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Z85233 Datasheet, PDF (291/317 Pages) Zilog, Inc. – The Zilog SCC Serial Communication Controller
Application Note
On-Chip Oscillator Design
PRACTICE: CIRCUIT ELEMENT AND LAY OUT CONSIDERATIONS
The discussion now applies prior theory to the practical
application.
Amplifier and Feedback Resistor
The elements of the circuit, internal to the IC, include the
amplifier, feedback resistor, and output resistance. The
amplifier is modeled as a transconductance amplifier with
a gain specified as IOUT/VIN (amps per volt).
Transconductance/Gain. The loop gain AB = gm x Z1,
where gm is amplifier transconductance (gain) in
amps/volt and Z1 is the load seen by the output. AB must
be greater than unity at and about the frequency of
operation to sustain oscillation.
Gain Measurement Circuit. The gain of the amplifier can
be measured using the circuits of Figures 6 & 7. This may
be necessary to verify adequate gain at the frequency of
interest and in determining design margin.
Gain Requirement vs. Temperature, Frequency and
Supply Voltage. The gain to start and sustain oscillation
(Figure 8) must comply with:
gm > 4π2 f2 Rq CIN COUTt x M
where:
M is a quartz form factor = (1 + COUT/CIN+ COUT/COUT)2
Output Impedance. The output impedance limits power to
the XTAL and provides small phase shift with load cap C2.
DC Bias
IC Under Test
33Ω
DC Bias
Vb
Vin
Vout
I out= (V ou–t V ) /b33)
Figure 7. Transconductance (gm) Measurement
6-156
VIN
OSC IN
CIN
Amplifier
*
VOUT
Quartz
OSC OUT
COUT
Rq, f
**
* Inside chip, feedback resistor biases the amplifier in the high gm region.
** External components typically: CIN = COUT = 30 to 50 pf (add 10 pf pin cap).
Figure 8. Quartz Oscillator Configuration
UM010901-0601