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  ON Semiconductor Electronic Components Datasheet  


J113

JFET Chopper Transistors



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J113 pdf
ON Semiconductort
JFET Chopper Transistors
N–Channel — Depletion
3
GATE
1 DRAIN
MAXIMUM RATINGS
Rating
Drain–Gate Voltage
Gate–Source Voltage
Gate Current
Total Device Dissipation @ TA = 25°C
Derate above 25°C
Lead Temperature
Operating and Storage Junction
Temperature Range
Symbol
VDG
VGS
IG
PD
TL
TJ, Tstg
2 SOURCE
Value
Unit
–35 Vdc
–35 Vdc
50 mAdc
350 mW
2.8 mW/°C
300
–65 to +150
°C
°C
J111
J112
J113
1
2
3
CASE 29–11, STYLE 5
TO–92 (TO–226AA)
ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted)
Characteristic
OFF CHARACTERISTICS
Gate–Source Breakdown Voltage
(IG = –1.0 µAdc)
Gate Reverse Current
(VGS = –15 Vdc)
Gate Source Cutoff Voltage
(VDS = 5.0 Vdc, ID = 1.0 µAdc)
J111
J112
J113
Drain–Cutoff Current
(VDS = 5.0 Vdc, VGS = –10 Vdc)
ON CHARACTERISTICS
Zero–Gate–Voltage Drain Current(1)
(VDS = 15 Vdc)
J111
J112
J113
Static Drain–Source On Resistance
(VDS = 0.1 Vdc)
J111
J112
J113
Drain Gate and Source Gate On–Capacitance
(VDS = VGS = 0, f = 1.0 MHz)
Drain Gate Off–Capacitance
(VGS = –10 Vdc, f = 1.0 MHz)
Source Gate Off–Capacitance
(VGS = –10 Vdc, f = 1.0 MHz)
1. Pulse Width = 300 µs, Duty Cycle = 3.0%.
Symbol
V(BR)GSS
IGSS
VGS(off)
ID(off)
IDSS
rDS(on)
Cdg(on)
+
Csg(on)
Cdg(off)
Csg(off)
© Semiconductor Components Industries, LLC, 2001
June, 2001 – Rev. 1
1
Min
35
ā3.0
ā1.0
ā0.5
Max
ā1.0
ā10
ā5.0
ā3.0
1.0
Unit
Vdc
nAdc
Vdc
nAdc
mAdc
20 —
5.0 —
2.0 —
— 30
— 50
— 100
— 28
pF
— 5.0
— 5.0
pF
pF
Publication Order Number:
J111/D



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J113 pdf
J111 J112 J113
TYPICAL SWITCHING CHARACTERISTICS
1000
500
200 RK = RD
100
50
TJ = 25°C
J111 VGS(off) = 12 V
J112 = 7.0 V
J113 = 5.0 V
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 30
Figure 1. Turn–On Delay Time
50
1000
500
200
RK = RD
TJ = 25°C
J111 VGS(off) = 12 V
J112 = 7.0 V
J113 = 5.0 V
100
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)
Figure 2. Rise Time
20 30
50
1000
500
TJ = 25°C
J111 VGS(off) = 12 V
200 J112 = 7.0 V
100 J113 = 5.0 V
50 RK = RD
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 30
Figure 3. Turn–Off Delay Time
50
1000
500
RK = RD
TJ = 25°C
J111 VGS(off) = 12 V
200 J112 = 7.0 V
100 J113 = 5.0 V
50
20 RK = 0
10
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)
Figure 4. Fall Time
20 30 50
RGEN
50
VGEN
+VDD
SET VDS(off) = 10 V
INPUT RK
RD
RT
RGG
50
VGG
50
OUTPUT
INPUT PULSE
tr 0.25 ns
tf 0.5 ns
PULSE WIDTH = 2.0 µs
DUTY CYCLE 2.0%
RGG & RK
RDȀ
+
RD(RT ) 50)
RD ) RT ) 50
Figure 5. Switching Time Test Circuit
NOTE 1
The switching characteristics shown above were measured using a test cir-
cuit 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) or Gate–Drain Capaci-
tance (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 ef-
fective load impedance (RD) 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 ap-
proaches zero and rds decreases. Since Cgd discharges through rds, turn–on
time is non–linear. During turn–off, the situation is reversed with rds in-
creasing 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 imped-
ance is that of the generator.
http://onsemi.com
2



Part Number J113
Description JFET Chopper Transistors
Maker ON Semiconductor - ON Semiconductor
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