TLE7184F3V Infineon Technologies, TLE7184F3V Datasheet - Page 27

TLE7184F3V

Manufacturer Part Number

TLE7184F3V

Description

Manufacturer

Infineon Technologies

Datasheet

1.TLE7184F3V.pdf (36 pages)

Specifications of TLE7184F3V

Packages

PG-VQFN-48

Operating Range

7.0 - 32.0 V

50 ?A

Turn On/off Current

D.c.-range @ 20khz

0...95%

Numbers Of Integrated Opamps For Load Current Measurement

1.0

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Company:

Amily Shenzhen XNWY Technology Co., Ltd

Part Number:

TLE7184F3VXUMA2

Current page: 27 of 36
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9.2.6

The TLE7184F-3V has an integrated VREG Under Voltage Diagnosis to assure that the behavior of the bridge

driver output stages is predictable in all supply voltage ranges.

If the voltage at VREG reaches the Under Voltage diagnosis level

is set the IC goes into Error Mode.

As long as the VS Under Voltage Lock Out is not reached, the low side MOSFETs will stay actively switched off.

The status of the high side MOSFET drivers is dependent on the bootstrap voltage - which depends on the SHx

voltage. It is expected that the SHx nodes will be pulled to VDH level by the high side MOSFETs and this will switch

off the high side MOSFETs passively.

In this situation the short circuit detection of this output stage is deactivated to avoid wrong error reporting.

9.2.7

The TLE7184F-3V has an integrated VREG Under Voltage Shut Down to avoid operation with VREG shorted to

GND.

If the supply voltage at VREG reaches the Under Voltage shut down level

expired, VREG will be switched off and the IC will go to the VREG Shut Down Mode. In this condition the µC is

still supplied and can communicate via the PWM interface (IFMA), the MOSFETs are switched off and an error is

set. The only way to leave this mode is to go to “Sleep Mode”.

9.2.8

The TLE7184F-3V has an integrated Over Voltage shut down to minimize the risk of destruction of the IC at high

supply voltages caused by violation of the maximum ratings.

The voltages are observed at the Over Voltage input pin IOV and at the VDH pin. If the voltage at the IOV pin or

at the VDH pin exceeds the Over Voltage shut down level for more than the specified filter time, the IC goes into

Error Mode.

The effective Over Voltage level can be adjusted by a voltage divider at the IOV pin. This voltage devider is

normally supplied by the VDHS pin. The Over Voltage level at VDH is fix.

9.2.9

In bridge applications it has to be assured that the external high side and low side MOSFETs are not “on” at the

same time, connecting the battery voltage directly to GND. The dead time generated in the TLE7184F-3V is set

to a minimum value if the DT pin is connected to GND. This function assures a minimum dead time if a common

input signal for ILx and IHx is used.

The dead time can be increased by connecting the DT pin via a dead time resistor R

resistors result in a longer dead time.

The typical dead time can be calculated with the following formula:

Please put in the

If an exact dead time of the bridge is needed, the use of the µC PWM generation unit is recommended.

In case of an open DT pin, the dead time is set to the internal maximum value.

In addition to this dead time, the TLE7184F-3V provides a locking mechanism avoiding that both external

MOSFETs of one half bridge can be switched on at the same time. This functionality is called shoot through

protection.

Datasheet

IOV and VDH Over Voltage Shut Down (IOV_OVSD, VDH_OVSD)

VREG Under Voltage Diagnosis (VREG_UVD)

VREG Under Voltage Shut Down (VREG_UVSD)

Dead Time and Shoot Through Protection

in kΩ.

deadtime

Description of Modes, Protection and Diagnostic Functions

. 0

081

4 .

Rdt

UVVR

µs

for a minimum specified filter time an error

VRSD

“AND” the wake up time is

to GND. Larger dead time

Rev.1.1, 2011-08-03

TLE7184F-3V

TLE7184F3V Infineon Technologies, TLE7184F3V Datasheet - Page 27

TLE7184F3V

Specifications of TLE7184F3V

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