Arcam AVR400 service manual

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additional feedback further reduces high frequency distortion and crossover distortion within the audio band.

These stages are partially decoupled from the Vcc and Vee power supplies by D5130/R5130/C5130 and D5129/R5129/C5129 respectively. They are also bootstrapped to the amplifier output via the networks R5118/C5128/R5128 and R5117/C5127/R5127. This raises the supply lines by approximately 3V at full output to avoid clipping the driver stage prematurely.

The output stage comprises classic complementary emitter followers Q5150/Q5170 (NPN) and Q5160/ Q5180 (PNP). The On Semiconductor output transistors have a current gain that is sustained to about

10 amps and a very large safe operating area, which allows the amplifiers to drive low impedances well. They also have built-in thermal compensation diodes which helps stabilize the quiescent current both statically (when hot) and dynamically (when playing music at high level) – this minimizes crossover distortion and improves sound quality.

The output stage biasing is performed in the network around the amplified diode Q5120, which is mounted in intimate thermal contact with the driver transistor Q5130, plus the two built-in diodes associated with the output transistors. The thermistor R5122 is positioned on the PCB close to the heatsink and provides extra downward compensation at very high temperatures. Bias is set by VR51 and is largely independent of temperature – it should be set to16-20mV when measured across the outer terminals of the compound emitter resistor R5175, using the 2 pin connector CN51, 5 minutes or more after the AVR400 is powered up.

The power amplifier output is routed across the PCB to the back panel. It includes a Zobel network (sometimes called a Boucherot cell) R5183/C5183 and a series inductor L5185 damped by a 4.7R 2W re- sistor R5184. These components help isolate the amplifier from reactive loads to ensure high frequency stability. One half of the normally-off relay RL52 is used to switch the load in and out.

Each power amplifier is protected against overload in a number of ways. The complementary transistors Q5130 and Q5131 protect the NPN half of the output stage and Q5140 and Q5141 the PNP half. They operate as Sziklai pairs, passing negligible current until a threshold voltage of approx 600mV is reached across R5132 and R5142. Between 600 and 700mV the pairs then ramp up current smoothly, diverting it away from the bases of Q5150 and Q5160 to limit the output stage drive to a safe level, within the power transistors’ SOA (safe operating area). The 600mV threshold voltage depends upon both the instantane- ous current and voltage across the output transistors, set by the networks R5132/R5136/R5137/R5138/ R5175 for the top half and R5142/R5146/R5147/R5148/R5175 for the bottom half. R5135/R5145 and the zener diodes D5135/D5145 change the slope of the protection locus at high Vce voltages. R5134/R5135 plus C5134/C5145 prevent fast transients and brief overloads from prematurely triggering the protec- tion.

The above dual slope SOA protection is self resetting but if a gross overload persists for more than a second or two (such as when a channel’s output is short circuited with music playing at a moderate to loud level) then the open collector transistor Q5181 sinks current for long enough to initiate the ampli- fier’s full shutdown procedure via the line SOA_PROTECT. This can also be triggered by a total output stage failure (which passes enough current through R5175 to turn on Q5188) via OVERLOAD or by an excessive DC offset at the output terminals (via R5185) via V_DET. All these signals, and others, feed into the protection module, described below.

The protection module comprises 8 transistors and associated parts positioned at the back of the PCB near the preamplifier output sockets. It has a single output line named PROTECT which, when pulled down from Vcc to ground, instructs the system μP IC151 to shut down the whole amplifier. This occurs when any of the following events happen:

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Contents Issue AVR400 Main Assembly Transformer Power Power PCBs + Feet Rear Panel + PCBs AVR400 Power Amplifier Circuit Description Page AVR400 Main Power Supplies Circuit Description AVR400 Front Panel Board Circuit Description Page AVR400 Input Board Circuit Description Analogue inputs, volume control and outputsSpdif inputs, ADCs, DACs and Audio DSPs Page System Control Microprocessors AVR400 RS232 board AVR400 Hdmi Input/Output Board Page Page AVR400 Analogue Video Board 25 27 29 24 26 28 CN101Vfdclk VfdrstPage Page Page Page 8V Total 904.33mA TTL Output ADV7844Hdmi 24/30/36Bit Change Value 33ohm--0ohm FLI30336 Worst Measured CurrentsConnect pin3 GND S1 S0Input Output OE1 OE2SCALER&AnalogREG Adcreg 1.8/3.3VFRONTHDMIOption Schematic Diagram SBL LC74763M IC81NJW1321FP1 IC8315V 8CH Lch JK79 8CH Rch8CH SLch 8CH SRch 8CH Cch JK78 +15VScrew Mark
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AVR400 specifications

The Arcam AVR400 is a high-performance AV receiver designed to provide an immersive home theater experience. As part of Arcam’s esteemed lineup, the AVR400 combines advanced technology with exceptional sound quality, catering to audiophiles and home cinema enthusiasts alike.

At the heart of the AVR400 is its impressive power amplification, providing 100 watts per channel across 7 channels, ensuring a robust performance capable of driving a wide range of speakers. This power output is complemented by a high-current design, which means the receiver can handle dynamic audio passages without distortion, offering clarity in both subtle and explosive soundtracks.

One of the standout features of the AVR400 is its support for various surround sound formats, including Dolby TrueHD and DTS-HD Master Audio. This allows for an unparalleled audio experience, transporting users right into the heart of the action. Additionally, the AVR400 is equipped with the latest HDMI inputs, ensuring compatibility with a multitude of high-definition sources, including Blu-ray players, gaming consoles, and streaming devices.

The AVR400 also boasts advanced video processing capabilities, supporting 4K pass-through as well as upscaling of lower-resolution content to 4K. This makes it an ideal choice for users looking to future-proof their home theater setup, as it can seamlessly integrate with modern 4K televisions while enhancing the quality of older content.

User-friendliness is another essential characteristic of the Arcam AVR400. It comes equipped with an intuitive on-screen menu system that simplifies the setup process. The inclusion of an automatic calibration system helps optimize speaker settings in accordance with the room acoustics, ensuring users achieve the best sound possible from their setup.

Furthermore, the network features of the AVR400 allow for streaming audio from various online services and wireless devices. Built-in support for DLNA enables users to access their media library wirelessly, while the USB input allows for direct playback from flash drives or external hard drives.

In terms of build quality, the Arcam AVR400 embodies the brand’s commitment to excellence. With a sleek design, high-quality materials, and an engineered chassis that minimizes vibration and interference, the AVR400 is not only visually appealing but also built to deliver performance over time.

In summary, the Arcam AVR400 is a feature-rich AV receiver offering a perfect blend of power, precision, and versatility. Whether for movie nights or music listening, it stands out as a reliable choice for those seeking high-quality audio and video reproduction in their home entertainment systems.