ON MMBF4391L Jfet switching transistor Datasheet

MMBF4391L, MMBF4392L,
MMBF4393L
JFET Switching Transistors
N−Channel
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Features
• S Prefix for Automotive and Other Applications Requiring Unique
•
3
Site and Control Change Requirements; AEC−Q101 Qualified and
PPAP Capable
These Devices are Pb−Free, Halogen Free/BFR Free and are RoHS
Compliant
1
2
SOT−23
CASE 318
STYLE 10
MAXIMUM RATINGS
Rating
Symbol
Value
Unit
Drain−Source Voltage
VDS
30
Vdc
Drain−Gate Voltage
VDG
30
Vdc
Gate−Source Voltage
VGS
30
Vdc
Forward Gate Current
IG(f)
50
mAdc
2 SOURCE
3
GATE
1 DRAIN
THERMAL CHARACTERISTICS
Characteristic
Total Device Dissipation FR− 5 Board
(Note 1) TA = 25°C
Derate above 25°C
Symbol
PD
Max
Unit
225
1.8
mW
mW/°C
Thermal Resistance, Junction−to−Ambient
RqJA
556
°C/W
Junction and Storage Temperature Range
TJ, Tstg
−55 to +150
°C
Stresses exceeding those listed in the Maximum Ratings table may damage the
device. If any of these limits are exceeded, device functionality should not be
assumed, damage may occur and reliability may be affected.
1. FR− 5 = 1.0 0.75 0.062 in.
MARKING DIAGRAM
XXX M G
G
1
XXX = Specific Device Code
M
= Date Code*
G
= Pb−Free Package
(Note: Microdot may be in either location)
*Date Code orientation and/or overbar may
vary depending upon manufacturing location.
MARKING & ORDERING INFORMATION
See detailed ordering, marking and shipping information in the
package dimensions section on page 2 of this data sheet.
© Semiconductor Components Industries, LLC, 1994
October, 2016 − Rev. 12
1
Publication Order Number:
MMBF4391LT1/D
MMBF4391L, MMBF4392L, MMBF4393L
ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted)
Characteristic
Symbol
Min
Max
Unit
V(BR)GSS
30
−
Vdc
−
−
1.0
0.20
nAdc
mAdc
OFF CHARACTERISTICS
Gate−Source Breakdown Voltage
(IG = 1.0 mAdc, VDS = 0)
Gate Reverse Current
(VGS = 15 Vdc, VDS = 0, TA = 25°C)
(VGS = 15 Vdc, VDS = 0, TA = 100°C)
IGSS
Gate−Source Cutoff Voltage
(VDS = 15 Vdc, ID = 10 nAdc)
MMBF4391LT1
MMBF4392LT1
MMBF4393LT1
VGS(off)
Off−State Drain Current
(VDS = 15 Vdc, VGS = −12 Vdc)
(VDS = 15 Vdc, VGS = −12 Vdc, TA = 100°C)
ID(off)
Vdc
−4.0
−2.0
−0.5
−10
−5.0
−3.0
−
−
1.0
1.0
nAdc
mAdc
ON CHARACTERISTICS
Zero−Gate−Voltage Drain Current
(VDS = 15 Vdc, VGS = 0)
MMBF4391LT1
MMBF4392LT1
MMBF4393LT1
IDSS
mAdc
50
25
5.0
Drain−Source On−Voltage
(ID = 12 mAdc, VGS = 0)
MMBF4391LT1
(ID = 6.0 mAdc, VGS = 0)
MMBF4392LT1
(ID = 3.0 mAdc, VGS = 0)
MMBF4393LT1
VDS(on)
Static Drain−Source On−Resistance
(ID = 1.0 mAdc, VGS = 0)
MMBF4391LT1
MMBF4392LT1
MMBF4393LT1
rDS(on)
150
75
30
Vdc
−
0.4
−
0.4
−
0.4
W
−
−
−
30
60
100
−
14
−
3.5
SMALL− SIGNAL CHARACTERISTICS
Input Capacitance
(VDS = 0 Vdc, VGS = −15 Vdc, f = 1.0 MHz)
Ciss
Reverse Transfer Capacitance
(VDS = 0 Vdc, VGS = −12 Vdc, f = 1.0 MHz)
Crss
pF
pF
Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product
performance may not be indicated by the Electrical Characteristics if operated under different conditions.
ORDERING INFORMATION
Device
Marking
MMBF4391LT1G
6J
SMMBF4391LT1G*
6J
MMBF4392LT1G
6K
MMBF4393LT1G
M6G
SMMBF4393LT1G*
M6G
Package
Shipping†
SOT−23
(Pb−Free)
3,000 / Tape & Reel
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging
Specifications Brochure, BRD8011/D.
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2
MMBF4391L, MMBF4392L, MMBF4393L
TYPICAL CHARACTERISTICS
1000
TJ = 25°C
500
MMBF4391
MMBF4392
MMBF4393
RK = RD'
200
100
500
VGS(off) = 12 V
= 7.0 V
= 5.0 V
50
20
10
RK = 0
5.0
2.0
1.0
0.5 0.7 1.0
2.0 3.0 5.0 7.0 10
ID, DRAIN CURRENT (mA)
20
30
TJ = 25°C
RK = RD'
200
t r , RISE TIME (ns)
t d(on) , TURN-ON DELAY TIME (ns)
1000
50
20
10
5.0
RK = 0
2.0 3.0 5.0 7.0 10
ID, DRAIN CURRENT (mA)
Figure 1. Turn−On Delay Time
1000
500
TJ = 25°C
MMBF4391
MMBF4392
MMBF4393
200
100
VGS(off) = 12 V
= 7.0 V
= 5.0 V
RK = RD'
50
20
10
5.0
RK = 0
2.0
1.0
0.5 0.7 1.0
2.0 3.0 5.0 7.0 10
ID, DRAIN CURRENT (mA)
20
20
30
50
Figure 2. Rise Time
t f , FALL TIME (ns)
t d(off) , TURN-OFF DELAY TIME (ns)
1000
500
VGS(off) = 12 V
= 7.0 V
= 5.0 V
100
2.0
1.0
0.5 0.7 1.0
50
MMBF4391
MMBF4392
MMBF4393
30
200
100
TJ = 25°C
MMBF4391
MMBF4392
MMBF4393
20
RK = 0
10
5.0
Figure 3. Turn−Off Delay Time
2.0 3.0 5.0 7.0 10
20
ID, DRAIN CURRENT (mA)
Figure 4. Fall Time
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3
VGS(off) = 12 V
= 7.0 V
= 5.0 V
50
2.0
1.0
0.5 0.7 1.0
50
RK = RD'
30
50
MMBF4391L, MMBF4392L, MMBF4393L
NOTE 1
VDD
RD
SET VDS(off) = 10 V
INPUT
RK
RT
OUTPUT
RGEN
50 W
RGG
50
W
VGEN
INPUT PULSE
tr ≤ 0.25 ns
tf ≤ 0.5 ns
PULSE WIDTH = 2.0 ms
DUTY CYCLE ≤ 2.0%
50
W
VGG
RGG > RK
RD' = RD(RT + 50)
RD + RT + 50
V fs , FORWARD TRANSFER ADMITTANCE (mmhos)
Figure 5. Switching Time Test Circuit
The switching characteristics shown above were measured using
a test circuit similar to Figure 5. At the beginning of the switching
interval, the gate voltage is at Gate Supply Voltage (−VGG). The
Drain−Source Voltage (VDS) is slightly lower than Drain Supply
Voltage (VDD) due to the voltage divider. Thus Reverse Transfer
Capacitance (Crss) of Gate−Drain Capacitance (Cgd) is charged to
VGG + VDS.
During the turn−on interval, Gate−Source Capacitance (Cgs)
discharges through the series combination of RGen and RK. Cgd must
discharge to VDS(on) through RG and RK in series with the parallel
combination of effective load impedance (R’D) and Drain−Source
Resistance (rDS). During the turn−off, this charge flow is reversed.
Predicting turn−on time is somewhat difficult as the channel
resistance rDS is a function of the gate−source voltage. While Cgs
discharges, VGS approaches zero and rDS decreases. Since Cgd
discharges through rDS, turn−on time is non−linear. During turn−off,
the situation is reversed with rDS increasing as Cgd charges.
The above switching curves show two impedance conditions; 1)
RK is equal to RD’ which simulates the switching behavior of
cascaded stages where the driving source impedance is normally the
load impedance of the previous stage, and 2) RK = 0 (low
impedance) the driving source impedance is that of the generator.
15
20
MMBF4392
10
C, CAPACITANCE (pF)
MMBF4391
10
MMBF4393
7.0
Tchannel = 25°C
5.0
VDS = 15 V
3.0
2.0
0.5 0.7 1.0
2.0 3.0
5.0 7.0 10
20
30
Cgs
7.0
Cgd
5.0
3.0
2.0
1.5
Tchannel = 25°C
(Cds is negligible
1.0
0.03 0.05 0.1
50
ID, DRAIN CURRENT (mA)
50 mA
75 mA 100 mA
125 mA
r DS(on), DRAIN-SOURCE ON-STATE
RESISTANCE (NORMALIZED)
r DS(on), DRAIN-SOURCE ON-STATE
RESISTANCE (OHMS)
IDSS 25 mA
= 10
160 mA
120
80
40
Tchannel = 25°C
0
0
1.0
2.0
3.0
5.0
4.0
6.0
7.0
VGS, GATE-SOURCE VOLTAGE (VOLTS)
1.0
3.0 5.0
10
30
Figure 7. Typical Capacitance
Figure 6. Typical Forward Transfer Admittance
200
0.3 0.5
VR, REVERSE VOLTAGE (VOLTS)
8.0
2.0
1.8
ID = 1.0 mA
VGS = 0
1.6
1.4
1.2
1.0
0.8
0.6
0.4
-70
-40
-10
20
50
80
110
140
170
Tchannel, CHANNEL TEMPERATURE (°C)
Figure 8. Effect of Gate−Source Voltage
on Drain−Source Resistance
Figure 9. Effect of Temperature on Drain−Source
On−State Resistance
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MMBF4391L, MMBF4392L, MMBF4393L
100
90
80
70
60
50
40
30
20
10
0
10
Tchannel = 25°C
9.0
8.0
7.0
rDS(on) @ VGS = 0
6.0
VGS(off)
5.0
4.0
3.0
2.0
1.0
0
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
V GS , GATE-SOURCE VOLTAGE
(VOLTS)
r DS(on) , DRAIN-SOURCE ON-STATE
RESISTANCE (OHMS)
NOTE 2
IDSS, ZERO-GATE VOLTAGE DRAIN CURRENT (mA)
Figure 10. Effect of IDSS on Drain−Source
Resistance and Gate−Source Voltage
The Zero−Gate−Voltage Drain Current (IDSS) is the
principle determinant of other J−FET characteristics.
Figure 10 shows the relationship of Gate−Source Off
Voltage (VGS(off)) and Drain−Source On Resistance
(rDS(on)) to IDSS. Most of the devices will be within
±10% of the values shown in Figure 10. This data will
be useful in predicting the characteristic variations for
a given part number.
For example:
Unknown
rDS(on) and VGS range for an MMBF4392
The electrical characteristics table indicates that an
MMBF4392 has an IDSS range of 25 to 75 mA. Figure
10 shows rDS(on) = 52 W for IDSS = 25 mA and 30 W for
IDSS = 75 mA. The corresponding VGS values are 2.2 V
and 4.8 V.
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5
MMBF4391L, MMBF4392L, MMBF4393L
PACKAGE DIMENSIONS
SOT−23 (TO−236)
CASE 318−08
ISSUE AR
D
0.25
3
E
1
2
T
HE
DIM
A
A1
b
c
D
E
e
L
L1
HE
T
L
3X b
L1
VIEW C
e
TOP VIEW
A
A1
SIDE VIEW
c
SEE VIEW C
NOTES:
1. DIMENSIONING AND TOLERANCING PER ASME Y14.5M, 1994.
2. CONTROLLING DIMENSION: MILLIMETERS.
3. MAXIMUM LEAD THICKNESS INCLUDES LEAD FINISH.
MINIMUM LEAD THICKNESS IS THE MINIMUM THICKNESS OF
THE BASE MATERIAL.
4. DIMENSIONS D AND E DO NOT INCLUDE MOLD FLASH,
PROTRUSIONS, OR GATE BURRS.
MIN
0.89
0.01
0.37
0.08
2.80
1.20
1.78
0.30
0.35
2.10
0_
MILLIMETERS
NOM
MAX
1.00
1.11
0.06
0.10
0.44
0.50
0.14
0.20
2.90
3.04
1.30
1.40
1.90
2.04
0.43
0.55
0.54
0.69
2.40
2.64
−−−
10 _
MIN
0.035
0.000
0.015
0.003
0.110
0.047
0.070
0.012
0.014
0.083
0_
INCHES
NOM
MAX
0.039
0.044
0.002
0.004
0.017
0.020
0.006
0.008
0.114
0.120
0.051
0.055
0.075
0.080
0.017
0.022
0.021
0.027
0.094
0.104
−−−
10 _
STYLE 10:
PIN 1. DRAIN
2. SOURCE
3. GATE
END VIEW
RECOMMENDED
SOLDERING FOOTPRINT*
3X
2.90
3X
0.90
0.95
PITCH
0.80
DIMENSIONS: MILLIMETERS
*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.
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MMBF4391LT1/D
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