ADF4216BRUZ-RL7 Analog Devices Inc, ADF4216BRUZ-RL7 Datasheet - Page 11

ADF4216BRUZ-RL7

Manufacturer Part Number

ADF4216BRUZ-RL7

Description

DUAL PLL,1.2/0.5GHz I.C

Manufacturer

Analog Devices Inc

Type

Clock/Frequency Synthesizer (RF/IF)r

Datasheet

1.ADF4216BRU-REEL.pdf (20 pages)

Specifications of ADF4216BRUZ-RL7

Pll

Yes

Input

CMOS

Output

Clock

Number Of Circuits

Ratio - Input:output

3:1

Differential - Input:output

Yes/No

Frequency - Max

1.2GHz

Divider/multiplier

Yes/No

Voltage - Supply

2.7 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-TSSOP

Frequency-max

1.2GHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 11 of 20
Download datasheet (218Kb)

MUXOUT AND LOCK DETECT

The output multiplexer on the ADF4216 family allows the

user to access various internal points on the chip. The state of

MUXOUT is controlled by P3, P4, P11 and P12. See Tables

III and V. Figure 6 shows the MUXOUT section in block dia-

gram form.

Lock Detect

MUXOUT can be programmed for analog lock detect. The N-

channel open-drain analog lock detect should be operated with

an external pull-up resistor of 10 kΩ nominal. When lock has

been detected it is high with narrow low-going pulses.

INPUT SHIFT REGISTER

The functional block diagram for the ADF4216 family is shown

on Page 1. The main blocks include a 22-bit input shift register,

a 14-bit R counter and an 17-bit N counter, comprising a 6-bit

A counter and an 11-bit B counter. Data is clocked into the 22-

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, DB0 as shown in

the timing diagram of Figure 1. The truth table for these bits is

shown in Table I.

PROGRAM MODES

Table III and Table V show how to set up the Program Modes

in the ADF4216 family. The following should be noted:

1. IF and RF Analog Lock Detect indicate when the PLL is in

IF/RF ANALOG LOCK DETECT

RF ANALOG LOCK DETECT

Control Bits

lock. When the loop is locked and either IF or RF Analog

Lock Detect is selected, the MUXOUT pin will show a logic

high with narrow low-going pulses. When the IF/RF Analog

Lock Detect is chosen, the locked condition is indicated only

when both IF and RF loops are locked.

IF ANALOG LOCK DETECT

RF R COUNTER OUTPUT

RF N COUNTER OUTPUT

IF R COUNTER OUTPUT

IF N COUNTER OUTPUT

Table I. C2, C1 Truth Table

Data Latch

IF R Counter

IF AB Counter (and Prescaler Select)

RF R Counter

RF AB Counter (and Prescaler Select)

MUX

CONTROL

DGND

MUXOUT

2. The IF Counter Reset mode resets the R and N counters in

3. The Fastlock mode uses MUXOUT to switch a second loop

POWER-DOWN

It is possible to program the ADF4216 family for either synchro-

nous or asynchronous power-down on either the IF or RF side.

Synchronous IF Power-Down

Programming a “1” to P7 of the ADF4216 family will initiate a

power-down. If P2 of the ADF4216 family has been set to “0”

(normal operation), a synchronous power-down is conducted.

The device will automatically put the charge pump into three-

State and then complete the power-down.

Asynchronous IF Power-Down

If P2 of the ADF4216 family has been set to “1” (three-state the

IF charge pump), and P7 is subsequently set to “1,” then an

asynchronous power-down is conducted. The device will go into

power-down on the rising edge of LE, which latches the “1” to

the IF power-down bit (P7).

Synchronous RF Power-Down

Programming a “1” to P16 of the ADF4216 family will initiate a

power-down. If P10 of the ADF4216 family has been set to “0”

(normal operation), a synchronous power-down is conducted. The

device will automatically put the charge pump into three-state

and then complete the power-down.

Asynchronous RF Power-Down

If P10 of the ADF4216 families has been set to “1” (three-state

the RF charge pump), and P16 is subsequently set to “1,” an

asynchronous power-down is conducted. The device will go into

power-down on the rising edge of LE, which latches the “1” to

the RF power-down bit (P16).

Activation of either synchronous or asynchronous power-down

forces the IF/RF loop’s R and N dividers to their load state

conditions and the IF/RF input section is debiased to a high

impedance state.

The REF

RF power-downs are set.

The input register and latches remain active and are capable of

loading and latching data during all the power-down modes.

The IF/RF section of the devices will return to normal powered

up operation immediately upon LE latching a “0” to the appro-

priate power-down bit.

the IF section and also puts the IF charge pump into three-

state. The RF Counter Reset mode resets the R and N counters

in the RF section and also puts the RF charge pump into

three-state. The IF and RF Counter Reset mode does both

of the above.

Upon removal of the reset bits, the N counter resumes counting

in close alignment with the R counter (maximum error is one

prescaler output cycle).

ﬁlter damping resistor to ground during Fastlock operation.

Activation of Fastlock occurs whenever RF CP Gain in the

RF Reference counter is set to one.

oscillator circuit is only disabled if both the IF and

ADF4216/ADF4217/ADF4218

ADF4216BRUZ-RL7 Analog Devices Inc, ADF4216BRUZ-RL7 Datasheet - Page 11

ADF4216BRUZ-RL7

Specifications of ADF4216BRUZ-RL7

Related parts for ADF4216BRUZ-RL7