SGS Thomson Microelectronics L9349DIE1, L9349 Datasheet

QUAD INTELLIGENT POWER LOW SIDE SWITCH

■

Quad power l ow side driver wi t h 2 x 5A and
2 x 3A output current capability

■

Low R

= 25°C

@ T

j

■

Internal output clamping structures with
V

= 50V for fast inductive load current

FB

typically 200mΩ and 300m

DSON

recirculation

■

Limited output voltage slew rate for low EMI

■

Protected µP compatible enable and input

■

Wide operati ng supply voltage ra nge 4.5 V to 32V

■

Real time diagnostic functions:
– Output shorted to GND

– Output shorted to V

SS

– Open load detection in ON and OFF condition
– Load bypass detection
– Overtemperature detection

■

Device protection functions:
– Overload disable

– Selective thermal shutdown

■

Signal- and Power-Ground-loss shutdown

Ω

L9349

PowerSO20 BARE DIE

ORDERING NUMB ERS :

L9349 L9349DIE1

DESCRIPTION

The L9349 is a monolithic integrated quad low side
driver realized in an advanced M ultipowerBCD mixed
technology. The device is intended to drive valves in
automotive environment.

The inputs are µP compatible. Particular care has
been taken to protect the device against failures, to
avoid electromagnetic interferences and to offer ex­tensive real time diagnostic.

BLOCK DIAGRAM

September 2002

IN1

D1

EN

IN4

D4

IN2

D2

IN3

D3

00AT0025

Output Control

Diagnostic

Control

R

QS

Channel 1

Delay

Time

Channel 4

Channel 2

Channel 3

GND

Overtemp

Overload

Openload

52V

OUT1

VS

OUT4

R

IO

OUT2

OUT3

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L9349

PIN CONNECTION

Heat sink connected
to pins 1, 10, 11, 20

PGND 1

OUT1 2

D1

3

IN4 4

VS 5

NC

6

IN3 7

D2 8

OUT2

9

PGND 10

00AT0026

PIN DESCRIPTION

N° Pin Function

1 PGND Power Ground
2 Out1 Output 1 (5A)
3 D1 Diagnostic 1
4 IN4 Input 4
5 VS Supply Voltage

20 PGND

OUT4

19

D418
IN117
EN

16

GND15
IN214
D3

13

OUT312
PGND11

6 NC Not Connected
7 IN3 Input 3
8 D2 Diagnostic 2

9 Out2 Output 2 (5A)
10 PGND Power Ground
11 PGND Power Ground
12 Out3 Output 3 (3A)
13 D3 Diagnostic 3
14 IN2 Input 2
15 GND Signal Ground
16 EN Common Enable
17 IN1 Input 1
18 D4 Diagnostic 4
19 Out4 Output 4 (3A)
20 PGND Power Ground

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THERMAL DATA

Symbol Parameter Value Unit

L9349

R

Th j-case

Thermal resistance junction to case 3 °C/W

ABSOLUTE MAXIMUM RATINGSI

Symbol Parameter Conditions Value Unit

V

V

SP

dVS/dt



V

IN, EN

V

V

ODC

I

O1, 2

I

O3, 4

I

OR1, 2

I

OR3, 4

E

O1, 2

E

O3, 4

V

∆

GND

T

jEO

T

T

stg

T

jDIS

ESD Electrostatical Discharging MIL883C +-2 kV

ESD OUT1 - 4 vs. Common-GND

DC Supply Voltage -0.3 to 32 V

S

Supply Voltage Pulse (duration <200ms) -0.3 to 45 V
Supply Voltage Slope 10



Input Voltage
Diagnostic DC Output Voltage

D

I

I

10mA

50mA

-1.5 to 6 V

-0.3 to 16 V
DC Output Voltage -0.3 to 45 V
DC Output Current Out 1, 2 5 A
DC Output Current Out 3, 4 3 A
Reverse Output Current -5 A
Reverse Output Current -3 A
Switch-off Energy for Inductive Loads

tEO = 250µs,

1)

50 mJ

T = 5ms 30 mJ
GND Potential Difference Tj = -40 to 150°C ±0.3 V
Junction Temperature During Switch-off

Junction Temperature -40 to T

j

Σt ≤
Σt ≤

30 min
15 min

175 °C
190 °C

jDIS

Storage Temperature -55 to 150 °C
Thermal Disable Junction Temp. Threshold 180 to 210 °C

+-4 kV

(PGNDs + GND)

V/µs

°C

1) tEO is the clamping time (see F i gure 1)

Electrical Characteristcs (Operating Range)

The electrical characteristics are valid within the below defined operating range, unless otherwise specified.

Symbol Parameter Test Condition Min. Typ. Max. Unit

V
T
T

1) Parameters guaranteed by corre l ation

Board Supply Voltage 4.5 12 32 V

S

Junction Temperature -40 150 °C

j1

Junction Temperature

j2

15min 1) over life time

Σt ≤

150 T

jDIS

°C

3/12

L9349

g

ELECTRICAL CHARACTERISTICS

(V

= 4.5 to 32V; -40°C ≤ Tj1 ≤ 150°C < Tj2 ≤ T

S

jDIS

Symbol Parameter Test Conditions

Supply

I

VS OFF

I

VS ON

DC Supply Current Off EN = 1.0V 5 10 mA
DC Supply Current On

VS ≤ 14V; VIN, VEN = 2V

Diagnostic Outputs D1 - D4

V

Diagnostic Output Low

DL

≤ 3mA

I

D

Voltage

I

DLE

Diagnostic Output
Leakage Current

VD = 14V

1)

Outputs Out 1 - Out 4

R

DSON 1, 2

R

DSON 3, 4

Output On Resistance Tj = 25°C

T

= 150°C

j

VS > 9.5V I
Tj = 25°C

O1,2

Tj = 150°C
VS > 9.5V
I

= 1.3A

O3,4

, unless other-wise specified.)

Values T

Min. Typ. Max. Min. Max.

8mA

0.65 1.0 1.5 V

0.1 2 20

200 300

= 2A

300 450

j1

Values T

j2

Unit

A

µ

m

Ω

500

m

Ω

750

V

Z

R

O

V

OUV 1-4

V

OUV hys 1-

4

∆

V

OUV 1-4,

2-3, 4-1, 3-2

Z-diode clamping

e

volta
Output pull down

resistor
Open Load Voltage

I

≥ 200mA

OCL

VS > 9.5V
EN = 0V

VIN = 1V 0.525 x

Threshold
Hysteresis 0.003 x

Open Load Difference
Voltage Thres hold

V

IN1,4/2,3

= 1V VS ≤ 16V

VOc Š 4.5V

= output voltage of

V

OC

45 60 V

10 40 50

V

V

OC

1.0V

0.55 x

S

V

V

-

V

OC

1.25V

0.575 x

S

S

V

S

V

-

OC

-

1.5V

other channel

V

∆

OUV hys

1-4, 2-3,

4-1, 3-2

I

OUC 1, 2, 3,

4

I

OOC 1, 2

I

OOC 3, 4

Open Load Hysteresis 40 mV

Open Load Current
Threshold

Over Load Current
Threshold

VEN=VIN=2V;
VS=6.5 - 16V

> 6.5V;

V

S

V

= 32V

OUT

160 320 480 mA

510 A
36 A

TSDThermal Shut Down 180 195 210 °C

k

Ω

V

V

V

T

SD-hys

Thermal Shut Down

20 °C

hysteresis

4/12