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LP3470IM5-4.00 Datasheet(PDF) 6 Page - National Semiconductor (TI) |
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LP3470IM5-4.00 Datasheet(HTML) 6 Page - National Semiconductor (TI) |
6 / 8 page Application Information RESET TIMEOUT PERIOD The Reset Timeout Period (t RP) is programmable using an external capacitor (C 1) connected to pin SRT of LP3470. A Ceramic chip capacitor rated at or above 10V is sufficient. The Reset Timeout Period (t RP) can be calculated using the following formula: t RP (ms) = 2000 x C1 (µF). For example a C 1 of 100 nF will achieve a tRP of 200 ms. If no delay due to t RP is needed in a certain application, the pin SRT should be left floating. RESET OUTPUT In applications like microprocessor (µP) systems, errors might occur in system operation during power-up, power- down, or brownout conditions. It is imperative to monitor the power supply voltage in order to prevent these errors from occurring. The LP3470 asserts a reset signal whenever the V CC supply voltage is below a threshold (V RTH) voltage. Reset is guar- anteed to be a logic low for V CC > 0.5V. Once VCC exceeds the reset threshold, the reset is kept asserted for a time period (t RP) programmed by an external capacitor (C1); after this interval Reset goes to logic high. If a brownout condition occurs (monitored voltage falls below the reset threshold minus a small hysteresis), Reset goes low. When V CC re- turns above the reset threshold, Reset remains low for a time period t RP before going to logic high. PULL-UP RESISTOR SELECTION The LP3470’s Reset output structure is a simple open-drain N-channel MOSFET switch. A pull-up resistor (R 1) should be connected to V CC. R 1 should be large enough to limit the current through the output MOSFET (Q 1) below 10 mA. A resistor value of more than 680 Ω guarantees this. R 1 should also be small enough to ensure a logic high while supplying all the leakage current through the Reset pin. A resistor value of less than 68k Ω satisfies this condition. A typical pull-up resistor value of 20 k Ω is sufficient in most applications. NEGATIVE-GOING V CC TRANSIENTS The LP3470 is relatively immune to short duration negative- going V CC transients (glitches). The Typical Operating Char- acteristics show the Maximum Transient Duration vs. Nega- tive Transient Amplitude (graph titled Transient Rejection), for which reset pulses are not generated. This graph shows the maximum pulse width a negative-going V CC transient may typically have without causing a reset pulse to be issued. As the transient amplitude increases (i.e. goes far- ther below the reset threshold), the maximum allowable pulse width decreases. A 0.1 µF bypass capacitor mounted close to V CC provides additional transient immunity. Timing Diagram 10001604 www.national.com 6 |
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