SGS Thomson Microelectronics STD6N10 Datasheet
STD6N10
N - CHANNEL ENHANCEMENT MODE
POWER MOS TRANSISTOR
TYPE V
DSS
R
DS(on)
I
D
STD 6N10 100 V < 0.45 Ω 6A
■ TYPICAL R
■ AVALANCHE RUGGED TECHNOLOGY
■ 100% AVALANCHE TESTED
■ REPETITIVE AVALANCHE DATA AT 100
■ LOW GATE CHARGE
■ HIGH CURRENT CAPABILITY
o
■ 175
■ APPLICATION ORIENTED
C OPERATING TEMPERATURE
DS(on)
= 0.35 Ω
o
C
CHARACTERIZATION
■ THROUGH-HOLE IPAK (TO-251) POWER
PACKAGE IN TUBE (SUFFIX ”-1”)
■ SURFACE-MOUNTINGDPAK (TO-252)
POWER PACKAGE IN TAPE & REEL
(SUFFIX ”T4”)
APPLICATIONS
■ HIGH CURRENT, HIGH SPEED SWITCHING
■ SOLENOID AND RELAY DRIVERS
■ REGULATORS
■ DC-DC & DC-AC CONVERTERS
■ MOTOR CONTROL, AUDIO AMPLIFIERS
■ AUTOMOTIVE ENVIRONMENT (INJECTION,
ABS, AIR-BAG, LAMPDRIVERS, Etc.)
3
2
1
IPAK
TO-251
(Suffix ”-1”)
INTERNAL SCHEMATIC DIAGRAM
1
DPAK
TO-252
(Suffix ”T4”)
3
ABSOLUTE MAXIMUM RATINGS
Symb o l Paramet er Val u e Unit
V
V
V
I
DM
P
T
(•) Pulsewidth limited bysafe operating area
December 1996
Drain - s ource Voltage (VGS= 0) 100 V
DS
Drain- gate Voltage (RGS=20kΩ) 100 V
DGR
Gate-source Voltage ± 20 V
GS
Drain Current (continuous) at Tc=25oC6A
I
D
Drain Current (continuous) at Tc=100oC4A
I
D
(•) Drain Current (pulsed) 24 A
Total Di ssipation at Tc=25oC35W
tot
Derat ing Factor 0.23 W/
St or a ge Tem perature -65 to 175
stg
Max. Operating Junction Temperature 175
T
j
o
o
o
C
C
C
1/10
STD6N10
THERMAL DATA
R
thj-case
R
thj-amb
R
thc-sink
T
AVALANCHE CHARACTERISTICS
Symbol Parameter Max Valu e Uni t
I
AR
E
E
I
AR
Thermal Resistance Junction - cas e Max
Thermal Resistance Junction- ambient Max
Thermal Resistance Case-sink Typ
Maximum L ead Temperat ur e For Soldering Purpos e
l
Avalanc h e Cu rr ent , Repet itive or Not-R ep et itive
(pulse width limited by Tjmax, δ <1%)
Single Pul se Avalanche Ener gy
AS
(starti ng Tj=25oC, ID=IAR,VDD=25V)
Repetitive Avalanc he Energ y
AR
(pulse width limited by Tjmax, δ <1%)
Avalanc h e Cu rr ent , Repet itive or Not-R ep et itive
(Tc= 100oC, pulse width limited by Tjmax, δ <1%)
4.29
100
1.5
275
6A
20 mJ
5mJ
4A
o
C/W
o
C/W
o
C/W
o
C
ELECTRICAL CHARACTERISTICS (T
=25oC unless otherwise specified)
case
OFF
Symbol Parameter Test Condition s Min. Typ. Max. Unit
V
(BR)DSS
Drain - s ource
ID=250µAVGS= 0 100 V
Break d own Volta ge
I
DSS
I
GSS
Zer o Gate Volt age
Drain Current (V
GS
Gat e- body Leak age
=0)
=MaxRating
V
DS
V
= Max Rating x 0 .8 Tc=125oC
DS
1
10
VGS= ± 20 V ± 100 nA
Current (VDS=0)
ON (∗)
Symbol Parameter Test Condition s Min. Typ. Max. Unit
V
GS(th)
R
DS(on)
Gate Threshold Voltage VDS=VGSID=250µA234V
St at ic Drain-s our ce O n
VGS=10V ID=3A 0.35 0.45 Ω
Resistance
I
D(on)
On State Drain Current VDS>I
D(on)xRDS(on)max
6A
VGS=10V
DYNAMIC
Symbol Parameter Test Condition s Min. Typ. Max. Unit
(∗)Forward
g
fs
Tr ansconductance
C
C
C
Input Capacitance
iss
Out put Capacitance
oss
Reverse Transfer
rss
Capacitance
VDS>I
D(on)xRDS(on)maxID
=3A 1.2 3 S
VDS=25V f=1MHz VGS=0 265
65
20
400
90
30
µA
µA
pF
pF
pF
2/10
STD6N10
ELECTRICAL CHARACTERISTICS (continued)
SWITCHING ON
Symbol Parameter Test Condition s Min. Typ. Max. Unit
t
d(on)
(di/dt)
Q
Q
Q
Turn-on T im e
t
Rise Time
r
Turn-on C urrent S lope VDD=80V ID=6A
on
Total Gate Charge
g
Gat e- Source Charge
gs
Gate-Drain Charge
gd
SWITCHING OFF
Symbol Parameter Test Condition s Min. Typ. Max. Unit
t
r(Voff)
t
Off -voltage R ise Time
t
Fall Time
f
Cross-over Time
c
SOURCE DRAIN DIODE
VDD=50V ID=3A
RG=50 Ω VGS=10V
10
40
(see test circuit, figure 3)
280 A/µs
RG=50 Ω VGS=10V
(see test circuit, figure 5)
VDD=80V ID=6A VGS=10V 13
6
4
VDD=80V ID=6A
RG=50 Ω VGS=10V
(see test circuit, figure 5)
15
20
35
15
60
20 nC
25
30
55
ns
ns
nC
nC
ns
ns
ns
Symbol Parameter Test Condition s Min. Typ. Max. Unit
I
I
SDM
SD
Source-drain Current
(•)
Source-drain Current
6
24
(pulsed)
V
(∗) Forward On Volt age ISD=6A VGS=0 1.5 V
SD
t
Reverse Recovery
rr
Time
Q
Reverse Recovery
rr
ISD=6A di/dt=100A/µs
VDD=30V Tj=150oC
(see test circuit, figure 5)
85
0.25
Charge
I
RRM
Reverse Recovery
6
Current
(∗) Pulsed:Pulse duration = 300 µs, dutycycle 1.5 %
(•) Pulse widthlimited by safeoperating area
Safe Operating Area Thermal Impedance
A
A
ns
µC
A
3/10
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