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MIC94052YC6-TR

MICROCHIP TECHNOLOGY
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Main description Trans MOSFET P-CH 6V 2A 6-Pin SC-70 T/R
Trans MOSFET P-CH 6V 2A 6-Pin SC-70 T/R

Informacje podstawowe

  • ProducentMicrochip Technology
  • EURoHSYes (2011/65/EU, 2015/863)
  • Automotive No

Informacje dodatkowe

  • Crosses 2
  • Inventory 9
  • PCNs 59
  • GIDEP-Alerts 2
  • MaskPart MIC94052YC6%
  • IntroductionDate Jul 01, 2002

Parametry

  • Category Small Signal
  • Channel Mode Enhancement
  • Channel Type P
  • Configuration Single Quad Drain
  • Material N/A
  • Maximum Continuous Drain Current (A) 2
  • Maximum Continuous Drain Current @ Temperature (A) 1.4@Ta=85C
  • Maximum Drain Source Resistance (mOhm) 84@4.5V
  • Maximum Drain Source Resistance @ Vgs (mOhm) 84@4.5V|110@3.6V|130@2.5V|180@1.8V
  • Maximum Drain Source Voltage (V) 6
  • Maximum Gate Source Voltage (V) -6
  • Maximum Gate Threshold Voltage (V) 1.2
  • Maximum Junction Ambient Thermal Resistance 240°C/W
  • Maximum Junction Case Thermal Resistance N/A
  • Maximum Operating Temperature (°C) 150
  • Maximum Power Dissipation (mW) 270@Ta=85C
  • Maximum Storage Temperature (°C) 150
  • Minimum Operating Temperature (°C) -40
  • Minimum Storage Temperature (°C) -55
  • Number of Elements per Chip 1
  • Supplier Temperature Grade N/A
  • Typical Drain Source Resistance @ 125°C (mOhm) N/A
  • Typical Drain Source Resistance @ 25°C (mOhm) 70@4.5V|76@3.6V|92@2.5V|125@1.8V
  • Typical Fall Time (ns) 20
  • Typical Forward Transconductance (S) N/A
  • Typical Gate Charge @ 10V (nC) N/A
  • Typical Gate Charge @ Vgs (nC) N/A
  • Typical Gate Resistance (Ohm) N/A
  • Typical Gate to Drain Charge (nC) N/A
  • Typical Gate to Source Charge (nC) N/A
  • Typical Input Capacitance @ Vds (pF) N/A
  • Typical Output Capacitance (pF) N/A
  • Typical Reverse Recovery Charge (nC) N/A
  • Typical Rise Time (ns) 15
  • Typical Switch Charge (nC) N/A
  • Typical Turn-Off Delay Time (ns) 60
  • Typical Turn-On Delay Time (ns) 15
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