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AD1836A Datasheet(PDF) 11 Page - Analog Devices |
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AD1836A Datasheet(HTML) 11 Page - Analog Devices |
11 / 24 page Data Sheet AD1836A Rev. A | Page 11 of 24 FUNCTIONAL OVERVIEW ADCs There are four ADC channels in the AD1836A configured as two independent stereo pairs. One stereo pair is the primary ADC and has fully differential inputs. The second pair can be programmed to operate in one of three possible input modes (programmed via SPI ADC Control Register 3). The ADC section may also operate at a sample rate of 96 kHz with only the two primary channels active. The ADCs include an on-board digital decimation filter with 120 dB stop-band attenuation and linear phase response, operating at an over- sampling ratio of 128 (for 4-channel 48 kHz operation) or 64 (for 2-channel 96 kHz operation). The primary ADC pair should be driven from a differential signal source for best performance. The input pins of the primary ADC connect directly to the internal switched capacitors. To isolate the external driving op amp from the “glitches” caused by the internal switched capacitors, each input pin should be isolated by using a series-connected external 100 Ω resistor together with a 1 nF capacitor connected from each input to ground. This capacitor must be of high quality, for example, ceramic NPO or polypropylene film. The secondary input pair can operate in one of three modes: • Direct differential inputs (driven the same way as the primary ADC inputs described above). • PGA mode with differential inputs. In this mode, the PGA amplifier can be programmed using the SPI port to give an input gain of 0 dB to 12 dB in steps of 3 dB. External capacitors are used after the PGA to supply filtering for the switched capacitor inputs. • Single-ended MUX/PGA mode. In this mode, two single- ended stereo inputs are provided that can be selected using the SPI port. Input gain can be programmed from 0 dB to 12 dB in steps of 3 dB. External capacitors are used to supply filtering for the switched capacitor inputs. Peak level information for each ADC may be read from the SPI port through Registers 12 to 15. The data is supplied as a 10-bit word with a maximum range of 0 dB to –60 dB and a resolution of 1 dB. The registers hold peak information until read; after reading, the registers are reset so that new peak information can be acquired. Refer to the register descriptions for the details on this format. A digital high-pass filter can be switched in line with the ADCs under SPI control to remove residual dc offsets. It has a 1.3 Hz, 6 dB per octave cutoff at a 44.1 kHz sample rate. The cutoff frequency will scale directly with sample frequency. Note that it does not remove these offsets from the peak level measurement. The voltage at the VREF pin, FILTR (~2.25 V), can be used to bias external op amps that buffer the input signals. See the Power Supply and Voltage Reference section. DACs The AD1836A has six DAC channels arranged as three independent stereo pairs, with six fully differential analog outputs for improved noise and distortion performance. Each channel has its own independently programmable attenuator, adjustable in 1024 linear steps. Digital inputs are supplied through three serial data input pins (one for each stereo pair) and a common frame (DLRCLK) and bit (DBCLK) clock. Alternatively, one of the “packed data” modes may be used to access all six channels on a single TDM data pin. Each set of differential output pins sits at the dc level of VREF and swings ±1.4 V for a 0 dB digital input signal. A single op amp third order external low-pass filter is recommended to remove high frequency noise present on the output pins, as well as to provide differential-to-single-ended conversion. Note that the use of op amps with low slew rate or low bandwidth may cause high frequency noise and tones to fold down into the audio band; care should be exercised in selecting these components. The voltage at the VREF pin, FILTR (~2.25 V), can be used to bias the external op amps that buffer the output signals. See the Power Supply and Voltage Reference section. CLOCK SIGNALS The master clock frequency can be selected for 256, 512, or 768 times the sample rate. The default at power-up is 256 × fS. For operation at 96 kHz, the master clock frequency should stay at the same absolute frequency. For example, if the AD1836A is programmed in 256 × fS, 48 kHz mode, the frequency of the master clock would be 256 × 48 kHz = 12.288 MHz. If the AD1836A is then switched to 96 kHz operation (via writing to the SPI port), the frequency of the master clock should remain at 12.288 MHz (which is now 128 × fS). The internal clock used in the AD1836A is 512 × fS (48 kHz mode) or 256 × fS (96 kHz mode). A clock doubler is used to generate this internal master clock from the external clock in the 256 × fS and 768 × fS modes. To maintain the highest performance possible, it is recom- mended that the clock jitter of the master clock signal be limited to less than 300 ps rms, measured using the edge-to- edge technique. Even at these levels, extra noise or tones may appear in the DAC outputs if the jitter spectrum contains large spectral peaks. It is highly recommended that an independent crystal oscillator generate the master clock. In addition, it is especially important that the clock signal should not be passed |
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