IC-MFN Datasheet, PDF(10/13 Page) IC-Haus GmbH – 8-FOLD FAIL-SAFE N-FET DRIVER

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IC-MFN Datasheet, PDF (10/13 Pages) IC-Haus GmbH – 8-FOLD FAIL-SAFE N-FET DRIVER

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iC-MFN

8-FOLD FAIL-SAFE N-FET DRIVER

Pull-down currents

In order to enhance noise immunity with limited power

dissipation at inputs INx, EN5, EN10 and ENFS the

pull-down currents at these pins have two stages. With

a rise in voltage at input pins INx, EN5, EN10 und

ENFS the pull-down current remains high until Vt()hi

(Electrical Characteristics No. 203); above this thresh-

old the device switches to a lower pull-down current.

If the voltage falls below Vt()lo (Electrical Character-

istics No. 204), the device switches back to a higher

pull-down current.

Ipd()

Ipd1()

Rev A2, Page 10/13

V() increasing

Ipd2()

V() decreasing

Vt()lo

Vt()hi

V()

Figure 5: Pull-down currents at INx, EN5, EN10 and

ENFS

DETECTING SINGLE ERRORS

If single errors are detected, safety-relevant applica-

I(OUTx)

[mA]

tions require externally connected switching transistors

to be speciï¬cally shut down. Single errors can occur

3.6

when a pin is open (due to a disconnected bonding

wire or a bad solder connection, for example) or when

two pins are short-circuited.

400 â¦

When two output of different logic levels are short-

circuited, the driving capability of the lowside driver will

predominate, keeping the connected N-channel FETs

in a safe shutdown state.

With open pins VB, VBR, GND or GNDR iC-MFN

switches the output stages to a safe, predeï¬ned low

state via pull-down resistors and current sources at

the outputs, subsequently shutting down any externally

connected N-channel FETs.

Loss of VB potential

If power supply potential is no longer applied to the VB-

pin, the output stage highside drivers are shut down

and the outputs actively tied to GND via the lowside

drivers.

Loss of VBR potential

If power supply potential is no longer applied to the

VBR-pin, the output stage highside drivers are shut

down and the outputs actively tied to GND via the low-

side drivers.

V(OUTx)

5 [V]

Figure 6: Output characeristics at OUTx with loss of

VB, VBR or GNDR

Loss of GND potential

If ground potential is not longer applied to GND, the

output stages are shut down and the outputs tied to

GNDR via current sources and internal pull-down re-

sistors with a typical value of 200 kâ¦.

I(OUTx)

[ÂµA]

200 kâ¦

Loss of GNDR potential

If ground potential is no longer applied to the GNDR-

pin, the output stage highside drivers are shut down

and the outputs actively tied to GND via the lowside

drivers.

V(OUTx)

5 [V]

Figure 7: Output characeristics at OUTx with loss of

GND

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