSC<br />
pin26 =VERT IREF<br />
pin27 =RF AGC OUT<br />
pin28 =I-OUT[AUDIO DE-EMPHASIS]<br />
pin29 =DEC S-DEM<br />
pin30 =GND2<br />
pin31 =SND PLL<br />
pin32 =RE-OUT<br />
pin33 =H DRV OUT<br />
pin34 =FBin/SCP OUT<br />
pin35 =ext AUDIO IN<br />
pin36 =EHT<br />
pin37 =PLL IF<br />
pin38 =IF VIDEO OUT<br />
pin39 =VP1[8V]<br />
pin40 =int CVBS IN<br />
<br />
pin41 =GND1<br />
pin42 =ext CVBS IN<br />
pin43 =C IN<br />
pin44 =AUDIO OUT<br />
pin45 =BLK2<br />
pin46 =R2 IN<br />
pin47 =G2 IN<br />
pin48 =B2 IN<br />
pin49 =BCL<br />
pin50 =I BLACK<br />
pin51 =R OUT<br />
pin52 =G OUT<br />
pin53 =B OUT<br />
pin54 =VDDA[3.3V]<br />
pin55 =VPE[GND]<br />
pin56 =VDDC[3.3V]<br />
pin57 =OSC<br />
pin58 =XTAL IN [12M]<br />
pin59 =XTAL OUT[12M]<br />
pin60 =RESET<br />
pin61 =VDDP[3.3V]<br />
pin62 =SCL[eeprom]<br />
pin63 =SDA[eeprom]<br />
pin64 =R/C IN<br />
------------------------<br />
<br />
IX 3564 CE<br />
------------------------<br />
pin1 =POWER /3.3V<br />
pin2 =SCL /4.3V<br />
pin3 =SDA /4.3V<br />
pin4 =MUTE /3.1V<br />
pin5 =KEY2-EXIT /3.2V<br />
pin6 =AV S-MUTE /3.2V<br />
pin7 =KEY1-IN /3.2V<br />
pin8 =PROT-IN /3.2V<br />
pin9 =VSS-GND-C/P<br />
pin10 =POWER LED /2.8V<br />
pin11 =.../3.2V<br />
pin12 =VSSA-GND<br />
pin13 =SECAM PLL /2.1V<br />
pin14 =VP2 [8V]<br />
pin15 =DEC-DIG /4.6V<br />
pin16 =PH2LF /2.6V<br />
pin17 =PH1LF /3.5V<br />
pin18 =GND3<br />
pin19 =DEC-BG /3.7V<br />
pin20 =AVL /2.1V<br />
pin21 =VDRB /0V<br />
pin22 =VDRA /0V<br />
pin23 =IF-IN1 /1.7V<br />
pin24 =IF-IN2 /1.7V<br />
pin25 =VSC /3.5V<br />
pin26 =VERT-IREF /3.5V<br />
pin27 =RF-AGC-OUT /1V<br />
pin28 =AUDIO-DEEM /2.9V<br />
pin29 =DEC S-DEM /2.1V<br />
pin30 =GND2<br />
pin31 =SPLL /2.1V<br />
pin32 =AV1/AV2-REOUT<br />
pin33 =H-DRV OUT /1.2V<br />
pin34 =FB-IN/SC-OUT /0.4V<br />
pin35 =EXT.AUDIO-IN /3.3V<br />
pin36 =EHT /0.7V<br />
pin37 =PLL IF /2.5V<br />
pin38 =IF-VIDEO-OUT /3.6V<br />
pin39 =VP1 [8V]<br />
pin40 =INT.CVBS-IN /3.6V<br />
<br />
pin41 =GND1<br />
pin42 =EXT.CVBS-IN /3V<br />
pin43 =C-IN /1.3V<br />
pin44 =AUDIO-OUT /3.1V<br />
pin45 =BLK2 /0V<br />
pin46 =R2-IN /2.3V<br />
pin47 =G2-IN /2.3V<br />
pin48 =B2-IN /2.3V<br />
pin49 =BCL /3.5V<br />
pin50 =IBLACK /7.6V<br />
pin51 =R-OUT /1.7V<br />
pin52 =G-OUT /1.9V<br />
pin53 =B-OUT /2.1V<br />
pin54 =VDDA [3.3V]<br />
pin55 =VPE-GND<br />
pin56 =VDDC [3.3V]<br />
pin57 =osc /0V<br />
pin58 =X-TAL IN /12MHZ<br />
pin59 =X-TAL OUT/12MHZ<br />
pin60 =reset /0V<br />
pin61 =vddp [3.3v]<br />
pin62 =SCL[eeprom] /4.6V<br />
pin63 =SDA[eeprom] /4.6V<br />
pin64 =RC-IN /3.8V<br />
<br />
<br />
LA7687A<br />
-------------------------<br />
pin1 =AV/SECAM[SIF IN]<br />
pin2 =ID OUT<br />
pin3 =APC1<br />
pin4 =APC2<br />
pin5 =VCO<br />
pin6 =VCO adjust<br />
pin7 =AFT OUT<br />
pin8 =VIDEO OUT<br />
pin9 =RF AGC<br />
pin10 =internal VIDEO IN<br />
pin11 =ACL IN<br />
pin12 =FILTER REF[S-VHS SW]<br />
pin13 =S-CHROMA DC CONTROL<br />
pin14 =external VIDEO IN<br />
pin15 =GND-y/c/d<br />
pin16 =VIDEO OUT[ABL]<br />
pin17 =COLOR KILLER<br />
pin18 =ADDR<br />
pin19 =DATA<br />
pin20 =V-OUT[V-DRIVER]<br />
pin21 =50/60HZ<br />
pin22 =AFC FILTER<br />
pin23 =H-OSC<br />
pin24 =H-VCC[9V]<br />
pin25 =H-OUT[H-DRIVE]<br />
pin26 =FBP IN<br />
pin27 =H-COINCIDENT[CLK OUT]<br />
pin28 =BLK<br />
pin29 =B IN<br />
pin30 =G IN<br />
pin31 =R IN<br />
pin32 =-Y<br />
pin33 =B OUT<br />
pin34 =G OUT<br />
pin35 =R OUT<br />
pin36 =B-Y IN<br />
pin37 =R-Y IN<br />
pin38 =B-Y OUT<br />
pin39 =R-Y OUT<br />
pin40 =VCC-V/C[8V]<br />
<br />
pin41 =CW2<br />
pin42 =CW1<br />
pin43 =APC FILTER<br />
pin44 =VCC-SIF[9V]<br />
pin45 =VCC-VIF[8V]<br />
pin46 =IF AGC<br />
pin47 =IF IN<br />
pin48 =IF IN<br />
pin49 =IF GND<br />
pin50 =RF AGC<br />
pin51 =AUDIO OUT<br />
pin52 =AUDIO FILTER<br />
data sanyo skematic<br />
---------------------<br />
<br />
LA7688<br />
---------------------<br />
pin1 =SIF IN<br />
pin2 =RF AGC VR<br />
pin3 =APC FILTER<br />
pin4 =IF FILTER<br />
pin5 =VCO COIL<br />
pin6 =VCO COIL<br />
pin7 =AFT OUT<br />
pin8 =VIDEO OUT<br />
pin9 =FILTER REF<br />
pin10 =int.VIDEO<br />
pin11 =CONT<br />
pin12 =ext.A-IN<br />
pin13 =SHARP<br />
pin14 =ext.VIDEO<br />
pin15 =GND<br />
pin16 =VIDEO OUT<br />
pin17 =COLOR<br />
pin18 =TINT<br />
pin19 =BRIGHT<br />
pin20 =VERT OUT<br />
pin21 =50/60<br />
pin22 =AFC FILTER<br />
pin23 =H OSC<br />
pin24 =VCC-H<br />
pin25 =H OUT<br />
pin26 =FBP IN<br />
pin27 =SB><br />
TDA8361>><br />
TDA8362<br />
----------------------------<br />
TDA 8362-TDA8361-TDA8360<br />
----------------------------<br />
pin1 =DE-EMP[3.2v]<br />
pin2 =REF COIL/0.15uh[5.9v]<br />
pin3 =REF COIL/0.15uh[5.9v]<br />
pin4 =IDENT<br />
pin5 =SIF.IN.VOL[1.3v]<br />
pin6 =EXT.AUDIO.IN[4.3v]<br />
pin7 =VIDEO.OUT[4v]<br />
pin8 =DG.ACC[1.7v]<br />
pin9 =GND<br />
pin10 =VCC[8v]<br />
pin11 =GND<br />
pin12 =CAL.DEC [3.4v]<br />
pin13 =INT.VID.IN/CVBS.EXT.2 [4.3v]<br />
pin14 =SHARP [2.2v]<br />
pin15 =VID.IN/CVBS.EXT.1 [3.8v]<br />
pin16 =C.IN/EXT.IN/CHROMA<br />
pin17 =BRIGHTNEESS [3.2v]<br />
pin18 =B.OUT [2.4v]<br />
pin19 =G.OUT [2.4v]<br />
pin20 =R.OUT [2.4v]<br />
pin21 =RGB.IN [0.3v]<br />
pin22 =B.IN [2.6v]<br />
pin23 =G.IN [2.6v]<br />
pin24 =R,IN [2.6v]<br />
pin25 =CONTRASS [2.2v]<br />
pin26 =COLOR [1.1v]<br />
pin27 =HUE.SECAM.OUT [0.9v]<br />
pin28 =B-Y.IN [4.3v]<br />
pin29 =R-Y.IN [4.3v]<br />
pin30 =R-Y.OUT [1.5v]<br />
pin31 =B-Y.OUT [1.5v]<br />
pin32 =SECAM.SUBC [1.5v]<br />
pin33 =BURST.PHASE [5.4v]<br />
pin34 =3.58MHZ [3.2v]<br />
pin35 =4.43MHZ [3.2v]<br />
pin36 =H.POWER [8.2v]<br />
pin37 =H.OUT [0.4v]<br />
<br />
pin38 =SANDCASTLE/FBI/SCO [1.2v]<br />
pin39 =PH2 [2.5v]<br />
pin40 =PH1 [4.0v]<br />
pin41 =VFB [2.8v]<br />
pin42 =VERT,SAWTOOTH [2.8v]<br />
pin43 =VERT.OUT [0.9v]<br />
pin44 =AFT [4.5v]<br />
pin45 =F.N [4.2v]<br />
pin46 =F.N [4.2v]<br />
pin47 =RF AGC [6.5v]<br />
pin48 =AGC [3.9v]<br />
pin49 =AGC ADJ [1.1v]<br />
pin50 =SOUND OUT [4.0v]<br />
pin51 =DEC [3.4v]<br />
pin52 =BG-DEC [7.0v]<br />
<br />
<br />
TDA884x TDA885x<br />
chroma prossesor<br />
@56pin[28x2]=<br />
TDA8840<br />
TDA8841<br />
TDA8842<br />
TDA8846<br />
TDA8846A<br />
TDA8843<br />
TDA8844<br />
TDA8847<br />
@64pin[SMD]=<br />
TDA8840H<br />
TDA8841H<br />
TDA8842H<br />
TDA8854H<br />
TDA8857H<br />
<br />
berikut pin out/in,<br />
-----------------------------<br />
64PIN(SMD)<br />
-----------------------------<br />
pin01=IF IN1<br />
pin02=IF IN2<br />
pin03=EHTO/overvoltage protection in<br />
pin04=VSC/vert.sawtooth capasitor<br />
pin05=Ireff/refference current in<br />
pin06=DEC AGC<br />
pin07=TUNER AGC OUT<br />
pin08=AU-DEEM<br />
pin09=DECSDEM<br />
pin10=SOUND IF<br />
pin11=EXT AUDIO IN<br />
pin12=NC<br />
pin13=NC<br />
pin14=NC<br />
pin15=PLL LF<br />
pin16=IF VO<br />
pin17=SCL<br />
pin18=SDA<br />
pin19=DEC BG<br />
pin20=CHROMA<br />
pin21=CVBS/Y<br />
pin22=VP1[8V]<br />
pin23=VP3[8V]<br />
pin24=CVBSint<br />
pin25=GND1<br />
pin26=CVBSint<br />
pin27=AUDIO OUT<br />
pin28=SEC PLL<br />
pin29=CVBSext<br />
pin30=BLK IN<br />
pin31=B OUT<br />
pin32=G OUT<br />
pin33=R OUT<br />
pin34=BCL IN<br />
pin35=R IN<br />
pin36=G IN<br />
pin37=B IN<br />
pin38=RGB IN<br />
pin39=LUMINAN IN<br />
pin40=LUMINAN OUT<br />
pin41=R IN2<br />
pin42=G IN2<br />
pin43=B IN2<br />
pin44=RGB IN2<br />
pin45=B-Y OUT<br />
pin46=R-Y OUT<br />
pin47=B-Y IN<br />
pin48=R-Y IN<br />
pin49=REFO/Reference Out<br />
pin50=XTAL1<br />
pin51=XTAL2<br />
pin52=DET<br />
pin53=VP2[8V]<br />
pin54=CVBS1 OUT<br />
pin55=Decoupling Digital Supply<br />
pin56=H OUT<br />
pin57=FlyBack In<br />
pin58=Phase2 Filt<br />
pin59=Phase1 Filt<br />
pin60=GND2<br />
pin61=GND3<br />
pin62=East West Drive Out<br />
pin63=Vertical Drive B<br />
pin64=Vertical Drive A<br />
------------------------<br />
<br />
<br />
TDA884x TDA885x<br />
chroma prossesor<br />
@56pin[28x2]=<br />
TDA8840<br />
TDA8841<br />
TDA8842<br />
TDA8846<br />
TDA8846A<br />
TDA8843<br />
TDA8844<br />
TDA8847<br />
@64pin[SMD]=<br />
TDA8840H<br />
TDA8841H<br />
TDA8842H<br />
TDA8854H<br />
TDA8857H<br />
<br />
berikut pin out/in,<br />
<br />
sdip56<br />
------------------------<br />
pin1 =SOUND IF<br />
pin2 =AUDIO IN ext<br />
pin3 =NC<br />
pin4 =NC<br />
pin5 =PLL IF<br />
pin6 =IF VERT OUT<br />
pin7 =SCL<br />
pin8 =SDA<br />
pin9 =DEC GB<br />
pin10 =CHROMA<br />
pin11 =CVBS/Y<br />
pin12 =VP1<br />
pin13 =CVBS int<br />
pin14 =GND1<br />
pin15 =AUDIO OUT<br />
pin16 =SEC PLL<br />
pin17 =CVBS ext<br />
pin18 =BLK IN<br />
pin19 =B OUT<br />
pin20 =G OUT<br />
pin21 =R OUT<br />
pin22 =BCL IN<br />
pin23 =R IN<br />
pin24 =G IN<br />
pin25 =B IN<br />
pin26 =RGB IN<br />
pin27 =LUMINAN IN<br />
pin28 =LUMINAN OUT<br />
pin29 =B-Y OUT<br />
pin30 =R-Y OUT<br />
pin31 =B-Y IN<br />
pin32 =R-Y IN<br />
pin33 =REF OUT<br />
pin34 =XTAL1<br />
pin35 =XTAL2<br />
pin36 =DET<br />
pin37 =VP2<br />
pin38 =CVBS1 OUT<br />
pin39 =DEC DIG<br />
pin40 =H OUT<br />
pin41 =FB IN<br />
pin42 =PHASE2 FIL<br />
pin43 =PHASE1 FIL<br />
pin44 =GND2<br />
pin45 =EWD<br />
pin46 =VERT DRV B<br />
pin47 =VERT DRV A<br />
pin48 =IF IN1<br />
pin49 =IF IN2<br />
pin50 =EHT OUT<br />
pin51 =VSC<br />
pin52 =IREFF<br />
pin53 =DEC AGC<br />
pin54 =AGC OUT<br />
pin55 =AUDIO DEEMP<br />
pin56 =DECSDEM<br />
<br />
<br />
TDA935x-TDA936x-TDA938x SINGLE PROSSESER<br />
<br />
PIN OUTPUT<br />
---------------------------<br />
PHILIPS UOC<br />
TDA 9363PS/N2<br />
TDA 9365PS/N2<br />
TDA 9384PS/N2<br />
TDA 9386PS/N2<br />
---------------------------<br />
TDA 9381PS/N2<br />
---------------------------<br />
TDA 9351PS/N2<br />
---------------------------<br />
D.L.L<br />
---------------------------<br />
pin1 =ST-BY[2.6v]-[P1.3/T1]<br />
pin2 =SCL[3.3v]-[P1.6]<br />
pin3 =SDA[3.2v]-[P1.7]<br />
pin4 =TUNING[2.7v]-[P2.0/PWM]<br />
pin5 =AV1[0v]-[P3.0/ADC0]<br />
pin6 =AV2[5v]-[P3.1/ADC1]<br />
pin7 =KEY-LED[3.3v]-[P3.2/ADC2]<br />
pin8 =STATUS AVGRAD[0v]-[P3.3/ADC3]<br />
pin9 =VSS-C/P[0v]<br />
pin10 =BAND1 SYSTEM[0v]<br />
pin11 =M/L/L:[4.6v]<br />
pin12 =VSS-A[0v]<br />
pin13 =SECPLL[2.3v]<br />
pin14 =VP2[7.9v]<br />
pin15 =DEC-DIG[5.0v]<br />
pin16 =PH2LF[3.5v]<br />
pin17 =PH1LF[3.9v]<br />
pin18 =GND3<br />
pin19 =DEC-BG[4.0v]<br />
pin20 =AVL/EWD[4.8v]<br />
pin21 =VDRB[1.1v]<br />
pin22 =VDRA[1.1v]<br />
pin23 =IF1[1.9v]<br />
pin24 =IF2[1.9v]<br />
pin25 =IREF[3.9v]<br />
pin26 =VSC[3.8v]<br />
pin27 =TUNER AGC[1.7v]<br />
pin28 =AUDEEM/SIF1[3.1v]<br />
pin29 =DECSDM/SIF2[2.3v]<br />
pin30 =GND2<br />
pin31 =SOUND PLL/SIF AGC[2.2v]<br />
pin32 =AVL/REFO[0v]<br />
pin33 =H-OUT[0.6v]<br />
pin34 =FBISO[0.5v]<br />
pin35 =AUDIO EXT/QSSO[3.7v]<br />
pin36 =EHTO[1.7v]<br />
pin37 =PLLIF[2.4]<br />
pin38 =IFVO/SVO[3.3v]<br />
pin39 =VP1[7.9v]<br />
pin40 =CVBS INT[3.9v]<br />
pin41 =GND1<br />
pin42 =CVBS/Y[3.7v]<br />
pin43 =CHROMA[1.5v]<br />
pin44 =AUD OUT/AM OUT[3.3v]<br />
pin45 =FBL IN[4v]<br />
pin46 =R2/V IN[2.5v]<br />
pin47 =G2/Y IN[2.5v]<br />
pin48 =B2/U IN[2.5v]<br />
pin49 =BCL IN[2.3v]<br />
pin50 =IBLACK[5.9v]<br />
pin51 =R OUT[3.1v]<br />
pin52 =G OUT[3.1v]<br />
pin53 =B OUT[3.1v]<br />
pin54 =VDD-A[3.3v]<br />
pin55 =VPE[0v]<br />
pin56 =VDD-C[3.3v]<br />
pin57 =OSC-GND<br />
pin58 =XTAL[12M]<br />
pin59 =XTAL[12M]<br />
pin60 =RESET[0v]<br />
pin61 =VDD-P[3.3v]<br />
pin62 =GRAD[0v]-[P1.0/INT1]<br />
pin63 =STAT[0v]-[P1.1/T0]<br />
pin64 =IR IN[4.9v]-[P1.2/INT0]<br />
<br />
<br />
TDA837X<br />
CHROMA PROSESOR<br />
<br />
<br />
SDIP56=<br />
-TDA8374B<br />
-TDA8374<br />
-TDA8374A<br />
-TDA8375<br />
-TDA8375A<br />
-TDA8373<br />
-TDA8377<br />
-TDA8377A<br />
QFP64=<br />
-TDA8374BH<br />
-TDA8374AH<br />
-TDA8375AH<br />
SUSUNAN PINNYA<br />
1=10= SIF= sound IF input<br />
2=11= AUDI= external audio input<br />
3=13= VCO1= IF VCO 1 tuned circuit<br />
4=14= VCO2= IF VCO 2 tuned circuit<br />
5=15= PLL= PLL loop filter<br />
6=16= IFVO= IF video output<br />
7=17= SCL= serial clock input (I2C-bus)<br />
8=18= SDA= serial data input/output (I2C-bus)<br />
9=19= DECBG= band gap decoupling<br />
10=20= CHROMA= chrominance input<br />
11=21= CVBS/Y= CVBS/Y input<br />
12=22/23= VP1= = main supply voltage (+8 V)<br />
13=24= CVBSint= internal CVBS input<br />
14=25= GND1= and 26 ground<br />
15=27= AUDO= audio output<br />
16=28= DECFT= decoupling filter tuning<br />
17=29= CVBSext= external CVBS input<br />
18=30= BLKIN= black current input<br />
19=31= BO= blue output<br />
20=32= GO= green output<br />
21=33= RO= red output<br />
22=34= BCLIN= beam current input<br />
23=35= RI= red input<br />
24=36= GI= green input<br />
25=37= BI= blue input<br />
26=38= RGBIN= RGB insertion input<br />
27=39= YIN= luminance input<br />
28=40= YOUT= luminance output<br />
29=45= BYO= (B - Y) output<br />
30=46= RYO= (R - Y) output<br />
31=47= RYI= (R - Y) input<br />
32=48= BYI=(B - Y) input<br />
33=49= SECref=SECAM reference output<br />
34=50= XTAL1= 3.58 MHz crystal connection<br />
35=51=XTAL2= 4.43 MHz crystal connection36=52= LFBP = loop filter burst phase detector<br />
37=53= VP2= horizontal oscillator supply voltage (+8 V)<br />
38=54= CVBSO= CVBS output<br />
39=55= BLPH= black peak hold capacitor<br />
40=56= HOUT= horizontal drive output<br />
41=57= FBI/SCO= flyback input and sandcastle output<br />
42=58= PH2= phase 2 filter/protection<br />
43=59= PH1= phase 1 filter<br />
44=60/61= GND2= ground 2<br />
45=62= EWD= east-west drive output<br />
46=63= VDOB= vertical drive output B<br />
47=64= VDOA= vertical drive output A<br />
48= 1= IFIN1= IF input 1<br />
49= 2= IFIN2= IF input 2<br />
50= 3= EHT/PRO= EHT/overvoltage protection input<br />
51= 4= VSAW= vertical sawtooth capacitor<br />
52= 5= Iref= reference current input<br />
53= 6= DECAGC = AGC decoupling capacitor<br />
54= 7= AGCOUT= tuner AGC output<br />
55= 8= AUDEEM = audio deemphasis<br />
56= 9= DEC= decoupling sound demodulator<br />
i.c=12= internally connected<br />
i.c=41= internally connected<br />
i.c=42= internally connected<br />
i.c=43= internally connected<br />
i.c=44= internally connected<br />
<br />
TMPA 8803 CSN<br />
TMPA 8803 CSN<br />
pin 1=FM<br />
pin 2=AFC<br />
pin 3=KEY<br />
pin 4=GND<br />
pin 5=RESET<br />
pin 6=XTAL<br />
pin 7=XTAL<br />
pin 8=TEST<br />
pin 9=VCC (5V)<br />
pin10=GND<br />
pin11=GND<br />
pin12=FBP IN/SCP OUT<br />
pin13=H-OUT<br />
pin14=H-AFC<br />
pin15=V-SAW<br />
pin16=V-OUT<br />
pin17=H-VCC (9V)<br />
pin18=NC<br />
pin19=Cb<br />
pin20=Y IN<br />
pin21=Cr<br />
pin22=TV GND<br />
pin23=C IN<br />
pin24=EXT-IN<br />
pin25=DIGITAL GND<br />
pin26=TV IN<br />
pin27=ABCL<br />
pin28=AUDIO OUT<br />
pin29=VCC-IF (9V)<br />
pin30=TV OUT<br />
pin31=SIF OUT<br />
pin32=EXT-AUDIO<br />
pin33=SIF IN<br />
pin34=DC-NF<br />
pin35=DIF-PLL<br />
pin36=VCC-IF (5V)<br />
pin37=S-REG<br />
pin38=DEEPNPH<br />
pin39=IF AGC<br />
pin40=IF GND<br />
pin41=IF IN<br />
pin42=IF IN<br />
pin43=RF AGC<br />
pin44=VCC-Y/C (5V)<br />
pin45=AV OUT<br />
pin46=BLK DET<br />
pin47=APC FILT<br />
pin48=IKIN<br />
pin49=VCC-RGB (9V)<br />
pin50=R OUT<br />
pin51=G OUT<br />
pin52=B OUT<br />
pin53=GND<br />
pin54=GND F<br />
pin55=VCC (5V)<br />
pin56=MUTE<br />
pin57=SDA<br />
pin58=SCL<br />
pin59=P/N<br />
pin60=AV1<br />
pin61=AV2<br />
pin62=TV SYNC<br />
pin63=REMOT (IR)<br />
pin64=ST-BY<br />
<br />
<br />
TMPA 8851<br />
<br />
-------------------------<br />
TMPA8851<br />
-------------------------<br />
pin1 =P6.1-ADC8bit-LED1<br />
pin2 =P6.0-ADC8bit<br />
pin3 =P5.3-<br />
pin4 =VSS-D<br />
pin5 =RESET<br />
pin6 =XTAL[8M]<br />
pin7 =XTAL[8M]<br />
pin8 =TEST<br />
pin9 =VDD-D[5V]<br />
pin10 =VSS-V<br />
pin11 =TV-AGND<br />
pin12 =FBP-IN/SCP-OUT<br />
pin13 =H-OUT<br />
pin14 =H-AFC1<br />
pin15 =V-SAW<br />
pin16 =V-OUT<br />
pin17 =VCC-H[9V]<br />
pin18 =S-FILTER<br />
pin19 =Cb-IN<br />
pin20 = Y-IN<br />
pin21 =Cr-in<br />
pin22 =TV-DGND<br />
pin23 =C-IN<br />
pin24 =EXT.CVBS/Y<br />
pin25 =VCC-D[9V]<br />
pin26 =TV IN[1vpp]<br />
pin27 =ABCL<br />
pin28 =AUDIO-OUT<br />
pin29 =VCC-IF[9V]<br />
pin30 =TV OUT[2.2vpp]<br />
pin31 =SIF-OUT<br />
pin32 =EXT.AUDIO<br />
pin33 =H-corr/SIF-IN<br />
pin34 =DC-NF<br />
pin35 =PIF-PLL<br />
pin36 =VCC-IF[5V]<br />
pin37 =S-REG.F<br />
pin38 =DE-EMP<br />
pin39 =IF-AGC<br />
pin40 =IF-GND<br />
pin41 =IF-IN<br />
pin42 =IF-IN<br />
pin43 =RF-AGC<br />
pin44 =VCC-Yc[5V]<br />
pin45 =MONITOR-OUT<br />
pin46 =BLK-DET<br />
pin47 =APC-FILTER<br />
pin48 =SYNC-OUT<br />
pin49 =VCC-RGB[9V]<br />
pin50 =R-OUT<br />
pin51 =G-OUT<br />
pin52 =B-OUT<br />
pin53 =TV-AGND<br />
pin54 =MP-AGND<br />
pin55 =VDD-A[5V]<br />
pin56 =P5.6<br />
pin57 =P5.2/SDA<br />
pin58 =P5.1/SCL<br />
pin59 =P5.0/PWM7bit/TC2/int0<br />
pin60 =P4.0/PWM14bit<br />
pin61 =P2.0/int5/STOP<br />
pin62 =P3.1/int4/TC3<br />
pin63 =P3.0/int3/RXIN<br />
pin64 =P6.3/LED2<br />
skema toshiba.<br />
PERHATIAN DATA DARI SKEMA<br />
BUKAN DARI DATA SHEET<br />
<br />
<br />
<br />
LC 863528C – TV CHINO<br />
<br />
<br />
LC863316A MICRO COMPUTER pada tv KONKA<br />
---------------------------------<br />
<br />
pin1 =BASS/ON-OFF<br />
pin2 =S-SEL<br />
pin3 =SECAM<br />
pin4 =NICAM RESET<br />
pin5 =VOL<br />
pin6 =COMB.F<br />
pin7 =POWER<br />
pin8 =VT<br />
pin9 =GND<br />
pin10 =XTAL[32khz]<br />
pin11 =XTAL[32khz]<br />
pin12 =VDD<br />
pin13 =KEY IN<br />
pin14 =AFT IN<br />
pin15 =AGC IN<br />
pin16 =OPTION SEL<br />
pin17 =RESET<br />
pin18 =FILT<br />
pin19 =OPTION SEL<br />
pin20 =VSYNC<br />
pin21 =HSYNC<br />
pin22 =R OSD<br />
pin23 =G OSD<br />
pin24 =B OSD<br />
pin25 =BLANK<br />
pin26 =N.C<br />
pin27 =DATA<br />
pin28 =CLOCK<br />
pin29 =SDA<br />
pin30 =SCL<br />
pin31 =SAFTY<br />
pin32 =PC<br />
pin33 =SD<br />
pin34 =REMOCON<br />
pin35 =SIF1<br />
pin36 =SIF2<br />
pin37 =TV/AV<br />
pin38 =AV1/AV2<br />
pin39 =MUTE<br />
pin40 =BAND3/BU<br />
<br />
pin41 =BAND2/BH<br />
pin42 =BAND1/BL<br />
kebanyakan diaplikasikan untuk tv china<br />
mungkin karena harganya yang ekonomis<br />
dan partner mikom ini biasanya LA76810<br />
atau LA76818 dan chasis lama ada yang<br />
menggunakan pasangan jenis chroma Mxxx<br />
<br />
<br />
KUMPULAN MIKOM GOLDSTAR<br />
-------------------------<br />
GS8434-01B<br />
-------------------------<br />
pin1 =MENU<br />
pin2 =ENTER<br />
pin3 =VOL -<br />
pin4 =VOL +<br />
pin5 =PROG -<br />
pin6 =PROG +<br />
pin7 =...<br />
pin8 =...<br />
pin9 =BAND/OP<br />
pin10 =TXT SYNC ID<br />
pin11 =TXT OSD<br />
pin12 =TXT MODE<br />
pin13 =...<br />
pin14 =UH<br />
pin15 =VH<br />
pin16 =VL<br />
pin17 =...<br />
pin18 =NC<br />
pin19 =AV1<br />
pin20 =AV-IN<br />
pin21 =DEFEAT<br />
pin22 =IDENT<br />
pin23 =NTSC IDENT<br />
pin24 =ON/OFF<br />
pin25 =...<br />
pin26 =IR<br />
pin27 =...<br />
pin28 =...<br />
pin29 =...<br />
pin30 =...<br />
pin31 =GND<br />
pin32 =AV2 TXT/TV<br />
pin33 =AV-ID<br />
pin34 =XTAL[4MHZ]<br />
pin35 =XTAL[4MHZ]<br />
pin36 =RESET[5.1V]<br />
pin37 =NC<br />
pin38 =TUNING<br />
pin39 =GND<br />
pin40 =GND<br />
<br />
pin41 =GND<br />
pin42 =AFC-IN<br />
pin43 =...<br />
pin44 =...<br />
pin45 =EXCOIL[47UH]<br />
pin46 =XCOIL [47UH]<br />
pin47 =H-SYNC<br />
pin48 =V-SYNC<br />
pin49 =R<br />
pin50 =G<br />
pin51 =B<br />
pin52 =F/B<br />
pin53 =SDA<br />
pin54 =NC<br />
pin55 =SCL<br />
pin56 =VOL<br />
pin57 =TINT<br />
pin58 =CONTRAST<br />
pin59 =COLOR<br />
pin60 =BRIGHT<br />
pin61 =GND<br />
pin62 =GND<br />
pin63 =...<br />
pin64 =B+<br />
<br />
<br />
GOLDSTAR<br />
TMPS8801PSAN PROGRAM TIPI JADUL<br />
------------------<br />
pin01.PW<br />
pin02.ST-BY<br />
pin03.KEY<br />
pin04.GND<br />
pin05.RESET<br />
pin06.XTAL<br />
pin07.XTAL<br />
pin08.TEST<br />
pin09.5V<br />
pin10.GND<br />
pin11.GND<br />
pin12.FBP-IN/SCP-OUT<br />
pin13.H-OUT<br />
pin14.H-AFC<br />
pin15.V-SAW<br />
pin16.V-OUT<br />
pin17.H-VCC<br />
pin18.NC<br />
pin19.Cb<br />
pin20.y-IN<br />
pin21.Cr<br />
pin22.TV-GND<br />
pin23.C-IN<br />
pin24.EXT-IN<br />
pin25.D-VCC/5V<br />
pin26.TV-IN<br />
pin27.ABCL-IN<br />
pin28.AUDIO-OUT<br />
pin29.IF-VCC/9V<br />
pin30.TV-OUT<br />
pin31.SIF-OUT<br />
pin32.EXT-AUDIO<br />
pin33.SIF-IN<br />
pin34.DC-NF<br />
pin35.PIF-PLL<br />
pin36.IF-VCC<br />
pin37.S-REG<br />
pin38.DEEMPH<br />
pin39.IF-AGC<br />
pin40.IF-GND<br />
<br />
pin41.IF-IN<br />
pin42.IF-IN<br />
pin43.RF-AGC<br />
pin44.YC-VCC/5V<br />
pin45.MONITOR-OUT<br />
pin46.BLACK-DET<br />
pin47.APC-FIL<br />
pin48.IKIN<br />
pin49.RGB-VCC/9V<br />
pin50.R-OUT<br />
pin51.G-OUT<br />
pin52.B-OUT<br />
pin53.GND<br />
pin54.GND<br />
pin55.5V<br />
pin56.MUTE<br />
pin57.SDA1<br />
pin58.SCL1<br />
pin59.TV/AV<br />
pin60.VOL<br />
pin61.AV-SW<br />
pin62.TV-SYNC<br />
pin63.RMT-IN<br />
pin64.POWER<br />
<br />
<br />
GOLDSTAR<br />
<br />
TMP87PS38N-3K49<br />
<br />
01.VSS/GND<br />
02.VT<br />
03.50/60HZ<br />
04.MUTE<br />
05.EXT-MUTE<br />
06.SID<br />
07.POWER<br />
08.U-BAND<br />
09.H-BAND<br />
10.L-BAND<br />
11.SCL.1<br />
12.SDA.1<br />
13.AFC-IN<br />
14.AV.O<br />
15.AV.1<br />
16.KEY.1<br />
17.KEY.2<br />
18.PROT<br />
19.KARA-DAT<br />
20.BUS-ON/OFF<br />
21.VSS/GND<br />
22.R<br />
23.G<br />
24.B<br />
25.Y<br />
26.HD<br />
27.VD<br />
28.OSC.1<br />
29.OSC.2<br />
30.TEST<br />
31.X-IN<br />
32.X-OUT<br />
33.RESET<br />
34.OPTION<br />
35.REMOT<br />
36.H-SYNC<br />
37.SCL.0<br />
38.SDA.0<br />
39.KARA-ON/OFF<br />
40.SYS.0<br />
41.SYS.1<br />
42.VDD/<br />
<br />
<br />
GOLDSTAR<br />
IX 3031 CE<br />
<br />
IX 3031 CE (MICOM/PROGRAM)<br />
<br />
pin1 = H SYNC<br />
pin2 =V SYNC<br />
pin3 =ST-BY LED<br />
pin4 =POWER LED<br />
pin5 =AV1/AV2<br />
pin6 =AV/TV<br />
pin7 =SIF MODE AV<br />
pin8 =S VOL<br />
pin9 =KEY IN<br />
pin10 =R/C IN<br />
pin11 =DEF (OP.1)<br />
pin12 =MUTE SOUND OUT<br />
pin13 =SW1 (BILINGUAL)<br />
pin14 =SW2 (B/G)<br />
pin15 =POWER<br />
pin16 =AUDIO SURROUND<br />
pin17 =ON/OFF BILINGUAL(OP.4)<br />
pin18 =CN VSS<br />
pin19 =XTAL IN<br />
pin20 =XTAL OUT<br />
pin21 =VSS<br />
pin22 =VDD (5 VOLT)<br />
pin23 =EXT BUS<br />
pin24 =SETUP<br />
pin25 =RESET<br />
pin26 =...<br />
pin27 =B+ DETECT<br />
pin28 =AFT IN<br />
pin29 =SYNC IN<br />
pin30 =PROTECT IN<br />
pin31 =TUNER (OP.3)<br />
pin32 =SDA<br />
pin33 =OSD (OP.2)<br />
pin34 =SCL<br />
pin35 =AUDIO/VIDEO MUTE<br />
pin36 =DL POWER<br />
pin37 =POWER<br />
pin38 =VIDEO MUTE<br />
pin39 =BLK<br />
pin40 =BLUE<br />
pin41 =GREEN<br />
pin42 =RED<br />
<br />
<br />
<br />
AN5521 VERTICAL DEFLECTION<br />
pin01=.ground<br />
pin02=.output<br />
pin03=.supply output [24volt]<br />
pin04=.input<br />
pin05=.trigger pulse input<br />
pin06=.pulse amp output<br />
pin07=.VCC[24volt]<br />
<br />
<br />
<br />
AN5534CN VERTICAL DRIVER<br />
pin1 =VCC1<br />
pin2 =TRIGGER IN<br />
pin3 =RAMP GENERATOR<br />
pin4 =50/60HZ SW<br />
pin5 =SAW TOOTH WAVE GENERATION<br />
pin6 =FEEDBACK IN<br />
pin7 =VCC2<br />
pin8 =PUMP UP<br />
pin9 =GROUND<br />
pin10=OUTPUT<br />
pin11=output stage VCC<br />
pin12=OSCILLATOR<br />
<br />
<br />
KA 2131 VERTICAL DRIVER<br />
<br />
1 .GND<br />
2 .OUTPUT<br />
3 .nc<br />
4 .AMP VOLTAGE<br />
5 .OSC BLOCKING<br />
6 .V,SAWTOOTH IN/osc signal<br />
7 .BLK PULSE IN<br />
8 .BLK PULSE OUT<br />
9 .VCC[24V max]<br />
10.nc<br />
<br />
<br />
LA 7837-LA 7838 vertical deflection<br />
<br />
1.vcc1[9v]<br />
2.trigger in<br />
3.time constant<br />
4.amplitude control<br />
5.50hz/60hz switch<br />
6.ramp generator<br />
7.ac/dc feedback<br />
8.vcc2[24v]<br />
9.pump-up out<br />
10.osc.stop<br />
11.gnd<br />
12.v.out<br />
13.pwr supply v.out<br />
<br />
<br />
LA7840 VERTICAL DEFLEKSION<br />
<br />
PIN DESCRIPTION<br />
1.ground<br />
2.vert.output<br />
3.output stage<br />
4.non inverting input<br />
5.inverting input<br />
6.vcc[24v]<br />
7.pump-up output<br />
NOTES:<br />
ic ini susunan pinnya sama dengan dengan LA78040 cuma bentuk fisiknya saja yang berbeda<br />
<br />
<br />
<br />
doubel power supply<br />
<br />
LA 78040<br />
<br />
<br />
stv9326 VERTICAL BOOSTER<br />
pin info=<br />
pin01.input inverting<br />
pin02.vcc<br />
pin03.flyback generator<br />
pin04.ground<br />
pin05.output<br />
pin06.output vcc<br />
pin07.input noninverting<br />
<br />
<br />
<br />
STV9379F VERTICAL DEFLECTION<br />
Pin output..............<br />
1.in/inverting...<br />
2.VCC [min10v,max50v]...<br />
3.flyback[max100v]...<br />
4.GND...<br />
5.output...<br />
6.output stage supply...<br />
7.in/non inverting...<br />
<br />
<br />
TA8427/8403 VERTICAL<br />
<br />
<br />
TA8427<br />
1. GND<br />
2. Vertical Output<br />
3. Pump-up Power Supply<br />
4. Input<br />
5. Phase Compensation<br />
6. Power Supply [27V]<br />
7. Pump-up Output<br />
<br />
TA8403<br />
1. GND<br />
2. Vertical Output<br />
3. Pump-up Power Supply<br />
4. Input<br />
5. Phase Compensation<br />
6. Power Supply [24V]<br />
7. Pump-up Output<br />
<br />
<br />
TA 8403 K<br />
<br />
<br />
TA 8427 K<br />
<br />
<br />
TA 8445 K<br />
<br />
<br />
TDA1675A VERTICAL DEFLECTION<br />
<br />
<br />
TDA8172 VERTICAL BOOST<br />
<br />
TDA8174A/8174AW VERTICAL DEFLECTION<br />
TDA 8174 / 8174 W<br />
<br />
<br />
TDA 8356 VERTICAL<br />
pin1=INPUT A<br />
pin2=INPUT B<br />
pin3=VP+[9-25v]<br />
pin4=V OUTPUT B<br />
pin5=GND/-<br />
pin6=FLYBACK[50v max]<br />
pin7=OUTPUT A<br />
pin8=VO[guard]<br />
pin9=VI feedback in<br />
SUSUNAN PIN SAMA DENGAN<br />
TDA8357 DAN TDA8359<br />
<br />
<br />
TDA 8359 J VERTICAL FULLBRIDGE<br />
pin1=INPUT A<br />
pin2=INPUT B<br />
pin3=VP[12V]<br />
pin4=OUTPUT B<br />
pin5=GND<br />
pin6=FlyBack VOLTAGE[45v max]<br />
pin7=OUTPUT A<br />
pin8=GUARD OUT/PROTECK<br />
pin9=FEED BACK IN<br />
<br />
konfigurasi pinnya sama dengan TDA8356 dan TDA8357<br />
dan bila ada yang mau berexperimen silahkan tidak dilarang<br />
dan resiko ditanggung penumpang<br />
<br />
TDA 8357 J<br />
<br />
<br />
AN 5265 AUDIO<br />
<br />
<br />
<br />
AN5265<br />
<br />
pin09.Supply voltage 2<br />
pin08.Sound output<br />
pin07.GND<br />
pin06.Feedback<br />
pin05.Filter<br />
pin04.Volume adjustment<br />
pin03.Mute<br />
pin02.Sound Input<br />
pin01.Supply Voltage 1<br />
<br />
<br />
AN 5276 AUDIO POWER<br />
VCC = 10 volt – 24 volt ( 19 volt typical)<br />
<br />
[1.n.c]...[2.INPUT 1]...<br />
Pin01.n.c<br />
Pin02.input 1<br />
Pin03.ripple filter<br />
Pin04.ground[in]<br />
Pin05.input 2<br />
Pin06.n.c<br />
Pin07.output 2<br />
Pin08.mute<br />
Pin09.ground[out]<br />
Pin10.vcc/max.26v<br />
Pin11.st-by<br />
Pin12.output 1<br />
<br />
<br />
AN5285K<br />
<br />
AN5285K/AUDIO<br />
<br />
pin01=.L.IN<br />
pin02=.LVL1.SENSOR<br />
pin03=.L.OUT<br />
pin04=.VCC (13 volt)<br />
pin05=.V.REF<br />
pin06=.GND<br />
pin07=.AGC.ON/OFF<br />
pin08=.R.OUT<br />
pin09=.LVL2.SENSOR<br />
pin10=.R.IN<br />
<br />
<br />
<br />
AN 7124 AUDIO POWER 4 WATT<br />
VCC = 6 volt – 18 volt<br />
<br />
<br />
AN 7147 N AUDIO POWER 5,3 WATT<br />
VCC = 5 volt – 22 volt<br />
<br />
pin01 .NFB ch1<br />
pin02 .INPUT ch1<br />
pin03 .RIPPLE FILT<br />
pin04 .GND in<br />
pin05 .INPUT ch2<br />
pin06 .NFB ch2<br />
pin07 .OUTPUT 2<br />
pin08 .BOOTH STRAP ch2<br />
pin09 .GND out<br />
pin10.VCC<br />
pin11.BOOTH STRAP ch1<br />
pin12.OUTPUT 1<br />
<br />
<br />
<br />
AN7522<br />
<br />
AN7522/AUDIO<br />
<br />
pin01=.VCC/ (3,5 – 13,5 volt, typikal 8 volt)<br />
pin02=.CH.1out+<br />
pin03=.GND<br />
pin04=.CH.1out-<br />
pin05=.ST-BY<br />
pin06=.CH.1in<br />
pin07=.GND<br />
pin08=.CH.2in<br />
pin09=.VOL<br />
pin10=.CH.2out-<br />
pin11=.GND<br />
pin12=.CH.2out+<br />
<br />
<br />
<br />
LA4220 UNTUK AUDIO<br />
VCC max. 22 volt<br />
output = 3,5 watt<br />
<br />
pin01=GND<br />
pin02=OUTPUT<br />
pin03=VCC[16v]<br />
pin04=[13v]<br />
pin05=[12v]<br />
pin06=[9,6v]<br />
pin07=1,8v]<br />
pin08=.....<br />
pin09=........<br />
pin10=input<br />
<br />
<br />
LA42352<br />
<br />
LA42352/SOUND<br />
<br />
pin01=FILTER<br />
pin02=INPUT 1<br />
pin03=GROUND<br />
pin04=INPUT 2<br />
pin05=ST-BY<br />
pin06=VOLUME 2<br />
pin07=VCC[20V]<br />
pin08=OUTPUT 2<br />
pin09=NC<br />
pin10=GROUND<br />
pin11=NC<br />
pin12=OUTPUT 1<br />
pin13=VOLUME 1<br />
sumber data skematic tv china chasis_3Y18<br />
untuk lebih detailnya coba cari datasheetnya<br />
<br />
<br />
LA 42152 audio ampl 15W x 2 ch<br />
<br />
<br />
<br />
LA 4265 AUDIO AMP 3,5 WATT<br />
vcc = 9 – 24 volt ( 16 volt typikal)<br />
<br />
pin01=GND<br />
pin02=OUTPUT<br />
pin03=VCC<br />
pin04=nc<br />
pin05=DECOUPLING<br />
pin06=PHASE 1<br />
pin07=PHASE 2<br />
pin08=CLIPPER DIODE<br />
pin09=FEEDBECK<br />
pin10=INPUT<br />
<br />
<br />
POWER AMPLYFIER LA 4280<br />
VCC = 10 – 40 volt (32 volt typikal)<br />
<br />
pin01=phase1<br />
pin02=feed back1<br />
pin03=input1<br />
pin04=Ripple<br />
pin05=GND<br />
pin06=input2<br />
pin07=feed back2<br />
pin08=phase2<br />
pin09=muting<br />
pin10=GND[out]<br />
pin11=output2<br />
pin12=vcc<br />
pin13=output1<br />
pin14=GND[out]<br />
<br />
<br />
LA 4285-LA4287 AUDIO AMP 7 WATT<br />
pin1.int INPUT<br />
pin2.GND<br />
pin3.ext INPUT<br />
pin4.SWITCH [int/ext]<br />
pin5.EVR control<br />
pin6.DE-COUPLING<br />
pin7.PWR NF<br />
pin8.GND<br />
pin9.OUTPUT<br />
pin10.VCC<br />
<br />
ket supply=<br />
LA4285=16V-24V<br />
LA4287=20V-30V<br />
<br />
<br />
LA4485 STEREO POWER AMP 5WATT<br />
pin01=input 1<br />
pin02=input 2<br />
pin03=.GND<br />
pin04=.BTL in<br />
pin05=.BTL out<br />
pin06=.filter<br />
pin07=.VCC/ls[13.2volt]<br />
pin08=.VCC/ss[13,2volt]<br />
pin09=.st-by<br />
pin10=.mute<br />
pin11=.output 2<br />
pin12=.ground-out<br />
pin13=.output 1<br />
<br />
<br />
TDA7266S AUDIO<br />
pin01=output1[- ]<br />
pin02=output1[+]<br />
pin03=vcc1<br />
pin04=input1<br />
pin05=nc<br />
pin06=mute<br />
pin07=st-by<br />
pin08=gnd/pwr<br />
pin09=gnd/in<br />
pin10=nc<br />
pin11=nc<br />
pin12=input2<br />
pin13=vcc2<br />
pin14=output2[+]<br />
pin15=output2[- ]<br />
<br />
<br />
LV 1116 N/NF SURROUND PROSESOR<br />
-------------------<br />
pin01=GND<br />
pin02=Rch A<br />
pin03=Rch B<br />
pin04=Rch C<br />
pin05=Rch LINE OUT<br />
pin06=Rch DC<br />
pin07=ST 1<br />
pin08=LPFC<br />
pin09=Rch TC1<br />
pin10=Rch BC1<br />
pin11=Rch BC2<br />
pin12=Rch OUTPUT<br />
pin13=Rch VR IN<br />
pin14=Rch VR OUT<br />
pin15=L+R<br />
pin16=VREF<br />
pin17=VCC<br />
pin18=VDD<br />
pin19=DATA<br />
pin20=CLOCK<br />
pin21=VSS<br />
pin22=L+R LPF<br />
pin23=Lch VR OUT<br />
pin24=Lch VR IN<br />
pin25=Lch OUTPUT<br />
pin26=Lch BC2<br />
pin27=Lch BC1<br />
pin28=Lch TC1<br />
pin29=HPF C<br />
pin30=ST2<br />
pin31=Lch DC<br />
pin32=Lch LINE OUT<br />
pin33=Lch C<br />
pin34=Lch B<br />
pin35=Lch A<br />
pin36=GND A<br />
<br />
TA 8248 k audio power<br />
1.n.c,,2.B.S,,3.out2,,,<br />
PINOUT=<br />
pin01.n.c<br />
pin02.B.S<br />
pin03.out2<br />
pin04.vcc1<br />
pin05.out1<br />
pin06.B.S1<br />
pin07.GND<br />
pin08.vcc2<br />
pin09.ripple<br />
pin10.-inv1<br />
pin11.+inv1<br />
pin12.+inv2<br />
pin13.-inv2<br />
pin14.GND<br />
pin15.GND<br />
<br />
<br />
AUDIO TDA 1013 B<br />
<br />
----------------------------<br />
TDA1013B<br />
----------------------------<br />
pin1 =GND<br />
pin2 =OUTPUT<br />
pin3 =VCC<br />
pin4 =FILTER<br />
pin5 =AMP-IN<br />
pin6 =CONT-OUT<br />
pin7 =VOLUME<br />
pin8 =INPUT<br />
pin9 =GND<br />
<br />
<br />
<br />
TDA1521/TDA1521Q STEREO AMP 12WATT<br />
<br />
PIN OUT=<br />
1.in1/non inverting<br />
2.in1/inverting<br />
3.GND<br />
4.OUTPUT 1<br />
5.-Vp symetric[-21v]<br />
6.OUTPUT 2<br />
7.+Vp asymetric[+21v]<br />
8.in2/inverting<br />
9.in2/non inverting<br />
<br />
<br />
<br />
POWER AUDIO TDA 2006<br />
<br />
pin01.-input noninverting<br />
pin02.+input inverting<br />
pin03.vcc -<br />
pin04.output<br />
pin05.vcc +<br />
<br />
<br />
<br />
TDA 2009 POWER AUDIO<br />
<br />
pin1 =L-INPUT<br />
pin2 =LF<br />
pin3 =MUTE<br />
pin4 =RF<br />
pin5 =R-INPUT<br />
pin6 =GND<br />
pin7 =GND<br />
pin8 =R-OUT<br />
pin9 =VCC [25V]<br />
pin10=L-OUT<br />
pin11=GND<br />
<br />
vcc : min = 8 volt;<br />
max = 28 volt<br />
<br />
<br />
TDA 2030<br />
<br />
<br />
pin1=INPUT(non inverting)<br />
pin2=INPUT(inverting)<br />
pin3=VCC(-) (6 volt – 8 volt)<br />
pin4=OUTPUT<br />
pin5=VCC(+)<br />
<br />
UNTUK pemakaian catu daya tunggal<br />
(nol dan positif) pin no.3 digroundingkan<br />
gambar disamping adalah contoh skemanya<br />
yang menghasilkan kurng lebih 14watt,didalam<br />
skema tersebut ada 2 dioda boleh dipakai,dan<br />
boleh juga dihilangkan,<br />
dan yang satu lagi ini adalah untuk pemakaian<br />
catu daya simetris(positif-CT/GND-negatif)<br />
dan selamat mencoba experimennya<br />
<br />
<br />
TDA2615/16 AUDIO POWER<br />
<br />
<br />
<br />
pin1 =INPUT A<br />
pin2 =MUTE<br />
pin3 =C FILTER(100UF to ground)<br />
pin4 =OUTPUT<br />
pin5 =GND<br />
pin6 =OUTPUT<br />
pin7 =VCC (24V)<br />
pin8 =...<br />
pin9 =INPUT B<br />
<br />
TDA 8944 J AUDIO AMP<br />
pin1=.OUT 1[-]<br />
pin2=.GND<br />
pin3=.VCC 1[12V]<br />
pin4=.OUT 1[+]<br />
pin5=.NC<br />
pin6=.INV 1<br />
pin7=.NC<br />
pin8=.N.INV 1<br />
pin9=.N.INV 2<br />
pin10=.MODE<br />
pin11=.SVR<br />
pin12=.INV 2<br />
pin13=.NC<br />
pin14=.OUT 2[-]<br />
pin15=.GND<br />
pin16=.VCC2[12V]<br />
pin17=.OUT 2[+] <br />
<br /></div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com4tag:blogger.com,1999:blog-685668056401993518.post-59834050998053497812013-03-23T22:58:00.001+07:002013-07-12T21:35:00.406+07:00TV GOLDSTAR nyala dan akan stanby setelah beberapa menit/jam<div dir="ltr" style="text-align: left;" trbidi="on">
<h2 class="xt_blog_title">
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUNG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a> </h2>
<h2 class="xt_blog_title">
TV GOLDSTAR nyala dan akan stanby setelah beberapa menit/jam </h2>
<div class="xt_blog_content">
<div class="xt_text normal">
Kejadian
ini sering dialami tv goldstar, setelah kira-kira 30-60 menit tv yang
dalam keadaan nyala akan mati stanby, dan ketika dionkan lagi tv nyala
kembali, setelah berapa menit/jam stanby lagi.. kejadian ini akan terus
berulang. solusi ganti elco driver horisontal 1uf/160v.. body ELCO yang
masih bagus bukan jaminan periksa dengan ESR METER</div>
</div>
</div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com0tag:blogger.com,1999:blog-685668056401993518.post-22497445146259065032013-03-20T23:03:00.000+07:002013-07-12T21:36:02.445+07:00TEKHNIK PEMASANGAN REGULATOR GACUN<div dir="ltr" style="text-align: left;" trbidi="on">
<h3 class="post-title entry-title" itemprop="name">
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a> </h3>
<h3 class="post-title entry-title" itemprop="name">
Power Supply Gacun
</h3>
<div class="post-header">
</div>
<div class="separator" style="clear: both; text-align: center;">
</div>
<br />
<div class="separator" style="clear: both; text-align: center;">
</div>
<div class="separator" style="clear: both; text-align: center;">
<a href="http://servisinstv.blogspot.com/" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><img border="0" height="117" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhgCa4siC2lvED_bcIcqXE4TW19IFhUykfn0xRqjDDFU6nKaJE5n3OnPO_QGPhJcR4xThJKKyYDEAr67E-33APrREf-Yu255OgxmCGS3kfTbm0_Qx3c5huB70witvpgV3emLr5Ov9oxBlmN/s200/untitled.JPG" width="200" /></a></div>
<br />
Kit Power SUpply Gacun adalah Sebuah terobosan yang sangat berguna.
Regulator apapun dan bagaimana pun selama trafo converternya masih
bagus, Kit ini dapat bekerja dengan baik untuk menggantikan rangkaian
regulator aslinya. Dengan membuang habis semua jalur rangkaian regulator
asli
(tentunya yg sudah rusak dan tidak dapat di repair lagi) bagian
primer,dan kita hanya perlu dua titik pasang.Yaitu pin trafo yang
terhubung dengan tegangan input ( VCC) biasanya 300v,dan pin yang menuju
ke collector Transistor /IC regulator.<br />
<br />
Cara pemasangan nya adalah sangat mudah .Regulator gacun hanya
mempunyai tiga (3) jalur kabel; <b style="color: red;">Kabel Merah</b> adalah VCC input yang nantinya
dipasang pada titik trafo yg menuju collector TR/IC regulator. <b>Kabel
hitam</b> adalah ground ( negative) dan <span style="color: blue;">K<b>abel Biru</b> adalah ke jalur Optocoupler, untuk feedback (
pendeteksi perubahan tegangan output, kabel ini bisa dipasang atau pun
boleh dibiarkan saja. </span><br />
<span style="color: #cc0000;">*) Pada Prakteknya, saya tidakpernah memasang kabel Biru ini.</span><br />
<span style="color: blue;"> </span><br />
Jangan di copot capasitor dan resistor yg berada dijalur VCC ke
collector ( kapasitor/resistor osilasi trafo biasanya mulai
680pF-2n2F/2KV).<br />
<br />
Putar trimpot gacun pada posisi minimum ke kiri habis ( CCW ).hidupkan
power supply.dan atur tegangan output regulator sebagaimana mestinya. TV
biasanya 115V untuk B+ nya.5V untuk regulator DVD dsb.<br />
Cara Pasangnya berikut ini :<br />
<br />
<div class="separator" style="clear: both; text-align: center;">
<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhCUOyrOLjzrmBZLkqmC8gS6T3sSQ6_-nqG052Q44ViPpoE-0UJwsRL7a7DnlsIzeD5QWxUH2vGKaGkI-euNNlBiIdnrs8rCAudSR3BZp1OAVBGfrQ9vWnW3p9QfLWRp7DCDX5-s4HcN4Dc/s1600/PASANG+GACUN.jpg" imageanchor="1" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><img border="0" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhCUOyrOLjzrmBZLkqmC8gS6T3sSQ6_-nqG052Q44ViPpoE-0UJwsRL7a7DnlsIzeD5QWxUH2vGKaGkI-euNNlBiIdnrs8rCAudSR3BZp1OAVBGfrQ9vWnW3p9QfLWRp7DCDX5-s4HcN4Dc/s1600/PASANG+GACUN.jpg" /></a></div>
<div class="separator" style="clear: both; text-align: center;">
</div>
<div class="separator" style="clear: both; text-align: justify;">
Cukup mudah bukan? yaaa itung itung klu beli IC mahal..tapi ini hanyalah
sebagai option teraklhir saja </div>
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<h3 class="post-title entry-title">
Perbaikan Regulator Gacun
</h3>
<div class="post-header">
</div>
kerusakan modul switching regulator serbaguna / Gacun biasa disebabkan
beban terlalu berat, overheat/panas berlebih, konslet pada bagian
sekunder, salah pemasangan dsb.<br />
<br />
<br />
<div class="separator" style="clear: both; text-align: center;">
<a href="http://4.bp.blogspot.com/-9KMas_f1hAA/T3Z4KkPU02I/AAAAAAAAAJ0/RaJI8nBOigI/s1600/Gacun-Lingkaran.jpg" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><img border="0" height="88" src="http://4.bp.blogspot.com/-9KMas_f1hAA/T3Z4KkPU02I/AAAAAAAAAJ0/RaJI8nBOigI/s200/Gacun-Lingkaran.jpg" width="200" /></a></div>
Pada gambar komponen yang dilingkari adalah komponon yang sering terjadi dan beruntun. Memang begitu adanya apabila terjadi
kerusakan short pada FET (Q1) arus tegangan akan mengalir langsung ke R2
dan R2 akan putus karena kelebihan beban, dengan putusnya R2
mengakibatkan arus tegangan mengalir lagi pada R3, karena R3 mendapat
supply tegangan yang besar mengakibatkan r3 dan IC rusak.<br />
<br />
<div class="separator" style="clear: both; text-align: center;">
<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhBOKsBF0L1tHSGKKtxJyVSwa3fiRWRDm4LkV9Q7fWxcAKUZCnO_mjVFA0ahwpfOyZPitKCPWWnn3SmcRBipFxr8khuIcISliBraPPiLmKw1FNHf_iDHwmlsmNUSjwkxD3istuFyWYXOYfq/s1600/switching+astelo+gacun.jpg" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><br /></a></div>
Berikut Skemanya Ekuivalentnya:<br />
<div class="separator" style="clear: both; text-align: center;">
<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgGpnf8Fwq32eleU_Q7fjEN8IEC8R8QxXSU_r7jdk0hlP_rGxlj7yo24U5WaeAklxCvW0JqYSG6DF0jRoEsA_ar2tc8VRXAR0Tc2ac3mK3rAn3g5xE8A9Zlb7y-cBruS3zsK0nxVNxsTF2j/s1600/Skema+astelo.jpg" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><br /></a></div>
<br />
<div class="separator" style="clear: both; text-align: center;">
<a href="http://2.bp.blogspot.com/-Pn6kD-Q4S14/T3Z5dsu6nkI/AAAAAAAAAJ8/tTmD01IX0L4/s1600/Skema+GACUN.jpg" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><img border="0" height="154" src="http://2.bp.blogspot.com/-Pn6kD-Q4S14/T3Z5dsu6nkI/AAAAAAAAAJ8/tTmD01IX0L4/s200/Skema+GACUN.jpg" width="200" /></a></div>
<br />
kesimpulan :<br />
- jika kerusakan FET (Q1) short dan R2 putus kemungkinan besar R3 dan IC
rusak dan harus dilakukan penggantian pada Q1, R2, R3 dan IC<br />
- namun jika R2 tidak putus / masih baik komponen yang lain juga baik. dan bisa dilakukan penggantian hanya pada Q1.
<br />
<br />
<br />
<br />
<br />
Bilamana sudah tidak bisa di perbaiki lagi, mending beli yg baru saja.
lagian tidak terlalu mahal khan? daripada waktu anda terbuang percuma.
ingat Waktu adalah uang!!....... ck ckck<br />
<br />
<span style="color: #660000;"><span style="font-size: xx-small;"><span style="font-family: Arial,Helvetica,sans-serif;">Catatan
+ Saran: Jika anda mencoba memperbaiki Blok Gacun ini tetapi Komponen
Q1/FEt susah mendapatkan di toko, anda bisa menggunakan FET eks Monitor
Komputer yang masih bagus, karena rata-rata monitor komputer menggunkan
Blog Switching/PowerSuplay sama seperti cara kerja GACUN ini. Entah ,
Apa Gacun yang mengikuti Blok rangkaian seperti ini.... </span></span></span></div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com9tag:blogger.com,1999:blog-685668056401993518.post-6748559273137111762013-03-20T14:01:00.001+07:002013-07-12T21:37:18.919+07:00PIN IC TMPA8873KPANG<div dir="ltr" style="text-align: left;" trbidi="on">
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhnMsM-45bkcXbWnuBRgNvegF6d9HLbd3SeiwB6jdZUtKOLSVR4eEfp-pxTRX2J0lIUWEpWWc7abGb7G6TmDRc-v2YVlsJHa_ylU4R1zfVeIS9HdJBTx-C1V13BmWGbvjzKXFKkfZCBjlqD/s1600/TMP.jpg" imageanchor="1" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><img border="0" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhnMsM-45bkcXbWnuBRgNvegF6d9HLbd3SeiwB6jdZUtKOLSVR4eEfp-pxTRX2J0lIUWEpWWc7abGb7G6TmDRc-v2YVlsJHa_ylU4R1zfVeIS9HdJBTx-C1V13BmWGbvjzKXFKkfZCBjlqD/s1600/TMP.jpg" /></a></div>
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<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a></div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com0tag:blogger.com,1999:blog-685668056401993518.post-13581017060960242132013-03-20T13:16:00.004+07:002013-07-12T21:38:24.709+07:00PIN IC LC8633XX<div dir="ltr" style="text-align: left;" trbidi="on">
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi0KCISTrR-Au6CImpFbuWV89PUE3VIKOuz4dtu2OZqyiRnucABZcM7ZehbB0KVQxjQ_cmEfGvksOqrGA0lBgEBX6iXCE3ETv1zddUhcXqiPst31bTN-lhyFKCyW9Do6nHV7q-O84mEcsRI/s1600/lc.jpg" imageanchor="1" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><img border="0" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi0KCISTrR-Au6CImpFbuWV89PUE3VIKOuz4dtu2OZqyiRnucABZcM7ZehbB0KVQxjQ_cmEfGvksOqrGA0lBgEBX6iXCE3ETv1zddUhcXqiPst31bTN-lhyFKCyW9Do6nHV7q-O84mEcsRI/s1600/lc.jpg" /></a></div>
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a></div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com0tag:blogger.com,1999:blog-685668056401993518.post-54030837180758209682013-03-17T15:42:00.003+07:002013-07-12T21:39:31.451+07:00problem stanby polytron minimax<div dir="ltr" style="text-align: left;" trbidi="on">
<div class="xt_text normal" style="text-align: justify;">
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a><br />
TV POLYTRON MINIMAX series mempunyai masalah klasik, yaitu kerusakan
yang pertama kali terjadi sejak tv baru di operasikan / dibeli.
Mulai generasi minimax produsen polytron ( PT.Hartono istana electronic )
membuat rancangan power supply jenis baru dari yg sebelumnya
menggunakan TR reg type: D1877/78dengan rangkaian baru menggunakan trafo
jenis baru dan transistor power reg. nya berjenis FET yaitu :FS5KM/FS
7UM / FS 10UM.
Masalah yg sering terjadi pada regulator jenis ini adalah : kalau boleh
saya katakan "cacat produksi " karena pada komponen regulator untuk
mensupply tegangan driver horisontalnya menggunakan kapasitas
10uF/63Volt.Padahal kalau kita lihat di mainboard nya, ukuran untuk
kapasitor ini cetakan nomor komponen dan jarak kaki kapasitor tersebut
seharusnya menggunakan kapasitas yg lebih besar lagi ( contoh pada type
MINIMAX MX 1452 MG ) terlihat di kapasitor nomor : C 507 ( 10uF/63V).
Akibatnya kadang terjadi drop supply tegangan 50Volt untuk driver
horisontal setelah melewati dua buah resistor 470ohm/2watt ke tarfo
driver horisontal.menyebabkan kondisi pesawat TV selalu dalam keadaan
standby.
Inilah kerusakan yg sering terjadi dan pertamakali sebelum kerusakan yg
lain.Jika anda mendapatkan kasus seperti ini dimana kadang tv sangat
sulit dinyalakan,meskipun pada kondisi tertentu bisa hidup,tapi lebih
sulit menyala,maka ikuti tip's saya berikut ini.
Ganti kapasitor tersebut ( c507pada seri MX1452MG) atau sangat mudah
anda cari untuk type yg lain, yaitu elco yg terdekat dengan dua buah
elco besar ( 1000 uF/50v) di depan regulator berkapasitas 10uF/63V, di
ganti dengan elco 100uf/63V atau 100uF/100V.
Saya jamin tv dapat beroperasi secara normal...tambahan: cek juga
resistor 470k pada rangkaian B+adjust,karena sering kali berubah
nilai/meninggi nilainya,juga diode IN4002 dekat elco 2200uf/25v yang
mensupply tegangan 16v yang kemudian di turunkan menjadi 8v dan
5v,seringkali short juga,pada rangkaian ini juga banyak sekali elco
100uf/16v yang rawan menggembung .
</div>
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</div>
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Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com0tag:blogger.com,1999:blog-685668056401993518.post-53985418590855013042013-03-14T21:48:00.000+07:002013-07-12T21:40:36.402+07:00DATA PIN DAN PERSAMAAN PLYBACK TV ( FBT )<div dir="ltr" style="text-align: left;" trbidi="on">
<span class="data-post">
</span>
<br />
<h3 style="margin-bottom: 5.0pt; margin-left: 0in; margin-right: 0in; margin-top: 5.0pt;">
<b><u><span style="font-size: 13.5pt;"><a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a> </span></u></b></h3>
<h3 style="margin: 5pt 0in;">
<b><u><span style="font-size: 13.5pt;">DATA PIN FLYBACK</span></u></b><b><span style="font-size: 13.5pt;"> </span></b></h3>
154-064P (goldstar14")<br />
154-177B (goldstar21")<br />
FCK-14B047 (akari14")<br />
c _ 180v _ b+ _ gnd _ 16v _ 24v _ 40v _ abl _ htr _ afc.<br />
<br />
6174Z-8005C (LG 20")<br />
c - 180 - b+ - gnd - nc - 24 - gnd - abl - ht -afc.<br />
<br />
154-064G (goldstar14")<br />
154-177E untk (goldstar20")<br />
c - 180v - b+(92v) - boost up - 24v - 12v - gnd - abl - htr - afc.<br />
<br />
154 - 132A (intel)<br />
154 - 132C<br />
6174V - 600H (LG 21")<br />
6174Z - 6040C (LG 21")<br />
BSC 23 - N0107 (LG 14")<br />
c _ 40v _ 16,5 _ htr _ gnd _ b+ _ 180v _ gnd _ abl _ 40v<br />
<br />
154 189 C<br />
154 189 H<br />
154 277 C<br />
BSC 22-2314 H<br />
CF 0801-3701<br />
FCM 20B027<br />
c _ b+ _ 180v _ 16v _ 24v _ htr _ gnd _ abl _ afc _ nc.<br />
<br />
6174V-6002U (LG 21")<br />
BSC 26-N2121(N) (LG 21")<br />
c - 180v - b+ - gnd - 12v - 26v - nc - abl - ht - afc<br />
<br />
BSC 65 A (changhong)<br />
c _ b+ _ 190v _ gnd _ nc _ nc _ 14,5v _ abl _ htr _ afc.<br />
<br />
BSC 22-01N401<br />
BSC 22-01N402<br />
BSC 22-01-06<br />
BSC 22-0201<br />
BSC 22-2314B<br />
BSC 23-4404A<br />
BSC 23-14H<br />
BSC 24-14L<br />
BSC 24-01N36<br />
BSC 24-01N362<br />
BSC 24-01N362B<br />
BSC 24-08A<br />
BSC 24-09G<br />
BSC 25-48<br />
BSC 25-4803<br />
BSC 25-4803F<br />
BSC 25-4803T<br />
BSC 25-N0803A<br />
BSC 25-Z601A<br />
c _ b+ _ nc _ afc _ gnd _ htr _ abl _ nc.<br />
<br />
BSC 25-2678S (konka K2169TC)<br />
c _ 200v _ b+ _ gnd _ afc _ 16v _ abl _ ht _ nc _ nc<br />
<br />
BSC 24-01N4014K (china)<br />
BSC 25-01N4010GA (14")<br />
BSC 25-05N2110A<br />
BSC 25-0909<br />
BSC 25-09N20E<br />
BSC 25-09N21A<br />
BSC 25-1003A<br />
BSC 25-1194D024 (14")<br />
BSC 25-2108A<br />
BSC 25-4813P (cina multy)<br />
BSC 25-N1003A-4-R (21")<br />
BSC 25-T1010A<br />
BSC 25-Z603F (21")<br />
BSC 26-0221 (29")<br />
Tep _ c _ tep _ b+ _ tep _ tep _ gnd _ htr _ abl _ 180v.<br />
<br />
DCF 2217 J<br />
c _ b+ _ afc _ boost-up _ 16,5 _ 24 _ abl _ gnd _ 200v _ htr.<br />
<br />
F 0101 KM-SA (sharp 14R20 14")<br />
F 0102 KM-SA (sharp 20R20B, 20R200, 51R200)<br />
F 0141 PE-M<br />
F 0147<br />
c _ b+ _ gnd _ 24V _ 16V _ afc _ 180V _ gnd _ ht _ abl<br />
<br />
F 0122 PE-M (sharp 20Q250)<br />
c _ b+ _ 24V _ 16V _ nc _ afc _ gnd _ ht _ 180V _ abl<br />
<br />
F 0193 PEN1-SA (sharp 14U15)<br />
c _ b+(115) _ gnd _ 40V _ 12V _ afc _ 180V _ gnd _ ht _ abl<br />
<br />
F 0194 PEN1-SA (sharp 20R200MKII, 51U200, 20W200)<br />
F 2037 PE-B (sharp 20AG2-S)<br />
c _ b+ _ gnd _ 40V _ 16V _ afc _ 180V _ gnd _ ht _ abl<br />
<br />
F 094<br />
FA 061 WJ-SA (sharp 51X200)<br />
c _ b+(130V) _ gnd _ 24V _ 12V _ afc _ 185V _ gnd _ ht _ abl<br />
<br />
FA 113 WJ-B (sharp 51DXF250E)<br />
c _ b+ _ gnd _ 24V _ nc _ afc _ 180V _ gnd _ ht _ abl<br />
<br />
FA 122 WJ-B<br />
c _ b+(130V) _ gnd _ 24V _ nc _ afc _ 180V _ gnd _ ht _ abl<br />
<br />
FA 011 WJ-B (sharp)<br />
c _ b+ _ gnd _ 24V _ 16V _ afc _ 180V _ nc _ ht _ abl<br />
<br />
FA 060 WJ-SA (sharp 14S20MKII)<br />
c _ b+ _ gnd _ nc _ 12V _ afc(-12V) _ 180V _ gnd _ ht _ abl<br />
<br />
FCG 2045 BL<br />
afc - 16,5v _ htr _ boost-up _ B+83v _ gnd _ nc _ c _ abl _ 175v _ 24v<br />
<br />
FCK 1411 L 01<br />
FCM 14A025<br />
c _ boost-up _ abl _ b+ _ gnd _ 180v _ 24V _ htr _ afc _ 16,5v.<br />
<br />
FCK 14A006 (14")<br />
FCM 2015HE (21")<br />
FCM 14A032 (21")<br />
FTK 21R002 (21")<br />
KFS 60844A (21")<br />
nc _ nc _ gnd _ 180 _ 15v _ ht _ 24 _ abl _ b+ _ c<br />
<br />
FCM 14B014N (polytron 14")<br />
FCM 20B061N (polytron 21")<br />
c _ b+ _ gnd _ 185 _ nc _ htr _ nc _ abl _ +12 _ -12.<br />
<br />
FUH29VH02 (polytron29)<br />
c _ b+ _ gnd _ 185v _ nc(16v) _ htr _ nc _ abl(bcl) _ 12v _ 12v<br />
<br />
FSV 20A001 (samsung)<br />
FCK 14A033<br />
FSV 14A001<br />
c _ b+125v _ abl _ nc _ gnd _ 185 _ 46 _ htr _ nc _ 16,5<br />
<br />
FTK-14A004P (samsung)<br />
c _ b+125v _ abl _ nc _ gnd _ 180v _ 24v _ htr _ afc _ 16,5.<br />
<br />
FUY-20C009 (akari)<br />
c _ 180 _ b+ _ gnd _ nc _ 24 _ nc _ abl _ htr _ afc.<br />
<br />
FCG 2045 BL<br />
afc _ 16,5v _ htr _ boost-up _ b+83v _ gnd _ nc _ c _ abl _ 175v _ 24v.<br />
<br />
HTF2904<br />
c _ b+ _ 24v _ 16v _ gnd _ htr _ grnd _ afc _ nc _ 180v<br />
<br />
FSA 16012M<br />
DCF 2077A<br />
DCF 1577<br />
FSA 16012M<br />
c _ b+ _ afc _ boost-up _ 16,5 _ abl _ 25v _ gnd _ 185v _ htr.<br />
<br />
JF 0501-1206<br />
c _ b+ _ 180v _ 16v _ 25v _ htr _ gnd _ abl _ afc _ nc.<br />
<br />
JF 0601-19577 (polytron 21'' MX5203R)<br />
c _ b+ _ gnd _ 200v _ nc _ htr _ nc _ abl _ +12 _ -12.<br />
<br />
JY 0301-0206 (china 29")<br />
c _ b+ _ nc _ afc _ gnd _ Htr _ abl _ tep _ tep _ tep<br />
<br />
K 148 TC<br />
c _ 180v _ b+ _ gnd _ afc _ 16v _ abl _ htr _ nc _ nc.<br />
<br />
MC FBC-015<br />
LCE CF0854<br />
c _ b+ _ gnd _ afc _ 185 _ htr _ 25 _ 15 _ gnd _ abl.<br />
<br />
8-598-858--00 (sony KV-PG21P70)<br />
8-598-811<br />
c _ b+135v _ 200v _ htr _ gnd _ -16,5(vertkl) _ Gnd(vertkl) _ +16,5(vertkl) _
nc _ abl<br />
<br />
<br />
<b><span class="Apple-style-span" style="color: blue;">goldstar</span></b><br />
BSC25-Z305A<br />
BSC25-Z3201<br />
FCM20B058<br />
154-064<br />
154-177B<br />
1=HOT 2=180V 3B+ 4=GRND 5=16V 6=24V 7=40V 8=ABL 9H/T 10=AFC<br />
<br />
FCG 2045BL<br />
BSC 24-0406D<br />
1=HOUT 2=180V 3=B+ 4=GRND 5=24V 6=16V 7=ABL 8=H/T 9=NC 10=NC<br />
<br />
154-138K<br />
1=190V 2=NC 3=HOUT 4=AFC 5=B+ 6=43V 7=ABL 8=GRND 9=12V 10=H/T<br />
<br />
BSC 22-2314H<br />
154-189C<br />
JF 0501-1206<br />
1=HOUT 2=B+ 3=180V 4=16V 5=26V 6=H/T 7=GRND 8=ABL 9=AFC 10=NC<br />
<br />
BSC 24-01N4004U<br />
1=HOUT 2=B+ 3=+13V 4=-13V 5=GRND 6=H/T 7=AFC 8=ABL 9=NC 10=NC<br />
<br />
6174Z-8040C<br />
1=HOUT 2=185V 3=B+ 4=GRND 5=-14V 6=+14V 7=GRND 8=ABL 9=H/T 10=AFC<br />
<br />
MC-FBC-015<br />
LCE CF 0854<br />
1=HOUT 2=B+ 3=GRND 4=AFC 5=185V 6=H/T 7=25V 8=15V 9=GRND 10=ABL<br />
<br />
<b><span class="Apple-style-span" style="color: blue;">CHINA :</span></b><br />
BSC25-4813<br />
BSC 25-N0301CY<br />
BSC 25-1003A<br />
BSC 25-Z603F<br />
BSC 25-09N20ER<br />
BSC 25-N0312A<br />
BSC 25-T1010A<br />
BSC 24-N40G1<br />
BSC24-01N4001M<br />
1=TP 2=HOUT 3=TP 4=B+ 5=TP 6=TP 7GRND 8=H/T 9=ABL 10=180V<br />
<br />
<b><span class="Apple-style-span" style="color: blue;">CHINA :</span></b><br />
BSC 25-4803T<br />
BSC 25-4804TC<br />
BSC 25-03F69F<br />
BSC 25N1616T<br />
BSC 25-03P79<br />
BSC 25-N0449<br />
BSC 24-01N36<br />
BSC 23-N0124R<br />
BSC 22-01016H<br />
BSC 25-0236<br />
BSC 25-03P79<br />
BSC 25-N0803A<br />
BSC 22-N65T<br />
BSC 25-0251<br />
BSC 25-3604V<br />
L 40B10602<br />
1=C.2=B+.3=NC.4=AFC.5=GRND.6=H/T.7=ABL.8=TP<br />
<br />
<b><span class="Apple-style-span" style="color: blue;">SHARP :</span></b><br />
F0101KM-SA<br />
F0141PE-M<br />
F0102KM-SA<br />
F094<br />
FA061WJ-SA<br />
FA060WJ-SA<br />
FA135<br />
F0147<br />
BSC-250216F<br />
FA093WJ-SA<br />
1=hout 2=B+ 3=ground 4=24vol 5=16vol 6=afc 7=180vol 8=grn 9=h/t 10=ABL<br />
<br />
FO193PEN1-SA<br />
1=hout 2=B+ 3=ground 4=45vol 5=16vol 6=afc 7=180vol 8=grn 9=h/t 10=ABL<br />
<br />
<span class="Apple-style-span" style="color: blue;"><b>KONKA :</b></span><br />
BSC 25-0106<br />
BSC 25-2678S<br />
JF 0501-19188<br />
1=C 2=180VOL 3=B+ 4=GRND 5=AFC 6=16VOL 7=ABL 8=H/T 9=NC 10=NC<br />
<br />
FCM 2015HE<br />
FCM 14A032<br />
C _ B+ _ Abl _ 24v _ Heater _ 16v _ 180v _ Gnd _ Nc _ Abl<br />
<br />
<b><span class="Apple-style-span" style="color: blue;"> SAMSUNG :</span></b><br />
FCA173 el<br />
FOK 14A001<br />
HR8628<br />
FSV14A001<br />
FSV14A004<br />
<br />
<b><span class="Apple-style-span" style="color: blue;">CHINA BRAIND :</span></b><br />
BSC24-014001D<br />
BSC25-N0321<br />
BSC25-N1534<br />
BSC25-N1634<br />
BSC25-Z1003<br />
BSC25-Z2705<br />
BSC25-Z2706<br />
BSC25-N0313<br />
1=H1 2=H 3=H2 4=B+110 5=H3 6=H4 7=GND 8=HT 9=ABL 10=AFC<br />
<br />
<b><span class="Apple-style-span" style="color: blue;">TCL :</span></b><br />
BSC 25=0252S<br />
1=C.2=B+.3=NC.4=NC.5=NC.6=AFC.7=GRND.8=ABL.9=200VOL.10=H/T<br />
<br />
<b style="background-color: white;"><span class="Apple-style-span" style="color: blue;">TCL :</span></b><br />
JF0501-1619<br />
BSC25-0299D,<br />
185V _H+_AFC_B+_16V_24V_ABL_GND_NC_H/T<br />
<br />
<span class="Apple-style-span" style="color: blue;">POLYTRON :</span><br />
JF0501-19577<br />
H_B+_GRND_+VID_+VID_H/T_NC_BCL_12VOL_HSINC-12VOL<br />
<br />
<b><span style="color: black; font-family: Verdana;"><br />
</span></b><br />
<div style="color: blue;">
<b><span style="font-family: Verdana;">(Samsung)</span></b><b><span style="font-family: Verdana;"> </span></b></div>
<b><span style="color: black; font-family: Verdana;">FSV 14A001 </span></b><span style="font-family: Verdana;"><br />
<b><span style="color: black;">FSV 20A001</span></b><br />
<b><span style="color: black;">FCK 14A033</span></b><br />
<b><span style="color: black;">FCV 20A001</span></b><br />
<span style="color: #990000;">16,5V_NC_H_46V_185V_GROUND_NC_ABL_B+125V_COL</span><br />
<br />
<b>154-064P (Goldstar)</b><br />
<b>154-177B</b><br />
<b>FCK 14B047 (Akari)</b><br />
<span style="color: #990000;">COL_185V_B+_GROUND_16V_24V_40V_ABL_H_AFC</span><br />
<br />
<b>154-064G (Goldstar)</b><br />
<b>154-177E</b><br />
<span style="color: #990000;">COL_180V_92V_125VBOOST_24V_12V_GROUND_ABL_H_AFC</span><br />
<br />
<b>FCM 14A025 (Samsung, Blaupunkt)</b><br />
<b>FCM 1411L01</b><br />
<span style="color: #990000;">16,5V_AFC_H_24V_180V_GROUND_B+90V_ABL_125VBOOST_COL</span><br />
<br />
<b>DCF 1577 (Daewoo, Mitsuba)</b><br />
<b>DCF 2077</b><br />
<b>FSA 16012M</b><br />
<span style="color: #990000;">COL_B+_AFC_125VBOOST_16,5V_ABL_24V_GROUND_180V_H</span><br />
<br />
<b><br />
FTK 14B011 (Aiwa)</b><br />
<span style="color: #990000;">COL_B+_25V_GROUND_180V_H_ABL_GROUND_AFC_15V</span><br />
<br />
<b>FCK 1411E10A (Etron)</b><br />
<span style="color: #990000;">190V_COL_NC_B+_NC_24V_ABL_GROUND_15V_H</span><br />
<br />
<b>JF 0208-0208C (Solitron)</b><br />
<span style="color: #990000;">COL_B+_GROUND_185V_H_ABL_GROUND_15V_AFC_24V</span><br />
<br />
<b>JF 0208-0210B (Sansui)</b><br />
<b>JF 0501-0501</b><br />
<span style="color: #990000;">COL_B+_180V_14V_24V_H_GROUND_ABL_AFC_NC</span><br />
<br />
<b>FCM 14B014N (Polytron, Digitec)</b><br />
<b>FCM 20B061N</b><br />
<b>JF 0601-19577</b><br />
<span style="color: #990000;">COL_B+_GROUND_200V_NC_H_NC_ABL+12v_-12v</span></span><br />
<span style="font-family: Verdana;"><br />
<b>JF 0501-1206 (Sansui)</b><br />
<span style="color: #990000;">COL_B+_180V_16V_25V_H_GROUND_ABL_AFC_NC</span><br />
<br />
<b>L40B17100 (Sanyo)</b><br />
<span style="color: #990000;">COL_B+_NC_180V_AFC_GROUND_ABL_NC_H_GROUND</span><br />
<br />
<b>L40B09000 (Sanyo)</b><br />
<span style="color: #990000;">COL_B+_NC_AFC_GROUND_H_ABL_16V_NC_180V</span><br />
<br />
<b>L40B05500 (Sanyo)</b><br />
<span style="color: #990000;">COL_B+_NC_AFC_GROUND_H_GROUND_NC_NC_ABL</span><br />
<br />
<b>L40B09001 (Sanyo)</b><br />
<span style="color: #990000;">COL_B+_NC_AFC_GROUND_H_ABL_NC_NC_180V</span><br />
<br />
<b>6174Z-6040C (LG)</b><br />
<b>BSC 23-N0107</b><br />
<span style="color: #990000;">COL_185V_B+_GROUND_-14V_+14V_GROUND_ABL_H_AFC</span><br />
<br />
<b>BSC 24-08B (Tv China)</b><br />
<b>BSC 24-01N362</b><br />
<b>BSC 25-4803</b><br />
<b>BSC 25-N1616</b><br />
<b>BSC 25-0106</b><br />
<span style="color: #990000;">COL_B+_NC_AFC_GROUND_H_ABL_NC</span><br />
<br />
<b>BSC 25-T1010A (Tv China)</b><br />
<b>BSC 24-01N4014K</b><br />
<b>BSC 25-09N21A</b><br />
<b>BSC 25-09N20E</b><br />
<span style="color: #990000;">TEP_COL_TEP_B+_TEP_TEP_GROUND_H_ABL_180V</span><br />
<br />
<b>BSC 60HZ (Changhong)</b><br />
<span style="color: #990000;">COL_B+_190V_GROUND_11V_16V_45V_ABL_H_AFC</span><br />
<br />
<b>BSC 24-2231HC (Panda)</b><br />
<span style="color: #990000;">COL_B+_46V_16V_GROUND_AFC_ABL_H_180V_NC</span><br />
<br />
<b>BSC 65A (Changhong)</b><br />
<span style="color: #990000;">COL_B+_190V_GROUND_NC_NC_14,5V_ABL_H_AFC</span><br />
<br />
<b>TFB 4067BD (Toshiba)</b><br />
<b>TFB 4125CH</b><br />
<b>TFB 4122HY/ES/CS/DY</b><br />
<b>BSC 23-N0102</b><br />
<span style="color: #990000;">COL_B+_185V_GROUND_NC_24V_12V_ABL_H_AFC</span><br />
<br />
<b>FCK 14A028 (Fuji Electric)</b><br />
<span style="color: #990000;">NC_B+_14V_24V_H_GROUND_ABL_180V_B+_COL</span><br />
<br />
<b>154-189C (Fuji Electric)</b><br />
<b>154-277C</b><br />
<b>FCM 20B027</b><br />
<span style="color: #990000;">COL_B+_180V_14V_22V_H_GROUND_ABL_AFC_NC</span><br />
<br />
<b>FUY 20C009 (Akari)</b><br />
<span style="color: #990000;">COL_180V_B+_GROUND_NC_24V_NC_ABL_H_AFC</span><br />
<br />
<b>FCK 14A006 (Digitec, Polytron, OK)</b><br />
<b>FCM 2015HE</b><br />
<b>FCM 14A032</b><br />
<b>KFS 60844A</b><br />
<span style="color: #990000;">NC_NC_GROUND_185V_15V_H_24V_ABL_B+_COL_</span><br />
<br />
<b>154-138K (Etron)</b><br />
<b>154-182H</b><br />
<span style="color: #990000;">190V_NC_COL_AFC_B+_43V_ABL_GROUND_12V_H</span><br />
<br />
<b>CF 0801 (Fujitec)</b><br />
<span style="color: #990000;">COL_B+180V_15V_24V_H_GROUND_ABL_NC_NC</span><br />
<br />
<b>CF 0854 (Fuji Electric, Siera)</b><br />
<b>CF 0582</b><br />
<span style="color: #990000;">COL_B+_GROUND_AFC_185V_H_25V_15V_GROUND_ABL</span><br />
<br />
<b>FSA 28027M (Fuji Electric)</b><br />
<span style="color: #990000;">COL_NC_NC_123V_12V_ABL_25V_GROUND_185V_H</span><br />
<br />
<b>BSC 24-01N4009A (Tv China)</b><br />
<span style="color: #990000;">COL_NC_B+_GROUND_NC_TEP_NC_ABL_H_AFC</span><br />
<br />
<b>BSC 22-2314H (Fujitec)</b><br />
<span style="color: #990000;">COL_B+_180V_15V_24V_AFC_GROUND_ABL_NC_NC</span><br />
<br />
<b>BSC 22-01N40J (Tv China)</b><br />
<span style="color: #990000;">COL_180V_115V_GROUND_22V_16V_ABL_H_NC_NC</span><br />
<br />
<b>F 0193 PEN1-SA (Sharp)</b><br />
<b>F 0194 PEN1-SA</b><br />
<span style="color: #990000;">COL_B+_GROUND_42V_12V_AFC_185V_GROUND_H_ABL</span></span><i><span style="color: #3333ff; font-family: Verdana; font-size: 10pt;">(cat: teg 12v pada FBT F0194= 16V)</span></i><span style="color: #3333ff; font-family: Verdana; font-size: 10pt;"><br />
</span><span style="font-family: Verdana;"><br />
<b>F 0042PE-M (Sharp)</b><br />
<span style="color: #990000;">15V_COL_24V_B+_ABL_AFC_GROUND_NC_180V_H</span><br />
<br />
<b>F 0063PE-M (Sharp)</b><br />
<b>F 0067PE-M</b><br />
<span style="color: #990000;">COL_B+_24V_12V_NC_AFC_GROUND_H_185V_ABL</span><br />
<br />
<b>F 0102KM-SA (Sharp)</b><br />
<span style="color: #990000;">COL_B+_GROUND_24V_14V_AFC_180V_GROUND_H_ABL<br />
</span><b>FA 060WJ-SA (Sharp)</b><br />
<span style="color: #990000;">COL_B+_GROUND_NC_12V_(AFC/-12V)_185V_GROUND_H_ABL<br />
</span><b><span style="color: black;">FA 061WJ-SA (Sharp)</span></b><span style="color: #990000;">COL_(B+130V)_GROUND_24V_12V_AFC_185V_GROUND_H_ABL</span><span style="color: black;"><br />
<br />
<b>FA 113WJ-B (Sharp)</b></span><span style="color: #990000;">COL_B+_GROUND_24V_NC_AFC_180V_GROUND_H_ABL</span><span style="color: black;"><br />
<br />
<b>FA 122WJ-B (Sharp)</b></span><span style="color: #990000;">COL_(B+130V)_GROUND_24V_NC_AFC_180V_GROUND_H_ABL<br />
</span><b><span style="color: black;">FTK 14A004P (Samsung)</span></b><span style="color: #990000;"><br />
16,5V_AFC_H_24V_180V_GROUND_NC_ABL_(B+125V)_COL<br />
</span><b><span style="color: black;">154-279C (Siera, Fuji Electric)</span></b><span style="color: #990000;"><br />
COL_(B+135V)_200V_GROUND_GROUND_25V_16V_ABL_H_NC<br />
</span><b><span style="color: black;">BSC 25-N0363 (LG 21FU6RL/Pearl Black)</span></b><span style="color: #990000;"><br />
COL_180V_B+_GROUND_INNER_26V_NC_ABL_H_AFC<br />
</span><b><span style="color: black;">8-598-858-00 (Sony)</span></b><span style="color: #990000;"><br />
</span><b><span style="color: black;">8-598-11</span></b><span style="color: #990000;"><br />
COL_B+_200V_H_GROUND_-16,5V_GROUND_+16,5V_NC_ABL<br />
</span><b><span style="color: black;">QQH0132-001 (JVC AV-1438)</span></b><span style="color: #990000;"><br />
COL_B+_40V_NC_25V_GROUND_H_ABL_180V_GROUND<br />
</span><b><span style="color: black;">JF 0501-19539 (Polytron MX5262RF/Zepelin)</span></b><span style="color: #990000;"><br />
COL_B+_GROUND_185V_NC_H_25V_ABL_12V_Hpulse<br />
</span><b><span style="color: black;">BSC 25-1194D030 (SANKEN)</span></b><span style="color: #990000;"><br />
</span><b><span style="color: black;">FSV 20A099</span></b><span style="color: #990000;"><br />
16,5V_24V_H_46V_180V_GROUND_NC_ABL_B+125V_COL<br />
</span><b><span style="color: black;">FTK 14A004F(S) (SAMSUNG)</span></b><span style="color: #990000;"><br />
16,5V_24V_H_-16,5V_185V_GROUND_NC_ABL_B+125V_COL<br />
</span><b><span style="color: black;">8-597-041-20 (SONY KV-LS21M61)</span></b><span style="color: #990000;"><br />
COL_B+_200V_H_GROUND_(-13V)_GROUND_(+13V)_NC_ABL<br />
</span><b><span style="color: black;">FUH 29VH04 (POLYTRON PS30UV25BM) U-SLIM</span><span style="color: #330033;"><br />
</span></b><span style="color: #990000;">COL_B+(135)_GROUND_185V_NC_H_BCL_+12V_-12V<br />
</span><b><span style="color: black;">JF0501-32611 (SANYO CG21SF1T) FLAT 21</span></b><span style="color: #990000;">COL_B+(125)_NC_185V_AFC_ABL_ABL_NC_H_GROUND</span></span>
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Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com1tag:blogger.com,1999:blog-685668056401993518.post-18049675484430213022013-03-14T21:33:00.003+07:002013-07-12T21:41:42.625+07:00SISTEM PROTEKSI TV<div dir="ltr" style="text-align: left;" trbidi="on">
<h3 class="post-title entry-title" style="margin-bottom: 0px; margin-left: 0px; margin-right: 0px; margin-top: 20px; position: relative;">
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a> </h3>
<h3 class="post-title entry-title" style="margin: 20px 0px 0px; position: relative;">
TITIK PROTEKSI TV POLYTRON </h3>
<div class="post-body entry-content" id="post-body-5769045190844940705" style="line-height: 1.4; position: relative; width: 590px;">
<span class="style11_myFontB">Polytron</span><br />
<br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Model / Series</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td bgcolor="#eeeeee" style="color: blue;">DIVA Series, DIPE Series</td><td style="color: blue;">Pin No.62 IC HBT-00-0X</td><td style="color: blue;">Vertikal Output</td><td style="color: blue;">5 Volt</td><td style="color: blue;">Suntik Pin No.62 tegangan 5V</td></tr>
<tr bgcolor="#dddddd"><td bgcolor="#dddddd" style="color: blue;">EXCEL Series</td><td style="color: blue;">Pin No.61 STV223X</td><td style="color: blue;">BCL (<i>Beam Current Limiter</i>)</td><td style="color: blue;">5 Volt</td><td style="color: blue;">Lepaskan J345</td></tr>
<tr bgcolor="#eeeeee"><td rowspan="2" style="color: blue;">BML Chasis (MX5203MS, MX-20323)</td><td style="color: blue;">Pin No16 IC701(HBM-00-XX)</td><td style="color: blue;">Vertikal Output</td><td style="color: blue;">5 Volt</td><td style="color: blue;">Suntik Pin No.16 tegangan 5V</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Pin No.46 IC301 (STV228X)</td><td bgcolor="#eeeeee" style="color: blue;">BCL (<i>Beam Current Limiter</i>) Lewat D304</td><td bgcolor="#eeeeee" style="color: blue;">5 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D304</td></tr>
</tbody></table>
</div>
<div class="post-body entry-content" id="post-body-5769045190844940705" style="line-height: 1.4; position: relative; width: 590px;">
<br /></div>
<div class="post-body entry-content" id="post-body-5769045190844940705" style="line-height: 1.4; position: relative; width: 590px;">
<br /></div>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"></span><br />
<h3 class="post-title entry-title" style="margin-bottom: 0px; margin-left: 0px; margin-right: 0px; margin-top: 20px; position: relative;">
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;">
<a href="http://aguselectronik.blogspot.com/2011/08/pin-proteksi-tv-panasonic.html" style="color: white; font: normal normal bold 20px/normal 'Trebuchet MS', Trebuchet, sans-serif; text-decoration: none;">PIN PROTEKSI TV PANASONIC</a></span></h3>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;">
</span>
<br />
<div class="post-body entry-content" id="post-body-9148591376974633153" style="line-height: 1.4; position: relative; width: 590px;">
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Panasonic MN152810TT, AN5606K</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td bgcolor="#eeeeee" rowspan="4" style="color: blue;">Pin No.20 IC601 (0 Volt)</td><td style="color: blue;">R428 (56K)</td><td style="color: blue;">Vertikal Output</td><td style="color: blue;">R428 = 0 Volt</td><td style="color: blue;">Lepaskan R428</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D522</td><td bgcolor="#eeeeee" style="color: blue;">Heater / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D522 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D522</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q451</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 24V</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q451 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q451</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q503</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 12V.</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q503 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q503</td></tr>
<tr bgcolor="#dddddd"><td bgcolor="#dddddd" style="color: blue;">Pin No.50 IC1102 (5.3 Volt)</td><td style="color: blue;">Q1136</td><td style="color: blue;">Sinkronisasi Video</td><td style="color: blue;">Pin No.50 IC1102 = 5.3 Volt</td><td style="color: blue;">Lepaskan Q1136</td></tr>
</tbody></table>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Panasonic MN152810TTD6, AN5607K</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="3" style="color: blue;">Pin No.20 IC601 (0 Volt)</td><td style="color: blue;">R474 (47K)</td><td style="color: blue;">Vertikal Output</td><td style="color: blue;">R474 = 0 Volt</td><td style="color: blue;">Lepaskan R474</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q451</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 24V</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q451 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q451</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q503</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 12V</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q503 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q503</td></tr>
<tr bgcolor="#dddddd"><td style="color: blue;">Pin No.50 IC1102 (5.3 volt)</td><td style="color: blue;">Q1136</td><td style="color: blue;">Sinkronisasi Video</td><td style="color: blue;">Pin No.50 IC1102 = 5.3 Volt</td><td style="color: blue;">Lepaskan Q1136</td></tr>
</tbody></table>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Panasonic GOLD Series, MN1528111, AN5192K-A</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="5" style="color: blue;">Pin No.55 IC601 (0 Volt)</td><td style="color: blue;">D544 (MA410B)</td><td style="color: blue;">X-ray</td><td style="color: blue;">Anoda D544 = 0 Volt</td><td style="color: blue;">Lepaskan D544</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">R426 (56K)</td><td bgcolor="#eeeeee" style="color: blue;">Vertikal Output</td><td bgcolor="#eeeeee" style="color: blue;">R426 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan R426</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q503 (A564)</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 12V</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q503 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q503</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q451 (A564)</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 24V</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q451 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q451</td></tr>
</tbody></table>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Panasonic MX-5A Chassis, MN1871681TFK, M52770ASP</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="4" style="color: blue;">Pin No.36 IC601 (0 Volt)</td><td style="color: blue;">D590 (MA4108)</td><td style="color: blue;">X-ray</td><td style="color: blue;">Anoda D590 = 0 Volt</td><td style="color: blue;">Lepaskan D590</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q580 (B709)</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 24V</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q580 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q580</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q581 (B709)</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 9V</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q581 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q581</td></tr>
</tbody></table>
</div>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;">
</span>
<br />
<div class="post-body entry-content" id="post-body-9148591376974633153" style="line-height: 1.4; position: relative; width: 590px;">
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<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;">
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TITIK PROTEKSI TV SHARP<a href="http://aguselectronik.blogspot.com/2011/08/pin-proteksi-sharp.html" style="color: white; font: normal normal bold 20px/normal 'Trebuchet MS', Trebuchet, sans-serif; text-decoration: none;">N PROTEKSI SHARP</a></span></h3>
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<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Chasis UA-1, Menggunakan IC IX3368CEN1-5 Atau IX3410CEN1-5</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td bgcolor="#eeeeee" rowspan="8" style="color: blue;">Pin No.8 IC801 (3,3 V)<br />
Menonaktifkan Proteksi utama,<br />
Lepaskan Jumper J223</td><td style="color: blue;">D609</td><td style="color: blue;">Tegangan 8V</td><td style="color: blue;">Anoda D609 = 3.3 Volt</td><td style="color: blue;">Lepaskan D609</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D606</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D606 = 3.3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D606</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D614, Q603</td><td bgcolor="#eeeeee" style="color: blue;">Heater / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D614 = 3.3 Volt<br />
Collector Q603 = 3.3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D614<br />
Lepaskan Q603</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D752</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 5V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D752 = 3.3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D752</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D504</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 16V (Sound Amp)</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D504 = 3.3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D504</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D502</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 45V (Vertikal)</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D502 = 3.3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D502</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D503</td><td bgcolor="#eeeeee" style="color: blue;">Vertikal Output</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D503 = 3.3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D503</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D613</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 180V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D613 = 3.3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D613</td></tr>
</tbody></table>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Chasis UA-1 (Lubang), Menggunakan IC IX3368CEN7</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="5" style="color: blue;">Pin No.8 IC801 (3,4 V)<br />
Menonaktifkan Proteksi utama,<br />
Lepaskan Jumper J208 dan D203</td><td style="color: blue;">D203</td><td style="color: blue;">Tegangan 33V (Tuner)</td><td style="color: blue;">Anoda D203 = 3.4 Volt</td><td style="color: blue;">Lepaskan D203</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D607</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 190V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D607 = 3.4 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D607</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D604, Q603</td><td bgcolor="#eeeeee" style="color: blue;">Heater / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D604 = 3.4 Volt<br />
Collector Q603 = 3.4 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D604<br />
Lepaskan Q603</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D601</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D601 = 3.4 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D601</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q501</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan Supply Vertikal</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q501 = 3.4 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D501</td></tr>
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<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Menggunakan IC IX 2938CE, TB1226</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="6" style="color: blue;">Pin No.30 IC1001 (5,1 V)</td><td style="color: blue;">D616</td><td style="color: blue;">Tegangan 9V</td><td style="color: blue;">Anoda D616 = 5.1 Volt</td><td style="color: blue;">Lepaskan D616</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D607</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 180V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D607 = 5.1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D607</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q607</td><td bgcolor="#eeeeee" style="color: blue;">Heater / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q607 = 5.1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q607</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D606</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D606 = 5.1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D606</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D611</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 5V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D611 = 5.1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D611</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D201</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 9V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D201 = 5.1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D201</td></tr>
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<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Menggunakan IC IX 2694, M52340 </b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="4" style="color: blue;">Pin No.38 IC1001 (0 V)</td><td style="color: blue;">D606</td><td style="color: blue;">Heater / X-ray</td><td style="color: blue;">Anoda D606 = 0 Volt</td><td style="color: blue;">Lepaskan D606</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D616</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D616 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D616</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q603</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q603 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q603</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D610</td><td bgcolor="#eeeeee" style="color: blue;">Heater / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D610 = 0 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D610</td></tr>
</tbody></table>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Chasis G2 Menggunakan IC IX 3031CE, TB1226</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="5" style="color: blue;">Pin No.30 IC1001 (3,3 V)</td><td style="color: blue;">D618</td><td style="color: blue;">Tegangan 9V</td><td style="color: blue;">Anoda D618 = 3,3 Volt</td><td style="color: blue;">Lepaskan D618</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D607</td><td bgcolor="#eeeeee" style="color: blue;">Heater / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D607 = 3,3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D607</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q607</td><td bgcolor="#eeeeee" style="color: blue;">Heater / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q607 = 3,3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q607</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D606</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D606 = 3,3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D606</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D611</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 5V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D611 = 3,3 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D611</td></tr>
</tbody></table>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>GA-4M Chasis, Menggunakan IC IXB226WJ, M61260</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="5" style="color: blue;">Pin No.7 IC1001 (4.5 V)</td><td style="color: blue;">D605</td><td style="color: blue;">Tegangan 185V</td><td style="color: blue;">Anoda D605 = 4,5 Volt</td><td style="color: blue;">Lepaskan D605</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D608</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Katoda D607 = 4,5 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D608</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q603</td><td bgcolor="#eeeeee" style="color: blue;">Heater</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q603 = 4,5 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q603</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D203</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 33V (Tuner)</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D203 = 4,5 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D203</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D1091</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 9V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D606 = 4,5 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D1091</td></tr>
<tr bgcolor="#dddddd"><td style="color: blue;">Pin No.6 IC1001 (3.4 V)</td><td style="color: blue;">D1010</td><td style="color: blue;">Tegangan 15V</td><td style="color: blue;">Pin No.6 IC1001 = 3.4 Volt</td><td style="color: blue;">Lepaskan D1010</td></tr>
</tbody></table>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Chasis GA-6, Menggunakan IC IXB725WJ, Chasis GA-7 Menggunakan IC IXB855WJZZ</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="5" style="color: blue;">Pin No.63 IC801 (4.1 V)</td><td style="color: blue;">D1005</td><td style="color: blue;">Tegangan 9V</td><td style="color: blue;">Anoda D1005 = 4,1 Volt</td><td style="color: blue;">Lepaskan D1005</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D608</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Katoda D608 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D608</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q603</td><td bgcolor="#eeeeee" style="color: blue;">Heater</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q603 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q603</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D805, D203</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 33V (Tuner)</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D805 & D203 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D203</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D204</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 5V (Tuner)</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D204 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D204</td></tr>
<tr bgcolor="#dddddd"><td bgcolor="#dddddd" style="color: blue;">Pin No.7 IC801 (3.9 V)</td><td style="color: blue;">D1002</td><td style="color: blue;">Power supply (AC-Detect)</td><td style="color: blue;">Pin No.7 IC801 = 3.9 Volt</td><td style="color: blue;">Lepaskan D1002</td></tr>
<tr bgcolor="#eeeeee"><td bgcolor="#eeeeee" style="color: blue;">Pin No.8 IC801 (0.6 V)</td><td style="color: blue;">R523</td><td style="color: blue;">Vertical</td><td style="color: blue;">Pin No.8 IC801 = 0.6 Volt</td><td style="color: blue;">Lepaskan R523</td></tr>
</tbody></table>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Menggunakan IC IXC080WJN5Q</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="6" style="color: blue;">Pin No.63 IC801 (4.1 V)<br />
Menonaktifkan Proteksi utama,<br />
Lepaskan Jumper J497</td><td style="color: blue;">D1108</td><td style="color: blue;">Tegangan 5V</td><td style="color: blue;">Anoda D1008 = 4,1 Volt</td><td style="color: blue;">Lepaskan D1108</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D605</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 185V</td><td bgcolor="#eeeeee" style="color: blue;">Katoda D605 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D605</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D608, D607</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Katoda D608 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D608</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q603, D604</td><td bgcolor="#eeeeee" style="color: blue;">Heater / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q603 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q603</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D203</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 33V (Tuner)</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D203 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D203</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D1105</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 5V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D1105 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D1105</td></tr>
<tr bgcolor="#dddddd"><td bgcolor="#dddddd" style="color: blue;">Pin No.64 IC801 (3.9 V)</td><td style="color: blue;">D1002</td><td style="color: blue;">Power supply (AC-Detect)</td><td style="color: blue;">Pin No.64 IC801 = 3.9 Volt</td><td style="color: blue;">Lepaskan D1002</td></tr>
<tr bgcolor="#eeeeee"><td bgcolor="#eeeeee" style="color: blue;">Pin No.65 IC801 (0.6 V)</td><td style="color: blue;">R523</td><td style="color: blue;">Vertical</td><td style="color: blue;">Pin No.65 IC801 = 0.6 Volt</td><td style="color: blue;">Lepaskan R523</td></tr>
</tbody></table>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"><b>Menggunakan IC IXC688WJ / IC IXC844WJ</b></span><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;">Detektor</th><th style="background-color: #134f5c; color: yellow;">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;">Tegangan Normal</th><th style="background-color: #134f5c; color: yellow;">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="6" style="color: blue;">Pin No.81 IC801 (4.1 V)</td><td style="color: blue;">D1108</td><td style="color: blue;">Tegangan 5V</td><td style="color: blue;">Anoda D1008 = 4,1 Volt</td><td style="color: blue;">Lepaskan D1108</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D605</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 185V</td><td bgcolor="#eeeeee" style="color: blue;">Katoda D605 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D605</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D608, D607</td><td bgcolor="#eeeeee" style="color: blue;">ABL / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Katoda D608 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D608</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q603, D604</td><td bgcolor="#eeeeee" style="color: blue;">Heater / X-ray</td><td bgcolor="#eeeeee" style="color: blue;">Collector Q603 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q603</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D203</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 33V (Tuner)</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D203 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D203</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D1105</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 5V</td><td bgcolor="#eeeeee" style="color: blue;">Anoda D1105 = 4,1 Volt</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D1105</td></tr>
<tr bgcolor="#dddddd"><td bgcolor="#dddddd" style="color: blue;">Pin No.82 IC801 (3.9 V)</td><td style="color: blue;">D1002</td><td style="color: blue;">Power supply (AC-Detect)</td><td style="color: blue;">Pin No.82 IC801 = 3.9 Volt</td><td style="color: blue;">Lepaskan D1002</td></tr>
<tr bgcolor="#eeeeee"><td bgcolor="#eeeeee" style="color: blue;">Pin No.83 IC801 (0.6 V)</td><td style="color: blue;">R523</td><td style="color: blue;">Vertical</td><td style="color: blue;">Pin No.83 IC801 = 0.6 Volt</td><td style="color: blue;">Lepaskan R523</td></tr>
</tbody></table>
</div>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;">
</span><span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;"></span>
<h3 class="post-title entry-title" style="margin-bottom: 0px; margin-left: 0px; margin-right: 0px; margin-top: 20px; position: relative;">
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;">
<a href="http://aguselectronik.blogspot.com/2011/08/pin-proteksi-sanyo.html" style="color: white; font: normal normal bold 20px/normal 'Trebuchet MS', Trebuchet, sans-serif; text-decoration: none;">DDDDDDDDDDDDDDDDITIINDFD TTPROTEKSI SANYO</a></span></h3>
<span class="Apple-style-span" style="background-color: #9f1a60; color: #bcbcbc; font-family: 'Trebuchet MS', Trebuchet, sans-serif; font-size: 13px; line-height: 18px;">
<div class="post-body entry-content" id="post-body-1089823618503707300" style="line-height: 1.4; position: relative; width: 590px;">
<span class="style11_myFontB">Sanyo</span><br />
<img class="deferred" data-src="http://www.beteve.com/img/sidesep.gif" src="data:image/gif;base64,R0lGODlhAQABAPAAAP///wAAACH5BAEAAAAALAAAAAABAAEAAAICRAEAOw==" /><br />
<table border="0" cellpadding="1" cellspacing="1"><tbody>
<tr align="center" class="style10_putiB_bg"><th style="background-color: #134f5c; color: yellow;" width="201">Model / Series</th><th style="background-color: #134f5c; color: yellow;" width="167">Masukan Proteksi</th><th style="background-color: #134f5c; color: yellow;" width="167">Detektor</th><th style="background-color: #134f5c; color: yellow;" width="217">Yang Dideteksi</th><th style="background-color: #134f5c; color: yellow;" width="197">Menonaktifkan Proteksi</th></tr>
<tr bgcolor="#eeeeee"><td rowspan="6" style="color: blue;">Chasis FC-3A</td><td rowspan="6" style="color: blue;">Pin No.27 IC Micom<br />
(LC 8634XX / LC 8632XX, QXXAVB864P, QXXAVC044P)<br />
Me-nonaktifkan protek utama,<br />
lepaskan R830 (1 K ohm)</td><td style="color: blue;">Q527</td><td style="color: blue;">Vertical</td><td style="color: blue;">Lepaskan RQ527</td></tr>
<tr bgcolor="#eeeeee"><td style="color: blue;">D681</td><td style="color: blue;">Tegangan 9V</td><td style="color: blue;">Lepaskan D681</td></tr>
<tr bgcolor="#eeeeee"><td style="color: blue;">D682</td><td style="color: blue;">Tegangan 24V</td><td style="color: blue;">Lepaskan D682</td></tr>
<tr bgcolor="#eeeeee"><td style="color: blue;">Q449, D468</td><td style="color: blue;">X-Ray</td><td style="color: blue;">Lepaskan Q449 & D468</td></tr>
<tr bgcolor="#eeeeee"><td style="color: blue;">D664</td><td style="color: blue;">Tegangan 12V</td><td style="color: blue;">Lepaskan D664</td></tr>
<tr bgcolor="#eeeeee"><td style="color: blue;">D486</td><td style="color: blue;">Tegangan 180V</td><td style="color: blue;">Lepaskan D486</td></tr>
<tr><td bgcolor="#dddddd" rowspan="3" style="color: blue;">Chasis EB-2A, AA1-A</td><td bgcolor="#dddddd" rowspan="3" style="color: blue;">Pin No.31 IC Micom (QXXAAC22XX)</td><td bgcolor="#dddddd" style="color: blue;">D392</td><td bgcolor="#dddddd" style="color: blue;">Tegangan 24V</td><td bgcolor="#dddddd" style="color: blue;">Lepaskan D392</td></tr>
<tr><td bgcolor="#dddddd" style="color: blue;">D393</td><td bgcolor="#dddddd" style="color: blue;">Tegangan 12V</td><td bgcolor="#dddddd" style="color: blue;">Lepaskan D393</td></tr>
<tr><td bgcolor="#dddddd" style="color: blue;">D391</td><td bgcolor="#dddddd" style="color: blue;">Tegangan 180V</td><td bgcolor="#dddddd" style="color: blue;">Lepaskan D391</td></tr>
<tr bgcolor="#eeeeee"><td rowspan="6" style="color: blue;">Chasis AC-1A</td><td rowspan="6" style="color: blue;">Pin No.41 IC Micom (QXXAAC23XX)</td><td style="color: blue;">D445</td><td style="color: blue;">ABL/X-Ray</td><td style="color: blue;">Lepaskan D445</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D492</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 180V</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D492</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D655</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 8V</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D655</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D654</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 12V</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D654</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">Q527</td><td bgcolor="#eeeeee" style="color: blue;">Vertikal Out</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan Q527</td></tr>
<tr><td bgcolor="#eeeeee" style="color: blue;">D646</td><td bgcolor="#eeeeee" style="color: blue;">Tegangan 24V</td><td bgcolor="#eeeeee" style="color: blue;">Lepaskan D646</td></tr>
<tr bgcolor="#dddddd"><td style="color: blue;">Chasis A-3A</td><td style="color: blue;">Pin No.15 IC Micom (M34300N4-XXXSP)</td><td style="color: blue;">D792</td><td style="color: blue;">Tegangan 9V</td><td style="color: blue;">Lepaskan D792</td></tr>
<tr bgcolor="#eeeeee"><td style="color: blue;">CG21XS2</td><td style="color: blue;">Pin No.23 IC Jungle (LA769XX)</td><td style="color: blue;"></td><td style="color: blue;">Power fail</td><td style="color: blue;">Lepaskan J830</td></tr>
</tbody></table>
</div>
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sumber beteve.com</div>
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Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com0tag:blogger.com,1999:blog-685668056401993518.post-3694629503349962822013-03-13T22:29:00.000+07:002013-07-12T21:42:49.756+07:00SETTING AFT ( AUTOMATIC FINE TUNE )<div dir="ltr" style="text-align: left;" trbidi="on">
<h3 class="post-title">
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a> </h3>
<h3 class="post-title">
SETTING AFT ( AUTOMATIC FINE TUNE ) </h3>
<div class="post-body">
<span style="font-family: verdana; font-size: 85%;">Dalam
blok skema rangkaian televisi terdapat AFT (Automatic Fine Tune),
berfungsi untuk mengunci channel/gelombang yang tertala/tertangkap oleh
tuner. Sebelum lebih jauh mengulas tentang AFT, pada tuner TV terdapat
pin VT, yaitu pin yang berfungsi sebagai pin masukan untuk tegangan
kontrol tuning (untuk menggeser frekuensi tuning/talaan). Juga terdapat
pin AFT yang berfungsi untuk menggeser “sedikit” (naik atau turun)
terhadap frekuensi yang ditala oleh pin VT.<br />Untuk membatasi topik,
AFT yang akan diulas di sini adalah AFT yang terdapat pada sistem Video
IF dan hubungannya dengan IC program TV. Bukan pin AFT yang terdapat
pada tuner.<br /><br />KERUSAKAN TV YANG BERHUBUNGAN DENGAN AFT<br /><br />Beberapa kerusakan yang diakibatkan oleh bagian AFT yang tidak normal antara lain :</span><br />
<ol>
<li><span style="font-family: verdana; font-size: 85%;">Channel/gelombang
yang tertala bergeser sendiri secara perlahan (bukan berpindah channel
memory) dimulai dengan hilangnya gambar/suara atau sebaliknya.
Kerusakan yang sama juga dapat disebabkan oleh tuner yang tidak
normal/rusak (pin AFT tuner terganggu atau tuner itu sendiri).</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Channel/gelombang yang tertala tidak bisa dimemory/disimpan, karena channel selalu bergeser (drifted).</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Ketika
Auto Search tidak bisa berhenti sendiri/berganti nomor channel ketika
mendapatkan sinyal TV (jalan teruuus) dan tidak bisa disimpan.
Kerusakan yang sama juga dapat disebabkan oleh IC program yang tidak
normal, tetapi kasus ini jarang sekali ditemui.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Tidak sesuainya pertemuan hasil VIF dan SIF yaitu suara dan gambar, misalnya gambar bagus tapi suara hilang atau sebaliknya.</span></li>
</ol>
<span style="font-family: verdana; font-size: 85%;"><br />Cara
kerja AFT mirip dengan cara kerja osilator PLL (phase locked loop),
banyak sekali referensi yang mengulas tentang PLL, jadi penulis tidak
menerangkan masalah PLL disini. Ilustrasi cara kerja beserta
keterangannya di bawah ini :</span><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhg4WmXdQlnuGDXkAaZw-Jk5zTt6iQxpK4JA6GGvqV_dt4qAHGVlQE4He0R6651AG8ucz6SrppaAWw25MM8fsAbcBpJEqKPVOKwDEPghm_y4sJZRXjqF7ZN330lxrgREzS5FsKg8sqsnWs/s1600-h/blok.JPG"><img alt="" border="0" id="BLOGGER_PHOTO_ID_5382928310697612690" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhg4WmXdQlnuGDXkAaZw-Jk5zTt6iQxpK4JA6GGvqV_dt4qAHGVlQE4He0R6651AG8ucz6SrppaAWw25MM8fsAbcBpJEqKPVOKwDEPghm_y4sJZRXjqF7ZN330lxrgREzS5FsKg8sqsnWs/s280/blok.JPG" style="cursor: pointer; height: 75px; width: 280px;" /></a><br />
<span style="font-family: verdana; font-size: 85%;"><br /></span>
<br />
<ol>
<li><span style="font-family: verdana; font-size: 85%;">IC program mengeset atau mengontrol tegangan VT untuk menala tuner pada frekuensi/channel tertentu.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Setelah
tuner menerima frekuensi pancaran dari pemancar TV, tuner menghasilkan
frekuensi IF (intermediate frequency) yang langsung diumpankan ke ke
input rangkaian Video IF melalui SAW filter. Umumnya frekuensi IF out
dari tuner sebesar 38,9MHz.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">IF
yang diterima kemudian diproses untuk diurai menjadi output video oleh
rangkaian Video IF (VIF). Output video hasil proses tersebut
didalamnya masih membawa frekuensi signal audio. Untuk menghasilkan
audio/sound dalam sinyal video tersebut digunakan rangkaian Sound IF
(frekuensi IF untuk suara tergantung dari jenis formatnya, untuk sistem
BG menggunakan 5,5MHz). Karena sinyal video hasil pemrosesan VIF
didalamnya masih terdapat “suara”, maka sebelum dimasukkan ke rangkaian
penguat video berikutnya (chroma/jungle) sinyal video tersebut harus
difilter terlebih dahulu untuk menghilangkan/menekan “suara” yang
dibawa. Umumnya menggunakan filter yang terdiri dari ceramic filter
(CF) dan induktor/lilitan.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Fungsi
dari AFT out dari rangkaian VIF adalah untuk “memberitahu” kepada IC
program tentang adanya sinyal yang tertangkap. Jika tegangan dari AFT
out telah sesuai dengan yang diharapkan oleh IC program, IC program akan
berhenti untuk mencari gelombang/channel secara otomatis.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Selain
digunakan untuk “pemberitahu”, AFT OUT juga digunakan sebagai pintu
untuk menyensor pergerakan/pergeseran frekuensi yang ditala oleh tuner
oleh IC program.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Jika
IC program mendeteksi adanya pergeseran, secara otomatis IC program
akan berusaha untuk “mengembalikan” frekuensi ke frekuensi semula dengan
mengubah tegangan VT (menaik-turunkan tegangan VT).</span></li>
</ol>
<span style="font-family: verdana; font-size: 85%;"><br />ADJUSMENT (PENYETELAN)<br /><br />Karena
fungsi dan cara kerja untuk beberapa merk TV sebagian besar sama, maka
penulis hanya akan mengulas cara setting untuk AFT/VIF yang
menggunakan IC dengan type TA8690AN dan TDA8360/1/2 karena setahu
penulis IC tipe tersebut banyak digunakan.<br />Sebelum proses
penyetelan, diharapkan semua komponen sudah dicek mulai dari tegangan
33V (harus betul2 stabil dan bersih dari ripple), rangkaian VT mulai
dari pin/kaki VT IC program hingga kaki VT tuner, dan sensor AFT dari
pin/kaki AFT IC program ke ic Chroma. Termasuk PCB dan kotoran/debu
yang dapat mengganggu sinyal listrik. Karena kerusakan AFT sangat
jarang disebabkan oleh tidak normalnya trafo IF. Jadi setting VIF/trafo
IF hanya merupakan “jalan terakhir”.<br /><br />SETTING AFT TA8690AN<br /><br />Pin
AFT out pada IC type ini pada pin nomor 48. Ketika ada sinyal yang
tertala, pin ini mengeluarkan tegangan AFT. Sebagai referensi, penulis
menggunakan sasis kepunyaan TV merk Goldstar (GS8334-03).<br /><br />Langkah-langkahnya :</span><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiFS60YSLco0j1uwBOE8H5v6uyBV-kFQ7sIUK_T9rZrO0CYloDOjhPA24rNMXlKUTQ2hyvs5ABkwGestz53cto9OV0nvf40qOJ6bPOkJkrqbvx6oB1ozrmYzihPyM_lsUmvEDK-T1L6QVY/s1600-h/ta_step1.JPG"><img alt="" border="0" height="164" id="BLOGGER_PHOTO_ID_5382928321063064386" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiFS60YSLco0j1uwBOE8H5v6uyBV-kFQ7sIUK_T9rZrO0CYloDOjhPA24rNMXlKUTQ2hyvs5ABkwGestz53cto9OV0nvf40qOJ6bPOkJkrqbvx6oB1ozrmYzihPyM_lsUmvEDK-T1L6QVY/s400/ta_step1.JPG" style="height: 115px; width: 280px;" width="400" /></a><br />
<span style="font-family: verdana; font-size: 85%;"><br /></span>
<br />
<ol>
<li><span style="font-family: verdana; font-size: 85%;">Ubah/modifikasi rangkaian seperti pada skema di atas (kanan), skema yang kiri merupakan skema asli pada umumnya.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Colokkan antenna, hidupkan tv, kemudian cari gelombang dengan memutar-mutar potensio (dengan hati-hati).</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Tes
tegangan yang keluar dari pin AFT out (pin48), tegangan pada pin
tersebut akan mengikuti/menandai adanya sinyal/gelombang yang diterima.
Jika tegangan pada pin tersebut tidak bisa berubah berdasarkan
channel/gelombang, kemungkinan IC atau trafo IF bermasalah.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Jika
sudah menerima siaran, turunkan AGC hingga gambar yang ditampilkan
sedikit “bersemut” tetapi warna masih ada. Cara menurunkan AGC dengan
memutar trimpot AGC.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Dengan
jarum multitester masih terhubung dengan pin 48, set/adjust trafo IF
(PIF tank yang terhubung dengan pin 45 dan 46) dengan hati-hati sambil
mengamati jarum multitester, adjust hingga mendapatkan tegangan AFT yang
TERTINGGI dengan gambar dan suara yang terjelas. Trafo AFT tank pada
pin 47 dibiarkan terlebih dahulu.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Lepas
potensio tuning dan kembalikan lagi skema seperti sebelumnya.
Lanjutkan dengan proses Auto Search. Jika sudah normal, berarti sudah
cukup sampai disini (lanjutkan dengan menaikkan AGC kembali).</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Jika belum normal, kembalikan tuning dengan menggunakan potensio dan tala pada gelombang tertentu.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Tes
tegangan AFT pada pin 48, set trafo AFT tank hingga didapatkan
tegangan kira-kira 3 / 4 dari tegangan tertinggi (misalnya tegangan
tertinggi=6,4V maka set pada tegangan sekitar 4,5V). Untuk referensi,
tegangan AFT pada TV goldstar sebesar 3,2V.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Lepas
potensio tuning, kembalikan rangkaian seperti normalnya, lanjutkan
dengan proses Auto Search. Dengan peralatan minimal, Anda bisa coba-coba
dengan menggeser/menset secara hati-hati trafo AFT tank hingga proses
Auto Search dapat berjalan normal (nomor channel dapat berganti
otomatis berdasarkan siaran yang diterima). Kalau perlu, proses Auto
Search dan set trafo AFT tank bisa diulang-ulang.</span></li>
<li><span style="font-family: verdana; font-size: 85%;">Jika sudah beres, jangan lupa mengeset lagi AGCnya.</span></li>
</ol>
<span style="font-family: verdana; font-size: 85%;"><br />SETTING AFT TDA8360/1/2<br /><br />Pada
TDA8360/1/2 sensor yang dipakai adalah pin AFC output (pin 44) dan pin
Video Identification output (pin4). Cara kerja pin AFC output sama
dengan pin AFT output pada TA8690AN dan cara kerja pin 4 yaitu untuk
mendeteksi adanya sinyal video, jika ada sinyal video pin 4 bertegangan
tertentu (logik Hi) dan sebaliknya.<br />Sedangkan langkah-langkah
settingnya tidak jauh berbeda dengan TA8690AN, perbedaannya, Anda harus
mengeset tegangan pin AFC (pin 44) pada tegangan normalnya (6V) dan
tegangan pada pin 4 pada level tinggi (ada video yang terdeteksi).<br /><br />CATATAN<br /><br />Pada
tuner yang sudah menggunakan pin SDA dan SCL untuk kontrol
tuning/frekuensi, TIDAK memerlukan sistem AFT karena tuner yang dimaksud
sudah menggunakan sistem PLL (sudah mempunyai frekuensi referensi
sendiri dan sulit sekali bergeser frekuensinya). Karena sistem yang
digunakan PLL, Anda tidak perlu mengeset/memprogram ulang channel jika
ada penggantian tuner.</span> </div>
</div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com0tag:blogger.com,1999:blog-685668056401993518.post-79316230884451005072013-03-13T22:26:00.002+07:002013-07-12T21:43:44.496+07:00Data pin IC TDA 8362, 8361, 8360<div dir="ltr" style="text-align: left;" trbidi="on">
<h1 class="title entry-title" itemprop="name">
</h1>
<div class="article-content entry-content" itemprop="articleBody">
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a><br />
Data pin IC TDA 8362, 8361, 8360<br />
<br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin1 =DE-EMP[3.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin2 =REF COIL/0.15uh[5.9v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin3 =REF COIL/0.15uh[5.9v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin4 =IDENT</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin5 =SIF.IN.VOL[1.3v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin6 =EXT.AUDIO.IN[4.3v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin7 =VIDEO.OUT[4v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin8 =DG.ACC[1.7v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin9 =GND</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin10 =VCC[8v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin11 =GND</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin12 =CAL.DEC [3.4v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin13 =INT.VID.IN/CVBS.EXT.2 [4.3v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin14 =SHARP [2.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin15 =VID.IN/CVBS.EXT.1 [3.8v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin16 =C.IN/EXT.IN/CHROMA</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin17 =BRIGHTNEESS [3.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin18 =B.OUT [2.4v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin19 =G.OUT [2.4v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin20 =R.OUT [2.4v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin21 =RGB.IN [0.3v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin22 =B.IN [2.6v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin23 =G.IN [2.6v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin24 =R,IN [2.6v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin25 =CONTRASS [2.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin26 =COLOR [1.1v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin27 =HUE.SECAM.OUT [0.9v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin28 =B-Y.IN [4.3v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin29 =R-Y.IN [4.3v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin30 =R-Y.OUT [1.5v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin31 =B-Y.OUT [1.5v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin32 =SECAM.SUBC [1.5v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin33 =BURST.PHASE [5.4v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin34 =3.58MHZ [3.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin35 =4.43MHZ [3.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin36 =H.POWER [8.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin37 =H.OUT [0.4v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin38 =SANDCASTLE/FBI/SCO [1.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin39 =PH2 [2.5v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin40 =PH1 [4.0v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin41 =VFB [2.8v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin42 =VERT,SAWTOOTH [2.8v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin43 =VERT.OUT [0.9v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin44 =AFT [4.5v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin45 =F.N [4.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin46 =F.N [4.2v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin47 =RF AGC [6.5v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin48 =AGC [3.9v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin49 =AGC ADJ [1.1v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin50 =SOUND OUT [4.0v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin51 =DEC [3.4v]</span><br />
<span style="background-color: #f7eee9; color: #666666; font-family: Arial, 'Century gothic', Tahoma, sans-serif; font-size: 13px; line-height: 22px;">pin52 =BG-DEC [7.0v]</span></div>
</div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com3tag:blogger.com,1999:blog-685668056401993518.post-79700012887892821012013-03-04T10:07:00.001+07:002013-07-12T21:44:44.975+07:00RANGKAIAN ESR METER<div dir="ltr" style="text-align: left;" trbidi="on">
<h2 class="xt_blog_title">
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a> </h2>
<h2 class="xt_blog_title">
ESR METER</h2>
Alat
ini sangat membantu dalam melakukan pencarian kapasitor/ elco yang
rusak, penggunaannya sangat mudah tanpa harus melepas komponen dari PCB,
dengan alat ini kapasitor/elko yang sudah aus dapat dengan mudah
dideteksi secara cepat tempelkan 2 probe pengukur ke kaki kapasitor/elco
jarum meter akan menyimpang yang menandakan kualitas kapasitor/elco,
semakin jauh penyimpangan jarum meter semakin baik pula kualitasnya, dan
ini tergantung dari
nilai capasitor/elco. elco dibawah 1uf akan menyimpang sedikit kira2
10-20%, dan 1uf keatas akan menyimpang 20%-90% tergantung nilai
kapasitansinya, makin besar nilai kapasitansi elco/kapasitor maka jarum
meter akan menyimpang lebih besar hingga hampir 100% <br />
bagi anda yang mau bikin alatnya, inilah skemanya:<img height="228" src="http://tinol.jw.lt/img/ESR.png" width="640" /><a href="http://tinol.jw.lt/index?__xtblog_entry=4ff91253a950ef243b000008#xt_blog"><br /> </a></div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com1tag:blogger.com,1999:blog-685668056401993518.post-43376931637998790202013-03-04T09:04:00.001+07:002013-07-12T21:45:49.145+07:00ESR Penting bagi seorang tekhnisi elektronika<div dir="ltr" style="text-align: left;" trbidi="on">
<a href="http://www.komisibagus.com/?m&id=inuanhar">BACA : PELUANG BISNIS DAN KERJA SAMBILAN UNTUK ANDA</a><br />
<br />
1. Apa beda ESR-meter dengan kapasitan-meter<br />
Kapasitan-meter digunakan untuk mengukur "nilai kapasitas" kondensator (termasuk elko)<br />
ESR-meter digunakan untuk mengukur "nilai tahanan" elkoterhadap frekwensi tinggi<br />
Elko yang bagus idealnya mempunyai tahanan "nol" terhadap frekwensi
tinggi. Tetapi pada kenyataan elko selalu mempunyai tahanan frekwensi
tinggi (ESR) yang disebabkan karena pada konstruksi sambungan
didalamnya.<br />
Elko yang rusak akan membuat nilai tahanan ESR naik beberapa kali lipat
lebih besar. Sirkit switching-regulator atau sirkit-horisontal yang
bekerja pada frekwensi tinggi, tahanan ESR ini dapat menyebabkan elko
menjadi panas (sesuai hukum panas Watt = I x R), makin besar tahanan ESR
elko makin mudah panas. hal ini dapat mengakibatkan cairan elektrolit
menguap, nilai kapasitan menurun (kering), elko mengelembung akibat
tekanan uap elektrolit dari dalam, atau bahkan kadang elko meledak.<br />
Untuk menggunakan ESR-meter maka pahami dahulu sifat tahanan ESR sebuah elko<br />
Makin kecil nilai (uF) elko - maka makin besar nilai tahanan ESR<br />
Makin tinggi tegangan kerja (v) saebuah elko -maka makin besar nilai tahanan ESR<br />
Elko dengan kualitas pembutan yang bagus - makin kecil nilai tahanan ESR<br />
Misalnya :<br />
Elko nilai 10uF ketas - biasanya mempunyai tahanan ESR dibawah satu ohm atau mendekati nol.<br />
Elko nilai 1uF/50v -biasanya mempunyai nilai tahanan ESR sekitar 1 ohm<br />
Elko nilai 1uF/250v -biasanya mempunyai nilai tahanan ESR sekitar 2~3
ohm. Kalau nilai makin kecil berarti" kualitas" elko tersebut bagus.<br />
<br />
2. Cara penggunaan ESR-meter<br />
ESR-meter yang kami buat menggunaan VU-meter sebagai penunjuk. Agar
memudahkan skala - maka angka "0" pada VU-meter tersebut dipakai sebagai
referensi "nol ohm".<br />
Sebelum digunakan untuk mengukur -Kedua probe dishotkan dahulu untuk memeriksa apakah jarum sudah menunjukkan angka nol.<br />
Jika jarum tidak tepat pada angka nol - maka dapat diadjust VR yang
terdapat didalam casing (hal ini tidak perlu sering dilakukan seperti
halnya pada ohm-meter)<br />
Untuk mengukur tahanan ESR elko -gunakan ESR meter seperti ketika menggunakan ohm-meter.<br />
Probe dipasang bolak-balik tidak masalah<br />
Elko yang masih terpasang pada main-board tidak perlu dilepas (in-circuit)<br />
<br />
Kalibrasi secara visual sebelum menggunakan ESR-meter<br />
Karena ESR-meter yang kami buat tidak mempunyai skala-ohm. Maka sebelum digunakan harus dilakukan kalibrasi visual dahulu.<br />
Ambil resistor dengan nilai 1, 2 dan 3 ohm<br />
Ukur masing-masing dengan ESR-meter secara bergantian<br />
Ingat lokasi masing-masing simpangan jarum sebagai referesi nilai tahan ESR.</div>
Anonymoushttp://www.blogger.com/profile/01348415184955268706noreply@blogger.com0