Boasting the highest torque output of any golf rotor on the market, the G884 and G84B’s patented gear drive will push through anything that gets in its way. Try it yourself and see. With just one rotation of the turret by hand, you can clearly feel this rotor’s formidable durability. With a powerful core, an array of efficient nozzles, and true full circle and convertible part circle capabilities, the new G884 and G84B golf rotors are built to perform.
Full circle opposing nozzles
Convertible to adjustable part-circle (60° to 360°)
Dual trajectory colour-coded nozzles:
10 standard trajectory (22.5°)
9 low-angle trajectory (15°)
Nozzle range: #15 to #53
Exclusive PressurePort™ nozzle technology
Water lubricated gear-drive
Includes all TTS Advanced Features
Includes all DIH Advanced Features
Choose from the wide assortment of efficient wind-fighting 22.5° standard trajectory nozzles or, the 15° low-angle trajectory nozzles. Either way, there is a perfect match for your unique course conditions and problem-solving needs. Regardless of the version you choose, changing nozzles is fast and easy with Hunter’s exclusive QuickChange™ technology.
22.5° Standard trajectory nozzles
15° Low-angle trajectory nozzles
Hunter's revolutionary TTS (Total Top Servicing) design offers exclusive and unique features and benefits that are designed with serviceability and innovation in mind. Click HERE  to see all the TTS Advanced Features and why a Hunter Golf system is the right choice for your course.
Factory configured Decoder-In-Head (DIH) rotors are available for all 800 Series and 900 Series valve-in-head TTS rotors. All DIH rotors include Hunter's patented Total Top Programming technology. Whether on the workbench or after installation, the decoder station can be programmed without rotor dis-assembly.
Example:G884 - E - 48 - P8 - S = G884 full circle electric valve-in-head, installed #48 nozzle, 80 PSI regulation, standard stocking unit model
Note: Nozzle plug P/N 315300 installed in the front side of the nozzle housing.
* Preliminary performance data.