HITFET
®
BTS 917
Smart Lowside Power Switch
Features
•
Logic Level Input
•
Input Protection (ESD)
•
Thermal Shutdown
•
Overload protection
•
Short circuit protection
•
Overvoltage protection
•
Current
Product Summary
Drain source voltage
On-state resistance
Current limit
Nominal load current
Clamping energy
V
DS
R
DS(on)
I
D(lim)
I
D(ISO)
E
AS
60
1.5
3.5
V
A
A
100 mΩ
1000 mJ
limitation
•
Maximum current adjustable with external resistor
•
Current sense
•
Status feedback with external input resistor
•
Analog driving possible
Application
•
All kinds of resistive, inductive and capacitive loads in switching or
linear applications
•
µC compatible power switch for 12 V and 24 V DC applications
•
Replaces electromechanical relays and discrete circuits
General Description
N channel vertical power FET in Smart SIPMOS
®
chip on chip tech-
nology. Fully protected by embedded protected functions.
V bb
+
LOAD
NC
Drain
dv/dt
limitation
Current
limitation
Overvoltage
protection
M
2
3
1
IN
4
CC
Over-
temperature
protection
ESD
R
CC
Overload
protection
Short circuit
Short circuit
protection
protection
Source
5
HITFET
®
Semiconductor Group
Page 1
14.07.1998
BTS 917
Maximum Ratings at Tj = 25 °C unless otherwise specified
Parameter
Drain source voltage
Drain source voltage for short circuit protection
R
CC
= 0
Ω
without
R
CC
Continuous input current
-0.2V
≤
V
IN
≤
10V
1)
Symbol
Value
60
15
50
Unit
V
V
DS
V
DS(SC)
I
IN
no limit
|
I
IN
|
≤
2
- 40 ... +150
- 55 ... +150
50
1000
3000
mA
V
IN
< -0.2V or
V
IN
> 10V
Operating temperature
Storage temperature
Power dissipation
T
j
T
stg
P
tot
E
AS
°C
W
mJ
V
T
C
= 25 °C
Unclamped single pulse inductive energy
I
D(ISO)
= 3.5 A
Electrostatic discharge
voltage
(Human Body Model)
V
ESD
according to MIL STD 883D, method 3015.7 and
EOS/ESD assn. standard S5.1 - 1993
Load dump protection
V
LoadDump2)
=
V
A
+
V
S
V
IN
=low or high;
V
A
=13.5 V
t
d
= 400 ms,
R
I
= 2
Ω,
I
D
=0,5*3.5A
t
d
= 400 ms,
R
I
= 2
Ω,
I
D
= 3.5A
DIN humidity category, DIN 40 040
IEC climatic category; DIN IEC 68-1
V
LD
75
70
E
40/150/56
Thermal resistance
junction - case:
junction - ambient:
SMD version, device on PCB:
3)
R
thJC
R
thJA
R
thJA
2.5
75
45
K/W
1
A sensor holding current of 500 µA has to be guaranted in the case of thermal shutdown (see also page 3)
2
V
Loaddump is setup without the DUT connected to the generator per ISO 7637-1 and DIN 40839
3
Device on 50mm*50mm*1.5mm epoxy PCB FR4 with 6cm (one layer, 70 µm thick) copper area for Drain connection. PCB is vertical
2
without blown air.
Semiconductor Group
Page 2
14.07.1998
BTS 917
Electrical Characteristics
Parameter
at T
j
=25°C, unless otherwise specified
Characteristics
Drain source clamp voltage
Symbol
min.
Values
typ.
-
-
1.7
30
120
2200
max.
73
5
2.2
60
300
4000
V
µA
V
µA
Unit
V
DS(AZ)
I
DSS
V
IN(th)
I
IN(1)
60
-
1.3
-
-
-
T
j
= - 40 ...+ 150°C,
I
D
= 10 mA
Off state drain current
V
DS
= 32 V,
T
j
= -40...+150 °C,
V
IN
= 0 V
Input threshold voltage
I
D
= 0,7 mA
Input current - normal operation,
I
D
<
I
D(lim)
:
V
IN
= 10 V
Input current - current limitation mode,
I
D
=I
D(lim)
:
I
IN(2)
V
IN
= 10 V
Input current - after thermal shutdown,
I
D
=0 A:
I
IN(3)
I
IN(H)
V
IN
= 10 V
Input holding current after thermal shutdown
T
j
= 25 °C
T
j
= 150 °C
On-state resistance
500
300
-
-
90
180
80
160
-
-
-
mΩ
120
240
100
200
-
A
R
DS(on)
-
-
I
D
= 3.5 A,
V
IN
= 5 V,
T
j
= 25 °C
I
D
= 3.5 A,
V
IN
= 5 V,
T
j
= 150 °C
On-state resistance
R
DS(on)
-
-
3.5
I
D
= 3.5 A,
V
IN
= 10 V,
T
j
= 25 °C
I
D
= 3.5 A,
V
IN
= 10 V,
T
j
= 150 °C
Nominal load current (ISO 10483)
I
D(ISO)
V
IN
= 10 V,
V
DS
= 0.5 V,
T
C
= 85 °C
Semiconductor Group
Page 3
14.07.1998
BTS 917
Electrical Characteristics
Parameter
at T
j
=25°C, unless otherwise specified
Characteristics
Initial peak short circuit current limit
Symbol
min.
Values
typ.
max.
Unit
I
D(SCp)
I
D(lim)
-
80
-
A
V
IN
= 10 V,
V
DS
= 12 V
Current limit
1)
V
IN
= 10 V,
V
DS
= 12 V,
t
m
= 350 µs,
T
j
= -40...+150 °C, without
R
CC
V
IN
= 10 V,
V
DS
= 12 V,
t
m
= 350 µs,
T
j
= -40...+150 °C,
R
CC
= 0
Ω
Dynamic Characteristics
Turn-on time
Turn-off time
Slew rate on
Slew rate off
35
45
55
1.5
2.5
6
V
IN
to 90%
I
D
:
V
IN
to 10%
I
D
:
70 to 50%
V
bb
:
50 to 70%
V
bb
:
t
on
t
off
-dV
DS
/dt
on
dV
DS
/dt
off
-
-
-
-
40
70
1
1
70
150
3
3
µs
R
L
= 4,7
Ω,
V
IN
= 0 to 10 V,
V
bb
= 12 V
R
L
= 4,7
Ω,
V
IN
= 10 to 0 V,
V
bb
= 12 V
V/µs
R
L
= 4,7
Ω,
V
IN
= 0 to 10 V,
V
bb
= 12 V
R
L
= 4,7
Ω,
V
IN
= 10 to 0 V,
V
bb
= 12 V
Protection Functions
Thermal overload trip temperature
Unclamped single pulse inductive energy
T
jt
E
AS
150
1000
225
165
-
-
-
-
-
°C
mJ
I
D
= 3.5 A,
T
j
= 25 °C,
V
bb
= 32 V
I
D
= 3.5 A,
T
j
= 150 °C,
V
bb
= 32 V
Inverse Diode
Inverse diode forward voltage
V
SD
-
1
-
V
I
F
= 5*3.5A,
t
m
= 300
µs,
V
IN
= 0 V
1
Device switched on into existing short circuit (see diagram Determination of I
D(lim) . Dependant on the application, these values
might be exceeded for max. 50 µs in case of short circuit occurs while the device is on condition
Semiconductor Group
Page 4
14.07.1998
BTS 917
Block Diagramm
Terms
RL
I IN
1
RCC
V IN
V
CC
4
IN
HITFET
CC
S
5
3
D
ID
VDS
Vbb
Inductive and overvoltage output clamp
V
Z
D
S
HITFET
The ground lead impedance of
R
CC
should be as low as possible
Input circuit (ESD protection)
Short circuit behaviour
V IN
I D(SCp)
IN
ID
I D(Lim)
ESD-ZD
I
Source
t0
tm
t1
t2
ESD zener diodes are not designed
for DC current > 2 mA @
V
IN
>10V.
t0 :
tm :
t1 :
Turn on into a short circuit
Measurementpoint for
ID(lim)
Activation of the fast temperature sensor and
regulation of the drain current to a level wher
the junction temperature remains constant.
Thermal shutdown caused by the second
temperature sensor, achieved by an
integrating measurement.
t2 :
Semiconductor Group
Page 5
14.07.1998
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