As one of the very few audio specialists in the world to design AV receivers, Arcam has developed a reputation for balancing a finely honed technical specification with world class audio performance. The AVR750 is, quite simply, the highest performing AV receiver Arcam has ever made.
Offering a level of sound quality that is far above competing receivers, the AVR750 is an audiophile product by any measure. Equally at home with high resolution surround sound or two-channel music, the AVR750 delivers stunning realism with everything from heavy-weight blockbusters to your favourite concert video.
The power amplifiers within the AVR750 are perhaps the finest ever seen within any AV receiver. Power delivery is both clean and tight against a background noise level that is astoundingly low. Listeners can expect to be enthralled from the opening sequence to the final encore!
The AVR750's natural habitat is within high performance cinema installations. It is comfortable driving any loudspeaker to extremely high levels and delivers a sonic detail and emotional connection that quickly takes listeners to the very heart of the movie or music.
Both video and audio stages are designed to embrace both current and upcoming technologies. 4K "Ultra HD" and 3D video capability are built in, while both standard and high definition sources can be scaled to any resolution where required.
An internal tuner provides a fully integrated FM / DAB / DAB+ (in appropriate markets) radio solution. Worldwide access to radio stations is provided through the network connection, which also interfaces to uPnP audio servers. The USB port supports memory devices as well as digital audio from your iPod® / iPhone® / iPad®.
Control of the AVR750 is possible via Ethernet, enabling it to be fully integrated with whole house control systems. RS232, 12V triggers and standard IR control are also included.
Continuous power output, per channel, 8Ω/4Ω
- 2 channels driven, 20Hz - 20kHz, <0.02% THD - 120W/200W
- 2 channels driven, 1kHz, 0.2% THD - 130W/210W
- 7 channels driven, 1kHz, 0.2% THD - 100W/—
- Residual noise & hum (A-wtd) - <0.15mV
Audio Performance (Stereo line inputs)
- Signal/noise ratio (A-wtd, stereo direct) - 110dB
- Frequency response - 20Hz—20kHz ± 0.1dB
- HDMI - x7, Component - x3, Composite - x4
- HDMI - x2 (ARC Compatible), Z2 - x1 (Composite)
- HDMI - x7, Coax SPDIF - x4, Toslink - x2, RCA Phono - x6, USB input, Ethernet Client, Internet Radio, ARC (from display)
Amp classes Explained
An audio power amplifier is designed to drive loudspeakers. To do this it needs to deliver lots of volts and lots of current, usually simultaneously, to a low impedance
load across a wide range of frequencies, from below 20Hz up to perhaps 40-50kHz, with no audible distortion. For a nominal 100W rms amplifier delivering a sine
wave, the peak output voltage needs to exceed +/- 40V for an 8 ohm resistive load and the peak current +/- 5 Amps. In practice much more current may be needed
to drive real loudspeakers whose impedance dips well below 8 ohms at some frequencies; in the above example +/- 8 amps would be a typical requirement. To drive
today’s 4-8 ohm loads at 100W this should be increased to +/- 12 amps or more. In real life the power supply rails will need to be closer to +/- 50V rather than the
theoretical minimum of +/- 40V in order to account for in-circuit losses.
Such high powers mean that a great deal of heat is typically dissipated in the amplifier itself, especially in the output stage. This is expensive, requiring physically
large arrays of output transistors, massive heatsinks and a suitably rated power transformer. So efficiency matters, because more efficient amplifiers generate less
waste heat and save both money and energy consumption. As we shall see, the various classes of amplifiers shown below vary widely in terms of their efficiency,
complexity, cost and fidelity. An amplifier designer will seek to arrive at the best compromise of these for the market requirements.
The simplest audio amplifiers are single-ended and Class A; that is they make
use of just one output transistor which is always conducting, irrespective of the
output signal waveform. Class A has good to excellent linearity (and thus high
fidelity / low distortion) but very low efficiency. It is almost never used in a
power amplifier’s output stages but is ideal for the input and high level driver
stages of a power amplifier.
There are some examples of push-pull Class A in the consumer market (Krell,
Sugden etc). These use pairs of complementary (opposite polarity) output
transistors which at low signal levels pass all the current necessary to drive an
attached loudspeaker at full rated power. For the 100W/8ohm example above
this would mean the output stage transistors would be biased at 2.5A. With
supply voltages of at least +/- 40V the output stages dissipate 200 Watts when
delivering no output to the loudspeaker – and that is for just one channel!
It is easy to see why such designs are limited to relatively low maximum power
(20 – 50 Watts rms per channel), run hot and are extremely expensive.
A combination of Class A and Class B, the Class AB amplifier has a much higher
efficiency than Class A but much less distortion than Class B. This is done by
biasing both transistors to conduct a little at and near to zero signal output – the
point where Class B amplifiers introduce gross non-linearities. They then transition
to Class B for larger signal currents. For any given amplifier design there will be
an optimum bias current which minimises (but does not fully eliminate) crossover
distortion. A typical bias current is 50mA; thus the quiescent dissipation in our
100W output stage is 80V x 50mA = 4 Watts, just 2% of the Class A example
above. Most commercial power amplifiers are Class AB designs.
In practice the bias current can drift away from the optimum with time, temperature
and signal level and this increases the remaining crossover distortion. Much
ingenuity has been devoted to trying to improve this, with varying degrees of
success. One good approach is to turn off the non-conducting transistor much more
slowly than in normal designs using a mix of positive and negative feedback in the
output stage so that it can operate in near Class A up to about 10W output. This is
used to good effect in the Arcam AVR600 and AVR750 AV amplifiers as well as the
new A49, P49 & A39 stereo amplifiers.
In a push-pull Class B amplifier each output transistor only conducts for one
half (180 degrees) of the signal waveform. When there is no signal neither
transistor is conducting – the exact opposite of the Class A amplifier above.
The top NPN transistor passes only the positive parts of the signal, leaving
the bottom PNP transistor turned off. Conversely the bottom transistor only
conducts for the negative parts of the signal, leaving the top transistor turned
off. Class B amplifiers are much more efficient than Class A amplifiers but they
have high distortion due to gross non-linearities at the crossover point, which
is where the two transistors transition from on to off. This form of distortion
- called crossover distortion - is extremely unpleasant to the ear and thus no
commercial amplifier designs use pure Class B.
These terms refer to amplifier classes where, in the interests of higher efficiency than
Class AB, the output stage’s supply voltages are varied according to the signal level.
This is because music’s peak to mean amplitude ratio is quite high – typically 3 to 1 –
so the full power supply voltage is only rarely needed. If the 100W output stage above
is usually only run at say +/- 20V rather than +/- 40V (the theoretical minimum value)
then it will on average run much cooler when playing music. Of course extra power
supplies are now needed but this cost can be largely offset by the lower heat dissipation
(and smaller size) of the whole system.
The terms G and H are often confused – here we use the term Class G to refer
to amplifiers that have two (or more) pairs of supply rails available to the output
transistors. These can be either switched hard at a given signal level or softly, whereby
the higher rails as presented to the output stage are modulated according to the
output signal level. This follows the output waveform up and down to keep a small
constant voltage of about 5V across the output transistors at high signal levels. The
latter technique is used in Arcam’s Class G designs (AVR600/750, A39/A49/P49)
because it significantly increases the maximum current delivery available to drive the
loudspeakers when compared with other methods.
Class H amplifiers use just one power supply to the output stages which can be changed
either in discrete levels or continuously. It requires more complex circuitry to predict
and control the supply voltage and comes into its own for the compact very high power
amplifiers used in professional touring PA rigs.
Class G – the ultimate amplifier technology - explained.......... In
First, some history: conventional Class A and Class AB design have good points and bad points
Class A – an inefficient solution to the class A/B crossover problem
Pros – does not suffer from crossover distortion and is often observed to be totally transparent
for this reason offering a level of realism through low level accuracy that is seldom achieved in a
class A/B design.
Cons – When used in a solely Class A design, it is wildly inefficient as it will always be drawing
full power even with no signal to amplify, for this reason Class A amplifiers usually offer lower
power outputs and is often found only in esoteric high-end designs.
Class AB – the most common amplifier design
Pros - Far more efficient than pure Class A
Cons - suffers from crossover distortion at low levels – remember the magic of audio
reproduction is not the loud stuff rather it is the tiniest of details that create that sense of reality
that we search for.
Class G – complex to design, but engineered correctly, the clever solution.
Pros – Greater efficiency and transparency, with less wasted heat energy.
Cons – Expensive to engineer and hard to perfect, hence seldom seen.
Like a hybrid car engine, Class G implements multiple power supplies rather than just a single supply. If a dynamic signal is received that goes beyond the capability
of this first power supply, the secondary supply is gradually brought in up to full rated power output as required. This gives a very efficient design as additional power
is only used when required, much like a turbo-charger. Modern high speed silicon allows us the make this switch faster that would ever be required, even way beyond
the audio bandwidth, so there is no “turbo lag”.
The first power supply is of lower power and within this region we run in pure Class A, which has no crossover distortion. As the secondary supply is only used
when required, extreme levels of power are possible because very little energy is wasted in the amplifier as heat when it is not being used. Without control this power
would be ill-used, so like high performance car tyres, multiple output devices within the amplifier keep a tight grip on the loudspeaker at all times, ensuring your
listening experience never “leaves the road”.
Arcam has been investigating and perfecting Class G for many years and through intensive R&D we can bring an amplifier to market with no compromise, with
absolute transparency and absolute power while retaining total control of the precious audio signal. Take an Arcam Class G amplifier for a test drive today!
- 7.1 Pre-amp ouput - 6x RCA Phono
- Zone 2 output - RCA Phono
- FM / DAB / DAB+ (in appropriate markets)
Supported Surround Modes Include
- Dolby TrueHD, Dolby Digital Plus, Dolby Digital EX, Dolby Digital 5.1, Dolby Pro Logic IIx DTS-HD Master Audio, DTS-ES 6.1 Discrete, DTS-ES 6.1 Matrix, DTS 5.1
- Power consumption (max) - 1.5kW (approx. 5200 BTU/hour)
- Power consumption (standby) - <0.5W
Dimensions & Weights
- W x D (inc. speaker terminals) x H (inc. feet) - 433 x 425 x 171mm
- Weight (net) - 16.7kg
- Weight (packed) - 20.0kg
Suggested Retail :$6000.00
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On Nov-24-15 at 11:50:40 PST, seller added the following information: