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Part no. | Manufact. | Technology | Frequency Area | Footprint [mm] | Remarks | Details |
---|---|---|---|---|---|---|
90SMX(N) (EOL. LTB 30 June 2021) |
SMI | SMD | kHz | 8 x 3.8 |
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|
90SMX(K) |
SMI | SMD | kHz | 8 x 3.8 |
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|
CM250C (EOL. LTB 30 July 2021) |
Citizen | SMD | kHz | 8 x 3.8 |
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|
90SMX(S) |
SMI | SMD | kHz | 8.7 x 3.7 |
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|
1247STF327 |
SMI | Leaded | kHz | Ø1.2 |
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|
CFS145 |
Citizen | leaded | kHz | Ø1.5 |
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|
145STF327 |
SMI | Leaded | kHz | Ø1.5 |
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|
CFS206 |
Citizen | leaded | kHz | Ø2 |
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|
26STF327 |
SMI | leaded | kHz | Ø2 |
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|
1.2 x 4.7 (XY-CUT) |
SMI | leaded | kHz | Ø1.2 |
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Quartz crystals are silicon-dioxide based relatively simple, but critical components used in most electronic circuits mainly for timing and frequency generation applications for clocks, ucontrollers, analogue/ digital devices, microprocessors and many others. Although in very small size they exhibit extremely high Q (sharp frequency), temperature stability and low frequency shift.
A unique inherit property of quartz crystals is their piezoelectricity, namely the application of a electric field/voltage across the crystal will cause the crystal to oscillate/generate a signal of a very precise frequency. The opposite is also true, i.e. any applied pressure on the crystal will generate a voltage at the crystals terminals. The frequency generated by a quartz crystal is a function of the crystal size, shape, and chemical composition, but basically it can be designed to generate any desired frequency.
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Marcel Kaupp
Fon: +49 7452 8839052
m.kaupp@endrich.com_
Novitronic AG
Thurgauerstrasse 74
CH-8050 Zürich
+41 44 306 91 91
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