ACR RCL-75 Searchlight

ACR RCL-75 Searchlight


The RCL-75 searchlight dual lamp design provides reliability when you need it.


  • Dual lamp design
  • Heavy-Duty gear teeth and electric motors
  • Desiccated filter
Free Shipping on this product
List Price
Your Price
Usually ships in 1-2 weeks

Shipping Information
Return Policy
Why Buy From Fondriest?


  • Dual lamp design provides redundancy, reliability-works when you need it
  • Bright, powerful halogen beam with 3 h x 5 w beam spread
  • Easy-to-install Point Pad-style joystick control
  • Robust, function-and feature-rich searchlight is easy to install
  • 7-wire wiring harness, 17' length
  • Electronics located in water-resistant light head, instead of traditional light base location, for protection from water accumulation
  • 45° down pitch ocular design provides enhanced visibility when docking
  • 18° up pitch to illuminate draw bridge towers, etc.
  • Lamps easily replaced by removing top cap to access rear light assembly
  • Desiccated filter dries air; protects reflector and light assembly
  • Innovative "direct drive" system eliminates uncontrolled light movement in choppy conditions
  • Heavy-duty gear teeth and electric motors


  • Recessed/Surface mount Point Pad remote control; replacement bulb Product No. 9403;
  • Replacement light assembly Product No. 9404
  • Secondary Point Pad™ (P/N 9428)
  • Stackable 1" riser (P/N 9427)
  • 2nd station cable harness (P/N 9426)
  • Second station harness adapter(P/N 9442)
Image Part # Product Description Price Stock Order
ACR RCL-75 Searchlight 1946 RCL-75 searchlight with point pad, 12v
Usually ships in 1-2 weeks
Image Part # Product Description Price Stock Order
ACR 55W Replacement Bulbs 9403 55W Replacement bulb for RCL-75 searchlight, 12v
In Stock
ACR 2nd Station Point Pad Control 9428 2nd Station point pad control for RCL-75
In Stock
ACR Cable Harness 9426 17 Foot cable harness for RCL-75 with waterproof connector
In Stock
ACR 2nd Station Harness Adapter 9442 2nd station harness adapter for RCL-75, splitter
In Stock

ACR RCL-75 Searchlight Reviews

| Write a Review

Be the first to write a review

In The News

Elliott Bay Reconstruction Benefits From Chum Salmon Finds

Like many commercial waterfronts, Seattle’s Elliott Bay has been built to withstand the natural forces of erosion. This has come with the addition of structures like concrete seawalls and piles of riprap, most of which were put in place in the 1930s. But there are a few manmade beaches that have sprung up in recent years along its banks. Some of these have come about because the city is reworking the shoreline following an earthquake that occurred around 10 years ago. And moving forward, Bay planners are looking to add still more improvements, including complexities in seawalls, underwater benches in the intertidal zone and a new beach, all of which are meant to help support fish habitat.

Read More

Boise River Watershed Watch Shows Volunteers Issues River Faces

Having just wrapped up its ninth year, the Boise River Watershed Watch program is an increasingly popular citizen science program in Boise, Idaho. It takes interested volunteers and joins them with expert scientists from the U.S. Geological Survey (USGS) who teach them about the river’s health and sampling water quality using transparency tubes, dip nets and chemical test kits. “Our focus is to educate folks on the parameters that we measure, to give them an idea of the river’s health,” said Tim Merrick, public information officer at the USGS’ Idaho Water Science Center. “So they can collect data on the river’s conditions and get plugged in.

Read More

New Benthic Underwater Microscope Captures Coral Wars

Researchers from Scripps Institution of Oceanography at the University of California - San Diego have designed and built a diver-operated underwater microscope to study millimeter-scale processes as they naturally occur on the seafloor. The research team has observed coral turf wars, coral polyp “kissing” and much more using the new microscopic technology. Many important biological processes in the ocean take place at microscopic scales, but when scientists remove organisms from their native habitats to study them in the lab, much of the information and its context are lost. In a quest to overcome this challenge, Scripps oceanographers developed the new type of underwater microscope to image marine microorganisms in their natural settings without disturbing them.

Read More