Re: LF: H Bridge power MOSFET based amps question

To:	<[email protected]>
Subject:	Re: LF: H Bridge power MOSFET based amps question
From:	"mal hamilton" <[email protected]>
Date:	Sat, 26 Nov 2016 10:35:35 -0000
Dkim-signature:	v=1; a=rsa-sha256; c=relaxed/simple; d=talktalk.net; s=1605; t=1480156605; bh=atomZHNCY3HoUxMPQM8O9PqSJTSSgGDiAL/o+0mSR0o=; h=From:To:References:In-Reply-To:Subject:Date; b=KRJhEXoFCypNoAh89R2+uBCjfj18mrhwVIzQlaiAoGNNjFQ8itELriTmh6emXPkea NdFF3svejCf6FxCMVkI+UHT4Gnnql8uCi1dqO0sJNinIHXNyct7ysx1+MAAEZOzaY1 CRNMWlhjnD9YioA2kpge81A6j2UPXLV9L46nWZUs=
Importance:	Normal
In-reply-to:	<[email protected]>
References:	<[email protected]>
Reply-to:	[email protected]
Sender:	[email protected]

Chris

The Decca 5501 amp modules use a H bridge class D configuration followed bya series resonant PA circuit and this is probably one of the most reliableamplifiers about. Use suitable rated FET'S to give the desired RF output.Also the protection cct used avoids disaster in the event of an antennafailure short/open cct,I have built lots of class D 1Kw push pull amps over the years for LF/MF butthey are vunerable to damage with load variations whereas the Decca bridgeamps survive. I never had a failure with the Decca, and have been using themfor many years.Another approach which is worth a consideration is the class E amp singleended, these are very reliable and avoids the crossover switching problemswith the push pull system. Setting up procedure is critical but there aftervery stable,

Hope these observations help you

de mal/g3kev

-----Original Message-----From: Chris Wilson

Sent: Friday, November 25, 2016 1:56 PM
To: [email protected]
Subject: LF: H Bridge power MOSFET based amps question

25 November 2016

I have built a 1kW Class D amp for none linear digital transmissions
around 136kHz.

My Dave Pick designed amp uses four MOSFETS, two in parallel each side
driven by a dedicated driver chip. I see the odd LF amp design using
what's described as a H Bridge MOSFET array. The one I most recall
most, by Andy Talbot used rectified 240 volt single phase mains to run
it. My question is why use an H Bridge rather than paralleling more
MOSFETS in what to me is a more conventional format? Does it overcome
voltage or current limitations? Is it due to adding more capacitance
with paralleled devices? Or does it allow a linear amp to be built?

I realize a meaningful reply might be quite lengthy, so I assure you I
have Googled it, but most stuff related to in the articles is
industrial motor control.

Secondly, in a Class D none linear amp, how is the gate resistor value
chosen, and is there ever a case for not using one at all?

Thirdly, am I alone in thinking the terms Drain and Source seem back
to front and the names would intuitively be reversed so a Drain was
called a Source and vice versa? :)

Thanks. 2E0ILY

--

Best regards,
Chris  2E0ILY                           mailto:[email protected]

<Prev in Thread]	Current Thread	[Next in Thread>
LF: H Bridge power MOSFET based amps question, Chris Wilson Re: LF: H Bridge power MOSFET based amps question, DK7FC Re: LF: H Bridge power MOSFET based amps question, Andy Talbot Re: LF: H Bridge power MOSFET based amps question, Andy Talbot Re: LF: H Bridge power MOSFET based amps question, Andy Talbot Re[2]: LF: H Bridge power MOSFET based amps question, Chris Wilson Re: LF: H Bridge power MOSFET based amps question, mal hamilton <= Re: LF: H Bridge power MOSFET based amps question, John Rabson LF: Re: H Bridge power MOSFET based amps question, mal hamilton

Previous by Date:	LF: RFI noise at 144 kHz exactly, Chris Wilson
Next by Date:	Re: LF: RFI noise at 144 kHz exactly, David Hine
Previous by Thread:	Re[2]: LF: H Bridge power MOSFET based amps question, Chris Wilson
Next by Thread:	Re: LF: H Bridge power MOSFET based amps question, John Rabson
Indexes:	[Date] [Thread] [Top] [All Lists]