Technical Document
Specifications
Brand
MurataStandard Frequency
37.4MHz
Mounting Type
Surface Mount
Load Capacitance
8pF
Package Type
Cap Chip
Pin Count
4
Length
1.6mm
Width_SC_PC
1.2mm
Height
0.33mm
Dimensions
1.6 x 1.2 x 0.33mm
Frequency Tolerance
±10ppm
Series Resistance
60Ω
Minimum Operating Temperature
-20°C
Maximum Operating Temperature
70°C
PRICED TO CLEAR
Yes
Country of Origin
Japan
Product details
XRCMD SMT Crystal Resonators
XRCMD SMT crystal resonators in a metal sealed package with a compact 1.6 x 1.2 x 0.33 mm (1612) size and a frequency of 37.4MHz. These crystal units are ideal for the use as reference clocks in small devices such as wireless communications modules.
Crystal Resonators
These Hybrid Crystal Resonators are small size, low cost resonators that feature improved accuracy of less than ±100ppm by virtue of a quartz crystal element encased within the packaging derived from its ceramic resonator technology. This combination creates a timing device that is smaller and lower cost than standard quartz crystals while maintaining the precision of quartz.
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P.O.A.
Standard
5
P.O.A.
Standard
5
Technical Document
Specifications
Brand
MurataStandard Frequency
37.4MHz
Mounting Type
Surface Mount
Load Capacitance
8pF
Package Type
Cap Chip
Pin Count
4
Length
1.6mm
Width_SC_PC
1.2mm
Height
0.33mm
Dimensions
1.6 x 1.2 x 0.33mm
Frequency Tolerance
±10ppm
Series Resistance
60Ω
Minimum Operating Temperature
-20°C
Maximum Operating Temperature
70°C
PRICED TO CLEAR
Yes
Country of Origin
Japan
Product details
XRCMD SMT Crystal Resonators
XRCMD SMT crystal resonators in a metal sealed package with a compact 1.6 x 1.2 x 0.33 mm (1612) size and a frequency of 37.4MHz. These crystal units are ideal for the use as reference clocks in small devices such as wireless communications modules.
Crystal Resonators
These Hybrid Crystal Resonators are small size, low cost resonators that feature improved accuracy of less than ±100ppm by virtue of a quartz crystal element encased within the packaging derived from its ceramic resonator technology. This combination creates a timing device that is smaller and lower cost than standard quartz crystals while maintaining the precision of quartz.