PLLs / PLLs with Integrated VCOs

ADI ‘s leading PLL synthesizers family includes single and dual PLLs as well as fractional-N and integer-N, and highly integrated PLLs with VCOs. They feature best-in-class performance, phase noise and integration.

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FAQs:
Ask the Engineer: PLL Synthesizers

Other PLLs FAQs and RAQs

Video
Video: ADIsimPLL™

Tutorials & Webcasts
Fundamentals of Frequency Synthesis, Part 1: Phase Locked Loops
The first of a two-part series on frequency synthesis, with an introduction to Phase Locked Loops. This webcast looks at the need for frequency generation, the techniques from the past present and future, and how to assess the performance of a frequency synthesis, and real world applications. Particular attention will be focused on Phase Locked Loops (PLL's) as frequency synthesizers.

Fundamentals of Frequency Synthesis, Part 2: Direct Digital Synthesis (DDS)
The second of a two-part series on frequency synthesis, with an introduction to Direct Digital Synthesis. We will give a basic review of how a direct digital synthesis system works, touching on the inner workings of the DDS engine at a relatively high level. We will also discuss the tradeoffs between PLL and DDS technology as a base choice for frequency synthesis needs.

Solutions for Fitting High Performance RF Signal Chains into Small Spaces
This webinar will present the current state of integration of RF IC technology, with a focus on the challenges that non-handset-based wireless equipment designers face as they strive for more functionality in smaller spaces, sometimes with the added headache of having to implement broadband transceivers that can be reused at multiple frequencies.

Fundamentals of the RF Transmission and Reception of Digital Signals
Digital Modulation is an important topic for RF designers because most modern day transceivers transmit and receive digitally modulated data. In this webcast, part of ADI's continuing FUNDAMENTALS OF DESIGN series we will introduce you to the challenges—and solutions—for digital modulation. This webcast is a great way for beginners to get introduced to this vital communications standard or for veteran RF designers learn what's new in the field.

PLLs Technical Articles
Direct Conversion Receiver Designs Enable Multi-standard/Multi-band Operation
Modern direct conversion provides a compelling solution for field programmable radio designs and offers a cost benefit and potential performance advantage over traditional receiver solutions. By Austin Harney (RF Designline, 2/16/2009)

Direct Digital Synthesis (DDS) Controls Waveforms in Test, Measurement, and Communications (Analog Dialogue, Vol. 39, August 2005)

Design a Direct 6-GHz Local Oscillator with a New, Wideband, Integer-N, PLL Synthesizer (Analog Dialogue, Vol. 35, No. 6, November-December, 2001)

Ask the Applications Engineer—30: PLL SYNTHESIZERS (Analog Dialogue, Vol. 36, No. 3, May-July, 2002)

Phase-locked loops for high-frequency receivers and transmitters

Part 1: Introduction (Analog Dialogue, Vol. 33, No. 3, March, 1999)

Part 2: Phase Noise and Reference Spurs (Analog Dialogue, Vol. 33, No. 5, May, 1999)

Part 3: Basic Building Blocks (Analog Dialogue, Vol. 33, No. 7, July-August, 1999)

Brochures & Bulletins
RF/IF Selection Guide

RF IC Solutions Bulletin

Data Sheets
PLLs Data Sheets

Compare, Select & Evaluate
Parametric Search
Fractional-N

Integer-N

PLLs with Integrated VCOs

Tools
ADIsimRF™
Video: ADIsimRF™

ADIsimPLL™
Video: ADIsimPLL™

Design Calculators
PLL Register Configuration Assistants
These tools will generate the hex code values needed to configure the registers of the AD41xx and ADF42xx PLLs. They will also help determine the the values of the counters needed to obtain a certain output frequency given a reference clock.

Ibis Models
ADF4350BCPZ

ADF4116BRUZ

ADF4106 Ibis Models
ADF4106BRUZ
ADF4106BCPZ

Utilities & Conversions
RF Impedance Matching Tool
This calculator matches a known complex load to a desired impedance at a given frequency. Computes component values and displays a sample circuit of the matching network.

Design Support
EngineerZone Support Community

Circuits from the Lab
CN-0174: Low Noise, 12 GHz, Microwave Fractional-N Phase-Locked Loop (PLL) Using an Active Loop Filter and RF Prescaler

CN-0147: Powering a Fractional-N Voltage Controlled Oscillator (VCO) with Low Noise LDO Regulators for Reduced Phase Noise

CN-0144: Broadband Low Error Vector Magnitude (EVM) Direct Conversion Transmitter Using LO Divide-by-2 Modulator

CN-0134: Broadband Low Error Vector Magnitude (EVM) Direct Conversion Transmitter

CN-0003: Very Low Jitter Encode (Sampling) Clocks for High Speed Analog-to-Digital Converters Using the ADF4002 PLL

PLLs Application Notes
AN-0974: Multicarrier TD-SCMA Feasibility (pdf, 634 KB)

AN-807: Multicarrier WCDMA Feasibility (pdf, 969 KB)

AN-808: Multicarrier CDMA2000 Feasibility
The goal of this application note is to determine the feasibility of implementing a multicarrier CDMA2000 transceiver and what the major subsystem performances must be. (pdf, 1535 KB)

AN-873: Lock Detect on the ADF4xxx Family of PLL Synthesizers (pdf, 207 KB)

AN-826: A 2.4 GHz WiMAX Direct Conversion Transmitter (pdf, 417 kB)

AN-30: Ask the Applications Engineer - PLL Synthesizers (pdf, 184 KB)

User Guides
PLL User Guides

Filter Filter

Analog Filter Wizard 2.0
The Analog Filter Wizard™ helps you design a low-pass, high-pass, band-pass or band-stop filter with actual op amps. It then simulates the filter’s performance with these op amps in real time. You can ask the tool to optimize for power, noise, or voltage range, and it will pick op amps and passive components appropriately. Or you can adjust the components manually yourself.
Photodiode Photodiode

Analog Photodiode Wizard
The photodiode web tool helps you select and design the best circuit for your application. To use the tool, enter the specifications of your light input, including intensity, spectral band, and the required signal bandwidth. These inputs will narrow down the available photodiode part numbers.
Amp Tools Amp Tools

Amp Tools
View all tools available for Analog Devices' Amplifiers products.
Product Search Product Search

Product Search
Search, compare and select products using our parametric selection tables.

ADIsimADC ADIsimADC

ADIsimADC
The ADIsimADC tool is an aid to help in the selection of Analog to Digital Converterse (ADC's), perform evaluations and assist with troubleshooting. The tool uses typical data values to mathematically model the general behavior of the selected ADC. It allows a user to apply input signals, set encode (sample) rates and simulate FFT's on a selected ADC. It is useful for checking the SNR, SFDR, SINAD, THD, ENOB etc. of a selected ADC.
ADIsimDAC ADIsimDAC

ADIsimDAC
ADIsimDAC assists the user with finding Analog Devices' DACs and DAC Application Circuits. It takes user inputs along Typical Parametric Data to sort, select and suggest applicable DAC's, system components and circuit solutions.
ADC/DAC Tools ADC/DAC Tools

Amp Tools
View all tools available for Analog Devices' Data Converters products.
Product Search Product Search

Product Search
Search, compare and select products using our parametric selection tables.

ADIsimRF ADIsimRF

ADIsimRF
ADIsimRF is an easy-to-use RF signal chain calculator. Cascaded Gain, Noise Figure, IP3 and P1dB as well as total power consumption are calculated. The number of stages can be varied up to a maximum of 15. Additional stages can be inserted at any point in teh signal chain and individual stages can be temporarily disabled or deleted. The calculator can be switched between Transmit Mode and Receive Mode where calculations are presented output-referred and input-referred respectively.
ADIsimPLL ADIsimPLL

ADIsimPLL
The ADIsimPLL design tool is a comprehensive and easy-to-use PLL synthesizer design and simulation tool. All key non-linear effects that can impact PLL performance can be simulated, including phase noise, Fractional-N spurs, and anti-backlash pulse. ADIsimPLL design tool eliminates time-consuming iterations from the PLL/synthesizer development process.
RF Tools RF Tools

RF Tools
View all tools available for Analog Devices' RF ICs.
Product Search Product Search

Product Search
Search, compare and select products using our parametric selection tables.

ADIsimPower ADIsimPower

ADIsimPower
ADIsimPower™ Voltage Regulator Design Tool produces custom DC-DC converter designs in about one minute. The user enters 5 inputs and chooses to optimize for efficiency, PCB space, cost, or part count. Output is a complete schematic, BOM, efficiency plot, and performance summary. A PDF summary and a blank PCB is offered for each design to facilitate fast prototyping to verify the design.
Digital Power Management Digital Power Management

Digital Power Management
ADI's digital PWM (pulse-width modulation) power control and management devices provide designers with a highly integrated circuit architecture and the flexibility to configure system power-supply parameters in a matter of minutes using an intuitive GUI (graphical user interface). Power design egnineers with no prior programming experience can use the GUI to monitor and quickly adjust power functions such as frequency, timing, voltage settings, and protection limits.
Power Tools Power Tools

Power Tools
View all tools available for Analog Devices' Power Management products.
Product Search Product Search

Product Search
Search, compare and select products using our parametric selection tables.

othertools Search Tools, Software and Simulation Models
by part number or by product category

Fractional-N PLLs

Part#	Single/Dual	Max RF Input (MHz)	Max REFin Frequency	RF Prescaler	Normalised Phase Noise	Supply Current	Package
ADF4153A	Single	4GHz	250MHz	4/5, 8/9	-223dBc/Hz	20mA	20-Lead CSP
ADF4159	Single	13GHz	260MHz	4/5, 8/9	-224dBc/Hz	39mA	24-Lead LFCSP
ADF4351 Reference Circuit Available	Single	4.4GHz	250MHz	4/5, 8/9	-221dBc/Hz	110mA	32-Lead LFCSP
ADF4150HV	Single	3GHz	300MHz	4/5, 8/9	-213dBc/Hz	50mA	32-Lead LFCSP
ADF4151	Single	3.5Hz	250MHz	4/5, 8/9	-221dBc/Hz	40mA	32-Lead LFCSP
ADF4196	Single	6GHz	300MHz	4/5, 8/9	-216dBc/Hz	68mA	32-Lead LFCSP
ADF4150	Single	5GHz	250MHz	4/5, 8/9	-223dBc/Hz	50mA	24-Lead CSP
ADF4158	Single	6.1GHz	260MHz	4/5, 8/9	-216dBc/Hz	23mA	24-Lead LFCSP
ADF4350 Reference Circuit Available	Single	4.4GHz	250MHz	4/5, 8/9	-220dBc/Hz	110mA	32-Lead CSP
ADF4157	Single	6GHz	300MHz	4/5, 8/9	-211dBc/Hz	23mA	16-Lead TSSOP, 20-Lead CSP
ADF4156 Reference Circuit Available	Single	6.2GHz	250MHz	4/5, 8/9	-220dBc/Hz	26mA	16-Lead TSSOP, 20-Lead CSP
ADF4193	Single	3.5GHz	300MHz	4/5, 8/9	-216dBc/Hz	68mA	32-Lead CSP
ADF4154	Single	4GHz	250MHz	4/5, 8/9	-220dBc/Hz	20mA	16-Lead TSSOP, 20-Lead CSP
ADF4153 Reference Circuit Available	Single	4GHz	250MHz	4/5, 8/9	-220dBc/Hz	20mA	16-Lead TSSOP, 20-Lead CSP
ADF4252	Dual	3GHz	250MHz	4/5, 8/9	-214dBc/Hz	13mA	24-Lead CSP

Integer-N PLLs

Part#	Single/Dual	Min RF Frequency (MHz)	Max RF Frequency (MHz)	Normalised Phase Noise	Max REFin Frequency	RF Prescaler	Supply Current	Package
ADF41020	Single	4GHz	18GHz	-221dBc/Hz	400MHz	16/17, 32/33, 64/65, 8/9	30mA	20-Lead CSP
ADF4351 Reference Circuit Available	Single	35MHz	4.4GHz	-221dBc/Hz	250MHz	4/5, 8/9	110mA	32-Lead LFCSP
ADF4150HV	Single	500MHz	3GHz	-213dBc/Hz	300MHz	4/5, 8/9	50mA	32-Lead LFCSP
ADF4151	Single	500MHz	3.5GHz	-221dBc/Hz	250MHz	4/5, 8/9	40mA	32-Lead LFCSP
ADF4150	Single	500MHz	5GHz	-223dBc/Hz	250MHz	4/5, 8/9	50mA	24-Lead CSP
ADF4350 Reference Circuit Available	Single	137.5MHz	4.4GHz	-220dBc/Hz	250MHz	4/5, 8/9	110mA	32-Lead CSP
ADF4360-9	Single	65MHz	400MHz	-218dBc/Hz	250MHz	-	40mA	24-Lead LFCSP
ADF4113HV	Single	200MHz	3.7GHz	-212dBc/Hz	150MHz	16/17, 32/33, 64/65, 8/9	11mA	16-Lead TSSOP, 20-Lead CSP
ADF4002 Reference Circuit Available	Single	5MHz	400MHz	-222dBc/Hz	300MHz	-	5mA	16-Lead TSSOP, 20-Lead CSP
ADF4108	Single	1GHz	8GHz	-223dBc/Hz	250MHz	16/17, 32/33, 64/65, 8/9	15mA	20-Lead CSP
ADF4360-8	Single	65MHz	400MHz	-216dBc/Hz	250MHz	-	40mA	24-Lead CSP
ADF4360-0	Single	2.4GHz	2.725GHz	-216dBc/Hz	250MHz	16/17, 32/33, 8/9	50mA	24-Lead LFCSP
ADF4007	Single	1GHz	7.5GHz	-219dBc/Hz	240MHz	N counter = 8/16/32/64	13mA	20-Lead CSP
ADF4360-2	Single	1.85GHz	2.17GHz	-216dBc/Hz	250MHz	16/17, 32/33, 8/9	50mA	24-Lead LFCSP
ADF4360-3	Single	1.65GHz	1.95GHz	-216dBc/Hz	250MHz	16/17, 32/33, 8/9	50mA	24-Lead CSP
ADF4360-4	Single	1.45GHz	1.75GHz	-216dBc/Hz	250MHz	16/17, 32/33, 8/9	50mA	24-Lead CSP
ADF4360-5	Single	1.2GHz	1.4GHz	-216dBc/Hz	250MHz	16/17, 32/33, 8/9	45mA	24-Lead CSP
ADF4360-6	Single	1.05GHz	1.25GHz	-216dBc/Hz	250MHz	16/17, 32/33, 8/9	45mA	24-Lead CSP
ADF4360-7	Single	350MHz	1.8GHz	-216dBc/Hz	250MHz	16/17, 8/9	45mA	24-Lead CSP
ADF4107	Single	1GHz	7GHz	-223dBc/Hz	250MHz	16/17, 32/33, 64/65, 8/9	17mA	16-Lead TSSOP, 20-Lead CSP
ADF4360-1	Single	2.05GHz	2.45GHz	-216dBc/Hz	250MHz	16/17, 32/33, 8/9	50mA	24-Lead LFCSP
ADF4212L	Dual	200MHz	2.4GHz	-215dBc/Hz	150MHz	16/17, 32/33, 64/65, 8/9	7.5mA	20-Lead CSP, 20-Lead TSSOP
ADF4106	Single	500MHz	6GHz	-223dBc/Hz	300MHz	16/17, 32/33, 64/65, 8/9	13mA	16-Lead TSSOP, 20-Lead CSP
ADF4001	Single	10MHz	200MHz	-217dBc/Hz	104MHz	-	4.5mA	16-Lead TSSOP, 20-Lead CSP
ADF4117	Single	100MHz	1.2GHz	-213dBc/Hz	100MHz	32/33	4.5mA	16-Lead TSSOP
ADF4110	Single	50MHz	550MHz	-213dBc/Hz	104MHz	16/17, 32/33, 64/65, 8/9	4.5mA	16-Lead TSSOP, 20-Lead CSP
ADF4111	Single	80MHz	1.2GHz	-213dBc/Hz	104MHz	16/17, 32/33, 64/65, 8/9	4.5mA	16-Lead TSSOP, 20-Lead CSP
ADF4113	Single	200MHz	3.7GHz	-217dBc/Hz	104MHz	16/17, 32/33, 64/65, 8/9	8.5mA	16-Lead TSSOP, 20-Lead CSP
ADF4116	Single	80MHz	550MHz	-211dBc/Hz	100MHz	8/9	4.5mA	16-Lead TSSOP
ADF4118	Single	100MHz	3GHz	-216dBc/Hz	100MHz	32/33	6.5mA	16-Lead TSSOP
AD809	-	-	-	-	19.44MHz	-	17mA	16-Lead SOIC

PLLs w/ Integrated VCOs

Part#	Phase Noise @ 1kHz Offset	Normalised Phase Noise	Min RF Frequency (MHz)	Max RF Frequency (MHz)	Max REFin Frequency	+10dBm Power Consumption	RF Prescaler	Output Power	Package
ADF4351 Reference Circuit Available	-	-221dBc/Hz	35MHz	4.4GHz	250MHz	110mA	4/5, 8/9	-4dBm to +5dBm	32-Lead LFCSP
ADF4350 Reference Circuit Available	-97dBc/Hz	-220dBc/Hz	137.5MHz	4.4GHz	250MHz	110mA	4/5, 8/9	-4 to +5dBm	32-Lead CSP
ADF4360-9	-110dBc/Hz	-218dBc/Hz	65MHz	400MHz	250MHz	-	-	-13 dBm to -4dBm	24-Lead LFCSP
ADF4360-8	-102dBc/Hz	-216dBc/Hz	65MHz	400MHz	250MHz	-	-	-13 dBm to -4dBm	24-Lead CSP
ADF4360-0	-80dBc/Hz	-216dBc/Hz	2.4GHz	2.725GHz	250MHz	-	16/17, 32/33, 8/9	-13 dBm to -3dBm	24-Lead LFCSP
ADF4360-2	-83dBc/Hz	-216dBc/Hz	1.85GHz	2.17GHz	250MHz	-	16/17, 32/33, 8/9	-12 dBm to -3dBm	24-Lead LFCSP
ADF4360-3	-85dBc/Hz	-216dBc/Hz	1.65GHz	1.95GHz	250MHz	-	16/17, 32/33, 8/9	-12 dBm to -3dBm	24-Lead CSP
ADF4360-4	-85dBc/Hz	-216dBc/Hz	1.45GHz	1.75GHz	250MHz	-	16/17, 32/33, 8/9	-13 dBm to -4dBm	24-Lead CSP
ADF4360-5	-87dBc/Hz	-216dBc/Hz	1.2GHz	1.4GHz	250MHz	-	16/17, 32/33, 8/9	-13 dBm to -4dBm	24-Lead CSP
ADF4360-6	-88dBc/Hz	-216dBc/Hz	1.05GHz	1.25GHz	250MHz	-	16/17, 32/33, 8/9	-13 dBm to -4dBm	24-Lead CSP
ADF4360-7	-92dBc/Hz	-216dBc/Hz	350MHz	1.8GHz	250MHz	-	16/17, 8/9	-13 dBm to -4dBm	24-Lead CSP
ADF4360-1	-81dBc/Hz	-216dBc/Hz	2.05GHz	2.45GHz	250MHz	-	16/17, 32/33, 8/9	-13 dBm to -3dBm	24-Lead LFCSP