-40%

XH-M253 TDA8954TH Core BTL Mode HIFI Class 420W High Power Mono Digital Amp Z2X4

$ 8.75

Availability: 100 in stock
  • MPN: Does Not Apply
  • Brand: Unbranded
  • Return shipping will be paid by: Buyer
  • All returns accepted: Returns Accepted
  • Condition: New
  • Item must be returned within: 30 Days
  • Refund will be given as: Money Back

    Description

    XH-M253 TDA8954TH Core BTL Mode HIFI Class 420W High Power Mono Digital Amp Z2X4
    Features: XH-M253 TDA8954TH Core BTL Mode HIFI Class 420W high-power mono digital power amplifier board D3-003
    Feature 1: Using the new original TDA8954TH core technology, the BTL bridge circuit is more efficient.
    Feature 2: Use original original rectifier bridge, original J13003 transistor
    Feature 3: Use 2200uf array of large-capacity electrolytic capacitors.
    Wish label: digital power amplifier board, digital power amplifier, mono power digital power amplifier board, TDA8954TH, 420W high power mono digital power amplifier
    Keyword One: Digital Power Amplifier Board
    Keywords two: digital power amplifier
    Keywords 3: power mono digital power amplifier board
    Keyword four: TDA8954TH
    Keyword five: 420W high-power mono digital power amplifier
    Description: Using the new original TDA8954TH core technology, the BTL bridge circuit is more efficient.
    Use original original rectifier bridge, original J13003 transistor
    Use 2200uf high-capacity electrolytic capacitor array.
    Core chip: TDA8954TH
    Input power: recommended dual 24V toroidal transformer (range dual 12-double 18V)
    Output power: 420W
    Number of channels: mono
    Output impedance: 2-8 ohms (4 ohms recommended)
    Size: 82*72*37mm
    Colour: Black
    material: metal
    Net weight: about 121g
    Package Included:
    1* 420W TDA8954TH digital audio power amplifier board
    Only the above package contents, not including other products.
    Note: Light shooting and different displays may cause the color of the object in the picture to be slightly different from the actual object. The allowable measurement error is +/- 1-3cm.