Uwe Bröckelmann Please close your laptops and switch off your m obile p hones

1. ADI DFAE Training, Barcelona12. June 2012Product highlights Uwe Bröckelmann Please close your laptops and switch off your mobile phones

2. ADA4084-x Next Generation OPx8430V, Low Noise, Low Power, Precision, RRIO Op Amp Applications • Battery-powered Instrumentation • Power Supply Control and Protection • DAC Output Buffer • ADC Driver ADI Advantages Offering power consumption that is ~1/3 that of its closest competition with competitive GBP, Vos, and Vn specs and Ib that is consistent over the full common mode range the ADA4084 provides a truly RRIO Op Amp Low Noise Instrumentation Op Amp

3. AD8657/AD865918V RRIO, µPower, Precision CMOS Op Amp Key Features Integrated EMI Filters Applications 4-20 mA current Loop Transmitter High impedance sources and sensors Current monitoring and sense Multi-pole Filters Remote and Wireless Sensors Low Power Trans-impedance Amps EMI Rejection Ratio Results in Datasheet

4. Temp Price @ 1k $1.79/$2.89 -40°C – +105°C ADA4940-1/-2Ultra Low Power, Low Distortion ADC Driver KEY FEATURES • Extremely low harmonic distortion: −90dB THD @ 2 MHz • Low input voltage noise: 4 nV/√Hz • Only 6.5 mW (5V supply) • Externally adjustable gain • Differential-to-differential or Single-to-differential operation • 16-bit settling time: 85 ns • Flexible power supplies: 3 V to 7 V • SOIC-8, LFCSP-16 or 24

5. 20 16 14 12 10 ENOB’s 0.01 0.1 1 10 100 1000 Frequency (MHz)

6. ADA4895/4896/48971 nV/√Hz, Low Power, R-R Output, High-speed Op Amps ADA4896/96 FEATURES • Low Wideband noise • 1nV/√Hz • 2.8pA/√Hz • Low 1/f Noise • 2.4nV/√Hz @10Hz • High speed • −3dB bandwidth: >230MHz (G = +1) • Slew rate: 120V/µs • Power • 150uA standby current • 3V to 10V supply @ 3 mA/amplifier ADA4895 FEATURES (Decompensated ADA4896/7) High speed • −3 dB bandwidth: 1.5GHz MHz (G = +10) • Slew rate: 600 V/µs

7. AD5686R – 16-bit Quad SPI nanoDAC+, with 2ppm/˚C reference in 3X3 LFCSP Release Mar12 TARGET APPLICATIONS • PLC I/O cards • Optical transceivers • WIFR Power Amp control • Instrumentation KEY FEATURES Internal 2.5V 5ppm/°C max reference Offset error: ±1.5mV max Gain error: 0.1% of FSR max 1.8V Logic Compatibility (VLOGIC pin) User selectable output amplifier gain of x1 or x2 (GAIN pin) 2.7 V to 5.5 V power supply

8. nanoDAC Overview and Roadmap Worlds First 12-/14-/16-Bit DAC in SOT23 with 10ppm Ref (SPI and I2C) High Accuracy 12-/14-/16-Bit Buffered DAC in SOT23 (SPI) Worlds Smallest Most Accurate 10-/12-/14-/16-Bit DAC with 5ppm Ref (SPI and I2C) 16-Bit AD566xR Single/Dual/Quad AD5683/9/6RAD5693/9/6R 16-bit x1/x2/x4 AD5060/4/6 Single/Quad Smallest 14-/12-/10-/8-Bit 100μA SC70 DAC (SPI and I2C) AD564xR Single/Dual/Quad AD5641 AD5682/5RAD5692/5R 14-bit x1/x4 AD5040/4 Single/Quad 14-Bit nanoDAC nanoDAC+ AD5621/2 AD5681/7/4RAD5691/7/4R12-bit x1/x2/x4 AD562xR Single/Dual/Quad AD5612/1 AD5024 Quad Worlds First 12-Bit DAC in SOT-23 8–12-Bit AD53xx AD5310/7RAD5311/6R10-bit x1/x2/x4 1998/9 2005/6/7 2012/13

9. AD5700 Integrated HART FSK ModemSimplifying Applications, Saving PCB Space • Integrated ReceiveBand-Pass Filter • Integrated Low Power 1% Precision Oscillator • High OutputDrive Capability Minimum External Components Required

10. HART Modem Competitive Comparison

11. AD5700 Demo: Compliance Registered with the HART Communication FoundationFully Compliant, Low Risk Design

12. ADR45xx – Ultra-High Precision, Low Noise, Voltage Reference KEY Features • Ultra-High Accuracy • Voltage Drift: 2ppm/°C, max. (B grade) • Low initial output voltage error: 0.02% max. (B) • Long Term Drift: < 25ppm/1st 1kHr. typ. • Excellent Noise Performance • 1/f noise: 0.5ppm,p-p (0.1Hz to 10Hz) typ. • Versatility • Input voltage range: 3V-15V • Low dropout: 300mV for +2mA at +125°C • 1V for ADR4520, 0.5V for ADR4525 • Output drive: ± 10mA • Quiescent current: 950µA max. Applications • Medical/Industrial/Test Instrumentation • Automotive hybrid battery monitoring • Weigh scales & Scientific Equipment

13. ADR45xxA/B Voltage Reference Family Company Confidential

14. Innovative Low-Power-Per-Channel High Speed ADCs Allow High-Channel Density Designs Power scaling available via SPI control when operating ADC at lower sample rates.

15. AD9653 – Quad, 16-Bit, 125 MSPSSerial LVDS 1.8 V A/D Converter KEY SPECs and BENEFITS • 4 ADCs integrated into 1 package • 23% smaller foot print than competition • 164mW ADC power/channel at 125 MSPS • 54% lower power than competition • Excellent A/C performance • SNR = 80dBFs (at 10MHz Ain; 2.6Vp-p) • ENOB = 12.7bits (at 10MHz Ain; 2.6Vp-p) • SFDR = 85dBc (to Nyquist; 2.6Vp-p) • Serial LVDS (ANSI-644, default) • Low power, reduced signal option (similar to IEEE 1596.3) • Single supply of 1.8 V supply operation

16. AD9106 Quad TxDAC® for Medical and I&I Applications KEY FEATURES • For linear pulsar ultrasound applications • 12bit • 175 MSPS max. DAC update rate • LVDS clock • On-chip 4K Waveform RAM • Pre-stored waveforms • Sawtooth, sinewave • Single supply • Programmable time delays between RAM and DAC input to support beam forming architectures • Considering OCTAL DAC product as well (48p 7x7mm LFCSP)

17. AD9128Dual TxDAC+® with JESD204A Serial Interface KEY FEATURES 16b - Dual DAC, based upon AD9122 1.25 GSPS DAC Update Rate 4 Lanes of High Speed JESD204A Serial Links (each capable of 3.125Gbps) Selectable 2X/4X/8XHalfband Interpolation filters Channel matching control for optimal LO/SSB cancellation Multiple chip synchronization interface Configurable clock multiplier/divider Digital inverse sinc filter

18. AD9559: Dual VCO Multi-protocol Clock TranslatorTranslates between all primary network standard frequencies, supports FEC ratios alsoStratum 3 compatible SONET/SDH, Synchronous Ethernet, 10GbE • 4 differential or single-ended inputs: 2 kHz – 810 MHz • Adaptive Clock Generation • On-Chip Reference Monitors • Hitless Switchover and Stratum 3 Holdover • Phase build out (<5ns phase change on output) • Programmable Digital Loop Filter w/ Loop bandwidths 0.1 Hz to 2 kHz • 72 pin LFCSP Package • 4 differential (HSTL / LVDS / LVPECL compatible / CMOS) Clock Outputs (CMOS Configurable to 8 single ended outputs) • Output frequency 360kHz- 1.25 GHz • Low Jitter: 300fs (50 kHz-80 MHz) and 400fs (12kHz – 20MHz) • Low Spurious: <-70dbc • EEPROM based Non-volatile preset —Analog Devices Confidential Information—

19. Switchover and Synchronization NOTE output is synchronized to primary reference But what happens when the primary reference disappears? In Phase Build out, the output phase does not change In hitless switchover, the output slowly transitions until it is in phase with the back-up reference

20. Line Card Line Card Main Clock Board Line Card What happens with Holdover Network Stays UP Backplane AD9xxx Remove Main Clock board

21. AD9914/5 Very High Speed, High Performance DDS • KEY BENEFITS & FEATURES • Designed for performance • Pin access to tuning words • 32 bits • Access FTW, POW & ASF, or Aux TW • Sweep any parameter • Programmable Modulus • multi-chip synchronization • 8 profile registers • 2.5 GHz REFCLK PLL • ~2.5W total power • Process: 0.18um SiGe • Package: 88 lead LFCSP Mass Sampling NOW Release July 2012 AD9914: 3.5(+/-) GSPS* AD9915: 2.5 GSPS *4.0 GHz should be attainable with degradation to some specs

22. ADF4351 – Ultra Wideband PLL with integrated low-noise VCO FEATURES • 3.0 V to 3.6 V power supply • Programmable dual-modulus prescaler 4/5, 8/9, 16/17 • Programmable output power level • Improved EVM (0.4% @ 2.1GHz) • 1.8 V logic compatibility • RF output mute function • 3-wire serial interface • Analog and digital lock detect • Hardware and software power-down mode • Pin and Function Compatible with ADF4350

23. ADF4351 vs. ADF4350 • Improved 1/f in-band phase noise -116 vs. -111dBc/Hz. • EVM (Error Vector Magnitude) improvement of up to 30%. • Lower phase frequency detector (PFD) spurs. • Additional RF Output Divide by 32 and 64 to give full frequency coverage from 35 – 4400 MHz... • Integer-N only mode gives lower phase noise for integer channels. • VCO Band switching time improved from 80µs to 10µs. • Small frequency/phase jumps possible without band select.

24. ADP5024 – Dual 3 MHz 1.2A BuckRegulators with 300mA LDO in LFCSP KEY BENEFITS • Two 1.2A Buck Regulators • 300mA LDO • Initial Regulator Accuracy: ±1% • Over current and thermal protection • Soft-Start & Under-voltage Lockout • Buck1 and Buck2 Key Specifications • Current Mode Architecture for excellent transient response and 100% duty operation • Forced PWM and Auto PWM/PSM modes • Out of Phase operation for reduced input filtering • LDO Key Specifications • Stable with1μF ceramic output capacitors • High PSRR • 65dB PSRR 1kHz to 10 kHz • Low output noise • 80μVrms typical output noise at VOUT3 = 2.5 V • Low dropout voltage: 150 mV @ 300 mA load • 24-Lead, 4 mm × 4 mm LFCSP package KEY APPLICATIONS • USB Powered Portable Devices • Medical Devices • Handheld Products • Multivoltage power for processors, ASICs, FPGAs and RF chipsets

25. ADP5023/24 Powering Spartan 3A

26. ADP5041 – 1.2A buck + Dual 300mA LDO, Supervisory, Watchdog and Manual Reset KEY FEATURES • 1.2A 3MHz switcher • Internal compensation • Compatible with tiny 0603 inductors • Dual 300mA Low Noise LDO • 60dB PSRR at 10KHz • 60uVrms Noise • Individual Enables • Open-Drain Processor Reset with external adjustable threshold monitoring • ±1.5% threshold accuracy over the full temperate range • Guaranteed reset output valid to Vcc = 1V • Manual Reset Input • Watchdog Timer • 20-Lead LFCSP, 4mm x 4mm

27. Discrete vs Integrated Solution, BOM Cost and Solution Size 1.2A Buck + Dual 300mA LDO + POR/WDI Comparison 1.5A Buck Regulator ($1.15 @ 1k) 10-LFCSP 3mm x 3mm 300mA LDO ($0.27 @ 1k) Total $2.19 @1k ADP5041 1.2A Buck Regulator Dual 300mA LDOs POR + Watchdog Timer 20-LFCSP 4mm x 4mm $1.79 @1k 300mA LDO ($0.27 @ 1k) POR + Watchdog Timer ($0.50 @ 1k) Both solution size in the same scale

28. ADP5041 uPMU support for BF-DSP Low Power Applications

29. HotiCoupler Digital Isolatorswww.analog.com/icoupler ADuM3223 and ADuM4223 ½ Bridge Gate Driver • Improve Performance and Efficiency of • Power Supplies • Solar Inverters • Motor Control • Fast Timing • <50ns Total Propagation Delay • <5ns delay matching • High Reliability • 50yr Lifetime for 400Vrms • 125°C Operation • 4A peak current drive • 4.5V to 18V output range ADuM7x4x Quad and Dual Channel Digital Isolator • Small Packages save board space • SO-8 • QSOP-16 • 1kVrms Isolation Rating • 100% Production Tested • 105°C Temp Range • Low Cost <$1USD at 1Kpcs • Directional Options Available All iCoupler products are registerable!!

30. Decode Pulses Reconstruct Data Detect Data Edges Encode as Pulses Rising Edge Falling Edge Transfer Through Transformer Differential iCoupler Operational Diagram • Differential Coil Driving and Receiving Result in: • Lower Dynamic Power • Improved Noise Immunity • Faster Propagation Delay www.analog.com/icoupler

31. ADuM128x – Fastest Dual iCoupler Product • High Performance • 100 Mbps • 24 ns Propagation Delay • Low Dynamic Power • <16mA / channel @ 100 Mbps • Small 8-lead SO • Robust Polyimide Isolation • 3 kVrms Isolation Rating • > 50 Year Lifetime • Easy-to-Use • Digital CMOS Input and Output • -40°C – +125°C Released www.analog.com/icoupler

32. Target Applications • Battery-powered equipment • Low power data acquisition systems • Portable medical instruments AD7988-1, AD7988-5: Ultra Low Power 100ksps/500ksps 16 Bit SAR ADC • AD7988-1 • 100ksps throughput • 0.7mW power dissipation • AD7988-5 • 500ksps throughput • 3.5mW power dissipation • Excellent AC and DC specifications • 1.25 LSB INL • 91dB SNR, 5V Vref Resolution Temp Range Interface Power Supply Package 16-Bit −40°C to +125°C SPI 10 ld MSOP/LFCSP 2.5 V Vdd 1.8V – 5.5V VIO

33. AD7988-1/-5: Key Facts Replace the ADS8325 with the AD7988-1 at 69% lower power consumption. AD7988-5 replaces TI’s ADS8326 and ADS8319 (pin-to-pin) with lower power and better INL. Company Confidential

34. ADT7320/ADT7420 ±0.25°C Accurate Digital Temp Sensors KEY BENEFITS • High performance • ±0.25°C Accuracy from -20°C to 105°C • ±0.5°C Accuracy from -40°C to 125°C • 16 bit resolution: ±0.0078°C • Ultralow lifetime drift: ±0.0073°C • Easy Implementation • Plug ‘n’ play high performance measurement • Low Power • Power saving 1SPS mode Vrange Active Current Interface Package Trange Shutdown Current 2.7V to 5.5V 210uA (typ) 2uA (typ) SPI/I2C 4x4 LFCSP -40°C to 150°C

35. ADG5206/07 – Low Charge Injection Latch up Proof diff 8:1 / 16:1 Multiplexer KEY FEATURES • High Robustness • Latch-up Proof • ADG5206 (8kV HBM ESD) • High Performance • Low leakage • Low capacitance and charge injection • Wide BW • Other advantages • 3 V logic Compatible Digital Inputs • Release: EOF September 2012

36. ADG5206/07: Guaranteed Latch-up proof

37. ADXL343 and ADXL344Multi Purpose Digital Accelerometer 3-Axis Digital Tilt & Motion Sensing Low Power (23µA in measurement mode, 0.2µA standby) Selectable g-range (±2g, ±4g, ±8g, ±16g) Based on popular ADXL345/346 devices ADXL343: 2.0 V to 3.6 V, 3×5x1 mm3 LGA package ADXL344: 1.7 V to 2.75 V, 3×3×0.95 mm3 LGA package Slight reduction of some specs for cost efficiencies Competitively priced with market conditions ADXL343 / ADXL344 1Ku price = $1.15 Resale Production: Now

38. ADXL362 Industry’s Lowest Power Accelerometer 3-Axis Digital Motion Sensing / Activity Switch ±2g/4g/8g, 12Bit, High resolution of 1mg/LSB Ultra low power; Power can be derived from coin cell battery 3.0μA across full ODR up to 400Hz  no undersampling or aliasing! 300nA motion-activated Wake-up Mode 10nA Standby Mode Built-in features for system-level power savings: Adjustable-threshold sleep/wake modes for motion activation Multiple sample activity detection to eliminate “false positive” motion Deep embedded FIFO minimizes host processor load Low noise down to 220μg/√Hz Wide supply and I/O voltage ranges: 1.6V to 3.6V Small and thin 3mm × 3.25mm × 1.06mm package X-Grade: Now Production: July 2012

39. ADXL377Industry’s only 3-axis High-g Sensor 3-Axis Shock and Vibration Measurement Analog Output ± 200g measurement range High, Selectable Bandwidth (up to 1600Hz) Excellent temperature stability Low power: 300µA (typical) Single-supply operation: 1.8V to 3.6V 3mm × 3.25mm × 1.06mm package Applications: Concussion / TBI Detection Non-automotive impact detection Shock event voiding warranty X-Grade: Now Production: Sept 2012

40. ADXRS644Ultra High Performance Gyroscope High Performance Rate Sensor Yaw Rate, ±300°/sec Range Rate Noise Density of 0.01 °/s/√Hz Power Consumption of 5 mA High Environmental Rejection by Unique Quad Sensor Design Tactical grade Bias stability of 9°/hour Vibration Rectification of 0.0001 °/s/g2 Sensitivity to Linear Acceleration of 0.015 °/s/g 10,000g shock survivability Flexibility 6V Operation -40°C to +105°C Operation Pb-free compliant per EU RoHS 7mm x 7mm x 3mm BGA package X-Grade: July 2012 Production: August 2012 1) 6x >3x Wz >9x 1) Comparedto ADXRS62x

41. Introducing… Three New iSensor IMUs, including expansion into Embedded Kalman Filtering ADIS16480: 10 DoF, Dynamic Orientation Sensor (Adaptive Extended KalmanFiltering) ADIS16448: Industry’s Most Compact Precision Ten Degree of Freedom IMU ADIS16485: Tactical Grade Six Degree of Freedom (Best Cost/Performance in Industry) ADIS1648X ADIS16448 • All Feature: • Full Factory Calibration • Industry Leading Vibration/Shock/Temperature Stability

42. ADIS16448 ADIS16480 Selection Guide – Functional/Integration Summary Tactical Grade 6 DoF Dynamic Orientation Sensing • Extended Kalman Filter • Quaternion, Euler, Rotation Matrix • Adaptive, and Programmable Compact 10 DoF

43. ADuC7023 – Precision Analog Microcontroller, 12-Bit I/O, ARM7TDMI MCU • WLCSP version addition to the ADuC7023 • 6x6 bump array WLCSP 3445²um; Ø300um bump at 0.5mm pitch; release: Q42012

44. ADuCM360 Precision Analog Microcontroller

45. ADuCM360 Key Features • ARM Cortex-M3 MCU Core • Low power, suitable for 4-20 Loop powered and battery powered applications • Better Processing Power when compared to MSP430 and ARM7 cores • Analog I/O • ADC specs match AD7794 performance – noise, ENOB, linearity (4 kSPS, 24-bit dual.) • Single DAC Output, capable of driving 4-20mA loop directly • Functional safety features • New features added to compete with TI’s ADS1248 • Selectable Input buffer for external reference • Fully flexible input MUX • VBias generator for Thermocouple applications • Step detection filter – SINC2 filter output. Selectable as an Interrupt • 50Hz rejection at 50Hz sampling rate – better than AD7794 (16.6Hz) • Lower drift specs on Excitation Current sources • Accurate on-chip voltage reference – 15ppm max Tempco • Other Details • Specified for 1.8-3.6V operation. (3.3V/5V compatible I/O) • Package: 7x7mm 48LFCSP • CPU = 500kHz, Both ADCs active, both PGAs=16, Idd = 1mA(max) • Temperature range: -40°C to 125°C

46. ADuCM361 Cortex M3 + AFE (single) for 4-20mA GPIO 24bitADC Interrupt Controller (nVIC) 14bitDAC A 1.8V LDO 4KB RAM 64KB FlashCode &DataMemory PWM MUX ARM CortexM3 16MHz SPI / I2C WatchdogTimer LF and HF Osc. SupplyMonitor Timers /Counters DownloadDebug JTAG (2 wire) TempSensor 1.2V VoltageReference UART ReferenceDetect ADuCM361 • ADuCM361 • Same as ADuCM360 except Single AFE channel • Options with 24-bit, 16-bit ADC; 64kB or 128kB flash.

47. Cortex M3 (16MHz) Low Power Developments

48. ADI Fixed Point Processor Roadmap – Blackfin® BF60x Family Dual Core Blackfin Higher Performance • VGA PVP • 256KB L2 • HD PVP • 256KB L2 BF561 Single Core Blackfin BF54x, 53x BF52x, 51x • 256KB L2 • No PVP • 128KB L2 • No PVP Low Cost Blackfin BF50x BF592 Current Blackfin Products Today Future

49. ADSP-BF609/8/7/6 Block Diagram SYSTEM CONTROL BF CORE 1 L2 MEMORY PERIPHERALS BF CORE 0 2x TWI L2 SRAM With ECC 256kB (BF606 128kB) Power Mgt 8x Timers Dual CRC Dual Watchdog 1x Counter L1 SRAM148kB With Parity L1 SRAM148kB With Parity Trigger Routing 1x CAN System Debug 2x PWM System Crossbar and DMA Subsystem Watch-points 2x UART System Protection 2x SPI 112x GPIO + 6x PINT 3x SPORT+ACM HARDWARE PROCESSING BF608/BF609 Only L3 MEMORY INTERFACES 4x Link Port Pipelined Vision Processor (PVP) Pixel Crossbar 3x ePPI DDR2 / LPDDR1 ASYNC (SMC) 1x EMMC/RSI 2x EMAC 1588 Pixel Compositor (PIXC) 1x USB OTG MP Video Subsystem 16 16

50. BF60x Industrial Application ExamplesImage Processing For Barcode Decoding 2D Barcode Decoding 1D Barcode Decoding damaged with reflection BF608/609 BF60x BF608/609 locating the barcode crumpled paper Curved surface orienting the barcode blurred Removing noise and distortion The BF608/609 allows for algorithms previously implemented in higher end systems (based on FPGA) to be utilized into lower cost systems