Analog Devices, Inc., which recently acquired Linear Technology Corporation, announces the LTM8065, a µModule (power module) step-down regulator with up to 40V input voltage (42V abs max), which can safely operate from unregulated or fluctuating 12V to 36V input supplies in noisy environments such as industrial robotics, test and measurement, medical, factory automation and avionics systems. […]
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Prioritizer switches in backup supplies, sports low quiescent current
Analog Devices, Inc., which recently acquired Linear Technology Corporation, announces the LTC4418, a dual input power prioritizer for 2.5V to 40V systems. To enable portability, preserve memory during brownouts, and ensure a graceful shutdown on power loss, electronic systems employ batteries and capacitors for backup power. The LTC4418 normally powers the load from the higher […]
DC/DC controller synthesizes five converter topologies, puts out up to 10 A
Analog Devices, Inc., which recently acquired Linear Technology Corporation, announces the LT8711, a multitopology current mode PWM controller that can easily be configured as a synchronous buck, boost, SEPIC and ZETA DC/DC converter, or as a nonsynchronous buck-boost converter. This device replaces the output diode with a high-efficiency P-channel MOSFET, thereby increasing efficiency and maximum […]
High-speed, high-side N-channel MOSFET driver works with 60-V supplies
Analog Devices, Inc., which recently acquired Linear Technology Corporation, announces the LTC7004, a high speed, high side N-channel MOSFET driver that operates up to a 60V supply voltage. Its internal charge pump fully enhances an external N-channel MOSFET switch, enabling it to remain on indefinitely. The LTC7004’s powerful 1Ω gate driver can easily drive large […]
Regulator generates –26.5 to –0.5 V output from positive-input supply
Analog Devices, Inc., which recently acquired Linear Technology Corporation, announces the LTM4651, a nonisolated inverting output µModule regulator that can generate –26.5V to –0.5V output from a positive input supply voltage. The LTM4651 operates over a 3.6V to 58V input voltage range and is housed in a 15mm x 9mm x 5.01mm BGA package, a compact […]
Super-efficient 150-V synchronous buck-boost controller eliminates surge protection devices
Analog Devices, Inc., which recently acquired Linear Technology Corporation, announces the LTC3779, a high efficiency (up to 99%) 4-switch single inductor synchronous buck-boost DC/DC controller that operates from input voltages above, below or equal to the regulated output voltage. Its 4.5V to 150V input voltage range is designed to operate from a high input voltage […]
Current mode, 2-MHz step-up dc/dc converter carries internal 2-A, 60-V switch
Analog Devices, Inc. announces the LT8362, a current mode, 2MHz step-up DC/DC converter with an internal 2A, 60V switch. It operates from an input voltage range of 2.8V to 60V, suitable for applications with input sources ranging from a single-cell Li-Ion battery to automotive and industrial inputs. The LT8362 can be configured as either a […]
Newark element14 shipping two new ADI peripheral modular boards
Newark element14 is now shipping the EVAL-ADT7420-PMDZ and the EVAL-ADXL355-PMDZ boards from ADI. The Pmod (Peripheral Module) interface is an open standard specification used with FPGAs and microcontrollers. When prototyping, these boards are used in conjunction with the ADICUP360 (an Arduino form factor compatible ARM Cortex-M3 development platform) or the ADICUP3029 (an Arduino based wireless […]
Super-small 3-to-20-GHz mixer supports dc-to-6-GHz IF
Analog Devices, Inc., which recently acquired Linear Technology Corporation, announces the LTC5552, a double balanced mixer that features best-in-class wideband matching from 3GHz to 20GHz. The mixer can be used as an up- or downconverter. The LTC5552 is especially useful in upconversion applications with its DC capable differential IF port that enables the LO to be […]
What’s the difference between an analog switch and digital switch ICs?
Analog switch integrated chips (ICs), then turned on, will conduct both analog and digital signals from the input pin to the output pin. Digital switches can only accept digital signals and duplicate the logic level on the input pin at the output pin. When the digital switch is turned off, it returns to a default […]