BD9893F Datasheet, PDF(4/5 Page) Rohm – Silicon Monolithic Integrated Circuit

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BD9893F Datasheet, PDF (4/5 Pages) Rohm – Silicon Monolithic Integrated Circuit

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ãNOTE FOR USE

ï¼ï¼ When designing the external circuit, including adequate margins for variation between external devices and the IC.Use

adequate margins for steady state and transient characteristics.

ï¼ï¼ Recommended Operating Range

The circuit functionality is guaranteed within of ambient temperature operation range as long as it is within recommended

operating range. The standard electrical characteristic values cannot be guaranteed at other voltages in the operating

ranges, however the variation will be small.

ï¼ï¼ Mounting failures, such as misdirection or miscounts, may harm the device.

ï¼ï¼ A strong electromagnetic field may cause the IC to malfunction.

ï¼. The GND pin should be the location within Â±0.3V compared with the PGND pin

ï¼ï¼ The BD9893F incorporate a built-in thermal shutdown circuit (TSD circuit). The thermal shutdown circuit (TSD circuit)

is designed only to shut the IC off to prevent runaway thermal operation. It is not designed to protect the IC or guarantee

its operation. Do not continue to use the IC after operating this circuit or use the IC in an environment where the operation

of the thermal shutdown circuit is assumed.

ï¼ï¼ Absolute maximum ratings are those values that, if exceeded, may cause the life of a device to become significantly shortened.

Moreover, the exact failure mode caused by short or open is not defined. Physical countermeasures, such as a fuse, need

to be considered when using a device beyond its maximum ratings.

ï¼ï¼ About the external FET, the parasitic Capacitor may cause the gate voltage to change, when the drain voltage is switching.

Make sure to leave adequate margin for this IC variation.

ï¼ï¼ On operating Slow Start Control (SS is less than 2.2V), It does not operate Timer Latch.

ï¼ï¼ï¼ By STB voltage, BD9893F are changed to 3 states. Therefore, do not input STB pin voltage between one state and the other

state (0.8ï½1.4V, 2.1ï½2.3V).

ï¼ï¼ï¼The pin connected a connector need to connect to the resistor for electrical surge destruction.

ï¼ï¼ï¼This IC is a monolithic IC which (as shown is Fig-1)has P+ substrate and between the various pins. A P-N junction is

formed from this P layer of each pin. For example, the relation between each potential is as follows,

â(When GND > PinB and GND > PinA, the P-N junction operates as a parasitic diode.)

â(When PinB > GND > PinA, the P-N junction operates as a parasitic transistor.)

Parasitic diodes can occur inevitably in the structure of the IC. The operation of parasitic diodes can result in mutual

interference among circuits as well as operation faults and physical damage. Accordingly you must not use methods by which

parasitic diodes operate, such as applying a voltage that is lower than the GND (P substrate) voltage to an input pin.

(PinA)

Resistance

Pï¼

ï¼®

Pï¼

P substrate

GND

Parasitic diode

Transistor (NPN)

(PinB)

Cï¼£

GND

ï¼®

P substrate

GND

Parasitic diode

(PinB)

(PinA)

Parasitic diode

ï¼¢

ï¼£

Eï¼¥

GND

Other adjacent components Parasitic diode

Fig-1 Simplified structure of a Bipolar IC

REV. A

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