Electronic Components Blog

Wednesday, 07 January 2015 07:38

Ultra small precision MEMS TCXO

Ultra small precision MEMS TCXO

The MT-9560A is a 32.768 kHz CSP, MEMS TCXO that delivers a temperature stability of +/-5ppm over the -40 to +85°C industrial temperature range.  This MEMS product offers robust performance in shock and vibration environments and is a great fit for applications where accuracy, increased battery life and small size are essential.



Frequency: 32.768 kHz 

​Temperature Stability: +/-5ppm 

CSP Package: 1.5 x 0.8 x 0.6 mm

Ultra–low power: <1 µA 

Vdd supply range: 1.5V to 3.63V 

Output: LVCMOS 



Smart Meters 


Wireless BLE Connectivity 

Time Keeping 

Industrial controls and automation 

Portable Medical Devices 

RTC Reference Clock 

Related Blog messages

  • Vectron Reduced Footprint Ultra Low Noise OCXO

    The OX-304 is the latest addition to Vectron's precision OCXO low noise oscillator family. With a 20mm x 20mm x 15mm footprint, this OCXO offers a 40% reduction in package size vs the OX-204 and achieves an impressive phase noise floor at -173 dBc/Hz. Designed for applications that demand extremely low noise sources, the 10MHz OCXO maintains exceptional phase noise performance in a smaller footprint.

  • Vectron - Smallest Space TCXO on the Market

    Utilizing Vectron's industry's standard "HI-REL Radiation Tolerant TCXO Specification", defined as "DOC200103", will certainly reduce your design time and overall project cost. Revision E now features the smallest Space TCXO (0.75"x0.75"x0.26") available on the market today, and includes a lead forming option for all flatpack enclosures.

  • Vectron GNSS Disciplined Oscillator Modules

    Vectron has released two new GNSS disciplined oscillators built on the same platform as the MD-261 series with an embedded Furuno Opus 7 receiver. In addition, they have upgraded the onboard OCXO of the MD-261, improving 24 hour holdover to 8 µs at constant temperatures.

  • Choose Vectron in LoRa Applications and Designs

    When designing or building your LoRa applications, you can choose to implement standard chipsets available in the market. However, there are numerous reasons why you would want to build your own custom design, and/or deviate from standard chipsets. Vectron already has many satisfied customers who successfully implement combinations of Vectron components in their LoRa designs.