The HMC6787ALC5A is a compact GaAs MMIC I/Q variable gain upconverter in a leadless RoHS compliant SMT package. This device provides a small signal conversion gain of 11 dB with 17 dBc of sideband rejection, and 13 dB of gain control. The HMC6787ALC5A utilizes a RF variable gain amplifier preceded by an I/Q mixer where the LO is driven by a X2 multiplier. IF1 and IF2 mixer inputs are provided and an external 90? hybrid is needed to select the required sideband. The I/Q mixer topology reduces the need for filtering of the unwanted sideband. The HMC6787ALC5A is a much smaller alternative to hybrid style single sideband upconverter assemblies and it eliminates the need for wire bonding by allowing the use of surface mount manufacturing techniques.APPLICATIONS Point-to-Point and Point-to-Multi-Point Radio Military Radar, EW & ELINT Satellite Communications Sensors

The HMC6789BLC5A is a compact GaAs MMIC I/Qdownconverter in a 12-terminal, RoHS compliant,ceramic leadless chip carrier (LCC) package. Thisdevice provides a small signal conversion gain of 14 dBwith 25 dBc of image rejection. The HMC6789BLC5Autilizes a low noise amplifier to drive the I/Q mixerwhere the LO is driven by a ?2 multiplier. IF1 and IF2mixer inputs are provided and an external 90? hybridis needed to select the required sideband. The I/Qmixer topology reduces the need for filtering of theunwanted sideband. The HMC6789BLC5A is a muchsmaller alternative to hybrid style single sidebanddownconverter assemblies and it eliminates the needfor wire bonding by allowing the use of surface mountmanufacturing techniques.Applications Point-to-Point and Point-to-Multi-Point Radios Military Radar, EW & ELINT Satellite Communications Sensors

The HMC6832 is an input selectable, 2:8 differential fanoutbuffer designed for low noise clock distribution. The IN_SELcontrol pin selects one of the two differential inputs. This inputis then buffered to all eight differential outputs. The low jitteroutputs of the HMC6832 lead to synchronized low noiseswitching of downstream circuits, such as mixers, analog-todigitalconverters (ADCs)/digital-to-analog converters (DACs),or serializer/deserializer (SERDES) devices. The device is capableof low voltage, positive emitter-coupled logic (LVPECL) or lowvoltage differential signaling (LVDS) configurations by pullingthe CONFIG pin low for LVPECL or high or open (internallypulled high) for pseudo LVDS.Product Highlights Multiple Output Configurations. The CONFIG pin allows the user to select LVPECL or LVDS output termination. Multiple Supply Voltage Operation. The HMC6832 operates at 2.5 V or 3.3 V for LVPECL terminations (2.5 V only for LVDS). Low Noise. The HMC6832 noise is low, typically from ?168 dBc/Hz to ?162 dBc/Hz up to 3000 MHz. Low Propagation Delay. The HMC6832 displays a low delay, less than 207 ps, typical. Channel skew is also low, ?5 ps, typical. Low Core Current. The HMC6832 has a low core current of 56 mA, typical. Applications SONET, Fibre Channel, GigE clock distribution ADC/DAC clock distribution Low skew and jitter clocks Wireless/wired communications Level translation High performance instrumentation Medical imaging Single-ended to differential conversions

The HMC7545 is a unidirectional, quad-channel, protocol and data rate agnostic, asynchronous signal conditioner, designed for short and intermediate range optical modules, line cards, and backplane applications operating at up to 14.2 Gbps.Each channel provides programmable input equalization, LOS and receiver detection, automatic output squelch, programmable output swing and output de-emphasis.All high speed differential inputs and outputs of the HMC7545 are current mode logic (CML), terminated on-chip with 50 ??to the positive supply, and can be dc-coupled or ac-coupled.The device uses a single supply, 2.5 V or 3.5 V, and its typical power dissipation is less than 80 mW per channel.The HMC7545 is packaged in a 36-lead, 4 mm ? 7 mm LFCSP package and operates from -40?C to +85?C.Applications QSFP+ direct attach active copper modules 10 Gb, 40 Gb Ethernet and OTN line cards 10 Gb, 40 Gb backplane drivers 8 Gb, 16 Gb Fibre Channel and InfiniBand? EDR line cards and backplane drivers 8 Gb, 10 Gb, 16 Gb active optical modules 8 Gb, 10 Gb, 16 Gb active copper cable assemblies 1.5 Gb, 3 Gb, 6 Gb, 12 Gb SAS/SATA PCIe 1.x, 2.0, 3.0 Broadband and automatic test and measurement

The HMC788A is a 0.01 GHz to 10 GHz, gain block, monolithic microwave integrated circuit (MMIC) amplifier using gallium arsenide (GaAs), pseudomorphic high electron mobility transistor (pHEMT) technology.This 2 mm ? 2 mm LFCSP amplifier can be used as either a cascadable 50 ? gain stage, or to drive the local oscillator (LO) port of many of the single and double balanced mixers from Analog Devices, Inc. with up to 20 dBm output power.The HMC788A offers 14 dB of gain and an output IP3 of 33 dBm while requiring only 76 mA from a 5 V supply.The Darlington feedback pair exhibits reduced sensitivity to normal process variations and yields excellent gain stability over temperature while requiring a minimal number of external bias components.Applications Cellular, 3G, LTE, WiMAX, and 4G LO driver applications Microwave radio Test and measurement equipment Ultra wideband (UWB) communications

The HMC7912 is a compact, gallium arsenide (GaAs), pseudomorphic(pHEMT), monolithic microwave integrated circuit(MMIC) upconverter in a RoHS compliant, low stress, injectionmolded plastic LFCSP package that operates from 21 GHz to24 GHz. This device provides a small signal conversion gain of15 dB with 22 dBc of sideband rejection. The HMC7912 uses avariable gain amplifier preceded by an in-phase/quadrature (I/Q)mixer that is driven by an active 2? LO multiplier. IF1 and IF2mixer inputs are provided, and an external 90? hybrid is needed toselect the required sideband. The I/Q mixer topology reducesthe need for filtering of the unwanted sideband. The HMC7912is a much smaller alternative to hybrid style single sideband (SSB)upconverter assemblies, and it eliminates the need for wirebonding by allowing the use of surface-mount manufacturingtechniques.Applications Point to point and point to multipoint radios Military radars, electronic warfare (EW), and electronic intelligence (ELINT) Satellite communications Sensors

The HMC8073 is a 6-bit digital step attenuator (DSA), operating from 0.6 GHz to 3.0 GHz, that features 31.5 dB of attenuation range with 0.5 dB steps.The HMC8073 is implemented in a silicon process, offering a fast settling time, low power consumption, and high electrostatic discharge (ESD) robustness. The device features safe state transitions, allowing attenuation state changes without overshooting, and is optimized for excellent step accuracy and high power and high linearity over frequency and temperature range. The radio frequency (RF) input and output are internally matched to 50 ? and do not require any external matching components. The design is bidirectional, and the RF input and output are interchangeable.The external address feature of the HMC8073 allows users to control up to eight DSAs using a single bus. The DSA has an on-chip regulator that supports a wide supply operating range from 3.3 V to 5.0 V with no performance change in electrical characteristics. The HMC8073 incorporates a complementary metal-oxide semiconductor (CMOS)- and transistor transitory logic (TTL)- compatible interface that supports serial (3-wire) control of the attenuator.The HMC8073 comes in an RoHS compliant, compact, 3 mm ? 3 mm LFCSP package.Applications Cellular infrastructure Microwave radios? Very small aperture terminals Test equipment and sensors

The HMC8412 is a gallium arsenide (GaAs), monolithic microwave integrated circuit (MMIC), pseudomorphic high electron mobility transistor (pHEMT), low noise wideband amplifier that operates from 0.4 GHz to 11 GHz. The HMC8412 provides a typical gain of 15.5 dB, a 1.4 dB typical noise figure, and a typical output third-order intercept (OIP3) of ?33 dBm, requiring only 60 mA from a 5 V drain supply voltage. The saturated output power (PSAT) of ?20.5 dBm typical enables the low noise amplifier (LNA) to function as a local oscillator (LO) driver for many Analog Devices, Inc., balanced, inphase and quadrature (I/Q) or image rejection mixers. The HMC8412 also features inputs and outputs that are internally matched to 50 ?, making the device ideal for surface-mount technology (SMT)-based, high capacity microwave radio applications. The HMC8412 is housed in an RoHS-compliant, 2 mm ? 2 mm, 6-lead LFCSP.APPLICATIONS Test instrumentation Telecommunications Military radar and communication Electronic warfare Aerospace

The HMC936ALP6E is a 6-bit digital phase shifterwhich is rated from 1.2 to 1.4 GHz, providing 360degrees of phase coverage, with a LSB of 5.625degrees. The HMC936ALP6E features very low RMSphase error of 1.2 degrees and extremely low inser-tionloss variation of ?0.5 dB across all phase states. Thishigh accuracy phase shifter is controlled with positivecontrol logic of 0/+5V and requires no negative supplyvoltage. The HMC936ALP6E is housed in a compact6x6 mm plastic leadless SMT package and is internallymatched to 50 Ohms with no external components.Applications EW receivers? Weather and military radar Satellite communications Beamforming modules Phase cancellation

Reaching speeds of up to 1 GHz, the ADSP-2159x processors are members of the SHARC? family of products. The ADSP-2159x processor is a dual-SHARC+? core DSP that doubles the audio performance of its single-SHARC+ core ADSP-2156x predecessor while maintaining pin-compatibility to it in the BGA package, providing design scalability from 400 MHz (ADSP-21566) to 2 GHz (ADSP-21593).The ADSP-2159x SHARC processors are members of the SIMD SHARC family of digital signal processors (DSPs) that feature Analog Devices, Inc., Super Harvard Architecture. These 32-bit/40-bit/64-bit floating-point processors are optimized for high performance audio/floating-point applications with large on-chip static random-access memory (SRAM), multiple internal buses that eliminate input/output (I/O) bottlenecks, and innovative digital audio interfaces (DAI). New additions to the SHARC+ core include cache enhancements and branch prediction, while maintaining instruction set compatibility to previous SHARC products.By integrating a rich set of industry-leading system peripherals and memory (see Table 1 in the data sheet), the SHARC+ processor is the platform of choice for applications that require programmability similar to reduced instruction set computing (RISC), multimedia support, and leading edge signal processing in one integrated package. These applications span a wide array of markets, including automotive, professional audio, and industrial-based applications that require high floating-point performance.APPLICATIONS Automotive: audio amplifier, head unit, ANC/RNC, rear seat entertainment, digital cockpit, ADAS Consumer & Professional Audio: speakers, sound bars, AVRs, conferencing systems, mixing consoles, microphone arrays, headphones

Reaching speeds of up to 1 GHz, the ADSP-2159x processors are members of the SHARC? family of products. The ADSP-2159x processor is a dual-SHARC+? core DSP that doubles the audio performance of its single-SHARC+ core ADSP-2156x predecessor while maintaining pin-compatibility to it in the BGA package, providing design scalability from 400 MHz (ADSP-21566) to 2 GHz (ADSP-21593).The ADSP-2159x SHARC processors are members of the SIMD SHARC family of digital signal processors (DSPs) that feature Analog Devices, Inc., Super Harvard Architecture. These 32-bit/40-bit/64-bit floating-point processors are optimized for high performance audio/floating-point applications with large on-chip static random-access memory (SRAM), multiple internal buses that eliminate input/output (I/O) bottlenecks, and innovative digital audio interfaces (DAI). New additions to the SHARC+ core include cache enhancements and branch prediction, while maintaining instruction set compatibility to previous SHARC products.By integrating a rich set of industry-leading system peripherals and memory (see Table 1 in the data sheet), the SHARC+ processor is the platform of choice for applications that require programmability similar to reduced instruction set computing (RISC), multimedia support, and leading edge signal processing in one integrated package. These applications span a wide array of markets, including automotive, professional audio, and industrial-based applications that require high floating-point performance.APPLICATIONS Automotive: audio amplifier, head unit, ANC/RNC, rear seat entertainment, digital cockpit, ADAS Consumer & Professional Audio: speakers, sound bars, AVRs, conferencing systems, mixing consoles, microphone arrays, headphones

The LT6202/LT6203/LT6204 are single/dual/quad low noise, rail-to-rail input and output unity gain stable op amps that feature 1.9nV/?Hz noise voltage and draw only 2.5mA of supply current per amplifier. These amplifiers combine very low noise and supply current with a 100MHz gain bandwidth product, a 25V/?s slew rate, and are optimized for low supply signal conditioning systems.These amplifiers maintain their performance for supplies from 2.5V to 12.6V and are specified at 3V, 5V and ?5V supplies. Harmonic distortion is less than ? 80dBc at 1MHz making these amplifiers suitable in low power data acquisition systems.The LT6202 is available in the 5-pin TSOT-23 and the 8-pin SO, while the LT6203 comes in 8-pin SO and MSOP packages with standard op amp pinouts. For compact layouts the LT6203 is also available in a tiny fine line leadless package (DFN), while the quad LT6204 is available in the 16-pin SSOP and 14-pin SO packages. These devices can be used as plug-in replacements for many op amps to improve input/output range and noise performance.Applications Low Noise, Low Power Signal Processing Active Filters Rail-to-Rail Buffer Amplifiers Driving A/D Converters DSL Receivers Battery Powered/Battery Backed Equipment

DC606A: Demo Board for the LTC4056-4.2 Linear Li-Ion Charger with Termination in ThinSOT.

Demonstration Circuit 616 is a synchronous, 4-phase boost converter using the LTC3425. It is capable of operating below 1V input. DC616A is set for 3.3V output. DC616B is set for 5V output. On each demo board, the left circuit gives higher efficiency and current rating; while the right circuit has smaller size and lower cost. The switching frequency is set at 1MHz per phase, minimizing inductor and capacitor size. A single resistor at RT pin sets the frequency. If desired, the LTC3425 can be synchronized to an external clock.

DC626A-A: Demo Board for the LTC1569-6 Linear Phase, DC Accurate, Low Power, 10th Order Low Pass Filter.

The LTC5100 is a 3.2Gbps VCSEL driver offering an unprecedented level of integration and high speed performance. The part incorporates a full range of features to ensure consistently outstanding eye diagrams. The data inputs are AC coupled, eliminating the need for external capacitors. The LTC5100 has a precisely controlled 50? output that is DC coupled to the laser, allowing arbitrary placement of the IC. No coupling capacitors, ferrite beads or external transistors are needed, simplifying layout, reducing board area and the risk of signal corruption. The unique output stage of the LTC5100 confines the modulation current to the ground system, isolating the high speed signal from the power supply to minimize RFI.The LTC5100 supports fully automated production with its extensive monitoring and control features. Integrated 10-bit DACs eliminate the need for external potentiometers. An onboard 10-bit ADC provides the laser current and voltage, as well as monitor diode current and temperature. Status information is available from the I2C serial interface for feedback and statistical process control.An internal digital controller compensates laser temperature drift and provides extensive laser safety features.Applications Gigabit Ethernet and Fibre Channel Transceivers SFF and SFP Transceiver Modules Proprietary Fiber Optic Links

The LTC3408 is a high efficiency monolithic synchronous buck regulator optimized for WCDMA power amplifier applications. The output voltage can be dynamically programmed from 0.3V to 3.5V. At VOUT > 3.6V an internal 0.08? bypass P-channel MOSFET connects VOUT directly to VIN, eliminating power loss through the inductor.The input voltage range is 2.5V to 5V making the LTC3408 ideally suited for single Li-Ion battery-powered applications. 100% duty cycle provides low dropout operation, extending battery life in portable systems.Switching frequency is internally set at 1.5MHz, allowing the use of small surface mount inductors and capacitors. The internal synchronous switch increases efficiency and eliminates the need for an external Schottky diode.The LTC3408 is available in a low profile (0.75mm) 8-lead 3mm ? 3mm DFN package.Applications WCDMA Cell Phone Power Amplifiers Wireless Modems

DC646A: Demo Board for the LT3420 Photoflash Capacitor Chargers with Automatic Refresh.

DC661A-A: Demo Board for the LT3468 Photoflash Capacitor Chargers in ThinSOT.

DC672A: Demo Board for the LTC4058-4.2 Standalone Linear Li-Ion Battery Chargers with Thermal Regulation in DFN.