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AD9224ARS Datenblatt(PDF) 9 Page - Analog Devices |
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AD9224ARS Datenblatt(HTML) 9 Page - Analog Devices |
9 / 24 page AD9224 –9– REV. A Due to the high degree of symmetry within the SHA topology, a significant improvement in distortion performance for differ- ential input signals with frequencies up to and beyond Nyquist can be realized. This inherent symmetry provides excellent cancellation of both common-mode distortion and noise. Also, the required input signal voltage span is reduced by a half which further reduces the degree of RON modulation and its effects on distortion. The optimum noise and dc linearity performance for either differential or single-ended inputs is achieved with the largest input signal voltage span (i.e., 4 V input span) and matched input impedance for VINA and VINB. Only a slight degrada- tion in dc linearity performance exists between the 2 V and 4 V input spans. Referring to Figure 14, the differential SHA is implemented using a switched-capacitor topology. Its input impedance and its switching effects on the input drive source should be consid- ered in order to maximize the converter’s performance. The combination of the pin capacitance, CPIN, parasitic capacitance CPAR, and the sampling capacitance, CS, is typically less than 5 pF. When the SHA goes into track mode, the input source must charge or discharge the voltage stored on CS to the new input voltage. This action of charging and discharging CS, averaged over a period of time and for a given sampling fre- quency, FS, makes the input impedance appear to have a be- nign resistive component. However, if this action is analyzed within a sampling period (i.e., T = 1/FS), the input impedance is dynamic and hence certain precautions on the input drive source should be observed. The resistive component to the input impedance can be com- puted by calculating the average charge drawn by CH from the input drive source. It can be shown that if CS is allowed to fully charge up to the input voltage before switches QS1 are opened, the average current into the input is the same as if there were a resistor of 1/(CS FS) ohms connected between the inputs. This means that the input impedance is inversely pro- portional to the converter’s sample rate. Since CS is only 5 pF, this resistive component is typically much larger than that of the drive source (i.e., 5 k Ω at F S = 40 MSPS). The SHA’s input impedance over a sampling period appears as a dynamic input impedance to the input drive source. When the SHA goes into the track mode, the input source should ideally provide the charging current through RON of switch QS1 in an exponential manner. The requirement of exponential charging means that the most common input source, an op amp, must exhibit a source impedance that is both low and resistive up to and beyond the sampling frequency. The output impedance of an op amp can be modeled with a series inductor and resistor. When a capacitive load is switched onto the output of the op amp, the output will momentarily drop due to its effective output impedance. As the output re- covers, ringing may occur. To remedy the situation, a series resistor can be inserted between the op amp and the SHA input as shown in Figure 15. The series resistance helps isolate the op amp from the switched-capacitor load. 10 F VINA VINB SENSE AD9224 0.1 F RS VCC VEE RS VREF REFCOM Figure 15. Series Resistor Isolates Switched-Capacitor SHA Input from Op Amp. Matching Resistors Improve SNR Performance The optimum size of this resistor is dependent on several fac- tors, including the ADC sampling rate, the selected op amp, and the particular application. In most applications, a 30 Ω to 100 Ω resistor is sufficient. However, some applications may require a larger resistor value to reduce the noise bandwidth or possibly limit the fault current in an overvoltage condition. Other applications may require a larger resistor value as part of an antialiasing filter. In any case, since the THD performance is dependent on the series resistance and the above mentioned factors, optimizing this resistor value for a given application is encouraged. The source impedance driving VINA and VINB should be matched. Failure to provide that matching will result in the degradation of the AD9224’s SNR, THD and SFDR. For noise sensitive applications, the very high bandwidth of the AD9224 may be detrimental and the addition of a series resistor and/or shunt capacitor can help limit the wideband noise at the A/D’s input by forming a low-pass filter. Note, however, that the combination of this series resistance with the equivalent input capacitance of the AD9224 should be evaluated for those time domain applications that are sensitive to the input signal’s absolute settling time. In applications where harmonic distor- tion is not a primary concern, the series resistance may be selected in combination with the nominal 10 pF of input capacitance to set the filter’s 3 dB cutoff frequency. A better method of reducing the noise bandwidth, while possi- bly establishing a real pole for an antialiasing filter, is to add some additional shunt capacitance between the input (i.e., VINA and/or VINB) and analog ground. Since this additional shunt capacitance combines with the equivalent input capaci- tance of the AD9224, a lower series resistance can be selected to establish the filter’s cutoff frequency while not degrading the distortion performance of the device. The shunt capacitance also acts like a charge reservoir, sinking or sourcing the addi- tional charge required by the hold capacitor, CH, further reduc- ing current transients seen at the op amp’s output. The effect of this increased capacitive load on the op amp driv- ing the AD9224 should be evaluated. To optimize performance when noise is the primary consideration, increase the shunt capacitance as much as the transient response of the input signal will allow. Increasing the capacitance too much may adversely affect the op amp’s settling time, frequency response and distor- tion performance. |
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