Switching and Linear Application DC And VHF Amplifier Applications
Unit of Measure
Specifications
|
Absolute Maximum Ratings
|
Electrical Characteristics (at TA=25 Degree Celsius (ºC) Temperature Unless Otherwise Noted)
|
Dynamic Characteristics
|
Pulse Condition
|
Dimensions
Specifications
Available |
N/A {0} |
Manufacturer Stock |
N/A {0} |
Brands |
N/A Solid State Inc. |
Manufacturer |
N/A Solid State Inc. |
Absolute Maximum Ratings
Collector-Emitter Voltage (VCEO) |
N/A 40 V |
Collector-Base Voltage (VCBO) |
N/A 75 V |
Emitter-Base Voltage (VEBO) |
N/A 6.0 V |
Continuous Collector Current (IC) |
N/A 800 mA |
Power Dissipation (PD) at TA = 25 Degree Celsius (ºC) Temperature |
N/A 500 mW |
Power Dissipation (PD) at Derate Above 25 Degree Celsius (ºC) Temperature |
N/A 2.28 mW/ºC |
Power Dissipation (PD) at Derate Above TC = 25 Degree Celsius (ºC) Temperature |
N/A 1.2 W |
Derate Above 25 Degree Celsius (ºC) Temperature |
N/A 6.85 mW/ºC |
Operating and Storage Junction Temperature Range (TJ, Tstg) |
N/A -65 to +200 ºC |
Electrical Characteristics (at TA=25 Degree Celsius (ºC) Temperature Unless Otherwise Noted)
Test Condition for Collector-Emitter Voltage (VCEO) |
N/A IC=10 mA. IB=0 |
Test Condition for Collector-Base Voltage (VCBO) |
N/A IC=10 µA. IE=0 |
Test Condition for Emitter-Base Voltage (VEBO) |
N/A IE=10 µA, IC=0 |
Maximum Collector-Cut Off Current (ICBO) |
N/A 10 nA |
Test Condition for Collector-Cut Off Current (ICBO) |
N/A VCB=10 µA. IE=0 |
Maximum Collector-Cut Off Current (ICBO) at Ta = 150 Degree Celsius (ºC) Temperature |
N/A 10 µA |
Maximum Emitter-Cut Off Current (IEBO) |
N/A 10 nA |
Test Condition for Emitter-Cut Off Current (IEBO) |
N/A VEB=3 V. IC=0 |
Maximum Base-Cut Off Current (IBL) |
N/A 20 nA |
Test Condition for Base-Cut Off Current (IBL) |
N/A VCE=60 V. VEB=3 V |
Maximum Saturated Collector Emitter Voltage VCE(Sat). at (IC =150 mA. IB= 15 mA) |
N/A 0.3 V |
Maximum Saturated Collector Emitter Voltage VCE(Sat). at (IC =500 mA. IB= 50 mA) |
N/A 1.0 V |
Maximum Saturated Base Emitter Voltage VBE(Sat). at (IC =150 mA. IB= 15 mA) |
N/A 0.6 to 1.2 V |
Maximum Saturated Base Emitter Voltage VBE(Sat). at (IC =500 mA. IB= 50 mA) |
N/A 2.0 V |
Direct Current Gain (hFE) (IC=0.1 mA, VCE=10V) |
N/A > 35 |
Direct Current Gain (hFE) (IC=1 mA, VCE=10V) |
N/A > 50 |
Direct Current Gain (hFE) (IC=10 mA, VCE=10V) |
N/A > 75 |
Direct Current Gain (hFE) at TA = 25 Degree Celsius (ºC) Temperature (IC=10 mA, VCE=10V) |
N/A > 35 |
Direct Current Gain (hFE) at TA = 25 Degree Celsius (ºC) Temperature (IC=150 mA, VCE=10V) |
N/A 100 to 300 |
Direct Current Gain (hFE) at TA = 25 Degree Celsius (ºC) Temperature (IC=150 mA, VCE=1V) |
N/A > 50 |
Direct Current Gain (hFE) at TA = 25 Degree Celsius (ºC) Temperature (IC=500 mA, VCE=10V) |
N/A > 35 |
Dynamic Characteristics
Small Signal Current Gain (hfe) at f = 1 kHz (IC=1 mA, VCE=10 V) |
N/A 50 to 300 |
Small Signal Current Gain (hfe) at f = 1 kHz (IC=10 mA, VCE=10 V) |
N/A 75 to 375 |
Input Impedance at f = 1 kHz ((IC=1 mA, VCE=10 V) |
N/A 2.0 to 8.0 kΩ |
Input Impedance at f = 1 kHz ((IC=10 mA, VCE=10 V) |
N/A 0.25 to 1.25 kΩ |
Voltage Feedback Ratio (hre) at f = 1 kHz ((IC=1 mA, VCE=10 V) |
N/A < 8.0 |
Voltage Feedback Ratio (hre) at f = 1 kHz ((IC=10mA, VCE=10 V) |
N/A < 4.0 |
Output Admittance (hoe) at f = 1 kHz ((IC=1 mA, VCE=10 V) |
N/A 5.0 to 35 µΩ |
Output Admittance (hoe) at f = 1 kHz ((IC=10 mA, VCE=10 V) |
N/A 25 to 200 µΩ |
Collector Base Time Constant (rb'cc) at f = 31.8 kHz ((IE=20 mA, VCB=20 V) |
N/A < 150 ps |
Real Part Common-Emitter High Frequency Input Impedance (Re(hie)) at f = 300 MHz ((IC=20 mA, VCE=20 V) |
N/A < 60 Ω |
Noise Figure (NF) at f = 1kHz (IC = 100 µA, VCE = 10 V, RS = 1 kΩ |
N/A < 4.0 dB |
Transitional Frequency (fT) at IC = 20 Milliampere (A), VCE = 20 Volt (V), f = 100 Megahertz (MHz) |
N/A > 300 MHz |
Output Capacitance (Cob) at VCB = 10 Volt (V), IE= 0, f = 100 Kilohertz (KHz) |
N/A < 8.0 pF |
Input Capacitance (Cib) at VEB = 0.5 Volt (V), IC= 0, f = 100 Kilohertz (KHz) |
N/A < 25 pF |
Delay Time ts at IC = 150 Milliampere (mA), IB1= 15 Milliampere (mA) |
N/A < 10 ns |
Rise Time tr at VCC = 30 Volt (V), VBE = 0.5 Volt (V) |
N/A < 25 ns |
Storage Time ts at IC = 150 Milliampere (mA), IB=0 |
N/A < 225 ns |
Fall Time tf at IB2= 15 Milliampere (mA), VCC = 30 Volt (V) |
N/A < 60 ns |
Dimensions
Minimum Dimension A |
N/A 5.24 mm |
Maximum Dimension A |
N/A 5.84 mm |
Minimum Dimension B |
N/A 4.52 mm |
Maximum Dimension B |
N/A 4.97 mm |
Minimum Dimension C |
N/A 4.31 mm |
Maximum Dimension C |
N/A 5.33 mm |
Minimum Dimension D |
N/A 0.40 mm |
Maximum Dimension D |
N/A 0.53 mm |
Maximum Dimension E |
N/A 0.76 mm |
Maximum Dimension F |
N/A 1.27 mm |
Maximum Dimension G |
N/A 2.97 mm |
Minimum Dimension H |
N/A 0.91 mm |
Maximum Dimension H |
N/A 1.17 mm |
Minimum Dimension J |
N/A 0.71 mm |
Maximum Dimension J |
N/A 1.21 mm |
Minimum Dimension K |
N/A 12.70 mm |
Angle L |
N/A 45 º |
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