Arcam-P1-pwr-sm(1)维修电路原理图.pdf
《Arcam-P1-pwr-sm(1)维修电路原理图.pdf》由会员分享,可在线阅读,更多相关《Arcam-P1-pwr-sm(1)维修电路原理图.pdf(26页珍藏版)》请在收音机爱好者资料库上搜索。
1、ServiceManualP1 Ampli erIssue 1.0ARCAMARCAMBringing music & movies to lifeBringing music & movies to lifeRadioFans.CN 收音机爱 好者资料库 Contents List ! Circuit description ! Circuit diagrams o L929AY switch PCB o L962AY amplifier main PCB ! Transformers o L929TX 115/230VAC toroidal o L927TX 100VAC toroidal
2、 o L907TX 100VAC frame ! Exploded view diagram ! Mechanical & packing parts list ! Circuit board silk screen & parts list o L929AY switch PCB o L962AY amplifier main PCB RadioFans.CN 收音机爱 好者资料库Fmj P1 Amplifier circuit description by A.Moore Product description The P1 has been has been designed to pr
3、ovide unsurpassed sound quality, the main design features are as follows. o Gain switchable between Arcam gain and THX gain (29dB closed loop) a 0dB signal equates to 100 watts into 8 ohms. o Input switchable between unbalance phono and balance XLR. o The amp is capable of producing 180 watts of sin
4、usoidal output into an 8 ohm load and greater than 300 watts into a 3.2 ohm load (subject to thermal dissipation limits). o Relay coupled for silent on/off operation. o Opto-isolated fault and control lines to the control PCB. o DC coupled signal path with integrating servo to remove residual DC err
5、ors. o Instantaneous safe operating area protection. o Exceptionally low harmonic and intermodulatiion distortion. o Flat frequency response. o Fast and asymmetric slew rate. o High damping factor o Unconditionally stable into loads of upto +/- 90-degree phase. Power supply/Control description The m
6、ains input is applied via SKT1. Y capacitors C1 and C2 and X capacitor, C5 provide filtering and EMC suppression R2 provides a discharge path for the capacitors. SW1 allows the selection of the mains voltage that the unit will operate from, the main standby transformer TX1 and the main transformer T
7、X2 have duel primary windings, these windings are connected in parallel for 115v operation and in series for 230v operation. TX1 is powered at all times when a mains voltage is applied to the mains input socket the secondary of this transformer is fused by via FS3 and rectified by diode bridge DBR1
8、and regulated to 5V by low dropout regulator at location REG2 to provide a constant +5v(D) supply for the micro. Please note: the digital supply ground is connected to the chassis ground via a 100-ohm resistor. Relay RLY1 provides a means of powering the main transformer for normal operation (as app
9、osed to standby operation where only TX1 is powered) this relay is under the control of the Micro IC1 and SW3 on the control board the relay contacts of RLY1 are suppressed by C3 and C4 these prevent sparking and increase the relay life span. The circuitry around TR10 functions as a mains present de
10、tection circuit A.C is feed into this circuit before the Bridge network at location DBR1 when mains is present the circuit drives HI via opto-coupler TR11. Relay 2 is the speaker output control relay this is used to prevent clicks and pops at power/power down and to disconnect the speaker output und
11、er a fault condition, this relay is controlled by the Micro at location IC1 as the P1 has no manual speaker switching capabilities the micro will automatically initialise the speaker relay 3 seconds after power up, the control line SPKR1 on pin 5 of CON 4 switches high to switch the relay ON via TR9
12、. The P1 has two trigger inputs these are applied by SKT2 and are wire OR-ed by D5 and D6. The single trigger signal is clamped to 4v7 by DZ1 and fed to the control card by CON4. Applying a 12v trigger signal to either (or both) trigger inputs on the SKT2 instructs the microcontroller to enable or d
13、isable the power amplifier. The trigger will be seen as a HI line on Pin 11 of CON 4. The P1 also provides two 2 triggered outputs. These are current limited 12v D.C levels, which are used to provide trigger signals to other units within the customers installation. The 12v output is present when tra
14、nsformer TX2 is live i.e. when the unit is not in standby. TX2 has a Low voltage secondary winding that supplies the trigger outputs only via bridge rectifier DBR4 this is fed into REG1 (7812) regulator, TR1 and TR2 offer a 60mA current limit for both trigger outputs and the entire circuit stage is
15、fused by FS6 (T315mA) in case of overload. The P1 utilizes a fairly unique main power amp power supply configuration these include. Fig 1. Power amp power supplies. Power supply Powers +/- 67v D.C VAS stage. +/- 58v D.C Output driver stage. The two sets of supplies are driven from their own secondar
16、y windings and bridge rectifier circuits DBR5 and DBR6 Rectify the +/- 58v rails these are smoothed by 20,000uf of capacitance per phase. DBR2 and DBR3 are supplying the +/- 70v rails these are dropped to +/- 67 by the Network of R5, R6, R7, R8 and TR3, TR4, TR5, TR6 this is not a regulated supply a
17、s the rails need to track the +/- 58v rails under mains power fluctuations. Please note: The +/- 70v rails are individually fused by 315mA(T) fuses at locations FS4 and FS5. The VAS stage is supplied by higher voltage rails than the following output driver stage, this allows the driver stage to full
18、y saturate the output driver stage without the use of a boot strap circuit. This supply is exceptionally quite and is critical to the sound quality of the P1. Amplifier Stage The XLR connector at CON100 allows balanced inputs to be applied to the amplifier and CON101 allows for the balanced signal t
19、o be daisy chained to a second P1. The signal from CON100 is driven into IC100 this is a Balanced to single ended converter it supplies a signal-ended output from a single XLR input. The IC derives it power supply rails from the +/- 67v rails these are dropped to +/- 15v by the TR100 and TR114. The
20、unbalanced inputs signal arrives at SKT100; the selection between the two input options is accomplished by SW100. The selected signal is clamped +/- 5v3 by the series Zeners at location DZ103 and DZ104 this is to prevent damage to the input of op-amp IC200, due to leaky source signal or electrostati
21、c discharges. SW101 allows for the selection of two gain settings these are 28.3 for “THX” and 37.5 for the Arcam setting. The roll off setting is 340Khz. The main power amplifier circuit is a classic current feed-back design and can be thought of as a large current feed-back op-amp the topology is
22、a refined high power output variant of the A90/P7 design. Op-amp IC101 is configured as a non-inverting amplifier with a gain of 2. Its purpose is to provide current outputs (via its own power supply pins) and a current input via its output pin, the Op-amp performs the voltage to current conversion
23、(I-V) and phase splitting necessary to drive the voltage gain stage. The current feed-back occurs because the output of IC101 drives into a 44 ohm load formed by the two 22 ohm resistors R142 and R143 down to ground, the power Cont/ supply pin currents are half wave-rectified versions of the drive c
24、urrent of the amplifier. This causes the voltage gain, which is buffered and passed on to the outputs. The feedback from pin 1 of IC101 acts to reduce the gain of the amplifier; when this current is roughly equal to the current required to drive the input signal into 44-ohms equilibrium is reached a
25、nd the closed loop gain is defined. The output stage provides the vast majority of the current required to drive the 44-ohm load. The op-amp only needs to provide a very small error current to give the required voltage magnification. Transistors TR101 and TR116 are common base amplifiers their purpo
- 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:
- Arcam P1 pwr sm 维修 电路 原理图