A1 2-channel Power Amplifier
As the driving force behind recreating the full musical experience, the task of the power amplifier may seem desperately simple but is indeed highly complex. Achieving our simple goal of ”add nothing, remove nothing” to preserve the full musical emotion has resulted in a ground breaking new amplifier topology. Housed in a chassis similar to the C1 and D1, the A1 sets new standards in terms of performance, flexibility of adjustments, industrial design and pure enjoyment.
The A1 is based on a novel proprietary amplifier architecture which optimizes the critical matching of the amplifier with the speaker. It can be operated either as a stereo amplifier (2x 100WRMS under 8Ω), as a monaural bi-amping amplifier (2x 100WRMS under 8Ω) or as a bridged amplifier (1x 350WRMS under 8Ω).
A sophisticated mechanical chassis design and full USB based firmware update support contribute to make the A1 a real long term enjoyment.
The A1 power amplifier has been developped with modularity in mind. It can be equipped with a single analog input board in case the A1 is used for a single channel but a second analog input board can also be fitted from factory if needed for stereo operation. This modularity ensures the following operation modes:
- stereo mode
- single channel mode
- bi-amplification modes, both passive and active
- bridge mode
Changing the A1 operating mode is easy and can be done on-the-fly from the front panel user interface. Only the available options are permitted depending of the hardware configuration.
The central power supply is taking most of the internal space of the chassis. The huge 1'200VA transformer is mounted on silent-blocks to avoid at maximum its vibrations to be fed-back into the sensitive part of the circuitry. It is shielded both with a magnetic screen and an electrostatic one. The transformer's plate is also secured for transportation.
For optimum thermal performances, the output stage's diode bridges are mounted on the front panel's back and are of hyper-fast soft-recovery type.
The filtering capacitors are 4-poles type, which ensures that the current spikes needed from the rectifiers for refilling the capacitors are kept away from the central ground point.
All analog stages inside the A1 are built only with discrete components, no operational amplifier have been used into these sections. This deliberate choice warranties the shortest path for the audio signal and allows the use of custom-made building blocks.
No capacitors have been used in the signal path, nor any output relay to ensure the maximum transparency.
A gain range of 24dB - with steps of 0.5dB - is embedded into each channel, for a perfect match with the loudspeakers' sensitivity and room size. A lower gain is typically preferred for high-sensitivity speakers into a small room while a bigger gain is sometimes needed for large room with low-sensitvity loudspeakers.
This gain adjustment can also be useful with multi-amplified loudspeakers to adjust the level of the various drivers.
Output stage feedback
Unlike into all other CH Precision's analog stages, the A1's output stage can be configured to have some global feedback. The global versus local feedback ratio is adjustable on-the-fly from the front panel user interface, only a few relays are switched during this operation. Each step is 20%, going from 0% - local feedback only - to 100%.
In case the A1 is used in bi-amplification mode, the user can select a different feedback ratio for each driver.
Output stage bias
In order to keep the output stage distortion constant over time, the output stage's bias must be kept as constant as possible. This value is very dependent on the output stage temperature - the transistor die - which can be known thanks to the ThermalTrak devices from On Semiconductor.
A very special circuit has been built around the output stage which is taking into account both the temperatures of the heatsink and the transistors dies. It allows to keep the bias constant into the output stage whatever the musical program and room temperature are.
In term of performances, the A1 class-AB design is outperforming a pure class-A design with usual bias compensation. This schematic is patent-pending.
Each channel's output signal is permanently monitored - both in voltage and current - into a DSP, which calculates in real-time the effective channel's output power. The same DSP is also monitoring the heatsink temperature and drives small fans in case the A1's internal temperature becomes too high.
In case where an abnormal condition happens, the amplifier is turned off to secure the connected loudspeakers. No output relay have been used into this amplifier, its symetrical structure allows a smooth turn-on and turn-off of the power supply without noticeable noise.
Ethernet control board
General control board. Provides USB based firmware update and external ethernet control.
Monaural analog input buffer board
Three analog inputs - XLR, RCA and BNC - are provided on a single board. A pass-through XLR male connector allows a direct connection to another A1 amplifier.
Can be factory ordered for Left or Right channel.
Factory built-in (1x), second board is needed for stereo operation
|Inputs type||Balanced (XLR), one connector per board
Single-Ended (RCA & BNC), one connector per board
|Input impedance||Balanced: 94kΩ
Single-Ended: 47kΩ or 300Ω
|Input stage||JFET input stage
Ultra-low noise, discrete fully differential stage
24dB range adjustable gain in 0.5dB steps
|Amplification stage||Ultra-low noise full discrete class AB design
5 pairs of complementary output transistors
|Bias||Patent-pending bias circuitry for constant bias operation|
|Feedback||User-adjustable local vs. global feedback ratio, from 0% to 100% with 20% steps|
|Bandwidth||DC to 450kHz (-3dB) at 1W into an 8Ω resistive load|
|Signal to Noise Ratio||Better than 115dB in stereo and bi-amp modes
Better than 118dB in bridge mode
|Total Harmonic Distortion + Noise||Less than 0.1% with 0% global feedback
Less than 0.01% with 100% global feedback
|Binding posts||Two pairs of Argento binding posts for loudspeakers connection|
|Monitoring||Non-intrusive DSP-based protection of the amplifier
Instantaneous voltage & current values are permanently monitored for each channel
Disconnected loudspeaker detected
Over-temperature of the heatsink, fans are activated if needed
Over-temperature of the output transistors
|Transformer||1'200VA single transformer, oversized for low-noise operation|
|Power capacitors||2x 47'000uF/63V 4-poles capacitors|
|Regulators||Non-regulated symetrical power supply for the power stages
Eight local regulation stages for input/driver stages
Seven local regulation stages for the logic/display
|Display||480x272 pixels, 24bits color, AMOLED|
|Mains operation||Selectable 100V, 115, 230V AC, 47-63Hz|
|Power supply consumption||<1W (standby), 1200W max in operation|
|Dimensions/Weight||440 x 440 x 120mm (W x D x H), 43kg|
|Remote control||Ethernet based system control via the Android CH Control App|