- Here is the Mercury parameter file for a variety of crystals. We will solve the equations for a 1MHz crystal.
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; Typical Crystal Values:
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; Freq Mode L1 C1 R1 C0 Q
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; 32768 fund 4448 H 5.3e-15 11200 1.84pf 81780
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; 1 MHz fund 3.5 H 0.007 pf 340 3 pf 64679
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; 10 MHz fund 9.8 mH 0.026 pf 7 6.3 pf 87964
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; 30 Mhz 3rd 14.9 mH 0.0018 pf 27 6.2 pf 104021
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;100 MHz 5th 4.28 mH 0.0006 pf 45 7 pf 59760
- ;150 MHz 5th 1.9 mH 0.0006 pf 65 4.2 pf 27000
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- ; Variables:
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; C0 = Crystal Shunt Capacitance
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; C1 = Crystal Motional Capacitance
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; CL = Crystal Load Capacitance
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; FP = Parallel Resonant Frequency
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; FS = Series Resonant Frequency
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; L1 = Crystal Motional Inductance
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; Q = Crystal Q factor
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; R1 = Crystal Series Resistance
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; Equations:
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C1 = 1 / (Q * W0 * R1) ; motional capacitance
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FP = FS * (1 + (C1 / (2 * (C0 + CL)))); parallel resonant frequency
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L1 = (Q * R1) / (W0) ; motional inductance
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pf = C1 * 1e12 ; C1 in pf for easy SPICE entry
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W0 = 2 * pi * FS ; series resonant frequency
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; Solve for these parameters:
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C0 = 3e-12 ; crystal shunt capacitance
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CL = 27e-12 ; crystal load capacitance
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FP = 1e6 ; parallel resonant frequency
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Q = 64679 ; crystal 'Q' factor
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R1 = 340 ; series resistance
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The solution is
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C0 = 3.000000000000000E-12
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C1 = 7.2381954594622169E-15
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CL = 2.700000000000000E-11
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FP = 1000000.0000000000
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FS = 999879.377960441
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L1 = 3.5003762943696892
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pf = 0.0072381954594622176
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Q = 64679.000000000000
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R1 = 340.00000000000000
- W0 = 6282427.4165529059
- ; Variables:
