Whar is yours assessment about this audio amplifier (see image)?
A compact design audio amplifier with: LED indicators show output voltage and headroom; clip limiter; DC, overload and temp protections, balanced inputs, soft start output, audio preamplifiers and variable speed fan with temperature heat sink.
Technical Specifications:
Power in to 4 Ohm load: 400W;
THD = 0,02%;
Power supply: +/-70Vcc
This amplifier is designed by me and costs around 50Euro without VAT.
A compact design audio amplifier with: LED indicators show output voltage and headroom; clip limiter; DC, overload and temp protections, balanced inputs, soft start output, audio preamplifiers and variable speed fan with temperature heat sink.
Technical Specifications:
Power in to 4 Ohm load: 400W;
THD = 0,02%;
Power supply: +/-70Vcc
This amplifier is designed by me and costs around 50Euro without VAT.
Attachments
Hi anyone can help!!
Can I use Switch Mode power supply with this amplifier?
Look this SMPS? http://www.redrocksaudio.es/e_main.html
Wasim
Can I use Switch Mode power supply with this amplifier?
Look this SMPS? http://www.redrocksaudio.es/e_main.html
Wasim
That kind of SMPS topology is perfect for delivering high peak currents without problems without having to design for continous high power. It's the same as QSC uses (but with an added PFC) and I believe Crown also have used the same topology.
There is no output inductor to saturate so output current is only limited by transformer, diode and transistor dissipation. If IGBT:s are used high peak currents are no problem at all.
Thanks to the high output peak current capability most energy storage can be moved to the primary side - which is good because for the same energy storage electrolytics are smaller at high voltage.
There is no output inductor to saturate so output current is only limited by transformer, diode and transistor dissipation. If IGBT:s are used high peak currents are no problem at all.
Thanks to the high output peak current capability most energy storage can be moved to the primary side - which is good because for the same energy storage electrolytics are smaller at high voltage.
zerohead_ak47 said:
Good news that you have built a working Nmos mkII. Do you have a PCB layout for this? Anyway how does it sound?
AndrewT said:
Andrew's advice is sound, you should add gate resistors to each FET gate. This will help protect against oscillations.
Assuming 0.6v drop for the diode and transistor junctions the current through the 18k resistor will be 3.33mA equating to a voltage drop of 60v, leaving 10v across the ccs transistor. The resistor could be reduced to 15k leaving 20v across the transistor if desired.
megajocke said:
These resistors should be moved as Megajocke suggests. This will improve the current sharing between the negative rail FETs.
Other thoughts are:
- Put a 0.1uf capacitor across the zener.
- Increase the filter capacitors on FET rails to 1,000uF.
- The 100uF capacitor on the rails feeding the 1st & 2nd stage could cause problems if not grounded correctly. In practice it is not needed so if you have any noise issues try removing it.
Cheers
Quasi
