PDSP16510AMA Mitel Networks Corporation, PDSP16510AMA Datasheet - Page 18

PDSP16510AMA

Manufacturer Part Number

PDSP16510AMA

Description

Stand Alone FFT Processor

Manufacturer

Mitel Networks Corporation

Datasheet

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PDSP16510A MA

overcome by using more data samples. This may not always

be possible because of other system constraints.

system as half the full width of the mainlobe. The width of the

mainlobe for a rectangular window is two frequency bins; for

the Hamming window it is four bins; for the Blackman-Harris

window it is six bins.

PDSP16510. These are constructed on the fly as needed, and

take the general form;

For the Hamming window A = 0.54, B = 0.46, C = 0

For the Blackman-Harris window, A = 0.42323, B = 0.49755,

C = 0.07922

size options, except the 16 x 16 complex variant. When the

latter is specified the rectangular window option MUST be

selected, or the device will be configured in an internal test

Table 7. Window Performance ( from The use of Windows for Harmonic Analysis. F J Harris. Proc IEEE Vol 66. Jan 1978 )

A common rule of thumb defines the resolution of an FFT

The latter two windows are actually supported by the

These windows can be applied to any of the transform

A - Bcosx + Ccos2x where x = 2πn

Window

Operator

Rectangular

Hamming

Dolph-Chebyshev

[C = 3.5]

Kaiser-Bessel

[C = 3]

Blackman

Blackman-Harris

[3 term]

Fig. 11. External Window Generator

Highest

Side Lobe

-13

-43

-70

-69

-58

-67

n = 0 to N-1

Mid-Point

Loss dB

3.92

1.78

1.25

1.02

1.1

1.13

mode.

externally. This can be conveniently achieved with either a

PDSP16112 or a PDSP16116, both of which are complex

multipliers but with different accuracies. Fig. 11 shows how

either one can be configured to perform two separate multipli-

cations with one input common to both. This arrangement is

necessary to perform the window function on complex inputs.

PDSP16510, and other commonly used windows, are illus-

trated in Table 7. The results are obtained from the reference

quoted, which should be consulted for a full mathematical

treatment. The significance of each parameter is outlined

below;

Highest Side Lobe Level

are only 13dB down from the mainlobe. These severely limit

the dynamic range. The object of the window is to improve this

situation with better side load attenuation.

Mid-Point Loss

an additional processing loss for a tone of frequency mid-way

between two bins. This is defined as the ratio of the coherent

gains of two tones, one at the mid-point and one at the sample

point. It is expressed in dB in Table 8.

Overall loss

can be obtained by adding the mid-point loss to the reciprocal

of the equivalent noise power bandwidth in dB. It is a measure

of the ability of the window to detect single tones in broadband

noise. The variance between windows is less than 1dB.

6.0dB Bandwidth

of the window to resolve two tones and should be as close to

unity as possible. As the highest sidelobe level is reduced, this

parameter tends to get worse, and a compromise must be

used when choosing a window.

Overall

Loss dB

3.92

3.1

3.35

3.55

3.47

3.45

Important features of the windows generated by

The inherent rectangular window has sidelobes which

In line with the filter concept it is possible to conceive of

An overall figure for the reduction in signal to noise ratio

This figure, expressed in bin widths, represents the ability

If other operators are required these must be applied

6dB

Bandwidth

1.21

1.81

2.17

2.39

2.35

1.81

Overlap Correlation

75%

70.7

60.2

53.9

56.7

57.2

50%

23.5

11.9

7.4

9.6

PDSP16510AMA Mitel Networks Corporation, PDSP16510AMA Datasheet - Page 18

PDSP16510AMA

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