NCV8501D50 ON Semiconductor, NCV8501D50 Datasheet - Page 12

NCV8501D50

Manufacturer Part Number

NCV8501D50

Description

IC REG LDO 150MA 5.0V 8-SOIC

Manufacturer

ON Semiconductor

Datasheet

1.NCV8501PDW25R2G.pdf (16 pages)

Specifications of NCV8501D50

Regulator Topology

Positive Fixed

Voltage - Output

Voltage - Input

Up to 45V

Voltage - Dropout (typical)

0.4V @ 150mA

Number Of Regulators

Current - Output

150mA

Current - Limit (min)

151mA

Operating Temperature

-40°C ~ 150°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Note that, for ENABLE pin voltages in excess of 10 V, an

external series resistor is required to limit the current into

Z1.

(maximum value) current source dominates the input

current, as the opposing P1 base current is negligible by

comparison.

input current is given by:

breakover voltage can be as low as 10 V), the input current

is dominated by the external series resistor. For the case

where V

be up to (2 V/10 kW), = 200 mA.

achieve ~3.85 V at the base of N1, or approximately (3.85 V

− 2 Vbe). At +20°C, this threshold is ~2.55 V. At −40°C, it

can be as high as 3 V.

ENABLE input current, then the worst−case drop across

maximum ENABLE threshold. At V

need to consider the 5 mA current sink.

ENABLE

VCC

GND

EXT

UNDERSTANDING THE NCV8501 ENABLE PIN

Z1, R1, and Z2 provide ESD and overvoltage protection.

For ENABLE pin voltages less than +7 V, the 5 mA

For ENABLE pin voltages between +7 V and +11 V, the

For ENABLE pin voltages in excess of 10 V (Z1

The ENABLE threshold is that voltage required to

If the value of R

Max effective threshold = 3 V + (5 mA * 220 kW)

Figure 21. NCV8501 Enable Function Equivalent

must be added to 3 V to determine the effective

ENABLE

11V

20K

= 12 V; R

5 mA + ((V

INPUT CURRENT

EXT

is increased to ~200 kW, to reduce

EXT

(max)

Circuit

= 3 V + 1.1 V

= 4.1 V

5μA

ENABLE

= 10 kW, the input current can

1.2M

ENABLE

− 7) / 20 kW)

~3.85V

< 7 V, we only

1.25V

Internal

power

reference

rail

Internal

http://onsemi.com

regulator (Figure 22) is:

P D(max) + [V IN(max) * V OUT(min) ] I OUT(max)

where:

permissible value of R

package section of the data sheet. Those packages with

the die temperature below 150°C.

dissipate the heat generated by the IC, and an external

heatsink will be required.

qJA

The maximum power dissipation for a single output

application, and

Once the value of P

The value of R

In some cases, none of the packages will be sufficient to

OUT(max)

Figure 23. 16 Lead SOW (Exposed Pad), qJA as a

IN(max)

OUT(min)

CALCULATING POWER DISSIPATION IN A

100

Thickness), Board Material = 0.0625, G−10/R−4

’s less than the calculated value in Equation 2 will keep

is the quiescent current the regulator consumes at

Figure 22. Single Output Regulator with Key

SINGLE OUTPUT LINEAR REGULATOR

Function of the Pad Copper Area (2 oz. Cu

Performance Parameters Labeled

is the maximum input voltage,

) V IN(max) I Q

is the minimum output voltage,

is the maximum output current for the

qJA

R QJA + 150C *

200

can then be compared with those in the

qJA

REGULATOR®

Copper Area (mm

D(max)

}

can be calculated:

SMART

Control

Features

400

P D

is known, the maximum

T A

)

OUT

600

(eq. 2)

(eq. 1)

OUT

800

NCV8501D50 ON Semiconductor, NCV8501D50 Datasheet - Page 12

NCV8501D50

Specifications of NCV8501D50

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