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LTC1148CN-5 Datasheet(PDF) 11 Page - Linear Technology |
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LTC1148CN-5 Datasheet(HTML) 11 Page - Linear Technology |
11 / 20 page 11 LTC1148 LTC1148-3.3/LTC1148-5 114835fd APPLICATIO S I FOR ATIO In surface mount applications multiple capacitors may have to be paralleled to meet the capacitance, ESR, or RMS current handling requirements of the application. Aluminum electrolytic and dry tantalum capacitors are both available in surface mount configurations. In the case of tantalum, it is critical that the capacitors are surge tested for use in switching power supplies. An excellent choice is the AVX TPS series of surface mount tantalums, available in case heights ranging from 2mm to 4mm. For example, if 200µF/10V is called for in an application requiring 3mm height, two AVX 100µF/10V (P/N TPSD 107K010) could be used. Consult the manufacturer for other specific recommendations. At low supply voltages, a minimum capacitance at COUT is needed to prevent an abnormal low frequency oper- ating mode (see Figure 4). When COUT is made too small, the output ripple at low frequencies will be large enough to trip the voltage comparator. This causes Burst Modeoperation to be activated when the LTC1148 series would normally be in continuous operation. The effect is most pronounced with low values of RSENSE and can be improved by operating at higher frequencies with lower values of L. The output remains in regulation at all times. several cycles to respond to a step in DC (resistive) load current. When a load step occurs, VOUT shifts by an amount equal to ∆ILOAD • ESR, where ESR is the effective series resistance of COUT. ∆ILOAD also begins to charge or discharge COUT until the regulator loop adapts to the current change and returns VOUT to its steady state value. During this recovery time VOUT can be monitored for overshoot or ringing which would indicate a stability problem. The Pin 6 external components shown in the Figure 1 circuit will prove adequate compensation for most applications. A second, more severe transient is caused by switching in loads with large (>1µF) supply bypass capacitors. The discharged bypass capacitors are effectively put in parallel with COUT, causing a rapid drop in VOUT. No regulator can deliver enough current to prevent this problem if the load switch resistance is low and it is driven quickly. The only solution is to limit the rise time of the switch drive so that the load rise time is limited to approximately 25 • CLOAD. Thus a 10µF capacitor would require a 250µs rise time, limiting the charging current to about 200mA. Efficiency Considerations The percent efficiency of a switching regulator is equal to the output power divided by the input power times 100%. It is often useful to analyze individual losses to determine what is limiting the efficiency and which change would produce the most improvement. Percent efficiency can be expressed as: %Efficiency = 100% – (L1 + L2 + L3 + ...) where L1, L2, etc., are the individual losses as a percent- age of input power. (For high efficiency circuits only small errors are incurred by expressing losses as a percentage of output power). Although all dissipative elements in the circuit produce losses, three main sources usually account for most of the losses in LTC1148 series circuits: 1) LTC1148 DC bias current, 2) MOSFET gate charge current, and 3) I 2R losses. 1. The DC supply current is the current which flows into VIN Pin 3 less the gate charge current. For VIN = 10V the Checking Transient Response The regulator loop response can be checked by looking at the load transient response. Switching regulators take (VIN – VOUT) VOLTAGE (V) 0 600 1000 4 LTC1148 • F04 400 200 0 1 2 3 5 800 L = 50µH RSENSE = 0.02Ω L = 25µH RSENSE = 0.02Ω L = 50µH RSENSE = 0.05Ω Figure 4. Minimum Value of COUT |
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