N393, N393 is a Preferred Device General Purpose Transistors NPN Silicon Features PbFree Package May be Available. The GSuffix Denotes a PbFree Lead Finish MAXIMUM RATINGS Rating Symbol Value Unit CollectorEmitter Voltage V CEO 4 Vdc CollectorBase Voltage V CBO 6 Vdc EmitterBase Voltage V EBO 6. Vdc Collector Current Continuous I C madc Total Device Dissipation @ T A = C Derate above C Total Device Dissipation @ T C = C Derate above C Operating and Storage Junction Temperature Range P D 6. P D 1. 1 T J, T stg to +1 mw mw/ C W mw/ C THERMAL CHARACTERISTICS (Note 1) Characteristic Symbol Max Unit Thermal Resistance, JunctiontoAmbient R θja C/W Thermal Resistance, JunctiontoCase 1. Indicates Data in addition to JEDEC Requirements. C R θjc 83.3 C/W N393 1 3 ORDERING INFORMATION Device Package Shipping TO9 TO9 CASE 9 STYLE 1 MARKING DIAGRAMS N 393 YWW Y WW N 394 YWW = Year = Work Week Units/Box N393RLRM TO9 /Ammo Pack TO9 Units/Box RLRA TO9 /Tape & Reel RLRE TO9 /Tape & Reel BASE COLLECTOR 3 1 EMITTER STYLE 1 RLRM TO9 /Ammo Pack RLRMG TO9 /Ammo Pack RLRP TO9 /Ammo Pack RL1 TO9 /Tape & Reel ZL1 TO9 /Ammo Pack For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD811/D. *For additional information on our PbFree strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. Preferred devices are recommended choices for future use and best overall value. Semiconductor Components Industries, LLC, 3 December, 3 Rev. 4 1 Publication Order Number: N393/D
N393, ELECTRICAL CHARACTERISTICS (T A = C unless otherwise noted) Characteristic Symbol Min Max Unit OFF CHARACTERISTICS CollectorEmitter Breakdown Voltage (Note ) (I C = madc, I B = ) V (BR)CEO 4 Vdc CollectorBase Breakdown Voltage (I C = Adc, I E = ) V (BR)CBO 6 Vdc EmitterBase Breakdown Voltage (I E = Adc, I C = ) V (BR)EBO 6. Vdc Base Cutoff Current (V CE = Vdc, V EB = 3. Vdc) I BL nadc Collector Cutoff Current (V CE = Vdc, V EB = 3. Vdc) I CEX nadc ON CHARACTERISTICS DC Current Gain (Note ) (I C =.1 madc, V CE = Vdc) N393 (I C = madc, V CE = Vdc) N393 (I C = madc, V CE = Vdc) N393 (I C = madc, V CE = Vdc) N393 (I C = madc, V CE = Vdc) N393 CollectorEmitter Saturation Voltage (Note ) (I C = madc, I B = madc) (I C = madc, I B =. madc BaseEmitter Saturation Voltage (Note ) (I C = madc, I B = madc) (I C = madc, I B =. madc) SMALLSIGNAL CHARACTERISTICS CurrentGain Bandwidth Product (I C = madc, V CE = Vdc, f = MHz) N393 h FE 4 3 6 1 V CE(sat) V BE(sat).6 f T Output Capacitance (V CB =. Vdc, I E =, f = MHz) C obo 4. pf Input Capacitance (V EB =. Vdc, I C =, f = MHz) C ibo 8. pf Input Impedance (I C = madc, V CE = Vdc, f = khz) N393 Voltage Feedback Ratio (I C = madc, V CE = Vdc, f = khz) N393 SmallSignal Current Gain (I C = madc, V CE = Vdc, f = khz) N393 h ie h re.1. h fe 1..3.8.9 8.. 8. 4 Vdc Vdc MHz k Ω X 4 Output Admittance (I C = madc, V CE = Vdc, f = khz) h oe 4 mhos Noise Figure (I C = Adc, V CE =. Vdc, R S = k Ω, f = khz) N393 SWITCHING CHARACTERISTICS Delay Time (V CC = 3. Vdc, V BE =. Vdc, t d 3 ns Rise Time I C = madc, I B1 = madc) t r 3 ns Storage Time (V CC = 3. Vdc, I C = madc, N393 I B1 = I B = madc) Fall Time t f ns. Pulse Test: Pulse Width s; Duty Cycle %. NF t s 6.. 1 db ns
N393, DUTY CYCLE = % ns +.9 V +3 V < t 1 < s DUTY CYCLE = % t 1 +.9 V +3 V. V < 1 ns k C S < 4 pf* k 1N916 C S < 4 pf* 9.1 V < 1 ns * Total shunt capacitance of test jig and connectors Figure 1. Delay and Rise Time Equivalent Test Circuit Figure. Storage and Fall Time Equivalent Test Circuit 3
f N393, TYPICAL TRANSIENT CHARACTERISTICS T J = C T J = 1 C CAPACITANCE (pf).. 3...1 C ibo C obo..3... 3... 4 REVERSE BIAS VOLTAGE (VOLTS) Figure 3. Capacitance Q, CHARGE (pc) V CC = 4 V I C /I B = Q T. 3... Figure 4. Charge Data Q A I C /I B = V CC = 4 V I C /I B = TIME (ns) 1 V t d @ V OB = V. V. 3... Figure. TurnOn Time t r @ V CC = 3. V 4 V t, RISE TIME (ns) r. 3... Figure 6. Rise Time t, STORAGE TIME (ns) s I C /I B = I C /I B = t s = t s 1 / 8 t f I B1 = I B I C /I B = I C /I B = t, FALL TIME (ns) I C /I B = I C /I B = V CC = 4 V I B1 = I B. 3... Figure. Storage Time. 3... Figure 8. Fall Time 4
N393, TYPICAL AUDIO SMALLSIGNAL CHARACTERISTICS NOISE FIGURE VARIATIONS (V CE =. Vdc, T A = C, Bandwidth = Hz) NF, NOISE FIGURE (db) 1 8 6 4 SOURCE RESISTANCE = I C = ma SOURCE RESISTANCE = I C =. ma SOURCE RESISTANCE = k I C = A NF, NOISE FIGURE (db) 14 1 8 6 4 f = khz I C =. ma I C = ma I C = A I C = A SOURCE RESISTANCE = I C = A.1..4. 4. 4 f, FREQUENCY (khz) Figure 9..1..4. 4. 4 R S, SOURCE RESISTANCE (k OHMS) Figure. h PARAMETERS (V CE = Vdc, f = khz, T A = C) h fe, CURRENT GAIN.1..3.. 3.. Figure 11. Current Gain h oe, OUTPUT ADMITTANCE ( mhos) 1.1..3.. 3.. Figure 1. Output Admittance h ie, INPUT IMPEDANCE (k OHMS).....1..3.. 3.. Figure 13. Input Impedance h, VOLTAGE FEEDBACK RATIO (X 4 re ).. 3.....1..3.. 3.. Figure 14. Voltage Feedback Ratio
N393, TYPICAL STATIC CHARACTERISTICS h FE, DC CURRENT GAIN (NORMALIZED)....3. T J = +1 C + C C V CE = V.1.1..3... 3... Figure 1. DC Current Gain V CE, COLLECTOR EMITTER VOLTAGE (VOLTS).8.6.4..1 I C = ma..3.. T J = C ma ma ma.1..3... 3... I B, BASE CURRENT (ma) Figure 16. Collector Saturation Region 1. T J = C V BE(sat) @ I C /I B =. + C TO +1 C V, VOLTAGE (VOLTS).8.6.4. V CE(sat) @ I C /I B = V BE @ V CE = V COEFFICIENT (mv/ C). 1. VC FOR V CE(sat) VB FOR V BE(sat) C TO + C C TO + C + C TO +1 C... 4 6 8 1 14 16 18 Figure 1. ON Voltages Figure 18. Temperature Coefficients 6
R A N B N393, PACKAGE DIMENSIONS TO9 TO6AA CASE 911 ISSUE AL NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.M, 198.. CONTROLLING DIMENSION: INCH. 3. CONTOUR OF PACKAGE BEYOND DIMENSION R IS UNCONTROLLED. 4. LEAD DIMENSION IS UNCONTROLLED IN P AND BEYOND DIMENSION K MINIMUM. P L SEATING INCHES MILLIMETERS PLANE K DIM MIN MAX MIN MAX A.1. 4.4. B.1. 4.3.33 C.1.16 3.18 4.19 X X D D.16.1.4.33 G.4. 1.1 1.39 G H.9..4.66 H J J.1..39. K. 1. L. 6.3 V C N.8..4.66 1 N P..4 SECTION XX R.11.93 V.13 3.43 STYLE 1: PIN 1. EMITTER. BASE 3. COLLECTOR STYLE 14: PIN 1. EMITTER. COLLECTOR 3. BASE
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