High Performance RFIC Solutions

High Performance RFIC Solutions
4/19/2017 High Performance RFIC Solutions RF Standard Products Analog Devices Inc. September 2008 Use Hyperlinks in Presentation Mode Version F08.20

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For Easy Browsing Go to Slide 10 Switch to Presentation Mode Select Product Categories using Hyperlinks

Tips on using this PowerPoint
4/19/2017 Tips on using this PowerPoint IT IS EASY TO USE THIS PRESENTATION IN A MANNER THAT MAKES DISCUSSION WITH AUDIENCE EASY AND EFFICIENT. Signal Chain blocks are hyperlinked to selection table of the product category, e.g., RSSI/Phase Detection is linked to Log Amps Selection Table Selection Tables are repeated at the end of each product category section to recap with audience Some part numbers in selection tables are linked to the corresponding product pages. On the product pages, some specifications are hyperlinked to corresponding plots/graphs. On the product pages, the product’s PR photo is hyperlinked to product’s block diagram. HYPERLINKED ICONS AT THE BOTTOM OF THE SLIDES: Link to Signal Chain Last Viewed Slide Updates for this file can be found at: Link back to Selection Table

Revision History: v. F08.20 New Products Added: Bear in mind:
4/19/2017 Revision History: v. F08.20 New Products Added: All new RF Amplifiers: IF Amps, Gain Blocks, Low Noise Amps, Pre-Drivers etc ADL5380 Demodulator AD8366 Dual Digital Gain Trim Amplifier AD8363 TruPwr RMS Detector ADL5513 Wide Dynamic Range Log Amp AD8372 and ADL5592 Digital VGAs All PLL Synthesizers All Short Range Transceivers Bear in mind: Some products like ADL5391 appear in several categories...like Mixers/ Multipliers, PA Linearization, Variable Gain Amplifiers etc.

Meeting Agenda Understand your business And need for RFICs
4/19/2017 Meeting Agenda Understand your business And need for RFICs Talk about solutions ADI can provide Plan going ahead and next steps

Your Project Challenges?
4/19/2017 Your Project Challenges? Increase Performance? Improve Time to Market? RF Design Decrease Solution Cost? Decrease Size?

Serving The RF Needs of Communications Infrastructure
4/19/2017 Serving The RF Needs of Communications Infrastructure Cellular Infrastructure WCDMA CDMA2000 TD-SCDMA GSM-GPRS-EDGE Wireless Access WiMAX/WiBro WLAN Point-to-Point Links CATV Infrastructure Optical FTTx DWDM All Architectures Supported Double Superhet Rx / Tx Direct Conversion single / multi carrier IF Sampling receivers All Frequency Bands Cellular PCS / DCS WiMAX (up to 3.5GHz)

fT Process 1996 Today 50GHz 25GHz Applications Knowledge Packaging
4/19/2017 Applications Knowledge Process Packaging Architectural Expertise fT 50GHz XFCB3.0 SiGe Foundry CMOS Foundry GaAs 0.35u BiCMOS XFCB-2.0 Comp Bipolar RF25 NPN 25GHz --tradition of innovation - bipolar and complementary bipolar processes. RF25 process back in the mid-90s, -to XFCB 3.0 SiGE -Limerick BiCMOS TSMC history - RF or std CMOS, More recently, GaAs- niche performance pockets. 0.6u BiCMOS 1996 Today

Low Noise PLL Synthesizer
4/19/2017 Applications Knowledge Process Packaging Architectural Expertise Typical RF Signal Chain Logarithmic Amps Gilbert Cell Mixer Low Noise PLL Synthesizer Entry – Signal chain only Last but certainly not least, architectural expertise and innovation is critical to providing value solutions for our customers. What you see here is a typical RF signal chain, with all the various elements of mixers, synthesizers, variable gain amplifiers, modulators and detectors. Like to use the signal chains to illustrate some of the innovations that analog devices has made 1st click The Gilbert cell mixer remains the industry-standard for mixer architectures. Barrie Gilbert invented this cell quite a number of years ago, but you may be interested to know that Barrie heads our design team and continues to innovate mixer architectures, as one of his many contributions to the company. 2nd click – PLL In a relatively short period of time, analog devices has become a leader in low noise phase lock loop synthesizer technology. We have the lowest phase noise devices available on the market. Phase noise is the critical spec for synthesizer. Synthesizer performance has a direct bearing on the key performance parameters of a basestation. The receiver sensitivity is effected by the synthesizer phase noise while the spurious performance can cause concerns for te transmitter spectrum mask which must meet a predefined template. 3rd click – X-AMP Variable gain amplifiers, performed a critical function of controlling the signal level in both receive and transmit. For receivers, the VGA, is used to ensure that the appropriate signal level is presented to A/D converter, even as the receivea d signal varies widely - maximizing the useful dynamic range of the receiver. For transmitters, VGA accurately controls the power put out by the power amplifier to ensure a reliable transmission while not wasting excess power, andOur patented x-amp architectures achieve the required linearity and control accuracy for this critical function. 4th click TruPwr Properly measuring RF signalsis the other half of the closed loop control needed for both transmitters and receivers. RF detectors work in concert with VGAs to measure, and then control the signal level. Analog devices, is the clear leader in RF detection. Our most recent architectural innovation is our TruPWr power RMS detector family. Our patented approach. Actually performs the root mean square calculation on complex RF waveform to accurately measure the signal level 5th Click – Log amps Logarithmic amplifiers or logarithmic detectors as they are called, can also be used to accurately measure RF signals. Especially over a high dynamic range. Analog Devices and its designers hold most of the essential patents in this area. TOOLS EXPERTISE: We have our own in-house circuit simulation and analysis capability that gives us good competitive advantage when it comes to achieving design challenges. In addition to supporting existing device models, we create our own proprietary models that capture physical effects more accurately. For example, with the advent of GaAs based designs in ADI, we created self-heating models of bipolar transistor to help achieve high performance designs. Hopefully these examples show proof that analog devices has the architectural expertise to innovate across the RF signal. TruPwr™ RMS Detector X-AMP™ VGA

Covering the RF Signal Chain
4/19/2017 Covering the RF Signal Chain SRD/ISM single-chip RF

2nd Generation Log Amp Detectors
4/19/2017 2nd Generation Log Amp Detectors Part No. RF Freq (MHz) Dynamic Range (dB) Temp Drift (dB) Response Time (ns) Package Comments AD8302 DC 60 ±1 14-Lead TSSOP Dual gain & phase detector AD8306 100 73 16-Lead SOP Military specified part available AD8307 DC - 500 92 400 8-Lead SOIC/DIP - AD8309 67 16-Lead TSSOP Amplitude and limiter outputs AD8310 DC - 440 95 15 8-Lead MSOP Low cost AD8313 70 ±1.25 40 AD8314 45 8-Lead MSOP/ CSP Small package, lower power

3rd Generation Log Amp Detectors
4/19/2017 3rd Generation Log Amp Detectors Part No. RF Freq (MHz) Dynamic Range (dB) Temp Drift (dB) Response Time (ns) Package Comments AD8317 55 ±0.5 6 8-Lead 3x2 mm CSP Smaller package, Lower cost version of AD8318 AD8318 70 10 16-Lead 4x4 mm 50 Ω drive, Integrated temp sensor AD8319 45 Reduced dynamic range and lower cost version of AD8317 ADL5513 80 3x3 mm 16-LFCSP Next-gen AD8313 ADL5519 64 32-Lead LFCSP Dual log detector

AD8317 Industry’s First 1 MHz - 10 GHz Log Amp
4/19/2017 AD8317 Industry’s First 1 MHz - 10 GHz Log Amp KEY SPECIFICATIONS Bandwidth: 1 MHz - 10 GHz Pulse Response Time: 6 ns Stability Over Temperature: ±0.5 dB Package: 2mm×3mm 8-Lead LFCSP FEATURES RF Burst Detection to Beyond 50 MHz Low Noise Measurement/Controller Output VOUT Power-Down Feature: <1.0 mW at 5 V

AD8317 Typical Performance
4/19/2017 AD8317 Typical Performance Output Voltage and Log Conformance at 1.9 GHz, Multiple Devices

AD8318 Highest Performance Log Amp
4/19/2017 AD8318 Highest Performance Log Amp KEY SPECIFICATIONS Bandwidth: 1 MHz - 8 GHz Pulse Response Time: 10 ns Stability Over Temperature: ±0.5 dB Package: 4mm×4mm 16-Lead LFCSP FEATURES Integrated Temperature Sensor Low Noise Measurement/Controller Output VOUT Power-Down Feature: <1.5 mW at 5 V Fabricated Using High Speed SiGe Process

AD8318 High Performance Log Amp < ±0.5 dB accuracy over temperature
5.8 GHz

AD8318 High Performance Log Amp 10 ns Response Time (10% - 90%)
4/19/2017 AD8318 High Performance Log Amp 10 ns Response Time (10% - 90%)

AD8319 Widest Frequency Range Log Amp
4/19/2017 AD8319 Widest Frequency Range Log Amp KEY SPECIFICATIONS Bandwidth: 1 MHz - 10 GHz Pulse Response Time: 6 ns Stability Over Temperature: ±0.5 dB Package: 2mm×3mm 8-Lead LFCSP FEATURES RF Burst Detection to Beyond 50 MHz Low Noise Measurement/Controller Output VOUT Power-Down Feature: <1.0 mW at 5 V

4/19/2017 AD8319’s Superior Performance +/-0.5 dB Part-to-Part Repeatability over Temperature 900 MHz

ADL5519 Dual Log Amp KEY SPECIFICATIONS FEATURES
4/19/2017 ADL5519 Dual Log Amp KEY SPECIFICATIONS Bandwidth: 1 kHz - 10 GHz Dynamic Range: 64 dB RF Burst Response Time: 6 ns Stability Over Temperature: ±0.5 dB Package: 5mm×5mm 32-Lead LFCSP FEATURES Power and Gain/VSWR Measurement Outputs Matched Log Amps for Optimum Temperature Stability Measurement Mode and Controller Mode Integrated Temperature Sensor

ADL5513: Wide Dynamic Range Log Amp
KEY SPECIFICATIONS Wide Bandwidth: 1 MHz to 4 GHz 80 dB Dynamic Range (±3 dB) Constant Up To 4 GHz Stability Over Temperature: <±0.5 dB Fast Pulse Response Time: 10 ns Supply Operation: 2.7 to mA Small Footprint Package: 3mm×3mm LFCSP FEATURES Low Noise Measurement / Controller Output Fabricated Using High Speed SiGe Process

ADL5513: Log Conformance at 900MHz
Black: +25°C, Blue: −40°C; Red: +85°C, Orange: +125°C.

Packaging Evolution for RF Detectors
4/19/2017 Packaging Evolution for RF Detectors 3 mm x 4.9 mm 1.0 mm thick μSOIC 60% Decrease 3 mm x 2 mm 0.9 mm thick LFCSP 2 mm x 2.1 mm 0.9 mm thick SC-70 71% Decrease 1.5 mm x 1 mm 0.6 mm thick WLCSP 90% Decrease reduction in footprint & thickness 1 mm x 1 mm 0.6 mm thick WLCSP 93% Decrease

TruPwr™ RMS Detectors Modulation Independent RF Measurements
4/19/2017 TruPwr™ RMS Detectors Modulation Independent RF Measurements Part No. RF Freq (MHz) Dynamic Range (dB) Temp Stability (dB) Voltage Supply (V) Supply Current (mA) Package AD8361 2500 30 ±0.25 1.1 SOT-23, uSOIC-8 ADL5501 4000 ±0.1 1.0 SC-70 AD8362 3800 65 ±1 20 16-Lead SOP AD8363 6000 50 ±0.5 66 LFCSP-16 AD8364 (Dual Channel) 2700 60 72 LFCSP-32

AD8361 TruPwr™ RMS Detector
4/19/2017 AD8361 TruPwr™ RMS Detector KEY SPECIFICATIONS Up to 30 dB Input Range at 2.5 GHz ±0.25 dB Linear Response up to 2.5 GHz Frequency Range: LF GHz Packages: 8-MSOP; 6-SOT23 FEATURES True RMS Responding Power Detector Accurate over 30 dB of Dynamic Range Waveform and Modulation Independent Linear-in-Volts Output

AD8361 Temperature Compensated Accuracy and Dynamic Range
4/19/2017 AD8361 Temperature Compensated Accuracy and Dynamic Range Better than+/-0.5dB accuracy at the top end without temperature drift compensation. Better than +/- 0.4dB of accuracy over temperature with compensation.

ADL5501 TruPwr™ RMS Detector
4/19/2017 ADL5501 TruPwr™ RMS Detector KEY SPECIFICATIONS Up to 30 dB Dynamic Range 0 dB Accuracy and Temperature Stability at the Top End of the Input Power Range Frequency Range: 100 MHz - 4 GHz Package: 2.0mm×2.1mm SC-70 FEATURES True RMS Responding Power Detector Waveform and Modulation Independent Ideal for Measuring Complex Waveforms with Varying Crest Factors (WCDMA, HSDPA, HSUPA, CDMA2000, TD-SCDMA, WiMax). Linear-in-Volts Output

Minimal Error & Wide Frequency Range
4/19/2017 ADL5501 RMS Detector Output and Error vs. Input Level and Across Frequency Minimal Error & Wide Frequency Range Linear in Volts

Region with Near Zero Drift Over Temperature
4/19/2017 ADL5501 RMS Detector Region with Near Zero Drift Over Temperature This shows the temperature variation from room temperature measurements. Calibration at room would result in a temperature error on the order of +/- 0.2dB. The temperature drift at the top end of the measurement range is on the order of +/- 0.1dB. Error from Linear Ref vs. Input Level 1900MHz at -40ºC, +25ºC, +85ºC Error from 25ºC Ref vs. Input Level 1900MHz at -40ºC, +85ºC

4/19/2017 AD8362 TruPwr™ RMS Detector KEY SPECIFICATIONS Dynamic Range: >65 dB Stability Over Temperature: ± 0.5 dB Frequency Range: LF GHz Package: 16-Lead TSSOP FEATURES True RMS Responding Power Detector Waveform and Modulation Independent Linear-in-dB Output

AD8362 TruPwr™ RMS Detector Measurement Error vs. Signal Type
4/19/2017 AD8362 TruPwr™ RMS Detector Measurement Error vs. Signal Type @1.9 GHz, Vtgt = V

4/19/2017 AD8362 TruPwr™ RMS Detector

4/19/2017 AD8363 TruPwr™ RMS Detector KEY SPECIFICATIONS Dynamic Range: >50 900MHz Dynamic Range: > MHz Stability Over Temperature: ± 0.5 dB Frequency Range: LF - 6 GHz Package: 4mmx4mm 16-Lead LFCSP FEATURES True RMS Responding Power Detector Waveform and Modulation Independent Linear-in-dB Output

AD8363 TruPwr™ RMS Detector Dynamic Range and Temperature Stability

AD8364 Dual Channel TruPwr™ Detector
4/19/2017 AD8364 Dual Channel TruPwr™ Detector KEY SPECIFICATIONS Dynamic Range: >60 dB Stability Over Temperature: ± 0.5 dB Frequency Range: LF GHz Package: 5mm×5mm, 32-Lead LFCSP FEATURES Waveform and Modulation Independent Dual Channel and Difference Output Ports Integrated Accurately Scaled Temperature Sensor Linear-in-dB Output

AD8364 RMS-DC Accuracy @ 2140 MHz -40°C to +85°C
4/19/2017 AD8364 RMS-DC 2140 MHz -40°C to +85°C

AD8364 TruPwr™ RMS Detector Measurement Error vs. Signal Type
4/19/2017 AD8364 TruPwr™ RMS Detector Measurement Error vs. Signal Type

High Linearity Mixers/Multipliers
4/19/2017 High Linearity Mixers/Multipliers Part No. RF Freq (MHz) IF Freq (MHz) LO Freq (MHz) Conversion Gain (dB) IIP3 (dBm) P1dB (dBm) NF (dB) Package AD8342 DC LF 3 23 9 11 16-Lead CSP AD8343 DC 7 16.5 2.8 14 14-Lead TSSOP AD8344 4 24 8 ADL5350 LF -7 25 19 8-Lead LFCSP ADL5391 DC Variable 26 15 40 16-Lead LFCSP

AD8342 2.4 GHz Active Mixer KEY SPECIFICATIONS FEATURES
4/19/2017 AD GHz Active Mixer KEY SPECIFICATIONS Bandwidth: DC GHz IIP3: 24 dBm NF: 12 dB Conversion Gain: 3 dB LO Drive: 0 dBm Package: 3mm×3mm 16-Lead LFCSP FEATURES External Control of Mixer Bias for Low Power Operation Power Down Mode Tight Distributions on Key Performance Specs

AD8342 Broadband Performance
4/19/2017 AD8342 Broadband Performance

AD8342 - Tight Distributions on Key Performance Specs
4/19/2017 AD Tight Distributions on Key Performance Specs

AD8343 Broadband Active Mixer
4/19/2017 AD8343 Broadband Active Mixer KEY SPECIFICATIONS Bandwidth: DC MHz IIP3: 16.5 dBm NF: 14.1 dB Conversion Gain: 7 dB LO Drive: -10 dBm Package: 14-Lead TSSOP FEATURES Integrated LO Driver on Chip Ideal for Both Up and Down Conversion

AD8344 1.2 GHz Active Mixer KEY SPECIFICATIONS FEATURES
4/19/2017 AD GHz Active Mixer KEY SPECIFICATIONS RF Bandwidth: MHz IF Port: DC to >400 MHz IIP3: 24 dBm NF: 10.5 dB Conversion Gain: 4.5 dB LO Drive: 0 dBm Package: 3mm×3mm 16-Lead LFCSP FEATURES External Control of Mixer Bias for Low Power Operation Power Down Mode Constant Dynamic Range vs. Frequency

AD8344 Broadband Dynamic Performance
4/19/2017 AD8344 Broadband Dynamic Performance For a 1 Hz Noise Bandwidth Flat Dynamic Range over Frequency. To convert to other noise bandwidth, simply subtract 6.66log10(B) for SFDR, or 10log10(B) for Compressed Dynamic Range.

AD8344 Active Mixer 890 MHz Gain, IIP3, P1dB (Rbias=2.4k)
4/19/2017 AD8344 Active Mixer 890 MHz Gain, IIP3, P1dB (Rbias=2.4k)

4/19/2017 AD8344 Active Mixer – vs. Frequency (IFs of 70 MHz, 100 MHz, 200 MHz and 400 MHz, Rbias=2.4k)

ADL5350 Passive Mixer KEY SPECIFICATIONS FEATURES
4/19/2017 ADL5350 Passive Mixer KEY SPECIFICATIONS Bandwidth: MHz IIP3: 25 dBm NF: 7 dB Conversion Loss: 7dB LO Drive: 6 dBm Package: 3mm×2mm 8-Lead LFCSP FEATURES Low Power/High Linearity Versatile Frequency Range Very Small Footprint

ADL5350 Passive Mixer Performance 850/900 MHz Down Conversion
4/19/2017 ADL5350 Passive Mixer Performance 850/900 MHz Down Conversion

ADL5391 Symmetrical Analog Multiplier
4/19/2017 ADL5391 Symmetrical Analog Multiplier KEY SPECIFICATIONS Frequency Range: DC - 2 GHz Function Synthesis: VW = α× (VX × VY)/1V + VZ Single Supply of 4.5 to 5.5 V Operation Package: 3mm×3mm 16-Lead LFCSP FEATURES Function VW = α× (VX × VY)/1V + VZ Adjustable, Temperature Stable, Gain Scaling, α Fully Differential Input/Outputs or Single Ended Operation High Output Linearity

I/Q Modulators 4/19/2017 Part No. RF Freq MHz IQ BW MHz P1dB dBm OIP3
LO Leakage dBm Sideband Suppression dBc Noise Floor dBm/Hz PWDN ENOP Isy mA Package AD8345 140 to 1000 80 2.5 17 -42 -155 65 TSSOP-16 AD8346 800 to 2500 70 -3 11 -36 -147 45 AD8349 700 to 2700 160 +6 22 -43 -156 135 ADL 300 to 3800 700 +12 27 -40 -158 N/A 200 4x4 LFCSP-24 ADL5375 450 to 6000 500 9.4 24 -161 190 ADL5385 50 to 2200 +11 26 -46 -50 -159 215 ADL5390 20 to 2400 230 +13 23 -41 -51 -150 130

AD8345 140 MHz - 1 GHz I/Q Modulator
4/19/2017 AD MHz - 1 GHz I/Q Modulator KEY SPECIFICATIONS Frequency Range: MHz Modulation Bandwidth: DC - 70 MHz Accuracy: Phase Error: 0.5° Amplitude Error: 0.2 dB Sideband Suppression: -42 dBc Noise Floor: -155 dBm/Hz Package: 16-Lead TSSOP FEATURES Matched 50 Ω Output Low LO Drive Highest Performance IF Modulator

4/19/2017 AD MHz - 1 GHz I/Q Modulator Sideband Suppression vs. Frequency

AD8345 140 MHz - 1 GHz I/Q Modulator Baseband Bandwidth
4/19/2017 AD MHz - 1 GHz I/Q Modulator Baseband Bandwidth

AD8349 Direct I/Q Modulator
4/19/2017 AD8349 Direct I/Q Modulator KEY SPECIFICATIONS Frequency Range: MHz Modulation Bandwidth: DC MHz Accuracy: Phase Error: 0.7° Amplitude Error: 0.1 dB Sideband Suppression: -40 dBc Noise Floor: -156 dBm/Hz P1dB: MHz Package: 16-Lead TSSOP FEATURES Matched 50 Ω Output TxDAC Compatible Baseband Inputs Output Disable Function

AD8349 Direct Conversion IQ Modulator 700 MHz - 2.7 GHz
4/19/2017 AD8349 Direct Conversion IQ Modulator 700 MHz GHz SSB Performance vs. Input Level, 1960 MHz Output Power and Noise Floor vs. Input Level

ADL5370 - 74 Family of RF Quad Modulators
4/19/2017 ADL Family of RF Quad Modulators KEY SPECIFICATIONS Frequency Range: MHz Industry Leading Dynamic Range P1dB: >10 dBm to 3.9 GHz OIP3: MHz Noise Floor: -158 dBm/Hz Carrier Leakage: -40 dBm Sideband Suppression: -40 dBc Modulation Bandwidth: 700 MHz LO Drive: 0 dBm FEATURES A Pin-Compatible Family of 5 IQ Modulators Matched 50 Ω Output TxDAC Compatible Baseband Inputs 0 dB Modulator Gain (No External Baseband Op-Amps Required for High Output Power) Zero IF or Low IF Operation Compliant to GSM, WCDMA, CDMA2000, WiMax and Radiolink Standards ADL5370: 300 MHz – 1 GHz ADL5371: 700 MHz – 1.3 GHz ADL5372: 1.6 GHz – 2.4 GHz ADL5373: 2.3 GHz – 3.0 GHz ADL5374: 3.3 GHz – 3.9 GHz

ADL5370-74 Family of RF Quad Modulators
4/19/2017 ADL Family of RF Quad Modulators High Output Compression and Low Sideband Suppression from 250 MHz to 3.8 GHz

ADL5370-74 Family of RF IQ Modulators Baseband Bandwidth
4/19/2017 ADL Family of RF IQ Modulators Baseband Bandwidth

ADL5372 ACP and Noise vs. Pout @ 2140 MHz
4/19/2017 ADL5372 ACP and Noise vs MHz ACP = dBc at -10 dBm Output Power, Noise = dBm/Hz

4/19/2017 4 Carrier WCDMA – ADL5372 & AD9779 FMOD-2 Four Carrier WCDMA 2.15 GHz, -16 dBm per Carrier, ACPR = -67 dBc, Zero IF

2 Carrier WCDMA – ADL5372 & AD9779 DAC-IF at 96MHz
4/19/2017 2 Carrier WCDMA – ADL5372 & AD9779 DAC-IF at 96MHz FMOD-2 Pout: dBm per Carrier, ACLR: -69 dBc, ALT: -72 dBc

ADL5371 IQ Modulator - Sideband Noise vs. LO Power
4/19/2017 ADL5371 IQ Modulator - Sideband Noise vs. LO Power FMOD-1

GSM/EDGE Performance – ADL5371 IQ Modulator
4/19/2017 GSM/EDGE Performance – ADL5371 IQ Modulator Pout: 5 dBm RMS EVM: 0.5 % LO: 0 dBm SNR: -154 dBc/Hz GSM EVM, Spectral Performance, and 6 MHz Noise Floor vs. LO Power at 940 MHz; Output Power = 6 dBm Quadrature and LO Leakage Uncompensated High Modulator Gain (0 dB) and 0.5 V Bias Level Allows for Direct Connection to TxDAC

4/19/2017 ADL5370: MHz IQ Modulator LO and Sideband Plots Show Multiple Devices

DAC-Modulator Interface
4/19/2017 DAC-Modulator Interface 50 Ω Resistors Set Common Mode Bias 100 Ω Resistor Scales DAC Full Scale Voltage Without Affecting Common Mode

ADL5375 Multi Standard Broadband IQ Modulator
4/19/2017 ADL5375 Multi Standard Broadband IQ Modulator KEY SPECIFICATIONS P1dB:  9.4 dBm from 450 MHz to 4 GHz OIP3: ≥ +22 dBm from 450 MHz to 4 GHz WCDMA ACPR: dBm Pout Noise Floor GHz LO Leakage: -40 dBm to 2 GHz SB Suppression:  -40 dBc to 4 GHz 0 dBm LO Drive – Single Ended Output Return Loss  15 dB from 500 MHz to 4 GHz 450 MHz – 6GHz FEATURES Matched 50 ohm RF output & LO Input 0.5 V or 1.5 dc baseband bias level Output Disable Pin LFCSP-24 (4mm x 4mm)

ADL5375 Broadband IQ Modulator LO Leakage vs. Frequency
vs. Temp and Freq Uncompensated vs. Temp and Freq after nulling at 25 degC

ADL5375 Broadband IQ Modulator Sideband Suppression vs. Frequency
vs. Temp and Freq Uncompensated vs. Temp and Freq after nulling at 25 degC

ADL5375 Broadband IQ Modulator RF Output Return Loss
Output Return Loss (dB)

ADL5375 Broadband IQ Modulator OP1dB vs. Temp & Voltage Gain

ADL5375 Broadband IQ Modulator OIP3 vs. Temp

ADL5375 Broadband IQ Modulator ACPR vs Pout 2140 MHz

ADL5385 Quadrature Modulator
4/19/2017 ADL5385 Quadrature Modulator KEY SPECIFICATIONS Frequency Range: MHz Carrier Leakage: MHz Sideband Suppression: MHz P1dB: MHz OIP3: MHz Baseband Bandwidth: >500 MHz Noise Floor: -159 dBm/Hz Package: 24-Lead LFCSP FEATURES Matched 50 Ω Output TxDAC Compatible Baseband Inputs 2X LO Integrated Temperature Sensor DOCSIS, GSM, WCDMA, CDMA2000, and Radiolink Compliant

ADL5385 Divide-by-Two Quadrature Splitter
4/19/2017 ADL5385 Divide-by-Two Quadrature Splitter A 50% duty-cycle is critical for good quadrature Inversion is realized through crossing of differential signal lines (no delay)

ADL5385 Quadrature Modulator – OP1dB vs. Frequency
4/19/2017 ADL5385 Quadrature Modulator – OP1dB vs. Frequency

ADL5385 Quadrature Modulator – Baseband Bandwidth
4/19/2017 ADL5385 Quadrature Modulator – Baseband Bandwidth

4/19/2017 ADL5385 Quadrature Modulator – LO Leakage Before and After Offset Nulling Uncompensated Multiple Devices Compensated Multiple Devices

4/19/2017 ADL5385 Quadrature Modulator – Sideband Suppression Before and After Offset Nulling Compensated Multiple Devices Uncompensated

ADL5385 Quadrature Modulator – OIP2 and OIP3 vs. Frequency
4/19/2017 ADL5385 Quadrature Modulator – OIP2 and OIP3 vs. Frequency

4/19/2017 ADL5385 Quadrature Modulator – Direct Interface to TxDACs with 0.5 V Bias 39 MHz 5-Pole Chebychev Filter with In-Band Ripple of 0.1 dB Filter Source Impedance = 100 Ohms. Filter Load Impedance = 200 Ohms

ADL5385 Quadrature Modulator – 155 Mbps (STM-1) 128 QAM TRANSMITTER
4/19/2017 ADL5385 Quadrature Modulator – 155 Mbps (STM-1) 128 QAM TRANSMITTER Pout = -6.3 dBm

4/19/2017 ADL5385 Quadrature Modulator – CMTS Direct Launch Downstream Transmitter Application Pout = -14 dBm per carrier 256 QAM 4-Carrier Spectrum at 485 MHz Quadrature and LO Uncompensated

Amplitude Error(dB)/ Phase Error (deg)
4/19/2017 IQ Demodulators Part No. RF Freq (MHz) VGA Range (dB) IQ BW (MHz) Amplitude Error(dB)/ Phase Error (deg) Noise Figure (dBm) P1dB (dBm) IIP3 (dBm) Package AD8347 70 65 0.3/1º 11 -2 +11.5 28-Lead TSSOP AD8348 45 75 0.25/0.5º 21 +14 +26 ADL5382 700 to 2700 NA 500 0.1/0.5º 14 13 30 24-lead LFCSP ADL5387 N/A 240 0.05/0.4º +30 24-Lead ADL5380 12 28

AD8347 Direct I/Q Demodulator
4/19/2017 AD8347 Direct I/Q Demodulator KEY SPECIFICATIONS Frequency Range: 800 MHz GHz Accuracy Quadrature Phase: 1° Typ I/Q Amplitude Balance: 0.3 dB Typ IIP3: 11.5 Min Gain Noise Figure: 11 Max Gain AGC Range: 70 dB Low LO Drive: –8 dBm Package: 28-Lead TSSOP FEATURES Integrated RF and Baseband AGC Amplifiers Baseband Level Control Circuit Power-Down Mode ADC Compatible I/Q Outputs

AD8348 I/Q Demodulator KEY SPECIFICATIONS FEATURES
4/19/2017 AD8348 I/Q Demodulator KEY SPECIFICATIONS Frequency Range: 50 MHz MHz Accuracy Phase Accuracy: 0.5° Amplitude Balance: 0.25 dB Demodulation Bandwidth: 75 MHz IIP3: 28 Min Gain IIP3: –8 Max Gain Noise Figure: 11 Max Gain Package: 28-Lead TSSOP FEATURES Integrated I/Q Demodulator with IF VGA Amplifier Linear-in-dB AGC Range: 44 dB Power-Down Mode Integrated DC Offset-Nulling

ADL5382 700MHz – 2.7GHz Quadrature Demod
4/19/2017 ADL MHz – 2.7GHz Quadrature Demod KEY SPECIFICATIONS Frequency Range: 700MHz to 2.7GHz Wide LO input range -10 to +5dBm IIP3 +28 dBm, IIP2 1950MHz Input P1dB 1950MHz NF MHz LO to RF better than -65dBc Voltage Conversion Gain 5dB Quadrature demodulation accuracy Phase accuracy <0.5° Amplitude balance <0.1 dB Demodulation bandwidth 500 MHz I/Q Drive 2Vpk into 200Ω Package 24-LFCSP FEATURES I/Q demodulators Programmable power consumption

ADL5382 Quadrature Performance

ADL5382 LO to RF Performance 0dBm LO Drive

ADL5387 50 MHz – 2 GHz Quadrature Demod
4/19/2017 ADL MHz – 2 GHz Quadrature Demod KEY SPECIFICATIONS Frequency Range: 50 MHz - 2 GHz LO input at 2xfLO: 100 MHz - 4 GHz IIP3: 30 dBm, IIP2 62 dBm Input P1dB: 14 dBm NF: 13 dB Voltage Conversion Gain: 5 dB Quadrature Demodulation Accuracy Phase Accuracy: <0.5° Amplitude Balance: <0.25 dB LO input: –10 to 5 dBm Demodulation Bandwidth: 280 MHz I/Q Drive 2 Vpk into 200 Ω Package: 24-Lead LFCSP FEATURES I/Q Demodulator Programmable Power Consumption

ADL5387 Dynamic Range Performance

ADL5387 Quadrature Performance

ADL5380 400MHz – 6GHz Quadrature Demod
KEY SPECIFICATIONS Frequency Range: 400MHz to 6GHz Wide LO input range -10 to +5dBm IIP3 +28 dBm, IIP2 2600MHz Input P1dB 2600MHz NF MHz Voltage Conversion Gain 4dB Quadrature demodulation accuracy Phase accuracy <0.5° Amplitude balance <0.1 dB Demodulation bandwidth 500 MHz Package 24-LFCSP FEATURES I/Q demodulator Programmable power consumption

Variable Gain Amplifiers
4/19/2017 Variable Gain Amplifiers Part No. Control Type F3dB (MHz) Gain Range (dB) Step (dB) OIP3 (dBm) NF (dB) Package Comments AD8375/6 Digital 700 -4 to 20 1 dB 50 (200 MHz) 8.3 4x4mm CSP 5x5mm CSP Diff In/Out DGA AD8372 150 -9 to +32 35 (65 MHz) 7.9 5x5 32-LFCSP AD8366 800 4.5 to 20.5 0.25 36dBVrms 10.5 Dual Diff In/Out DGA AD8369 600 -5 to 40 3 dB 20 (70 MHz) 7 TSSOP-16 AD8370 -11 to 34 <1 dB 31 (70 MHz) 7.4 AD8367 Analog 500 -2.5 to 42.5 Control 28 6.2 TSSOP-14 Single Ended In/Out VGA AD8368 -11 to 22 33 (140 MHz) 8 ADL5330 3000 -34 to 22 31 (900 MHz) Tx VGA ADL5592 2400 -50 to 10 29 4.8 6x6 CSP Single Ended In/Out DGA ADL5391 2000 N/A 26 (50 MHz) 40 LFCSP-16 Multiplier

AD8367 LF – 500 MHz VGA with AGC Detector
4/19/2017 AD8367 LF – 500 MHz VGA with AGC Detector KEY SPECIFICATIONS 3 dB Cutoff Frequency: 500 MHz Linear-in-dB Gain Control: –2.5 dB to 42.5 dB Package: 14-TSSOP FEATURES Gain Up and Gain Down Modes Linear-in-dB Precision Attenuator + Fixed Gain Output Amplifier Integrated Square Detector for AGC Mode with RSSI Output

AD8367 VGA: Gain Conformance
4/19/2017 AD8367 VGA: Gain Conformance

AD8368 RF/IF 800 MHz Analog VGA KEY SPECIFICATIONS FEATURES
4/19/2017 AD8368 RF/IF 800 MHz Analog VGA KEY SPECIFICATIONS Wide 3 dB Bandwidth: 800 MHz High OIP3: MHz High OP1dB: MHz Low Noise Figure: 9.5 dB Max Gain Package: 4mm×4mm 24-LFCSP FEATURES Single Ended 50 Ω Input/Output Analog Variable Gain Range: -11 to 22.5 dB Linear-in-dB Scaling: ~35 dB/V Integrated RMS Detector

AD8368 RF/IF 800 MHz Analog VGA Gain and Gain Error
4/19/2017 AD8368 RF/IF 800 MHz Analog VGA Max Gain Gain and Gain Error vs. 380 MHz Vmode=High Noise Figure vs. Vgain Vmode = Low

ADL5330 1 MHz - 3 GHz VGA KEY SPECIFICATIONS FEATURES
4/19/2017 ADL MHz - 3 GHz VGA KEY SPECIFICATIONS Frequency Range: 1 MHz - 3 GHz OIP3: MHz Output Noise Floor: -150 dBm/Hz 50 Ω Differential or Single-Ended Input Gain Control Range: -34 dB MHz Package: 4mm×4mm 24-LFCSP FEATURES Voltage-Controlled Amplifier/Attenuator Optimized for Controlling Output Power Fully-Balanced Differential Signal Path Linear-in-dB Gain Control Function, 20 mV/dB

ADL5330 1 MHz - 3 GHz VGA Gain vs. Gain Control Voltage
4/19/2017 ADL MHz - 3 GHz VGA Gain vs. Gain Control Voltage

4/19/2017 ADL MHz - 3 GHz VGA OIP3, P1dB and Noise Floor vs. 900 MHz

AD8369 IF Digital VGA KEY SPECIFICATIONS FEATURES Package: 16-TSSOP
4/19/2017 AD8369 IF Digital VGA KEY SPECIFICATIONS Bandwidth: 500 MHz Two Tone IMD: MHz 1Vp-p NF: 6.8 Max Gain Differential I/O Impedance: 200 Ω Package: 16-TSSOP FEATURES Digitally Controlled Variable Gain in 3 dB Steps 4-Bit Parallel or 3-Wire Serial Interface Latch Enable Feature

AD8369 IF Digital VGA – Gain vs. Gain Code
4/19/2017 AD8369 IF Digital VGA – Gain vs. Gain Code 70 MHz

AD8372 Dual DGA KEY SPECIFICATIONS FEATURES P1dB: 18 dBm @ 65 MHz
4/19/2017 AD8372 Dual DGA KEY SPECIFICATIONS Bandwidth: 150 MHz Gain Control Range -9 dB to +32 dB P1dB: MHz OIP3: MHz HD MHz HD MHz 1 dB Gain Step Size Noise Figure: 7.9 Max Gain, 65 MHz Package: 5x5 32-LFCSP FEATURES Serial 8-bit Bi-Directional SPI Interface 41 dB Gain Control Range (-9 dB to +32 dB) Meets DOCSIS Specifications for CMTS Power-Down Feature

AD8366 Dual Gain Trim Amplifier
4/19/2017 AD8366 Dual Gain Trim Amplifier KEY SPECIFICATIONS Operating frequency: DC to 500MHz 3dB bandwidth: 800MHz Gain Range: 4.5 dB to 20.5 dB Step 0.25 dB NF 10.5 max. gain, min. gain at 10MHz OIP3 36dBVrms at 10MHz HD2, HD3 > 88dBc for 2Vpp output at 10MHz at max gain Package: 5mmx5mm 32-LFCSP FEATURES Matched Pair of Differential In/Out Digitally-Controlled VGAs Adjustable output common-mode Optional DC output offset correction Serial/Parallel Port Programmable

AD8366: Gain vs Freq for Multiple Gain Codes

AD8366: Linearity, Noise vs Gain at 10MHz

AD8370 Fine Resolution DGA KEY SPECIFICATIONS FEATURES
4/19/2017 AD8370 Fine Resolution DGA KEY SPECIFICATIONS Bandwidth: 750 MHz Differential Input and Output Impedances: Zin = 200 Ω , Zout = 100 Ω P1dB: MHz OIP3: MHz (1k load) OIP3: MHz (100 Ω load) Noise Figure: 7 Max Gain Package: 16-TSSOP FEATURES Serial 8-bit Digital Interface Wide Gain Control Range Linear-in-dB Operation Using Look Up Table Power-Down Feature

AD8370 Fine Resolution DGA: Gain Range
4/19/2017 AD8370 Fine Resolution DGA: Gain Range High Gain Mode Low Gain Mode Fine Step Size at the Higher Gain Settings Allows Precise Signal Leveling Step Size Less Than 1 dB Over -11 to 34 dB Gain Range

AD8370 DGA - Linear-in-dB Gain Code Mapping
4/19/2017 AD8370 DGA - Linear-in-dB Gain Code Mapping Gain Control Can Be Made Linear-in-dB Using Simple Look Up Table

AD8375/6 Single/Dual Programmable DGA
4/19/2017 AD8375/6 Single/Dual Programmable DGA KEY SPECIFICATIONS 3 dB Bandwidth: 700 MHz OIP3: MHz 2nd/3rd Harmonic: -85/ MHz Noise Figure: MHz Differential Input/Output Gain Control Range: -4 dB - 20 dB AD8375 Package: 4mm×4mm 24-LFCSP AD8376 Package: 5mm×5mm 32-LFCSP FEATURES Digitally-Controlled Amplifier/Attenuator Optimized for Driving IF Sampling ADCs Differential or Single-Ended Input Drive Fully-Balanced Differential Signal Path 1 dB Gain Step Size 114

AD8375-6 Single and Dual Programmable DGAs Second and Third Order Distortion vs. Freq
Vout = 2 V p-p

AD8375-6 Single and Dual Programmable DGAs Single-Ended Input Drive
Single-Ended Drive slightly degrades Second Order and Third Order Distortion, requiring more aggressive post-DGA filtering

AD8375-6 Single and Dual Programmable DGAs Differential Drive Configuration and Distortion

AD8375/6 Gain vs. Frequency, All Codes

AD8375/6 Output IP3 vs. Frequency

ADL5592 Tx DGA FEATURES Digitally-Controlled Amplifier/Attenuator
4/19/2017 ADL5592 Tx DGA KEY SPECIFICATIONS Output frequency range: 250 MHz to 2400 MHz Noise figure: 5 dB OIP3 at 1960 MHz: 30.9 dBm 2 digital attenuators, each with 31 dB range 1 dB attenuation step size Single SPI port Single supply: 4.5 V to 5.5 V 40-lead, 6 mm × 6 mm QFN package FEATURES Digitally-Controlled Amplifier/Attenuator Optimized for RF Transmit Applications Loop-back mixer for Tx band to Rx band frequency translation 1 dB Gain Step Size

ADC Drivers Part No. Control Type F3dB (MHz) Gain Range (dB) Gain
4/19/2017 ADC Drivers Part No. Control Type F3dB (MHz) Gain Range (dB) Gain Step (dB) OIP3 (dBm) NF (dB) Package Comments AD8350 Fixed Gain 700 15 / 20 N/A 28 6.8 SO-8/uSO-8 Diff In/Out Gain Block AD8351 Resistor 2200 0 to 26 33 9.5 uSO-10 AD8352 2000 3 to 25 41 15.5 LFCSP-16 AD8375/6 Digital -4 to 20 1 dB 50 (200 MHz) 8.3 4x4mm CSP 5x5mm CSP DGA AD8369 600 -5 to 40 3 dB 20 (70 MHz) 7 TSSOP-16 AD8370 -11 to 34 <1 dB 31 (70 MHz) 7.4 AD8372 150 -9 to +32 35 (65 MHz) 7.9 5x5 32-LFCSP AD8366 800 4.5 to 20.5 0.25 36dBVrms 10.5 Dual DGA

4/19/2017 AD8351 Low Distortion Differential Amplifier Low Distortion, Fully Differential KEY SPECIFICATIONS Bandwidth: 2.2 GHz OIP3: 33 dBm Input Noise: 2.7 nV/√Hz Package: 10-MSOP FEATURES Resistor Programmable Gain Up to 26 dB Adjustable Common Mode Voltage

AD8352 Lowest Distortion Differential Amplifier
4/19/2017 AD8352 Lowest Distortion Differential Amplifier Highest Performance Differential ADC Driver on the Market KEY SPECIFICATIONS Wide 3 dB Bandwidth: 2 GHz Low Distortion 10 MHz: −86 dBc HD2, −82 dBc HD3 70 MHz: −84 dBc HD2, −82 dBc HD3 190 MHz: −81 dBc HD2, −87 dBc HD3 High Linearity: OIP3 150 MHz Low Input Noise: dB Gain Package: 3mm×3mm 16-lead LFCSP FEATURES Single Resistor Sets Gain 3 dB to 25 dB Single Resistor and Capacitor Distortion Adjustment 123 Slide 5 (of 8)

AD8352 Superior Distortion Specs Lower Distortion @ Higher Frequencies
Harmonic Distortion vs. Frequency for 2 V p-p into RL = 1 kΩ, Gain = 10 dB, 5 V Supply, RG = 180 Ω, RD = 6.8 kΩ, CD = 0.1 pF

RF/IF Amplifiers * ** Part No. Description Freq Range (MHz) Gain (dB)
4/19/2017 RF/IF Amplifiers Part No. Description Freq Range (MHz) Gain (dB) OP1dB (dBm) OIP3 ISY (mA) Noise Figure Package AD8353/4* Matched Gain Block 20 9.1/4.8 23/19 41/23 5.3/4.2 3x2 mm LFCSP-8 ADL5320 Driver 17 26 43 104 4.0 SOT-89 ADL5321 14 25 40 84 4.1 ADL5322 Matched Driver 28 45 320 5.0 3x3 mm LFCSP-8 ADL5323 44 ADL5521* LNA 15 22.5 35 65 0.8** ADL5523* 17.5 22 36 1.0** ADL5530* Matched IFA DC 37 110 3.0 ADL5531 41 101 2.7 ADL5534 Dual Matched IFA 42 90 2.5 5x5 mm LFCSP-16 ADL5541 92 3.5 ADL5542 20.6 46 96 2.8 * 3 V Bias Supported Includes External Match **

4/19/2017 AD8353 and AD8354 RF Gain Blocks Silicon Bipolar 50 Ω Input & Output Gain Blocks KEY SPECIFICATIONS Frequency Range: MHz Gain: 20 dB / 20 dB OP1dB: 9 dBm / 5 dBm OIP3: 23 dBm / 19 dBm NF: 5 dB / 4 dB Supply Current: 41 mA / 23 mA Package: 3mm×2mm 8-Lead LFCSP FEATURES Fully Characterized Over Frequency Range Fully Characterized Over Temp –40 to 85°C Output Power Stable Over Temperature <1 dB Excellent Gain Stability Over Temp < 1 dB

ADL5322 & ADL5323 1/2 W Driver Amplifiers
4/19/2017 ADL5322 & ADL5323 1/2 W Driver Amplifiers KEY SPECIFICATIONS Operating Frequencies: MHz, MHz Gain: 20 dB Gain Stable vs. Temp (±1.25 dB) and Freq (±0.25 dB In-Band) Gain Stable vs. Temp (1.25 dB) OIP3: 45 dBm / 43.5 dBm OP1dB: 28 dBm / 28 dBm Noise Figure: 5 dB / 5 dB WCDMA ACPR << -70 dBc FEATURES Internal Active Bias GaAs-Based PA Drivers with Internal Matching Pin-Compatible Family of Devices Small 3mm×3mm 8-Lead LFCSP

ADL5322/5323 1/2 W Driver Amplifiers
4/19/2017 ADL5322/5323 1/2 W Driver Amplifiers ADL5323 ADL5322 ADL5322/23 Gain vs. Frequency and Supply Slide 2 (of 8)

4/19/2017 ADL5322/5323 1/2 W Driver Amplifiers ADL5322/3 Single Carrier WCDMA (Test Model 1-64) ACPR Slide 2 (of 8)

4/19/2017 ADL5322/5323 1/2 W Driver Amplifiers ADL5323 Gain vs. Frequency and Temperature Slide 2 (of 8)

ADL5320 Broadband Driver Amplifier
4/19/2017 ADL5320 Broadband Driver Amplifier KEY SPECIFICATIONS Operating Frequency: MHz Gain: MHz OIP3: MHz OP1dB: MHz Noise Figure: MHz Power Supply: 5 V Power Supply Current: 104 mA Package: SOT-89 FEATURES Internal Active Bias Minimal External Matching Components GaAs-Based PA Driver Pin-Compatible SOT-89 Package

ADL5321 Broadband Driver Amplifier
4/19/2017 ADL5321 Broadband Driver Amplifier KEY SPECIFICATIONS Operating Frequency: MHz Gain: MHz OIP3: MHz OP1dB: MHz Noise Figure: MHz Power Supply: 5 V Power Supply Current: 84 mA Package: SOT-89 FEATURES Internal Active Bias Minimal External Matching Components GaAs-Based PA Driver Pin-Compatible SOT-89 Package

ADL5521 Wideband LNA KEY SPECIFICATIONS FEATURES
Frequency Range: MHz Gain: MHz OP1dB: MHz OIP3: MHz Noise Figure: 0.8 MHz NF Includes External Match 3 to 5.25 V Bias Voltage Range Package: 3mm×3mm 8-Lead LFCSP FEATURES Minimal External Matching Components Temperature and Frequency Stable On-Chip Active Bias, Externally Adjustable via Bias Resistor

ADL5523 Wideband LNA KEY SPECIFICATIONS FEATURES
4/19/2017 ADL5523 Wideband LNA KEY SPECIFICATIONS Frequency Range: MHz Gain: MHz OP1dB: MHz OIP3: MHz Noise Figure: MHz NF Includes External Match 3 to 5.25 V Bias Voltage Range Package: 3mm×3mm 8-Lead LFCSP FEATURES Minimal External Matching Components Temperature and Frequency Stable On-Chip Active Bias, Externally Adjustable via Bias Resistor

ADI LNA Requires Few External Components
1.9nH Coilcraft 220 pF Connector 10 nF 0Ω 82pF 1nF 2 pF 0402 HQ Tuned at 1950MHz, WCDMA 3.3kΩ Three external components needed for matching

ADL5521 LNA Noise Figure

ADL5521 LNA Gain, OIP3, P1dB vs. Freq

ADL5523 LNA Noise Figure

ADL5523 Gain, OIP3, P1dB vs. Freq

ADL5530 DC - 1000 MHz IF Gain Block
4/19/2017 ADL5530 DC MHz IF Gain Block KEY SPECIFICATIONS Frequency Range: DC MHz Gain: MHz OP1dB: MHz OIP3: MHz Noise Figure: MHz Package: 2mm×3mm 8-Lead LFCSP FEATURES Matched 50 Ω Input and Output Temperature and Frequency Stable

ADL5530 High Linearity IF Amplifier
4/19/2017 ADL5530 High Linearity IF Amplifier ADL5530 Gain, Noise Figure and Output Compression vs. Frequency Slide 2 (of 8)

ADL5531 & ADL5534 Single and Dual IFAs
KEY SPECIFICATIONS Frequency Range: 20 MHz to 500 MHz Gain: 20 dB OP1dB: MHz OIP3: MHz Noise Figure: 2.5 dB @ 190 MHz 5 V Current: 101 mA Package: 3mm×3mm 8-LFCSP ADL5534 Package: 5mm×5mm 16-LFCSP ADL5531: 20 dB, Single ADL5534: 20 dB, Dual FEATURES Internal Active Bias Matched 50 Ω Input and Output, Temperature and Frequency Stable

ADL5541 & ADL5542 50 MHz - 6 GHz RF/IF Gain Blocks
4/19/2017 ADL5541 & ADL MHz - 6 GHz RF/IF Gain Blocks KEY SPECIFICATIONS Frequency Range: 50 MHz - 6 GHz Gain: 15 dB / 20 dB OP1dB: 19.9 dBm / MHz OIP3: 44 dBm / MHz Noise Figure: 3.5 dB / MHz 5 V Current: 92 mA/92 mA Package: 3mm×3mm 8-Lead LFCSP FEATURES Matched 50 Ω Input and Output Temperature and Frequency Stable

ADL5541/42 DC - 6 GHz RF/IF Gain Blocks
4/19/2017 ADL5541/42 DC - 6 GHz RF/IF Gain Blocks ADL5541 ADL5542

PA Linearization Vector Modulators Gain/Phase Detector
4/19/2017 PA Linearization Vector Modulators Part No RF Freq (MHz) IQ Bandwidth (MHz) Noise Floor (dBm/Hz) P1dB (dBm) Power Supply (mA) Package AD8340 230 -149 11 130 24-Lead CSP AD8341 -151 8.5 ADL5390 -150 +13 Gain/Phase Detector Part No RF Freq (MHz) Dynamic Range (dB) Accuracy (dB) Response Time (ns) Package Comments AD8302 DC 60 ±1 14-Lead TSSOP Dual Channel Gain and Phase Detector ADL5519 ,000 ±0.5 <10 24-Lead LFCSP Dual Channel Gain Detector RF/IF Multiplier Part No RF Freq (MHz) Dynamic Range (dB) Accuracy (dB) Response Time (ns) Package Comments ADL5391 DC 60 ±0.2 14-lead TSSOP RF/IF Multiplier

AD8302 – Gain / Phase Detector
4/19/2017 AD8302 – Gain / Phase Detector KEY SPECIFICATIONS Frequency Range: LF GHz Gain Range: 60 dB, 30 mV/dB, 0 to 1.8 V Phase Range: 180°, 10 mV/deg, 0 to 1.8 V Package: 14-TSSOP FEATURES Matched Log Amps for Temperature Stability Measurement and Control of Gain or VSWR

AD8302 – Gain/Phase Detector Gain and Phase Transfer Functions
4/19/2017 AD8302 – Gain/Phase Detector Gain and Phase Transfer Functions

AD8302 Gain/Phase Detectors for RF/IF Measurements
4/19/2017 AD8302 Gain/Phase Detectors for RF/IF Measurements OUT LA AD8302 System Gain Calibration Independent of the Actual Power Levels System Block Can Be a Frequency Converter SYSTEM BLOCK + F S log(A/B) LB - IN LOAD LA AD8302 RF Return Loss Independent of Power Level + COUPLERS F S log(A/B) LB - SOURCE

AD8340 and AD8341 Vector Modulator
4/19/2017 AD8340 and AD8341 Vector Modulator KEY SPECIFICATIONS RF Bandwidth: 0.7 – 1.0 GHz / 1.5 – 2.4 GHz Gain Control Range: -32 dB to -2 dB Phase Control Range: Continuous 360° Output IP3: 24 dBm / 22 Max Gain Output Noise: -149 dBm / -151 Hz Package: 4mm×4mm 24-Lead LFCSP FEATURES Amplitude and Phase Modulator Inputs Modulation by Cartesian I and Q Output Power Disable Function: 40 dB, 10 ns

Advantages of Using Vector Modulator
4/19/2017 Advantages of Using Vector Modulator A q Min Gain = -30 dB +0.5 -0.5 Max Gain = 0 dB Nominal 0 dB Minimum Insertion Loss Continuous Coverage of Gain / Phase Convenient, High speed I & Q Interfaces Operation Off a Single 5 V Supply Single Package Solution

AD8340 Vector Modulator – Gain and Phase Control
4/19/2017 AD8340 Vector Modulator – Gain and Phase Control 880 MHz 30 dB Gain Control Range 360° Phase Control Range

ADL5390 RF / IF Vector Multiplier
4/19/2017 ADL5390 RF / IF Vector Multiplier KEY SPECIFICATIONS Bandwidth: 20 MHz GHz Continuous Amplitude Control: +5 to –30 dB Wideband 230 MHz Cartesian Interface OIP3: 25 dBm OP1dB: 13 dBm Output Noise Floor: –150 dBm/Hz Package: 4mm×4mm 24-Lead LFCSP FEATURES Vector Modulator Without 90o Phase Splitter Output Switch Disable 40 dB, 10 ns

PLL Types Part Type RF Freq (MHz) Applications Discrete Integer-N
Local Oscillator, Clocking Discrete Fractional-N Narrowband LO, Fine Resolution Integrated Integer-N & VCO Low Cost LO and Clocking Applications Integrated Fractional-N & VCO Wideband LO Evaluation Tools Details of Tools to Support Design-In

PLL Performance Issues
4/19/2017 PLL Performance Issues Lock Time, Close-In Phase Noise, Reference Spurs, Loop Stability? Sets Min Frequency, Phase Noise? Channel Spacing, Spurious Tones, Close-In Phase Noise Tuning Sensitivity, Polarity, Frequency Range, Phase Noise? Gain, Leakage, Settling Time, Spurs? Divide Capabilities? Reference Phase Detector Charge Pump Loop Filter R VCO Top level overview of what the parts of the synthesiser circuit that primarily effect the circuit performance. The reference (for int-N PLL) effectively sets the channel spacing and the frequency resolution. The offset frequencies that spurious signals are see at is a function of the reference frequency The R-divider sets the PFD frequency (the frequency at which the phase comparisons are made) 3. Phe phase detector limits the min imum frequency at which the circuit can operate 4. The charge pump effects the gain, leakage and the dead zone. 5. The loop filter has a significan effect on the lock time, clos in phase noise, level of reference spurs and overall loop stability. 6. The VCO effects the tuning sensitivity of the system, and far out phase noise. 7. The prescaler effects the maximum frequency at which the PLL will successfully operate. N PLL Input Frequency, Sensitivity? Prescaler Values?

Discrete Integer-N Part No. Max RF Freq (MHz) 2nd Source Current (mA)
Normalized In-Band Phase Noise (dBc/Hz) Current (mA) Applications Package ADF4002 400 Proprietary -222 5 Clocking Applications 16-TSSOP / 20-LFCSP ADF4106 6000 -219 13 Best Integer-N Phase Noise ADF4107 7000 ADF4108 8000 15 20-LFCSP ADF4116 550 LMX2306 -211 4.5 6 dB Improvement vs. LMX Part ADF4117 1200 LMX2316 -213 ADF4118 3000 LMX2326 -216 6.5 ADF4113HV 4000 -212 8.5 15 V Charge Pump for Wideband Applications ADF4212L 2400 -214 12 Dual Channel PLL for RF/IF Generation 20-TSSOP / 20-LFCSP

Integer-N PLL Synthesizer
4/19/2017 Integer-N PLL Synthesizer f RF 20log10(N) ÷ N FPFD PFD Charge pump RF 200 kHz N=9000 N=9001 1800 MHz MHz PFD Noise RF Noise RF = N x FPFD N Restricted to Be an Integer Number (eg. 1000, 1678, Cannot Be ) RF Frequency Resolution Restricted to FPFD Large N => Large Phase Noise Gain Inside Loop Bandwidth 20log(9000)=79 dB Negative feedback ensures the output frequency is N times the comparison frequency 2. The divider is restricted to be an integer number. Also the resolution is restricted to be the PFD. 3. For large N this means a large increase in Phase noise inside the lopp BW This means that the 3

ADF4002 Main Features KEY SPECIFICATIONS FEATURES
RF Bandwidth: 5 – 400 MHz Phase Noise: -110 dBc/Hz at 400 MHz, 1 MHz PFD Frequency. Normalized Phase Noise: -222 dBc/Hz Package: 4x4mm 20-LFCSP, 16-TSSOP FEATURES Programmable Charge Pump Currents Analog & Digital Lock Detect Programmable Prescaler Values Low Division Ratios Permitted Hardware and Software Compatible to ADF4001

ADF4002 Phase Noise & Spurious
Note: Output Frequency = 400 MHz, PFD = 1 MHz, Loop Filter B/W = 50 kHz

ADF4106 Main Features KEY SPECIFICATIONS FEATURES
RF Bandwidth: 0.5 – 6.0 GHz Phase Noise: -93 dBc/Hz (FOUT 900 MHz, PFD = 200 kHz). Normalized Phase Noise: -219 dBc/Hz Package: 4x4mm 24-LFCSP, 16-TSSOP FEATURES Programmable Charge Pump Currents Analog & Digital Lock Detect Programmable Prescaler Values

Note: Output Frequency = 900 MHz, PFD = 200 kHz, Loop Filter B/W = 20 kHz

ADF4106 Frequency Sensitivity
Note: Open Loop Sensitivity Test

ADF4107 Single Channel Integer-N PLL
KEY SPECIFICATIONS RF Bandwidth: 0.5 – 7.0 GHz Phase Noise: -83 dBc/Hz (FOUT 6400 MHz, PFD = 1 MHz). Normalized Phase Noise: -219 dBc/Hz Package: 4x4mm 24-LFCSP, 16-TSSOP FEATURES Programmable Charge Pump Currents Analog & Digital Lock Detect Programmable Prescaler Values

4/19/2017 ADF4107 Phase Noise & Spurious Note: Output Frequency = 6400 MHz, PFD = 1 MHz, Loop Filter B/W = 100 kHz

4/19/2017 ADF4108 Single Channel Integer-N PLL KEY SPECIFICATIONS RF Bandwidth: 0.5 – 8.0 GHz Phase Noise: -81 dBc/Hz (FOUT 7900 MHz, PFD = 1 MHz). Normalized Phase Noise: -219 dBc/Hz Package: 4x4mm 24-LFCSP FEATURES Programmable Charge Pump Currents Analog & Digital Lock Detect Programmable Prescaler Values

4/19/2017 ADF4108 Phase Noise & Spurious Note: Output Frequency = 7900 MHz, PFD = 1 MHz, Loop Filter B/W = 100 kHz Note: PFD Spurs Dominated by Varactor Leakage on VCO Used

4/19/2017 ADF4118 Single Channel Integer-N PLL KEY SPECIFICATIONS RF Bandwidth: 0.1 – 3.0 GHz Phase Noise: -90 dBc/Hz (FOUT 900 MHz, PFD = 200 kHz). Normalized Phase Noise: -216 dBc/Hz Package: 16-TSSOP FEATURES Pin Compatible to LMX2326, with 6 dB Improvement in Phase Noise

4/19/2017 ADF4118 Phase Noise & Spurious Note: Output Frequency = 900 MHz, PFD = 200 kHz, Loop Filter B/W = 20 kHz

ADF4113HV Single Channel Integer-N PLL with High Voltage Charge Pump
4/19/2017 ADF4113HV Single Channel Integer-N PLL with High Voltage Charge Pump KEY SPECIFICATIONS RF Bandwidth: 0.2 – 4.0 GHz Phase Noise: -86 dBc/Hz (FOUT 1800 MHz, PFD = 1 MHz). Normalized Phase Noise: -212 dBc/Hz Package: 16-TSSOP FEATURES High Voltage Charge Pump Eliminates Need for Op-Amp in Wideband Designs Extended VP to 15 V

ADF4113HV Phase Noise & Spurious
4/19/2017 ADF4113HV Phase Noise & Spurious Note: Output Frequency = 1800 MHz, PFD = 1 MHz, Loop Filter B/W = 20 kHz

Discrete Fractional-N
Part No. Max RF Freq (MHz) 2nd Source Normalized In-Band Phase Noise (dBc/Hz) Current (mA) Applications Package ADF4153 4000 Proprietary -213 12 Pin Compatible with ADF4106 16-TSSOP / 20-LFCSP ADF4154 ADF4153 with Speed Up Circuit ADF4156 6000 -211 26 6 GHz Fractional-N Operation ADF4157 -207 23 25-bit Modulus Permits Sub-Hz Resolution. Best in Class Phase Noise ADF4193 3500 -216 68 Ultra-Fast Settling PLL for GSM Base-Stations 20-LFCSP ADF4252 3000 -214 Dual-Channel PLL for RF/IF Generation. 20-TSSOP / 20-LFCSP

Fractional-N PLL Synthesizer
4/19/2017 Fractional-N PLL Synthesizer RF 1800 MHz MHz PFD Noise ÷ N FPFD PFD Charge pump RF 10 MHz N=180 0/50 N=180 1/50 RF Noise 20log10(N) f RF = N x FPFD N=(Int+Frac/Mod) RF Frequency Resolution Not Restricted to FPFD Smaller N => Smaller Phase Noise Gain Inside Loop Bandwidth 20log(180)=45 dB Slide 3 3

ADF4153 Single Channel Fractional-N PLL
4/19/2017 ADF4153 Single Channel Fractional-N PLL KEY SPECIFICATIONS RF Bandwidth 0.5 – 4.0 GHz Phase Noise: dBc/Hz (FOUT 1.72 GHz, PFD = 25 MHz) Normalized Phase Noise: -213 dBc/Hz Spurious Performance: -71 dBc (FOUT 1.72 GHz, PFD = 25 MHz) Package: 4x4mm 24-LFCSP, 16-TSSOP FEATURES Programmable Modulus (Fractional Denominator) Noise & Spur Optimization Modes Pin Compatible with ADF411x Integer-N Family Phase Re-Sync for Spurious Consistency

4/19/2017 ADF4153 Phase Noise & Spurious Low Noise Mode Low Spur Mode Output = GHz, PFD = 25 MHz, Loop Filter = 20 kHz

4/19/2017 ADF4154 Single Channel Fractional-N PLL KEY SPECIFICATIONS RF Bandwidth 0.5 – 4.0GHz Phase Noise: dBc/Hz (FOUT 1.72 GHz, PFD = 25 MHz) Normalized Phase Noise: -213 dBc/Hz Spurious Performance: -71 dBc (FOUT 1.72 GHz, PFD = 25 MHz) Package: 4x4mm 20-LFCSP, 16-TSSOP FEATURES Fast-Lock Mode Offers Speed Improvement Over ADF4153 Programmable Modulus (Fractional Denominator) Noise & Spur Optimization Modes Pin Compatible with ADF411x Integer-N Family Phase Re-Sync for Spurious Consistency

4/19/2017 ADF4154 Phase Noise & Spurious Low Noise Mode Low Spur Mode Output = GHz, PFD = 25 MHz, Loop Filter = 20 kHz

Fast-Lock Mode Using Speed-Up Timer
ADF4154 Fast-Lock Fast-Lock Mode Using Speed-Up Timer

4/19/2017 ADF4156 Single Channel Fractional-N PLL KEY SPECIFICATIONS RF Bandwidth: 0.5 – 6.0 GHz Phase Noise: -89 dBc/Hz (FOUT 5.8 GHz, PFD = 25 MHz) Normalized Phase Noise: -211 dBc/Hz Spur Performance, -76 dBc (FOUT 5.8 GHz, PFD = 25 MHz) Low Spur Mode Package: 4x4mm 20-LFCSP, 16-TSSOP FEATURES Fast-Lock Mode Using Cycle Slip Reduction Programmable Modulus (Fractional Denominator) Noise & Spur Optimization Modes Pin Compatible with ADF411x Integer-N Family Phase Re-Sync for Spurious Consistency

4/19/2017 ADF4156 Phase Noise & Spurious Low Noise Mode Low Spur Mode Output = MHz, PFD = 25 MHz, Loop Filter = 20 kHz

Fast-Lock Mode Using Speed-Up Timer
ADF4156 Fast-Lock Fast-Lock Mode Using Speed-Up Timer

4/19/2017 ADF4157 Single Channel Fractional-N PLL KEY SPECIFICATIONS RF Bandwidth: 0.5 – 6.0 GHz Phase Noise: -87 dBc/Hz (FOUT 5.8 GHz, PFD = 25 MHz) Normalized Phase Noise: -211 dBc/Hz Package: 4x4mm 20-LFCSP, 16-TSSOP FEATURES Fixed 25-bit Modulus Allow Sub-Hz Resolution Fast-Lock Mode Including Cycle Slip Reduction Pin Compatible with ADF411x Integer-N Family

Output = 5800.25 MHz, PFD = 25 MHz, Loop Filter = 20 kHz
4/19/2017 ADF4157 Phase Noise Output = MHz, PFD = 25 MHz, Loop Filter = 20 kHz

Fast-Lock Mode Using Cycle Slip Reduction
ADF4157 Fast-Lock Fast-Lock Mode Using Cycle Slip Reduction

ADF4193 Ultra Fast-Lock Fractional-N PLL
4/19/2017 ADF4193 Ultra Fast-Lock Fractional-N PLL KEY SPECIFICATIONS RF Bandwidth: 0.4 – 3.5 GHz Frequency Hop Across GSM Band in 20 us. Phase Noise: dBc/Hz (FOUT 900 MHz, PFD = 26 MHz) Normalized Phase Noise: -216 dBc/Hz Package: 5x5mm 32-LFCSP FEATURES Ultra Fast PLL Eliminates Ping-Pong Architecture in GSM Base-Station LO Meets GSM Noise and Spur Requirements < 0.5° RMS Phase Error at 2 GHz RF Output Digitally Programmable Output Phase < 1° Resolution on 2 GHz Output

ADF4193 Phase Noise and Spurs
4/19/2017 ADF4193 Phase Noise and Spurs Spurs DCS 1800 Tx Setup (Across Band) Phase Noise, GSM900 Rx Setup Output = MHz, PFD = 26 MHz, Loop Filter = 40 kHz Spur Measured Across DCS1800 Tx Bands PFD = 26 MHz, Loop Filter = 40 kHz

ADF4193 Fast-Lock ADF4193 New Architecture for Fast Settling
Frequency Settling Phase Settling ADF4193 New Architecture for Fast Settling 5 μs to Hop Across 75 MHz Frequency Step Phase Settled Within 20 μs

Integrated Integer-N and VCO
Part No. Max RF Freq (MHz) 2nd Source VCO Phase 100 kHz Offset (dBc/Hz) Current (mA) Divide by Two Inductor Package ADF4360-0 Proprietary -110 Yes Internal 24-LFCSP ADF4360-1 ADF4360-2 ADF4360-3 ADF4360-4 ADF4360-5 ADF4360-6 ADF4360-7 -116 External L Sets Actual Range ADF4360-8 -120 20 to 40 No ADF4360-9 Programmable At DIVOUT (2-31)

ADF4360-0 Integrated PLL & VCO
4/19/2017 ADF Integrated PLL & VCO KEY SPECIFICATIONS RF Bandwidth: 2400 – 2725 MHz VCO Phase Noise: kHz offset (FOUT 2.6 GHz) Normalized In-Band Phase Noise: -216 dBc/Hz Package: 4x4mm 24-LFCSP FEATURES Output Divide by Two Programmable Output Power Mute Output While Locking

ADF4360-0 Noise & Spur Performance
4/19/2017 ADF Noise & Spur Performance Note: Output Frequency = 2.6 GHz, PFD = 200 kHz, Loop Filter B/W = 10 kHz

4/19/2017 ADF Integrated PLL & VCO KEY SPECIFICATIONS RF Bandwidth: 1150 – 1400 MHz, (Over Different Generics) VCO Phase Noise: kHz offset (FOUT 1.8 GHz) Normalized In-Band Phase Noise: -216 dBc/Hz Package: 4x4mm 24-LFCSP FEATURES Output Divide by Two Programmable Output Power Mute Output While Locking

4/19/2017 ADF Integrated PLL & VCO KEY SPECIFICATIONS RF Bandwidth: 1000 – 1200 MHz, (Over Different Generics) VCO Phase Noise: kHz offset (FOUT 1.8 GHz) Normalized In-Band Phase Noise: -216 dBc/Hz Package: 4x4mm 24-LFCSP FEATURES Output Divide by Two Programmable Output Power Mute Output While Locking

4/19/2017 ADF Integrated PLL & VCO KEY SPECIFICATIONS RF Bandwidth: 350 – 1800 MHz, (Depending on Inductor) VCO Phase Noise: kHz offset (FOUT 500 MHz) Normalized In-Band Phase Noise: -216 dBc/Hz Package: 4x4mm 24-LFCSP FEATURES Output Divide By Two Programmable Output Power Mute Output While Locking

4/19/2017 ADF Noise & Spur Performance Note: Output Frequency = 500 MHz, PFD = 200 kHz, Loop Filter B/W = 10 kHz

ADF Frequency Range Note: Graph Displays Maximum and Minimum Frequency with a Given Inductor

4/19/2017 ADF Integrated PLL & VCO KEY SPECIFICATIONS RF Bandwidth: 65 – 400 MHz, (Depending on Inductor) VCO Phase Noise: kHz offset (FOUT 160 MHz) Normalized In-Band Phase Noise: -216 dBc/Hz Package: 4x4mm 24-LFCSP FEATURES Programmable Output Power Mute Output While Locking

ADF4360-8/9 Noise & Spur Performance
4/19/2017 ADF4360-8/9 Noise & Spur Performance Note: Output Frequency = 160 MHz, PFD = 1 MHz, Loop Filter B/W = 100 kHz

ADF4360-8/9 VCO Frequency Range
Note: Graph Displays Maximum and Minimum Frequency with a Given Inductor

ADF4360-9 Clock generator PLL
KEY SPECIFICATIONS RF Bandwidth: 2 – 200MHz (using programmable divider at DIVOUT). Typical Jitter at DIVOUT ~1.4ps. VCO frequency set by external inductors. VCO Phase Noise: kHz offset (FOUT 160 MHz) Normalized In-Band Phase Noise: -216 dBc/Hz Package: 4x4mm 24-LFCSP FEATURES Programmable Output Power Mute Output While Locking

Jitter performance at DIVOUT
Integrated RMS Jitter = 1.4 ps, A = 3. Divide by A/2 Selected. Note: DIVOUT Phase Noise, 52 MHz, VCO Frequency = 312 MHz, PFD Frequency = 1.6 MHz, Loop Bandwidth = 40 kHz.

ADF4350 Features (Part In Development)
4/19/2017 ADF4350 Features (Part In Development) Output Frequency Range: 135 MHz to 4.35 GHz Fractional-N Synthesizer and Integer-N Synthesizer Programmable Dual-Modulus Prescaler of 4/5 or 8/9 Hardware and Software Power-Down Mode Programmable Divide-by-1/2/4/8 or 16 Output Programmable Output Power Level Low Phase Noise VCO 3.0 V to 3.6 V Power Supply 1.8 V Logic Compatible RF Output Mute Function 3-Wire Serial Interface Analog and Digital Lock Detect Fast-Lock Mode Cycle Slip Reduction Technique Slide NOTE: Help the field to keep the messages clean and clear to customers, and add speaker notes for their use. Include at least major bullet points to be used as discussion points with customers during a presentation. —Analog Devices Confidential Information—

ADF4350 Phase Noise

Key RFL PLL Products Converter Clocking Ultra-Speed Improvement
4/19/2017 Key RFL PLL Products Converter Clocking ADF4001 Int-N 200MHz ADF4113 Int-N 4GHz Better Phase Noise and Wider Frequency ADF4106 Int-N 6GHz Phase Noise/Speed/Resolution Improvement Size/Cost Improvement ADF4360-X Int-N +VCO 2.7GHz ADF4153 Frac-N 4GHz ADF4193 Frac-N 3.5GHz Ultra-Speed Improvement

Evaluation Boards Evaluation Boards Available for All Products
4/19/2017 Evaluation Boards Evaluation Boards Available for All Products Test the Real Performance of our PLLs User Friendly Driver Software Available From

ADIsimPLL VERSION 3.0 NOW RELEASED! Over 15,000 downloads so far……
4/19/2017 ADIsimPLL VERSION 3.0 NOW RELEASED! Over 15,000 downloads so far…… PLL Synthesizer DESIGN AND SIMULATION SOFTWARE ADIsimPLL software (available free-of-charge from our Website) has been developed exclusively for the sole purpose of optimizing PLL circuits, making it faster and easier to accomplish individual designs. ADIsimPLL contains a library of embedded tools and options to improve PLL circuit design accuracy, and reduce time to market.

Contacts: Applications and Marketing
4/19/2017 Contacts: Applications and Marketing Applications LOG AMPS, RF AMPLIFIERS: Jim Bedrosian: LOW NOISE AMPLIFIERS, DGAs: Steve Reine: LOW RANGE RMS DETECTORS, ADC DRIVERS: Carlos Calvo: VARIABLE GAIN AMPLIFIERS, Passive Mixers: Rui Liu: IQ DEMODULATORS, ACTIVE MIXERS: Rakesh Soni: IQ MODULATORS: Yuping Toh: MULTIPLIERS, VECTOR MOD, DUAL DETECTORS, HIGH RANGE RMS DETECTORS: Larry Hawkins: PLL Products: Ian Collins: Marketing Brenda Bassett: PLL Marketing Mike Mullins:

4/19/2017 DDS Synthesizers

A Complete Family of Optical Log Converters
4/19/2017 A Complete Family of Optical Log Converters AD8304 AD8305 ADL5306 ADL5310 Measurement 160 dB 100 dB 60 dB Range Accuracy ± 0.1 dB Power Supply 3 V, 5 V 3 V – 12 V 3 V V Package 14-pin TSSOP 3 x 3mm CSP 4 x 4mm CSP Architecture Translinear Log Amp Dual Translinear Log Amp

ANALOG.COM Website Your One Stop Source for Information
4/19/2017 ANALOG.COM Website Your One Stop Source for Information SEARCH FOR PARTS

Finding RF/IF Components on the Website
4/19/2017 Finding RF/IF Components on the Website SELECT BY CATEGORY Order Samples online

Usually the first few results in Google: search by part #s or category
4/19/2017 Keep in Mind…. Usually the first few results in Google: search by part #s or category Contact Salesperson/Product Line for Applications Help Order Samples on the Web Order Evaluation Boards for Any of our RFICs Thank you!

Analog Devices Overview
4/19/2017 Analog Devices Overview INTERNATIONAL Australia Austria Canada China Denmark India Ireland Israel Japan England Scotland UNITED STATES Arizona California Massachusetts North Carolina New Jersey Oregon Texas Utah Washington New Hampshire FY2004 Revenue of $2.64 Billion Over 10,000 Products Selling to More than 60,000 Customers in All Electronics Market Segments

4/19/2017 AD8318 Block Diagram

ADL5519 Block Diagram

4/19/2017 ADL5350 Block Diagram

4/19/2017 ADL Block Diagram

AD8372 Block Diagram

AD Block Diagram

4/19/2017 AD8352 Block Diagram Harmonic Tuning Elements

AD8345 Block Diagram

4/19/2017 ADL5322/23 Block Diagram

ADF7012 Block Diagram

ADF7020 Block Diagram

ADF7021 Block Diagram SD Modulator CP LF 1-D2 Div 2 Or 4 Div 2/3/4 FSK
Index CP LF 1-D2 Shaping Mux Div 2 Or 4 Div 2/3/4 FSK Demod Precoder Viterbi Detector Threshold Symbol Timing Recovery 2FSK 4FSK Bit-Sym Map IF BW Coarse/Fine Cal Log Amp RSSI IR 3FSK R-Cosine or Gaussian Tx Filter AFC Ext L Tx/Rx Control Limiter PA LNA PFD Tx Data Clk Rx AGC IR Cal Source Tx/Rx I/O Control 7-Bit ADC Temp Sensor

Transmitter Daughter Boards
Board Name Band EVAL-ADF7012DBZ1 902 – 928 MHz EVAL-ADF7012DBZ2 862 – 870 MHz EVAL-ADF7012DBZ3 426 – 445 MHz EVAL-ADF7012DBZ4 310 – 320 MHz EVAL-ADF7012DBZ5 Matching/XTAL/PLL filter not inserted EVAL-ADF790xEBZ 369 – 395 MHz ADF7901/2 kit EVAL-ADF7010EB1 EVAL-ADF7011EB1 EVAL-ADF7011EB2

Transceiver Daughter Boards 1
Board Name Band EVAL-ADF7020DBZ1 902 – 928 MHz EVAL-ADF7020DBZ2 862 – 870 MHz EVAL-ADF7020DBZ3 433 – 445 MHz EVAL-ADF7025DBZ1 862 – 928 MHz EVAL-ADF7020-1DBZ4 402 – 435 MHz EVAL-ADF7020-1DBZ5 Matching/XTAL/PLL filter not inserted EVAL-ADF7020-1DBZ6 470 – 510 MHz EVAL-ADF7020-1DBZ7 310 – 340 MHz EVAL-ADF7020-1DBZ8 128 – 142 MHz

Transceiver Daughter Boards 2
Board Name Band EVAL-ADF7021DBZ2 862 – 870 MHz (Can use at 929MHz) EVAL-ADF7021DBZ3 431 – 470 MHz EVAL-ADF7021DBZJ 426 – 429 MHz EVAL-ADF7021DBZ5 Matching/XTAL/PLL filter not inserted EVAL-ADF7021DBZ6 608 – 614 MHz (WMTS in US) EVAL-ADF7021-NDBEZ 424 – 429 MHz (external L) EVAL-ADF7021-NDBIZ 424 – 429 MHz (internal L) EVAL-ADF7021-NDBZ2 EVAL-ADF7021-NDBZ5

Short Range Device (SRD) Portfolio
Part Type RF Freq (MHz) Channel BW (kHz) Low Cost Tx and Rx 369 – 433 200 Medium-Bandwidth TRx Narrow Bandwidth TRx 9 - 25 2.4GHz TRx 2400 – 500 – 2600 Evaluation Tools Details of Tools to Support Design-In

Low Cost Tx & Rx Products
4/19/2017 Low Cost Tx & Rx Products Part ID Region Band Details Availability ADF7012 (2nd Gen.) WW (incl. Japan/ China/S.Korea 75MHz – 1GHz Tx. Data rate 0.1 to 200kbps, Improved Power Efficiency & Phase Noise. Wide frequency range. Use ADF7020 TRx for companion Rx function. Released ADF7901 N.America 369.5MHz – 395.9MHz Tx. Transmitter companion to ADF7902. Simple programming for remote control apps. No programming interface. ADF7902 Rx. Receiver companion to ADF7901. ADF7903/04 Europe, China 430MHz – 434MHz Tx & Rx companion parts, similar to ADF7901/02 but designed to operate at different frequencies Pending customer input All of the products listed in this table are fully released and in production. The ADF7012 is very popular in applications requiring a 1-way Transmit type of RF communication. This Transmit signal is usually picked up by one of our Transceiver products like the ADF7020 which I will cover later in the presentation. The ADF7012 supports all Worldwide Frequency Bands in the Sub-1GHz space with data rates up to 200kbps. The ADF7901 and ADF7902 are a Transmit / Receive Pair used in STB Remote Control applications within a narrow Frequency Band shown in the table. We have other parts in development that can be retuned to operate at different frequencies.

ADF7012 Low Cost Multi-channel Transmitter
4/19/2017 ADF7012 Low Cost Multi-channel Transmitter Key Specs: 75MHz – 1GHz Operation using external VCO inductor Low Current 868MHz, +10dBm, 21mA 0dBm, 14mA Output Power -20 to +14dBm Example Application: RF remote control Key Features: PA ramping Programmable Deviation Frequency 1kHz to 300kHz Modulation FSK, GFSK, OOK or G-ASK Bias Currents – Trade Performance Vs Battery Life Block Diagram link The Frequency Range of the ADF7012 can be adjusted easily using an external Inductor to cover 75MHz to 1GHz. It is used in Battery Powered applications due to it’s low power supply current. Output Power ranges from -20 to +14dBm. It supports Freq Shift Keying , Gaussian FSK, On Off Keying or Gaussian Amplitude Shift Keying. Using different Bias Currents, the RF performance can be traded off against Battery Life.

ADF7901 UHF Transmitter Features: Availability: Evaluation Board:
Frequency Range: 369.5MHz to 395.9MHz 9 Channels (Pin Selectable) Modulation Schemes: FSK (FDEV: 35kHz) OOK Data Rates: DC to ~50kbps Package: TSSOP-24 Temperature Range: -40ºC to +85ºC Availability: Released Evaluation Board: EVAL-ADF7901EB ADF790XEBZ Evaluation Kit

ADF7902 UHF Receiver Features: Availability: Evaluation Board:
ADF7901 Companion Rx Frequency Range: 369.5MHz to 395.9MHz 8 Channels (Pin Selectable) Modulation Scheme: FSK (FDEV: 35kHz) Data Rates: 2kbps Sensitivity: 2kbps Package: TSSOP-24 Temperature Range: -40ºC to +85ºC Availability: Released Evaluation Board: ADF790XEBZ Evaluation Kit

Medium-Band TRx Products
4/19/2017 Medium-Band TRx Products Part ID Channel BW Freq. Band Details Relevant Standards ADF7020 Medium MHz MHz TRx. Data rate < 200kbits/s, IF BW=100k/150k/200k EN FCC Pt ADF7020-1 80MHz-650MHz TRx. External Inductor version of ADF7020 Licensed and unlicensed VHF/UHF ADF7025 Wide Mhz Spread-spectrum TRx. Data rate < 384kbits/s, BW=600k/900k/1.2MHz Direct Conversion Rx FCC Pt (wideband digital modulation) All of the products listed in this table are fully released and in production. The ADF7020 is a Medium Bandwidth Transceiver covering the 400 & 800MHz Bands shown with data rates up to 200kbps. The ADF7020-1, is an external Inductor version of the ADF7020, supporting an even wider Frequency Range. In some European and Japanese Frequency bands, the channelization is specified as either 12.5kHz or 25kHz requiring the use of a narrow band device like the ADF The ADF7021 supports the latest FCC, ETSI and ARIB Standards. Data Rates are limited to 25kbps. The ADF7025 has a direct conversion Rx, with much higher data rates up to 384kbps, which makes it suitable for simple Audio/Video applications.

ADF7020 Single-chip RF Transceiver (2-way)
4/19/2017 ADF7020 Single-chip RF Transceiver (2-way) Key Specs: ISM Bands Supported: 433MHz, 868MHz 915MHz & 950MHz ISM Bands Modulation Formats: FSK/GFSK/ASK/OOK/G-OOK Data Rates: 0.3kbps – 200kbps Receiver Sensitivity : -117.5dBm at 1kbps, BER = 1E-3 -119 dBm using external antenna switch Receiver IDD: 19mA - 21mA (Sensitivity vs. Current trade-off) Out of band Blocking: 70dB IP3 in high linearity mode: -3dBm Programmable output power: up to +13dBm = longer range Key Features: Single Chip UHF Transceiver Patented AFC feature allows use of low-cost crystals On Chip 7-Bit ADC allows Digital Readback of: RSSI (Receive Signal Strength Indicator) level, Battery Voltage On Chip Temp Sensor, Accuracy +/-5 Deg, External Analog Input Internal Tx/Rx switch: Saves on external GaAs or CMOS switch The ADF7020 Key Features are listed here. It shows the Industrial, Scientific, Medical (ISM) Frequency Bands supported along with the Modulation schemes. The superior Sensitivity Spec of dBm allows the ADF7020 to operate over extended RF Range. Over 3Km or nearly 2 Miles range was achieved using 2 x ADF7020’s. The ADF7020 also has an excellent IP3 Spec or 3rd Order Intercept Point which maintains good RF performance in noisy environments. Automatic Frequency Control (AFC) allows you to use lower cost Crystals. An Internal Integrated Transmit / Receive Switch saves board space Click to jump to Block diagram

ADF7020-1 Features Single Chip VHF/UHF Transceiver
4/19/2017 ADF Features Single Chip VHF/UHF Transceiver ADF7020 with external VCO inductor to allow wider range of operating frequency Bands Supported: 80MHz to 650MHz Most competitors only cover 300MHz to 900MHz bands with gaps. Data Rates: 0.3kbps – 200kbps Receiver Sensitivity : -117.5dBm at 1kbps, BER = 10E-3, FSK, RF=315MHz Or -119 dBm using external antenna switch Receiver IDD: 17.5mA (3mA lower than ADF7020) The ADF7020 Key Features are listed here. It shows the Industrial, Scientific, Medical (ISM) Frequency Bands supported along with the Modulation schemes. The superior Sensitivity Spec of dBm allows the ADF7020 to operate over extended RF Range. Over 3Km or nearly 2 Miles range was achieved using 2 x ADF7020’s. The ADF7020 also has an excellent IP3 Spec or 3rd Order Intercept Point which maintains good RF performance in noisy environments. Automatic Frequency Control (AFC) allows you to use lower cost Crystals. An Internal Integrated Transmit / Receive Switch saves board space

ADF7025 Direct Conversion ISM Transceiver
4/19/2017 ADF7025 Direct Conversion ISM Transceiver Key Features: Higher data rate (up to 384kbps) for same power consumption as ADF7020 Suitable for ETSI and FCC regulations: “Wideband” device. You can meet the wideband regulations by simply operating in FSK mode with large deviation frequency. Don’t have to frequency Hop Specifications MHz and MHz Data rate up to 384kbps FSK Wideband Modulation (deviations from 100kHz to 500kHz) Baseband Bandwidth: 600, 900 & 1200kHz

Narrow-Band TRx Products
4/19/2017 Narrow-Band TRx Products Part ID Channel BW Freq. Band Details Relevant Standards ADF7021 Narrow MHz 80-650MHz TRx. External Inductor, Data-rate < 25kbits/s IF BW=12.5k/18.5k/25k FCC Pt.90/95 ARIB T67 EN (NB) ADF7021-N Narrow- 12.5KHz MHz Data-rate < 24kbits/s IF BW=9k/13.5k/18.5k FCC Pt.15/90/95 ARIB T67 EN (NB) Korean STD All of the products listed in this table are fully released and in production. The ADF7020 is a Medium Bandwidth Transceiver covering the 400 & 800MHz Bands shown with data rates up to 200kbps. The ADF7020-1, is an external Inductor version of the ADF7020, supporting an even wider Frequency Range. In some European and Japanese Frequency bands, the channelization is specified as either 12.5kHz or 25kHz requiring the use of a narrow band device like the ADF The ADF7021 supports the latest FCC, ETSI and ARIB Standards. Data Rates are limited to 25kbps. The ADF7025 has a direct conversion Rx, with much higher data rates up to 384kbps, which makes it suitable for simple Audio/Video applications.

ADF7021 Narrow-Band Transceiver
Key Features: Supports Multi-Band RF – Dual VCO: 433/868/915 MHz (Internal VCO), MHz (Ext L) Programmable IF BW = 12.5, 18, 25kHz Programmable AFC Range PA Ramp Profile Programmable Modulation: Raised-Cosine/Gaussian Shaped 2/3/4FSK, GMSK. Data Rates: 0.05–32.8kbps Block Diagram Key Specs: Rx sensitivity: -115dBm at 9.6kbps (plot) ACP: = -50dBc, 12.5 and 25kHz channels (ARIB-T67 426MHz) ACR: = 39dB at +/- 25kHz Blocker: 69dB at 1MHz, 78dB at 5MHz (plot) IIP3 = -3dBm Min Gain, -24dBm Max Gain Image Rejection Cal 55dB (With Cal), < 30dB (Un-cal) Rx Power = 23mA (868MHz) Tx Output power = 13dBm.

ADF7021-N Narrow-Band Transceiver for 12.5kHz channels
Targeted at 12.5kHz channelisations Same as ADF7021 except for: Frequency range Internal Inductor: & MHz External Inductor: MHz IF Filter Bandwidths 9/12.5/18.5kHz IF filter Bandwidths Anomaly Fixes Anomalies listed in ADF7021 anomaly sheet have been fixed. 40dB ACR for 12.5kHz channels Compliant to ETSI EN and ARIB STD-T67 for 12.5kHz channel spacing

ADF7021 Sensitivity vs. Datarate
4/19/2017 ADF7021 Sensitivity vs. Datarate CompA -110 at 9.6kbps CompA -115 at 2.4kbps Range -110 Rx Sens dBm -115 at 9.6kbps 2.7km -120 ~6 km -123 at 1kbps -130 >10km -130 at 0.1kbps 2 3 4 Log (Data Rate)

ADF7021 Wideband Blocking Performance
4/19/2017 ADF7021 Wideband Blocking Performance

ADF724x Family Overview Packet Handler Blackfin/Sharc High Performance
DSP Interface High Performance 2.4 GHz Radio Controller Real Time Clock Wake-up Controller Application Support Features ADF7240 ADF7241 IEEE 250 kbps GFSK kbps Sampling Oct 2008

SRD Development Tools Reference Boards ADI SRD Design Studio
4/19/2017 SRD Development Tools Growing list of 3rd parties to aid in HW design, software, modules etc. Click on link to see list Reference Boards ADI SRD Design Studio Complete Development Kits are available to support the products mentioned earlier. They reduce your Design Cycle and allow you to focus your efforts on more important aspects of your design. Our Proprietary Software “ADIismLINK” allows you to configure PHY & MAC layers, do Error Rate Calculation and Freq Hopping. The kit comprises a Motherboard and a Daughter Card with the software included to fully evaluate the parts in your design.

3rd Party Developers From www.analog.com/srd just click on
4/19/2017 From just click on Third Party Developers 3rd Party Developers Our 3rd Party Partners offer many Design Services, ranging from Complete System Design, Antenna Design, Software Expertise and RF Module Design. These partners are listed in the above page on our website. You can click through each of the links above to find details on each of the Developers. We continue to grow this family of Partners and Developers.

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