Silicon Chip – July 2019

(Frankie) #1

siliconchip.com.au Australia’s electronics magazine July 2019 99


This guitar preamplifier uses six un-
buffered inverters in a single package
(74HCU04) to provide amplification,
and runs off a USB 5V power supply.
This IC can be used either as low-
delay digital inverters or high-gain
inverting amplifiers (as in the TOS-
LINK to S/PDIF Converter, October
2010, siliconchip.com.au/Article/319
& High-Sensitivity Magnetometer,
December 2018, siliconchip.com.au/
Article/11331, although the latter used
a similar 4069UB IC).
“Unbuffered” refers to the fact that
each inverter consists of just a single
stage, ie, two small Mosfets in a totem-
pole configuration with their gates and
drains tied together, acting as a non-
linear high-gain inverting amplifier.
A guitar practice amplifier does not
need to be highly linear nor particu-
larly loud. CMOS logic chips have a
high input impedance well-suited for
connecting to an electric guitar pickup.
So that IC is suitable for this applica-
tion, if a bit unusual.
Most guitars have volume control
pots, as do some headphones used by
musicians, so this circuit has a fixed


Guitar practice preamplifier based on inverters


gain. The guitar is connected via jack
socket CON3. A 10MW resistor pro-
vides ground biasing while keeping
the input impedance high, and the
100pF capacitor filters out any RF
picked up by the guitar or lead.
The signal is then AC-coupled to the
first gain stage via a 100nF series ca-
pacitor. This gain stage is built around
inverter stage IC1f and has a fixed gain
of around two times, set by the ratio
of the 1MW and 470kW resistors. This
works similarly to an op amp based
inverting amplifier but is less linear,
as the open-loop gain is a lot lower.
This stage is self-biasing because the
two internal Mosfets conduct a simi-
lar amount of current when the input
and output pins are near mid-supply.
So the DC level at the input tends to
settle at around 2.5V.
The output of this stage is then fed
to a second gain stage comprising the
remaining five inverters (IC1a-IC1e)
connected in parallel. This stage has
a gain of around five times, set by the
ratio of the 100kW and 20kW resistors.
A 10W resistor in series with the
output of each inverter ensures that

they share the load current more-
or-less evenly. The five inverters are
paralleled so that they can drive 32W
headphones to a reasonable volume.
The headphones at CON5 are fed
via a 100μF capacitor, to remove the
2.5V DC bias from the amplified signal,
with a 10W series resistor to slightly in-
crease the impedance seen by the am-
plifier and to improve stability.
The signal is also sent to output
CON4 via another 100μF capacitor
and a 100W series resistor. This can be
used to connect an amplifier to drive
a small speaker.
The circuit is powered with 5V ap-
plied to either DC barrel socket CON1
or USB socket CON2. The supply is
decoupled by two small capacitors
(the USB specification limits the ca-
pacitance directly across a socket) with
LED1 indicating power is applied and
diode D1 protecting the circuit against
reverse supply polarity.
100μH inductor L1 forms a low-pass
filter in combination with the following
220μF capacitor, reducing supply noise
which may otherwise be fed through
to the sensitive amplification stages.
Petre Petrov,
Sofia, Bulgaria ($70).

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