LNBH25L STMicroelectronics, LNBH25L Datasheet - Page 8

LNBH25L

Manufacturer Part Number

LNBH25L

Description

LNB supply and control IC with step-up and IA?C interface

Manufacturer

STMicroelectronics

Datasheet

1.LNBH25L.pdf (28 pages)

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Application information

2.10

2.11

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OLF: overcurrent and short-circuit protection and diagnostic

In order to reduce the total power dissipation during an overload or a short-circuit condition,

the device is provided with a dynamic short-circuit protection. It is possible to set the short-

circuit current protection either statically (simple current clamp) or dynamically by the PCL

bit of the I²C DATA3 register. When the PCL (pulsed current limiting) bit is set to LOW, the

overcurrent protection circuit works dynamically: as soon as an overload is detected, the

output current is provided for a T

for a T

end of T

and T

resumed and the OLF diagnostic bit is reset to LOW after a register reading is done. Typical

greatly reduce the power dissipation in a short-circuit condition, still ensuring excellent

power-on startup in most conditions. However, there may be some cases in which a highly

capacitive load on the output can cause a difficult startup when the dynamic protection is

chosen. This can be solved by initiating any power startup in static mode (PCL=1) and then

switching to the dynamic mode (PCL=0) after a chosen amount of time depending on the

output capacitance. Also in static mode, the diagnostic OLF bit goes to “1” when the current

clamp limit is reached and returns LOW when the overload condition is cleared and a

After the overload condition is removed, normal operation can be resumed in two ways,

according to the OLR I²C bit on the DATA4 register.

If OLR=1, all VSEL 1..4 bits are reset to “0” and LNB output (V

enable the output stage, the VSEL bits must be set again by the microprocessor, and the

OLF bit is reset to “0” after a register reading operation.

If OLR=0, output is automatically re-enabled as soon as the overload condition is removed,

and the OLF bit is reset to “0” after a register reading operation.

OTF: thermal protection and diagnostic

The LNBH25L is also protected against overheating: when the junction temperature

exceeds 150 °C (typ.), the step-up converter and the linear regulator are shut off, the

diagnostic OTF bit in the STATUS1 register is set to “1”. After the overtemperature condition

is removed, normal operation can be resumed in two ways, according to the THERM I²C bit

on the DATA4 register.

If THERM=1, all VSEL 1..4 bits are reset to “0” and LNB output (V

enable the output stage, the VSEL bits must be set again by the microprocessor, while the

OTF bit is reset to “0” after a register reading operation.

If THERM=0, output is automatically re-enabled as soon as the overtemperature condition is

removed, while the OTF bit is reset to “0” after a register reading operation.

+ T

OFF

. At the end of a full T

time of typically 900 ms. Simultaneously, the diagnostic OLF I²C bit of the system

, if the overload is still detected, the protection circuit cycles again through T

time is 990 ms and an internal timer determines it. This dynamic operation can

Doc ID 022634 Rev 2

in which no overload is detected, normal operation is

time of 90 ms, after which the output is set in shutdown

OUT

pin) is disabled. To re-

LNBH25L

. At the

OFF

LNBH25L STMicroelectronics, LNBH25L Datasheet - Page 8

LNBH25L

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