Classe-CA401-pwr-sm维修电路原理图.pdf
PRO-SVR_LEGACY Page 1 of 13 Date:July 17, 2007 Model Number: CA-401Class Audio Inc.Subject:Service manual Class Audio, Inc. 5070 Franois Cusson Lachine, Qubec Canada H8T1B3, RadioFans.CN 收音机爱 好者资料库PRO-SVR_LEGACY Page 2 of 13 Table of ContentsIntroduction 3Important Notes on Servicing 3Ordering Replacement Parts 3Block Diagrams 4Start up Procedure 5Protection Modes and Indicators 6Troubleshooting Guide 7Output Transistors Testing and Replacement 8Calibrations and Adjustments 19Parts List 10Updates 11Fuses 12Voltage Change 12IR Interface Information 13Schematics 14The contents of this document as well as the files associated with it contain confidential information that is proprietary to Class Audio Incorporated and are intended solely for the purpose of servicing product. No part of its contents may be used, copied, disclosed, or conveyed to any party in any manner whatsoever without prior written permission from Class Audio Incorporated. RadioFans.CN 收音机爱 好者资料库PRO-SVR_LEGACY Page 3 of 13 IntroductionPlease read this manual carefully before commencing servicing! Only qualified and authorized personnel should attempt to service this product. The lightning flash with arrowhead symbol, within an equilateral triangle, is intended to alert the user to the presence of uninsulated dangerous voltage within the products enclosure that may be of sufficient magnitude to constitute a risk of electric shock to persons. The exclamation point within an equilateral triangle is intended to alert the user to the presence of important operating and maintenance (servicing) instructions. Class has a global product support network. For product assistance or to order replacement parts please contact your nearest service center always quoting the unit serial number. North America Phone: (978) 664-2870 E-mail: EuropePhone: 44 (0) 1903 221 700 E-mail: AsiaPhone: (852) 2790 8903 E-mail: classebwgroup.hkRest of the World Phone: (514) 636-6384 E-mail: Important Notes on Servicing 1.ALWAYS observe ESD precautions when handling electronic modules or PCBAs. 2.NEVER exchange boards with a different revision number, unless authorized by Class. 3.ALWAYS use Class original replacement parts. The use of generic parts may void the warranty of the unit. Ordering Replacement Parts There may be a delay in processing incomplete requests. Please be sure to include all required information. Remember to quote the serial number of the unit on all replacement part orders and the Class order number when returning defective parts for credit. PRO-SVR_LEGACY Page 4 of 13 Block diagramsPRO-SVR_LEGACY Page 5 of 13 Start Up ProcedureWhen receiving a unit, an assiduous visual inspection must be performed. Do not connect the unit without analysing the symptoms reported by the customer and the results of the inspection. Using the troubleshooting guide, find the problem and proceed to the repair. Once this step is done, follow these steps, known as the start-up procedure, to ensure that everything in the unit is in working condition. 1. Proceed with a post repair visual inspection. Take the time to check if every wire is reconnected properly, every screw is bolted on, no soldering and/or metal residues lying in the unit, every fuse has been replaced, etc. 2. Connect the unit to a variable transformer, setted to 0Vac. 3. Turn the bias trimpot (RV1) counter clockwise until a click is heard. 4. Connect the bypass wire to the variable transformer. This bypass is a power cord, modified on the female side in order to bypass the soft start sequence. It is connected to the line tab on voltage selector PCB. 5. Slowly raise the voltage to 10Vac, and check positive and negative rails and pre-driver supply. Check fuses.6. If one or more supply are not within specifications, return to the troubleshooting guide. 7. Slowly raise voltage until you hear relays click, this point is around 55Vac. Recheck every supply. 8. If one or more supply are not within specifications, return to the troubleshooting guide. 9. Raise voltage to 120Vac. Recheck every supply 10. If every supply is within specifications, unplug the unit and bypass from the variable transformer. Reconnect only the unit. 11. Report to calibration and adjusments to adjust bias and DC offset. Note that bias can be adjusted to 14mV, and the following tests can be performed before the unit is send to the burn-in bench for a 24 hours warm-up. 12. Connect the unit to a load, and to a source using balanced inputs and single ended inputs, independently. 13. Perform a test with a 200Hz, a 2kHz and a 20kHz tone, both sinus wave and square wave. Check the output with a oscilloscope, on 4 ohms and 8 ohms loads. Take special cares about oscillation and phase correlation between channels. 14. Connect the unit to a small speaker, and short the input. Check for any noise. Perform this step with single ended inputs and balanced inputs, independently. 15. Put the unit on a burn-in bench, and let it sit for 24 hours, then readjust bias. Let the unit on the burn-in bench for another 72 hours. 16. Redo steps 11 to 14 before shipping to the customer. PRO-SVR_LEGACY Page 6 of 13 Protection Modes and IndicatorsThe front LED shows the status of the amplifier. When starting up normally, the CA401 will show a FLASHING RED LED for about 15 seconds and if all is normal, the LED will go SOLID RED. If there is a fault, the LED will go to a FLASHING GREEN LED. The CA401 is equipped with four Mosfet protection fuses. In the event that one or more of these fuses would blow, the technician will first need to identify and cure the cause of failure (please report to troubleshooting guide). When the cause has been identified, disconnect the unit from the system including the AC power. Remove the top cover and look for damaged or burned components. If no other components than the fuses appear to be damaged, the technician can then replace the broken fuses with the same value and rating (please report to fuses section). The Mosfet fuses are located on the control board. When replacing fuses, please make sure that the fuse holder are holding the fuses very tightly. A loose fuse holder can translate into distortion on top of the signal. PRO-SVR_LEGACY Page 7 of 13 Troubleshooting GuideSymptom Possible cause Unit won t turn on Check connections; Check fuses; Check soft-start circuit; Check relays; Check power supply circuits (positive rail, negative rail, Mosfet supply). Smoked and/or burned components Check for short between components and ground; Check output transistors; Check output relays; Check power supply circuits (positive rail, negative rail, Mosfet supply). Blown fuses Check for short between fuse and ground; Check power supply circuits (positive rail, negative rail, Mosfet supply). No output Check connexions; Check output relays; Check power supply circuits (positive rail, negative rail, Mosfet supply);Check output transistors. Unit turn into protection Check for smoked and/or burned components; Check power supply circuits (positive rail, negative rail, Mosfet supply);Check source and load; Check protection circuit; Check sensor wires between sensor PCB and control PCB; Check outputs transistors and Mosfet drivers. Excessive buzz and/or hum Check electrical lines; Check for a ground loop in the system. Oscillation Check source; Check capacitors on main board; Check 4.7? resistor. Intermittent signal Check connections; Replace shield wires. PRO-SVR_LEGACY Page 8 of 13 Output Transistors Testing and ReplacementPLEASE NOTE THAT THESE TESTS ARE ONLY EFFECTIVE ON BIPOLAR TRANSISTORS. DO NOT PERFORM THESE TESTS ON MOSFET DEVICES, AS THEY ARE LIKELY TO BECOME SHORT DURING THE TEST.You should check all pin combinaisons, as there is a chance that only one side of the transistor is short. When replacing outputs transistors, the technician should first disconnect both outputs and main board to check if the blown outputs were caused by a faulty component on the amplifier s base. Blown output transistors should be replaced by kits, not individually. These kits contains matched transistors for both rails of one channel. When replacing blown output transistors, you must also replace positive and negative Mosfet drivers and bias transistor. Carefully inspect 4.7? resistor and 10? soft start resistor, and replace if necessary. Replace any burnt component or board. Pins : 1 Base 2 Emitter Case Collector You should have these results, if the transistor is good. MJ21194 (NPN) Positive lead Negative lead Result B C Conductive B E Conductive C B Infinite C E Infinite E B Infinite E C Infinite MJ21193 (PNP) Positive lead Negative lead Result B C Infinite B E Infinite C B Conductive C E Infinite E B Conductive E C Infinite PRO-SVR_LEGACY Page 9 of 13 Calibrations and AdjustmentsBias adjustment: Note: Bias adjustment should be made without any load connected to the amplifier s output, and no signal connected to the amplifier s input. 1. Connect a multimeter to R8 leads and set the multimeter to mV scale. 2. Turn trimpot RV1 counterclockwise until it reaches 0?. A click should be heard. 3. Turn on amplifier, and let it warm up for 15 minutes on idle. 4. Adjust trimpot RV1 to get a 14mV reading. 5. Let the amplifier warm up for a 24 hours period with signal and load. 6. Remove signal and load, and reconnect the multimeter, setted to mV scale, to R8 leads. Note the reading.7. Connect the multimeter to R9, R10, R11, R12 and R13 leads. Note the readings. 8. Input the results into this formula: (144 mVR8 mVR9 mVR10 mVR11 mVR12 mVR13) 6) + mVR89. Connect the multimeter to R8 leads, and adjust RV1 to match the reading to the formula result. 10. Results should be around 24mV. DC offset: Note: DC offset adjustment should be made without any load connected to the amplifier s output, and no signal connected to the amplifier s input. On these units, DC offset can t be adjusted. Measure DC offset using a voltmeter connected to the output posts, scale setted to mV. DC offset should be less than 10mV. PRO-SVR_LEGACY Page 10 of 13 Parts ListThis is not a detailed part list. It is a list of major chassis parts and PCBs. If you need to order a specific part, please contact Classe Audio with the part location, PCB number, and model and serial number of the unit. If you need a complete PCB, please replace the (x) in the Classe part number with the revision number printed on the board. Parts Description Classe part number B1DAX Complete PCB, power switch B1DAXR(x) B01GX Complete PCB, filter B01GXR(x) B012X Complete PCB, capacitor B012XR(x) B013X Complete PCB, control B013XR(x) B015X Complete PCB, input B015XR(x) B017X Complete PCB, output, bottom B017XR(x) B B017X Complete PCB, output, top B017XR(x) T B018X Complete PCB, output, middle B018XR(x) B019X Complete PCB, sensor B019XR(x) B1D8X Complete PCB, soft start B1D8XR(x) B02AX Complete PCB, amplifier B02AXR(x) B1D6X Complete PCB, voltage selector B1D6XR(x) B20BX Complete PCB, IR sensor B20BXR(x) PRO-SVR_LEGACY Page 11 of 13 Updates1. On board B015X, replace R101, R103, R105, R201, R203 and R205 with Classe part number A211-1308.2. On board B013X, replace R108 with Classe part number A211-1344 3. On board B02AX (both PCBs), replace R140 and R141 with Classe part number A211-1458 4. On board B017X (both PCBs), replace RV1 with Classe part number A214-1003 5. On board B018X (both PCBs), replace R5 and R6 with Classe part number A205-1016 6. On board B02AX, check C115 and C117 for damage and replace them if necessary with Classe part number A201-1162 7. On board B012X, remove brackets and install 4 stand off, Classe part number A307-1089 8. On board B013X, replace PO11XR02 program with 040AR3, Classe part number and drop rail sensor voltage from 500mV to 275mV 9. On chassis, install capacitors Classe part number A201-1162 on AC poles of the bridge rectifiers (both) 10. Replace shield wires with newer type. PRO-SVR_LEGACY Page 12 of 13 FusesEXTRA PRECAUTIONS SHOULD BE TAKEN WHEN REPAIRING, MODIFYING, ORTROUBLESHOOTING IN THE POWER SUPPLY AREA. UNIT MUST BE DISCONNECTFROM MAIN SOURCE AND CAPACITORS MUST BE DISCHARGED USING A 100W INCANDESCENT BULB. WHEN REPLACING FUSES, PLEASE MAKE SURE THAT THE FUSE HOLDERS ARE HOLDING THE FUSES VERY TIGHTLY. A LOOSE FUSE HOLDER CAN TRANSLATE INTO DISTORTION ON TOP OF THE SIGNAL. Main fuses: For 100 120v units: 15A slo-blo, Classe part number MDA-15A For 220 240v units: 12A slo-blo, Classe part number MDA-12A The main fuse is located at the back of the unit, on the rear panel. Control board fuse: 0.50A, Classe part number 225.500 The control board fuse is located on top of the control board (B013X) Mosfet fuses: 0.75A, Classe part number 225.750 The Mosfet fuses are located on top of the control board (B013X) Voltage ChangeEXTRA PRECAUTIONS SHOULD BE TAKEN WHEN REPAIRING, MODIFYING,ORTROUBLESHOOTING IN THE POWER SUPPLY AREA. UNIT MUST BE DISCONNECTFROM MAIN SOURCE AND CAPACITORS MUST BE DISCHARGED USING A 100W INCANDESCENT BULB. 1. Set the primary wires of the main transformer as described below. 2. Replace the varistor, according to new line voltage, following Classe s recommendations. If varistor is not available, remove old varistor and leave it empty. 3. Set the jumpers accordingly on the auxiliary transformer located at the back of the unit on the top main board on the left-hand side of the auxiliary transformer (see tables below) Primary wires, main transformer Mains Z1 Z2 Z3 Z4 Z5 Z6 Z7 Z8 Varistor100VACBlueBlack White Orange- - GrayYellow140120VACGrayYellowWhiteOrange- - BlueBlack 140 220VACGrayBlack White - BlueOrange-Yellow250240VACGrayYellowWhite - BlueOrange- Black 250 Jumpers, auxiliary transformer Mains Position 1 Position 2 Position 3 Position 4 Position 5 100/120VAC In Out Out Out In 220/240VAC Out Out In Out Out PRO-SVR_LEGACY Page 13 of 13 IR Interface InformationPress and hold: AMP + LINE 1 = Turns on Amplifier # 1 AMP + LINE 2 = Turns on Amplifier # 2 AMP + LINE 3 = Turns on Amplifier # 3 AMP + BAL 1 = Turns on Amplifier # 4 AMP + BAL 2 = Turns on Amplifier # 5 AMP + BAL 3 = Turns on Amplifier # 6 J3 J2 J1 J0 ADDRESS RC Button Auto ON Note X X X X 0 Amp1 No QC setting X X X Out 1 Amp2 No X X Out X 2 Amp3 No X X Out Out 3 Amp4 No X Out X X 4 Amp5 No X Out X Out 5 Amp6 No X Out Out X 0 Amp1 No X Out Ot Out 0 Amp1 Yes On with AC Out X X X 0 DC No Out X X Out 1 DC No Out X Out X 2 DC No Out X Out Out 3 DC No Out Out X X 4 DC No Out Out X Out 5 DC No Out Out Out X 0 DC No Out Out Out Out 0 DC Yes On with AC B012XR03.sch-1 - Tue Jul 17 11:42:43 2007B015XR06.sch-1 - Tue Jul 17 11:43:10 2007B017XR05_B018XR04.sch-1 - Tue Jul 17 11:43:35 2007B019XR02.sch-1 - Tue Jul 17 11:35:07 2007B01GXR02.sch-1 - Tue Jul 17 11:41:29 2007B02AXR01.sch-1 - Tue Jul 17 11:35:49 2007B1D6XR01.sch-1 - Tue Jul 17 11:36:18 2007B1D8XR00.sch-1 - Tue Jul 17 11:36:43 2007B20BXR00.sch-1 - Tue Jul 17 11:42:04 2007