BTS712N1 - N/A - Datasheet.Live

Components XXXI (1996) No. 3

APPLICATIONS

POWER SEMICONDUCTORS

components from the Semiconductor

Group’s range of single to four-channel

switches which are ideal for industrial

controls.

Four-channel driver IC with integrated

protection

The FZL 4146 is a driver IC in a standard

SO-20 package designed to drive four

p-channel MOSFET power transistors

(Fig.1). This component combines the ease

of direct driving by microcontroller with the

following features:

●

load current monitoring and limiting of

the driven transistors by external shunts,

●

short-circuit cutoff,

●

status feedback,

●

gate-discharge resistors for driven power

transistors,

●

gate-source zener diode for driven

power transistors, and

●

protection against line breaks.

Each of the four drivers has an active-high

input (DI1 to DI4). An enable input (ENA) is

also common to all stages. The load current

is measured via the RSC shunt (Fig. 2) and

limited by the respective output Q (1 to 4) if

required. If the load current exceeds the

set value, the connected power transistor

is protected by switching to pulsed opera-

tion. It is reactivated by the built-in clock

generator whose operation requires an

external capacitor C

at the CE terminal. If

is bridged by the normally closed contact

of a key, it is turned on again only when

the key is activated. The clock generator

has a pulse/pause ratio of 1:47. A short

circuit with respect to ground or excess

current is displayed at the status output SQ.

Smart power switches are

available for applications in

12 and 24 V DC systems.

Although they have been

predominantly used so far in

automotive electronics, they

also satisfy the requirements

of industrial automation.

Industrial controls in particular

open up a wide field of

applications for smart power

switches.

s microelectronics takes on more and

more applications, especially in auto-

mation and automotive technology,

higher performance is demanded from

power switches. In many cases, these re-

quirements can no longer be satisfied with

conventional electromechanical solutions.

Siemens offers a range of special compo-

nents for such applications. These include

an intelligent driver IC for power transistors

as well as a range of smart power switch-

es. In industrial electronics, smart power

switches must deliver a level of per-

formance similar to that required by auto-

motive electronics. As a rule, high-side

switches are required for loads connected

to ground. These switches should be pro-

tected, operate over a wide range of

temperatures and voltages, and, in certain

applications, generate a status feedback.

Whereas the driver IC was specially devel-

oped for industrial electronics, the smart

power switches represent a selection of

Peter Brauschke

Smart power switches

for industrial controls

Fig. 1 The FZL 4146 can drive four power transistors

BUV

ENA TS SQ

12 W4

14 W3

18 W2

20 W1

910 6

TS 16

SQ GND GND

ENA

DI4

DI3

DI2

DI1 3

CE 115

The inputs DI, ENA and W are safeguarded

against line breaks, i.e. open input DI or ENA

corresponds to input L, and open input W

corresponds to excess current. The maxi-

mum turn-on threshold is effective when

the TS input is open. Voltage monitoring

ensures that the outputs are disabled if the

supply voltage is too low.

Completely integrated in a minimum

space

Applications with compact modules and

extensive protection functions require

fully integrated components. A series of

fully protected power switches for loads

connected to ground (Table 1) satisfy the

requirements of automation technology.

They are divided into two performance

classes: Mini-PROFET (for currents up to

about 1.5 A) and PROFET (for currents of

approximately 1.5 to 9 A). These smart

power switches feature:

●

short-circuit protection,

●

input protection,

●

overtemperature shutdown with hystere-

sis,

●

overload protection,

●

limitation of the negative output voltage

when inductive loads are switched,

●

undervoltage shutdown, and

●

load current limitation.

Mini-PROFETs are available as current-

controlled or voltage-controlled switches.

The BSP350 is an example of a current-con-

trolled switch that is particularly suitable for

use as a signal transformer and amplifier for

Components XXXI (1996) No. 3

APPLICATIONS

POWER SEMICONDUCTORS

Fig. 2 Driver chip FZL 4146 with integrated protective functions for four power transistors

Fig. 3 The BSP 350 current-controlled switch is ideal as a signal transformer and amplifier for

long leads susceptible to short circuits

Clock

Generator

Schmitt

Trigger

Schmitt

Trigger

Current

Regulator

ENA

int.

GND

int.

1x/Channel

IED01123

QT2

Unused W-inputs are to

be connected to

GND

Control

Circuit

Temperature

Sensor

1IN

OUT

2/4

Mini-PROFET

Type

bb (AZ)

bb (on)

on (max)

L (ISO)

L (SC)

Package

BSP 350 >50 V 4.9 to 45 V 5 V0.07 A 0.2 A SOT 223

BSP 450 >45 V 12 to 40 V 0.2 V1.7 A 0.7 A SOT 223

BSP 550 >45 V 12 to 40 V 0.2 V1.7 A 1.4 A SOT 223

PROFET

Type

bb (AZ)

bb (on)

on (max)

L (ISO)

non

L (SCr)

L (SCp)

Package

BTS 410H2 >60 V 4.7 to 12 V 220 mV1.8 A 1.5 A 5.5 A TO 220/5

BTS 432I2 >60 V 4.5 to 42 V 38 mV11 A 33 A 42 A TO 220/5

BTS 612N1 >60 V 5 to 34 V 2 u200 mV2 u2.3 A 2 u4 A 2 u7.5 A TO 220/7

BTS 712N1 >60 V 5 to 34 V 4 u200 mV4 u1.9 A 4 u4 A 4 u7.5 A Standard SO-20

Table 1 Selection of Mini-PROFET and PROFET types for automation applications

long feed lines susceptible to short circuits

(such as for sensors or remote-controlled

relays). T o turn the component on, a voltage

difference of at least 5V is required between

pin 2 and pin 1 (Fig. 3). The maximum oper-

ating current is only 1 mA. The current is

limited to this value, i.e. it rises no further

even at the maximum permissible supply

voltage of 45 V. The operating current

supplies the energy required for the charge

pump to switch loads connected to

ground. If the permissible chip temperature

is exceeded, the component turns off, in

which case the charge pump is also deacti-

vated. This causes a significant change in

the current level at pin1, a situation that may

be used for evaluating the status. If

between pin 1 and pin 2 exceeds 55 V, the

component is protected by an integrated

zener diode. The negative voltage peak at

the output produced when inductive loads

are turned off is limited to

–55 V, thus

allowing rapid demagnetization of the load.

The potentials of logic ground and load

ground may differ by any amount within the

data sheet limits without impairing the

function of the component.

BSP 450 (Fig. 4) is a low-resistance voltage-

controlled switch with a high-resistance

CMOS-compatible input in an SOT-223 pack-

age. It is turned on by a positive voltage at

pin 3, while the output transistor is turned

on with the aid of the integrated charge

pump. The other protective functions are

comparable to those of the BSP 350. As a

variant of the BSP 450, the BSP 550 offers

higher current limiting for loads with a

greater current requirement.

The functions of the PROFET switches are

comparable with those of the Mini-PROFET

components. All PROFETs are voltage-

controlled components with high-resistance

CMOS-compatible inputs (Fig. 5). They

additionally have a status output that pro-

vides information on the status of the switch

or the connected load. The PROFET compo-

nents BTS 410H2 (220 mV) and BTS 43212

(38 mV) are available both in TO-220/5 pack-

ages and as SMDs.

The integration and packaging density of

industrial controls can be increased even

further by using multiple switches in a

single package. Such switches are already

available and include the BTS 612N1, a

two-channel switch with 2 u200 mVin

a TO-220/7 package, and the BTS 712N1, a

four-channel switch with 4 u200 mVin a

standard SO-20 package.

Components XXXI (1996) No. 3

APPLICATIONS

POWER SEMICONDUCTORS

studied electrical engineering at Augsburg and

Giessen Polytechnics. In 1984 he joined Siemens

in product marketing for SIPMOS transistors.

From 1986 onward he helped to set up and

market the Smart-SIPMOS product spectrum

worldwide. Since 1995, Mr. Brauschke (39) has

been responsible for product marketing of smart

power switches.

Peter Brauschke,

Dipl.-Ing. (FH),

Fig. 4 The BSP 450 voltage-controlled switch offers low resistance and full protection within a

minimum space

Fig. 5 All PROFETs are fully protected low-resistance high-side switches with a status output

GND

Control

Circuit

Temperature

Sensor

OUT

min/max

Signal GND

ESD Logic

Voltage

sensor

Voltage

source

Overvoltage

protection

Current

limit Gate

protection

Limit for

unclamped

ind. loads

Open load

detection

Short circuit

detection

Temperature

sensor

GND

Charge pump

Level shifter

Rectifier

Logic

OUT

Load

Load GND

Standard1

Straight leads 1

SMD 1Standard

SO-20

TO-220AB/5

Check #3-96-6(HL) on Reader Service Card