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MC74HC1GU04DFT2ONN/a71870avaiSingle Unbuffered Inverter


MC74HC1GU04DFT2 ,Single Unbuffered Inverter
MC74HC1GU04DFT2G ,Single Unbuffered Inverter3MC74HC1GU04t tr fVCC90%INPUT OUTPUT50%10%INPUT AGNDCL*t tPHL PLHOUTPUT Y90%50%10%t tTHL TLH*Includ ..
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MC74HC1GU04DFT2
Hex Inverting Buffer
AND8053/D
Designing Crystal
Oscillators with Modern
CMOS Gates
Prepared by: Fred Zlotnick
Applications Manager
INTRODUCTION

Designing a crystal oscillator with modern CMOS gates
is difficult with the limited information available. The
designer has many families to choose from: 4000 series,
HCMOS, LCX, and VHC, for starters. The selection of the
logic family depends on the system voltage and frequency
of operation.
Designing a crystal oscillator using gates instead of
buying a pre−packaged device that includes all the active
components provides the following benefits: Save Money Control the Parameters that are Critical to the Design
In order to save money, the designer has to be willing to
undertake the design and understand the tradeoffs. By doing
this, he also is able to take control of critical parameters such
as frequency, accuracy, and stability.
This article will only be concerned with the fundamental
mode operation. Today’s crystals can be purchased with
fundamental modes up to about 30 MHz. These techniques
also work well for ceramic resonators.
Figure 1. Crystal Oscillator Using
Unbuffered CMOS Gate

Theory of operation: in nearly all cases, using a gate as an
oscillator entails causing the gate to go into class “A” or
biased between the on and off state. This is accomplished by
placing a large resistor, between 10 and 20 M� from the
output to the input. The mode of operation is the “Pierce”
crystal oscillator (Amateur Radio Handbook, 1968).
This circuit can be considered a grounded source
transistor, with Capacitors to ground. The input (gate) and
output (drain) are “floating.” This circuit has been around in
vacuum tube form for many years, and is just a
version of the circuit. To
“unbuffered” inverter is usually used (see Figure 1). Devices
such as the MC74VHCU04 or MC74LCXU04, available
from ON Semiconductor, will provide stable operation from
below 1 MHz to above 20 MHz, from 2−5 volts operation.
Since there are six active inverters in each 14−pin package,
the designer is encouraged to use at least one of the devices
as a buffer. The unbuffered gate, such as a VHCU04,
contains just one P−Channel, and one N−Channel device.
Since there is just one complementary pair, this is only one
transistor gate delay. These devices are fabricated in 0.6�
CMOS and have significant Class A gain for any crystal
application up to 100 MHz or more. If the designer needs a
circuit to operate between 7 and 18 volts, the MC14049UB
from the 4000 series of Metal Gate CMOS makes a good
choice. The designer has to be careful not to make demands
on the circuit that exceed the maximum
capabilities of this family (~ 4−10 MHz).
In all cases, the designer needs to be aware that it is
possible to damage the crystal with over−active excitation.
By using the unbuffered inverters and a series resistor (see
Figure 2), in the VHC or Metal gate series, the designer can
be confident that there will not be too much drive. A test to
determine whether appropriate drive is being obtained is
described in the High−Speed CMOS Data book, DL129/D.
The designer builds a prototype of the circuit and applies
VCC through a variable supply. If the frequency shifts very
slightly higher when the supply voltage is varied, the design
is valid. If the frequency decreases or becomes unstable, a
resistor should be added to the circuit.
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