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您現在的位置：買賣IC網 > PDF目錄363216 > NCP1207 (ON SEMICONDUCTOR) PWM Current-Mode Controller for Free Running Quasi-Resonant Operation(電流模式控制的PWM控制器，用于自由振蕩的“準諧振”操作) PDF資料下載

參數資料

型號：	NCP1207
廠商：	ON SEMICONDUCTOR
英文描述：	PWM Current-Mode Controller for Free Running Quasi-Resonant Operation(電流模式控制的PWM控制器，用于自由振蕩的“準諧振”操作)
中文描述：	PWM電流模式控制器上運行的免費準諧振操作（電流模式控制的脈寬調制控制器，用于自由振蕩的“準諧振”操作）
文件頁數：	9/18頁
文件大?。?/td>	203K
代理商：	NCP1207

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NCP1207

http://onsemi.com

The DSS behavior actually depends on the internal IC

consumption and the MOSFET’s gate charge Qg. If we

select a MOSFET like the MTP2N60E, Qg equals 22 nC

(max). With a maximum switching frequency selected at

75 kHz, the average power necessary to drive the MOSFET

(excluding the driver efficiency and neglecting various

voltage drops) is:

Fsw

with:

Fsw = maximum switching frequency

Qg = MOSFET’s gate charge

= V

level applied to the gate

To obtain the output current, simply divide this result by

: I

driver

= F

Qg = 1.6 mA. The total standby power

consumption at noload will therefore heavily rely on the

internal IC consumption plus the above driving current

(altered by the driver’s efficiency). Suppose that the IC is

supplied from a 350 VDC line. The current flowing through

pin 8 is a direct image of the NCP1207 consumption

(neglecting the switching losses of the HV current source).

If I

CC2

equals 2.3 mA @ T

= 60

C, then the power

dissipated (lost) by the IC is simply: 350 V x 2.3 mA =

805 mW. For design and reliability reasons, it would be

interested to reduce this source of wasted power that

increase the die temperature. This can be achieved by using

different methods:

1. Use a MOSFET with lower gate charge Qg.

2. Connect pin 8 through a diode (1N4007 typically) to

one of the mains input. The average value on pin 8

becomes

VmainsPEAK

example drops to: 223 V x 2.3 mA = 512 mW. If a

resistor is installed between the mains and the diode,

you further force the dissipation to migrate from the

package to the resistor. The resistor value should

account for lowline startups.

. Our power contribution

1N4007

MAINS

Figure 17. A simple diode naturally reduces the

average voltage on pin 8

bulk

When using Figure 17 option, it is important to check

the absence of any negative ringing that could occur

on pin 8. The resistor in series should help to damp

any parasitic LC network that would ring when

suddenly applying the power to the IC. Also, since

the power disappears during 10 ms (halfwave

rectification), CV

should be calculated to supply

the IC during these holes in the supply

3. Permanently force the V

level above V

CCH

with

an auxiliary winding. It will automatically

disconnect the internal startup source and the IC will

be fully selfsupplied from this winding. Again, the

total power drawn from the mains will significantly

decrease. Make sure the auxiliary voltage never

exceeds the 16 V limit.

Skipping Cycle Mode

The NCP1207 automatically skips switching cycles when

the output power demand drops below a given level. This is

accomplished by monitoring the FB pin. In normal

operation, pin 2 imposes a peak current accordingly to the

load value. If the load demand decreases, the internal loop

asks for less peak current. When this setpoint reaches a

determined level, the IC prevents the current from

decreasing further down and starts to blank the output

pulses: the IC enters the socalled skip cycle mode, also

named controlled burst operation. The power transfer now

depends upon the width of the pulse bunches (Figure 18) and

follows the following formula:

Lp = primary inductance

Fsw = switching frequency within the burst

Ip = peak current at which skip cycle occurs

burst

= burst width / burst recurrence

Fsw

Dburst

with:

Figure 18. The skip cycle takes place at low peak

currents which guaranties noise free operation

300

200

100

MAX PEAK

CURRENT

WIDTH

RECURRENCE

SKIP CYCLE

CURRENT LIMIT

NORMAL CURRENT

MODE OPERATION

相關PDF資料	PDF描述
NCP1209	PWM Voltage Mode Controller(電壓模式控制的PWM控制器)
NCP1212DR2G	Current Mode PWM Controller for Both Forward and Flyback Converters
NCP1212	Current Mode PWM Controller for Both Forward and Flyback Converters
NCP1212PG	Current Mode PWM Controller for Both Forward and Flyback Converters
NCP1212DR2	Current Mode PWM Controller for Both Forward and Flyback Converters

相關代理商/技術參數	參數描述
NCP1207/D	制造商:未知廠家制造商全稱:未知廠家功能描述:PWM Current-Mode Controller for Quasi-Resonant Operation
NCP1207A	制造商:ONSEMI 制造商全稱:ON Semiconductor 功能描述:PWM Current-Mode Controller for Free Running Quasi-Resonant Operation
NCP1207A_06	制造商:ONSEMI 制造商全稱:ON Semiconductor 功能描述:PWM Current−Mode Controller for Free Running Quasi−Resonant Operation
NCP1207A_07	制造商:ONSEMI 制造商全稱:ON Semiconductor 功能描述:PWM Current-Mode Controller for Free Running Quasi-Resonant Operation
NCP1207A_10	制造商:ONSEMI 制造商全稱:ON Semiconductor 功能描述:PWM Current--Mode Controller for Free Running Quasi--Resonant Operation

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