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 BCR420U / BCR421U
LED Driver Features * Continuous output current up to 150mA with external resistor * Suitable for supply voltages of 40V and above * Low side current control, C compatible PWM input (BCR421U) up to 10kHz * Up to 1W power dissipation in a small SC74 package * Negative thermal coefficient reduces output current at higher temperatures * Easy paralleling of drivers to increase current * Pb-free (RoHS compliant) package * Automotive qualified according AEC Q101 Applications * Architectural LED lighting * Channel letters for advertising, LED strips for decorative lighting * Retail lighting in fridge, freezer case and vending machines * Emergency lighting (e.g. steps lighting, exit way signs etc.) * Ship, train and aircraft interior illumination
5 6 1 4 2 3
General Description The BCR420U/BCR421U provide a low-cost solution for driving 0.25W LEDs with a typical LED current ILED of 75mA to 150mA. Internal breakdown voltage is >40V, this is the maximum voltage that the LED driver IC can sustain when connected to it directly. The BCR420U/BCR421U can be operated at supply voltages of 40V or higher, by simply stacking a series of LEDs in front of the LED drivers, resulting in a certain voltage drop depending on the forward voltages of the LEDs, reducing the voltage at the supply pin of the driver below 40V. A digital input pin (BCR421U) allows dimming via a Microcontroller with frequencies of up to 10 kHz. A reduction of the output current at higher temperatures is the result of the negative thermal coefficient of 0.2% /K. of the LED drivers. With no need for additional external components like inductors, capacitors and free wheeling diodes, the BCR420U/BCR421U LED drivers are a cost-efficient and PCB-area saving solution for driving 0.25W LEDs.
1
2010-01-15
BCR420U / BCR421U
Pin Configuration Typical Application
+Vs
6
5
4
C
EN IEN IOUT 1 OUT 2,3,5
1
2
3
Rext
6
Vdrop GND
4 BCR421U
Type BCR420U BCR421U
Maximum Ratings Parameter Enable voltage BCR420U BCR421U Output current Output voltage
Marking 40 41 1 = EN
Pin Configuration 2;3;5 = OUT 4 = GND 6 = Rext
Package SC74 SC74
Symbol
Value 40 4.5
Unit V
VEN
Iout Vout VR Ptot Tj Tstg
200 38 0.5 1000 150 -65 ... 150
mA V mW C
Reverse voltage between all terminals Total power dissipation, TS = 100 C Junction temperature Storage temperature Thermal Resistance Parameter Junction - soldering point1)
Symbol
Value 50
Unit K/W
RthJS
1For calculation of R thJA please refer to Application Note Thermal Resistance
2
2010-01-15
BCR420U / BCR421U
Electrical Characteristics at TA=25C, unless otherwise specified Parameter Characteristics Collector-emitter breakdown voltage Symbol min. Values typ. max. V mA 1.2 1.2 350 90 500 105 k 20 1.5 10 10 150 150 0.95 mA 8 8 12 12 1.05 V Unit
VBR(CEO) IEN
40
IC = 1 mA, I B = 0
Enable current
VEN = 24 V , BCR420U VEN = 3.3 V , BCR421U
DC current gain
hFE Rint RB
200 65
IC = 50 mA, VCE = 1 V
Internal resistor
IRint = 10 mA
Bias resistor BCR420U BCR421U Output current
Iout
Vout = 1.4 V, V EN = 24 V, BCR420U Vout = 1.4 V, V EN = 3.3 V, BCR421U Vout > 2.0 V, V EN = 24 V, REXT = 5.1 ,
BCR420U
Vout > 2.0 V, V EN = 3.3 V, R EXT = 5.1 ,
BCR421U Voltage drop (VS - VE)
Vdrop
0.85
Iout = 10mA
DC Characteristics with stabilized LED load Lowest sufficient supply voltage overhead
VSmin
Iout/Iout
-
1.4
-
V %/K
Iout > 18mA
Output current change versus TA
VEN = 24 V; Vout > 2.0 V, BCR420U VEN = 3.3 V; Vout > 2.0 V, BCR421U
Output current change versus VS Iout/Iout
3
-0.2 -0.2 1 1
%/V 2010-01-15
VEN = 24 V; Vout > 2.0 V, BCR420U VEN = 3.3 V; Vout > 2.0 V, BCR421U
BCR420U / BCR421U
Total power dissipation P tot = f (TS) Permissible Pulse Load RthJS = f (tp)
1200
10 3
mW
1000 900 10 2
Ptot
800 700 600 500 400 300 200 100 0 0 20 40 60 80 100 120 C 150
R thJS
10 1
10 0
D = 0,5 0,2 0,1 0,05 0,02 0,01 0,005 0
10 -1 -6 10
10
-5
10
-4
10
-3
10
-2
s
10
0
TS
TP
Permissible Pulse Load
Ptotmax / PtotDC = f (tp)
10 3
-
Ptotmax/PtotDC
10 2
10 1
D=0 0.005 0.01 0.02 0.05 0.1 0.2 0.5
10 0 -6 10
10
-5
10
-4
10
-3
10
-2
s
10
0
TP
4
2010-01-15
BCR420U / BCR421U
BCR420U: Output current versus V out BCR420U: Output current versus Rext
Iout = f (V out ); VEN = 40 V; Rext = Parameter
0.2
Iout = f (R ext ); VEN = 24 V; Iout = 0; Vout = Parameter
0.2
Rext = 6 Ohm
A
Vout = 5.4V Vout = 1.4V
Iout
Rext = 8 Ohm A Rext = 10 Ohm
Iout
0.1 0.05 00 10
Rext = 15 Ohm
Rext = 30 Ohm
Rext = open
0 0
2
4
6
8
V
12
10
1
Ohm
10
2
Vout
Rext.
BCR420U: Output current versus V out
BCR320U: Output current versus V out
Iout = f (V S ); V EN = 40 V; Rext = open; TA= Parameter
0.015
Iout = f (V S ); V EN = 40 V; Rext = 20 Ohm; TA= Parameter
0.08
TA = -40C TA = 25C TA = 85C
A A
Iout
Iout
0.04
0.005 0.02
TA = -40C TA = 25C TA = 85C
0 0
2
4
6
8
V
12
0 0
2
4
6
8
V
12
Vout
Vout
5
2010-01-15
BCR420U / BCR421U
BCR420U: Output current versus V out BCR420U: Output current versus V EN
Iout = f (V S ); V EN = 40 V; Rext = 6 Ohm; TA= Parameter
0.2
Iout = f (VEN); Vout = 2.0 V; Rext = open; TA = Parameter
0.02
A
A
Iout
0.1
Iout
TA = -40C TA = 25C TA = 85C
0.01
0.05
TA = -40C TA = 25C TA = 85C
0.005
0 0
2
4
6
8
V
12
0 0
5
10
15
20
V
30
Vout
VEN
BCR420U: Output current versus V EN
BCR420U: Output current versus V EN
Iout = f (VEN); Vout = 2.0 V; Rext = 20 Ohm; TA = Parameter
0.06
Iout = f (VEN); Vout = 2.0 V; Rext = 6 Ohm; TA = Parameter
0.15
A
A
Iout
Iout
0.04
0.03
TA = -40C TA = 25C TA = 85C
0.05
TA = 85C TA = 25C TA = -40C
0.02
0.01
0 0
5
10
15
20
V
30
0 0
5
10
15
20
V
30
VEN
VEN
6
2010-01-15
BCR420U / BCR421U
BCR420U: Output current versus V EN BCR420U: Enable current versus VEN
Iout = f (VEN); Vout = 2.0 V; Rext = Parameter
0.15
Rext = 6 Ohm
IEN = f (V EN ); Rext = open; Iout = 0; TA = Parameter
3
Rext = 8 Ohm A Rext = 10 Ohm mA
IEN
Iout
TA = 80C TA = 25C TA = -40C
0.05
Rext = 30 Ohm Rext = 60 Ohm Rext = open
1
0 0
5
10
15
20
V
30
0 0
0.5
1
1.5
2
2.5
3
3.5
4 Ohm
5
VEN
VEN
BCR421U: Output current versus V out
BCR421U: Output current versus Rext
Iout = f (V out); VEN = 3.3 V; Rext = Parameter
0.2
Iout = f (R ext); V EN = 3.3 V; Vout = Parameter
0.2
A Rext = 6 Ohm
Iout
Rext = 8 Ohm A Rext = 10 Ohm
Iout
0.1
Vout = 5.4V Vout = 1.4V
Rext = 15 Ohm
Rext = 30 Ohm
0.05
Rext = open
0 0
2
4
6
8
V
12
00 10
10
1
Ohm
10
2
Vout
Rext.
7
2010-01-15
BCR420U / BCR421U
BCR421U: Output current versus V out BCR421U: Output current versus V out
Iout = f (V S ); V EN = 3.3 V; Rext = open; TA= Parameter
0.015
Iout = f (V S ); V EN = 3.3 V; Rext = 20 Ohm; TA= Parameter
0.06
TA = -40C TA = 25C TA = 85C
A A
Iout
Iout
TA = -40C TA = 25C TA = 85C
0.005 0.02
0 0
2
4
6
8
V
12
0 0
2
4
6
8
V
12
Vout
Vout
BCR421U: Output current versus V out
BCR421U: Output current versus V EN
Iout = f (V S ); V EN = 3.3 V; Rext = 6 Ohm; TA= Parameter
0.2
Iout = f (VEN); Vout = 2.0 V; Rext = open TA = Parameter
0.02
A
A
TA = -40C TA = 25C TA = 85C
Iout
0.1
Iout
0.01 0.05
TA = -40C TA = 25C TA = 85C
0.005
0 0
2
4
6
8
V
12
0 0
1
2
3
V
5
Vout
VEN
8
2010-01-15
BCR420U / BCR421U
BCR421U: Output current versus V EN BCR421U: Output current versus V EN
Iout = f (VEN); Vout = 2.0 V; Rext = 20 Ohm TA = Parameter
0.06
Iout = f (VEN); Vout = 2.0 V; Rext = 6 Ohm TA = Parameter
0.15
A
A
Iout
0.03
TA = -40C TA = 25C TA = 85C
0.05
Iout
0.04
0.02
TA = 85C TA = 25C TA = -40C
0.01
0 0
1
2
3
V
5
0 0
1
2
3
V
5
VEN
VEN
BCR421U: Output current versus V EN
BCR421U: Enable current versus VEN
Iout = f (VEN); VS = 3.3 V; Rext = Parameter
0.15
Rext = 6 Ohm
IEN = f (V EN); Rext = open; Iout = 0 TA = Parameter
3
Rext = 9 Ohm A mA
Rext = 10 Ohm
IEN
Iout
TA = 80C TA = 25C TA = -40C
0.05
Rext = 30 Ohm Rext = 60 Ohm Rext = open
1
0 0
1
2
3
V
5
0 0
0.5
1
1.5
2
2.5
3
3.5
4 Ohm
5
VEN
VEN
9
2010-01-15
BCR420U / BCR421U
Application circuit: Enabling / PWM by micro controller
+Vs
Application circuit: Enabling by connecting to Vs
+Vs
C
IOUT IEN EN 1 OUT 2,3,5 EN IEN IOUT OUT 2,3,5
Rext
Rext
6
Vdrop GND
6
Vdrop GND
4 BCR421U BCR420U
4
Application hints BCR420U / BCR421U serve as an easy to use constant current sources for LEDs. In stand alone application an external resistor can be connected to adjust the current from 10 mA to 150 mA. Rext can be determined by using the diagram 'Output current versus external resistor'. Please take into account that the resulting output currents will be slightly lower due to the self heating of the component and the negative thermal coefficient. Please visit our web site for application notes: www.infineon.com/lowcostleddriver for up-to-date application information
10
2010-01-15
Package SC74
BCR420U / BCR421U
Package Outline
2.9 0.2 (2.25) B (0.35)
2.5 0.1
6 5 4
1.1 MAX. 0.15 +0.1 -0.06
0.25 0.1 1.6 0.1
10 MAX.
1
2
3
Pin 1 marking 1.9
0.35 +0.1 -0.05 0.95
10 MAX.
0.2
M
B 6x 0.2
M
A
0.1 MAX. A
Foot Print
0.5
0.95
Marking Layout (Example)
Small variations in positioning of Date code, Type code and Manufacture are possible.
1.9
2.9
Manufacturer
2005, June Date code (Year/Month)
Pin 1 marking Laser marking
BCW66H Type code
Standard Packing
Reel o180 mm = 3.000 Pieces/Reel Reel o330 mm = 10.000 Pieces/Reel For symmetric types no defined Pin 1 orientation in reel.
4
0.2
Pin 1 marking
3.15
2.7 8
1.15
11
2010-01-15
BCR420U / BCR421U
Edition 2009-11-16 Published by Infineon Technologies AG 81726 Munich, Germany
2009 Infineon Technologies AG All Rights Reserved.
Legal Disclaimer The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics. 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 non-infringement of intellectual property rights of any third party.
Information For further information on technology, delivery terms and conditions and prices, please contact the nearest Infineon Technologies Office ().
Warnings Due to technical requirements, components may contain dangerous substances. For information on the types in question, please contact the nearest Infineon Technologies Office. Infineon Technologies components may be used in life-support devices or systems only 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.
12
2010-01-15


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