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PROFET(R) Data Sheet BTS50085-1TMA
Smart Highside High Current Power Switch
Reversave
* Reverse battery protection by self turn on of power MOSFET
* Overload protection * Current limitation * Short circuit protection * Over temperature protection * Over voltage protection (including load dump) * Clamp of negative voltage at output * Fast deenergizing of inductive loads 1) * Low ohmic inverse current operation * Diagnostic feedback with load current sense * Open load detection via current sense * Loss of Vbb protection2) * Electrostatic discharge (ESD) protection * Green product (RoHS compliant) * AEC qualified
Features
Product Summary Overvoltage protection Output clamp Operating voltage On-state resistance Load current (ISO) Short circuit current limitation Current sense ratio
Vbb(AZ) 70 VON(CL) 62 Vbb(on) 5.0 ... 58 RON IL(ISO) IL(SC) IL : IIS
V V V
9 m 44 A 90 A 13 000
PG-TO220-7-4
7
* Power switch with current sense diagnostic feedback for up to 48 V DC grounded loads * Most suitable for loads with high inrush current like lamps and motors; all types of resistive and inductive loads * Replaces electromechanical relays, fuses and discrete circuits
Application
SMD
1
General Description
N channel vertical power FET with charge pump, current controlled input and diagnostic feedback with load current sense, integrated in Smart SIPMOS chip on chip technology. Providing embedded protection functions.
4 & Tab
R
Voltage source
Overvoltage protection
Current limit
Gate protection
bb
+ V bb
Voltage sensor
Charge pump Level shifter Rectifier
Limit for unclamped ind. loads Output Voltage detection
OUT
1,2,6,7
IL
Current Sense Load
3
IN
ESD
Logic
I IN
Temperature sensor I IS
IS
PROFET
Load GND
VIN V IS
Logic GND
5
R IS
1
)
2)
With additional external diode. Additional external diode required for energized inductive loads (see page 9).
Infineon Technologies AG
Page 1
2008-Jan-24
Data Sheet BTS50085-1TMA
Pin 1 2 3 4 Symbol OUT OUT IN Vbb O O I Function Output to the load. The pins 1,2,6 and 7 must be shorted with each other 3 especially in high current applications! ) Output to the load. The pins 1,2,6 and 7 must be shorted with each other especially in high current applications! 3) Input, activates the power switch in case of short to ground Positive power supply voltage, the tab is electrically connected to this pin. In high current applications the tab should be used for the Vbb connection 4 instead of this pin ). Diagnostic feedback providing a sense current proportional to the load current; zero current on failure (see Truth Table on page 7) Output to the load. The pins 1,2,6 and 7 must be shorted with each other especially in high current applications! 3) Output to the load. The pins 1,2,6 and 7 must be shorted with each other especially in high current applications! 3)
+
5 6 7
IS OUT OUT
S O O
Maximum Ratings at Tj = 25 C unless otherwise specified Parameter Supply voltage (over voltage protection see page 4) Supply voltage for full short circuit protection, (EAS limitation see diagram on page 10) Tj,start =-40 ...+150C: Load current (short circuit current, see page 5) Load dump protection VLoadDump = UA + Vs, UA = 13.5 V RI5) = 2 , RL = 0.23 , td = 200 ms, IN, IS = open or grounded Operating temperature range Storage temperature range Power dissipation (DC), TC 25 C Inductive load switch-off energy dissipation, single pulse Vbb = 12V, Tj,start = 150C, TC = 150C const., IL = 20 A, ZL = 6 mH, 0 , see diagrams on page 10 Electrostatic discharge capability (ESD)
Human Body Model acc. MIL-STD883D, method 3015.7 and ESD assn. std. S5.1-1993, C = 100 pF, R = 1.5 k
Symbol Vbb Vbb IL VLoad dump6) Tj Tstg Ptot EAS VESD IIN IIS
Values 62 58 self-limited 80 -40 ...+150 -55 ...+150 170 1.2 4.0 +15 , -250 +15 , -250
Unit V V A V C W J kV mA
Current through input pin (DC) Current through current sense status pin (DC)
see internal circuit diagrams on page 7 and 8
3)
4)
5) 6)
Not shorting all outputs will considerably increase the on-state resistance, reduce the peak current capability and decrease the current sense accuracy Otherwise add up to 0.7 m (depending on used length of the pin) to the RON if the pin is used instead of the tab. RI = internal resistance of the load dump test pulse generator. VLoad dump is setup without the DUT connected to the generator per ISO 7637-1 and DIN 40839.
Infineon Technologies AG
Page 2
2008-Jan-24
Data Sheet BTS50085-1TMA Thermal Characteristics
Parameter and Conditions Thermal resistance Symbol min ---7 chip - case: RthJC ) junction - ambient (free air): RthJA SMD version, device on PCB 8):
Values typ max -- 0.75 60 -33 --
Unit K/W
Electrical Characteristics
Parameter and Conditions
at Tj = -40 ... +150 C, Vbb = 24 V unless otherwise specified
Symbol
Values min typ max
Unit
Load Switching Capabilities and Characteristics On-state resistance (Tab to pins 1,2,6,7, see measurement circuit page 7) IL = 20 A, Tj = 25 C: RON VIN = 0, IL = 20 A, Tj = 150 C: IL = 80 A, Tj = 150 C: Vbb =6V, IL =20A, Tj =150C: RON(Static) 9) Nominal load current (Tab to pins 1,2,6,7) IL(ISO) 10) ISO 10483-1/6.7: VON = 0.5 V, Tc = 85 C Nominal load current 9), device on PCB 8) TA = 85 C, Tj 150 C VON 0.5 V, IL(NOM) Maximum load current in resistive range (Tab to pins 1,2,6,7) VON = 1.8 V, Tc = 25 C: IL(Max) see diagram on page 13 VON = 1.8 V, Tc = 150 C: 11) Turn-on time IIN to 90% VOUT: ton Turn-off time IIN to 10% VOUT: toff RL = 1 , Tj =-40...+150C Slew rate on 11) (10 to 30% VOUT ) dV/dton RL = 1 Slew rate off 11) (70 to 40% VOUT ) -dV/dtoff RL = 1
--
38
7.2 14.6 -17 44
9 17 17 22 --
m
A
9.9 185 105 50 30 1.0 1.1
11.1 ----1.5 1.9
---400 110 2.2 2.6
A A s
V/s V/s
7) 8
Thermal resistance RthCH case to heatsink (about 0.5 ... 0.9 K/W with silicone paste) not included! Device on 50mm*50mm*1.5mm epoxy PCB FR4 with 6cm2 (one layer, 70m thick) copper area for Vbb connection. PCB is vertical without blown air. 9) not subject to production test, specified by design 10) TJ is about 105C under these conditions. 11) See timing diagram on page 14. )
Infineon Technologies AG
Page 3
2008-Jan-24
Data Sheet BTS50085-1TMA
Parameter and Conditions
at Tj = -40 ... +150 C, Vbb = 24 V unless otherwise specified
Symbol
Values min typ max
Unit
Inverse Load Current Operation On-state resistance (Pins 1,2,6,7 to pin 4) VbIN = 12 V, IL = - 20 A
Tj = 25 C: RON(inv) see diagram on page 10 Tj = 150 C: Nominal inverse load current (Pins 1,2,6,7 to Tab) IL(inv) VON = -0.5 V, Tc = 85 C Drain-source diode voltage (Vout > Vbb) -VON IL = - 20 A, IIN = 0, Tj = +150C Operating Parameters Operating voltage (VIN = 0) 12) Under voltage shutdown 13)14) Under voltage start of charge pump see diagram page 15 Over voltage protection 15) Tj =-40C: Ibb = 15 mA Tj = 25...+150C: Standby current Tj =-40...+25C: IIN = 0, Vbb=35V Tj = 150C: Vbb(on) VbIN(u) VbIN(ucp) VbIN(Z) Ibb(off)
-50 --
7.2 14.6 60 0.6
9 17 -0.7
m A mV
5.0 1.5 3.0 68 70 ---
-3.0 4.5 -72 15 25
58 4.5 6.0 --25 50
V V V V A
) If the device is turned on before a V -decrease, the operating voltage range is extended down to VbIN(u). bb For the voltage range 0..58 V the device provides embedded protection functions against overtemperature and short circuit. 13) not subject to production test, specified by design 14) VbIN = Vbb - VIN see diagram on page 15. When VbIN increases from less than VbIN(u) up to VbIN(ucp) = 5 V (typ.) the charge pump is not active and VOUT Vbb - 3 V. 15) See also VON(CL) in circuit diagram on page 9.
12
Infineon Technologies AG
Page 4
2008-Jan-24
Data Sheet BTS50085-1TMA
Parameter and Conditions
at Tj = -40 ... +150 C, Vbb = 24 V unless otherwise specified
Symbol
Values min typ max
Unit
Protection Functions16) Short circuit current limit (Tab to pins 1,2,6,7) VON = 24 V, time until shutdown max. 300 s Tc =-40C: see page 8 and 13 Tc =25C: Tc =+150C: Short circuit shutdown delay after input current positive slope, VON > VON(SC) 17)
min. value valid only if input "off-signal" time exceeds 30 s
IL(SC) IL(SC) IL(SC) td(SC)
--50 80 62 -150 --
90 90 80 -65 6 -10
180 --350 72 ----
A
s V V C K
Output clamp (inductive load switch off) at VOUT = Vbb - VON(CL) (e.g. over voltage) IL= 40 mA Short circuit shutdown detection voltage 17)
(pin 4 to pins 1,2,6,7)
VON(CL) VON(SC) Tjt
Thermal overload trip temperature Thermal hysteresis
Tjt
Reverse Battery Reverse battery voltage 18) -Vbb On-state resistance (Pins 1,2,6,7 to pin 4) Tj = 25 C: RON(rev) Vbb = -12V, VIN = 0, IL = - 20 A, RIS = 1 k Tj = 150 C: Integrated resistor in Vbb line Tj = 25 C: Tj =150C: Rbb
--90 105
-8.8 -120 125
42 10.5 20 135 150
V m
16
) Integrated protection functions are designed to prevent IC destruction under fault conditions described in the data sheet. Fault conditions are considered as "outside" normal operating range. Protection functions are not designed for continuous repetitive operation. 17) not subject to production test, specified by design. 18) The reverse load current through the intrinsic drain-source diode has to be limited by the connected load (as it is done with all polarity symmetric loads). Note that under off-conditions (IIN = IIS = 0) the power transistor is not activated. This results in raised power dissipation due to the higher voltage drop across the intrinsic drain-source diode. The temperature protection is not active during reverse current operation! To reduce the power dissipation at the integrated Rbb resistor an input resistor is recommended as described on page 9.
Infineon Technologies AG
Page 5
2008-Jan-24
Data Sheet BTS50085-1TMA
Parameter and Conditions
at Tj = -40 ... +150 C, Vbb = 24 V unless otherwise specified
Symbol
Values min typ max
Unit
Diagnostic Characteristics Current sense ratio, static on-condition, kILIS = IL : IIS,19 VON < 1.5 V ), VIS 4.0 V see diagram on page 12
IL = 80 A,Tj =-40C: kILIS Tj =25C: Tj =150C: IL = 20 A,Tj =-40C: Tj =25C: Tj =150C: IL = 10 A,Tj =-40C: Tj =25C: Tj =150C: IL = 4 A,Tj =-40C: Tj =25C: Tj =150C: IIS,lim IIN = 0 IIS(LL)
IIN = 0, IIS=0 (e.g. during deenergizing of inductive loads): Sense current saturation Current sense leakage current
11 400 11 400 11 000 11 000 11 000 11 000 10 500 10 500 11 000 9 000 10 000 10 800 -6.5 --68 70 --
13 000 13 000 13 000 13 000 13 000 13 000 13 000 13 000 13 000 13 000 13 000 13 000 ---2 -72 --
15 400 14 600 14 200 16 000 15 000 14 500 17 000 15 500 15 000 22 000 18 500 16 000 --0.5 65 --500 mA A V s
VIN = 0, IL < 0: IIS(LH) Current sense over voltage protection Tj =-40C: VbIS(Z) Ibb = 15 mA Tj = 25...+150C: 20) Current sense settling time ts(IS)
Input Input and operating current (see diagram page 13) IIN(on)
IN grounded (VIN = 0)
---
0.8 --
1.5 80
mA A
Input current for turn-off 21)
IIN(off)
19)
If VON is higher, the sense current is no longer proportional to the load current due to sense current saturation, see IIS,lim . 20) not subject to production test, specified by design 21) We recommend the resistance between IN and GND to be less than 0.5 k for turn-on and more than 500k for turn-off. Consider that when the device is switched off (IIN = 0) the voltage between IN and GND reaches almost Vbb.
Infineon Technologies AG
Page 6
2008-Jan-24
Data Sheet BTS50085-1TMA Truth Table
Input current level Normal operation Very high load current Currentlimitation Short circuit to GND Overtemperature Short circuit to Vbb Open load Negative output voltage clamp Inverse load current L H H H L H L H L H L H L L H Output level L H H H L L L L H H 23 Z) H L H H Current Sense IIS 0 nominal IIS, lim 0 0 0 0 0 0 22 =IL / kilis, up to IIS=IIS,lim up to VON=VON(Fold back) IIS no longer proportional to IL VON > VON(Fold back) if VON>VON(SC), shutdown will occure
L = "Low" Level H = "High" Level Over temperature reset by cooling: Tj < Tjt (see diagram on page 15) Short circuit to GND: Shutdown remains latched until next reset via input (see diagram on page 14)
Terms
I bb VbIN 4 Vbb IL V bb RIN V
IN
RON measurement layout
VON OUT
l 5.5mm
3
IN PROFET IS 5
1,2,6,7
I IN
VbIS V IS
I IS DS R IS
Vbb force
VOUT
Out Force Sense contacts contacts (both out pins parallel)
Typical RON for SMD version is about 0.2 m less than straight leads due to l 2 mm
Two or more devices can easily be connected in parallel to increase load current capability.
22 23
) Low ohmic short to Vbb may reduce the output current IL and can thus be detected via the sense current IIS. ) Power Transistor "OFF", potential defined by external impedance.
Infineon Technologies AG
Page 7
2008-Jan-24
Data Sheet BTS50085-1TMA
Input circuit (ESD protection)
V bb
Current sense status output
Vbb R bb
ZD
V V bIN
ZD
R bb
V
Z,IS
Z,IN
IS
IN I
IN
IIS R
IS
VIS
V IN
When the device is switched off (IIN = 0) the voltage between IN and GND reaches almost Vbb. Use a bipolar or MOS transistor with appropriate breakdown voltage as driver. VZ,IN = 74 V (typ).
Short circuit detection
Fault Condition: VON > VON(SC) (6 V typ.) and t> td(SC) (80 ...300 s).
+ Vbb
VZ,IS = 74 V (typ.), RIS = 1 k nominal (or 1 k /n, if n devices are connected in parallel). IS = IL/kilis can be driven only by the internal circuit as long as Vout - VIS > 5 V. If you want measure load currents up to IL(M), RIS Vbb - 5 V . should be less than IL(M) / Kilis Note: For large values of RIS the voltage VIS can reach almost Vbb. See also over voltage protection. If you don't use the current sense output in your application, you can leave it open.
Inductive and over voltage output clamp
+ Vbb VZ1 V
ON
VON
OUT
OUT Logic unit Short circuit detection
PROFET
IS V
OUT
VON is clamped to VON(Cl) = 62 V typ
Infineon Technologies AG
Page 8
2008-Jan-24
Data Sheet BTS50085-1TMA
Over voltage protection of logic part
+ Vbb V R IN
Z,IN V Z,IS
Vbb disconnect with energized inductive load
Provide a current path with load current capability by using a diode, a Z-diode, or a varistor. (VZL < 70 V or VZb < 42 V if RIN=0). For higher clamp voltages currents at IN and IS have to be limited to 250 mA.
R bb
IN
Logic
V OUT
Version a:
V
IS
PROFET
RV
Signal GND
bb IN
V
R IS
V Z,VIS
bb OUT
PROFET
Rbb = 120 typ., VZ,IN = VZ,IS = 74 V typ., RIS = 1 k nominal. Note that when over voltage exceeds 79 V typ. a voltage above 5V can occur between IS and GND, if RV, VZ,VIS are not used.
IS
V ZL
Reverse battery protection
- Vbb
R bb
Version b:
IN OUT
V
bb IN
Vbb PROFET OUT
R IN
Logic
IS
Power Transistor
IS
DS RIS RV
Power GND
RL
V Zb
D
Signal GND
RV 1 k, RIS = 1 k nominal. Add RIN for reverse battery protection in applications with Vbb above 16V18); Version c: Sometimes a necessary voltage clamp is given by non inductive loads RL connected to the same 1 1 0.1A 1 switch and eliminates the need of clamping circuit: + + = if DS recommended value: RIN RIS RV |Vbb| - 12V 1 0.1A is not used (or = if DS is used). RIN |Vbb| - 12V V Vbb To minimize power dissipation at reverse battery bb RL operation, the overall current into the IN and IS pin OUT IN should be about 120mA. The current can be provided PROFET by using a small signal diode D in parallel to the input switch, by using a MOSFET input switch or by proper IS adjusting the current through RIS and RV.
Note that there is no reverse battery protection when using a diode without additional Z-diode VZL, VZb.
Infineon Technologies AG
Page 9
2008-Jan-24
Data Sheet BTS50085-1TMA
Inverse load current operation
Vbb
Maximum allowable load inductance for a single switch off
L = f (IL ); Tj,start = 150C, Vbb = 40 V, RL = 0
V bb
+ IN
- IL
PROFET IS OUT
10000
-
V OUT + IIS
-
V IN V IS
R IS
1000
The device is specified for inverse load current operation (VOUT > Vbb > 0V). The current sense feature is not available during this kind of operation (IIS = 0). With IIN = 0 (e.g. input open) only the intrinsic drain source diode is conducting resulting in considerably increased power dissipation. If the device is switched on (VIN = 0), this power dissipation is decreased to the much lower value RON(INV) * I2 (specifications see page 4). Note: Temperature protection during inverse load current operation is not possible!
100
10
1 10 100 1000
Inductive load switch-off energy dissipation
E bb E AS V V bb ELoad bb i L(t) IN PROFET IS I IN ZL OUT L RL EL
L [H] I [A]
Externally adjustable current limit
If the device is conducting, the sense current can be used to reduce the short circuit current and allow higher lead inductance (see diagram above). The device will be turned off, if the threshold voltage of T2 is reached by IS*RIS . After a delay time defined by RV*CV T1 will be reset. The device is turned on again, the short circuit current is defined by IL(SC) and the device is shut down after td(SC) with latch function.
Vbb
{
RIS
ER
Energy stored in load inductance: EL = 1/2*L*I L While demagnetizing load inductance, the energy dissipated in PROFET is EAS= Ebb + EL - ER= VON(CL)*iL(t) dt, with an approximate solution for RL > 0 : IL* L EAS= (V + |VOUT(CL)|) 2*RL bb IL*RL
IN Signal
RV
2
IN
V bb
PROFET
OUT
IS
Rload
T1
Signal GND
CV
T2
R IS
Power GND
ln (1+ |V
OUT(CL)|
)
Infineon Technologies AG
Page 10
2008-Jan-24
Data Sheet BTS50085-1TMA
Options Overview Type Over temperature protection with hysteresis Tj >150 C, latch function24) Tj >150 C, with auto-restart on cooling Short circuit to GND protection
switches off when VON>6 V typ. (when first turned on after approx. 180 s)
BTS50085-1TMA
X X X X 25 X)
Over voltage shutdown Output negative voltage transient limit
to Vbb - VON(CL) to VOUT = -15 V typ
) Latch except when V -V bb OUT < VON(SC) after shutdown. In most cases VOUT = 0 V after shutdown (VOUT 0 V only if forced externally). So the device remains latched unless Vbb < VON(SC) (see page 5). No latch between turn on and td(SC). 25) Can be "switched off" by using a diode DS (see page 8) or leaving open the current sense output.
24
Infineon Technologies AG
Page 11
2008-Jan-24
Data Sheet BTS50085-1TMA
Characteristics
Current sense versus load current: IIS = f(IL), TJ= -40 ... +150 C IIS [mA]
7 6 5 4 3 min 2 1 0 0 20 40 60 80 12000 max 16000 max
Current sense ratio: KILIS = f(IL), Tj= 25C
20000
18000
14000
typ min
10000
8000 0 20 40 60 80
IL [A] kilis IL [A] Current sense ratio: KILIS = f(IL), Tj= -40C kilis Current sense ratio: KILIS = f(IL), Tj= 150C kilis
24000
20000
22000 20000 18000 16000 14000 12000 10000 8000 0 20 40 60 80
IL [A] IL [A]
10000 0 20 40 60 80 18000
max
16000
max
typ
14000
typ
min
12000
min
Infineon Technologies AG
Page 12
2008-Jan-24
Data Sheet BTS50085-1TMA
Typ. current limitation characteristic IL = f (VON, Tj ) IL [A]
400 350 300 250 200 150 100 T 50 0 0 VON(FB)5(Fold Back) 10 15 20
j
Typ. input current IIN = f (VbIN), VbIN = Vbb - VIN IIN [mA]
1.6 1.4
VON>V ON(SC) only for t < t d(SC) (otherwise immediate shutdown)
1.2 1.0 0.8 0.6 0.4
= -40C
150C
25C
0.2 0 0 20 40 60 80
VbIN [V]
VON [V] In case of VON > VON(SC) (typ. 6 V) the device will be switched off by internal short circuit detection.
Typ. on-state resistance RON = f (Vbb, Tj ); IL = 20 A; VIN = 0 RON [mOhm]
18 16 14 12 10 8 6 4 0 5 10 Tj = 150C 85C 25C -40C
static dynamic
15
40
Vbb [V]
Infineon Technologies AG
Page 13
2008-Jan-24
Data Sheet BTS50085-1TMA
Timing diagrams
Figure 1a: Switching a resistive load, change of load current in on-condition: Figure 2c: Switching an inductive load:
IIN
IIN
VOUT
90% t on dV/dton 10% t off
dV/dtoff
VOUT
IL
tslc(IS)
t slc(IS)
IL
Load 1
Load 2
IIS
t t
IIS
tson(IS)
t soff(IS)
The sense signal is not valid during a settling time after turn-on/off and after change of load current.
Figure 3d: Short circuit: shut down by short circuit detection, reset by IIN = 0.
Figure 2b: Switching motors and lamps:
IIN
IIN IL IL(SCp) VOUT td(SC)
IIL
IIS
VOUT>>0 VOUT=0 t
IIS
t
Shut down remains latched until next reset via input.
Sense current saturation can occur at very high inrush currents (see IIS,lim on page 6).
Infineon Technologies AG
Page 14
2008-Jan-24
Data Sheet BTS50085-1TMA
Figure 4e: Overtemperature Reset if TjIIN
IIS
VOUT
Auto Restart
Tj
t
Figure 6f: Undervoltage restart of charge pump, overvoltage clamp
VOUT
VIN = 0
6
4
dynamic, short Undervoltage not below VbIN(u)
VON(CL)
2
IIN = 0
VON(CL)
0 0 V bIN(u) 4 V bIN(ucp)
Infineon Technologies AG
Page 15
2008-Jan-24
Data Sheet BTS50085-1TMA
Package and Ordering Code
All dimensions in mm
PG-TO220-7-4
Sales Code BTS50085-1TMA
4.4 10 0.2 0...0.3 8.5 1) A 1.27 0.1 B 0.05 2.4 0.1
10.3
(13.85)
9.25 0.2
7.551)
0...0.15 7 x 0.6 0.1 6 x 1.27 0.25
M
3.6 0.3
2.10.3
0.5 0.1
AB
8MAX.
0.1 B
1)
Typical Metal surface min. X = 7.25, Y = 6.9 All metal surfaces tin plated, except area of cut.
10.8 9.4
Footprint:
16.15
4.6 0.47 0.8 8.42
Green Product (RoHS compliant)
To meet the world-wide customer requirements for environmentally friendly products and to be compliant with government regulations the device is available as a green product. Green products are RoHS-Compliant (i.e Pbfree finish on leads and suitable for Pb-free soldering according to IPC/JEDEC J-STD-020).
Infineon Technologies AG
Page 16
2008-Jan-24
Data Sheet BTS50085-1TMA
Revision History
Version
Rev. 1.0
Date
2008-01-24
Changes
Initial version of data sheet. Green (RoHS compliant) variant of BTS660P
Infineon Technologies AG
Page 17
2008-Jan-24
Edition 2008-Jan-24 Published by Infineon Technologies AG 81726 Munich, Germany (c) Infineon Technologies AG 2008. All Rights Reserved. Legal Disclaimer The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics ("Beschaffenheitsgarantie"). With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation warranties of noninfringement of intellectual property rights of any third party. Information For further information on technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies Office (www.infineon.com). Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies Office. Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered.

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