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ADF4153BCPZ-RL7 View Datasheet(PDF) - Analog Devices

Part Name
Description
Manufacturer
ADF4153BCPZ-RL7
ADI
Analog Devices ADI
ADF4153BCPZ-RL7 Datasheet PDF : 24 Pages
1 2 3 4 5 6 7 8 9 10 Next Last
ADF4153
PHASE FREQUENCY DETECTOR (PFD) AND
CHARGE PUMP
The PFD takes inputs from the R counter and N counter and
produces an output proportional to the phase and frequency
difference between them. Figure 14 is a simplified schematic of
the phase frequency detector. The PFD includes a fixed delay
element that sets the width of the antibacklash pulse, which is
typically 3 ns. This pulse ensures that there is no dead zone in the
PFD transfer function and gives a consistent reference spur level.
UP
HI
D1 Q1
U1
+IN
CLR1
DELAY
U3
CHARGE
CP
PUMP
HI
–IN
CLR2 DOWN
D2 Q2
U2
Figure 14. PFD Simplified Schematic
MUXOUT AND LOCK DETECT
The output multiplexer on the ADF4153 allows the user to
access various internal points on the chip. The state of MUXOUT
is controlled by M3, M2, and M1 (see Table 8). Figure 15 shows
the MUXOUT section in block diagram form.
DVDD
THREE-STATE OUTPUT
LOGIC LOW
DIGITAL LOCK DETECT
R COUNTER DIVIDER
N COUNTER DIVIDER
ANALOG LOCK DETECT
LOGIC HIGH
MUX
CONTROL
MUXOUT
DGND
s
Figure 15. MUXOUT Schematic
INPUT SHIFT REGISTERS
The ADF4153 digital section includes a 4-bit RF R counter,
a 9-bit RF N counter, a 12-bit FRAC counter, and a 12-bit
modulus counter. Data is clocked into the 24-bit shift register
on each rising edge of CLK. The data is clocked in MSB first.
Data is transferred from the shift register to one of four latches
on the rising edge of LE. The destination latch is determined by
the state of the two control bits (C2 and C1) in the shift register.
These are the 2 LSBs, DB1 and DB0, as shown in Figure 2. The
truth table for these bits is shown in Table 5. Table 6 shows a
summary of how the registers are programmed.
PROGRAM MODES
Table 5 through Table 10 show how to set up the program
modes in the ADF4153.
The ADF4153 programmable modulus is double buffered. This
means that two events have to occur before the part uses a new
modulus value. First, the new modulus value is latched into the
device by writing to the R divider register. Second, a new write
must be performed on the N divider register. Therefore, to
ensure that the modulus value is loaded correctly, the N divider
register must be written to any time that the modulus value is
updated.
Table 5. C2 and C1 Truth Table
Control Bits
C2
C1
Register
0
0
N Divider Register
0
1
R Divider Register
1
0
Control Register
1
1
Noise and Spur Register
Rev. D | Page 10 of 24
 

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