HDSP-3400 Agilent(Hewlett-Packard), HDSP-3400 Datasheet - Page 43

Manufacturer Part Number

HDSP-3400

Description

20 mm (0.8 inch) Seven Segment Displays

Manufacturer

Agilent(Hewlett-Packard)

Datasheet

1.HDSP-3400.pdf (67 pages)

07, 08

09, 0A

0B, 0C

Carrier Loop Filter Control

This field establishes the K1 and K2 gain values for the second order loop

filter of the carrier tracking loop. Bits 0,1,2 and 3 determine the straight-

through gain, and bits 4,5, 6 and 7 determine the integration path gain.

The nominal value of this parameter in Hex, is expressed below for

different ranges of symbol rate to clock rate ratios. Two loop filter

configurations are provided at each symbol rate, one for steady state

operation(08) and one which is used only for acquisition(07) to permit

greater frequency pull-in. Initially the gains are set to acquisition values.

When QPSK_LOCK is achieved, they are automatically switched to

steady state values.

Symbol Rate/Clock Steady State Acqu.

0.75 - 0.40

0.40 - 0.20

0.20 - 0.10

0.10 - 0.05

0.05 - 0.025

0.025 - 0.016

Carrier Sweep Step Size

This 16 bit value defines the size of the step of each carrier frequency

dwell. Bit 7 of address 09 is the MSB and bit 0 of address 0A is the

LSB. The number in this register is divided by 2

clock frequency to determine the frequency step increment.

Symbols Per Dwell

This 16 bit value defines the time, in symbol periods, for which the

demodulator will dwell before making the next frequency step in a sweep.

Bit 7 of address 0B is the MSB and bit 0 of address 0C is the LSB.

Number of Search Frequencies

This 8 bit field determines the number of frequency steps which occur

during the frequency sweeping process. Combined with the frequency

step size, this determines the frequency span of the carrier sweep.

, and multiplied by the