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CA3304AM bảng dữ liệu(PDF) 10 Page - Intersil Corporation |
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CA3304AM bảng dữ liệu(HTML) 10 Page - Intersil Corporation |
10 / 11 page 4-16 Offset Trim In general offset correction can be done in the preamp circuitry by introducing a DC shift to VIN or by the offset trim of the op amp. When this is not possible the VREF- input can be adjusted to produce an offset trim. The theoretical input voltage to produce the first transition is 1/ 2 LSB. The equation is as follows: VIN (0 to 1 transition) = 1/ 2 LSB = 1/ 2(VREF/16) = VREF/32. Adjust offset by applying this input voltage and adjusting the VREF- voltage or input amplifier offset until an output code alternating between 0 and 1 occurs. Gain Trim In general the gain trim can also be done in the preamp circuitry by introducing a gain adjustment for the op amp. When this is not possible, then a gain adjustment circuit should be made to adjust the reference voltage. To perform this trim, VIN should be set to the 15 to overflow transition. That voltage is 1/2 LSB less than VREF+ and is calculated as follows: VlN (15 to 16 transition) = VREF - VREF/32 = VREF (31/32). To perform the gain trim, first do the offset trim and then apply the required VIN for the 15 to overflow transition. Now adjust VREF+ until that transition occurs on the outputs. Layout, Input And Supply Considerations The CA3304 should be mounted on a ground-planed, printed-circuit board, with good high-frequency decoupling capacitors mounted as close as possible. If the supply is noisy, decouple VAA+ with a resistor as shown in Figure 12A. The CA3304 outputs current spikes to its input at the start of the auto-balance and sample clock phases. A low impedance source, such as a locally-terminated 50 Ω coax cable, should be used to drive the input terminal. A fast- settling buffer such as the HA-5033, HA-5242, or CA3450 should be used if the source is high impedance. The VREF terminals also have current spikes, and should be well bypassed. Care should be taken to keep digital signals away from the analog input, and to keep digital ground currents away from the analog ground. If possible, the analog ground should be connected to digital ground only at the CA3304. Bipolar Operation The CA3304, with separate analog (VAA+, VAA-) and digital (VDD, VSS) supply pins, allows true bipolar or negative input operation. The VAA- pin may be returned to a negative supply (observing maximum voltage ratings to VAA+ or VDD and recommended rating to VSS), thus allowing the VREF- potential also to be negative. Figure 12B shows operation with an input range of -1V to +1V. Similarly, VAA+ and VREF+ could be maintained at a higher voltage than VDD, for an input range above the digital supply. Digital Input And Output Levels The clock input is a CMOS inverter operating from and with logic input levels determined by the VAA supplies. If VAA+ or VAA- are outside the range of the digital supplies, it may be necessary to level shift the clock input to meet the required 30% to 70% of VAA input swing. Figure 12B shows an exam- ple for a negative VAA-. An alternate way of driving the clock is to capacitively couple the pin from a source of at least 1VP-P. An internal 50kΩ feedback resistor will keep the DC level at the intrinsic trip point. Extremely non-symmetrical clock waveforms should be avoided, however. The remaining digital inputs and outputs are referenced to VDD and VSS. If TTL or other lower voltage sources are to drive the CA3304, either pull-up resistors or CD74HCT series “QMOS” buffers are recommended. 5-Bit Resolution To obtain 5-bit resolution, two CA3304s can be wired together. Necessary ingredients include an open-ended ladder net- work, an overflow indicator, three-state outputs, and chip- enable controls - all of which are available on the CA3304. The first step for connecting a 5-bit circuit is to totem-pole the ladder networks, as illustrated in Figure 13. Since the absolute-resistance value of each ladder may vary, external trim of the mid-reference voltage may be required. The overflow output of the lower device now becomes the fifth bit. When it goes high, all counts must come from the upper device. When it goes low, all counts must come from the lower device. This is done simply by connecting the lower overflow signal to the CE1 control of the lower A/D converter and the CE2 control of the upper A/D converter. The three-state outputs of the two devices (bits 1 through 4) are now connected in parallel to complete the circuitry. Definitions Dynamic Performance Definitions Fast Fourier Transform (FFT) techniques are used to evaluate the dynamic performance of the CA3304. A low distortion sine wave is applied to the input, it is sampled, and the output is stored in RAM. The data is then transformed into the fre- quency domain with a 4096 point FFT and analyzed to evalu- ate the dynamic performance of the A/D. The sine wave input to the part is -0.5dB down from full scale for all these tests. Signal-to-Noise (SNR) SNR is the measured RMS signal to RMS noise at a speci- fied input and sampling frequency. The noise is the RMS sum of all of the spectral components except the fundamen- tal and the first five harmonics. Signal-to-Noise + Distortion Ratio (SINAD) SINAD is the measured RMS signal to RMS sum of all other spectral components below the Nyquist frequency excluding DC. CA3304, CA3304A |
Số phần tương tự - CA3304AM |
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Mô tả tương tự - CA3304AM |
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