March, 12th 2012
Automotive grade
AUIPS6041(G)(R)(S)
INTELLIGENT POWER HIGH SIDE SWITCH
Features
Product Summary
Over temperature shutdown (with auto-restart)
Short circuit protection (current limit)
Reverse battery protection (turns On the MOSFET)
Full diagnostic capability (short circuit to battery)
Active clamp
Open load detection in On and Off state
Ground loss protection
Logic ground isolated from power ground
ESD protection
Lead Free and RoHS compliant
Rds(on)
Vclamp
I Limit
Open load
130m max.
39V
7A
3V / 0.22A
Packages
Description
The AUIPS6041(G)(R)(S) is a five terminal Intelligent Power
Switch (IPS) for use in a high side configuration. It features
short circuit, over-temperature, ESD protection, inductive load
capability and diagnostic feedback. The output current is
limited to the Ilim value. The current limitation is activated until
the thermal protection acts. The over-temperature protection
turns off the device if the junction temperature exceeds the
Tshutdown value. It will automatically restart after the junction
has cooled 7°C below the Tshutdown value. The reverse
battery protection turns On the MOSFET. A diagnostic pin
provides different voltage levels for each fault condition. The
double level shifter circuitry will allow large offsets between
the logic and load ground.
SO8
AUIPS6041G
TO220
AUIPS6041
D-Pak
AUIPS6041R
D2Pak
AUIPS6041S
Typical Connection
+5V
+Bat
Vcc(5-6-7-8)
Rdgp
Dg(3)
Pull-up resistors required for
open load off and short
circuit to Vbat detection
Control
Rdgs
In(2)
Gnd(1)
Out(4)
V Diag
Rin
Input Signal
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Load
1
AUIPS6041(G)(R)(S)
Qualification Information†
Qualification Level
Automotive
††
(per AEC-Q100 )
Comments: This family of ICs has passed an Automotive qualification. IR’s
Industrial and Consumer qualification level is granted by extension of the higher
Automotive level.
MSL1, 260°C
D2PAK-5L
(per IPC/JEDEC J-STD-020)
TO-220
Not applicable
(non-surface mount package style)
DPAK-5L
MSL1, 260°C
(per IPC/JEDEC J-STD-020)
SOIC-8L
MSL2, 260°C
(per IPC/JEDEC J-STD-020)
Moisture Sensitivity Level
†††
Machine Model
Human Body Model
ESD
Charged Device Model
(SOIC, DPAK,D2PAK)
Charged Device Model
(TO220)
IC Latch-Up Test
RoHS Compliant
†
††
†††
Class M2 (+/-150V)
(per AEC-Q100-003)
†††
Class H1C (+/-1500V)
(per AEC-Q100-002)
†††
Class C4 (+/-900V)
(per AEC-Q100-011)
†††
Class C3B (+/-750V)
(per AEC-Q100-011)
Class II, Level A
(per AEC-Q100-004)
Yes
Qualification standards can be found at International Rectifier’s web site http://www.irf.com/
Exceptions to AEC-Q100 requirements are noted in the qualification report.
Passing voltage level
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2
AUIPS6041(G)(R)(S)
Absolute Maximum Ratings
Absolute maximum ratings indicate sustained limits beyond which damage to the device may occur. All voltage parameters
are referenced to Ground lead. Tj= -40°C..150°C, Vcc=6..35V (unless otherwise specified).
Symbol
Parameter
Vout
Voffset
Vin
Vcc max.
Vcc cont.
Iin max.
Idg max.
Vdg
Pulse 2a max
Maximum output voltage
Maximum logic ground to load ground offset
Maximum input voltage
Maximum Vcc voltage
Maximum continuous Vcc voltage
Maximum IN current
Maximum diagnostic output current
Maximum diagnostic output voltage
Maximum voltage ISO pulse 2a x 500cy (ISO7637)
Maximum power dissipation (internally limited by thermal protection)
Rth=100°C/W AUIPS6041G
Rth=50°C/W AUIPS6041R 1”sqrt. footprint
Max. storage & operating temperature junction temperature
Pd
Tj max.
Min.
Max.
Units
Vcc-35 Vcc+0.3
Vcc-35 Vcc+0.3
-0.3
5.5
36
28
-3
10
-3
10
-0.3
5.5
55
V
mA
V
V
1.25
-40
2.5
150
°C
Typ.
Max.
Units
100
70
50
6
60
40
W
Thermal Characteristics
Symbol
Parameter
Rth1
Rth1
Thermal resistance junction to ambient AUIPS6041G
Thermal resistance junction to ambient AUIPS6041R D-Pak std. footprint
Thermal resistance junction to ambient AUIPS6041R D-Pak 1” sqrt.
footprint
Thermal resistance junction to case AUIPS6041(R)(S)
D-Pak/D2pak/TO220
Thermal resistance junction to ambient AUIPS6041(S) D2Pak/TO220 std.
footprint
Thermal resistance junction to ambient AUIPS6041S D2Pak 1” sqrt.
footprint
Rth2
Rth3
Rth1
Rth2
°C/W
Recommended Operating Conditions
These values are given for a quick design. For operation outside these conditions, please consult the application notes.
Symbol
Parameter
VIH
VIL
High level input voltage
Low level input voltage
Continuous drain current, Tambient=85°C, Tj=125°C, Vin=5V
Rth=100°C/W AUIPS6041G
Rth=50°C/W AUIPS6041R 1” sqrt. footprint
Recommended resistor in series with IN pin
Recommended resistor in series with DG pin for reverse battery protection
Recommended pull-up resistor for DG
Recommended pull-up resistor for open load detection
Max. switching frequency
Iout
Rin
Rdgs
Rdgp
Rol
F max.
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Min.
Max.
4
0
5.5
0.9
1.6
2.3
10
20
20
100
3.5
4
4
4
5
Units
A
k
kHz
3
AUIPS6041(G)(R)(S)
Static Electrical Characteristics
Tj=-40°C..150°C, Vcc=6..28V (unless otherwise specified), typical values are given for Vcc=14V and Tj=25°C
Symbol
Rds(on)
Vcc op.
V clamp 1
V clamp 2
Icc Off
Icc On
Vih
Vil
In hyst.
Iin On
Idg
Vdg
Parameter
ON state resistance Tj=25°C
ON state resistance Tj=150°C
ON state resistance Tj=25°C, Vcc=6V
ON state resistance during reverse battery
Tj=25°C
Operating voltage range
Vcc to Out clamp voltage 1
Vcc to Out clamp voltage 2
Supply current when Off and with Vout
connected to ground Rconnection UV
2.5V
6V
150k
IN
Level
Shifter
43V
Driver
2.0V
Over-temp
+
I sense
I Limit
Open load off
+
DG
6V
Short circuit
3V
+
3V
Open load on
Ground
Disconnect
+
20mV
GND
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OUT
6
AUIPS6041(G)(R)(S)
T clamp
Vin
Vin
Iout
limiting
Thermal cycling
Ilim
Ids
Tj
Vcc
Tsd+
Tsd-
Vds
DG
Vds clamp
See Application Notes to evaluate power dissipation
Figure 1 – Active clamp waveforms
Figure 2 – Protection timing diagram
90%
Vin
Dg
Vcc
10%
Tr-in
In
Gnd
Vclamp
Out
+
14V
-
L
Vcc
90%
Vcc-5V
5V
Vout
Vin
0V
10%
Td on
Td off
Tr1
Tf
Vout
Rem :
During active
clamp, Vload
is negative
R
Iout
Tr2
Figure 3 – Switching times definitions
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Figure 4 – Active clamp test circuit
7
AUIPS6041(G)(R)(S)
200%
250
200
Eon
150
100
Eoff
50
0
0
1
2
3
4
5
Rds(on), Drain-to-Source On Resistance
(Normalized)
Eon, Eoff, switching energy (µJ)
300
150%
100%
50%
-50
Iout, Output current (A)
0
50
150
Tj, junction temperature (°C)
Figure 5 – Switching energy (µJ) Vs Output
current (A)
Figure 6 - Normalized Rds(on) (%) Vs Tj (°C)
10
3
Ids, cont. Output current (A)
2.5
Iout, Output current (A)
100
1
100°C/W
2
1.5
1
0.5
0
0.1
0.1
1
10
100
Load inductance (mH)
Figure 7 – Max. Output current (A) Vs Load
inductance (mH)
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1000
-50
0
50
100
150
Tamb, Ambient temperature (°C)
Figure 8 – Max. ouput current (A)
Vs Ambient temperature (°C)
8
100
8
10
6
I limit (A)
Zth, transient thermal impedance (°C/W)
AUIPS6041(G)(R)(S)
1
4
2
0.1
0.01
1E-5 1E-4 1E-3 1E-2
0
-50
1E-1 1E+0 1E+1 1E+2 1E+3
0
Time (s)
100
Tj, junction temperature (°C)
Figure 9 – Transient thermal impedance (°C/W)
Vs time (s)
Figure 10 –I limit (A)
Vs junction temperature (°C)
1.E+4
Icc on/ Icc off, supply current (µA)
1.E+4
Icc on/ Icc off, supply current (µA)
50
1.E+3
Icc on
Icc off
1.E+2
1.E+1
1.E+0
0
5
10
15
20
25
Vcc, power supply voltage (V)
Figure 11 – Icc on/ Icc off (µA) Vs Vcc (V)*
30
1.E+3
Icc on
Icc off
1.E+2
1.E+1
1.E+0
-50
0
50
100
150
Tj, junction temperature (°C)
Figure 12 – Icc on/ Icc off (µA) Vs Tj (°C)*
*Vout connected to ground with R
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