GC3021A Datasheet, PDF(9/38 Page) Texas Instruments – 3.3V MIXER AND CARRIER REMOVAL CHIP

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GC3021A Datasheet, PDF (9/38 Pages) Texas Instruments – 3.3V MIXER AND CARRIER REMOVAL CHIP

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GC3021A 3.3V MIXER AND CARRIER REMOVAL CHIP

SLWS137A

The Qmap mode is used to map the I, Q complex pair into one quadrant for looking up the phase

error. This is possible when the signalâs constellation pattern has quadrant symmetry. If the pattern does

not exhibit symmetry, then the quadrant map mode should not be used.

The 6 bit I and Q values are used to lookup the phase error in a 4096 by 1 bit memory. In the Qmap

mode the phase error is inverted as necessary to map it back into the proper quadrant.

The memory is implemented using a 256 word by 16 bit RAM as shown in Figure 4. The RAM is

loaded as 256 sixteen bit words mapped to addresses 256 to 511 of the control interface. The RAM is a

write only memory.

The phase error is passed to the phase lock loop (PLL) circuit. The phase error is also output on

the EOUT pin of the chip for external use.

2.8 PHASE LOCK LOOP

The phase error drives the PLL circuit shown in Figure 5.

2-A or Clear

Error From

Phase RAM

External

Error Input

External

MUX

2-B or Clear

32 BITS

PLL Sync

FREQUENCY

(32 BITS)

Phase

Increment

To NCO

Control

Interface

32 BIT ERROR ACCUMULATOR

Figure 5. PLL CIRCUIT

phase_hold

The phase error can either come from an input pad or from the phase error RAM. The error is

multiplied by the two constants 2-A and 2-B. These multipliers treat a phase error of â0â as +1 and a phase

error of â1â as -1. The multipliers also have a clear mode so that 2-A or 2-B can be set to zero.

The tracking bandwidth and damping of the of the phase lock loop filter are set using the constants

A and B. The filter will be critically damped when A is approximately one-half of B. When critically damped

the tracking bandwidth and residual phase jitter of the loop are set by B. A small value for B results in a wide

bandwidth with lots of jitter, but fast acquisition. A large value of B narrows the bandwidth and reduces the

residual jitter, but increases the initial acquisition time. Values of B between 24 and 31 are suggested. Use

24 for initial acquisition and 31 for final tracking. The values of A and B are double buffered so that the loop

bandwidth can be changed synchronous to an external sync signal.

Initial acquisition can be greatly aided by presetting the PLL to an estimated frequency offset. This

is done by loading the frequency register with the estimated frequency.

In the mixer mode the PLL is turned off by clearing 2-A and 2-B, clearing the accumulator and setting

the frequency register to the desired tuning frequency. The 32 bit frequency word is set to the desired

frequency using the formula:

FREQ = C-F----rl-o-e---cq---ku----eR---n--a-c--t-y-e- 232

, where âFrequencyâ is the desired

Texas Instruments Incorporated

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This document contains information which may be changed at any time without notice

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