NCP1028 ON Semiconductor, NCP1028 Datasheet - Page 21

NCP1028

Manufacturer Part Number

NCP1028

Description

High?voltage Switcher For Medium Power Offline Smps

Manufacturer

ON Semiconductor

Datasheet

1.NCP1028.pdf (29 pages)

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design specifications impose stringent conditions on the

maximum output current capability, regardless the line

input. Hence the need for an OPP input…

let us calculate the needed peak current:

deliver 12.8 W at high line.

setpoint by 6% roughly when

couple voltage/current present on pin 7. Figure 36 shows

how to arrange components around the controller to obtain

Over Power Protection.

the voltage across pin 7 to start activating OPP.

Experiments consist in wiring Figure 36 circuit and

running the power supply in conditions where it must shut

down (e.g. highest input voltage and maximum output

current per specification). For this, R

This difference might not be seen as a problem, but some

Since we want to limit the power to 12.8 W at high line,

From equation 6:

Compared to our 735 mA, we need to decrease the

The NCP1028 hosts a special circuitry looking at the

First, you need to know the required injected current and

Figure 36. A resistive network reduces the

power capability in high-line conditions.

Setpoint

Current

Figure 37. The Internal Feedback Chain and the Ramp Compensation Network

Over Power

Protection

I peak +

F SW L p h

GND

equals 350 Vdc.

OPP

2P out

OPPL

Bulk

ROPPU

ROPPL

= 693 mA to

can be put to

http://onsemi.com

Ramp

IRR

NCP1028

10 kW and R

resistors plus a 10-turn 1.0 MW potentiometer set at its

maximum value. An amp-meter is inserted in series with

pin 7 and a volt-meter monitors its voltage with respect to

ground. Once the power supply is powered, slowly rotate

the potentiometer and observe both voltage and current

going up at pin 7. At a certain time, as voltage and current

increase, the controller will shut down the power supply.

The current at this time is the one we are looking for.

Suppose these experiments lead to 80 mA with a pin 7

activation voltage of 2.45 V. Final resistor equations are:

VbulkH = 375 Vdc ; the maximum voltage at which OPP

possible to ground it via a copper wire to the adjacent

ground pin. This can help to develop a larger copper area

in an application where the thermal resistance is an

important parameter.

Ramp Compensation

(CCM), current-mode power supplies can exhibit

so-called sub-harmonic oscillations. To cure this problem,

the designer must inject ramp compensation. The ramp can

either be added to the current sense information or directly

subtracted from the feedback signal. Figure 37 details the

internal arrangement of the ramp compensation circuitry.

OPP

bulkL

If the OPP feature is not needed for some designs, it is

When operating in Continuous Conduction Mode

Gate Reset

= 2.45 V

Control

= 80 mA

= 200 Vdc

R OPPL +

R OPPH + R OPPL

OPPU

made of a series string of 4

I OPP (V bulkL - V f )

V bulkH - V bulkL

must shut down the controller

; the minimum voltage below which

OPP is not activated

; the current in pin 7

; the voltage of pin 7 at the above

condition

V bulkL - V f

V f

V f + 27 kW

+ 2.2 MW

1.0 MW

(eq. 7)

(eq. 8)

NCP1028 ON Semiconductor, NCP1028 Datasheet - Page 21

NCP1028

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