AD1893JNZ Analog Devices Inc, AD1893JNZ Datasheet - Page 7

AD1893JNZ

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AD1893JNZ

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Manufacturer

Analog Devices Inc

Datasheet

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Specifications of AD1893JNZ

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REV. A

THEORY OF OPERATION

There are at least two logically equivalent methods of explaining

the concept of asynchronous sample rate conversion: the high

speed interpolation/decimation model and the polyphase filter

bank model. Using the AD1893 SamplePort does not require

understanding either model. This section is included for those

who wish a deeper understanding of its operation.

Interpolation/Decimation Model

In the high speed interpolation/decimation model, illustrated in

Figure 1, the sampled data input signal (Plot A in Figure 1) is

interpolated at some ratio (IRATIO) by inserting IRATIO-1

zero valued samples between each of the original input signal

samples (Plot B in Figure 1). The frequency domain charac-

teristics of the input signal are unaltered by this operation, ex-

cept that the zero-padded sequence is considered to be sampled

at a frequency which is the product of original sampling fre-

quency multiplied by IRATIO.

The zero-padded values are fed into a digital FIR low-pass filter

(Plot C in Figure 1) to smooth or integrate the sequence, and

limit the bandwidth of the filter output to 20 kHz. The inter-

polated output signal has been quantized to a much finer time

scale than the original sequence. The interpolated sequence is

SIGNAL

INPUT

Figure 1. Interpolation/Decimation Model—Time Domain View

AMP

INTERPOLATION

ZERO STUFF

FIR LOW-

FILTER

PASS

–7–

then passed to a zero-order hold functional block (physically

implemented as a register, Plot D in Figure 1) and then asyn-

chronously resampled at the output sample frequency (Plot E in

Figure 1). This resampling can be thought of as a decimation

operation since only a very few samples out of the great many

interpolated samples are retained. The output values represent

the “nearest” values, in a temporal sense, produced by the inter-

polation operation. There is always some error in the output

sample amplitude due to the fact that the output sampling switch

does not close at a time that exactly corresponds to a point on the

fine time scale of the interpolated sequence. However, this error

can be made arbitrarily small by using a very large interpolation

ratio. The AD1893 SamplePort ASRC uses an equivalent IRATIO

of 65,536 to provide 16-bit accuracy ( –96 dB THD+N) across

the 0 kHz to 20 kHz audio band.

The number of FIR filter taps and associated coefficients is

approximately 4 million. The equivalent FIR filter convolution

frequency (or “upsample” frequency) is 3.2768 GHz, and the

fine time scale has resolution of about 300 ps. Various propri-

etary efficiencies are exploited in the AD1893 ASRC to reduce

the complexity and throughput requirements of the hardware

implied by this interpolation/decimation model.

ZERO ORDER

HOLD

RESAMPLING

DECIMATION

TIME

OUTPUT

SIGNAL

AD1893

AD1893JNZ Analog Devices Inc, AD1893JNZ Datasheet - Page 7

AD1893JNZ

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