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AD7716 데이터시트(PDF) 11 Page - Analog Devices |
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AD7716 데이터시트(HTML) 11 Page - Analog Devices |
11 / 16 page REV. A –11– AD7716 Source Resistance If passive attenuators are used in front of the AD7716, care must be taken to ensure that the source impedance is suffi- ciently low. The dc input resistance for the AD7716 is greater than 1 G Ω. In parallel with this there is a small sampling ca- pacitor. The dynamic load presented by this varies with the clock frequency. The modulator sampling rate determines the amount of time available for the sampling capacitor to be charged. Any extra external impedances result in a longer over- all charge time resulting in extra gain errors on the analog input. The AD7716 has a quite large gain error (1% FSR) due to the fact that there is no on-chip calibration. Thus, even an extra 10 k Ω source resistance and 50 pF source capacitance will have no significant effect on this. Active signal conditioning circuits such as op amps generally do not suffer from problems of high source impedance. Their open-loop output resistance is normally only tens of ohms and, in any case, most modern general purpose op amps have sufficiently fast closed-loop settling time for this not to be a problem. Accuracy Sigma-delta ADCs, like VFCs and other integrating ADCs, do not contain any source of nonmonotonicity and inherently offer no missing codes performance. The AD7716 achieves excellent linearity by the use of high quality, on-chip silicon dioxide capacitors, which have a very low capacitance/voltage coefficient. Drift Considerations The AD7716 uses autozeroing techniques to minimize input offset drift. Charge injection in the analog switches and leakage currents at the sampling node are the primary sources of offset voltage drift in the converter. Figure 7 indicates the typical off- set due to temperature changes. Drift is relatively flat up to 85 °C. Above this temperature, leakage current becomes the main source of offset drift. Since leakage current doubles ap- proximately every 10 °C, the offset drifts accordingly. The value of the voltage on the sample capacitor is updated at a rate deter- mined by the master clock, therefore the amount of offset drift which occurs will be proportional to the elapsed time between samples. Gain drift within the converter depends mainly upon the tem- perature tracking of the internal capacitors. It is not affected by leakage currents. Figure 7. Typical Offset Drift Voltage Reference The voltage applied to the VREF pin defines the analog input range. The specified reference voltage is 2.5 V ± 10%. The reference input presents exactly the same dynamic load as the analog input, but in the case of the reference input, source resistance and long settling time introduce gain errors rather than offset errors. Most precision references however have suffi- ciently low output impedance and wide enough bandwidth to settle to the required accuracy in the time allowed by the AD7716. The reference should be chosen to have minimal noise in the programmed passband. Recommended references are the AD780 or the REF43 from Analog Devices. These low noise references have typical noise spectral densities of 100 nV/ √Hz at 600 Hz. This corresponds to an rms noise of 2.5 µV in this band and is more than adequate for the AD7716. Clock Generation The device operates from a master clock which must be pro- vided either from a crystal source or an external clock source. If a crystal is used, it must be connected across the CLKIN and CLKOUT pins. Typical loading capacitors of 15 pF are re- quired on CLKIN, CLKOUT. The crystal manufacturers data should be consulted for more information. An external clock can also be used to drive the CLKIN input directly with a CMOS compatible clock. In this case, CLKOUT is left uncon- nected. The nominal clock frequency for the device is 8 MHz. –0.125 –0.625 20 90 –0.25 –0.500 30 –0.375 70 80 60 50 40 TEMPERATURE – °C |
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