Our Controls and Timers; allow you to simply and easily take full advantage of your Lifebreath product capabilities. Our state-of-the-art digital wall controls and timers are as simple to use, as they are complementary to your homes’ decor.
Residential Controls & Timers
Breathe Only the Best
Pure performance for over 30 years.
Maximum Heat Transfer
Our patented counter cross flow design guarantees a maximum displacement of energy throughout the heat recovery core. This allows for the maximum possible heat transfer.
Best-In-Class Lifetime Warranty
The high-quality construction of this non-moving part ensures a lifetime of performance and peace of mind, which is backed by our commitment to you.
Ease of Maintenance
An advanced, service-friendly design features easy-access doors and smooth cell rails, which allow for the core to be slid out and washed with minimal effort. It also features reasonable plate separation to ensure that dirt and debris is efficiently removed from between the washable plates.
Maximum Airflow Design
The most efficient core in today’s market features the perfect balance of heat recovery and airflow. This model of efficiency was designed using computer-generated fluid dynamics to determine the optimal pattern of the plate surfaces and spacing.
Durability in All Climates
In addition to being a strong conductor of energy, aluminum is much more durable than conventional materials found in competitive products. You can have complete confidence in the durability and performance of the unit – regardless of the climate in which it’s installed.
Non-Toxic & Environmentally Friendly
The Lifebreath core is comprised of aluminum plates. Not only are these environmentally friendly, but they’re also non-toxic and do not emit gas like other materials. On its own, the durability and long-life of these cores would be environmentally beneficial, but that environmental stewardship is augmented by the fact that the finished core itself is completely recyclable at the end of its life cycle – as is all material used during the manufacturing process.