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ADF4360-5BCPZRL7 View Datasheet(PDF) - Analog Devices

Part Name
Description
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ADF4360-5BCPZRL7
ADI
Analog Devices ADI
ADF4360-5BCPZRL7 Datasheet PDF : 24 Pages
First Prev 21 22 23 24
FIXED FREQUENCY LO
Figure 18 shows the ADF4360-5 used as a fixed frequency LO at
1.4 GHz. The low-pass filter was designed using ADIsimPLL for
a channel spacing of 8 MHz and an open-loop bandwidth of
40 kHz. The maximum PFD frequency of the ADF4360-5 is
8 MHz. Because using a larger PFD frequency allows the use of
a smaller N, the in-band phase noise is reduced to as low as
possible, –101 dBc/Hz. The 40 kHz bandwidth is chosen to be
just greater than the point at which the open-loop phase noise
of the VCO is –101 dBc/Hz, thus, giving the best possible inte-
grated noise. The typical rms phase noise (100 Hz to 100 kHz)
of the LO in this configuration is 0.33°. The reference frequency
is from a 16 MHz TCXO from Fox; thus an R value of 2 is pro-
grammed. Taking into account the high PFD frequency and its
effect on the band select logic, the band select clock divider is
enabled. In this case, a value of 8 is chosen. A very simple pull-
up resistor and dc blocking capacitor complete the RF output
stage.
VVCO
VVDD
LOCK
DETECT
FOX
10µF
14
1nF 1nF
6
VVCO
CN
21
2
DVDD AVDD
23
20
CE MUXOUT VTUNE 7
CP 24
801BE-160
16MHz
16 REFIN
51
17 CLK
18 DATA
19 LE
12 CC
ADF4360-5
1nF
4.7k
13 RSET
CPGND
13
RFOUTA 4
AGND
DGND RFOUTB 5
8 9 10 11 22 15
5.6nF
VVCO
51
27.0nF
3600
51
100pF
100pF
Figure 18. Fixed Frequency LO
INTERFACING
The ADF4360 family has a simple SPI®-compatible serial inter-
face for writing to the device. CLK, DATA, and LE control the
data transfer. When LE goes high, the 24 bits that have been
clocked into the appropriate register on each rising edge of CLK
are transferred to the appropriate latch. See Figure 2 for the
timing diagram and Table 5 for the latch truth table.
The maximum allowable serial clock rate is 20 MHz. This
means that the maximum update rate possible is 833 kHz or
one update every 1.2 µs. This is certainly more than adequate
for systems that have typical lock times in hundreds of micro-
seconds.
ADF4360-5
ADuC812 Interface
Figure 19 shows the interface between the ADF4360 family and
the ADuC812 MicroConverter®. Because the ADuC812 is based
on an 8051 core, this interface can be used with any 8051 based
microcontroller. The MicroConverter is set up for SPI master
mode with CPHA = 0. To initiate the operation, the I/O port
driving LE is brought low. Each latch of the ADF4360 family
needs a 24-bit word, which is accomplished by writing three
8-bit bytes from the MicroConverter to the device. When the
third byte has been written, the LE input should be brought
high to complete the transfer.
SCLOCK
MOSI
ADuC812
I/O PORTS
SCLK
SDATA
LE ADF4360-x
CE
MUXOUT
(LOCK DETECT)
Figure 19. ADuC812 to ADF4360-x Interface
I/O port lines on the ADuC812 are also used to control power-
down (CE input) and detect lock (MUXOUT configured as lock
detect and polled by the port input). When operating in the
described mode, the maximum SCLOCK rate of the ADuC812
is 4 MHz. This means that the maximum rate at which the out-
put frequency can be changed is 166 kHz.
ADSP-21xx Interface
Figure 20 shows the interface between the ADF4360 family and
the ADSP-21xx digital signal processor. The ADF4360 family
needs a 24-bit serial word for each latch write. The easiest way
to accomplish this using the ADSP-21xx family is to use the
autobuffered transmit mode of operation with alternate fram-
ing. This provides a means for transmitting an entire block of
serial data before an interrupt is generated.
SCLOCK
MOSI
TFS
ADSP-21xx
I/O PORTS
SCLK
SDATA
LE ADF4360-x
CE
MUXOUT
(LOCK DETECT)
Figure 20. ADSP-21xx to ADF4360-x Interface
Set up the word length for 8 bits and use three memory loca-
tions for each 24-bit word. To program each 24-bit latch, store
the 8-bit bytes, enable the autobuffered mode, and write to the
transmit register of the DSP. This last operation initiates the
autobuffer transfer.
Rev. A | Page 21 of 24
 

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