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ADF4106BCPZ View Datasheet(PDF) - Analog Devices

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Description
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ADF4106BCPZ
ADI
Analog Devices ADI
ADF4106BCPZ Datasheet PDF : 24 Pages
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Data Sheet
PHASE FREQUENCY DETECTOR (PFD) AND
CHARGE PUMP
The PFD takes inputs from the R counter and N counter
(N = BP + A) and produces an output proportional to the
phase and frequency difference between them. Figure 20 is a
simplified schematic. The PFD includes a programmable delay
element that controls the width of the antibacklash pulse. This
pulse ensures that there is no dead zone in the PFD transfer
function and minimizes phase noise and reference spurs. Two
bits in the reference counter latch, ABP2 and ABP1, control the
width of the pulse. See Table 7.
HI
R DIVIDER
D1 Q1 UP
U1
CLR1
VP
CHARGE
PUMP
PROGRAMMABLE
DELAY
U3
CP
ABP2 ABP1
HI
N DIVIDER
CLR2 DOWN
D2 Q2
U2
CPGND
Figure 20. PFD Simplified Schematic
MUXOUT AND LOCK DETECT
The output multiplexer on the ADF4106 allows the user
to access various internal points on the chip. The state of
MUXOUT is controlled by M3, M2, and M1 in the function
latch. Table 9 shows the full truth table. Figure 21 shows the
MUXOUT section in block diagram form.
Lock Detect
MUXOUT can be programmed for two types of lock detect:
digital lock detect and analog lock detect.
Digital lock detect is active high. When LDP in the R counter
latch is set to 0, digital lock detect is set high when the phase
error on three consecutive phase detector cycles is less than
15 ns. With LDP set to 1, five consecutive cycles of less than
15 ns are required to set the lock detect. It stays set high until a
phase error of greater than 25 ns is detected on any subsequent
PD cycle.
ADF4106
The N-channel, open-drain, analog lock detect should be
operated with an external pull-up resistor of 10 kΩ nominal.
When lock is detected, this output is high with narrow, low-
going pulses.
DVDD
ANALOG LOCK DETECT
DIGITAL LOCK DETECT
R COUNTER OUTPUT
N COUNTER OUTPUT
SDOUT
MUX
CONTROL
MUXOUT
Figure 21. MUXOUT Circuit
DGND
INPUT SHIFT REGISTER
The ADF4106 digital section includes a 24-bit input shift
register, a 14-bit R counter, and a 19-bit N counter, comprising a
6-bit A counter and a 13-bit B 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, C1)
in the shift register. These are the two LSBs, DB1 and DB0, as
shown in the timing diagram of Figure 2. The truth table for
these bits is shown in Table 5. Table 6 shows a summary of how
the latches are programmed.
Table 5. C1, C2 Truth Table
Control Bits
C2
C1
Data Latch
0
0
R Counter
0
1
N Counter (A and B)
1
0
Function Latch (Including Prescaler)
1
1
Initialization Latch
Rev. E | Page 11 of 24
 

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