Oscillators

Results: 3
Series
SiT8924BSiT9121
Frequency
16 MHz25 MHz131.072 MHz
Output
LVCMOS, LVTTLLVDS
Frequency Stability
±20ppm±25ppm
Operating Temperature
-40°C ~ 125°C-40°C ~ 85°C
Current - Supply (Max)
4.8mA55mA
Ratings
-AEC-Q100
Package / Case
4-SMD, No Lead6-SMD, No Lead
Size / Dimension
0.079" L x 0.063" W (2.00mm x 1.60mm)0.098" L x 0.079" W (2.50mm x 2.00mm)0.276" L x 0.197" W (7.00mm x 5.00mm)
Height - Seated (Max)
0.031" (0.80mm)0.039" (1.00mm)
Stocking Options
Environmental Options
Media
Marketplace Product
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Mfr Part #
Quantity Available
Price
Series
Package
Product Status
Base Resonator
Type
Frequency
Function
Output
Voltage - Supply
Frequency Stability
Absolute Pull Range (APR)
Operating Temperature
Spread Spectrum Bandwidth
Current - Supply (Max)
Ratings
Mounting Type
Package / Case
Size / Dimension
Height - Seated (Max)
4-SMD 2.0x1.6
SIT8924BA-72-33E-25.000000
MEMS OSC XO 25.0000MHZ LVCMOS LV
SiTime
0
In Stock
10,188
Factory
Value Added Item
1 : ¥36.86000
Strip
Strip
Active
MEMS
XO (Standard)
25 MHz
Enable/Disable
LVCMOS, LVTTL
3.3V
±25ppm
-
-40°C ~ 125°C
-
4.8mA
AEC-Q100
Surface Mount
4-SMD, No Lead
0.079" L x 0.063" W (2.00mm x 1.60mm)
0.031" (0.80mm)
4-SMD 2.5x2.0
SIT8924BA-12-33E-16.000000
MEMS OSC XO 16.0000MHZ LVCMOS LV
SiTime
0
In Stock
14,848
Factory
Value Added Item
1 : ¥38.75000
Strip
Strip
Active
MEMS
XO (Standard)
16 MHz
Enable/Disable
LVCMOS, LVTTL
3.3V
±25ppm
-
-40°C ~ 125°C
-
4.8mA
AEC-Q100
Surface Mount
4-SMD, No Lead
0.098" L x 0.079" W (2.50mm x 2.00mm)
0.031" (0.80mm)
6-SMD, 7.0 x 5.0
SIT9121AI-2D1-33E131.072000
MEMS OSC XO 131.0720MHZ LVDS SMD
SiTime
0
In Stock
6,412
Factory
Value Added Item
1 : ¥45.32000
Strip
Strip
Active
MEMS
XO (Standard)
131.072 MHz
Enable/Disable
LVDS
3.3V
±20ppm
-
-40°C ~ 85°C
-
55mA
-
Surface Mount
6-SMD, No Lead
0.276" L x 0.197" W (7.00mm x 5.00mm)
0.039" (1.00mm)
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Oscillators

Oscillator products are used as frequency/time reference sources, distinguished from crystal products often used for similar purposes by their integration of additional functions for maintenance and stabilization of the resulting output. In minimal form, they consist of a crystal or other resonant element plus functions needed to allow a user to obtain a frequency reference without extensive attention to the operation of the resonant element. More advanced devices integrate temperature compensation or control functions in order to obtain a more stable reference or one capable of selective adjustment.