KLN Series, Oscillators

Results:
10
Manufacturer
Series
Frequency Stability
Operating Temperature
Height - Seated (Max)
Absolute Pull Range (APR)
Size / Dimension
Function
Type
Package / Case
Voltage - Supply
Output
Frequency
Spread Spectrum Bandwidth
Current - Supply (Max)
Mounting Type
Ratings
Base Resonator
Results remaining10
Applied Filters:
KLN
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ImageProduct DetailPriceAvailabilityECAD ModelOperating TemperatureMounting TypeVoltage - SupplyHeight - Seated (Max)RatingsCurrent - Supply (Max)Base ResonatorSpread Spectrum BandwidthSize / DimensionSeriesTypeFrequencyFunctionOutputFrequency StabilityAbsolute Pull Range (APR)Package / Case
KLNANTE10MEBECAB
10MHZ 25X25MM TH SINE OUTPUT A-P
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Quantity
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PCB Symbol, Footprint & 3D Model
-40°C ~ 85°C
Through Hole
5V
0.460" (11.68mm)
-
-
Crystal
-
1.000" L x 1.000" W (25.40mm x 25.40mm)
KLN
VCOCXO
10 MHz
Amplitude Control
Sine Wave
±50ppb
±1ppm
6-DIP (0.750", 19.05mm), 5 Leads
KLNANTL10MEBBCAB
10MHZ 14 PIN DIP TH SINE OUTPUT
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Quantity
Contact us
PCB Symbol, Footprint & 3D Model
-40°C ~ 85°C
Through Hole
5V
0.512" (13.00mm)
-
-
Crystal
-
0.795" L x 0.496" W (20.20mm x 12.60mm)
KLN
VCOCXO
10 MHz
Amplitude Control
Sine Wave
±5ppb
±1ppm
14-DIP Module, 4 Leads
KLNANTE10MEBBCAB
10MHZ 25X25MM TH SINE OUTPUT A-P
Contact us
Quantity
Contact us
PCB Symbol, Footprint & 3D Model
-40°C ~ 85°C
Through Hole
5V
0.460" (11.68mm)
-
-
Crystal
-
1.000" L x 1.000" W (25.40mm x 25.40mm)
KLN
VCOCXO
10 MHz
Amplitude Control
Sine Wave
±5ppb
±1ppm
6-DIP (0.750", 19.05mm), 5 Leads
KLNAGTE100MFNFCAB
100 MHZ LOW-G OCXO TH 25X25MM (E
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Quantity
Contact us
PCB Symbol, Footprint & 3D Model
-40°C ~ 85°C
Through Hole
12V
0.512" (13.00mm)
-
-
Crystal
-
0.795" L x 0.496" W (20.20mm x 12.60mm)
KLN
OCXO
100 MHz
-
Sine Wave
±100ppb
-
14-DIP Module, 4 Leads
KLNANTE100MEBCCAB
100MHZ 25X25MM TH SINE OUTPUT A-
Contact us
Quantity
Contact us
PCB Symbol, Footprint & 3D Model
-40°C ~ 85°C
Through Hole
5V
0.460" (11.68mm)
-
-
Crystal
-
1.000" L x 1.000" W (25.40mm x 25.40mm)
KLN
VCOCXO
100 MHz
Amplitude Control
Sine Wave
±10ppb
±1ppm
6-DIP (0.750", 19.05mm), 5 Leads
KLNANTL100MEBECAB
100MHZ 14 PIN DIP TH SINE OUTPUT
Contact us
Quantity
Contact us
PCB Symbol, Footprint & 3D Model
-40°C ~ 85°C
Through Hole
5V
0.512" (13.00mm)
-
-
Crystal
-
0.795" L x 0.496" W (20.20mm x 12.60mm)
KLN
VCOCXO
100 MHz
Amplitude Control
Sine Wave
±50ppb
±1ppm
14-DIP Module, 4 Leads
KLNBNTE100MFNFCAB
100 MHZ OCXO TH 25X25MM (E PACKA
Contact us
Quantity
Contact us
PCB Symbol, Footprint & 3D Model
-40°C ~ 85°C
Through Hole
12V
0.512" (13.00mm)
-
-
Crystal
-
0.795" L x 0.496" W (20.20mm x 12.60mm)
KLN
OCXO
100 MHz
-
Sine Wave
±100ppb
-
14-DIP Module, 4 Leads
KLNCNTE10MFNCBCB
10 MHZ OCXO TH 25X25MM (E PACKAG
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Quantity
Contact us
PCB Symbol, Footprint & 3D Model
-20°C ~ 70°C
Through Hole
12V
0.512" (13.00mm)
-
-
Crystal
-
0.795" L x 0.496" W (20.20mm x 12.60mm)
KLN
OCXO
10 MHz
-
CMOS, TTL
±10ppb
-
14-DIP Module, 4 Leads
KLNCNTE10MFNCBAB
10 MHZ OCXO TH 25X25MM (E PACKAG
Contact us
Quantity
Contact us
PCB Symbol, Footprint & 3D Model
-20°C ~ 70°C
Through Hole
12V
0.512" (13.00mm)
-
-
Crystal
-
0.795" L x 0.496" W (20.20mm x 12.60mm)
KLN
OCXO
10 MHz
-
Sine Wave
±10ppb
-
14-DIP Module, 4 Leads
KLNANTL10MEBECAB
10MHZ 14 PIN DIP TH SINE OUTPUT
Contact us
Quantity
Contact us
PCB Symbol, Footprint & 3D Model
-40°C ~ 85°C
Through Hole
5V
0.512" (13.00mm)
-
-
Crystal
-
0.795" L x 0.496" W (20.20mm x 12.60mm)
KLN
VCOCXO
10 MHz
Amplitude Control
Sine Wave
±50ppb
±1ppm
14-DIP Module, 4 Leads

About  Oscillators

Oscillator products serve as essential frequency and time reference sources in electronic systems. They differ from crystal products, which are commonly used for similar purposes, due to their integration of additional functions aimed at maintaining and stabilizing the resulting output. At its core, an oscillator product comprises a crystal or another resonant element, accompanied by functions that enable users to obtain a frequency reference without needing to extensively manage the operation of the resonant element. These oscillator products can also feature more advanced capabilities, such as temperature compensation or control functions. These enhancements are designed to achieve a more stable frequency reference or one that allows for selective adjustments to meet specific application requirements. Temperature compensation functions help mitigate the impact of temperature variations on the output frequency, ensuring consistent performance across a range of operating conditions. Control functions enable users to fine-tune the output frequency or make precise adjustments as needed for their particular application. The integration of these additional functionalities into oscillator products enhances their utility and versatility, making them well-suited for a wide array of applications where precise and stable frequency references are crucial. Whether in telecommunications, precision instrumentation, or digital systems, oscillator products play a vital role in providing reliable timing and synchronization signals to support the seamless operation of diverse electronic devices and equipment.