GRM42-6X5R475K10 Impala Linear Corporation, GRM42-6X5R475K10 Datasheet - Page 6

GRM42-6X5R475K10

Manufacturer Part Number

GRM42-6X5R475K10

Description

50/100M SOT-23 CMOS RF LDO REGULATORS

Manufacturer

Impala Linear Corporation

Datasheet

1.GRM42-6X5R475K10.pdf (16 pages)

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Shutdown (ON/OFF) Operation

The ILC7080/81 output can be turned off by applying 0.4V

or less to the device’s ON/OFF pin (pin 3). In shutdown

mode, the ILC7080/81 draws less than 1mA quiescent cur-

rent. The output of the ILC7081 is enabled by applying 2V

to 13V at the ON/OFF pin. In applications where the

ILC7080/81 output will always remain enabled, the ON/OFF

pin may be connected to V

shutdown circuitry includes hysteresis, as such the device

will operate properly even if a slow moving signal is applied

to the ON/OFF pin. The device’s shutdown pin includes a

Short Circuit Protection

The ILC7080/81 output can withstand momentary short cir-

cuit to ground. Moreover, the regulator can deliver very high

output peak current due to its 1A instantaneous short circuit

current capability.

Thermal Protection

The ILC7080/81 also includes a thermal protection circuit

which shuts down the regulator when die temperature

exceeds 170°C due to overheating. In thermal shutdown,

once the die temperature cools to below 160°C, the regula-

tor is enabled. If the die temperature is excessive due to

high package power dissipation, the regulator’s thermal cir-

cuit will continue to pulse the regulator on and off. This is

called thermal cycling.

Excessively high die temperature may occur due to high dif-

ferential voltage across the regulator or high load current or

high ambient temperature or a combination of all three.

Thermal protection protects the regulator from such fault

conditions and is a necessary requirement in today’s

designs. In normal operation, the die temperature should be

limited to under 150°C.

ILC7080/81 1.1

50/100mA SOT-23 CMOS RF LDO™ Regulators

internal pull down resistor connected to ground.

Impala Linear Corporation

Figure 2: ILC7080/81 RF LDO regulator block digram

(pin 1). The ILC7080/81’s

ON/OFF

GND

NOISE

(408) 574-3939

REFERENCE

BANDGAP

REF

INTERNAL V

AMPLIFIER

ERROR

FEEDBACK

Adjustable Output Voltage

Figure 3 shows how an adjustable output voltage can be

easily achieved using ILC7080/81-ADJ. The output voltage,

For best results, a resistor value of 470k

used for R2. The output voltage can be programmed from

2.5V to 12V.

Note: An external capacitor should not be connected to the

adjustable feedback pin (pin 4). Connecting an external capacitor

to pin 4 may cause regulator instability and lead to oscillations.

www.impalalinear.com

OUT

Figure 3: Application circuit for adjustable output voltage

is given by the following equation:

TRANS-

CONDUCTANCE

AMPLIFIER

OUT

= 1.24V x (R1/R2 + 1)

ILC7080-ADJ

ILC7081-ADJ

SOT23-5

ADJ

Sept. 1998

OFF

or less may be

GRM42-6X5R475K10 Impala Linear Corporation, GRM42-6X5R475K10 Datasheet - Page 6

GRM42-6X5R475K10

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