NCV3063B ON Semiconductor, NCV3063B Datasheet - Page 8

NCV3063B

Manufacturer Part Number

NCV3063B

Description

Step-Up/Down/Inverting Switching Regulators

Manufacturer

ON Semiconductor

Datasheet

1.NCV3063B.pdf (16 pages)

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Peak Current Sense Comparator

normal conditions, output switch conduction is initiated by

the Voltage Feedback comparator and terminated by the

oscillator. Abnormal operating conditions occur when the

converter output is overloaded or when feedback voltage

sensing is lost. Under these conditions, the I

comparator will protect the Darlington output Switch. The

switch current is converted to a voltage by inserting a

fractional ohm resistor, R

Darlington output switch. The voltage drop across R

monitored by the Current Sense comparator. If the voltage

drop exceeds 200 mV with respect to V

will set the latch and terminate output switch conduction on

configuration ensures that the Output Switch has only a

single on−time during a given oscillator cycle.

specified at static conditions. In dynamic operation the

sensed current turn−off value depends on comparator

response time and di/dt current slope.

of the NCP3063. Three main converter topologies are

demonstrated with actual test data shown below each of the

circuit diagrams.

Rs Resistor

With a voltage ripple gated converter operating under

turn−off

The V

Figures 14 through 22 show the simplicity and flexibility

ipk(sense)

cycle−by−cycle

Real

IPK(Sense)

Current Limit Sense Voltage threshold is

di/dt slope

basis.

t_delay

, in series with V

This

Comparator/Latch

NCP3063, NCP3063B, NCV3063

, the comparator

Current Sense

I through the

Darlington

and the

Switch

http://onsemi.com

APPLICATIONS

The di/dt current slope is growing with voltage difference on

the inductor pins and with decreasing inductor value.

the application at worst conditions to be sure that the max

peak current will never get over the 1.5 A Darlington Switch

Current max rating.

Thermal Shutdown

the IC in the event that the maximum junction temperature

is exceeded. When activated, typically at 160°C, the Output

Switch is disabled. The temperature sensing circuit is

designed with 10°C hysteresis. The Switch is enabled again

when the chip temperature decreases to at least 150°C

threshold. This feature is provided to prevent

catastrophic

overheating. It is not intended to be used as a

replacement for proper heatsinking.

Output Switch

configuration. This allows the application designer to

operate at all conditions at high switching speed and low

voltage drop. The Darlington Output Switch is designed to

switch a maximum of 40 V collector to emitter voltage and

current up to 1.5 A.

parameters. Additionally, a complete application design aid

for the NCP3063 can be found at www.onsemi.com.

Real V

Typical I

It is recommended to check the real max peak current in

Internal thermal shutdown circuitry is provided to protect

The output switch is designed in a Darlington

Figure 13 gives the relevant design equations for the key

V turn_off + V ipk(sense) ) Rs @ (t_delay @ di dt)

turn−off

comparator response time t_delay is 350 ns.

on Rsc resistor

failures

from

accidental

device

NCV3063B ON Semiconductor, NCV3063B Datasheet - Page 8

NCV3063B

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