EVAL-AD1954EB Analog Devices Inc, EVAL-AD1954EB Datasheet - Page 16

EVAL-AD1954EB

Manufacturer Part Number

EVAL-AD1954EB

Description

BOARD EVAL FOR AD1954

Manufacturer

Analog Devices Inc

Datasheet

1.AD1954YSTZRL.pdf (36 pages)

Specifications of EVAL-AD1954EB

Rohs Status

RoHS non-compliant

Current page: 16 of 36
Download datasheet (2Mb)

CONSTANT

Using this idea of a modified rms algorithm, the true rms value

is still obtained for all but the lowest frequency signals, while the

distortion due to rms ripple is reduced. It also allows the user to

set the hold and release times of the compressor independently.

The detector path of the AD1954 is shown in Figure 10. The rms

detector is controlled by three parameters stored in the parameter

RAMs: the rms time constant, the hold time, and the release rate.

The log output of the rms detector is applied to a look-up table

with interpolation. The higher bits of the rms output form an

offset into this table, and the lower bits are used to interpolate

between the table entries to form a high-precision gain word. The

look-up table resides in the parameter RAM and is loaded by

the user to give the desired curve. The look-up table contains 33

data locations, and the LSB of the address into the look-up table

corresponds to a 3 dB change in the amplitude of the detector

signal. This gives the user the ability to program an input/output

curve over a 99 dB range. For the main compressor, the table

resides in Locations 110 to 142 in the SPI parameter RAM.

One subtlety of the look-up table involves the difference between

the rms value of a sine wave and that of a square wave. If a full-

scale square wave is applied to the AD1954, the rms value of this

signal will be 3 dB higher than the rms value of a 0 dBFS sine

wave. Therefore, the table ranges from +9 dB (Location 142) to

–87 dB (Location 110).

The entries in the table are linear gain words in 2.20 format.

Figure 11 shows an example of the table entries for a simple

above-threshold compressor.

AD1954

Figure 10. Gain Derived from Interpolated Look-UpTable

TIME

DETECTOR WITH

MODIFIED RMS

Figure 9. Using the Hold and ReleaseTime Feature

LOG OUTPUT

HOLD RELEASE

HIGH BITS (1LSB = 3dB)

LOOK-UP TABLE

LOW BITS

PROGRAMMABLE

HOLD TIME, SPI-

INPUT WAVEFORM

INTERPOLATION

LINEAR

RELEASE TIME, SPI-

PROGRAMMABLE

GAIN STAGE

OUTPUT TO

–16–

Note that the maximum gain that can be entered in the table is

2.0 (minus 1 LSB). If more gain is required, the entire compres-

sion curve may be shifted upward by using the post-compression

gain block following the compressor/limiter.

The AD1954 compressor/limiter also includes a look-ahead com-

pression feature. The idea behind look-ahead compression is to

prevent compressor overshoots by applying some digital delay to

the signal before the gain-control multiplier but not to the detec-

tor path. In this way, the detector can acquire the new amplitude

of the input signal before the signal actually reaches the multiplier.

A comparison of a tone burst fed to a conventional compressor

versus a look-ahead compressor is shown in Figure 12.

Figure 12. Conventional Compression vs. Look-Ahead

Compression

CONVENTIONAL COMPRESSOR GAIN

LOOK-AHEAD COMPRESSOR GAIN

Figure 11. Example ofTable Entry for a Given

Compression Curve

INPUT LEVEL – 3dB/TABLE ENTRY

COMPRESSION

HOLD TIME

DESIRED

CURVE

REV. A

EVAL-AD1954EB Analog Devices Inc, EVAL-AD1954EB Datasheet - Page 16

EVAL-AD1954EB

Specifications of EVAL-AD1954EB

Related parts for EVAL-AD1954EB