INFINEON BTS432D2E3062A

PROFET® BTS 432 D2
Smart Highside Power Switch
Features
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Product Summary
VLoad dump
80
Vbb-VOUT Avalanche Clamp
58
Vbb (operation)
4.5 ... 42
Vbb (reverse)
-32
RON
38
IL(SCp)
44
IL(SCr)
35
IL(ISO)
11
Load dump and reverse battery protection1)
Clamp of negative voltage at output
Short-circuit protection
Current limitation
Thermal shutdown
Diagnostic feedback
Open load detection in ON-state
CMOS compatible input
Electrostatic discharge (ESD) protection
Loss of ground and loss of Vbb protection2)
Overvoltage protection
Undervoltage and overvoltage shutdown with autorestart and hysteresis
5
5
Application
V
V
V
V
mΩ
A
A
A
5
• µC compatible power switch with diagnostic feedback
for 12 V and 24 V DC grounded loads
• All types of resistive, inductive and capacitve loads
• Replaces electromechanical relays and discrete
circuits
1
1
Straight leads
SMD
Standard
General Description
N channel vertical power FET with charge pump, ground referenced CMOS compatible input and diagnostic
feedback, integrated in Smart SIPMOS chip on chip technology. Fully protected by embedded protection
functions.
+ V bb
R bb
Voltag
e
source
V Logic
Voltag
e
sensor
2
IN
ESD
4
Overvoltag
eprotectio
n
Curren
t limit
Charge
pump
Level
shifter
Rectifie
r
protectio
n
Limit for
unclampe
dind.
loads
OUT
Logic
Load
ST
GND
1
PROF
ET
Signal GND
2)
5
Temperatur
e sensor
Open
load
detectio
n
Short
circuit
detectio
n
1)
3
Gate

Load GND
No external components required, reverse load current limited by connected load.
Additional external diode required for charged inductive loads
Infineon Technologies AG
Page 1 of 14
1999-03-22
BTS 432 D2
Pin
Symbol
Function
1
GND
-
Logic ground
2
IN
I
Input, activates the power switch in case of logical high signal
3
Vbb
+
Positive power supply voltage,
the tab is shorted to this pin
4
ST
S
Diagnostic feedback, low on failure
5
OUT
(Load, L)
O
Output to the load
Maximum Ratings at T j = 25 °C unless otherwise specified
Parameter
Supply voltage (overvoltage protection see page 3)
Load dump protection VLoadDump = UA + Vs, UA = 13.5 V
RI= 2 Ω, RL= 1.1 Ω, td= 200 ms, IN= low or high
Load current (Short-circuit current, see page 4)
Operating temperature range
Storage temperature range
Power dissipation (DC)
Inductive load switch-off energy dissipation,
single pulse
Tj=150 °C:
Electrostatic discharge capability (ESD)
(Human Body Model)
Input voltage (DC)
Current through input pin (DC)
Current through status pin (DC)
Symbol
Vbb
Vs 3)
Values
IL
Tj
Tstg
Ptot
self-limited
-40 ...+150
-55 ...+150
125
A
°C
1.7
2.0
J
kV
-0.5 ... +6
±5.0
±5.0
V
mA
≤1
≤ 75
≤ tbd
K/W
EAS
VESD
VIN
IIN
IST
63
66.5
Unit
V
V
W
see internal circuit diagrams page 6...
Thermal resistance
3)
4)
chip - case: RthJC
junction - ambient (free air): RthJA
SMD version, device on pcb4):
VS is setup without DUT connected to the generator per ISO 7637-1 and DIN 40839
Device on 50mm*50mm*1.5mm epoxy PCB FR4 with 6cm2 (one layer, 70µm thick) copper area for Vbb
connection. PCB is vertical without blown air.
Infineon Technologies AG
Page 2
1999-Mar.-22
BTS 432 D2
Electrical Characteristics
Parameter and Conditions
Symbol
at Tj = 25 °C, Vbb = 12 V unless otherwise specified
Values
min
typ
max
Unit
Load Switching Capabilities and Characteristics
On-state resistance (pin 3 to 5)
IL = 2 A
Tj=25 °C: RON
--
30
38
mΩ
IL(ISO)
9
55
11
70
--
A
IL(GNDhigh)
--
--
1
mA
ton
toff
50
10
160
--
300
80
µs
dV /dton
0.4
--
2.5
V/µs
-dV/dtoff
1
--
5
V/µs
4.5
2.4
---
---6.5
42
4.5
4.5
7.5
V
V
V
V
∆Vbb(under)
--
0.2
--
V
Vbb(over)
Vbb(o rst)
∆Vbb(over)
Vbb(AZ)
--0.2
-67
12
18
6
52
----
V
V
V
V
25
60
--
µA
IL(off)
42
42
-60
63
----
IGND
--
1.1
--
mA
Tj=150 °C:
Nominal load current (pin 3 to 5)
ISO Proposal: VON = 0.5 V, TC = 85 °C
Output current (pin 5) while GND disconnected or
GND pulled up, V IN = 0, see diagram page 7,
Tj =-40...+150°C
Turn-on time
to 90% VOUT:
Turn-off time
to 10% VOUT:
RL = 12 Ω , Tj =-40...+150°C
Slew rate on
10 to 30% VOUT, RL = 12 Ω , Tj =-40...+150°C
Slew rate off
70 to 40% VOUT, RL = 12 Ω , Tj =-40...+150°C
Operating Parameters
Operating voltage 5)
Tj =-40...+150°C:
Undervoltage shutdown
Tj =-40...+150°C:
Undervoltage restart
Tj =-40...+150°C:
Undervoltage restart of charge pump
see diagram page 12
Tj =-40...+150°C:
Undervoltage hysteresis
∆Vbb(under) = Vbb(u rst) - Vbb(under)
Overvoltage shutdown
Tj =-40...+150°C:
Overvoltage restart
Tj =-40...+150°C:
Overvoltage hysteresis
Tj =-40...+150°C:
Overvoltage protection6)
Tj =-40°C:
Ibb=40 mA
Tj =25...+150°C:
Standby current (pin 3)
Tj=-40...+25°C :
VIN =0, IST=0,
Tj=150°C:
Leakage output current (included in Ibb(off))
VIN =0
Operating current (Pin 1)7), VIN =5 V
5)
6)
Vbb(on)
Vbb(under)
Vbb(u rst)
Vbb(ucp)
Ibb(off)
µA
At supply voltage increase up to Vbb= 6.5 V typ without charge pump, VOUT ≈Vbb - 2 V
see also VON(CL) in table of protection functions and circuit diagram page 7. Meassured without load.
Infineon Technologies AG
Page 3
1999-Mar.-22
BTS 432 D2
Protection Functions
Initial peak short circuit current limit (pin 3 to 5)8),
IL(SCp)
( max 400 µs if V ON > V ON(SC) )
Tj =-40°C:
Tj =25°C:
Tj =+150°C:
Repetitive short circuit current limit
IL(SCr)
Tj = Tjt (see timing diagrams, page 10)
Short circuit shutdown delay after input pos. slope
VON > VON(SC),
Tj =-40..+150°C: td(SC)
--24
-44
--
74
---
A
22
35
--
A
80
--
400
µs
VON(CL)
--
58
--
V
VON(SC)
Tjt
∆Tjt
EAS
ELoad12
ELoad24
-150
---
8.3
-10
--
---1.7
1.3
1.0
V
°C
K
J
---
-120
32
--
V
Ω
2
2
---
900
750
mA
min value valid only, if input "low" time exceeds 30 µs
Output clamp (inductive load switch off)
at V OUT = V bb - V ON(CL), IL= 30 mA
Short circuit shutdown detection voltage
(pin 3 to 5)
Thermal overload trip temperature
Thermal hysteresis
Inductive load switch-off energy dissipation9),
Tj Start = 150 °C, single pulse
Vbb = 12 V:
Vbb = 24 V:
Reverse battery (pin 3 to 1) 10)
Integrated resistor in V bb line
Diagnostic Characteristics
Open load detection current
(on-condition)
7)
8)
-Vbb
Rbb
Tj=-40 °C : IL (OL)
Tj=25..150°C:
Add IST , if IST > 0, add IIN, if VIN>5.5 V
Short circuit current limit for max. duration of 400 µs, prior to shutdown (see td(SC) page 4)
While demagnetizing load inductance, dissipated energy in PROFET is EAS= ∫ VON(CL) * iL (t) dt, approx.
VON(CL)
2
EAS= 1/2 * L * IL * (
), see diagram page 8
VON(CL) - Vbb
10) Reverse load current (through intrinsic drain-source diode) is normally limited by the connected load. Reverse
current IGND of ≈ 0.3 A at Vbb= -32 V through the logic heats up the device. Time allowed under these
condition is dependent on the size of the heatsink. Reverse IGND can be reduced by an additional external
GND-resistor (150 Ω). Input and Status currents have to be limited (see max. ratings page 2 and circuit page
7).
9)
Infineon Technologies AG
Page 4
1999-Mar.-22
BTS 432 D2
Input and Status Feedback11)
Input turn-on threshold voltage
VIN(T+)
1.5
--
2.4
V
VIN(T-)
1.0
--
--
V
-1
0.5
--
-30
V
µA
10
25
50
µA
80
200
400
µs
350
--
1600
µs
4.4
----
5.1
----
6.5
0.4
0.25
1.6
V
Tj =-40..+150°C:
Input turn-off threshold voltage
Tj =-40..+150°C:
Input threshold hysteresis
Off state input current (pin 2)
∆ VIN(T)
VIN = 0.4 V: IIN(off)
On state input current (pin 2)
VIN = 3.5 V: IIN(on)
Status invalid after positive input slope
(short circuit)
Tj=-40 ... +150°C:
Status invalid after positive input slope
(open load)
Tj=-40 ... +150°C:
Status output (CMOS)
Tj =-40...+150°C, IST= - 50 µA:
Tj =-40...+150°C, IST = +1.6 mA:
Max. status current for
current source (out):
valid status output,
current sink (in) :
Tj =-40...+150°C
td(ST SC)
td(ST)
VST(high)12)
VST(low)
-IST
+IST13)
mA
11) If a ground resistor R
GND is used, add the voltage drop across this resistor.
12) V
≈
V
during
undervoltage shutdown
St high
bb
13) No current sink capability during undervoltage shutdown
Infineon Technologies AG
Page 5
1999-Mar.-22
BTS 432 D2
Truth Table
Input-
Output
level
level
432
D2
432
E2/F2
432
I2
L
H
L
H
L
H
H
H
H
L
H
H
H
L
H
H
L
H
H
L
H
H (L15))
L
L
L16)
L16)
L
L
H
L
H
H (L15))
L
L
H
H
H
H
H
L
L
H
L
L
L16)
L16)
L
L
Normal
operation
Open load
Short circuit
to GND
Short circuit
to Vbb
Overtemperature
Undervoltage
14)
H
L
L
H
H
L
L
L
L
L
L
L
H
L
H
L
H
L
H
L
H
Overvoltage
Status
L = "Low" Level
H = "High" Level
Terms
Status output
Ibb
VLogic
3
I IN
Vbb
IN
ST
2
IL
V
VST
IN
OUT
PROFET
I ST
4
VON
5
ST
GND
GND
V
bb
1
R
IGND
VOUT
GND
ESDZD
Zener diode: 6.1 V typ., max 5 mA, VLogic 5 V typ,
ESD zener diodes are not designed for continuous
current
Short Circuit detection
Fault Condition: VON > 8.3 V typ.; IN high
Input circuit (ESD protection)
R
IN
+ V bb
I
ESDZDI1 ZDI2
V
ON
I
I
OUT
GND
ZDI1 6.1 V typ., ESD zener diodes are not designed for
continuous current
Logic
unit
Short circuit
detection
14) Power Transistor off, high impedance
15) Low resistance short V to output may be detected by no-load-detection
bb
16) No current sink capability during undervoltage shutdown
Infineon Technologies AG
Page 6
1999-Mar.-22
BTS 432 D2
Inductive and overvoltage output clamp
GND disconnect
+ V bb
V
Z
3
V
ON
Vbb
IN
2
PROFET
OUT
OUT
4
GND
V
VON clamped to 58 V typ.
Overvolt. and reverse batt. protection
R IN
GND
1
IN V ST
VGND
Any kind of load. In case of Input=high is VOUT ≈ VIN - VIN(T+) .
Due to VGND >0, no VST = low signal available.
+ V bb
VZ
bb
V
5
ST
GND disconnect with GND pull up
R bb
3
IN
Logic
V
R ST ST
2
IN
Vbb
OUT
PROFET
GND
PROFET
4
OUT
5
ST
GND
RGND
1
Signal GND
Rbb = 120 Ω typ., VZ +Rbb *40 mA = 67 V typ., add
RGND, RIN , RST for extended protection
V
V
bb
V
IN ST
V
GND
Any kind of load. If VGND > VIN - VIN(T+) device stays off
Due to VGND >0, no VST = low signal available.
Open-load detection
ON-state diagnostic condition: VON < RON * IL(OL); IN
high
Vbb disconnect with charged inductive
load
+ Vbb
3
high
2
VON
ON
4
OUT
5
ST
GND
1
Open load
detection
V
Infineon Technologies AG
Vbb
PROFET
OUT
Logic
unit
IN
Page 7
bb
1999-Mar.-22
BTS 432 D2
Inductive Load switch-off energy
dissipation
3
high
2
IN
E AS
PROFET
4
E bb
Vbb
OUT
5
E
ST
IN
GND
1
PROFET
=
V
V bb
bb
ST
GND
Load
OUT
EL
ER
Energy dissipated in PROFET EAS = Ebb + EL - ER.
2
ELoad < EL, EL = 1/2 * L * I L
Infineon Technologies AG
Page 8
1999-Mar.-22
BTS 432 D2
Options Overview
all versions: High-side switch, Input protection, ESD protection, load dump and
reverse battery protection , protection against loss of ground
Type
Logic version
BTS 432D2 432E2 432F2 432I2
Overtemperature protection
Tj >150 °C, latch function17)18)
Tj >150 °C, with auto-restart on cooling
Short-circuit to GND protection
switches off when VON>8.3 V typ. 17)
(when first turned on after approx. 200 µs)
D
E
X
F
I
X
X
X
X
X
X
X
Open load detection
in OFF-state with sensing current 30 µA typ.
in ON-state with sensing voltage drop across
power transistor
X
X
X
X
Undervoltage shutdown with auto restart
X
X
X
X
Overvoltage shutdown with auto restart
X
X
X
X
X
X
X
X
Status feedback for
overtemperature
short circuit to GND
X
X
X
X
-19)
-19)
-19)
X
open load
X
X
X
X
undervoltage
X
-
-
X
overvoltage
X
-
-
X
short to Vbb
Status output type
CMOS
X
X
X
X
X
X
X
X
X
Open drain
Output negative voltage transient limit
(fast inductive load switch off)
to Vbb - VON(CL)
X
Load current limit
high level (can handle loads with high inrush currents)
X
medium level
X
low level (better protection of application)
17) 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 4). No latch
between turn on and td(SC).
18) With latch function. Reseted by a) Input low, b) Undervoltage, c) Overvoltage
19) Low resistance short V to output may be detected by no-load-detection
bb
Infineon Technologies AG
Page 9
1999-Mar.-22
BTS 432 D2
Timing diagrams
Figure 2b: Switching an inductive load
Figure 1a: Vbb turn on:
IN
IN
t d(bb IN)
V
bb
td(ST)
ST
*)
V
OUT
V
OUT
A
ST CMOS
I
L
IL(OL)
t
A
t
in case of too early VIN=high the device may not turn on (curve
A)
td(bb IN) approx. 150 µs
Figure 2a: Switching a lamp,
*) if the time constant of load is too large, open-load-status may
occur
Figure 3a: Turn on into short circuit,
IN
IN
ST
ST
V
V
OUT
OUT
td(SC)
I
I
L
L
t
t
td(SC) approx. 200µs if Vbb - VOUT > 8.3 V typ.
Infineon Technologies AG
Page 10
1999-Mar.-22
BTS 432 D2
Figure 3b: Turn on into overload,
Figure 4a: Overtemperature,
Reset if (IN=low) and (Tj<Tjt)
IN
IN
IL
ST
I L(SCp)
I L(SCr)
V
ST
OUT
T
J
t
t
Heating up may require several milliseconds , Vbb - VOUT < 8.3 V
typ.
*) ST goes high , when VIN=low and Tj<T jt
Figure 3c: Short circuit while on:
Figure 5a: Open load: detection in ON-state, turn on/off
to open load
IN
IN
ST
ST
t
d(ST)
V OUT
V
OUT
IL
**)
I
L
t
t
**) current peak approx. 20 µs
Infineon Technologies AG
open
Page 11
1999-Mar.-22
BTS 432 D2
Figure 5b: Open load: detection in ON-state, open
load occurs in on-state
Figure 6b: Undervoltage restart of charge pump
VON [V]
VON(CL)
V on
IN
off
t
d(ST OL1)
t d(OL ST2)
ST
V
V
off
OUT
V
V
bb(u rst)
normal
I
open
V
normal
L
V
bb(over)
bb(o rst)
bb(u cp)
bb(under)
on
t
V bb
Vbb [V]
td(ST OL1) = tbd µs typ., td(ST OL2) = tbd µs typ
charge pump starts at Vbb(ucp) =6.5 V typ.
Figure 7a: Overvoltage:
Figure 6a: Undervoltage:
IN
IN
Vbb
V
ON(CL)
Vbb(over)
V
bb(o rst)
Vbb
V
bb(under)
Vbb(u cp)
Vbb(u rst)
V
OUT
V OUT
ST
ST CMOS
t
t
Infineon Technologies AG
Page 12
1999-Mar.-22
BTS 432 D2
Package and Ordering Code
All dimensions in mm
Standard TO-220AB/5
BTS 432 D2
TO-220AB/5, Option E3043 Ordering code
Ordering code
Q67060-S6201-A2
BTS 432 D2 E3043
Q67060-S6201-A4
SMD TO-220AB/5, Opt. E3062 Ordering code
BTS432D2 E3062A
Infineon Technologies AG
Page 13
T&R:
Q67060-S6201-A5
1999-Mar.-22
BTS 432 D2
Published by Infineon Technologies AG, Balanstraße 73, D81541 München
 Infineon Technologies AG 2002. All Rights Reserved
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liability is only assumed for components, not for applications,
processes and circuits implemented within components or
assemblies. The information describes a type of component and
shall not be considered as warranted characteristics. Terms of
delivery and rights to change design reserved. For questions on
technology, delivery and prices please contact the Semiconductor
Group Offices in Germany or the Infineon Companies and
Representatives worldwide (see address list). Due to technical
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information on the types in question please contact your nearest
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manufacturer.
Packing: Please use the recycling operators known to you. We
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Components used in life-support devices or systems must be
expressly authorised for such purpose! Critical components 20)
of the Infineon Technologies AG, may only be used in life
supporting devices or systems 21) with the express written
approval of Infineon Technologies AG.
20) A critical component is a component used in a life-support
device or system whose failure can reasonably be expected
to cause the failure of that life-support device or system, or to
affect its safety or effectiveness of that device or system.
21) Life support devices or systems are intended (a) to be
implanted in the human body or (b) support and/or maintain
and sustain and/or protect human life. If they fail, it is
reasonably to assume that the health of the user or other
persons may be endangered.
Infineon Technologies AG
Page 14
1999-Mar.-22