MEMS Timing Solutions for A2L-Based HVAC/R
Devices | Key Features | Key Values |
---|---|---|
High-Temperature XO
SiT8918 1 to 110 MHz
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Clock Buffer
SiT92184 0 Hz to 200 MHz
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HVAC/R applications represents harsh environment with wide temperature swings and electrical transients. When compared to quartz crystal oscillators, MEMS-based oscillators are more resistant to shock and vibration, highly immune to electromagnetic energy and power supply noise. Moreover, in applications concerned with gas permeability, SiTime offers hermetic solutions.
A leader in industrial timingBetter quality and reliability Custom configured solutions Small form factor |
Accurate and robustExcellent stability over temperature Better shock/vibration resistance EMI resilience |
Easy to use, built to lastNo quartz reliability issues >2 billion hour MTBF Lifetime warranty |
Driven by environmental as well as regulatory concerns, the HVAC industry is undergoing a transition to a new class of refrigerants, known collectively as A2L — an ASHRAE classification, where A represents low toxicity and 2L slow burning, low flammability. While there are no specific regulations in either the US or the EU mandating the use of A2L, these regions do require refrigerants with a GWP below a specific threshold (typically, 700 for stationary residential and light commercial air conditioning and heat pumps).
Given that A2L carries a flammability risk (albeit, low), the detection and mitigation of any refrigerant leak is essential. This requirement is driving designers to look for robust timing solutions that can withstand the harsh environments in which HVAC/R systems operate.
Devices | Key Features | Key Values |
---|---|---|
High-Temperature XO
SiT8918 1 to 110 MHz
|
|
|
Clock Buffer
SiT92184 0 Hz to 200 MHz
|
|
|
More robust in harsh environments
Better stability over a wide temperature range
Programmability for flexible design
Higher quality and reliability
Unique features