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PCM63 Datasheet(PDF) 6 Page - Burr-Brown (TI) |
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PCM63 Datasheet(HTML) 6 Page - Burr-Brown (TI) |
6 / 10 page 6 ® PCM63P FIGURE 1. Production THD+N Test Setup. Colinear architecture of the PCM63P, with its ideal performance around bipolar zero, provides a more usable dynamic range, even using the strict audio definition, than any previously available D/A converter. Level Linearity Deviation from ideal versus actual signal level is sometimes called “level linearity” in digital audio converter testing. See the “–90dB Signal Spectrum” plot in the Typical Perfor- mance Curves section for the power spectrum of a PCM63P at a –90dB output level. (The “–90dB Signal” plot shows the actual –90dB output of the DAC). The deviation from ideal for PCM63P at this signal level is typically less than ±0.3dB. For the “–110dB Signal” plot in the Typical Performance Curves section, true 20-bit digital code is used to generate a –110dB output signal. This type of performance is possible only with the low-noise, near-theoretical performance around bipolar zero of the PCM63P’s Colinear DAC circuitry. A commonly tested digital audio parameter is the amount of deviation from ideal of a 1kHz signal when its amplitude is decreased from –60dB to –120dB. A digitally dithered input signal is applied to reach effective output levels of –120dB using only the available 16-bit code from a special compact disk test input. See the “16-Bit Level Linearity” plot in the Typical Performance Curves section for the results of a PCM63P tested using this 16-bit dithered fade-to-noise signal. Note the very small deviation from ideal as the signal goes from –60dB to –100dB. DC SPECIFICATIONS Idle Channel SNR Another appropriate specification for a digital audio con- verter is idle channel signal-to-noise ratio (idle channel SNR). This is the ratio of the noise on the DAC output at bipolar zero in relation to the full scale range of the DAC. To make this measurement, the digital input is continuously fed the code for bipolar zero while the output of the DAC is band-limited from 20Hz to 20kHz and an A-weighted filter is applied. The idle channel SNR for the PCM63P is typi- cally greater than 120dB, making it ideal for low-noise applications. Monotonicity Because of the unique dual-DAC Colinear architecture of the PCM63P, increasing values of digital input will always result in increasing values of DAC output as the signal moves away from bipolar zero in one-LSB steps (in either direction). The “16-Bit Monotonicity” plot in the Typical Performance Curves section was generated using 16-bit digital code from a test compact disk. The test starts with 10 periods of bipolar zero. Next are 10 periods of alternating 1LSBs above and below zero, and then 10 periods of alternating 2LSBs above and below zero, and so on until 10LSBs above and below zero are reached. The signal pattern then begins again at bipolar zero. With PCM63P, the low-noise steps are clearly defined and increase in near-perfect proportion. This performance is achieved without any external adjustments. By contrast, sigma-delta (“Bitstream”, “MASH”, or 1-bit DAC) architec- tures are too noisy to even see the first 3 or 4 bits change (at 16 bits), other than by a change in the noise level. Absolute Linearity Even though absolute integral and differential linearity specs are not given for the PCM63P, the extremely low THD+N performance is typically indicative of 16-bit to 17-bit inte- gral linearity in the DAC, depending on the grade specified. The relationship between THD+N and linearity, however, is not such that an absolute linearity specification for every individual output code can be guaranteed. Distortion Analyzer Use 400Hz High-Pass Filter and 30kHz Low-Pass Filter Meter Settings Programmable Gain Amp 0dB to 60dB Low-Pass Filter 40kHz 3rd Order GIC Type DUT (PCM63P) Parallel-to-Serial Conversion Digital Code (EPROM) Binary Counter Timing Logic Clock Latch Enable Sampling Rate = 44.1kHz x 8 (352.8kHz) Output Frequency = 991Hz (Shiba Soku Model 725 or Equivalent) I to V Converter OPA627 |
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Similar Description - PCM63 |
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