Figure 53. crystal connections to microprocessor – Intel 80C188XL User Manual

5-3

CLOCK GENERATION AND POWER MANAGEMENT

Choose C

1

and L

1

component values in the third overtone crystal circuit to satisfy the following

conditions:

•

The LC components form an equivalent series resonant circuit at a frequency below the
fundamental frequency. This criterion makes the circuit inductive at the fundamental
frequency. The inductive circuit cannot make the 90° phase shift and oscillations do not
take place.

•

The LC components form an equivalent parallel resonant circuit at a frequency about
halfway between the fundamental frequency and the third overtone frequency. This
criterion makes the circuit capacitive at the third overtone frequency, necessary for oscil-
lation.

•

The two capacitors and inductor at X2, plus some stray capacitance, approximately equal
the 20 pF load capacitor, C

X2

, used alone in the fundamental mode circuit.

Figure 5-3. Crystal Connections to Microprocessor

Choosing C

1

as 200 pF (at least 10 times the value of the load capacitor) simplifies the circuit

analysis. At the series resonance, the capacitance connected to L

1

is 200 pF in series with 20 pF.

The equivalent capacitance is still about 20 pF and the equation in Figure 5-4(a) yields the series
resonant frequency.

X1

X2

(a)

Fundamental

Mode Circuit

X1

X2

(b)

Third Overtone

Mode Circuit

C

X2

C

X1

C

X2

C

X1

L

1

(c)

Third Overtone Mode

(Equivalent Circuit)

C

X2

L

1

C1

C

X1

= C

X2

C

1

L

1

= 20pF

= 200pF

= (See text)

A1520-0A