SSM6P36TU,LF

SSM6P36TU TOSHIBA Field Effect Transistor Silicon P Channel MOS Type SSM6P36TU ○ Power Management Switches 1.5-V drive Low ON-resistance: Ron = 3.60 Ω (max) (@VGS = -1.5 V) : Ron = 2.70 Ω (max) (@VGS = -1.8 V) : Ron = 1.60 Ω (max) (@VGS = -2.8 V) : Ron = 1.31 Ω (max) (@VGS = -4.5 V) Unit: mm 2.1±0.1 Rating Drain-source voltage VDSS -20 V Gate-source voltage VGSS ±8 V DC ID -330 Pulse IDP -660 PD (Note1) 500 Drain current Drain power dissipation Unit mA 2 5 3 4 +0.1 0.3-0.05 6 0.166±0.05 Symbol 1 0.7±0.05 Characteristics 0.65 0.65 Absolute Maximum Ratings (Ta = 25 °C) 1.3±0.1 1.7±0.1 2.0±0.1 • • mW Channel temperature Tch 150 °C Storage temperature range Tstg −55 to 150 °C 1.Source1 4.Source2 2.Gate1 3.Drain2 5.Gate2 6.Drain1 Note: Using continuously under heavy loads (e.g. the application of UF6 high temperature/current/voltage and the significant change in temperature, etc.) may cause this product to decrease in the JEDEC ― reliability significantly even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the JEITA ― absolute maximum ratings. TOSHIBA 2-2T1B Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook (“Handling Weight: 7.0 mg (typ.) Precautions”/“Derating Concept and Methods”) and individual reliability data (i.e. reliability test report and estimated failure rate, etc). Note1: Total rating 2 Mounted on an FR4 board (25.4 mm × 25.4 mm × 1.6 mm, Cu Pad: 645 mm ) Marking 6 Equivalent Circuit (top view) 5 4 6 PX 1 2 5 4 Q1 Q2 3 1 2 3 Handling Precaution When handling individual devices (which are not yet mounted on a circuit board), ensure that the environment is protected against static electricity. Operators should wear anti-static clothing, and containers and other objects that come into direct contact with devices should be made of anti-static materials. Usage Considerations Let Vth be the voltage applied between gate and source that causes the drain current (ID) to below −1 mA for the SSM6P36TU). Then, for normal switching operation, VGS(on) must be higher than Vth, and VGS(off) must be lower than Vth. This relationship can be expressed as: VGS(off) < Vth < VGS(on). Take this into consideration when using the device. Start of commercial production 2008-06 1 2014-03-01 SSM6P36TU Electrical Characteristics (Ta = 25°C) (Q1, Q2 Common) Characteristics Symbol Drain-source breakdown voltage Test Conditions Min Typ. Max V (BR) DSS ID = -1 mA, VGS = 0 V -20 ⎯ ⎯ V (BR) DSX ID = -1 mA, VGS = 8 V -12 ⎯ ⎯ Unit V Drain cutoff current IDSS VDS = -16 V, VGS = 0 V ⎯ ⎯ -10 μA Gate leakage current IGSS VGS = ±8 V, VDS = 0 V ⎯ ⎯ ±1 μA Gate threshold voltage Vth VDS = -3 V, ID = -1 mA -0.3 ⎯ -1.0 V Forward transfer admittance |Yfs| VDS = -3 V, ID = -100mA (Note2) 190 ⎯ ⎯ mS ID = -100mA, VGS = -4.5 V (Note2) ⎯ 0.95 1.31 ID = -80mA, VGS = -2.8 V (Note2) ⎯ 1.22 1.60 ID = -40mA, VGS = -1.8 V (Note2) ⎯ 1.80 2.70 ID = -30mA, VGS = -1.5 V (Note2) ⎯ 2.23 3.60 ⎯ 43 ⎯ ⎯ 10.3 ⎯ ⎯ 6.1 ⎯ ⎯ 1.2 ⎯ Drain-source ON-resistance RDS (ON) Input capacitance Ciss Output capacitance Coss Reverse transfer capacitance Crss Total Gate Charge Qg Gate−Source Charge Qgs Gate−Drain Charge Qgd Switching time Turn-on time ton Turn-off time toff Drain-source forward voltage VDSF VDS = -10 V, VGS = 0 V, f = 1 MHz VDS = -10 V, IDS= -330mA VGS = -4 V VDD = -10 V, ID = -100mA VGS = 0 to -2.5 V, RG = 50Ω ID =330mA, VGS = 0 V (Note2) ⎯ 0.85 ⎯ ⎯ 0.35 ⎯ ⎯ 90 ⎯ ⎯ 200 ⎯ ⎯ 0.88 1.2 Ω pF nC ns V Note2: Pulse test Switching Time Test Circuit (a) Test circuit 0 OUT (b) VIN 0V 10% IN RG −2.5V 10 μs VDD 90% −2.5 V RL (c) VOUT VDD = −10 V Duty ≤ 1% VIN: tr, tf < 5 ns (Zout = 50 Ω) Common Source Ta = 25°C VDS (ON) 90% 10% VDD tr ton 2 tf toff 2014-03-01 SSM6P36TU ID – VDS -2.5V -500 (mA) -2.8V -4.5V -100 -10 Common Source VDS = -3 V Ta = 100 °C -1.8 V -400 -300 Drain current Drain current ID (mA) -600 -8V Common Source Ta = 25 °C ID – VGS -1000 ID -700 -1.5 V -200 VGS=-1.2 V -100 0 0 -0.5 -1.0 Drain-source voltage 25 °C − 25 °C -0.1 -0.01 0 -1.5 VDS -1 -1.0 (V) Gate-source voltage RDS (ON) – VGS VGS (V) RDS (ON) – ID 5 5 ID =-100mA Common Source Ta = 25°C Common Source Ta = 25°C 4 Drain-source ON-resistance RDS (ON) (Ω) Drain-source ON-resistance RDS (ON) (Ω) -2.0 3 2 25 °C Ta = 100 °C 1 4 3 -1.5 V -1.8 V 2 -2.8 V 1 VGS = -4.5 V − 25 °C 0 0 -2 -4 -6 Gate-source voltage VGS 0 -8 0 (V) -100 -200 Drain current RDS (ON) – Ta -400 -500 ID (mA) -600 -700 Vth – Ta -1.0 5 4 -40mA / -1.8 V Gate threshold voltage -30mA / -1.5V 3 -80mA / -2.8 V 2 1 0 −50 ID = -100mA / VGS = -4.5 V 0 Common Source Vth (V) Common Source Drain-source ON-resistance RDS (ON) (Ω) -300 50 Ambient temperature 100 Ta VDS = -3 V ID = -1 mA -0.5 0 −50 150 (°C) 0 50 Ambient temperature 3 100 Ta 150 (°C) 2014-03-01 IDR – VDS |Yfs| – ID 1000 1000 Common Source VGS = 0 V (mA) Common Source VDS = -3 V Ta = 25°C ⎪Yfs⎪ Forward transfer admittance 100 30 10 -100 -10 -1 Drain current ID S Ta =100 °C 25 °C 1 −25 °C 0.1 0 -1000 0.4 0.2 (mA) 0.8 0.6 Drain-source voltage VDS (V) VDD = -10 V VGS = 0 to -2.5 V Ta = 25 °C RG = 50Ω (ns) C 1.2 Common Source Ciss 30 1.0 t – ID 10000 50 (pF) IDR G 10 C – VDS 100 1000 toff t Capacitance 100 IDR 300 D Drain reverse current (mS) SSM6P36TU Coss Crss 5 Common Source Ta = 25°C f = 1 MHz VGS = 0 V 3 1 -0.1 -1 -10 Drain-source voltage tf Switching time 10 100 ton tr 10 -100 VDS -1 (mW) Common Source (V) Ta = 25°C (mA) 800 Mounted on FR4 board. (25.4mm × 25.4mm × 1.6mm , 2 Cu Pad : 645 mm ) t=10s P D* -6 Drain power dissipation VGS Gate-source voltage ID -1000 PD* – Ta 1000 ID = -0.33 A VDD =-10V -4 VDD = - 16 V -2 0 -100 Drain current Dynamic Input Characteristic -8 -10 (V) 0 1 Total Gate Charge 2 Qg 600 DC 400 200 0 -40 3 (nC) -20 *:Total Rating 4 0 20 40 60 80 Ambient temperature 100 120 Ta 140 160 (°C) 2014-03-01 SSM6P36TU RESTRICTIONS ON PRODUCT USE • Toshiba Corporation, and its subsidiaries and affiliates (collectively "TOSHIBA"), reserve the right to make changes to the information in this document, and related hardware, software and systems (collectively "Product") without notice. • This document and any information herein may not be reproduced without prior written permission from TOSHIBA. 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