Datasheet TLE 4208 Datasheet (INFINEON)

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1-A Quad-HBD (Quad-Half-Bridge Driver) TLE 4208

Overview

Features

• Driver for up to 3 motors

• Delivers up to 0.8 A continuous

• Optimized for DC motor management applications

• Very low current consumption in stand-by (Inhibit)
mode

• Low saturation voltage

• Output protected against short circuit

• Error flag diagnosis

• Overvoltage lockout and diagnosis

• Undervoltage lockout

• CMOS/TTL compatible inputs with hysteresis

• No crossover current

• Internal clamp diodes

• Overtemperature protection with hysteresis and diagnosis

• Enhanced power P-DSO-Package

; typ.1.2 V total @ 25 °C; 0.4 A

Type Ordering Code Package

TLE 4208 G Q67007-A9335 P-DSO-28-18

Description

The TLE 4208 is a fully protected Quad-Half-Bridge-Driver designed specially for
automotive and industrial motion control applications.

The part is built using the Siemens bipolar high voltage power technology DOPL .
In a cascade configuration up to three actuators (DC motors) can be connected between

the four half-bridges. These four half-bridges are configured as 2 dual-half-bridges,
which are supplied and controlled separately. Operation modes forward (cw), reverse
(ccw), brake and high impedance are invoked from a standard interface.

The standard enhanced power P-DSO-28 package meets the application requirements
and saves PCB-board space and costs.

Furthermore the built-in features like diagnosis, over- and undervoltage-lockout, short­circuit protection, over-temperature protection and the very low quiescent current in
stand-by mode will open a wide range of automotive and industrial applications.

Data Sheet 1 2004-02-27

TLE 4208

GND

EF

IN1

N.C.

OUT1

GND
GND
GND
GND

OUT3

N.C.

IN3

INH

GND

128
2

12

3
4
5
6
7

TLE 4208 G

8
9
10
11
12
13

34

14

Figure 1 Pin Configuration (top view)

27
26
25
24
23
22

21
20
19
18
17
16
15

N.C.
INH

12

IN2

V

S12

OUT2
GND
GND
GND
GND
OUT4

V

S34

IN4
EF

34

N.C.

AEP02349

Data Sheet 2 2004-02-27

Pin Definitions and Functions
Pin No. Symbol Function

TLE 4208

1, 6, 7, 8, 9,
14, 20, 21,

GND Ground;

negative reference potential for blocking capacitor

22, 23
2EF

12

Error Flag output of half-bridges 1and 2;
open collector; low = error

3IN1Input channel of half-bridge 1;

controls OUT1
4, 11, 15, 28 N.C. Not connected
5OUT1Power output of half-bridge 1;

full short circuit protected; with integrated clamp diodes
10 OUT3 Power output of half-bridge 3;

full short-circuit protected; with integrated clamp diodes
12 IN3 Input channel of half-bridge 3;

controls OUT3
13 INH

34

Inhibit input of half-bridges 3 and 4;

low = half-bridges 3 and 4 in stand-by
16 EF

34

Error Flag output of half-bridges 3 and 4;

open collector; low = error
17 IN4 Input channel of half-bridge 4;

controls OUT4
18

V

S34

Power supply voltage of half-bridges 3 and 4;

positive reference potential for blocking capacitor
19 OUT4 Power output of half-bridge 4;

full short circuit protected; with integrated clamp diodes
24 OUT2 Power-output of half-bridge 2;

full short circuit protected; with integrated clamp diodes
25

V

S12

Power supply voltage of half-bridges 1 and 2;

positive reference potential for blocking capacitor
26 IN2 Input channel of half-bridge 2;

controls OUT2
27 INH

12

Inhibit input of half-bridges 1and 2;

low = half-bridges 1 and 2 in stand-by

Data Sheet 3 2004-02-27

TLE 4208

INH

EF

INH

EF

12

12

IN1

IN2

34

34

IN3

IN4

27

2

3

26

13

16

12

17

INH

0
1
1
1

INH

0
1
1
1
1

Inhibit 1,2

Fault-Detection 1,2

IN1 IN2

12

0
0
1
1

Inhibit 3,4

Fault-Detection 3,4

34

IN3

IN4

X

0
0
1
1

0
1
0
11

X
0
1
0
1

TLE 4208 G

OUT1 OUT2

ZXZX
L
L
H
H

OUT3

Z
L

L

H

L

H

OUT4

Z

L
LH
H
H

L

H

DRV1

DRV2

DRV3

DRV4

25

5

24

1,6,7,8,

9,14,

20,21,

22,23

10

19

18

V

S12

OUT1

OUT2

GND

OUT3

OUT4

V

S34

AEB02350

Figure 2 Block Diagram

Data Sheet 4 2004-02-27

Input Logic

Functional Truth Table of Halfbridge 1 and 2

TLE 4208

INH

12

IN1 IN2 OUT1 OUT2 Mode

0 X X Z Z Stand-By
1

1
1
1

0
0
1
1

0
1
0
1

L
L
H
H

L
H
L
H

Brake LL
CW
CCW
Brake HH

Note: Half-Bridge 1 and 2 connected to a full-bridge

Functional Truth Table of Half-Bridge 3 and 4
INH

34

IN3 IN4 OUT3 OUT4 Mode

0 X X Z Z Stand-By
1

1
1
1

0
0
1
1

0
1
0
1

L
L
H
H

L
H
L
H

Brake LL
CW
CCW
Brake HH

IN: 0 = Logic LOW OUT: Z = Output in tristate condition

1 = Logic HIGH L = Output in sink condition
X = don’t care H = Output in source condition

Note: Half-Bridge 3 and 4 connected to a full-bridge

Diagnosis
EF

1
0
0
1
1
0
0

12

EF

1
1
1
0
0
0
0

34

Error

no error
over temperature of half-bridge 1 and 2 or
over voltage of half-bridge 1 and 2
over temperature of half-bridge 3 and 4 or
over voltage of half-bridge 3 and 4
over temperature of all half-bridges or
over voltage of all half-bridges

Data Sheet 5 2004-02-27

Electrical Characteristics

Absolute Maximum Ratings
Parameter Symbol Limit Values Unit Remarks

min. max.

Voltages

TLE 4208

Supply voltage

Supply voltage

Logic input voltages
(IN1; IN2; INH
IN3; IN4; INH

34

12

;

)

Logic output voltage

; EF34)

(EF

12

Currents

Output current (cont.)
Output current (peak)
Output current (diode)
Output current (EF)

Temperatures

V

S12,

V

S34

V

S12,

V

S34

V

I

V

EF12,

V

EF34

I

OUT1-4

I

OUT1-4

I

OUT1-4

I

EF12-34

– 0.3 45 V –

– 1 – V t < 0.5 s;

I

, I

S34

S12

S12

> – 2 A

, V

S34

, V

S34

S12

– 5 20 V 0V < V

– 0.3 20 V 0 V < V

– – A internally limited
– – A internally limited
–1 1 A –
–2 5 mA –

< 45 V

< 45 V

Junction temperature
Storage temperature

T

j

T

stg

– 40 150 °C–
– 50 150 °C–

Thermal Resistances

Junction pin
Junction ambient

R
R

thj-pin
thjA

– 25 K/W measured to pin 7
–65K/W–

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

cause irreversible damage to the integrated circuit.

Data Sheet 6 2004-02-27

Operating Range
Parameter Symbol Limit Val ues Unit Remarks

min. max.

TLE 4208

Supply voltage

Supply voltage increasing

Supply voltage decreasing

Logic input voltages
(IN1; IN2; INH
IN3; IN4; INH

34

12

;

)

Junction temperature

V
V

V
V

V
V

V

T

S12,
S34

S12,
S34

S12,
S34

I

j

V

UV OFF

18 V After V

above

– 0.3 V

– 0.3 V

UV ON

UV OFF

V Outputs in tristate

V Outputs in tristate

– 2 18 V –

– 40 150 °C–

S12, VS34

V

UV ON

rising

Note: In the operating range the functions given in the circuit descrip tion are fulfilled.

Data Sheet 7 2004-02-27

TLE 4208

Electrical Characteristics

V

8 V <

S12

= V

unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Current Consumption

INH

= INH34 = LOW

12

< 18 V; INH12 = INH34 = HIGH; I

S34

min. typ. max.

OUT1-4

= 0 A; – 40 °C < Tj < 150 °C;

Quiescent current
Quiescent current

INH

= HIGH and INH34 = LOW or INH12 = LOW and INH34 = HIGH

12

Supply current
Supply current

Supply current

I
I

I
I

I

S
S

S12
S12

S12

, I
, I

, I

Over- and Under Voltage Lockout

UV Switch ON voltage

UV Switch OFF voltage

V

UV ON

V

UV OFF

––100µA IS = I
–2040µA IS = I

–1020mA–

S34

––30mAI

S34

––50mAI

S34

–6.57.5VV

56–VV

+ I

S12

+ I

S12

V

= V

S12

T

= 25 °C

j

OUT1/3

I

OUT2/4
OUT1/3

I

OUT2/4

S12

S34

= 0.4 A
= – 0.4 A

= 0.8 A
= – 0.8 A

, V

S34

increasing

S12, VS34

decreasing

S34

;

S34

=13.2V;

UV ON/OFF hysteresis

V

OV Switch OFF voltage V

UV HY
OV OFF

–0.5–VV
–2024VV

– V

UV ON
S12, VS34

UV OFF

increasing

OV Switch ON voltage

V

OV ON

18 19.5 – V V

S12, VS34

decreasing

OV ON/OFF hysteresis

Data Sheet 8 2004-02-27

V

OV HY

–0.5–VV

OV OFF

– V

OV ON

TLE 4208

Electrical Characteristics (cont’d)

V

8 V <

S12

= V

unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Outputs OUT1; OUT2; OUT 3; OUT 4
Saturation Voltages

< 18 V; INH12 = INH34 = HIGH; I

S34

min. typ. max.

OUT1-4

= 0 A; – 40 °C < Tj < 150 °C;

Source (upper)

I

OUT12

, I

OUT34

= – 0.2 A

Source (upper)

I

OUT12

, I

OUT34

= – 0.4 A

Sink (upper)

I

OUT12

, I

OUT34

= – 0.8 A

Sink (lower)

I

OUT12

,

I

OUT34

= 0.2 A

Sink (lower)

I

OUT12

, I

OUT34

= 0.4 A

Sink (lower)

I

OUT12

, I

OUT34

= 0.8 A

Total Drop

I

OUT12

, I

OUT34

= 0.2 A

Total Drop

I

OUT12

, I

OUT34

= 0.4 A

Total Drop

I

OUT12

, I

OUT34

= 0.8 A

V

SAT U

V

SAT U

V

SAT U

V

SAT L

V

SAT L

V

SAT L

V

SAT

V

SAT

V

SAT

– 0.85 1.15 V Tj = 25 °C

– 0.90 1.20 V Tj = 25 °C

– 1.10 1.50 V Tj = 25 °C

– 0.15 0.23 V Tj = 25 °C

– 0.25 0.40 V Tj = 25 °C

– 0.45 0.75 V Tj = 25 °C

V

V

V

SAT

SAT

SAT

= V

= V

= V

SAT U

SAT U

SAT U

–11.4V

–1.21.7V

–1.62.5V

+ V

+ V

+ V

SAT L

SAT L

SAT L

Clamp Diodes

Forward voltage; upper
Upper leakage current
Forward voltage; lower V

Notes see page 11.

Data Sheet 9 2004-02-27

V
I

LKU

FU

FL

–11.5VIF = 0.4 A
––5mAIF = 0.4 A
–0.91.4VIF = 0.4 A

1)

TLE 4208

Electrical Characteristics (cont’d)

V

8 V <

S12

= V

unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Input Interface
Logic Inputs IN1; IN2; IN3; IN4

< 18 V; INH12 = INH34 = HIGH; I

S34

min. typ. max.

OUT1-4

= 0 A; – 40 °C < Tj < 150 °C;

H-input voltage
L-input voltage
Hysteresis of input voltage
H-input current
L-input current

Logic Inputs INH12; INH

V
V
V
I
I

34

H-input voltage V
L-input voltage
Hysteresis of input voltage
H-input current
L-input current

Error-Flags EF12; EF

34

V
V
I
I

L-output voltage level V

IH
IL

IHY
IH
IL

IH

IL

IHY
IH
IL

EFL

–2.03.0V–

1.0 1.5 – V –
–0.5–V–
–2 – 10 µA VI = 5 V
–100 –20 –5 µA VI = 0 V

–2.73.5V–

1.0 2.0 – V –
–0.7–V–
– 100 250 µA V
–10 – 10 µA V

INH
INH

= 5 V
= 0 V

–0.20.4VIEF =2 mA

Leakage current

Data Sheet 10 2004-02-27

I

EFLK

– –10µA0V < VEF < 7 V

TLE 4208

Electrical Characteristics (cont’d)

V

8 V <

S12

= V

unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Thermal Shutdown

< 18 V; INH12 = INH34 = HIGH; I

S34

min. typ. max.

OUT1-4

= 0 A; – 40 °C < Tj < 150 °C;

Thermal shutdown junction

T

jSD

150 175 200 °C–

temperature
Thermal switch-on junction

T

jSO

120 – 170 °C–

temperature
Temperature hysteresis ∆

1)

Guaranteed by design.

T –30–K–

Note: The listed characteristics are ensured over the operating range of the integrated

circuit. Typical characteristics specify mean values expected over the production
spread. If not otherwise specified, typical characteristics apply at

T

= 25°C and

A

the given supply voltage.

Data Sheet 11 2004-02-27

Watchdog In

Watchdog Out

Reset Out

Q

8
1
14

9

TLE 4278 G

3,4,5,10,11,12 76

Input

13

Watchdog
Adjust

2

TLE 4208

= 12 V

V

S

D1
1N4001

R

GNDD

QA

R

Ω

10 k

10 k

V

RWDIWDO

CC

INH12

QB

Ω

C

Q

22 F

µ

27

C

D

100 nF

Inhibit 1,2

Reset
Adjust

TLE 4208 G

R

WA

100 k

Ω

C

Ι

100 nF

V

26

C

S

22 F

µ

S12

DRV1

EF12

2

IN1

3

IN2

26

µ

C

INH34

13

Fault-Detection 1,2

INH12

IN1 IN2

0

0L0

1

0

1
1

1
0

1
1H11

Inhibit 3,4

OUT1 OUT2

ZXZX
L
H

L

L

H

H

DRV2

8,9,14

20,21,

22,23

5

24

1,6,7,

OUT1

M1

OUT2

GND

DRV3

EF34

IN3

IN4

16

12

17

Fault-Detection 3,4

INH34

IN3

IN4

0
1
1
1
1

X

X

0

0
0

1
0

1

1

1

OUT4

OUT3

Z

Z

L

L

LH

H

L

H

H

DRV4

10

19

18

OUT3

M2

OUT4

V

S34

AES02351

Figure 3 Application Circuit 1 (Device is Used as Dual-Full-Bridge-Driver)

Data Sheet 12 2004-02-27

Diagrams

TLE 4208

Quiescent current

I

over Temperature

50

µ

A

Ι

S

40

30

20

10

0

-50 0

= 18 V

V

S

= 13.2 V

V

S

= 8 V

V

S

S

Saturation Voltage of Source V

SAT U

over Temperature

AED02352

100

T

j

1500

V

SAT U

1250

= 14 V

V

S

Ι

OUT

= 800 mA

mV

1000

750

Ι

Ι

OUT

OUT

= 400 mA

= 200 mA

500

250

0

15050

C

-50

0 50 100 150

AED02308

˚C

T

j

Saturation Voltage of Sink
over Temperature

1000

V

SAT L

750

500

250

mV

0

-50

= 14 V

V

S

= 800 mA

Ι

OUT

= 400 mA

Ι

OUT

= 200 mA

Ι

OUT

0 50 100 150

V

SAT L

AED02309

˚C

T

Total Drop at outputs

V

SAT

over Temperature

2000

V

SAT

V

S

= 14 V

mV

= 800 mA

Ι

OUT

1500

= 400 mA

Ι

OUT

= 200 mA

Ι

1000

OUT

500

0

-50

j

0 50 100 150

AED02310

˚C

T

j

Data Sheet 13 2004-02-27

Package Outlines

P-DSO-28-18

(Plastic Dual Small Outline Package)

-0.1

0.2

-0.2

2.45

2.65 MAX.

7.6

-0.2

TLE 4208

0.35 x 45˚

1)

+0.09

MAX.8˚

0.23

0.35

1.27

+0.15

2)

0.1

28x0.2

28

1

18.1

-0.4

15

14

1)

0.4

10.3

+0.8

±0.3

Index Marking

1)

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

2)

Does not include dambar protrusion of 0.05 max. per side

Sorts of Packing

Package outlines for tubes, trays etc. are contained in our
Data Book “Package Information”.

SMD = Surface Mounted Device

Dimensions in mm

Data Sheet 14 2004-02-27