VND920-E STMicroelectronics, VND920-E Datasheet - Page 10

VND920-E

Manufacturer Part Number

VND920-E

Description

IC DRIVER HIGH SIDE 2CH 28-SOIC

Manufacturer

STMicroelectronics

Type

High Sider

Datasheet

1.VND920TR-E.pdf (19 pages)

Specifications of VND920-E

Input Type

Non-Inverting

Number Of Outputs

On-state Resistance

16 mOhm

Current - Peak Output

45A

Voltage - Supply

5.5 V ~ 36 V

Operating Temperature

-40°C ~ 150°C

Mounting Type

Surface Mount

Package / Case

28-SOIC (7.5mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output / Channel

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VND920-E

Figure 7. Application Schematic

GND

REVERSE BATTERY

Solution 1: Resistor in the ground line (R

can be used with any type of load.

The following is an indication on how to dimension the

where -I

be found in the absolute maximum rating section of the

device’s datasheet.

Power Dissipation in R

battery situations) is:

This resistor can be shared amongst several different

HSD. Please note that the value of this resistor should be

calculated with formula (1) where I

sum of the maximum on-state currents of the different

devices.

Please note that if the microprocessor ground is not

common with the device ground then the R

produce a shift (I

and the status output values. This shift will vary

depending on how many devices are ON in the case of

several high side drivers sharing the same R

If the calculated power dissipation leads to a large

resistor or several devices have to share the same

resistor then the ST suggests to utilize Solution 2 (see

below).

Solution 2: A diode (D

A resistor (R

10/19

GND

1) R

2) R

= (-V

resistor.

GND

if the device will be driving an inductive load.

+5V

GND

PROTECTION

)

is the DC reverse ground pin current and can

600mV / (I

GND

SENSE1,2

GND

S(on)max

=1k

prot

) / (-I

GND

S(on)max

GND

should be inserted in parallel to

* R

) in the ground line.

)

(when V

NETWORK

GND

) in the input thresholds

S(on)max

<0: during reverse

C. SENSE 2

C. SENSE 1

INPUT2

INPUT1

GND

becomes the

GND

AGAINST

only). This

GND

will

This small signal diode can be safely shared amongst

several different HSD. Also in this case, the presence of

the ground network will produce a shift (j600mV) in the

input threshold and the status output values if the

microprocessor ground is not common with the device

ground. This shift will not vary if more than one HSD

shares the same diode/resistor network.

LOAD DUMP PROTECTION

load dump peak voltage exceeds V

The same applies if the device will be subject to

transients on the V

shown in the ISO T/R 7637/1 table.

Series resistor in INPUT and STATUS lines are also

required to prevent that, during battery voltage transient,

the current exceeds the Absolute Maximum Rating.

Safest configuration for unused INPUT and STATUS pin

is to leave them unconnected.

If a ground protection network is used and negative

transients are present on the V

be pulled negative. ST suggests to insert a resistor (R

in line to prevent the C I/Os pins to latch-up.

The value of these resistors is a compromise between the

leakage current of

HSD I/Os (Input levels compatibility) with the latch-up

limit of C I/Os.

Calculation example:

For V

Recommended R

C I/Os PROTECTION:

-V

GND1

GND

is necessary (Voltage Transient Suppressor) if the

CCpeak

prot

GND

latchup

= - 100V and I

CC1

65k .

GND2

prot

OUTPUT1

OUTPUT2

C and the current required by the

value is 10k

prot

CC2

line that are greater than the ones

GND

latchup

OH C

line, the control pins will

-V

20mA; V

-V

max DC rating.

GND

OH C

) / I

IHmax

4.5V

prot

)

VND920-E STMicroelectronics, VND920-E Datasheet - Page 10

VND920-E

Specifications of VND920-E

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