571CCC000115DG

Skyworks Solutions, Inc.
634-571CCC000115DG
571CCC000115DG

Mfr.:

Description:
Programmable Oscillators Differential/single-ended I2C programmable VCXO; 10-1417 MHz

Datasheet:
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Learn more about Skyworks Solutions, Inc. 571CCC000115DG

Availability

Stock:
Non-Stocked
Factory Lead Time:
8 Weeks Estimated factory production time.
Minimum: 50   Multiples: 50
Unit Price:
-,-- €
Ext. Price:
-,-- €
Est. Tariff:
This Product Ships FREE

Pricing (EUR)

Qty. Unit Price
Ext. Price
28,47 € 1.423,50 €

Similar Products

Product Attribute Attribute Value Select Attribute
Skyworks
Product Category: Programmable Oscillators
RoHS:  
VCXO
7 mm x 5 mm
10 MHz to 160 MHz
15 pF
2.97 V
3.63 V
CMOS
SMD/SMT
- 40 C
+ 85 C
7 mm
5 mm
1.8 mm
Si571
Cut Tape
Brand: Skyworks Solutions, Inc.
Country of Assembly: Not Available
Country of Diffusion: Not Available
Country of Origin: TW
Current Rating: 90 mA
Duty Cycle - Max: 55 %
Mounting Style: SMD/SMT
Operating Supply Voltage: 3.3 V
Product Type: Programmable Oscillators
Factory Pack Quantity: 50
Subcategory: Oscillators
Unit Weight: 186,030 mg
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Attributes selected: 0

Datasheet

PCN

TARIC:
8542319000
CNHTS:
8542319000
CAHTS:
8542310000
USHTS:
8542310030
KRHTS:
8542311000
MXHTS:
8542310399
ECCN:
EAR99

Si570 XO/Si571 VCXO Oscillators

Skyworks Solutions Inc. Si570 XO/Si571 VCXO Programmable Oscillators utilize the Skyworks advanced DSPLL® circuitry to provide a low-jitter clock that is programmable to any output frequency from 10MHz to 945MHz and select frequencies to 1400MHz with <1 ppb resolution. The Si570/Si571 is programmed via an I2C serial interface. The Si57x is unique in that it uses one fixed-frequency crystal and a DSPLL clock synthesis IC to provide any-frequency operation. This IC-based approach enables the crystal resonator to provide exceptional frequency stability and reliability. Additionally, DSPLL clock synthesis provides superior supply noise rejection, simplifying the task of generating low-jitter clocks in noisy environments typically found in communication systems.

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