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ADF4117BRUZ1 View Datasheet(PDF) - Analog Devices

Part Name
Description
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ADF4117BRUZ1
ADI
Analog Devices ADI
ADF4117BRUZ1 Datasheet PDF : 20 Pages
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ADF4116/ADF4117/ADF4118
THE FUNCTION LATCH
With C2, C1 set to 1, 0, the on-chip function latch will be pro-
grammed. Table VI shows the input data format for programming
the Function Latch.
Counter Reset
DB2 (F1) is the counter reset bit. When this is “1,” the R counter
and the A, B counters are reset. For normal operation this bit
should be “0.” Upon powering up, the F1 bit needs to be disabled,
the N counter resumes counting in “close” alignment with the R counter.
(The maximum error is one prescaler cycle.)
Power-Down
DB3 (PD1) and DB19 (PD2) on the ADF4116 family, provide
programmable power-down modes. They are enabled by the
CE pin.
When the CE pin is low, the device is immediately disabled
regardless of the states of PD2, PD1.
In the programmed asynchronous power-down, the device pow-
ers down immediately after latching a “1” into bit PD1, with the
condition that PD2 has been loaded with a “0.”
In the programmed synchronous power-down, the device power
down is gated by the charge pump to prevent unwanted fre-
quency jumps. Once the power-down is enabled by writing a
“1” into bit PD1 (on condition that a “1” has also been loaded
to PD2), then the device will go into power-down after the first
successive charge pump event.
When a power down is activated (either synchronous or asynchro-
nous mode including CE-pin-activated power down), the
following events occur:
All active dc current paths are removed.
The R, N and timeout counters are forced to their load state
conditions.
The charge pump is forced into three-state mode.
The digital clock detect circuitry is reset.
The RFIN input is debiased.
The oscillator input buffer circuitry is disabled.
The input register remains active and capable of loading and
latching data.
MUXOUT Control
The on-chip multiplexer is controlled by M3, M2, M1 on the
ADF4116 family. Table VI shows the truth table.
Phase Detector Polarity
DB7 (F2) of the function latch sets the Phase Detector Polarity.
When the VCO characteristics are positive this should be set to
“1.” When they are negative it should be set to “0.”
Charge Pump Three-State
This bit puts the charge pump into three-state mode when pro-
grammed to a “1.” It should be set to “0” for normal operation.
Fastlock Enable Bit
DB9 of the Function Latch is the Fastlock Enable Bit. Only
when this is “1” is Fastlock enabled.
Fastlock Mode Bit
DB11 of the Function Latch is the Fastlock Mode bit. When
Fastlock is enabled, this bit determines which Fastlock Mode is
used. If the Fastlock Mode bit is “0” then Fastlock Mode 1 is
selected and if the Fastlock Mode bit is “1,” then Fastlock
Mode 2 is selected.
If Fastlock is not enabled (DB9 = “0”), then DB11 (ADF4116)
determines the state of the FLO output. FLO state will be the
same as that programmed to DB11.
Fastlock Mode 1
In the ADF4116 family, the output level of FLO is programmed
to a low state and the charge pump current is switched to the
high value (1 mA). FLO is used to switch a resistor in the loop
filter and ensure stability while in Fastlock by altering the loop
bandwidth.
The device enters Fastlock by having a “1” written to the CP
Gain bit in the N register. The device exits Fastlock by having a
“0” written to the CP Gain bit in the N register.
Fastlock Mode 2
In the ADF4116 family, the output level of FLO is programmed
to a low state and the charge pump current is switched to the high
value (1 mA). FLO is used to switch a resistor in the loop filter and
ensure stability while in Fastlock by altering the loop bandwidth.
The device enters Fastlock by having a “1” written to the CP
Gain bit in the N register. The device exits Fastlock under the
control of the Timer Counter. After the timeout period deter-
mined by the value in TC4–TC1, the CP Gain bit in the N
register is automatically reset to “0” and the device reverts to
normal mode instead of Fastlock.
Timer Counter Control
In the ADF4116 family, the user has the option of switching
between two charge pump current values to speed up locking to
a new frequency.
When using the Fastlock feature with the ADF4116 family, the
normal sequence of events is as follows:
The user must make sure that Fastlock is enabled. Set DB9 of the
ADF4116 family to “1.” The user must also choose which Fastlock
Mode to use. As discussed in the previous section, Fastlock
Mode 2 uses the values in the Timer Counter to determine the
timeout period before reverting to normal mode operation after
Fastlock. Fastlock Mode 2 is chosen by setting DB11 of the
ADF4116 family to “1.”
The user must also decide how long they want the high current
(1 mA) to stay active before reverting to low current (250 µA).
This is controlled by the Timer Counter Control Bits DB14 to
DB11 (TC4–TC1) in the Function Latch. The truth table is
given in Table VI.
Now, when the user wishes to program a new output frequency,
they can simply program the A, B counter latch with new values
for A and B. At the same time they can set the CP Gain bit to a
“1,” which sets the charge pump 1 mA for a period of time deter-
mined by TC4–TC1. When this time is up, the charge pump
current reverts to 250 µA. At the same time the CP Gain Bit in
the A, B Counter latch is reset to 0 and is now ready for the
next time that the user wishes to change the frequency again.
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