LP3 Low Profile Strobe Lights



  • Available in 12-48VDC, 120VAC and 240VAC
  • Surface mount, T-mount, Edison Mount, or integrated 1/2-inch pipe mount
  • Five dome colors
  • Screw-on lens
  • Low profile - Model LP3S is only 5" high
  • Type 4X, IP66 enclosure
  • PLC and triac compatible
  • Optional dome guard for LP3S and LP3T
  • UL and cUL Listed, CSA Certified and CE Approved (CE Approval for P and S models only)

Federal Signal Model LP3 low profile strobe light is a Type 4X strobe is available in five colors: amber, blue, clear, green and red. An optional dome wire guard is available for the LP3S and LP3T.

The LP3 is offered in five mounting configurations: The LP3S features a three-hole surface mount - ideal for control panels and other flat or flush surfaces; the LP3E features a standard A-19 medium Edison screw base; the LP3M features a 1/2" male pipe mount and 18" wire leads; the LP3T has a popular 2-hole design for flush or wall mounting; and the LP3P has an integrated 1/2" NPT pipe mount.

Both the LP3S, LP3M and LP3T include a surface gasket to complete the NEMA 4X installation. All LP3 units feature a unique threaded screw-on lens to provide for tool free wiring and strobe tube replacement. The strobe tube is rated for 7,000 hours. An optional dome guard is available for use with the LP3S and LP3T.

LP3 comes in three voltage variations: 12-48VDC, 120VAC and 240VAC. The state-of-the-art strobe mechanism produces 2.2 joules of energy, while drawing relatively low amperage.

LP3 strobes feature high-quality, long-life strobe tubes which are designed to reduce tungsten build-up for longer lamp maintenance cycles. Careful consideration is given to the relationship between tube shape and lens design for maximum light output. LP3 products make use of surface mount technology, which provides a more powerful light in a much smaller package. The dry-electrolyte capacitor used in LP3 products runs cooler than those used in many competitive strobes, resulting in a more reliable product that won't fail due to overheating.