ISL5217KI Intersil, ISL5217KI Datasheet - Page 7
ISL5217KI
Manufacturer Part Number
ISL5217KI
Description
Up/Down Conv Mixer 2.5V 196-Pin BGA
Manufacturer
Intersil
Datasheet
1.ISL5217EVAL1.pdf
(43 pages)
Specifications of ISL5217KI
Package
196BGA
Maximum Power Dissipation
1970 mW
Operating Supply Voltage
2.5 V
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microprocessors can share a single QPUC as shown in
Figure 3.
Parallel
The parallel mode allows the µP to write the I and Q
samples directly to the FIFO holding registers. The parallel
input format is selected when Serial control (0x11, bit 15) is
low. The normal µP write order is the Q sample, Control
word 0x1, followed by the I sample, Control word 0x0.
Writing to Control word 0x0 generates the update strobe to
move the data from the FIFO holding register into the first
location of the I/Q FIFO. The first location of the I/Q FIFO is
available for read back. The µP can perform back-to-back
write accesses to Control words 0x1 and 0x0, but must
maintain four f
address. This limits the maximum µP write access rate for
an I/ Q sample pair to 104MHz/4 = 26MHz. The Read/Write
format for a parallel data transfer is shown in Figure 4
FIFO
The FIFO provides the interface and data storage between
the input source and the shaping filter or FM modulator. The
FIFO can hold up to seven I /Q sample pairs. The block
diagram is shown in Figure 6.
µP
RDMODE
P<15:0>
A<6:0>
SCLKX
FSRX
SDX
WR
CLK
RD
FIGURE 3. MULTIPLE CONFIGURATIONS
FIGURE 4. PARALLEL DATA TRANSFER
CLK
MASTER
ISL5217
ISL5217
ISL5217
ISL5217
QPUC
SLAVE
QPUC
SLAVE
SLAVE
QPUC
QPUC
periods between accesses to the same
01
Q
SYNCO
UPDX
UPDX
UPDX
UPDX
00
I
7
01
Q
µP
µP
µP
µP
00
I
SCLKX
FSRX
SDX
SCLKX
FSRX
SDX
SCLKX
FSRX
SDX
SCLKX
FSRX
SDX
01
Q
CHANNEL 0
CHANNEL 1
CHANNEL 2
CHANNEL 3
ISL5217
00
QPUC
I
ISL5217
The input source to the FIFO is selected by Serial control
(15). The FIFO pointer is incremented every time data is
written into the FIFO. The transferring of data into the FIFO
does not occur until both I and Q have been received when
the sample data is input in a serial fashion. When the
sample data is input in a parallel fashion, the transferring of
data into the FIFO occurs when the µP writes to Control
Word 0 (I data).
While the input source determines the write rate, the
shaping filter determines the read rate. The maximum read
rate occurs when the shaping filter constraints for Data
Span (DS) and Interpolation Phases (IP) equal four. For a
clock rate of 104MHz, the maximum read rate is
determined by f
6.5MHz. See the Shaping Filter Section for more details.
When the Shaping Filter requires another data sample, a
request is made to the FIFO for data and the FIFO pointer
is decremented. Figure 5 indicates the timing of a request
for data from the Shaping filter to the actual appearance of
data at the FIFO output. An “empty” FIFO detection causes
zero valued data to be entered into the shaping filter. The
FIFO can be forced to enter zero valued data by setting the
on-line mode to false. The on-line mode is enabled by Main
control (0xc, bit 6). A “full” FIFO detection prevents data
from being pushed out of the FIFO before the filter requests
it. Writing to a full FIFO is treated as an error condition that
will result in a soft reset of the channel to prevent
transmission of erroneous data over the air. The full FIFO
channel reset can be disabled by control word 0x0c, bit 1.
A programmable FIFO depth threshold sets when the
FIFORDY signal is asserted, alerting the data source that
more data is required. The FIFORDY signal assists the
data source in maintaining the desired FIFO data depth.
The data FIFO depth threshold for both I and Q inputs is set
by Main control (0xc, bits 10:8). The SAMPLE CLK may be
used instead of FIFORDY to indicate when data has been
transferred from the FIFO to the shaping filter. See the pin
description table for additional details and Figure 5 for the
input data latency.
CLK
/(DS)(IP), which is 104MHz/16 =
July 8, 2005
FN6004.3
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