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LF298 Arkusz danych(PDF) 8 Page - Texas Instruments |
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LF298 Arkusz danych(HTML) 8 Page - Texas Instruments |
8 / 15 page Application Hints (Continued) logic input for signal delay, calculate the slope of the wave- form at the threshold point to ensure that it is at least 1.0 V/µs. Sampling Dynamic Signals Sample error to moving input signals probably causes more confusion among sample-and-hold users than any other pa- rameter. The primary reason for this is that many users make the assumption that the sample and hold amplifier is truly locked on to the input signal while in the sample mode. In ac- tuality, there are finite phase delays through the circuit creat- ing an input-output differential for fast moving signals. In ad- dition, although the output may have settled, the hold capacitor has an additional lag due to the 300 Ω series resis- tor on the chip. This means that at the moment the “hold” command arrives, the hold capacitor voltage may be some- what different than the actual analog input. The effect of these delays is opposite to the effect created by delays in the logic which switches the circuit from sample to hold. For ex- ample, consider an analog input of 20 Vp-p at 10 kHz. Maxi- mum dV/dt is 0.6 V/µs. With no analog phase delay and 100 ns logic delay, one could expect up to (0.1 µs) (0.6V/µs) = 60 mVerror if the “hold” signal arrived near maximum dV/dt of the input. A positive-going input would give a +60 mV er- ror. Now assume a 1 MHz (3 dB) bandwidth for the overall analog loop. This generates a phase delay of 160 ns. If the hold capacitor sees this exact delay, then error due to analog delay will be (0.16 µs) (0.6 V/µs) = −96 mV. Total output error is +60 mV (digital) −96 mV (analog) for a total of −36 mV. To add to the confusion, analog delay is proportioned to hold capacitor value while digital delay remains constant. A family of curves (dynamic sampling error) is included to help esti- mate errors. A curve labeled Aperture Time has been included for sam- pling conditions where the input is steady during the sam- pling period, but may experience a sudden change nearly coincident with the “hold” command. This curve is based on a 1 mV error fed into the output. A second curve, Hold Settling Time indicates the time re- quired for the output to settle to 1 mV after the “hold” com- mand. Digital Feedthrough Fast rise time logic signals can cause hold errors by feeding externally into the analog input at the same time the amplifier is put into the hold mode. To minimize this problem, board layout should keep logic lines as far as possible from the analog input and the C h pin. Grounded guarding traces may also be used around the input line, especially if it is driven from a high impedance source. Reducing high amplitude logic signals to 2.5V will also help. Guarding Technique DS005692-5 Use 10-pin layout. Guard around C his tied to output. www.national.com 7 |
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