Winning the price of the shortest product lifespan: the A 4215/Ex series!
The idea was to replace the 1ET400A by the 1ET6525SA and keep going, but we finally decided that the little power boost in 2R was big enough to be worth a product rename.
So, say welcome to the
- stereo A 4216/E2 1210 €
This afternoon I ran a quick measurement of the A 4216/E2 with the new Purifi 1ET6525SA and I was nicely surprised, especially since the noise of the DAC (SU-9n) and preamp (A 70 pro) are making the values a bit pessimistic. Could do a bit better with a passive attenuator in place of the preamp.
- High gain is a sensitivity of 2V and low gain a sensitivity of 4V, so these are numbers (5W 4R SINAD 107/110 dB) attainable with real world sources
- The 1ET6525SA seems to be a very nice module but as I keep repeating, these new modules are so performant that the input/gain stage has now a real importance in the amplifier final measurements. With the reference design gain stage that most of our competitors are implementing with various opamps, expect a degradation of 3-4 dB if correctly implemented.
View attachment 397822
View attachment 397823
Measurements were done with banana plugs. Speakon is supposed to improve THD.Thank you for the measurements. I have a few questions.
1. Was this A 4216/E2 measurement with SpeakOn or Banana Plugs? Do those two different setups offer different measurement results?
2. How will the A 4216/E2 measurements with the Boxem Stage II input board compare to the ARTHUR 4216/E2 with Stage III composite topology?
Thank you!
Do appreciate the ongoing finetunings, but aren’t we far exceeding what is possible to detect by human hearing, allready?Measurements were done with banana plugs. Speakon is supposed to improve THD.
The idea behind the composite stage is to reduce noise even more without increasing distortion. Waiting for the production boards to provide accurate values.
The issue I am having right now is that the probes I am using to sense the signal have a significant impact on the measured THD, with values (notably H3) changing by several dBs between two measurements.
This afternoon I ran a quick measurement of the A 4216/E2 with the new Purifi 1ET6525SA and I was nicely surprised, especially since the noise of the DAC (SU-9n) and preamp (A 70 pro) are making the values a bit pessimistic. Could do a bit better with a passive attenuator in place of the preamp.
- High gain is a sensitivity of 2V and low gain a sensitivity of 4V, so these are numbers (5W 4R SINAD 107/110 dB) attainable with real world sources
- The 1ET6525SA seems to be a very nice module but as I keep repeating, these new modules are so performant that the input/gain stage has now a real importance in the amplifier final measurements. With the reference design gain stage that most of our competitors are implementing with various opamps, expect a degradation of 3-4 dB if correctly implemented.
View attachment 397822
View attachment 397823
Question is to provide a completed amplifier worth the modules it embeds. People pay a significant amount of money for an ultra high performance amplifier, I want them to have the product they paid for.Do appreciate the ongoing finetunings, but aren’t we far exceeding what is possible to detect by human hearing, allready?
Max power is 210 W with an SMPS1200A400, so optimal gain is 20.4/26.4 dB.Good to see some data. Great results, but your gain settings are too low. To reach full power output with 4 volts in you need 20.8dB and 26.8dB with 2 volts in. This will worsen your noise results.
So you are saying the psu is inadequate to reach the 6525 rated 230watt 8 ohm and 480 watt 4 ohm rated output?Question is to provide a completed amplifier worth the modules it embeds. People pay a significant amount of money for an ultra high performance amplifier, I want them to have the product they paid for.
Max power is 210 W with an SMPS1200A400, so optimal gain is 20.4/26.4 dB.
The values you see on the measurements are lower than this for two reasons :
- measurements were done with a gain stage designed for the 1ET400A, so missing 0.5 dB. The production boards will have enough gain, which may degrade the results by 0.2-0.2 dB.
- the gain value REW calculates depends from the accuracy of the full scale in/out voltages entered as parameters and I have to admit that I didn't spend a lot of time on calibrating ultra accurate values
I am saying that 230 W cannot be reached with a PSU with rails rated at 63 V. Better use a 65 V PSU for this.So you are saying the psu is inadequate to reach the 6525 rated 230watt 8 ohm and 480 watt 4 ohm rated output?
This is a thread about boXem amplifiers.Buckeye say they are using this PSU and rate their amp at 230/480 watts.
Buckeye Amps
Buckeye Amps utilizes the most advanced audio amplifier technologies available. Authorized seller for Hypex and Purifi Class D amplifiers. Based in the US. Free shipping and worldwide service!www.buckeyeamp.com
I am saying that 230 W cannot be reached with a PSU with rails rated at 63 V. Better use a 65 V PSU for this.
This is a thread about boXem amplifiers.
It's not polite for him to point out mistakes from his competitors, you have to excuse him for that.So the psu is too low a voltage to reach the modules rated spec and Buckeyes stated specs are wrong.
It is indeed a thread about your amps. Just trying to get to the bottom of contradictory information.
I am saying that 230 W cannot be reached with a PSU with rails rated at 63 V. Better use a 65 V PSU for this.
This is a thread about boXem amplifiers.
On paper, the SMPS3k delivers 3000 W, that leaves 600 W per channel for a 5 channels amp. Perfectly good for 510 W + losses.How will the same Hypex SMPS3K power supply work for the BoXem A 4216/E4 or /E5 to provide 210/420/510 W in 8/4/2 Ω across all channels? Won't dividing this power supply beyond 3 channels not reduce power?
Thanks. So, if a person got the A 4216/E5 vs the E4 or E3, they shouldn't see a drop in power even across a 2Ω impedance on any channel?On paper, the SMPS3k delivers 3000 W, that leaves 600 W per channel for a 5 channels amp. Perfectly good for 510 W + losses.
In real life, 2 channels are wired in oposition of phase to the 3 others, and audio signals are assymetrical . So at an instant t, each channel has even more than 600 W available.