darTZeel Audio NHB-108 User Manual

darTZeel NHB-108 model one

Audiophile's technical manual

Page 12

of 28

If the THD and IMD produced by the
amplifier are kept low enough, say lower

than the audibility threshold, then no
further correction will be needed, and
the audio circuit can remain simple.

At the start of this new century, 3 main
technologies coexist in the construction

of transistors, these being in chronologi-
cal order:

- Bipolar, in the early 1950s.

- Field effect, in 1962.

- IGBT, a mix of the previous two, in

the ‘eighties.

At darTZeel, we strongly believe in new
technologies. On the other hand, we
readily admit that nothing can replace

experience.

So, "our" winner is…

Bipolar technology!

5.2.1. IGBTs

For your own information, we are ready

to tell you an old secret. What does the
word "transistor" mean?

It comes quite simply from the contrac-
tion of transfer and resistor.

IGBT stands for "

I

nsulate

G

ate

B

ipolar

T

ransistor". It behaves like a bipolar

transistor at its output, while being

driven like a FET at its input.

IGBTs are mostly used in power applica-
tions, like inverters, switching power

supplies, heart defibrillators, and… for
some audio power amplifiers.

We do not have any preconceived notion

about the use, and more specifically, the
sound of IGBTs. Results can vary with

the samples used.
Their linearity is close to FETs, which is,

alas, not enough for us.
IGBT technology is by far the youngest,

and we lack time to fairly judge them as
to their long-term sound quality, reliabil-
ity and availability.

So for now, and maybe for still a little
while, we will probably not use them di-

rectly in audio applications.

5.2.2. FETs

FET stands for "

F

ield

E

ffect

T

ransistor",

of which there are two main categories.
For small signals, they are called as is,
FETs.

For power applications, their most com-
mon name is MOSFET, which stands for
"

M

etal

O

xide

S

ilicon

F

ield

E

ffect

T

ran-

sistor". They behave similarly to FETs,
but their internal structure may vary.

FETs are being used more and more, for

several reasons, including the most ob-
vious one:

It is commonly accepted that they per-

form very closely to vacuum tubes (or
electron tubes or valves). Tube lovers
generally like MOSFET amplifiers due to

their similar behavior.

Here, we are forced to say that we do
not share this point of view. Not entirely,

at any rate…

It is true that the sound of MOSFETs

tends to be soft and warm, a bit like
those found in tubes. But their electrical
behavior is not similar, simply because

they are not made of similar materials.

The only true similarity is that MOSFETs
– and FETs of course – are voltage

driven, like tubes. Apart from that, they
are in two different worlds, vacuum for

tube, silicon for FETs.

Conduction in any type of transistor al-
ways acts in a solid, here the metallic

silicon, hence their name of "solid-state"
devices.
In a vacuum tube, electrons move in… a

vacuum.

Coming back to FETs, what is their

sound? For most designs, we would say
that it is only a matter of taste. We are
convinced that one can design a "stan-

dard", good sounding machine in the 3
technologies mentioned above, and even

with the fourth - tubes - with virtually
the same sound.

Obviously, if you like music, you defi-

nitely need a darTZeel NHB-108 model one.

Yet, and contrary to common belief,
MOSFETs are less linear than bipolar

transistors available today. MOSFETs
often need more sophisticated added