DSC1003CI2-010.0000 by Microchip Technology

Status: Active
Series: DSC1003
RoHS: Compliant
View Datasheet Manufacturer Site View Pricing & Stock

The DSC1003 is a silicon MEMS based CMOS oscillator offering excellent jitter and stability performance over a wide range of supply voltages and temperatures. The device operates from 1 to 150MHz with supply voltages between 1.8 to 3.3 Volts and extended temperatures from -40ºC to 105ºC. The DSC1003 has the same functionality and performance as the DSC1001 but with greater output drive (CL <25pf).The DSC1003 incorporates an all silicon resonator that is extremely robust and nearly immune to stress related fractures, common to crystal based oscillators. Without sacrificing the performance and stability required of today’s systems, a crystal-less design allows for a higher level of reliability, making the DSC1003 ideal for rugged, industrial, and portable applications where stress, shock, and vibration can damage quartz crystal based systems.Available in industry standard packages, the DSC1003 can be “dropped-in” to the same PCB footprint as standard crystal oscillators.

 

Create an application specific part and order samples with the CLOCKWORKS CONFIGURATOR tool.

Prices starting from US$0.99


Distributor Starting From Stock
Logo for Microchip Technology Microchip Technology US$0.99
4,000
Buy Now
View Full Pricing & Stock Comparison

Features

Frequency Range: 1 to 150MHz
±10 PPM, ±25 PPM, ±50 PPM
Operating voltage of 1.7V to 3.6V
Ext. Industrial -40°C to 105°C
Industrial -40°C to 85°C
Ext. Commercial -20°C to 70°C
Commercial 0°C to 70°C
6mA Operating (40MHz)
15µA Standby
2.5mm x 2.0mm x 0.85mm
3.2mm x 2.5mm x 0.85mm
5.0mm x 3.2mm x 0.85mm
7.0mm x 5.0mm x 0.85mm
Excellent Shock and Vibration Resistant
Lead free, RoHS, & Reach SVHC Compliant

Specifications

Supply Voltage (V) 1.62 - 3.63
Output Frequency Min (MHz) 1
Output Frequency Max (MHz) 150
Output Logic LVCMOS
Pins | Packaging 4 | VDFN
Temp Range -40C to +85C
Packing Media Tube (110)

Environmental Information

JEDEC Indicator e4
ROHS Compliant
China EFUP Compliant
Device Weight (g) 0.0195
Shipping Weight (kg) 0.042664
Lead Count 4
Package Type VDFN
Package Width or Size 3.2x2.5x0.9mm
Soldering Composition NiPdAu

Alternative Descriptions

MEMS OSC, LVCMOS, 10MHz, 25PPM, 1.8-3.3V, -40 to 85C, 3.2 x 2.5mm | Microchip Technology


Frequently Asked Questions

Where can I find additional details, specifications and documents for a DSC1003CI2-010.0000?

Additional datasheets, footprints and schematics for DSC1003CI2-010.0000 are listed on our Part Details page. You can also find images and similar parts to DSC1003CI2-010.0000 on this page.

What pricing and inventory information can I view?

Distributor pricing and stock information is available for DSC1003CI2-010.0000 on our Product Comparison page. Access via the 'View Pricing & Stock' button to view DSC1003CI2-010.0000 price breaks, MOQs, lead times, inventory and SKUs from distributors.

Who can I contact for technical support of the product?

Submit any questions directly to the customer support team of the distributor listing the product. For the DSC1003CI2-010.0000 you can contact the distributor directly for product support, shipping queries etc.

Is the DSC1003CI2-010.0000 RoHS compliant?

Yes. This part has been flagged as RoHS Compliant by Microchip Technology.

Which authorised distributors for DSC1003CI2-010.0000 have stock available?

Authorised distributors including Microchip Technology have stock available or on a lead time for DSC1003CI2-010.0000.

How do I check stock and lead times for all distributors?

Stock availability and lead times will be displayed for DSC1003CI2-010.0000 often in real-time on the comparison pages.

What if I can't find stock of DSC1003CI2-010.0000?

You can fill out our help required form which you can use to request a quote for DSC1003CI2-010.0000 from some of our verified obsolescence suppliers. Alternatively, contact us via our web chat in the bottom left of your screen and one of our team will try to help.

We use cookies to improve your experience. See our privacy policy.
Okay