Metal Halide Ballast Cross Reference:
Advance Ballast 71A5181-500D
Universal M50MLTLC3M
Venture V90D5731K
Keystone MH-50X-Q-KIT
Venture Lighting focuses not only on metal halide lamps, but also on metal halide ballasts. Venture Lighting designs and manufactures lighting systems that are energy efficient, uses less chemicals and have extended life. Venture Lighting is constantly enhancing existing product offerings and developing new lighting solutions. Venture Lighting products are designed to have the highest quality of light, creating a safe and productive environment for those who use them.
High Intensity Discharge (HID) lamps require a ballast to apply starting voltage to the lamp and establish current flow an arc between the lamp electrodes. Without a ballast, the arc will extinguish or draw increasing current until some circuit element burns up. Ballasts provide system stability by limiting the current that can be drawn.
Core and Coil metal halide HID ballasts are used in over 90% of all HID lighting. Replacement ballast kits contain the appropriate core and coil, a properly rated capacitor and all components required for ballast replacement. The Venture Lighting, core and coil, HID ballast kit is ideal for a wide variety of lighting applications, including factories, warehouses, gymnasiums and retail stores.
Venture Lighting V90D5731K, 50 watt ballast transformer, Quad Tap (or Multi-Tap) 120/208/240/277V, replacement metal halide ballasts for 50 Watt Pulse Start Metal Halide, Core And Coil, Circuit Type HX-HPF, Metal Halide Lamp Type, 50 Lamp Watts, M110 ANSI Ballast Type, 65 Input Watts, 120/208/240/277 Input Voltage, 60 Hz. The dimensions on this MH ballast are 3.94" L x 2.84" W x 2.45" H. This Venture Lighting V90D5731K ballast carries a Two Year Limited Warranty.
The Energy Independence & Security Act of 2007 (EISA) will dramatically improve the lighting industry by increasing the energy efficiency standards of HID luminaires. Venture's Pulse Start Metal Halide ballasts are designed to exceed the EISA requirements for maximum energy efficiency.
