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Z87001 Datasheet, PDF (20/51 Pages) Zilog, Inc. – ROMless Spread Spectrum Cordless Phone Controller
Z87001/Z87L01
ROMless Spread Spectrum Cordless Phone Controller
Zilog
Receive 1-Bit ADC
The incoming receive signal at the RX analog input pin is
sampled by a 1-bit analog-to-digital converter at 8.192
MHz.
The receive signal is FSK-modulated (Frequency Shift
Keying) with a carrier frequency of 10.7 MHz (Intermediate
Frequency, or IF). The instantaneous frequency varies be-
tween 10.7 MHz plus or minus 32.58 kHz. Since the data
rate is 93.09 kbps, there are 88 samples per data bit. This
oversampled data is further processed by the demodulator
to retrieve the baseband information.
Demodulator
The demodulator includes a two-stage IF downconverter
that brings the sampled receive signal to baseband.
The narrow-band 10.7 MHz receive signal, sampled at
8.192 MHz by the 1-bit ADC, provides a 2.508 MHz useful
image. The first local oscillator used to downconvert this IF
signal is obtained from a Numerically Controlled Oscillator
(NCO) internal to the Z87001, at the nominal frequency of
460 kHz. The resulting signal is thus at 2.048 MHz (= 2.508
MHz - 460 kHz). A second downconversion by a 2.048
MHz signal brings the receive signal to baseband.
The 1-bit converter is implemented with a fast comparator,
which determines whether the RX signal is larger or small-
er than a reference signal (VREF). The Z87001 internally
generates the DC level of both VREF and RX input pins.
The received signal at 10.7 MHz should thus be AC cou-
pled to the RX pin via a coupling capacitor. To ensure ac-
curate operation of the converter, the user should also at-
tach to the VREF pin a network whose impedance
matches the DC impedance seen by the RX pin.
The exact frequency of the 460 kHz NCO is slightly adjust-
ed by the Automatic Frequency Control (AFC) loop for ex-
act downconversion of the end signal to the zero frequen-
cy. The AFC circuit detects any DC component in the
output of the limiter-discriminator (see below) when receiv-
ing a known sequence of data (preamble). This DC com-
ponent is called the “frequency bias”. The bias estimate
out of the AFC can be read by the DSP processor on every
frame and subsequently filtered. The processor then adds
or subtract this filtered bias to/from the NCO control word
to correct the NCO frequency output.
Rx signal
1-bit
ADC
SSB
460 kHz
+ bias
2.048 MHz
Filter
NCO
SNR
Limiter-
Discriminator
Bit
Sync
Frame
Sync
AFC
Rx
Buffer
Figure 2. Demodulator Block Diagram
The main element of the demodulator is its limiter-discrim-
inator. The limiter-discriminator detects the frequency vari-
ations (ideally up to ± 32.58 kHz) and converts them to “0”
or “1” information bits. First, the data is processed through
low-pass filters to eliminate high frequency spurious com-
ponents introduced by the 1-bit ADC. The resulting signal
is then differentiated and fed to a matched filter. In the
matched filter, an integrate-and-dump operation is per-
formed to extract the digital information from its back-
ground noise.
The symbol clock is provided by the bit synchronizer. The
bit synchronizer circuit detects 0-to-1 and 1-to-0 transitions
in the incoming data stream in order to synchronize a dig-
ital phase-lock loop (DPLL). The PLL output is the recov-
ered bit clock, used to time the receiver on the base sta-
tion, and both receiver and transmitter on the handset.
To ensure enough transitions in the voice data stream, a
pseudo-random bit inversion operation is performed on the
outgoing voice data. The inversion is then reversed on the
demodulated data.
Since the data is packed in frames sent alternately from
base and handset every 4 ms (TDD), additional synchroni-
zation means are necessary. This is realized in a frame
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PRELIMINARY
DS96WRL0800