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SC1485ITSTRT Datasheet(PDF) 10 Page - Semtech Corporation |
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SC1485ITSTRT Datasheet(HTML) 10 Page - Semtech Corporation |
10 / 27 page 10 2005 Semtech Corp. www.semtech.com SC1485 POWER MANAGEMENT The current limit circuitry also protects against negative over-current (i.e. when the current is flowing from the load to PGND through the inductor and bottom MOSFET). In this case, when the bottom MOSFET is turned on, the phase node, LX, will be higher than PGND initially. The SC1485 monitors the voltage at LX, and if it is greater than a set threshold voltage of 125mV (nom.) the bottom MOSFET is turned off. The device then waits for approximately 2.5µs and then DL goes high for 300ns (typ.) once more to sense the current. This repeats until either the over-current condition goes away or the part latches off due to output overvoltage (see Output Overvoltage Protection). Power Good Output The power good output is an open-drain output and requires a pull-up resistor. When the output voltage is 10% above or below its set voltage, PGD gets pulled low. It is held low until the output voltage returns to within these tolerances once more. PGD is also held low during start-up and will not be allowed to transition high until soft start is over (440 switching cycles) and the output reaches 90% of its set voltage. There is a 5µs delay built into the PGD circuitry to prevent false transitions. Output Overvoltage Protection When the output exceeds 10% of its set voltage the low-side MOSFET is latched on. It stays latched on and the controller is latched off until reset (see below). There is a 5µs delay built into the OV protection circuit to prevent false transitions. Output Undervoltage Protection When the output is 30% below its set voltage the output is latched in a tri-stated condition. It stays latched and the controller is latched off until reset (see below). There is a 5µs delay built into the UV protection circuit to prevent false transitions. Note: to reset from any fault, VCCA or EN/PSV must be toggled. POR, UVLO and Softstart An internal power-on reset (POR) occurs when VCCA exceeds 3V, starting up the internal biasing. VCCA undervoltage lockout (UVLO) circuitry inhibits the controller until VCCA rises above 4.2V. At this time the UVLO circuitry resets the fault latch and soft start counter, and allows switching to occur if the device is enabled. Switching always starts with DL to charge up the BST capacitor. With the softstart circuit (automatically) enabled, it will progressively limit the output current (by limiting the current out of the ILIM pin) over a predetermined time period of 440 switching cycles. The ramp occurs in four steps: 1) 110 cycles at 25% ILIM with double minimum off-time (for purposes of the on-time one-shot, there is an internal positive offset of 120mV to VOUT during this period to aid in startup) 2) 110 cycles at 50% ILIM with normal minimum off-time 3) 110 cycles at 75% ILIM with normal minimum off-time 4) 110 cycles at 100% ILIM with normal minimum off-time. At this point the output undervoltage and power good circuitry is enabled. There is 100mV of hysteresis built into the UVLO circuit and when VCCA falls to 4.1V (nom.) the output drivers are shut down and tristated. MOSFET Gate Drivers The DH and DL drivers are optimized for driving moderate-sized high-side, and larger low-side power MOSFETs. An adaptive dead-time circuit monitors the DL output and prevents the high-side MOSFET from turning on until DL is fully off (below ~1V). Semtech’s SmartDriver™ FET drive first pulls DH high with a pull-up resistance of 10 Ω (typ.) until LX = 1.5V (typ.). At this point, an additional pull-up device is activated, reducing the resistance to 2 Ω (typ.). This negates the need for an external gate or boost resistor. The adaptive dead-time circuit also monitors the phase node, LX, to determine the state of the high side MOSFET, and prevents the low- side MOSFET from turning on until DH is fully off (LX below ~1V). Be sure to have low resistance and low inductance between the DH and DL outputs to the gate of each MOSFET. Dropout Performance The output voltage adjust range for continuous- conduction operation is limited by the fixed 550ns (maximum) minimum off-time one-shot. For best dropout performance, use the slowest on-time setting of 200kHz. When working with low input voltages, the duty-factor limit must be calculated using worst-case values for on and off times. The IC duty-factor limitation is given by: ) MAX ( OFF t ) MIN ( ON t ) MIN ( ON t DUTY + = |
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