INFINEON BTS630

BTS 630
PWM Power Unit
The device allows continuous power control for lamps,LEDs
or inductive loads.
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Highside switch
Overtemperatur protection
Short circuit / overload protection through pulse widt
reduction and overload shutdown
Load dump protection
Undervoltage and overvoltage shutdown with auto-restart
and hysteresis
Reverse battery protection 1)
Timing frequency adjustable
Controlled switching rise and fall times
Maximum current internally limited
Protection against loss of GND 2)
Electrostatic discharge (ESD) protection
Package: TO220/7 and TO220/7 E3128 (SMD), Pin 4 is
shorted to the mounting flange
7
1
Standard
Note: Switching frequency is programmed with an external capacitor.
Type
Ordering Code
Marking
Package
BTS630 (Standard)
Q67060-S6305-A2
-
TO220/7
BTS630
Q67060-S6305-A3
-
TO220/7, E3230
Maximum Ratings
Parameter
Symbol
Values
Unit
Active overvoltage prodection
Vbb (AZ)
>40
V
Short circuit current
ISC
self-limited
-
Input current (DC)
ICt
2
mA
Pin1 (Ct) and pin19 (VC)
IVC
2
mA
Operating temperature range
Tj
-40...+150
iC
Storage temperature range
Tstg
-50...+150
Ptot
75
W
Rth JC
≤ 1.67
K/W
Rth JA
≤ 75
Power dissipation
Ta=25°C
Thermal resistance chip-case
chip-ambient
1)
2)
With 150Ω resistor in signal GND connection.
Potential between signal GND and load GND >0.5V
Semiconductor Group
1
12.96
BTS 630
Block Diagram
Over / UnderOvervoltage
Prodtection
Temperature
voltage
Detection
Timing
Pulse - width
Generator
Comparator
Sensor
(4)
Pump and
Logic
Current
Limiting
Voltage
Regulator
(1)
(5)
(3)
GND
Ct
(2)
(6)
VREF VC
Bootstrap
Capacitor
Signal GND
Load GND
Pin Definitions and Funktions
6
7
Symbol
GND
VC
VREF
Vbb
Ct
CB
OUT
OUT
CB
Timing
Cap.
Pin
1
2
3
4
5
(7)
Pin Configuration (top view)
Funktions
Ground
Voltage for PWM-Control
Reference Voltage
Supply voltage
Timing capacitor
for frequency
Bootstrap capacitor
Output
1234567
Semiconductor Group
2
Vbb
BTS 630
Electrical Characteristics
at Tj = 25 iC, unless otherwise specified.CBootstrap = 22nF
Parameter
On-state resistance
IL=3A, Vbb=12V
Operating voltage
Tj = -40 ...+150iC
Nominal current, calculated value
ISO-standard:Vbb-VOUT ≤ 0.5V, Tc=85°C
Load current limit
Vbb-VOUT> 1V
Undervoltage shutdown
IL = 3A
Overvoltage shutdown
IL = 3A
Max.output voltage (RMS)
IL = 3A, Vbb > 12 V
Reference voltage
IREF= 10mA
Reference current
pin 18 (GND) to pin 20 (VREF) short
Internal current consumption during
operation, measured in PWM gap
Bootstrap voltage, pin 2 (CB1) to pin 3 (CB2)
Vbb = 12 V,
PWM frequency
Tc = -40 ... +150 °C, Ct = 68 nF
Max. pulse duty factor
IL = 3A, VC=0V , (50% VOUT)
Min. pulse duty factor
IL = 3A, VC=0V , (50% VOUT)
Slew rate "on"
10 ... 90% IOUT
Slew rate "off"
90 ... 10% IOUT
Thermal overload trip temperature
Symbol
RON
min.
-
Vbb
5.9
IL-ISO
5.8
ILLim
1)
16.9
-
-
20
2)
Unit
mΩ
V
-
A
-
A
Vbb(LOW)
3
4.2
5.4
V
Vbb(HI)
17
18
19
V
VRMSmax
12
14
V
VREF
2
3
V
-
IREF
-
IR
-
VB
-
fPWM
50
Dimax
95
Dimin
150
5
10
100
98
-
mA
-
-
-
8
mA
V
Hz
%
14
%
du/dt(on)
20
-
120
mV/µs
du/dt(off)
20
-
120
mV/µs
-
-
Tj
1) Note: undervoltage shutdown
2)
Note: overvoltage shutdown
Semiconductor Group
Values
typ.
max.
70
3
150
°C
BTS 630
Circuits
Analog Logic-InputVC (2)
V REF
(3)
VC
(2)
Voltage Regulator
2m A
GND
(1)
Pulse-width Comparator
6V
max. 2mA
Triangular WaveformGenerator Input C t (5)
V bb
6m A
Ct
(5)
GND
(1)
Timing Generator
6V
max. 2mA
Voltage Sensor (typ)
Undervoltage Sensor
Overvoltage Sensor
+V bb
V bb < 4.2 V
+V bb
Signal to the
logic unit
V bb > 18 V
GND
Semiconductor Group
GND
4
Signal to the
logic unit
BTS 630
Package Outline
TO220/7
Dimensions in mm
Package Outline
TO220/7
E3230
Dimensions in mm
Semiconductor Group
5
BTS 630
Application Note
Dimming of dashboard lighting
+
4
3
25 k O
2
220nF
V bb
VREF
BTS630
VC
GND
1
Ct
CB
5
OUT
6
7
68nF
22nF
Load
150 O
150 O Resistor for reverse battery and load dump prodection
Semiconductor Group
6
V bb
BTS 630
mΩ
Typ.on-state resistance
R ON= f (T C )
Typ. overvoltage shutdown
V bb(HI) = f (T C )
V
140
20,0
120
19,5
100
19,0
80
18,5
60
18,0
40
17,5
20
17,0
-50
-25
0
25
50
75
100
125
150
-50
-25
0
25
50
75
100 125 150
TC °C
TC °C
Typ. Load current limit
I LLim = f (T C )
A
Typ. overvoltage shutdown
V bb(HI) = f (T C )
V
30
20,0
25
19,5
19,0
20
18,5
15
18,0
10
17,5
5
-50
-25
0
25
50
75
100
125
150
17,0
T C °C
-50
-25
0
25
50
TC °C
Semiconductor Group
7
75
100 125 150
BTS 630
Typ. min. puls duty factor
D im in = f (T C )
%
15
Typ. max. puls duty factor
D im ax = f (T C )
%
100
14
13
99
12
11
98
10
9
97
8
7
96
6
5
95
-50
-25
0
25
50
75
100
125
150
-50
-25
0
25
TC °C
75
100
125
150
125
150
TC °C
Typ. PWM Frequency
f PWM = f (T C )
Hz
50
Typ. max. output voltage
V RMSm ax = f (T C ), Vbb > 12V
V
100
14,0
90
13,5
80
13,0
70
12,5
60
50
12,0
-50
-25
0
25
50
75
100
125
150
-50
TC °C
Semiconductor Group
-25
0
25
50
TC °C
8
75
100