LabGruppen-FP6400-pwr-sm 维修电路原理图.pdf
《LabGruppen-FP6400-pwr-sm 维修电路原理图.pdf》由会员分享,可在线阅读,更多相关《LabGruppen-FP6400-pwr-sm 维修电路原理图.pdf(60页珍藏版)》请在收音机爱好者资料库上搜索。
1、 mSQMM=pbosfb=jkri=s=O iK=_=d=NSI=pbJQPQ=QQ=hrkdp_hI=ptbabk=mW=HQS=PMM=RS=OU=MM=cW=HQS=PMM=RS=OU=VV=K=KK=RadioFans.CN 收音机爱 好者资料库= =p=j=mSQMM=m=N=EUF= fP6400 Functional description for class TD amplifiers.3 Functional description schematics .5 Internal connections.6 Component list.7 Variant specific
2、components.7 Description for variant dependent components.7 Sparepart list for fP6400.8 A20TDH Schematics for A20TDH.2 Board placement for A20TDH.3 Component list for A20TDH-32-2 - rev 02.4 A20TDL Schematics for A20TDL.2 Board placement for A20TDL.3 Component list for A20TDL - rev 02A.4 Variant spec
3、ific components.7 Description for variant dependent components.8 IN2GTD Schematics for IN2GTD .2 Board placement for IN2GTD .3 Component list for IN2GTD - rev 02A.4 Variant specific components.7 Description for variant dependent components.8 LD92 Schematics for LD92 .2 Board placement for LD92.3 Com
4、ponent list for LD92 - rev 01.4 Variant specific components.5 Description for variant dependent components.6 SP80CB Schematics for SP80CB.2 Board placement for SP80CB.3 Component list for SP80CB-2x32-2 - rev 01A.4 SP80FA / SP80FB Functional description for switch mode powersupply SP80FA & SP80FB.2 S
5、chematics for SP80FA & SP80FB.4 Schematics for SP80FA, SP80FB & PIND.5 SP80FA.6 Board placement for SP80FA - rev 04.6 Board placement for SP80FA - rev 06.7 Component list for SP80FA - rev 06.8 Variant specific components for 230V versions - rev 06.9 RadioFans.CN 收音机爱 好者资料库= =p=j=mSQMM=m=O=EUF= = = V
6、ariant specific components for 115V versions - rev 06.10 Description for variant dependent components.11 SP80FB.12 Board placement for SP80FB & PIND.12 Component list for PIND, SP80FB - rev 01A.13 Variant specific components for 230V versions - rev 01A.15 Variant specific components for 115V version
7、s - rev 01A.16 Description for variant dependent components.17 = =p=j=mSQMM=m=P=EUF= = = c=qa= Theory of function The input signal is connected to the balanced amplifier and gain switch U1, U201 on the IN2GTD-board. The signal is then passing the gain control on the front panel, going to amplifier U
8、2 (IN2GTD). The gain in this amplifier can be reduced by opto resistor U5 to prevent clipping in the output amplifier. Limiter Q1, Q2 together with the phase linear lowpassfilter U3, U4 limits the slewrate of the signal going to the output amplifier A20TDL, preventing intermodulation in this amplifi
9、er if signals of too high frequencies are presented on the input terminal. The output amplifier A20TDL works as an ordinary power amplifier with the difference that the collector voltage to the output transistors is supplied from the switch mode amplifier A20TDH. The base voltage of the output trans
10、istors Q26-Q28, Q31-Q33 (A20TDL) is sensed by voltage divider R36-R38 and is then sent to the adjustable limiter U3, U4 on the IN2GTD-board, before it reaches the input of the switch mode amplifier (A20TDH) . Limit level is set by the MLS switches S1 and S2. This limiter is used to limit the maximum
11、 output voltage from the amplifier. These switches also change the sensitivity for the led bars on the front panel. The amplifier U1 (U2) on the A20TDH-board makes sure that the output signal on terminal CP4 (CP8) is a copy of the input signal on terminal CP12, by giving correct control voltage to p
12、ulse width modulator U3. U3 compares this voltage with an 614kHz triangular wave giving a pulse width modulated output signal from Q1 (Q7) which is filtered by L1, C1 (L4, C10). The gain from the base of the output transistors on the A20TDL-board to the output of the A20TDH-board is equal to one. VR
13、1 (VR2) is used to add a DC-offset on the input of U1 (U2) giving +7,5V (CP4) -7,5V (CP8) relative output of the LF-amplifier (CP6A), which is the same as collector-emitter voltage for the output transistors Q26-Q28 and Q31-Q33. Repairing instructions REQUIRED MEASUREMENT EQUIPMENT: -Audio generator
14、 -Dummy load, 16 ohm -AC-voltmeter/THD-meter -2 digital voltmeters -Two channel oscilloscope for audio 1. Without changing any fuses check the power supply +155V, -155V, +16V, -16V and +45V. If these arent OK go to the service manual for the power supply. (The +45V voltage is not regulated and can v
15、ary between 30 and 60V depending on the load of the power supply.) 2. If all fuses are OK, follow the signal from input to output, and repair in normal way. The best way is to place the amplifier on the front handles, loosen the rear panel, and mount it back on distances (delivered with this manual)
16、 to make it possible to measure. 3. If there is a fault in the power amplifier stage do as follows: 3:1 Turn VR1, VR2 (A20TDH) and VR3 (SP80FB) counter clockwise. 3:2 Short-circuit R38 on A20TDL-board. 3:3 Disconnect cables from CP23 and CP24 (A20TDL) (Q26-Q28 and Q31-Q33 collectors). 3:4 Replace br
17、oken fuses. (only for the channel you repair) 3:5 Connect DC-voltmeter (200V) to the positive (negative) rail voltage. 3:6 Connect another DC-voltmeter (20V) to the cable disconnected from CP23 (CP24). 3:7 Turn VR3 (SP80FB) slowly clockwise, and watch the voltmeters. Rail voltage should increase rap
18、idly, collector voltage should read 0. After turning VR3 maximum 30, rail voltage should be 155V. = =p=j=mSQMM=m=Q=EUF= = = a) If the rail voltage is zero or very low, check Q1, D1A, D1B (Q7, D5A, D5B) (shorted) on the A20TDH-board. If Q1 (Q7) is broken, also replace R3 (R16) and D2 (D6). b) If the
19、rail voltage is OK, turn VR1 (VR2) on the A20TDH-board slowly maximum clockwise. Voltage measured on the disconnected collector cable should stop at about 7,5V. c) If OK turn VR1 (VR2) (A20TDH) and TP3 (SP80FB) counter clockwise. 3:8 Repeat from 3:5 for the negative side. 3:9 Reconnect cable to CP23
20、 (Q26-Q28 collector). 3:10 Connect dummy load 16 ohm to output, and connect an oscilloscope (10V/div) across the load. 3:11 Slowly turn VR3 (SP80FB) for 155V (-155V) rail voltage. 3:12 Slowly turn VR1 (VR2) (A20TDH) clockwise and look at the oscilloscope. There should be no DC on the oscilloscope. I
21、f there is DC (1V) repair the positive (negative) output section on the A20TDL-board. 3:13 Turn back VR1 (VR2) (A20TDH) and VR3 (SP80FB), and disconnect the cable from CP23 (Q26-Q28 collector). 3:14 Reconnect cable to CP24 (Q31-Q33 collector) and repeat from 3:11 for the negative side. 3:15 Reconnec
22、t cables to CP23 and CP24. Turn VR3 for 155V rail voltage. Turn VR1 clockwise, no DC on the oscilloscope. Then slowly turn VR2 clockwise. There can be some oscillation with VR2 in middle position, but it will stop at further turning. 3:16 Connect 1kHz sine wave to the input of the amplifier. Adjust
23、gain until there is signal on the output. It should be a 7V PK sine wave with no distortion. 3:17 Disconnect short circuit from R38, and the amplifier will work. = =p=j=mSQMM=m=R=EUF= = = c= =p=j=mSQMM=m=S=EUF= = = f= =p=j=mSQMM=m=T=EUF= = = = - Safety critical component. Should only be replaced wit
24、h the specified type. Position Partnumber Description Comment FAN201 F80 x25-24HS Fan 80 x80 x25mm 24VDC high speed FAN202 F80 x25-24HS Fan 80 x80 x25mm 24VDC high speed K201 6K4FUI9330_LAB Trafo. 6,4KW flyback U93/76/30 I93/28/30 core LAB. Rev01 P1 NL4MP_NEU Connector speakon 4pole NEUTRIK NL4MP P2
25、 CASOC5P270_LAB Cable assembly socket crimp terminal 5pole L270mm LAB. Rev01 P3 SOIDC3P1M_AMP Socket IDC terminal 3pole 1module AMP 640441-3 P101 NL4MP_NEU Connector speakon 4pole NEUTRIK NL4MP P102 CASOC5P270_LAB Cable assembly socket crimp terminal 5pole L270mm LAB. Rev01 P103 SOIDC3P1M_AMP Socket
- 配套讲稿:
如PPT文件的首页显示word图标,表示该PPT已包含配套word讲稿。双击word图标可打开word文档。
- 特殊限制:
部分文档作品中含有的国旗、国徽等图片,仅作为作品整体效果示例展示,禁止商用。设计者仅对作品中独创性部分享有著作权。
- 关 键 词:
- LabGruppen-FP6400-pwr-sm 维修电路原理图 LabGruppen FP6400 pwr sm 维修 电路 原理图