Microsemi’s family of frequency conversion products lowers bill of material costs, reduces board space requirements and simplifies design complexity by replacing multiple components including oscillators and discrete PLLs required to implement frequency conversion. These flexible high performance devices create very low-jitter clocks (sub 500 fs) from an input clock and create several different frequencies utilizing multiple output dividers to support multi-rate applications.
Microsemi's miClockManagement portfolio provides ultra low-jitter devices for clock synthesis, frequency conversion, jitter attenuation, and fanout buffers to reduce clock-tree BOM and board space requirements, improve performance reliability, and simplify design.
Pin-selectable custom confi gurations (up to 4 for miJitterAtten products and up to 8 for miSmartBuffer and miClockSynth products)
Create factory pre-programmed devices using miClockDesigner™
Clocks for NPUs, FPGAs, CDRs, high-speed ADCs and DACs, PCIe interface devices, Ethernet switches, and PHYs
Timing generation for data center, enterprise, storage servers, ethernet, optical, networking, wireless, and broadcast video applications
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MAX24610EXG+ Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK MULT/ATTENUATOR 10OUT | RFQ |
MAX24605EXG+ Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK MULT/ATTENUATOR 5OUT | RFQ |
MAX24510EXG+ Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK MULT 10-OUT EEPROM | RFQ |
MAX24505EXG+ Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK MULT 5-OUT EEPROM | RFQ |
MAX24410EXG+ Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK MULT 10-OUTPUT | RFQ |
MAX24405EXG+ Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK MULT 5-OUTPUT | RFQ |
ZL30245LFF7 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, 6-INPUT, 6-OUTPUT ANY-RATE CLOCK | RFQ |
ZL30253LDF1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC JITTER ATTENUATOR 3I/O 32QFN | RFQ |
ZL30252LDF1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC JITTER ATTENUATOR 3I/O 32QFN | RFQ |
ZL30251LDF1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK GEN QFN | RFQ |
ZL30251LDG1PROG Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK GEN QFN | RFQ |
ZL30254LDG1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC JITTER ATTENUATOR 3I/O 32QFN | RFQ |
ZL30254LDF1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC JITTER ATTENUATOR 3I/O 32QFN | RFQ |
ZL30250LDF1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK GEN QFN | RFQ |
ZL30253LDG1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC JITTER ATTENUATOR 3I/O 32QFN | RFQ |
ZL30252LDG1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC JITTER ATTENUATOR 3I/O 32QFN | RFQ |
ZL30245LFG7 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, 6-INPUT, 6-OUTPUT ANY-RATE CLOCK | RFQ |
ZL30251LDG1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK GEN QFN | RFQ |
ZL30250LDG1 Microsemi Corporation |
Synchronisation/horloge - Générateurs d'horloge, PLL, synthétiseurs de fréquence, IC CLK GEN QFN | RFQ |
ZL30159GGG20037 Microsemi Corporation |
Synchronisation/horloge - Spécifique à l'application, IC CLK TRANSLATOR 2CH 64LBGA | RFQ |
ZL30255LFG7 Microsemi Corporation |
Synchronisation/horloge - Spécifique à l'application, DUAL-CHANNEL ANY-TO-ANY CLOCK MU | RFQ |
ZL30255LFF7 Microsemi Corporation |
Synchronisation/horloge - Spécifique à l'application, DUAL-CHANNEL ANY-TO-ANY CLOCK MU | RFQ |
Traction inverters are the main battery drain components in electric vehicles (EVs), with power levels up to 150kW or higher. The efficiency and performance of traction inverter directly affect the driving range of electric vehicle after a single charge. Therefore, in order to build the next generation of traction inverter systems, silicon carbide (SiC) field effect transistor (FET) is widely used in the industry to achieve higher reliability, efficiency and power density.
Do you know the 8 application circuits of operational amplifiers?
This technical presentation requires an understanding of how to configure an operational amplifier in a typical gain control circuit. The applications of linear and nonlinear digital potentiometers are discussed. This article gives an overview of the basic techniques required to convert audio and other potentiometer/op amp applications from conventional mechanical potentiometers to solid state potentiometers
The current in an electronic circuit usually has to be limited. In USB ports, for example, excessive current must be prevented to provide reliable protection for the circuit. Also in the power bank, the battery must be prevented from discharging. Too high discharge current results in too large voltage drop of the battery and insufficient supply voltage of downstream devices
Using advanced real-time control technologies such as motor control circuits with higher power density, higher integration and more efficient systems, better acoustic performance of the system can be achieved
Brushless direct current (BLDC) motors have been widely used in household appliances, industrial equipment and automobiles. While brushless DC motors offer a more reliable and maintainable alternative to traditional brushless motors, they require more sophisticated electronics to drive them
How to achieve precise motion control in industrial actuators
The NCP51820 is a 650 V, high-speed, half-bridge driver capable of driving gallium nitride (" GaN ") power switches at dV/dt rates up to 200 V/ns. The full performance advantages of high voltage, high frequency and fast dV/dt edge rate switches can only be realized if the printed circuit board (PCB) can be properly designed to support this power switch. This paper will briefly introduce NCP51820 and the key points of PCB design of high performance GaN half bridge grid driver circuit using NCP51820