z87200 ZiLOG Semiconductor, z87200 Datasheet - Page 41

z87200

Manufacturer Part Number

z87200

Description

Spread-spectrum Transceiver

Manufacturer

ZiLOG Semiconductor

Datasheet

1.Z87200.pdf (55 pages)

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Bit 1 — Offset Binary Output

The TXIFOUT

plement or offset binary formats. Since all internal pro-

cessing in the device uses two’s complement format sig-

nals, the MSB of the two’s complement modulated

transmitter output must be inverted if the output is to be in

offset binary format.

When this bit is set high, the TXIFOUT

offset binary format and, when it is set low, the signal will

be in two’s complement format. In two’s complement for-

mat, the 8-bit output values range from –128 to +127 (80

to 7F

+255 (00

Bit 2 — Manual Chip Clock Enable

This bit enables the PN chip rate to be controlled by either

the internal chip rate clock generator or by the external in-

put signal TXMCHP. The TXMCHP input allows the user

to manually insert a single PN chip clock pulse or continu-

ous stream of pulses. This feature is useful in cases where

a specific chip rate is required that cannot be derived by

the internal clock generator which generates clocks of in-

teger sub-multiples of the frequency of TXIFCLK. The sig-

nal is internally synchronized to TXIFCLK to avoid race or

hazard timing conditions.

When this bit is set high, TXMCHP will provide the PN chip

rate clock; when it is set low, the clock will be provided by

the internal chip rate clock generator controlled by bits 5-0

of address 41

Bit 3 — Invert Symbol

This bit allows the user to invert the I and Q channel bits

following differential encoding and before being spread by

the PN code. This function has the same effect as inverting

the PN code, which may be useful in some cases.

When this bit is set high, the encoded I and Q channel bits

will be inverted; when it is set low, the I and Q channel bits

will not be inverted.

Address 41

Bits 5-0 — TXIFCLK Cycles per Chip

Bits 5-0 set the transmitter baseband PN chip rate to the

frequency of TXIFCLK/(n+1), where n is the value stored

in bits 5-0. The value of the data stored in bits 5-0 must

range from 1 to 63 (01

when the PN chip rate required is an integer sub-multiple

of the frequency of TXIFCLK. In cases where a chip rate is

required that is not an integer sub-multiple of the frequency

of TXIFCLK, the rate may be controlled externally using

TXMCHP.

Address 42

Bits 5-0 — Tx Chips per Data Symbol

The number of chips per data symbol in the transmitter is

stored in bits 5-0 of address 42

); in offset binary format, the values range from 0 to

to FF

7-0

output signals can be in either two’s com-

to 3F

. The unsigned value must

). This feature is useful

7-0

output will be in

PS010202-0601

range from 1 to 63 (01

per data symbol will be this value plus 1. This value con-

trols data symbol timing in the transmitter.

Address 43

Bits 5-0 — Tx Chips per Acquisition/Preamble Symbol

The number of chips per Acquisition/Preamble symbol in

the transmitter is stored in bits 5-0 of address 43

signed value must range from 1 to 63 (01

number of chips per data symbol will be this value plus 1.

This value controls the Acquisition/Preamble symbol tim-

ing in the transmitter.

Addresses 44

Transmitter Acquisition/Preamble Symbol Code

Each Z87200 burst transmission begins with an Acquisi-

tion/Preamble symbol and is then followed by the actual in-

formation data symbols. Two separate and independent

PN codes can be employed, one for the Acquisition/Pre-

amble symbol, the other for the information symbols. Ac-

cordingly, the Z87200 Transmit PN Code Generators, like

the receiver’s PN Matched Filter, support independent PN

codes up to 64 chips in length for the two modes. Address-

es 44

tion/Preamble Symbol PN code chip values, where the

configuration of the stored bits is as shown in Table 20.

The length, N, of the Acquisition/Preamble symbol code is

set by the value of (N-1) stored in bits 5-0 of address 43

An internal counter begins the transmission with the PN

code chip corresponding to that value. The last chip trans-

mitted per symbol is then code chip 0. Note that this con-

vention agrees with that used for the Z87200’s PN

Matched Filter: for a code of length N, code chip (N-1) will

be the first chip transmitted and will first be processed by

Tap 0 of the PN Matched Filter; the last chip per symbol to

be transmitted, however, will be chip 0, and at that time

chip (N-1) will be processed by Tap (N-1) and chip 0 by

Tap 0 to achieve peak correlation. Operation with the sub-

sequent data symbols is analogous.

Table 21. Acquisition/Preamble Symbol Codes

to 4B

through 4B

contain the binary Transmitter Acquisi-

Addr 4B

Addr 45

Addr 44

Code Bits 63-56

Code Bits 15-8

Code Bits 7-0

•••••••••

to 3F

Spread-Spectrum Transceiver

, Bits 7-0

), and the number of chips

4-39

to 3F

), and the

. The un-

Z87200

z87200 ZiLOG Semiconductor, z87200 Datasheet - Page 41

z87200

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