qf4a512 ETC-unknow, qf4a512 Datasheet - Page 19
qf4a512
Manufacturer Part Number
qf4a512
Description
4-channel Programmable Signal Converter Psc
Manufacturer
ETC-unknow
Datasheet
1.QF4A512.pdf
(64 pages)
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7. ANALOG TO DIGITAL CONVERTER
7.1 Overview
The ADC has a pipeline architecture that is 12 bits in hardware and runs at up to 100Msps. Resolutions of up to 16 bits are achieved by
oversampling the input and averaging the resultant conversions. With INL and DNL of +/- 1LSB, 16 bit linearity is achieved. During Chip
Configuration and Filter Design, the exact sampling speed of the ADC is determined (based on the highest sampling rate required for
any one of the four channels).
Not shown in the block diagram are the following sub-blocks which handle decimation/down-conversion of the oversampled data:
7.2 Sampling Rates / ENOB
The QF4A512 features a very flexible architecture allowing tradeoffs between resolution, sampling rate and accuracy. The combination
of the ADC sampling rate, subsequent down-conversion in the CIC/CIH blocks and number of active input channels will determine the
effective sampling rate, (
bandwidth, according to Nyquist. The table illustrates several different configurations and performance levels for various ADC clock
rates.
Although the ADC is 12-bits in hardware, the effective resolution can be increased by oversampling. Theoretically, a 4x increase in the
oversampling rate increases the effective resolution by 1 bit. Decimation within the converter always results in 16-bit output data words,
regardless of oversampling rate. Beyond a certain limit, determined by the noise and distortion performance of the device, the effective
number of bits (ENOB) does not increase any further. For the QF4A512, oversampling rates above 100 have been coded into the
Quickfilter Pro Software (“Optimize Precision”) to provide optimum performance.
Depending on the application and frequencies of interest it may be more meaningful to refer to the SNR, SFDR or THD in Electrical
Characteristics, for a more accurate reflection of overall system performance.
The ADC clock rate (Register ADC_CLK_RATE) is always the same for all four channels. However, the oversampling rate can be
varied on a per-channel basis. Oversampling by a factor of 4 always occurs in the CIH block, additional oversampling occurs according
to the value of “R” in the CIC block. The effective sampling rate (
There are many more combinations of ADC clock rate and CIC R values than shown in the table. The Quickfilter Pro software will
chose optimum values for each depending on the filter characteristics specified for each of the configured channels. The resulting
parameters can be reviewed in the software, and also reviewed by examining the QF4A512’s register contents.
Rev C5, Jan 07
CIC (Cascaded Integrator Comb Filters)
The purpose of the CIC stage is gain and offset correction. The digitized signal is then processed in the CIH (Cascaded
Integrator Halfband Filters)
CIH (Cascaded Integrator Halfband Filters)
The purpose of the CIH stage (not shown in block diagram) is the integration of 16 bits, and adjustment of the proper sample
rate through decimation. Gain correction and droop recovery is performed as well. After moving through the CIH, the signals
are sent into the FIR (Finite Impulse Response Filter) for user filtering.
f
R = CIC “R” value (register CIC_n_R , n = channel number)
N = Number of active channels
S
=
f
ADC
/ (4 x R x N)
Table 1. Example sampling rates and ADC clock frequency
* The aggregate bandwidth is equal to the effective sampling rate divided by 2.2.
f
S
), or each input channel. The effective sampling rate is the parameter which limits the overall input
(
ADC clock
f
ADC,
12.5
12.5
100
25
50
MHz)
Oversampling
6248
Rate
624
128
24
48
PRELIMINARY
19
Sampling Rate
f
S
201.6 kHz
) for each channel is given by the following formula:
2.08 MHz
2.08 MHz
Effective
20 kHz
2 kHz
(
f
S
)
Aggregate.
9.09 kHz
91.6 kHz
945 kHz
945 kHz
909 Hz
BW *
Output
(bits)
Data
16
16
16
16
16
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QF4A512
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