Datasheet BTS 7750 GP Datasheet (lnfineon)

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TrilithIC

Data Sheet

1Overview

1.1 Features

• Quad D-MOS switch driver

• Free configurable as bridge or quad-switch

• Optimized for DC motor management applications

•Low R

DS ON

side switch (typical values @ 25 C)

• Maximum peak current: typ. 12 A @ 25 C=

• Very low quiescent current: typ. 5 ←A @ 25 C=

• Small outline, thermal optimized PowerPak

• Full short-circuit-protection

• Operates up to 40 V

• Status flag diagnosis

• Overtemperature shut down with hysteresis

• Internal clamp diodes

• Isolated sources for external current sensing

• Under-voltage detection with hysteresis

• PWM frequencies up to 1 kHz

: 70 mτ high-side switch, 45 mτ low-

BTS 7750 GP

P-TO263-15-1

Type Ordering Code Package

BTS 7750 GP Q67006-A9402 P-TO263-15-1

1.2 Description

The BTS 7750 GP is part of the TrilithIC family containing three dies in one package:
One double high-side switch and two low-side switches. The drains of these three
vertical DMOS chips are mounted on separated leadframes. The sources are connected
to individual pins, so the BTS 7750 GP can be used in H-bridge- as well as in any other
configuration. Both the double high-side and the two low-side switches of the
BTS 7750 GP are manufactured in SMART SIPMOS

R

vertical DMOS power stages with CMOS control circuitry. The high-side switch is

DS ON

®

technology which combines low

fully protected and contains the control and diagnosis circuitry. Also the low-side
switches are fully protected, the equivalent standard product is the BTS 134 D.

In contrast to the BTS 7750 G, which consists of the same chips in an P-DSO-28
package, the P-TO263-15-1 PowerPack offers a much lower thermal resistance, which
opens up applications with even higher currents in the automotive and industrial area.

Data Sheet 1 2001-02-01

1.3 Pin Configuration

(top view)

BTS 7750 GP

Molding
Compound

IL1

NC

SL1

NC

SH1

GND

IH1

DHVS

ST

IH2

1

2

3

4

5

6

7

8

9

10

Heat-Slug 1

18

DL1

Heat-Slug 2

1716DHVS

SH2

NC

11

12

Heat-Slug 3

IL2

13

DL2

NC

SL2

Figure 1

Data Sheet 2 2001-02-01

14

15

BTS 7750 GP

1.4 Pin Definitions and Functions

Pin No. Symbol Function

1 IL1 Analog input of low-side switch 1

2 NC Not connected

3 SL1 Source of low-side switch 1

4 NC Not connected

5 SH1 Source of high-side switch 1

6 GND Ground of high-side switches

7 IH1 Digital input of high-side switch 1

8 DHVS Drain of high-side switches and power supply voltage

9 ST Status; open Drain output

10 IH2 Digital input of high-side switch 2

11 SH2 Source of high-side switch 2

12 NC Not connected

13 IL2 Analog input of low-side switch 2

14 NC Not connected

15 SL2 Source of low-side switch 2

16 DL2 Drain of low-side switch 2

Heat-Slug 3 or Heat-Dissipator

17 DHVS Drain of high-side switches and power supply voltage

Heat-Slug 2 or Heat-Dissipator

18 DL1 Drain of low-side switch 1

Heat-Slug 1 or Heat-Dissipator

Pins written in bold type need power wiring.

Data Sheet 3 2001-02-01

1.5 Functional Block Diagram

9

ST

BTS 7750 GP

DHVS

8, 17

IH1

IH2

GND

IL1

IL2

Diagnosis

7

Driver

Biasing and Protection

OUT
0IN0 L L
0 1 L H

10

6

1 0 H L
1 1 H H

Protection

1

Gate

R

O1

R

O2

11

16

18

SH2

DL2

5

SH1

DL1

Driver

Protection

13

Gate

Driver

3

SL1

15

SL2

Figure 2
Block Diagram

Data Sheet 4 2001-02-01

BTS 7750 GP

1.6 Circuit Description

Input Circuit

The control inputs IH1,2 consist of TTL/CMOS compatible Schmitt-Triggers with
hysteresis. Buffer amplifiers are driven by these stages and convert the logic signal into
the necessary form for driving the power output stages. The inputs are protected by ESD
clamp-diodes.

The inputs IL1 and IL2 are connected to the internal gate-driving units of the N-channel
vertical power-MOS-FETs.

Output Stages

The output stages consist of an low

R

Power-MOS H-bridge. In H-bridge

DS ON

configuration, the D-MOS body diodes can be used for freewheeling when commutating
inductive loads. If the high-side switches are used as single switches, positive and
negative voltage spikes which occur when driving inductive loads are limited by
integrated power clamp diodes.

Short Circuit Protection

The outputs are protected against

– output short circuit to ground
– output short circuit to the supply voltage, and
– overload (load short circuit).

An internal OP-Amp controls the Drain-Source-Voltage by comparing the DS-Voltage­Drop with an internal reference voltage. Above this trippoint the OP-Amp reduces the
output current depending on the junction temperature and the drop voltage.

In the case of overloaded high-side switches the status output is set to low.

The fully protected low-side switches have no status output.

Overtemperature Protection

The high-side and the low-side switches also incorporate an overtemperature protection
circuit with hysteresis which switches off the output transistors. In the case of the high­side switches, the status output is set to low.

Undervoltage-Lockout (UVLO)

V

When

reaches the switch-on voltage V

S

The High-Side output transistors are switched off if the supply voltage
the switch off value

Data Sheet 5 2001-02-01

V

UVOFF.

the IC becomes active with a hysteresis.

UVON

V

drops below

S

BTS 7750 GP

Status Flag

The status flag output is an open drain output with Zener-diode which requires a pull-up
resistor, c.f. the application circuit on page 14. Various errors as listed in the table
“Diagnosis” are detected by switching the open drain output ST to low. A open load
detection is not available. Freewheeling condition does not cause an error.

2 Truthtable and Diagnosis (valid only for the High-Side-Switches)

Flag IH1 IH2 SH1 SH2 ST Remarks

Inputs Outputs

Normal operation;
identical with functional truth table

0
0
1
1

0
1
0
1

L
L
H
H

L
H
L
H

1

stand-by mode

1

switch2 active

1

switch1 active

1

both switches
active

Overtemperature high-side switch1 0

1

Overtemperature high-side switch2 X

X

Overtemperature both high-side switches 0

X
1

X
X

0
1

0
1
X

L
L

X
X

L
L
L

X
X

L
L

L
L
L

1
0detected

1
0detected

1
0

detected

0

detected

Undervoltage X X L L 1 not detected

Inputs: Outputs: Status:

0 = Logic LOW Z = Output in tristate condition 1 = No error

1 = Logic HIGH L = Output in sink condition 0 = Error

X = don’t care H = Output in source condition

X = Voltage level undefined

Data Sheet 6 2001-02-01

3 Electrical Characteristics

3.1 Absolute Maximum Ratings

T

– 40 C <

< 150 C

j

Parameter Symbol Limit Values Unit Remarks

min. max.

High-Side-Switches (Pins DHVS, IH1,2 and SH1,2)

BTS 7750 GP

Supply voltage

Supply voltage for full short

V

S

V

S(SCP)

– 0.3 42 V –

28 V

circuit protection

HS-drain current

HS-input current

HS-input voltage

I

I

V

S

IH

IH

– 10 * A TC = 125°C; DC

– 5 5 mA Pin IH1 and IH2

– 10 16 V Pin IH1 and IH2

Note: * internally limited

Status Output ST

Status pull up voltage

Status Output current

V

I

ST

ST

– 0.3 5.4 V

– 5 5 mA Pin ST

Low-Side-Switches (Pins DL1,2, IL1,2 and SL1,2)

Drain-Source-Clamp voltage

Supply voltage for short
circuit protection

V

DSL

V

DSL(SCP)

42 – V VIL=0V; ID 1mA

36 V VIL=5V

20 V

V

IL

=10V

LS-drain current

LS-input voltage

I

V

DL

– 12 * A TC = 125°C; DC

IL

– 0.3 10 V –

Note: * internally limited

Temperatures

Junction temperature

Storage temperature

Data Sheet 7 2001-02-01

T

j

T

stg

– 40 150 C–

– 55 150 C–

3.1 Absolute Maximum Ratings (cont’d)
– 40 C <

T

< 150 C

j

Parameter Symbol Limit Values Unit Remarks

min. max.

Thermal Resistances (one HS-LS-Path active)

BTS 7750 GP

LS-junction case

HS-junction case

Junction ambient

R

thja

= T

j(HS)

/(P

(HS)+P(LS)

R

thjC L

R

thjC H

R

thja

)

–1.7K/W

–1.7K/W

– 26 K/W device soldered to

reference PCB with

2

6cm

cooling area

ESD Protection (Human Body Model acc. MIL STD 883D, method 3015.7 and EOS/
ESD assn. standard S5.1 - 1993)

Input LS-Switch

Input HS-Switch

Status HS-Switch

Output LS and HS-Switch

V

V

V

V

ESD

ESD

ESD

ESD

–2kV

–1kV

–2kV

– 8 kV all other pins connected

to Ground

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

cause irreversible damage to the integrated circuit.

3.2 Operating Range

T

– 40 C <

< 150 C

j

Parameter Symbol Limit Values Unit Remarks

min. max.

Supply voltage

Input voltages V

Input voltages

Output current

Junction temperature

V

V

I

T

ST

S

IH

IL

V

UVOFF

– 0.3 15 V –

– 0.3 10 V –

42 V After VS rising

above

V

UVON

02mA–

j

– 40 150 C–

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

Data Sheet 8 2001-02-01

BTS 7750 GP

3.3 Electrical Characteristics

I

= I

SH1

unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Current Consumption HS-switch

SH2

= I

SL1

= I

= 0 A; – 40 C < Tj < 150 C; 8 V < VS < 18 V

SL2

min. typ. max.

Quiescent current

Supply current

Leakage current of

I

S

I

S

I

SH LK

highside switch

I

Leakage current through
logic GND in free wheeling

LKCL

I

FH

=

+ I

condition

Current Consumption LS-switch

Input current

I

IL

–58←A IH1 = IH2 = 0 V

T

= 25 C

j

––12←A IH1 = IH2 = 0 V

– 1.5 2.6 mA IH1 or IH2 = 5 V

V

= 12 V

S

– 3 5.2 mA IH1 and IH2 = 5 V

V

= 12 V

S

––6←A VIH = VSH = 0 V

––10mAIFH = 3 A

SH

–830←A VIL = 5 V;

normal operation

– 160 300 ←A

V

IL

= 5 V;

failure mode

Leakage current of lowside

I

DL LK

–210←A VIL = 0 V

switch

Under Voltage Lockout (UVLO) HS-switch

Switch-ON voltage

Switch-OFF voltage

Switch ON/OFF hysteresis

Data Sheet 9 2001-02-01

V

UVON

V

UVOFF

V

UVHY

––4.5VVS increasing

1.8 – 3.2 V VS decreasing

–1–VV

UVON

– V

UVOFF

BTS 7750 GP

3.3 Electrical Characteristics (cont’d)

I

= I

SH1

unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Output stages

SH2

= I

SL1

= I

= 0 A; – 40 C < Tj < 150 C; 8 V < VS < 18 V

SL2

min. typ. max.

Inverse diode of high-side

V

FH

–0.81.2VIFH = 3 A

switch; Forward-voltage

Inverse diode of lowside

V

FL

–0.81.2VIFL = 3 A

switch; Forward-voltage

Static drain-source

R

DS ON H

– 7090mτ ISH =1A

on-resistance of highside
switch

Static drain-source

R

DS ON L

– 4560mτ ISL =1A;

on-resistance of lowside
switch

Static path on-resistance

R

DS ON

––285mτ

Short Circuit of highside switch to GND

Initial peak SC current

I

SCP H

14 15 18 A Tj = – 40 °C

10 12 15 A

T

= 25 C

j

V

= 5 V

GL

T

= 25 C

j

R

DS ON H

I

=1A;

SH

T

= + 25 °C

j

+R

DS ON L

78.510A

V

Short Circuit of highside switch to

Output pull-down-resistor

R

O

Short Circuit of lowside switch to

Initial peak SC current

I

SCP L

S

8 1535kτ V

V

S

21 28 34 A Tj = – 40 C

16 22 27 A

11 14 18 A

Data Sheet 10 2001-02-01

T

= + 150 °C

j

= 3 V

DSL

T

= 25 C

j

T

= 150 C

j

BTS 7750 GP

3.3 Electrical Characteristics (cont’d)

I

= I

SH1

unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Thermal Shutdown

SH2

= I

SL1

= I

= 0 A; – 40 C < Tj < 150 C; 8 V < VS < 18 V

SL2

min. typ. max.

Thermal shutdown junction

T

j SD

155 180 190 C–

temperature

Thermal switch-on junction

T

j SO

150 170 180 C–

temperature

Temperature hysteresis α

T –10–C αT = T

Status Flag Output ST of highside switch

Low output voltage

Leakage current

Zener-limit-voltage

V

ST L

I

ST LK

V

ST Z

–0.20.6VIST = 1.6 mA

––10←A VST = 5 V

5.4 – V IST = 1.6 mA

Switching times of highside switch

Turn-ON-time;
to 90%

V

SH

Turn-OFF-time;
to 10%

V

SH

t

t

ON

OFF

– 85 180 ←sR

– 80 180 ←sR

Load

V

= 12 V

S

Load

V

= 12 V

S

– T

jSD

= 12 τ

= 12 τ

jSO

Slew rate on 10 to 30%

Slew rate off 70 to 40%

VSHdV/dt

VSH-dV/

dt

OFF

––1.1V/←sR

ON

––1.5V/←sR

Load

V

= 12 V

S

Load

V

= 12 V

S

= 12 τ

= 12 τ

Note: switching times are guaranteed by design

Data Sheet 11 2001-02-01

BTS 7750 GP

3.3 Electrical Characteristics (cont’d)

I

= I

SH1

unless otherwise specified

Parameter Symbol Limit Values Unit Test Condition

Switching times of lowside switch

SH2

= I

SL1

= I

= 0 A; – 40 C < Tj < 150 C; 8 V < VS < 18 V

SL2

min. typ. max.

Turn-ON-time 70 to 50%

VSHV

= 0 to 10 V

IL

Turn-OFF-time;
to 10%

V

SL

Slew rate on 70 to 50%

V

= 0 to 10 V

IL

Slew rate off 50 to 70%

V

= 0 to 10 V

IL

V

V

SH

SH

t

ON

t

OFF

-dV/dt

dV/dt

–70170←sR

–40150←sR

––1.0V/←sR

ON

––1.0V/←sR

OFF

Note: switching times are guaranteed by design

Control Inputs of highside switches GH 1, 2

H-input voltage

L-input voltage

Input voltage hysterese

H-input current

L-input current

V

IH High

V

IH Low

V

IH HY

I

IH High

I

IH Low

––2.5V–

1––V–

–0.3–V–

15 30 60 ←A VIH = 5 V

5–20←A VIH = 0.4 V

Load

V

= 12 V

S

Load

V

= 12 V

S

Load

V

= 12 V

S

Load

V

= 12 V

S

= 12 τ

= 12 τ

= 12 τ

= 12 τ

Input series resistance

Zener limit voltage

R

V

I

IH Z

2.7 4 5.5 kτ –

5.4––VIIH = 1.6 mA

Control Inputs GL1, 2

Gate-threshold-voltage V

IL th

0.9 1.7 2.2 V IDL = 2 mA

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 12 2001-02-01

BTS 7750 GP

VS=12V

I

FH1,2

I

S

C

S

470nF

C

L

100µF

DHVS

I

ST LK

I

ST

V

ST

V

STL

V

STZ

V

IH1

I

IH1

I

IH1

V

IH2

I

IL1

IH1

IH2

GND

I

GND

I

LKCL

IL1

9

ST

Diagnosis

7

Gate

Driver

Biasing and Protection

R

10

6

Gate

Driver

Protection

1

Gate

Driver

8, 17

R

O1

O2

SH2

11

DL2

16

SH1

5

DL1

18

I

SH2

I

DL2

I

DL LK 2

I

SH1

I

DL1

I

DL LK 1

V

V

DSH2

DSH1

-V

-V

FH2

FH1

V

UVON

V

UVOFF

Protection

I

V

IL1

V

IL th 1

IL2

V

IL2

V

IL th 2

IL2

13

Gate

Driver

3

SL1

I

SCP L 1

I

SL1

Figure 3
Test Circuit

HS-Source-Current Named during Short

Circuit

I

SH1,2

I

SCP H

15

SL2

I

SCP L 2

I

SL2

V

V

DSL1

DSL2

-V

-V

FL1

FL2

Named during Leakage­Cond.

I

DL LK

Data Sheet 13 2001-02-01

Watchdog

Reset

Q

TLE

4278G

BTS 7750 GP

I

VS=12V

WD R

µP

R

Q

100 k

ττττ

V

CC

R

ST

S

10 k

ττττ

IH1

C

Q

22µF

9

7

D

Diagnosis

Gate

C

D

47nF

Biasing and Protection

DHVS

8, 17

D01
Z39

C

S

10µF

Driver

IH2

GND

R

10

Gate

O1

Driver

6

R

O2

16

SH2

11

DL2

M

SH1

5

DL1

Protection

18

1

IL1

Gate

Driver

Protection

13

IL2

Gate

Driver

GND

In case of V

3

SL1

<-0.6V or reverse battery the current into the µC might be limited by external resitors to protect the µC

DSL

15

SL2

Figure 4
Application Circuit

Data Sheet 14 2001-02-01

4 Package Outlines

P-TO263-15-1

(Plastic Transistor Single Outline Package)

±0.2

21.6

8.3

8.18

1)

14x1.4

1)

±0.15

A

1)

8.2

0...0.15

±0.1

0.8

M

BA0.25

(15)

±0.3

1

±0.2

9.25

±0.2

1

5.56

4.8

±0.15

1)

8.4

1.27
B

±0.5

4.7

8˚ max.

±0.1

0.1

2.4

±0.3

2.7

4.4

0.5

BTS 7750 GP

0.05

±0.1

0.1

1)

Typical
All metal surfaces tin plated, except area of cut.

Sorts of Packing

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

SMD = Surface Mounted Device

GPT09151

GPS05123

Dimensions in mm

Data Sheet 15 2001-02-01

BTS 7750 GP

Published by
Infineon Technologies AG i Gr.,
Bereichs Kommunikation
St.-Martin-Strasse 53,
D-81541 München
© Infineon Technologies AG 1999
All Rights Reserved.

Attention please!

The information herein is given to describe certain components and shall not be considered as warranted
characteristics.

Terms of delivery and rights to technical change reserved.

We hereby disclaim any and all warranties, including but not limited to warranties of non-infringement, regarding
circuits, descriptions and charts stated herein.

Infineon Technologies is an approved CECC manufacturer.

Information

For further information on technology, delivery terms and conditions and prices please contact your nearest
Infineon Technologies Office in Germany or our Infineon Technologies Representatives worldwide (see address
list).

Warnings

Due to technical requirements components may contain dangerous substances. For information on the types in
question please contact your nearest Infineon Technologies Office.

Infineon Technologies Components may only be used in life-support devices or systems 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.

Data Sheet 16 2001-02-01