Z87200 Datasheet, PDF(22/54 Page) Zilog, Inc. – Spread-Spectrum Transceiver

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Z87200 Datasheet, PDF (22/54 Pages) Zilog, Inc. – Spread-Spectrum Transceiver

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Z87200

Spread-Spectrum Transceiver

Zilog

FUNCTIONAL BLOCKS (Continued)

Note that if the Z87200 is to be used in Direct I.F. Sampling

Mode, then the I.F. signal should be input to the RXIIN in-

put port only. RXQIN must then be held to arithmetic zero

according to the chosen ADC format as selected by bit 3

of address 01H. In other words, to support Direct I.F. Sam-

pling, RXQIN must be tied to a value of 127 or 128 if offset

binary input format has been selected or to a value of 0 if

twoâs complement input format has been selected.

RXMSMPL (Pin 84)

Receiver Manual Sample Clock. RXMSMPL enables the

user to externally generate (independent of the I.F. sam-

pling clock, RXIFCLK) the baseband sampling clock used

for all processing after the digital downconverter, including

the dump rate of the Integrate and Dump filters. This fea-

ture is useful in cases where a specific baseband sample

rate is required that may not be derived by the internal

sample rate timing generator which generates clock sig-

nals at integer sub-multiples of RXIFCLK. The signal is in-

ternally synchronized to RXIFCLK to avoid intrinsic race or

hazard timing conditions. There must be at least two cy-

cles of RXIFCLK to every cycle of RXMSMPL, and

RXMSMPL should be set to twice the nominal receive PN

chip rate.

When bit 0 of address 01H is set high, a rising edge on

RXMSMPL will initiate a baseband sampling clock pulse to

the Integrate and Dump filters and subsequent circuitry

(e.g., PN Matched Filter, DPSK Demodulator, Power Esti-

mator, etc.). The rising edge of RXMSMPL is synchronized

internally so that, on the second rising edge of RXIFCLK

that follows the rising edge of RXMSMPL, a pulse is inter-

nally generated that clocks the circuitry that follows. On the

third rising RXIFCLK edge, the contents of the Integrate

and Dump Filters of the Downconverter are transferred to

the PN Matched Filter. The extra one RXIFCLK delay be-

fore transfer of the contents of the filters enables the inter-

nally generated baseband sampling clock to be free of

race conditions at the interface between the Downconvert-

er and PN Matched Filter.

RXMDET (Pin 88)

Receiver Manual Detect. RXMDET enables the user to

externally generate symbol timing, bypassing and overrid-

ing the internal symbol power estimation and tracking cir-

cuitry. This function may be useful when the dynamic char-

acteristics of the transmission environment require

unusual adjustments to the symbol timing.

When bit 0 of address 30H is set high (Manual Detect En-

able) and when bit 0 of address 31H is set low, a rising

edge of RXMDET will generate a symbol correlation detect

pulse. The function can also be performed by means of bit

0 of address 31H. The RXMDET input and bit 0 of address

31H are logically ORed together so that, when either one

is held low, a rising edge on the other triggers the manual

detect function. The rising edge of RXMDET is synchro-

nized internally so that, on the second rising edge of the

baseband sampling clock that follows the rising edge of

RXMDET, the correlated outputs of the PN Matched Filter

I and Q channels will be transferred to the DPSK demodu-

lator.

RXMABRT (Pin 87)

Receiver Manual Abort. RXMABRT enables the user to

manually force the Z87200 to cease reception of the cur-

rent burst of data symbols and prepare for acquisition of a

new burst. This function can be used to reset the receiver

and prepare to receive a priority transmission signal under

precise timing control, giving the user the ability to control

the current status of the receiver for reasons of priority, sig-

nal integrity, etc.

When bit 0 of address 32H is set low, a rising edge on

RXMABRT will execute the abort function. The function

can also be performed under microprocessor control by

means of bit 0 of address 32H. The RXMABRT input and

bit 0 of address 32H are logically ORed together so that,

when either one is held low, a rising edge on the other trig-

gers the abort function. The second rising edge of the

baseband sampling clock that follows a rising edge of

RXMABRT will execute the abort and also clear the sym-

bols-per-burst, samples-per-symbol, and missed-detects-

per-burst counters. The counters will be reactivated on the

detection of the next burst preamble or by a manual detect

signal.

RXIFCLK (Pin 12)

Receiver I.F. Clock. RXIFCLK is the master clock of the

NCO and all the receiver blocks. All clocks in the receiver

section and the NCO, internal or external, are generated or

synchronized internally to the rising edge of RXIFCLK. The

frequency of RXIFCLK must be at least four times the PN

chip rate of the received signal. When bit 0 of address 01H

is set low, the baseband sampling clock, required to be at

twice the nominal PN chip rate, will be derived from RXIF-

CLK according to the setting of bits 5-0 of address 02H.

MNCOEN (Pin 86)

Manual NCO Enable. MNCOEN allows the power con-

sumed by the operation of the NCO circuitry to be mini-

mized when the Z87200 is not receiving and not transmit-

ting data. The NCO can also be disabled while the Z87200

is transmitting as long as the Z87200âs on-chip

BPSK/QPSK modulator is not being used. With the instan-

taneous acquisition properties of the PN Matched Filter, it

is often desirable to shut down the receiver circuitry to re-

duce power consumption, resuming reception periodically

until an Acquisition/Preamble symbol is acquired. Setting

MNCOEN low holds the NCO in a reset state; setting MN-

COEN high then reactivates the NCO, where it is neces-

sary to then reload the frequency control word into the

4-22

DS96WRL0400

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