Miniature Atomic Clock (Mac – Sa5x) is Only 2 X 2″

Miniature Atomic Clock (MAC – SA5X) Rubidium Oscillator, re-designed for improved stability and new features. The MAC-SA5X is designed for applications that require long-term atomic oscillator stability, but are constrained by size and low power requirements.

Miniature Atomic Clock (Mac – Sa5x) is Only 2 X 2″


Microchip’s next-generation MAC-SA5X miniaturized rubidium atomic clock produces a stable time and frequency reference that maintains a high degree of synchronization to a reference clock, such as a GNSS-derived signal, despite static g-forces or other factors. Its combination of low monthly drift rate, short-term stability and stability during temperature changes allow the device to maintain precise frequency and timing requirements during extended periods of holdover during GNSS outages or for applications where large rack-mount clocks are not possible.

Miniature Atomic Clock (Mac – Sa5x) is Only 2 X 2″

Compact Design

Sharing an identical form factor with the Legacy MAC, measuring only 2 inch by 2 inch and standing less than an inch  – it is five times smaller than traditional lamp-based rubidium oscillators. Its pins allow it to be mounted to PCBA’s.

Improved Operation

It has been designed for fast warm-up times in a variety of thermal environments, wider operational temperature range and improved stability performance.

Low Temperature Sensitivity

With a max frequency deviation of <5E-11 during large temperature changes, along with improved long-term drift rates, the MAC-SA5X is capable of sub-microsecond holdover for many days in variable environments.

Additional Features

1PPS Disciplining allows fast calibration to external references, such as GNSS-derived 1PPS signals. New software interface adds user-versatility, control and monitoring of the device via rs232 or USB communications pins.

Source: Miniature Atomic Clock (Mac – Sa5x) is Only 2 X 2″

Leave a Comment

Your email address will not be published. Required fields are marked *

Scroll to Top