NCP5007SNT1 데이터 시트보기 (PDF) - ON Semiconductor

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NCP5007SNT1

Compact Backlight LED Boost Driver

ON Semiconductor 

NCP5007

Basically, the chip operates with two cycles:

Cycle #1 : time t1, the energy is stored into the inductor

Cycle #2 : time t2, the energy is dumped to the load

The POR signal sets the flip−flop and the first cycle takes

place. When the current hits the peak value, defined by the

error amplifier associated with the loop regulation, the

flip−flop resets, the NMOS is deactivated and the current is

dumped into the load. Since the timing is application

dependent, the internal timer limits the Toff cycle to 320 ns

(typical), making sure the system operates in a continuous

mode to maximize the energy transfer.

IL

0 mA

Ids

0 mA

Io

0 mA

First Startup

Normal Operation

t1 t2

Figure 4. Basic DC−DC Operation

Ipeak

Iv

t

t

t

Based on the data sheet, the current flowing into the

inductor is bounded by two limits:

• Ipeak Value: Internally fixed to 350 mA typical

• Iv Value: Limited by the fixed Toff time built in the

chip (320 ns typical)

The system operates in a continuous mode as depicted in

Figure 4 and t1 & t2 times can be derived from basic

equations. (Note: The equations are for theoretical analysis

only, they do not include the losses.)

E

+

L

*

di

dt

(eq. 1)

Let E = Vbat, then:

t1

+

(Ip

* Iv)

Vbat

*

L

(eq. 2)

t2

+

(Ip * Iv) * L

Vo * Vbat

(eq. 3)

Since t2 = 320 ns typical and Vo = 22 V maximum, then

(assuming a typical Vbat = 3.0 V):

DI

+

t2

*

(Vo *

L

Vbat)

(eq. 4)

DImax

+

320e

* 9 * (22 *

22e * 6

3.0)

+

276

mA

Of course, from a practical stand point, the inductor must

be sized to cope with the peak current present in the circuit

to avoid saturation of the core. On top of that, the ferrite

material shall be capable to operate at high frequency

(1.0 MHz) to minimize the Foucault’s losses developed

during the cycles.

The operating frequency can be derived from the

electrical parameters. Let V = Vo − Vbat, rearranging

Equation 1:

ton

+

dI *

E

L

(eq. 5)

Since toff is nearly constant (according to the 320 ns

typical time), the dI is constant for a given load and

inductance value. Rearranging Equation 5 yields:

ton

+

V*dt

L

*

E

L

(eq. 6)

Let E = Vbat, and Vopk = output peak voltage, then:

ton

+

(Vopk

* Vbat)

Vbat

*

dt

Finally, the operating frequency is:

(eq. 7)

F

+

ton

1

)

toff

(eq. 8)

The output power supplied by the NCP5007 is limited to

one watt: Figure 5 shows the maximum power that can be

delivered by the chip as a function of the input voltage.

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