Lennox X9317 Slow-Blow Fuse 3 Amp is a genuine OEM circuit protection component designed to safeguard HVAC control boards and low-voltage electrical systems from overloads and short circuits. The Lennox 4683 time-delay fuse allows temporary inrush current during startup while preventing damage to sensitive furnace and air handler electronics. Built for reliability and consistent performance, this 3 Amp slow-blow fuse helps protect critical HVAC components and maintain safe system operation.
This OEM Lennox fuse is engineered to meet original equipment specifications, ensuring proper fit and dependable electrical protection in compatible Lennox furnaces, air handlers, and control panels.
Product Details
Brand Lennox
Catalog Number X9317
Part Number 4683
Product Type Slow-Blow Fuse
Amperage 3 Amp
Fuse Type Time Delay
Base Unit of Measure Unit
Key Features
Genuine Lennox OEM slow-blow fuse
3 Amp time-delay protection for HVAC control circuits
Protects furnace and air handler control boards from overload and short circuits
Allows temporary inrush current during equipment startup
Designed for reliable and safe system operation
Direct OEM replacement for Lennox part number 4683
Applications
Lennox X9317 slow-blow fuse is used in select Lennox HVAC systems requiring a 3 Amp time-delay fuse for control circuit protection. It is commonly installed in furnace and air handler control panels to help prevent electrical damage caused by current spikes or faults.
Why Choose OEM Lennox Parts
Using genuine Lennox replacement components ensures compatibility, proper electrical ratings, and long-term system reliability. OEM fuses are manufactured to meet factory specifications, helping protect valuable HVAC equipment and reduce the risk of premature control board failure.
Order Lennox X9317 Slow-Blow Fuse 3 Amp from Beenimax
Beenimax supplies trusted OEM HVAC replacement parts for contractors, service technicians, and homeowners. Order the Lennox X9317 4683 3 Amp slow-blow fuse today to maintain proper HVAC control circuit protection and dependable system performance.
