Datasheet

Data Sheet 13 Rev. 1.0, 2008-03-18

BTS4300SGA

Protection Mechanisms

6 Protection Mechanisms

The device provides embedded protective functions. Integrated protection functions are designed to prevent the

destruction of the IC from fault conditions described in the data sheet. Fault conditions are considered as “outside”

normal operating range. Protection functions are designed for neither continuous nor repetitive operation.

6.1 Undervoltage Protection

Below V

SOP_min

, the under voltage mechanism is met. If the supply voltage is below the under voltage mechanism,

the device is OFF (turns OFF). As soon as the supply voltage is above the under voltage mechanism, then the

device can be switched ON and the protection functions are operational.

6.2 Overvoltage Protection

There is a clamp mechanism for over voltage protection. To guarantee this mechanism operates properly in the

application, the current in the zener diode

DAZ

has to be limited by a ground resistor. Figure 8 shows a typical

application to withstand overvoltage issues. In case of supply greater than

S(AZ)

, the power transistor switches

ON and the voltage across logic section is clamped. As a result, the internal ground potential rises to

- V

S(AZ)

Due to the ESD zener diodes, the potential at pin IN rises almost to that potential, depending on the impedance

of the connected circuitry. Integrated resistors are provided at the IN pin to protect the input circuitry from

excessive current flow during this condition.

Figure 8 Over voltage protection with external components

In the case the supply voltage is in between of

S(SC) max

and V

DS(AZ)

, the output transistor is still operational and

follow the input. If the channel is in ON state, parameters are no longer warranted and lifetime is reduced

compared to normal mode. This specially impacts the short circuit robustness, as well as the maximum energy

the device can handle.

ESD

GND

OUT

BAT

GND

LOGIC

Overvoltage protection single with diag.vsd