33982B Datasheet, PDF(18/34 Page) Freescale Semiconductor, Inc – Single Intelligent High-Current Self-Protected Silicon High-Side Switch (2.0 mohm)

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33982B Datasheet, PDF (18/34 Pages) Freescale Semiconductor, Inc – Single Intelligent High-Current Self-Protected Silicon High-Side Switch (2.0 mohm)

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FUNCTIONAL DEVICE OPERATION

PROTECTION AND DIAGNOSIS FEATURES

FAULT MODE

The 33982B indicates the following faults as they occur by

driving the FS pin to Logic [0]:

â¢ Overtemperature fault

â¢ Overvoltage and undervoltage fault

â¢ Open load fault

â¢ Overcurrent fault (high and low)

The FS pin will automatically return to Logic [1] when the

fault condition is removed, except for overcurrent and in

some cases undervoltage.

Fault information is retained in the fault register and is

available (and reset) via the SO pin during the first valid SPI

communication (refer to Table 16).

PROTECTION AND DIAGNOSIS FEATURES

OVERTEMPERATURE FAULT (NON-LATCHING)

The 33982B incorporates overtemperature detection and

shutdown circuitry in the output structure. Overtemperature

detection is enabled when the output is in the ON state.

For the output, an overtemperature fault (OTF) condition

results in the faulted output turning OFF until the temperature

falls below the TSD(HYS). This cycle will continue indefinitely

until action is taken by the MCU to shut OFF the output, or

until the offending load is removed.

When experiencing this fault, the OTF fault bit will be set

in the status register and cleared after either a valid SPI read

or a power reset of the device.

OVERVOLTAGE FAULT (NON-LATCHING)

The 33982B shuts down the output during an overvoltage

fault (OVF) condition on the VPWR pin. The output remains in

the OFF state until the overvoltage condition is removed.

When experiencing this fault, the OVF fault bit is set in bit

OD1 and cleared after either a valid SPI read or a power reset

of the device.

The overvoltage protection and diagnostic can be disabled

through SPI (bit OV_dis).

UNDERVOLTAGE SHUTDOWN (LATCHING OR

NON-LATCHING)

The output(s) will latch off at some battery voltage below

6.0 V. As long as the VDD level stays within the normal

specified range, the internal logic states within the device will

be sustained.

In the case where battery voltage drops below the

undervoltage threshold (VPWRUV) output will turn off, FS will

go to Logic [0], and the fault register UVF bit will be set to 1.

Two cases need to be considered when the battery level

recovers:

â¢ If output(s) command is (are) low, FS will go to Logic [1]

but the UVF bit will remain set to 1 until the next read

operation.

â¢ If the output command is ON, then FS will remain at

Logic [0]. The output must be turned OFF and ON again

to re-enable the state of output and release FS. The

UVF bit will remain set to 1 until the next read operation.

The undervoltage protection can be disabled through SPI

(bit UV_dis = 1). In this case, the FS and UVF bit do not report

any undervoltage fault condition and the output state will not

be changed as long as the battery voltage does not drop any

lower than 2.5 V.

OPEN LOAD FAULT (NON-LATCHING)

The 33982B incorporates open load detection circuitry on

the output. Output open load fault (OLF) is detected and

reported as a fault condition when the output is disabled

(OFF). The open load fault is detected and latched into the

status register after the internal gate voltage is pulled low

enough to turn OFF the output. The OLF fault bit is set in the

status register. If the open load fault is removed, the status

The open load protection can be disabled through SPI (bit

OL_dis). It is recommended to disable the open load

detection circuitry (OL_dis bit sets to logic [1]) in case

of a permanent open load fault condition.

OVERCURRENT FAULT (LATCHING)

The 33982B has eight programmable overcurrent low

detection levels (IOCL) and two programmable overcurrent

high detection levels (IOCH) for maximum device protection.

The two selectable, simultaneously active overcurrent

detection levels, defined by IOCH and IOCL, are illustrated in

Figure 6. The eight different overcurrent low detection levels

(IOCL0:IOCL7) are likewise illustrated in Figure 6.

If the load current level ever reaches the selected

overcurrent low detection level and the overcurrent condition

exceeds the programmed overcurrent time period (tOCx), the

device will latch the output OFF.

If at any time the current reaches the selected IOCH level,

then the device will immediately latch the fault and turn OFF

the output, regardless of the selected tOCL driver.

For both cases, the device output will stay off indefinitely

until the device is commanded OFF and then ON again.

33982

Analog Integrated Circuit Device Data

Freescale Semiconductor

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