Many thanks for proving my point so eloquently!Oh I thought I was being civil, seems we are still children interested in slugging poop. Maybe your magic chart mushrooms are kicking in but please stop lying I never made any technical arguments in this thread only subjective sarcastic ones which I doubt I will run out of. Please stop with the platitudes about the seriousness and danger involved in your graph charts regarding the efficiency of class g vs class b. Speaking of politics thank for once again proving smug attracts smug until it’s simply an echo chamber. Thankfully my ego is strong enough to reject your cult.
You follow the stereotype beautifully!
Jan
Check out my videos on my YouTube channel.
I have a Class G based on the internal circuit of the Mytic IC STK 412-150, completely rebuilt from scratch.
The features are as follows:
Bandwidth: 20Hz-20kHz
Power: 150 Watts Maximum: 250 Watts (Depending on power supply and conditions)
Working impedance: 8.4 ohms and a minimum of 2 ohms.
Working voltage:
Maximum:
+/-120 VH +/-60 VL
Recommended:
+/-100 VH +/-50 VL
+/-70 VH +/-35 VL
Minimum:
+/-50 VH +/-25 VL
Step drivers: N-channel MOSFET IRFP250N for Hi-Side and Low-Side, and a discrete gate driver for greater precision.
Power transistors may vary according to needs.
Greetings
I have a Class G based on the internal circuit of the Mytic IC STK 412-150, completely rebuilt from scratch.
The features are as follows:
Bandwidth: 20Hz-20kHz
Power: 150 Watts Maximum: 250 Watts (Depending on power supply and conditions)
Working impedance: 8.4 ohms and a minimum of 2 ohms.
Working voltage:
Maximum:
+/-120 VH +/-60 VL
Recommended:
+/-100 VH +/-50 VL
+/-70 VH +/-35 VL
Minimum:
+/-50 VH +/-25 VL
Step drivers: N-channel MOSFET IRFP250N for Hi-Side and Low-Side, and a discrete gate driver for greater precision.
Power transistors may vary according to needs.
Greetings