FDG6304P: Dual P-Channel Digital FET -25V, 0.41A, 1.1Ω

Description: These dual P-Channel logic level enhancement mode ...
  • These dual P-Channel logic level enhancement mode field effect transistors are produced using a proprietary, high cell density, DMOS technology. This very high density process is especially tailored to minimize on-state resistance. This device has been designed especially for low voltage applications as a replacement for bipolar digital transistors and small signal MOSFETS.
  • Features
  • -25 V, -0.41 A continuous, -1.5 A Peak.
  • RDS(ON) = 1.1 Ω @ VGS= -4.5 V,
  • RDS(ON) = 1.5 Ω @ VGS= -2.7 V.
  • Very low level gate drive requirements allowing direct operation in 3 V circuits (VGS(th) <1.5 V).
  • Gate-Source Zener for ESD ruggedness (>6kV Human Body Model).
  • Compact industry standard SC70-6 surface mount package.
  • Applications
  • This product is general usage and suitable for many different applications.
  • Technical Documentation & Design Resources
    Availability and Samples
    FDG6304P
  • Status: Active
  • Compliance: Pb-free Halide free 
  • Description: Dual P-Channel Digital FET -25V, 0.41A, 1.1Ω
  • Package Type: SC-88-6 / SC-70-6 / SOT-363-6
  • Package Case Outline: 419AD
  • MSL: 1
  • Container Type: REEL
  • Container Qty: 3000
  • FDG6304P-F169
  • Status: Lifetime
  • Compliance: Pb-free Halide free 
  • Description: Dual P-Channel Digital FET -25V, 0.41A, 1.1Ω
  • Package Type: SC-88-6 / SC-70-6 / SOT-363-6
  • Package Case Outline: 419AD
  • MSL: 1
  • Container Type: REEL
  • Container Qty: 3000
  • Specifications
  • Channel Polarity: P-Channel 
  • Configuration: Dual 
  • V(BR)DSS Min (V): -25 
  • VGS Max (V): -8 
  • VGS(th) Max (V): -1.5 
  • ID Max (A): -0.41 
  • PD Max (W): 0.3 
  • RDS(on) Max @ VGS = 2.5 V (mΩ): Q1=Q2=1800 
  • RDS(on) Max @ VGS = 4.5 V (mΩ): Q1=Q2=1100 
  • RDS(on) Max @ VGS = 10 V (mΩ):
  • Qg Typ @ VGS = 4.5 V (nC): 1.8 
  • Qg Typ @ VGS = 10 V (nC): 1.1 
  • Ciss Typ (pF): 62 
  • Package Type: SC-88-6 / SC-70-6 / SOT-363-6 
  • ON Semiconductor Full Web Site