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NCP1207A Datasheet(PDF) 9 Page - ON Semiconductor |
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NCP1207A Datasheet(HTML) 9 Page - ON Semiconductor |
9 / 17 page NCP1207A http://onsemi.com 9 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 ⋅ Qg ⋅ VCC with: Fsw = maximum switching frequency Qg = MOSFET’s gate charge VCC = VGS level applied to the gate To obtain the output current, simply divide this result by VCC: Idriver = FSW ⋅ Qg = 1.6 mA. The total standby power consumption at no−load 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 NCP1207A consumption (neglecting the switching losses of the HV current source). If ICC2 equals 2.3 mA @ TJ = 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 @ 2 p . Our power contribution 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 low−line startups. 1 2 3 4 8 7 6 5 HV 1N4007 MAINS 6 5 12 Figure 13. A simple diode naturally reduces the average voltage on Pin 8 Cbulk When using Figure 13 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 (half−wave rectification), CVCC should be calculated to supply the IC during these holes in the supply 3. Permanently force the VCC level above VCCH with an auxiliary winding. It will automatically disconnect the internal startup source and the IC will be fully self−supplied 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 NCP1207A 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 so−called skip cycle mode, also named controlled burst operation. The power transfer now depends upon the width of the pulse bunches (Figure 14) and follows the following formula: 1 2 @ Lp @ Ip2 @ Fsw @ Dburst with: Lp = primary inductance Fsw = switching frequency within the burst Ip = peak current at which skip cycle occurs Dburst = burst width / burst recurrence Figure 14. The skip cycle takes place at low peak currents which guaranties noise free operation 0 300 200 100 MAX PEAK CURRENT WIDTH RECURRENCE SKIP CYCLE CURRENT LIMIT NORMAL CURRENT MODE OPERATION |
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