Data Sheet

QANTEK Technology Corporation
Phone: +1 877-227-0440 (tollfree) www.qantek.com
Fax: +1 877-227-0440 (tollfree) info@qantek.com
QC32 Series
2.5x3.2 4-Pad SMD Quartz Crystal Unit
Features
Low in height, suitable for thin equipment
Ceramic package and metal lid assures high
reliability
Tight tolerance and stability available
Equivalent Series Resistance (ESR)
Frequency Range - MHz
Ω max. Mode of Operation
10.000 to 20.000 100 Fundamental
20.100 to 25.000 80
25.100 to 60.000 60
General Specifications
Frequency Range
10.000 to 60.000MHz (Fundamental)
Frenquency Tolerance at 25°C
±10 to ±100ppm (±30ppm standard)
Frequency Stability over Temperature Range
See Stability vs. Temperature Table
Storage Temperature -55 to +125°C
Load Capacitance C
L
7 to 32pF and Series Resonance
Shunt Capacitance C
0
5.0pF max.
Equivalent Series Resistance (ESR) See ESR Table
Drive Level 100μW max.
Aging per Year ±3ppm max.
Insulation Resistance (MΩ)
500 at 100Vdc ±15Vdc
Mechanical Dimensions
Applications
High density applications
Modem, communication and test equipment
PMCIA, wireless applications
Automotive applications
Frequency Stability vs. Temperature
Operating Temperature ±10ppm ±20ppm ±30ppm ±50ppm ±100ppm
-20 to +70°C
-40 to +85°C **
-40 to +105°C
- - -
-40 to +125°C
- - - -
*Operating Temperature -30 to +80°C
standard available
QC32 Rev. 0.4
Part Numbering Guide
Qantek
Code
Package
Nominal Frequency
(in MHz)
Vibration
Mode
Load
Capacitance
Operating Tem-
perature Range
Frequency
Tolerance
Frequency
Stability
Automotive
Indicator
Packaging
Q = Qantek C32 = 2.5x3.2 4-Pad
= SMD
7 digits including the
decimal point
(f.ie. 12.0000)
F = AT-Fund S = Series
08 = 8pF
12 = 12pF
18 = 18pF
20 = 20pF etc.
A = -20 to +70°C
B = -40 to +85°C
C = -40 to +105°C
D = -40 to +125°C
1 = ±10ppm
2 = ±20ppm
3 = ±30ppm
5 = ±50ppm
0 = ±100ppm
1 = ±10ppm
2 = ±20ppm
3 = ±30ppm
5 = ±50ppm
0 = ±100ppm
A = AEC-Q200 M = 250pcs Tape&Reel
R = 1000pcs Tape&Reel
R3 = 3000pcs Tape&Reel
Example: QC3212.0000F12B33R bold letters = recommended standard specification

Summary of content (2 pages)