Item # FZT1049ATA, NPN Medium Power Transistors On PUI

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Specifications | Mechanical Data | Absolute Maximum Ratings (T_amb = 25 Degree Celsius (ºC), Unless Otherwise Specified) | Thermal Characteristics (at T_A = +25 Degree Celsius (ºC), Unless Otherwise Specified) | Electrostatic Discharge (ESD) Ratings | Electrical Characteristics (T_amb = 25 Degree Celsius (ºC), Unless Otherwise Specified) | Features | Note

Specifications

Available	N/A {0}
Manufacturer Stock	N/A {0}
Brands	N/A Diodes Incorporated®
Manufacturer	N/A Diodes Incorporated�
Compliance	N/A AEC-Q101
Reel Size	N/A 7 in
Tape Width	N/A 12 mm
Quantity Per Reel	N/A 1000
Terminals	N/A Finish - Matte Tin Plated Leads. Solderable per MIL-STD-202, Method 208
Low Saturation Voltage V_CE(sat) at 1 Ampere (A)	N/A < 70 mV
Industry Standards	N/A Flammability: Underwriters Laboratories (UL) 94V-0 Restriction of Hazardous Substances (RoHS) Compliant
Approximate Weight	N/A 0.112 g

Mechanical Data

Case	N/A SOT223
Case Material	N/A Molded Plastic, "Green" Molding Compound.
Moisture Sensitivity	N/A Level 1 per J-STD-020

Absolute Maximum Ratings (T_amb = 25 Degree Celsius (ºC), Unless Otherwise Specified)

Collector-Base Voltage (V_CBO)	N/A 80 V
Collector-Emitter Voltage (V_CEO)	N/A 25 V
Emitter-Base Voltage (V_EBO)	N/A 7 V
Continuous Collector Current (I_C)	N/A 5 A
Peak Pulse Current (I_CM)	N/A 20 A

Thermal Characteristics (at T_A = +25 Degree Celsius (ºC), Unless Otherwise Specified)

Power Dissipation (P_D)	N/A For a device mounted with the collector lead on 52 mm x 52 mm 2 oz copper that is on a single-sided 1.6 mm FR4 PCB; device is measured under still air conditions whilst operating in a steady-state.: 3.0 W For a device mounted with the collector lead on 25 mm x 25 mm 2 oz copper that is on a single-sided 1.6 mm FR4 PCB; device is measured under still air conditions whilst operating in a steady-state.: 2.0 W For a device mounted with the collector lead on 25 mm x 25 mm 1 oz copper that is on a single-sided 1.6 mm FR4 PCB; device is measured under still air conditions whilst operating in a steady-state.: 1.6 W For a device mounted on minimum recommended pad layout device is measured under still air conditions whilst operating in a steady-state.: 1.2 W
Thermal Resistance, Junction to Ambient (R_θJA)	N/A For a device mounted with the collector lead on 52 mm x 52 mm 2 oz copper that is on a single-sided 1.6 mm FR4 PCB; device is measured under still air conditions whilst operating in a steady-state.: 41.7 ºC/W For a device mounted with the collector lea
Operating and Storage Temperature Range (T_J, T_STG)	N/A -55 to +150 ºC

Electrostatic Discharge (ESD) Ratings

Electrostatic Discharge - Human Body Model (ESD HBM)	N/A 4000 V
Electrostatic Discharge - Machine Model (ESD MM)	N/A 400 V

Electrical Characteristics (T_amb = 25 Degree Celsius (ºC), Unless Otherwise Specified)

Minimum Collector-Base Breakdown Voltage (BV_CBO) at I_C = 100 Microampere (μA)	N/A 80 V
Typical Collector-Base Breakdown Voltage (BV_CBO) at I_C = 100 Microampere (μA)	N/A 130 V
Minimum Collector-Emitter Breakdown Voltage (BV_CER) at I_C = 100 Microampere (μA)	N/A 80 V
Typical Collector-Emitter Breakdown Voltage (BV_CER) at I_C = 100 Microampere (μA)	N/A 130 V
Minimum Collector-Emitter Breakdown Voltage (BV_CEO) at I_C = 10 Milliampere (mA)	N/A 25 V
Typical Collector-Emitter Breakdown Voltage (BV_CEO) at I_C = 10 Milliampere (mA)	N/A 30 V
Minimum Emitter-Base Breakdown Voltage (BV_EBO) at I_E = 100 Microampere (μA)	N/A 7 V
Typical Emitter-Base Breakdown Voltage (BV_EBO) at I_E = 100 Microampere (μA)	N/A 9 V
Typical Collector Cut Off Current (I_CBO) at V_CB = 35 Volt (V)	N/A 0.3 nA
Maximum Collector Cut Off Current (I_CBO) at V_CB = 35 Volt (V)	N/A 10 nA
Typical Emitter Cut Off Current (I_EBO) at V_EB = 4 Volt (V)	N/A 0.3 nA
Maximum Emitter Cut Off Current (I_EBO) at V_EB = 4 Volt (V)	N/A 10 nA
Minimum DC Current Transfer Static Ratio (H_FE) at I_C = 10 Milliampere (mA), V_CE = 2 Volt (V)	N/A 280
Typical DC Current Transfer Static Ratio (H_FE) at I_C = 10 Milliampere (mA), V_CE = 2 Volt (V)	N/A 440
Minimum DC Current Transfer Static Ratio (H_FE) at I_C = 0.5 Ampere (A), V_CE = 2 Volt (V)	N/A 300
Typical DC Current Transfer Static Ratio (H_FE) at I_C = 0.5 Ampere (A), V_CE = 2 Volt (V)	N/A 450
Minimum DC Current Transfer Static Ratio (H_FE) at I_C = 1 Ampere (A), V_CE = 2 Volt (V)	N/A 300
Typical DC Current Transfer Static Ratio (H_FE) at I_C = 1 Ampere (A), V_CE = 2 Volt (V)	N/A 450
Maximum DC Current Transfer Static Ratio (H_FE) at I_C = 1 Ampere (A), V_CE = 2 Volt (V)	N/A 1200
Minimum DC Current Transfer Static Ratio (H_FE) at I_C = -5 Ampere (A), V_CE = 2 Volt (V)	N/A 180
Typical DC Current Transfer Static Ratio (H_FE) at I_C = -5 Ampere (A), V_CE = 2 Volt (V)	N/A 280
Minimum DC Current Transfer Static Ratio (H_FE) at I_C = 20 Ampere (A), V_CE = 2 Volt (V)	N/A 40
Typical DC Current Transfer Static Ratio (H_FE) at I_C = 20 Ampere (A), V_CE = 2 Volt (V)	N/A 80
Typical Base-Emitter Saturation Voltage (V_BE(sat)) at I_C = 5 Ampere (mA), I_B = 50 Milliampere (mA)	N/A 950 mV
Maximum Base-Emitter Saturation Voltage (V_BE(sat)) at I_C = 5 Ampere (mA), I_B = 50 Milliampere (mA)	N/A 1050 mV
Typical Base-Emitter Turn-on Voltage (V_BE(on)) at I_C = 5 Ampere (mA), V_CE = 2 Volt (V)	N/A 900 mV
Maximum Base-Emitter Turn-on Voltage (V_BE(on)) at I_C = 5 Ampere (mA), V_CE = 2 Volt (V)	N/A 1000 mV
Typical Transitional Frequency (f_T) at I_C = 50 Milliampere (mA), V_CE = 10 Volt (V), f = 100 Megahertz (MHz)	N/A 180 MHz
Typical Output Capacitance (C_obo) at V_CB = 10 Volt (V), f = 1 Megahertz (MHz)	N/A 45 pF
Maximum Output Capacitance (C_obo) at V_CB = 10 Volt (V), f = 1 Megahertz (MHz)	N/A 60 pF
Typical Switching Time (t_ON) at V_CC = 10 Volt (V), I_C = 4 Ampere (A), I_B1 = -I_B2 = 40 Milliampere (mA)	N/A 125 ns
Typical Switching Time (t_OFF) at V_CC = 10 Volt (V), I_C = 4 Ampere (A), I_B1 = -I_B2 = 40 Milliampere (mA)	N/A 380 ns

Features

N/A

I_C = 5 A high Continuous Collector Current
R_CE(sat) = 50 mΩ for a low equivalent On-Resistance
hFE specified up to 20 A for a high gain hold up
Lead-Free Finish; RoHS Compliant:
EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant. All applicable RoHS exemptions applied.
Halogen and Antimony Free. "Green" Device:
Halogen- and Antimony-free "Green" products are defined as those which contain < 900 ppm bromine, < 900 ppm chlorine (< 1500 ppm total Br + Cl) and < 1000 ppm antimony compounds.
Qualified to AEC-Q101 Standards for High Reliability

Note

N/A Note for Collector-Emitter Breakdown Voltage, DC Current Transfer Static Ratio, Collector-Emitter Saturation Voltage, Base-Emitter Saturation Voltage, Base-Emitter Turn-on Voltage, Transitional Frequency:
Measured under pulsed conditions. Pulse width ≤ 300 μs. Duty cycle ≤ 2 %.

Catalog

Specifications

Available

Manufacturer Stock

Brands

Manufacturer

Compliance

Reel Size

Tape Width

Quantity Per Reel

Terminals

Low Saturation Voltage VCE(sat) at 1 Ampere (A)

Industry Standards

Approximate Weight

Mechanical Data

Case

Case Material

Moisture Sensitivity

Absolute Maximum Ratings (Tamb = 25 Degree Celsius (ºC), Unless Otherwise Specified)

Collector-Base Voltage (VCBO)

Collector-Emitter Voltage (VCEO)

Emitter-Base Voltage (VEBO)

Continuous Collector Current (IC)

Peak Pulse Current (ICM)

Thermal Characteristics (at TA = +25 Degree Celsius (ºC), Unless Otherwise Specified)

Power Dissipation (PD)

Thermal Resistance, Junction to Ambient (RθJA)

Operating and Storage Temperature Range (TJ, TSTG)

Electrostatic Discharge (ESD) Ratings

Electrostatic Discharge - Human Body Model (ESD HBM)

Electrostatic Discharge - Machine Model (ESD MM)

Electrical Characteristics (Tamb = 25 Degree Celsius (ºC), Unless Otherwise Specified)

Minimum Collector-Base Breakdown Voltage (BVCBO) at IC = 100 Microampere (μA)

Typical Collector-Base Breakdown Voltage (BVCBO) at IC = 100 Microampere (μA)

Minimum Collector-Emitter Breakdown Voltage (BVCER) at IC = 100 Microampere (μA)

Typical Collector-Emitter Breakdown Voltage (BVCER) at IC = 100 Microampere (μA)

Minimum Collector-Emitter Breakdown Voltage (BVCEO) at IC = 10 Milliampere (mA)

Typical Collector-Emitter Breakdown Voltage (BVCEO) at IC = 10 Milliampere (mA)

Minimum Emitter-Base Breakdown Voltage (BVEBO) at IE = 100 Microampere (μA)

Typical Emitter-Base Breakdown Voltage (BVEBO) at IE = 100 Microampere (μA)

Typical Collector Cut Off Current (ICBO) at VCB = 35 Volt (V)

Maximum Collector Cut Off Current (ICBO) at VCB = 35 Volt (V)

Typical Emitter Cut Off Current (IEBO) at VEB = 4 Volt (V)

Maximum Emitter Cut Off Current (IEBO) at VEB = 4 Volt (V)

Minimum DC Current Transfer Static Ratio (HFE) at IC = 10 Milliampere (mA), VCE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (HFE) at IC = 10 Milliampere (mA), VCE = 2 Volt (V)

Minimum DC Current Transfer Static Ratio (HFE) at IC = 0.5 Ampere (A), VCE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (HFE) at IC = 0.5 Ampere (A), VCE = 2 Volt (V)

Minimum DC Current Transfer Static Ratio (HFE) at IC = 1 Ampere (A), VCE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (HFE) at IC = 1 Ampere (A), VCE = 2 Volt (V)

Maximum DC Current Transfer Static Ratio (HFE) at IC = 1 Ampere (A), VCE = 2 Volt (V)

Minimum DC Current Transfer Static Ratio (HFE) at IC = -5 Ampere (A), VCE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (HFE) at IC = -5 Ampere (A), VCE = 2 Volt (V)

Minimum DC Current Transfer Static Ratio (HFE) at IC = 20 Ampere (A), VCE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (HFE) at IC = 20 Ampere (A), VCE = 2 Volt (V)

Typical Base-Emitter Saturation Voltage (VBE(sat)) at IC = 5 Ampere (mA), IB = 50 Milliampere (mA)

Maximum Base-Emitter Saturation Voltage (VBE(sat)) at IC = 5 Ampere (mA), IB = 50 Milliampere (mA)

Typical Base-Emitter Turn-on Voltage (VBE(on)) at IC = 5 Ampere (mA), VCE = 2 Volt (V)

Maximum Base-Emitter Turn-on Voltage (VBE(on)) at IC = 5 Ampere (mA), VCE = 2 Volt (V)

Typical Transitional Frequency (fT) at IC = 50 Milliampere (mA), VCE = 10 Volt (V), f = 100 Megahertz (MHz)

Typical Output Capacitance (Cobo) at VCB = 10 Volt (V), f = 1 Megahertz (MHz)

Maximum Output Capacitance (Cobo) at VCB = 10 Volt (V), f = 1 Megahertz (MHz)

Typical Switching Time (tON) at VCC = 10 Volt (V), IC = 4 Ampere (A), IB1 = -IB2 = 40 Milliampere (mA)

Typical Switching Time (tOFF) at VCC = 10 Volt (V), IC = 4 Ampere (A), IB1 = -IB2 = 40 Milliampere (mA)

Features

Features

Note

Note

Low Saturation Voltage V_CE(sat) at 1 Ampere (A)

Absolute Maximum Ratings (T_amb = 25 Degree Celsius (ºC), Unless Otherwise Specified)

Collector-Base Voltage (V_CBO)

Collector-Emitter Voltage (V_CEO)

Emitter-Base Voltage (V_EBO)

Continuous Collector Current (I_C)

Peak Pulse Current (I_CM)

Thermal Characteristics (at T_A = +25 Degree Celsius (ºC), Unless Otherwise Specified)

Power Dissipation (P_D)

Thermal Resistance, Junction to Ambient (R_θJA)

Operating and Storage Temperature Range (T_J, T_STG)

Electrical Characteristics (T_amb = 25 Degree Celsius (ºC), Unless Otherwise Specified)

Minimum Collector-Base Breakdown Voltage (BV_CBO) at I_C = 100 Microampere (μA)

Typical Collector-Base Breakdown Voltage (BV_CBO) at I_C = 100 Microampere (μA)

Minimum Collector-Emitter Breakdown Voltage (BV_CER) at I_C = 100 Microampere (μA)

Typical Collector-Emitter Breakdown Voltage (BV_CER) at I_C = 100 Microampere (μA)

Minimum Collector-Emitter Breakdown Voltage (BV_CEO) at I_C = 10 Milliampere (mA)

Typical Collector-Emitter Breakdown Voltage (BV_CEO) at I_C = 10 Milliampere (mA)

Minimum Emitter-Base Breakdown Voltage (BV_EBO) at I_E = 100 Microampere (μA)

Typical Emitter-Base Breakdown Voltage (BV_EBO) at I_E = 100 Microampere (μA)

Typical Collector Cut Off Current (I_CBO) at V_CB = 35 Volt (V)

Maximum Collector Cut Off Current (I_CBO) at V_CB = 35 Volt (V)

Typical Emitter Cut Off Current (I_EBO) at V_EB = 4 Volt (V)

Maximum Emitter Cut Off Current (I_EBO) at V_EB = 4 Volt (V)

Minimum DC Current Transfer Static Ratio (H_FE) at I_C = 10 Milliampere (mA), V_CE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (H_FE) at I_C = 10 Milliampere (mA), V_CE = 2 Volt (V)

Minimum DC Current Transfer Static Ratio (H_FE) at I_C = 0.5 Ampere (A), V_CE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (H_FE) at I_C = 0.5 Ampere (A), V_CE = 2 Volt (V)

Minimum DC Current Transfer Static Ratio (H_FE) at I_C = 1 Ampere (A), V_CE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (H_FE) at I_C = 1 Ampere (A), V_CE = 2 Volt (V)

Maximum DC Current Transfer Static Ratio (H_FE) at I_C = 1 Ampere (A), V_CE = 2 Volt (V)

Minimum DC Current Transfer Static Ratio (H_FE) at I_C = -5 Ampere (A), V_CE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (H_FE) at I_C = -5 Ampere (A), V_CE = 2 Volt (V)

Minimum DC Current Transfer Static Ratio (H_FE) at I_C = 20 Ampere (A), V_CE = 2 Volt (V)

Typical DC Current Transfer Static Ratio (H_FE) at I_C = 20 Ampere (A), V_CE = 2 Volt (V)

Typical Base-Emitter Saturation Voltage (V_BE(sat)) at I_C = 5 Ampere (mA), I_B = 50 Milliampere (mA)

Maximum Base-Emitter Saturation Voltage (V_BE(sat)) at I_C = 5 Ampere (mA), I_B = 50 Milliampere (mA)

Typical Base-Emitter Turn-on Voltage (V_BE(on)) at I_C = 5 Ampere (mA), V_CE = 2 Volt (V)

Maximum Base-Emitter Turn-on Voltage (V_BE(on)) at I_C = 5 Ampere (mA), V_CE = 2 Volt (V)

Typical Transitional Frequency (f_T) at I_C = 50 Milliampere (mA), V_CE = 10 Volt (V), f = 100 Megahertz (MHz)

Typical Output Capacitance (C_obo) at V_CB = 10 Volt (V), f = 1 Megahertz (MHz)

Maximum Output Capacitance (C_obo) at V_CB = 10 Volt (V), f = 1 Megahertz (MHz)

Typical Switching Time (t_ON) at V_CC = 10 Volt (V), I_C = 4 Ampere (A), I_B1 = -I_B2 = 40 Milliampere (mA)

Typical Switching Time (t_OFF) at V_CC = 10 Volt (V), I_C = 4 Ampere (A), I_B1 = -I_B2 = 40 Milliampere (mA)