Arcam-P7-pwr-sm维修电路原理图.pdf
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1、P7 FMJ P7 7-Channel Amplifi er Service Manual ARCAMARCAM Issue 1.0 RadioFans.CN 收音机爱 好者资料库 Contents List Section Issue Technical specifications ! Technical specification - ! Rear panel silk screen - Amplifier board L924 ! Circuit description - ! Component overlay 1.0 ! Parts list 1.1 ! Circuit diagr
2、ams 1.1 Controller board L925 ! Circuit description - ! Component overlay 1.0 ! Parts list 1.2 ! Circuit diagrams 1.2 Transformer specifications ! L911TX 1.0 ! L912TX 1.0 ! L920TX 1.0 ! L921TX 1.0 Mechanical ! General assembly parts list - ! Assembly diagrams Front panel - TX tray - - Rear panel - C
3、hassis - RadioFans.CN 收音机爱 好者资料库 Technical Specifications Technical Specifications All measurements are with 230V/50Hz mains power Continuous output power All channels driven, 20Hz 20Khz, 8 ohm 150W per channel 1.05kW total All channels driven, 20Hz 20kHz, 4 ohm 230W per channel 1.62kW total One or
4、two channels driven at 1kHz, 8 ohm 160W per channel One or two channels driven at 1kHz, 4 ohm 250W per channel One or two channels driven at 1kHz, 3.2 ohm 300W per channel Peak output current capability 25A per channel Total harmonic distortion At any level up to rated power, into 4 or 8 ohms 0.05%
5、(20Hz 20kHz) Typically 0.005% at 1kHz Frequency response +-0.2dB (20Hz 20 kHz) -1dB at 1Hz and 100kHz Residual hum and noise Referenced to full power -122dB, 20Hz 20kHz, unweighted Voltage gain x 28.3 (1V input gives 100W/8 ohm output) Input impedance 22k ohm in parallel with 470pF Output impedance
6、50m Ohm at 20Hz, 1kHz 120m ohm at 20kHz Power requirements 115V or 230VAC, 50/60Hz, 3kW maximum via heavy duty IEC mains inlet A soft start system eliminates large inrush currents at switch on Dimensions W430 x D450 x H180 mm Weight 31kg (68 Ib) nett 35kg (77 Ib) packed 50 60 Hz 3700 VA MAX SERIAL N
7、o. LABEL CAUTION SHOCK HAZARD, DO NOT OPEN. ACHTUNG VOR OEFFNEN DES GERAETES NETZSTECKER ZIEHENNKK Amplifier Board L924 Contents ! Circuit description ! Component overlay ! Parts list ! Circuit diagrams P7 Amplifier Module Circuit Description Refer to L924 circuit diagrams Introduction L924 is the p
8、ower amplifier module for the P7 multichannel amplifier. There are 7 identical modules in the P7. The circuit design is based on the A85 / A32 output stage topology. The main features of the amplifier module are as follows: Preset THX gain (29dB closed loop gain). 0dBV input signal corresponds to 10
9、0 watts into 8 output power Capable of producing 150 watts of sinusoidal output power into an 8 resistive load (with greater than 250W into 3.2 subject to thermal dissipation limits) Relay coupled output for silent power on / off and load protection Opto-isolated fault and control lines to the micro
10、processor PCB (to avoid hum loops and instability, to improve EMC performance and crosstalk) DC coupled signal path with integrating servo to remove residual DC errors Instantaneous load protection Mono block design (each channel is electrically isolated from all others and has independent power sup
11、ply windings on the mains transformer) Integrated modular heatsink for good thermal performance and ease of assembly / servicing Low harmonic and intermodulation distortion Flat frequency response Fast (and symmetrical) slew rate High damping factor Unconditionally stable into loads of up to 90 phas
12、e angle Sheet 1 The input to the amplifier is connected via SK103. The 2 phono sockets are connected in parallel to allow daisy- chaining of amplifier modules. R104 provides a DC leakage path to the chassis (i.e. mains power earth) to prevent small transformer leakage currents causing the electrical
13、 0V of the amplifier to rise significantly above mains earth potential. C104 provides an EMC coupling between the local input ground and the chassis to reduce common mode RF noise. Star point SP101 connects the differently named electrical 0V nets at a single point. This is to ensure the correct wir
14、ing topology of the ground connections on the printed circuit board. SP101 provides a good common ground reference point when making voltage measurements on the PCB. Note that 0V_DIG is not connected to SP101, as this is the microprocessor ground. Relay RLY101 connects the output of the amplifier to
15、 the load via socket SK105. L101 and R103 form part of a Zobel network to decouple the load at high frequencies to ensure amplifier stability into capacitive loads. Note that signals 6 through 9 are open collector outputs, active low, referred to 0V_DIG with no pull-up resistors. This is because the
16、y are wire ORd on the microprocessor PCB (L925), where the pull-up resistors to +5V digital are located. The line NFB provides for a portion of the negative feedback of the amplifier to be taken on the load side of RLY101. The components that allow for this (R236 thru R239) are not presently fitted,
17、 meaning that RLY101 is not included in the feedback loop. SK104 connects to the microcontroller PCB. Note that all signals on this connector are electrically isolated from the amplifier circuit itself, via either opto isolators or the relay coil of RLY101. The 10- pin connector has the following si
18、gnals: SK104 Pin Type Name Description 1 GND 0V_DIG Microprocessor ground return 2 PSU +24V_DIG +24 volt digital power supply (referred to 0V_DIG only) for relay coil RLY101 3 MUTE Not used 4 I/P OUT_RLY Relay drive for the output relay RLY101 (LOW = output relay ON) 5 Not used 6 O/P THERMPR OT Open
19、 collector thermal fault signal (LOW = FAULT) 7 O/P VIPROT Open collector short circuit fault signal (LOW = FAULT) 8 O/P DCPROT Open collector DC fault signal (LOW = FAULT) 9 O/P FAULT Open collector overall fault signal (LOW = FAULT) 10 Not used Sheet 2 Port INPUT connects the input of the amplifie
20、r, referred to 0V_SIG, which is the precision signal ground reference. Zener diodes DZ202 and DZ203 limit the input signal amplitude to approximately 5.3Vpk. This is to prevent damage to the input of op- amp IC200, due to a leaky source signal or electrostatic discharge. R223, R228 and C210 form a p
21、assive 1st order low pass filter with a 3dB corner frequency of roughly 330kHz to prevent ultrasonic signals from entering the circuit and possibly causing damage. The main amplifier circuit is a classic current feedback design. IC200A is configured as a non-inverting amplifier with a gain of 2. Its
22、 purpose is to provide current outputs (via its power supply pins) and a current input (via its output pin). This forms the voltage to current (transimpedance) conversion and phase splitting necessary to drive the voltage gain stage. The current feedback occurs because when IC200 drives its 44 load
23、to ground, the power supply pin currents are half-wave rectified versions of the drive current of the amplifier. This causes voltage gain, which is buffered and passed on to the outputs. The feedback from the output to pin 1 of IC200 acts to reduce the gain of the amplifier; when this current is rou
24、ghly equal to the current required to drive the input signal into 44, equilibrium is reached and the closed loop gain is defined. The output stage provides the vast majority of the current required to drive the 44 signals to ground. The op-amp only provides a very small error current sufficient to g
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