Specifications
Diamond buer
Back to the “Diamond” buer. Professor Baker developed
another circuit which he called “The “Diamond Circuit”
in an internal publication for MIT, but on the patent he
called it “A Gateable Bridge Network Having Power Gain”
(attached), with some properties that mad it sort of a
hybrid between a digital circuit and an analog circuit. In
the patent application, Baker drew it rather dierently
than it is normally drawn and one can now *easily* see
why he called it a “Diamond Circuit” - see diagram 3.
Diagram 3 is simply a rearranged version of the simplied
circuit above, but when drawn in this manner it is
obvious to see why Baker called it the “Diamond Circuit”.
In actual practice it was most useful as a “buer” -- that
is, a circuit with no voltage gain but a high current
gain, which is precisely what is needed to drive a low
impedance load. Hence it has become popularly known
as a “Diamond buer”.
It is commonly used in the output stage of “buer”
IC’s that have unity voltage gain, but boost the current
to drive heavier loads. Sometimes it is also used with
discrete circuits, where it requires careful matching of the
opposite polarities of parts (NPN and PNP) to minimize
the oset voltages.
It is typically only used in low power
stages, such as preampliers outputs
or things of that nature. After playing
around with it for quite a while I came
to understand why this is so. To work
properly, the driver stage needs to use an
identical transistor to the output stage.
An output transistor is a big beast that
typically draws a lot of current at idle and
also has large capacitances between the
terminals. So this means that the driver
stage also has to use a “big beast” and
this stage also needs to draw a lot of
current and is fairly dicult to drive due
to the large capacitances.
Using a diamond buer as an output stage has two
fairly signicant disadvantages:
1) It draws a lot of current and this adds to the total power
consumption (from the wall outlet) of the amplier, as well
as requires additional heatsinking to dissipate the power
drawn by the driver stage.
2) Since the input transistors of the diamond buer must be
identical to the output transistors of the diamond buer,
they are large and rather dicult to drive. This means that
one cannot drive them directly with the typical voltage
amplier used to provide the gain in a power amplier
circuit.
" What is dierent about the diamond buer from a typical output stage is
that after the signal has been split into two halves to send to each output
device, is that the two half signals are rejoined at ONE single point. There is
NOTHING in between these two half signals. "
t: 01727 865488 e: info@symmetry-systems.co.uk w: www.symmetry-systems.co.uk
Symmetry, Suite 5, 17 Holywell Hill, St Albans, Hertfordshire AL1 1DT
Page 7
The AX-5 Story
from Ayre Acoustics March 2014