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ISL5216KI-1Z Datenblatt(PDF) 11 Page - Intersil Corporation

Teilenummer ISL5216KI-1Z
Bauteilbeschribung  Four-Channel Programmable Digital Downconverter
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Hersteller  INTERSIL [Intersil Corporation]
Direct Link  http://www.intersil.com/cda/home
Logo INTERSIL - Intersil Corporation

ISL5216KI-1Z Datenblatt(HTML) 11 Page - Intersil Corporation

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11
FN6013.3
July 13, 2007
ISL5216
Complex Input Mode
In this mode, complex (I/Q) data can be input using two clock
cycles with I input first and Q input second. The ENIx signal
indicates the clock cycle when I is valid. The Q data is taken
on either the next input clock or two clocks after I, as
determined by IWA *000H bit 23. The complex multiply is
done in two clock cycles: I * COS and I * SIN on the first
clock and Q * (-SIN) and Q * COS on the second clock cycle.
The first integrator of the CIC is enabled on both clock cycles
to add the two products. The rest of the stages are enabled
only on the first cycle.
In complex input mode, the input level detector uses only I
samples for its magnitude computation.
The CIC decimation counter is programmed for two times
the number of complex input samples. The exponent input
must be the same for I and Q for the floating point modes.
See IWA *000h for details on controlling the complex input
mode.
NCO/Mixer
After the input select/format section, the samples are
multiplied by quadrature sine wave samples from the carrier
NCO. The NCO has a 32-bit frequency control, providing
sub-hertz resolution at the maximum clock rate. The
quadrature sinusoids have exceptional purity. The purity of
the NCO should not be the determining factor for the
receiver dynamic range performance. The phase
quantization to the sine/cosine generator is 24 bits and the
amplitude quantization is 19 bits.
The carrier NCO center frequency is loaded via the
μP bus.
The center frequency control is double buffered - the input
is loaded into a center frequency holding register via the
μP
interface. The data is then transferred from the holding
register to the active register by a write to a address IWA
*006h or by a SYNCI signal, if loading via SYNCI is
enabled. To synchronize multiple channels, the carrier
NCO phase accumulator feedback can be zeroed on
loading to restart all of the NCOs at the same phase. A
serial offset frequency input is also available for each
channel through the D(15:0) parallel data input bus (if that
bus is not needed for data input). This is legacy support for
HSP50210 type tracking signals. See IWA=*000 and *004
for carrier offset frequency parameters.
After the mixers, a PN (pseudo noise) signal can be added to
the data. This feature is provided for test and to digitally
reduce the input sensitivity and adjust the receiver range
(sensitivity). The effect is the same as increasing the noise
figure of the receiver, reducing its sensitivity and overall
dynamic range. For testing, the PN generator provides a
wideband signal which may be used to verify the frequency
response of a filter. The one bit PN data is scaled by a 16-bit
programmable scale factor. The overall range for the PN is 0
to 1/4 full scale (see IWA = *001h). A gain of 0 disables the
PN input. The PN value is formed as:
where S is the sign extension of the 16 bit PN gain register
value (IWA = *001H) times the PN chip value and the 16 X’s
refer to the PN gain register times the PN chip value.
The minimum, non-zero, PN value is 2-18 of full scale
(-108dBFS) on each axis (-105dBFS total). For an input noise
level of -75dBFS, this allows the SNR to be decreased in
steps of 1/8dB or less. The I and Q PN codes are offset in time
to decorrelate them. The PN code is selected and enabled in
the test control register (F800h). The PN is added to the signal
after the mix with the three sign bits aligned with the most
significant three bits of the signal, so the maximum level is -
12dBFS and the minimum, non-zero level is -108dBFS. The
PN code can be 215-1, 223-1 or 215-1 * 223-1.
CIC Filter
Next, the signal is filtered by a cascaded integrator/comb
(CIC) filter. A CIC filter is an efficient architecture for
decimation filtering. The power or magnitude squared
frequency response of the CIC filter is given by:
where
M = Number of delays (1 for the ISL5216)
N = Number of stages
and R = Decimation factor.
The passband frequency response for first (N=1) though fifth
(N=5) order CIC filters is plotted in Figure 13. The frequency
axis is normalized to fS/R, making fS/R = 1 the CIC output
sample rate. Figure 15 shows the frequency response for a
5th order filter but extends the frequency axis to fS/R = 3
(3 times the CIC output sample rate) to show alias rejection
for the out of band signals. Figure 14 uses information from
Figure 15 to provide the amplitude of the first (strongest)
alias as a function of the signal frequency or bandwidth from
DC. For example, with a 5th order CIC and fS/R = 0.125
(signal frequency is 1/8 the CIC output rate) Figure 14 shows
a first alias level of about -87 dB. Figure 14 is also listed in
table form in Table 51 (CIC Passband and Alias Levels).
The CIC filter order is programmable from 0 to 5. The CIC
may be bypassed by setting the CIC filter order to 0
(IWA = *004h bits 13:9 are all set equal to 1) and the CIC
barrel shift (IWA = *004h bits 19:14) to 45 decimal. The CIC
output rate must, however, be no more than CLKmax/4
where CLKmax is the maximum clock frequency available on
the device (see electrical specifications section).
PN VALUE
2-3 2-4
.
....
...
....
2-17 2-18
SSS
X
X
XX XXX XXXX XXX
X
X
Pf
()
πMf
()
sin
πf
R
-----
⎝⎠
⎛⎞
sin
------------------------
⎝⎠
⎜⎟
⎜⎟
⎜⎟
⎛⎞ 2N
=


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