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SP6122ACU-15 Datasheet(PDF) 8 Page - Sipex Corporation |
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SP6122ACU-15 Datasheet(HTML) 8 Page - Sipex Corporation |
8 / 19 page 8 Date: 10/02/04 SP6122 Low Voltage, Micro 8, PFET, Buck Controller © Copyright 2004 Sipex Corporation V(VCC) TIME PDRV Voltage - V(VDIODE) 0V SWN Voltage V(VCC) = VIN 0 V Gate Driver Test Conditions 10 % 90 % 5 V FALL TIME RISE TIME 10 % 90 % PDRV Over Current Protection Over current protection on the SP6122 is implemented through detection of an ex- cess voltage condition across the PFET switch during conduction. This is typically referred to as high side RDS(ON) detection. The over current comparator charges a sampling capacitor each time V(ISET) – V(ISENSE) exceeds 150mV (typ) and the PDRV voltage is low. The discharge cur- rent/charge current ratio on the sampling capacitor is about 2%. Therefore, provided that the over current condition persists, the capacitor voltage will be pumped up during each time PDRV switches low and this voltage will trigger an over current condition upon reaching a CMOS inverter threshold. There are many advantages to this ap- proach. First, the filtering action of the gated S/H scheme protects against false trigger- ing during a transient load condition or sup- ply line noise. In addition, the total amount of time to trigger the fault depends on the on-time of the PFET switch. Ten, 1µs pulses are equivalent to twenty, 500ns pulses or one, 1µs pulse, however, depending on the period, each scenario takes a different amount of total time to trigger a fault. There- fore, the fault becomes an indicator of aver- age power in the PFET switch. Also, be- cause the CMOS trip threshold is depen- dent on VCC, the over current scheme is protected against false triggering due to changes in line voltage. Although the 150mV threshold is fixed, the overall RDS(ON) detection voltage can be increased by placing a resistor from ISET to VCC. A 20µA sink current programs the additional voltage. The 150 mV threshold and 20µA ISET cur- rent have 3800 ppm/°C and 4300 ppm/°C temperature coefficients, respectively. These TC’s are designed into the SP6122 in an effort to match the thermal character- istics of the PFET switch. It assumed that the SP6122 will be used in compact designs where there is a high amount of thermal coupling between the PFET and the con- troller. Light Load Operation One of the advantages of the SP6122 mini- mum on-time control scheme is the loop’s ability to seamlessly and efficiently transi- tion from heavy loads to light loads. In most other control schemes, the controller is no- tified about a light load condition and then must abruptly change control schemes in order to maintain efficiency. The SP6122 simply reduces the frequency when the average load current is less than the aver- age inductor ripple current. As a result, switching loss decreases as the load cur- rent decreases and overall efficiency is maintained. Output Driver The driver stage consists of a high side, 4 ohm PFET driver. The following waveforms illustrate basic behavior of the driver. |
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