TLE4241GMFUMA1 - INFINEON TECHNOLOGIES AG

Type Package

TLE4241GM P-DSO-8-9

Adjustable Current LITIX™ Linear

TLE4241GM

P-DSO-8-3, -6, -7, -8, -9

Data Sheet 1 Rev. 1.4, 2015-10-05

Features

• Adjustable constant output current

• Wide input voltage range

• Low drop voltage

• Open load detection

• Overtemperature protection

• Short circuit proof

• Reverse polarity proof

• Wide temperature range: -40 °C < Tj < 150 °C

• Very small SMD-Package

• Green Product (RoHS compliant)

• AEC Qualified

Functional Description

The TLE4241GM is an integrated adjustable constant current source. It provides an

output current adjustable via different means (SET, PWM, reference resistor) which is

kept nearly independent from lo ad and supply voltage changes. The IC is designed to

supply LEDs under the severe conditions of automotive applications resulting in constant

brightness and extended LED lifetime. It is provided in the very small P-DSO-8-9

(Micro 8) package. Protection circuits prevent damage to the device in case of overload,

short circuit, reverse polarity and overtemp erature. The connected LEDs are protected

against reverse polarity as well as excess voltages up to 45 V. A status output allows

handling of open load and short circuit at the main output.

A PWM input offers the possibility to adjust the LED brightness by pulse width

modulation.

With an implemented high/low current switch the output current level can be reduced e.g.

for brake/tail light applicati on.

The implemented features such as adjustable output current, the high/low current switch

and the provided PWM input ma ke the device well sui ted fo r a broad ran ge of LED an d

other applications.

Data Sheet 2 Rev. 1.4, 2015-10-05

TLE4241GM

Circuit Description

Figure 1 Block Diagram

An internal reference voltage of typ. 1.20 V supplies the REF pin which is connected to

GND via an external resistor. In the SET = H mode the reference current flowing on the

REF pin is mirrored with an amplification to form the desired output current. The typ.

output current in the SET = H mode calculates:

(1)

The output current is shown as a function of the reference resistance on Page 10 for the

high as well as for the low current mode.

With the PWM input the LED brightness can be regulated via duty cycle. Also PWM = L

sets the TLE4241 in sleep mode resulting in a very low current consumption of << 1 μA

typ. Due to the high impedance of the PWM input (see timing diagram IPWM versus VPWM

on Page 12) the PWM pin can thus also be used as an Enable input.

AEB03003

Regulation

High

Regulation

Low

Reference

Voltage

Status

Control

V/I Converter

REF

SET

PWM

GND

IQtyp,/mA 1.20

RREF/kΩ

---------------------- 487 0.1+×=

TLE4241GM

Data Sheet 3 Rev. 1.4, 2015-10-05

Figure 2 Pin Configuration (top view)

Table 1 Pin Definitions and Functions

Pin No. Symbol Function

1GNDGround; internally connected to pin 5

2STStatus Output; open collector output, connect to external

pull-up resistor (10 kΩ or higher)

3PWMPulse Width Modulation Input; if not needed connect to VI

4 SET High/Low Current Input; choice of current level

5GNDGround; internally connected to pin 1

6REFReference Input; connect to GND via an external resistor to

adjust the output current

7QOutput

8IInput; block to GND directly at the IC with a 100 nF ceramic

capacitor

AEP03002

81GND I

ST 2 7

PWM 3 6

SET 4 5

REF

GND

Data Sheet 4 Rev. 1.4, 2015-10-05

TLE4241GM

Application Information

Figure 3 Application Circuit

Figure 3 shows a typical application with the TLE4241GM LITIXTM Lin ear. The 3 LEDs

are driven with an adequate supply current adjusted by the resistor RREF. Thus

brightness variations due to forward voltage spread of the LEDs are prevented. The

luminosity spread arising from the LED production process can be compensated via

software by an appropriate duty cycle applied to the PWM pin. Hence selection of the

LEDs to forward voltage as well as to luminosity classes can be spared. The slightly

negative temperature coefficient of the TLE4241GM output current protects the LEDs

against over-temperature stress if the IC is placed nea rby the LEDs.

The voltage drop (VI - VQ) across the TLE4241GM is monitored in order to detect an

open load condition indicated at the status output pin ST. In case of open load, the

voltage drop will decrease bel ow the lower status switching threshold Vdr,L. Hence, the

status output ST wi ll be driven low. In normal operation , the voltage drop is above the

upper status threshold Vdr,H, thus the open collector output ST is in high-ohmic state (see

also section Status Output at the Electric al Characteristics).

The function of ST, SET and PWM as well as their timings are shown in Figure 4.

AED03098

TLE 4241G

REF

µC SET

PWM

TLE 4271

WD R

Batt

LA E67B

OSRAM

22 µF 100 nF

10 k

TLE4241GM

Data Sheet 5 Rev. 1.4, 2015-10-05

Figure 4 Function and Timing Diagram

Open Load

AET03339.VSD

VPWM

VPWM, H

VPWM, L

VSET

VSET, H

VSET, L

VST

VSTL

tSET, H

tSET, L

tPWM, ON

tPWM, OFF

Data Sheet 6 Rev. 1.4, 2015-10-05

TLE4241GM

Note: Maximum ratings are absolute ratings; exceeding any one of these values may

cause irreversible damage to the integrated circuit.

Table 2 Absolute Maximum Ratings

-40 °C < Tj < 150 °C

Parameter Symbol Limit Values Unit Remarks

Min. Max.

Input

Voltage VI-42 45 V –

Current II– – mA internally limited

Output

Voltage VQ-1 40 V –

Current IQ– – mA internally limited

Status Output

Voltage VST -0.3 40 V –

Current IST – 5 5 mA internally limited

Reference Input

Voltage VREF -0.3 7 V –

Current IREF -2 2 mA –

Pulse Width Modulation Inp ut

Voltage VPWM -40 40 V –

Current – -1 1 mA –

High/Low Cur rent Input

Voltage VSET -40 40 V –

Current ISET -1 1 mA –

Temperatures

Junction temperature Tj-40 150 °C–

Storage temperature Tstg -50 150 °C–

Thermal Resistances

Junction ambient Rthja – 105 K/W 1)

1) Worst case regarding peak temperature; mounted on PCB 80 × 80 × 1.5 mm3, 35 μm Cu, 300 mm2 heat sink

area.

TLE4241GM

Data Sheet 7 Rev. 1.4, 2015-10-05

Table 3 Operating Range

Parameter Symbol Limit Values Unit Remarks

Min. Max.

Input voltage VI445V–

Status outpu t vol t age VST –16V–

SET voltage VSET 040V–

PWM voltage VPWM 040V–

Junction temperature Tj-40 150 °C–

Reference Resistor RREF 7100kΩSET = H

4.7 18 kΩSET = L

Data Sheet 8 Rev. 1.4, 2015-10-05

TLE4241GM

Table 4 Electrical Characteristics

9V ≤ VI ≤ 16 V; RREF = 10 kΩ; VPWM ≥ VPWM,H; -40 °C < Tj < 150 °C; all voltages with

respect to ground; positive current defined flowing into pin; unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Min. Typ. Max.

Current consumption off

mode IqOFF –0.14μAPWM = L, TJ < 85 °C;

VI ≤ 13.5 V

Current consumption IqL –47mASET = L; VQ = 6 V

Current consumption IqH –57mASET = H; VQ = 6 V

Current consumption

open load IqL,O ––8mASET = L; VQ open

Current consumption

open load IqH,O ––8mASET = H; VQ open

Output

Output current IQ7 8.4 9.5 mA SET = L, VQ = 6 V

–8.6–mASET = L, VQ = 4 V

Output current IQ50 58.5 65 mA SET = H, VQ = 6 V

– 60.0 – mA SET = H, VQ = 4 V

Current Ratio IQH/IQL 678––

Output current limit IQmax – 83 – mA SET = L; RREF = 0 Ω

Output current limit IQmax – 83 – mA SET = H; RREF = 0 Ω

Drop voltage Vdr – 0.2 0.5 V SET = L;

IQ = 80% of IQ,nom,L

Drop voltage Vdr – 0.3 0.5 V SET = H;

IQ = 80% of IQ,nom,H

PWM Input

PWM high level VPWM,H 2.0––V–

PWM low level VPWM,L ––0.5V–

PWM input current

high level IPWM,H – 220 500 μAVPWM = 5.0 V

PWM input current

low level IPWM,L -10 – 10 μAVPWM = 0.0 V

Turn on delay time tPWM,ON 0530μs 20%/80% IQ, see

Figure 4

TLE4241GM

Data Sheet 9 Rev. 1.4, 2015-10-05

Turn off delay time tPWM,OFF 01030μs 20%/80% IQ, see

Figure 4

SET Input

SET high level VSET,H 2.0––V–

SET low level VSET,L ––0.5V–

SET input current

high level ISET,H – 220 500 μAVSET = 5.0 V

SET input current

low level ISET,L -10 – 10 μAVSET = 0.0 V

Delay time L -> H tSET,H ––30μs 20%/80% IQ, see

Figure 4

Delay time H -> L tSET,L ––30μs 20%/80% IQ, see

Figure 4

Status Output

Lower status switching

threshold Vdr,L 0.15––V(VI - VQ) decre asing

SET = L

0.15––V(

VI - VQ) decreasing

SET = H

Upper status switching

threshold Vdr,H ––0.7V(VI - VQ) increasing

SET = L

––0.7V(

VI - VQ) increasing

SET = H

Status low voltage VSTL ––0.4V(VI - VQ) < Vdr,L

IST = 1.0 mA

Leakage current ISTLK ––10μA(VI - VQ) > Vdr,H

VST = 5.0 V

Table 4 Electrical Characteristics (cont’d)

9V ≤ VI ≤ 16 V; RREF = 10 kΩ; VPWM ≥ VPWM,H; -40 °C < Tj < 150 °C; all voltages with

respect to ground; positive current defined flowing into pin; unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Min. Typ. Max.

Data Sheet 10 Rev. 1.4, 2015-10-05

TLE4241GM

Typical Performance Characteristics

Output Current versus

External Resistor, SET = H

Output Current versus

Supply Voltage, SET = H

Output Current versus

External Resistor, SET = L

Output Current versus

Supply Voltage, SET = L

AED03333.VSD

5RREF

100

10 20 50 100

kΩ

mA SET = H

VQ = 6 V

AED03335.VSD

0VI

100

5 1015202530 40

VQ = 6 V

RREF = 10 kΩ

SET = H

AED03334.VSD

5RREF

10 20 50 100

kΩ

mA SET = L

VQ = 6 V

AED03336.VSD

0VI

5 1015202530 40

VQ = 6 V

RREF = 10 kΩ

SET = L

Data Sheet 11 Rev. 1.4, 2015-10-05

TLE4241GM

Reference Voltage versus

Junction Temperature

AED03340.VSD

-40 Tj

0 40 80 °C 160

1.15

1.19

1.21

1.23

1.25

1.17

VREF RREF = 10 kΩ

Data Sheet 12 Rev. 1.4, 2015-10-05

TLE4241GM

PWM Pin Input Current versus

PWM Voltage

SET Pin Input Current versus

SET Voltage

PWM Pin Input Current versus

PWM Voltage

SET Pin Input Current versus

SET Voltage

AED03332.VSD

0VPWM

5 1015202530 V40

0.5

1.0

1.5

2.0

IPWM

AED03338.VSD

0VSET

0.5

1.0

1.5

2.0

2.5

5 1015202530 40

ISET

AED03331.VSD

0VPWM

123456 V8

100

200

300

400

µA

IPWM

AED03337.VSD

0VSET

123456 V8

100

200

300

400

µA

ISET

TLE4241GM

Data Sheet 13 Rev. 1.4, 2015-10-05

Package Outlines

Figure 5 P-DSO-8-9 (Plastic Dual Small Outline)

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 Ro HS-Compliant (i.e Pb-free finish on lead s and suitable

for Pb-free soldering according to IPC/JEDEC J-STD-020).

) Does not include plastic or metal protrusion of 0.15 max. per sid

-0.06

-0.2

+0.1

.41

1.27

0.1

0.2 MA

(1.45)

0.175

1.75 MAX.

±0.2

0.64

-0.2

0.19

+0.06

0.35 x 45°

±0.25

MAX.8°

ndex

arking

±0.07

) Lead width can be 0.61 max. in dambar area

GPS01229

You can find all of our packages, sorts of packing and others in our

Infineon Internet Page “Products”: http://www.infineon.com/products.

Dimensions in mm

SMD = Surface Mounted Device

TLE4241GM

Revision History

Data Sheet 14 Rev. 1.4, 2015-10-05

Version Date Changes

Rev. 1.2 2004-04-13 Page 4, 9: Improved indication and expl anation of the open

load detectio n function.

Rev. 1.3 2007-03-19 Initial version of RoHS-compliant derivate of TLE4241GM

Page 1: AEC certified statement added

Page 1 and Page 13: RoHS compliance statement and

Green product feature added

Page 1 and Page 13: Package changed to RoHS compliant

version

Legal Disclaimer updated

Rev. 1.4 2015-07-09 Electrical Characteristics updated Page 8

Edition 2015-10-05

Published by

Infineon Technologies AG

81726 Munich, Germany

Legal Disclaimer

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characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any

information regard ing the application of t he device, Infineon Technologies hereby disclaims any and all warranties

and liabilities of any kind, including without limit ation, warranties of non-infringement of intellectual property rights

of any third party.

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For further information on technology, delivery terms and conditions and prices, pl ease contact the nearest

Infineon Technologies Office (www.infineon.com).

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