z87200 ZiLOG Semiconductor, z87200 Datasheet - Page 17

z87200

Manufacturer Part Number

z87200

Description

Spread-spectrum Transceiver

Manufacturer

ZiLOG Semiconductor

Datasheet

1.Z87200.pdf (55 pages)

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Transmitter PN Code Generation

When the Z87200 is used for burst signal operation, each

burst is preceded by an Acquisition/Preamble symbol to

facilitate acquisition. This Acquisition/Preamble symbol is

automatically generated by the Z87200’s transmitter be-

fore information data symbols are accepted for transmis-

sion. Two separate and independent PN codes may be

employed: one for spreading the Acquisition/Preamble

symbol, and one for the subsequent information data sym-

bols. As a result, a much higher processing gain may be

used for signal acquisition than for signal tracking in order

to improve burst acquisition performance.

The Transmitter Acquisition/Preamble and Transmitter

Data Symbol PN code lengths are completely independent

of each other and can be up to 64 chips long. Transmit PN

codes are programmed in the Z87200 as binary code val-

ues. The number of Transmitter Chips per Acquisition/Pre-

amble Symbol is set by the value stored in bits 5-0 of ad-

dress 43

Symbol Code coefficient values are stored in addresses

Symbol is set by the data stored in address 42

Transmitter Data Symbol Code coefficient values are

stored in addresses 4C

A rising edge of the MTXEN input or of bit 1 of address 37

causes the Z87200 to begin the transmit sequence by

transmitting a single symbol using the Acquisition/Pream-

ble PN code. The completion of transmission of the Acqui-

sition/Preamble symbol is indicated with TXACQPLS,

while the ongoing transmission of data symbols is signaled

with TXTRKPLS. Data bits to be transmitted after the Ac-

quisition/Preamble symbol are requested with TXBITPLS,

where a single pulse requests data in BPSK mode and two

pulses request data in QPSK mode. The user data sym-

bols are then PN modulated using the Transmitter Data

Symbol PN code.

The PN spreading codes are XORed with the data bits (in

BPSK mode) or bit pairs (in QPSK mode) to transmit one

complete code sequence for every Acquisition/Preamble

and data symbol at all times. The resulting spread I and Q

channel signals are brought out as the TXIOUT and TX-

QOUT signals for use by an external modulator and are

also fed into the Z87200’s internal on-chip modulator. In

BPSK mode, only TXIOUT is used by the Z87200’s modu-

lator. If an external QPSK modulator is used, the carrier

should be modulated as shown in Table 3 to be compatible

with the Z87200 receiver.

to 4B

, and the Transmitter Acquisition/Preamble

. The number of Transmitter Chips per Data

to 53

PS010202-0601

, and the

BPSK/QPSK Modulator

The Z87200 incorporates an on-chip BPSK/QPSK modu-

lator which modulates the encoded and spread transmit

signal with the sine and cosine outputs of the Z87200’s

NCO to generate a digitized I.F. output signal, TXIFOUT

the BPSK/QPSK modulator output is also generated at this

sampling rate, and, consequently, TXIFCLK must be held

common with RXIFCLK to operate the Z87200’s

BPSK/QPSK Modulator. The digital modulator output sig-

nal can then be fed into an external 8-bit DAC (operating

at RXIFCLK) to generate an analog I.F. transmit signal,

where the chosen I.F. is the Z87200’s programmed NCO

frequency or one of its aliases with respect to the output

sampling rate, RXIFCLK. Please note that operation of the

BPSK/QPSK modulator is only specified to 20 MHz; that is,

if RXIFCLK/TXIFCLK is greater than 20 MHz in the system

design, it is recommended that the baseband transmit out-

puts of the Z87200 be used with an external BPSK/QPSK

modulator.

When the Z87200 is set to transmit in BPSK mode (by set-

ting bit 0 of address 40

to both the I and Q channels of the modulator so that the

modulated output signal occupies only the first and third

quadrants of the signal space defined in Note that the

modulator itself cannot generate /4 QPSK signals, but the

Z87200 can receive such signals and can be used with an

external modulator for their transmission.

. Since the NCO operates at a rate defined by RXIFCLK,

Table 3. DQPSK Differential Encoder Sequence

I, Q BIts

Quadrant

Second

Signal

Fourth

Third

First

high), identical signals are applied

Spread-Spectrum Transceiver

Quadrant Diagram

2nd

3rd

4-15

1st

4th

Z87200

z87200 ZiLOG Semiconductor, z87200 Datasheet - Page 17

z87200

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