MMBT3906LP ADVANCE INFORMATION 40V PNP SMALL SIGNAL SURFACE MOUNT TRANSISTOR Features Mechanical Data * * * * * * * Complementary NPN Type Available (MMBT3904LP) Ultra-Small Leadless Surface Mount Package "Lead Free", RoHS Compliant (Note 1) Halogen and Antimony Free. "Green" Device (Note 2) ESD rating: 200V-MM, 4KV-HBM * * * Case: X1-DFN1006-3 Case Material: Molded Plastic, "Green" Molding Compound. UL Flammability Classification Rating 94V-0 Moisture Sensitivity: Level 1 per J-STD-020 Terminals: Finish NiPdAu over Copper leadframe. Solderable per MIL-STD-202, Method 208 Weight: 0.008 grams (approximate) C X1-DFN1006-3 B B C E E Bottom View Device Symbol Top View Device Schematic Ordering Information Product MMBT3906LP-7 MMBT3906LP-7B Notes: Marking 3N 3N Reel size (inches) 7 7 Tape width (mm) 8mm 8mm Quantity per reel 3,000 10,000 1. No purposefully added lead. 2. Diodes Inc's "Green" policy can be found on our website at http://www.diodes.com. 3. For packaging details, go to our website at http://www.diodes.com. Marking Information MMBT3906LP-7 3N Top View Dot Denotes Collector Side MMBT3906LP Document number: DS31836 Rev. 4 - 2 MMBT3906LP-7B 3N 3N = Product Type Marking Code Top View Bar Denotes Base and Emitter Side 1 of 5 www.diodes.com October 2011 (c) Diodes Incorporated MMBT3906LP Maximum Ratings @TA = 25C unless otherwise specified Symbol VCBO VCEO VEBO IC Value -40 -40 -5.0 -200 Unit V V V mA Symbol PD RJA TJ, TSTG Value 250 500 -55 to +150 Unit mW C/W C Thermal Characteristics Characteristic Power Dissipation (Note 4) Thermal Resistance, Junction to Ambient (Note 4) Operating and Storage and Temperature Range Notes: 4. Device mounted on FR-4 PCB, pad layout as shown on Diodes Inc. suggested pad layout document AP02001, which can be found on our website at http://www.diodes.com r(t), TRANSIENT THERMAL RESISTANCE 1 D = 0.9 D = 0.7 D = 0.5 D = 0.3 0.1 D = 0.1 RJA(t) = r(t) * RJA RJA = 500C/W D = 0.05 P(pk) 0.01 D = 0.02 t1 t2 TJ - TA = P * RJA(t) Duty Cycle, D = t1/t2 D = 0.01 D = 0.005 0.001 1E-06 D = Single Pulse 0.00001 0.0001 0.001 0.01 0.1 1 10 t1, PULSE DURATION TIME (s) Fig. 1 Transient Thermal Response 1,000 100 1,000 10,000 0.30 Single Pulse RJA(t) = r(t) * RJA RJA = 500C/W 100 PD, POWER DISSIPATION (W) P(pk), PEAK TRANSIENT POWER (W) ADVANCE INFORMATION Characteristic Collector-Base Voltage Collector-Emitter Voltage Emitter-Base Voltage Collector Current - Continuous (Note 4) T J - T A = P * RJA(t) 10 1 0.25 0.20 0.15 0.10 0.05 0.1 1E-06 0.0001 0.01 1 100 10,000 t1, PULSE DURATION TIME (s) Fig. 2 Single Pulse Maximum Power Dissipation MMBT3906LP Document number: DS31836 Rev. 4 - 2 2 of 5 www.diodes.com 0 0 20 40 60 80 100 120 140 160 TA, AMBIENT TEMPERATURE (C) Fig. 3 Power Dissipation vs. Ambient Temperature October 2011 (c) Diodes Incorporated MMBT3906LP Characteristic OFF CHARACTERISTICS Collector-Base Breakdown Voltage Collector-Emitter Breakdown Voltage (Note 5) Emitter-Base Breakdown Voltage Symbol Min Max Unit BVCBO BVCEO BVEBO ICEX ICBO IBL -40 -40 -5.0 -50 -50 -50 V V V nA nA nA 60 80 100 60 30 -0.65 300 -0.25 -0.40 -0.85 -0.95 Cobo Cibo hie hre hfe hoe 2.0 0.1 100 3.0 4.5 10 12 10 400 60 pF pF k -4 x 10 S Current Gain-Bandwidth Product fT 300 MHz SWITCHING CHARACTERISTICS Delay Time Rise Time Storage Time Fall Time td tr ts tf 35 35 225 75 ns ns ns ns Collector Cutoff Current Base Cutoff Current ON CHARACTERISTICS (Note 5) DC Current Gain hFE Collector-Emitter Saturation Voltage VCE(sat) Base-Emitter Saturation Voltage VBE(sat) SMALL SIGNAL CHARACTERISTICS Output Capacitance Input Capacitance Input Impedance Voltage Feedback Ratio Small Signal Current Gain Output Admittance Notes: V V Test Condition IC = -10A, IE = 0 IC = -1.0mA, IB = 0 IE = -10A, IC = 0 VCE = -30V, VEB(OFF) = -3.0V VCB = -30V, IE = 0 VCE = -30V, VEB(OFF) = -3.0V IC = -100A, VCE = -1.0V IC = -1.0mA, VCE = -1.0V IC = -10mA, VCE = -1.0V IC = -50mA, VCE = -1.0V IC = -100mA, VCE = -1.0V IC = -10mA, IB = -1.0mA IC = -50mA, IB = -5.0mA IC = -10mA, IB = -1.0mA IC = -50mA, IB = -5.0mA VCB = -5.0V, f = 1.0MHz, IE = 0 VEB = -0.5V, f = 1.0MHz, IC = 0 VCE = 10V, IC = 1.0mA, f = 1.0kHz VCE = -20V, IC = -10mA, f = 100MHz VCC = -3.0V, IC = -10mA, VBE(off) = 0.5V, IB1 = -1.0mA VCC = -3.0V, IC = -10mA, IB1 = IB2 = -1.0mA 5. Short duration pulse test used to minimize self-heating effect. 0.20 400 IB = -2mA IB = -1.6mA 0.16 IB = -1.8mA 350 TA = 150C IB = -1.2mA 0.12 IB = -1mA IB = -0.8mA 0.08 IB = -0.6mA IB = -0.4mA 300 T A = 125C 250 TA = 85C 200 T A = 25C 150 100 TA = -55C 0.04 IB = -0.2mA 0 VCE = 1V IB = -1.4mA hFE, DC CURRENT GAIN -IC, COLLECTOR CURRENT (A) ADVANCE INFORMATION Electrical Characteristics @TA = 25C unless otherwise specified 0 50 1 2 3 4 5 -VCE, COLLECTOR-EMITTER VOLTAGE (V) Fig. 4 Typical Collector Current vs. Collector-Emitter Voltage MMBT3906LP Document number: DS31836 Rev. 4 - 2 3 of 5 www.diodes.com 0 1 10 100 -IC, COLLECTOR CURRENT (mA) Fig. 5 Typical DC Current Gain vs. Collector Current October 2011 (c) Diodes Incorporated MMBT3906LP 1 1 -VCE(SAT), COLLECTOR-EMITTER SATURATION VOLTAGE (V) -VCE(SAT), COLLECTOR-EMITTER SATURATION VOLTAGE (V) IC/IB = 20 T A = 150C 0.1 T A = 125C TA = 85C T A = 25C TA = -55C 1 -VBE(SAT), BASE-EMITTER SATURATION VOLTAGE (V) 1.2 Gain = 10 1.0 TA = -55C T A = 25C 0.6 TA = 150C TA = 125C 0.4 TA = 85C 0.2 0.1 T A = 125C TA = 85C T A = 25C TA = -55C 1 10 100 1,000 -IC, COLLECTOR CURRENT (mA) Fig. 7 Typical Collector-Emitter Saturation Voltage vs. Collector Current 10 100 1,000 -IC, COLLECTOR CURRENT (mA) Fig. 6 Typical Collector-Emitter Saturation Voltage vs. Collector Current 0.8 T A = 150C 0.1 0.01 0.1 0.01 -VBE(ON), BASE-EMITTER TURN-ON VOLTAGE (V) ADVANCE INFORMATION IC/IB = 10 1 10 100 1,000 -IC, COLLECTOR CURRENT (mA) Fig. 8 Typical Base-Emitter Saturation Voltage vs. Collector Current 1.2 Gain = 10 1.0 0.8 0.6 TA = -55C T A = 25C TA = 150C 0.4 0.2 0.1 TA = 125C TA = 85C 1 10 100 1,000 -IC, COLLECTOR CURRENT (mA) Fig. 9 Typical Base-Emitter Saturation Voltage vs. Collector Current Package Outline Dimensions A A1 D b1 E e b2 L2 MMBT3906LP Document number: DS31836 Rev. 4 - 2 L3 X1-DFN1006-3 Dim Min Max Typ A 0.47 0.53 0.50 A1 0 0.05 0.03 b1 0.10 0.20 0.15 b2 0.45 0.55 0.50 D 0.95 1.075 1.00 E 0.55 0.675 0.60 e 0.35 L1 0.20 0.30 0.25 L2 0.20 0.30 0.25 L3 0.40 All Dimensions in mm L1 4 of 5 www.diodes.com October 2011 (c) Diodes Incorporated MMBT3906LP Suggested Pad Layout ADVANCE INFORMATION C Dimensions Z G1 G2 X X1 Y C X1 X G2 Value (in mm) 1.1 0.3 0.2 0.7 0.25 0.4 0.7 G1 Y Z IMPORTANT NOTICE DIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION). 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Life support devices or systems are devices or systems which: 1. are intended to implant into the body, or 2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in significant injury to the user. B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or to affect its safety or effectiveness. Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or systems. Copyright (c) 2011, Diodes Incorporated www.diodes.com MMBT3906LP Document number: DS31836 Rev. 4 - 2 5 of 5 www.diodes.com October 2011 (c) Diodes Incorporated