SGS Thomson Microelectronics VNK10N06FM, VND10N06-1, VND10N06, VNP10N06FI Datasheet

VND10N06/VND10N06-1 VNP10N06FI/K10N06FM
”OMNIFET”:
FULLY AUTOPROTECTED POWER MOSFET
TYPE V
VND10N06 VND10N06-1 VNP10N06FI VNK10N06FM
LINEAR CURRENT LIMITATION
THERMALSHUTDOWN
SHORT CIRCUIT PROTECTION
INTEGRATEDCLAMP
LOW CURRENTDRAWNFROM INPUT PIN
LOGIC LEVEL INPUT THRESHOLD
ESD PROTECTION
SCHMITT TRIGGER ONINPUT
HIGH NOISE IMMUNITY
clamp
60 V 60 V 60 V 60 V
DS(on )
0.3
0.3
0.3
0.3
I
lim
10 A 10 A 10 A 10 A
DESCRIPTION
The VND10N06, VND10N06-1, VNP10N06FIand VNK10N06FM are monolithic devices made using SGS-THOMSON Vertical Intelligent Power M0 Technology, intended for replacement of standard power MOSFETS in DC to 50 KHz applications. Built-in thermal shut-down, linear current limitation and overvoltage clamp protect the chip in harshenviroments.
3
1
DPAK
TO-252
ISOWATT220
3
2
1
IPAK
TO-251
3
2
1
SOT82-FM
BLOCK DIAGRAM (*)
() SOT82-FM Pin Configuration: INPUT= 3; SOURCE = 1; DRAIN = 2.
October 1997
1/14
VND10N06/VND10N06-1/VNP10N06FI/VNK10N06FM
ABSOLUTEMAXIMUM RATING
Symbol Parameter Value Unit
V
V
V
Drain-source Voltage ( Vin= 0) Int er nall y Clamped V
DS
Input V ol ta ge Int er nall y Clamped V
in
I
Input Current ± 20 mA
in
I
Drain Current Internally Limited A
D
I
Reverse DC Output Current -15 A
R
Elect r o st at ic Dischar ge ( C= 100 pF ,
esd
R=1. 5 K)
P
T
Tot al Dis s ipation at Tc=25oC35279W
tot
T
Oper at i ng Junct ion T em perature Internally Limited
j
T
Case O perating T emp era tu r e Internally Limited
c
St orage Temperature -55 to 150
stg
THERMAL DATA
R
thj-case
R
thj-amb
Ther mal Resist an ce Juncti on-c ase Max 3.5 4.5 14
Ther mal Resist an ce Juncti on-am b ient Max 100 62.5 100
DPAK
IPAK
DPAK/IPAK ISOW ATT220 SOT82-FM
ISOWATT220 SOT82-FM
4000 V
o
o
o
C
o
C
o
C
C/W
C/W
ELECTRICAL CHARACTERISTICS (T
=25oC unless otherwise specified)
case
OFF
Symbol Parameter Test Conditions Min. Typ. Max. Unit
V
CLAMP
Drain-source Clamp
ID= 200 mA Vin= 0 50 60 70 V
Volt age
V
Input Low Lev el
IL
ID= 100 µAVDS=16V 1.5 V
Volt age
3.2 V
-1 8
-0.3 11
250 100
V
I
I
V
DSS
IH
INCL
ISS
Input High Level Volt age
Input-Source Reverse Clamp Voltage
Zer o Inpu t V olt ag e Drain Current (V
in
=0)
Supply Current f rom
RL=27VDD=16V
=0.5V
V
DS
Iin=-1mA
=1mA
I
in
V
=50V Vin=V
DS
VDS<35V Vin=V
IL IL
VDS=0V Vin= 5 V 150 300 µA
Input Pin
ON (∗)
Symbol Parameter Test Conditions Min. Typ. Max. Unit
R
DS(on)
St at ic D rain- s our ce On Resistance
Vin=7V ID=1A TJ< 125oC0.150.3
V V
µA µA
2/14
VND10N06/VND10N06-1/VNP10N06FI/VNK10N06FM
ELECTRICAL CHARACTERISTICS (continued)
DYNAMIC
Symbol Parameter Test Conditions Min. Typ. Max. Unit
C
SWITCHING(**)
Symbol Parameter Test Conditions Min. Typ. Max. Unit
t
d(on)
t
d(off)
t
d(on)
t
d(off)
(di/dt)
Q
SOURCE DRAINDIODE
Out put Capacitance VDS=13V f=1MHz Vin= 0 350 500 pF
oss
Turn-on Delay Time
t
Rise T ime
r
Turn-off Delay Time
t
Fall T ime
f
Turn-on Delay Time
t
Rise T ime
r
Turn-off Delay Time
t
Fall T ime
f
Tur n-on Current Slope VDD=16V ID=1A
on
Total Input Charge VDD=12V ID=1A Vin=7V 13 nC
i
VDD=16V Id=1A
=7V R
V
gen
gen
=10
(see figure 3)
VDD=16V Id=1A
=7V R
V
gen
=1000
gen
(see figure 3)
=7V R
V
in
gen
=10
1100
550 200 100
1.2 1
1.6
1.2
1.5 A/µs
1600
900 400 200
1.8
1.5
2.3
1.8
ns ns ns ns
µs µs µs µs
Symbol Parameter Test Conditions Min. Typ. Max. Unit
V
()ForwardOnVoltage ISD=1A Vin=V
SD
t
rr
Reverse Recov ery
(∗∗)
Time Reverse Recov ery
(∗∗)
Q
rr
I
= 1 A di/dt = 100 A /µs
SD
=30V Tj=25oC
V
DD
(see test circuit, figure 5)
IL
0.8 1.6 V
125
0.22
Charge
(∗∗)
I
RRM
Reverse Recov ery
3.5
Current
PROTECTION
Symbol Parameter Test Conditions Min. Typ. Max. Unit
I
lim
t
dlim
T
jsh
T
jrs
E
as
() Pulsed: Pulse duration = 300 µs,duty cycle 1.5 % (∗∗) Parameters guaranteed by design/characterization
Drain Cur rent Limit Vin=7V VDS=13V 6 10 15 A
(∗∗) St ep Res pon se
Vin=7V VDSstepfrom0to13V 12 20 µs
Current Lim it
(∗∗) Overtem perat ure
150
Shut dow n (∗∗) Overtemper at u r e Reset 135 (∗∗) S i ngle Pulse
Avalanche Energy
starting Tj=25oCVDD=24V
=7V R
V
in
=1KΩ L=10mH
gen
250 mJ
ns
µC
A
o
o
C
C
3/14
VND10N06/VND10N06-1/VNP10N06FI/VNK10N06FM
PROTECTION FEATURES
During Normal Operation, the INPUT pin is electrically connected to the gate of the internal power MOSFET through a low impedance path as soon asV
IN>VIH
.
The device then behaves like a standard power MOSFET and can be used as a switch from DC to 50KHz. The only difference from the user’s standpoint is that a small DC current (typically 150 µA) flows into the INPUT pin in order to supply the internal circuitry.
During turn-off of an unclamped inductive load the output voltage is clamped to a safe level by an integrated Zener clamp between DRAIN pin and the gateof the internal Power MOSFET.
In this condition, the Power MOSFET gate is set
to a voltage high enough to sustain the inductive load currenteven ifthe INPUTpin is drivento 0V.
The device integrates an active current limiter circuit which limits the drain current I
to I
D
lim
whateverthe INPUTpin Voltage. When the current limiter is active, the device
operatesin thelinear region, so powerdissipation may exceed the heatsinking capability. Both case and junction temperatures increase, and if this phase lasts long enough, junction temperature may reach the overtemperature thresholdT
If T
reaches T
j
, the device shuts down
jsh
jsh
.
whatever the INPUT pin voltage. The device will restart automaticallywhen T T
jrs
has cooled down to
j
4/14
VND10N06/VND10N06-1/VNP10N06FI/VNK10N06FM
Thermal ImpedanceFor DPAK / IPAK
Thermal ImpedanceFor SOT82-FM
ThermalImpedanceFor ISOWATT220
DeratingCurve
OutputCharacteristics
StaticDrain-SourceOn Resistancevs Input Voltage
5/14
Loading...
+ 9 hidden pages