HobbyWing Quickrun ESC 880 Dual Brushed Waterproof
R940,00 [Each]
Product Number: HWQRWP880D Prices are shown inclusive of VAT.

HobbyWing Quickrun ESC 880 Dual Brushed Waterproof
  • Fully waterproof design for all conditions. (Note: Please clean and dry it after use for avoiding rusty connectors).
  • HOBBYWING patented copper heat-conductive plates attached to the MOSFET board allows the internal heat to be quickly transferred to the aluminum heat sink for great heat dissipation.
  • Built-in switch-mode BEC with cont. current of 4A.
  • Tunable drag brake and drag brake rate for different vehicles, tracks, and control feel.
  • Adjustable PWM frequency combined with advanced freewheeling (/DEO) technology guarantees great throttle linearity and driving feel.
  • 9 levels of acceleration/ punch from soft to aggressive for different vehicles, tires and tracks.
  • Proportional brake with 9 levels of initial brake force, maximum brake force, and drag brake force.
  • Multiple protections: low-voltage cutoff protection, thermal protection, and throttle signal loss protection.
  • Separate programming port to easily connect the LED program card (purchase separately) to the ESC.
      Model / SKU
      QUICRUN-880-DUAL-Brushed ESC / 30120301
      Cont./Peak Current
      80A/400A
      Motor Type Supported Brushed Motor (540, 550, 775 Size Motor)
      Applicable Car Various 1/10th & 1/8th Vehicles
      Motor Limit Brushed Motor Limit with 2S LiPo /6S NiMH: = 12T or RPM<30000@7.4V (540, 550 Size Motors)
      Brushed Motor Limit with 3S LiPo /9S NiMH: = 18T or RPM<20000@7.4V (540, 550 Size Motors)
      Brushed Motor Limit with 4S LiPo /12S NiMH: = 24T or RPM<15000@7.4V (540, 550 Size Motors)
      LiPo / NiMH Cells
      2-4S LiPo or 5-12S NiMH
      BEC Output 6V@4A (Switch-Mode)
      Connectors Input End: No Connectors; Output End: 4.0mm Female Bullet Connectors
      Size/ Weight 45.9*34.7*26.5mm/ 75g
      Programming Port Separate Port
      Waterproof Waterproof

      Note: WP-880-DUAL BRUSHED ESC has two outputs to drive 2 motors. When driving 2 motors simultaneously, the Turn of the motors needs to be increased.