- 潤石科技推出全新高速電平轉換IC - RS0208
- 潤石科技精密運算放大器OPA適用於額溫槍/血氧儀
- 潤石科技Depletion mode analog switch RS550適用於藍芽電競耳機
- 網路商店新開幕,全館現貨折扣中!!
MAX® 10 Field Programmable Gate Array (FPGA) IC 101 193536 4000 144-LQFP 裸焊盤
View DetailMAX® 10 Field Programmable Gate Array (FPGA) IC 130 193536 4000 169-LFBGA
View DetailCyclone® 10 LP Field Programmable Gate Array (FPGA) IC 423 2810880 81264 780-BGA
View DetailMAX® 10 Field Programmable Gate Array (FPGA) IC 101 193536 4000 144-LQFP Exposed Pad
View DetailBuck Switching Regulator IC Positive Adjustable 0.6V 1 Output 1A 30-FQFN Exposed Pad
View DetailNon-Isolated PoL Module DC DC Converter 1 Output 0.6 ~ 6V 1A 2.4V - 6.6V Input
View DetailNon-Isolated PoL Module DC DC Converter 1 Output 0.6 ~ 5V 800mA 2.4V - 5.5V Input
View DetailNon-Isolated PoL Module DC DC Converter 1 Output 0.6 ~ 4.9V 2A 2.4V - 5.5V Input
View DetailCyclone® III Field Programmable Gate Array (FPGA) IC 82 608256 24624 144-LQFP 裸焊盤
View DetailCyclone® IV E Field Programmable Gate Array (FPGA) IC 179 423936 10320 256-LBGA
View DetailCyclone® IV E Field Programmable Gate Array (FPGA) IC 328 608256 28848 484-BGA
View Detail
The PolarFire® SoC FPGA is built on the award-winning PolarFire FPGA architecture and is the first SoC FPGA with a deterministic,
coherent RISC-V CPU cluster and a deterministic L2 memory subsystem enabling Linux and real-time applications. The family delivers up to 50% lower power than alternative FPGAs and spans from 23k to 461k logic elements and features 12.7G transceivers.
The PolarFire® SoC FPGA is built on the award-winning PolarFire FPGA architecture and is the first SoC FPGA with a deterministic,
coherent RISC-V CPU cluster and a deterministic L2 memory subsystem enabling Linux and real-time applications. The family delivers up to 50% lower power than alternative FPGAs and spans from 23k to 461k logic elements and features 12.7G transceivers.
The PolarFire® SoC FPGA is built on the award-winning PolarFire FPGA architecture and is the first SoC FPGA with a deterministic,
coherent RISC-V CPU cluster and a deterministic L2 memory subsystem enabling Linux and real-time applications. The family delivers up to 50% lower power than alternative FPGAs and spans from 23k to 461k logic elements and features 12.7G transceivers.
The PolarFire® SoC FPGA is built on the award-winning PolarFire FPGA architecture and is the first SoC FPGA with a deterministic,
coherent RISC-V CPU cluster and a deterministic L2 memory subsystem enabling Linux and real-time applications. The family delivers up to 50% lower power than alternative FPGAs and spans from 23k to 461k logic elements and features 12.7G transceivers.
Out of Stock
The PolarFire® SoC FPGA is built on the award-winning PolarFire FPGA architecture and is the first SoC FPGA with a deterministic,
coherent RISC-V CPU cluster and a deterministic L2 memory subsystem enabling Linux and real-time applications. The family delivers up to 50% lower power than alternative FPGAs and spans from 23k to 461k logic elements and features 12.7G transceivers.
These flash FPGA devices are ideal for general purpose functions such as bridging functions,
input/output (I/O) expansion and conversion, system management, secure connectivity etc.
Microchip FPGAs are used by customers in Communications, Industrial, Medical, Defense, and Aviation markets.
More Resources in Low Density Devices
• ARM Cortex-M3 Processor with embedded flash
• Comprehensive microcontroller subsystem
With Clear Advantages
• Lowest Power
• Reduce total power by ~20-40%
• Proven Security
• Protection from Overbuilding and Cloning
• Exceptional Reliability
• SEU immune Zero FIT Flash FPGA Configuration
• Reliability safety critical and mission critical systems
These flash FPGA devices are ideal for general purpose functions such as bridging functions,
input/output (I/O) expansion and conversion, system management and secure connectivity.
Microchip FPGAs are used by customers in Communications, Industrial, Medical, Defense, and Aviation markets.
More Resources in Low Density Devices
• ARM Cortex-M3 Processor with embedded flash
• Comprehensive microcontroller subsystem
With Clear Advantages
• Lowest Power
• Reduce total power by ~20-40%
• Proven Security
• Protection from Overbuilding and Cloning
• Exceptional Reliability
• SEU immune Zero FIT Flash FPGA Configuration
• Reliability safety critical and mission critical systems
These flash FPGA devices are ideal for general purpose functions such as bridging functions,
input/output (I/O) expansion and conversion, system management, secure connectivity etc.
Microchip FPGAs are used by customers in Communications, Industrial, Medical, Defense, and Aviation markets.
With Clear Advantages
• Lowest Power
• Reduce total power by ~20-40%
• Proven Security
• Protection from Overbuilding and Cloning
• Exceptional Reliability
• SEU immune Zero FIT Flash FPGA Configuration
• Reliability safety critical and mission critical systems
These flash FPGA devices are ideal for general purpose functions such as bridging functions,
input/output (I/O) expansion and conversion, system management and secure connectivity.
Microchip FPGAs are used by customers in Communications, Industrial, Medical, Defense, and Aviation markets.
More Resources in Low Density Devices
Comprehensive microcontroller subsystem
With Clear Advantages
Lowest Power
Reduce total power by ~20-40%
Proven Security
Protection from Overbuilding and Cloning
Exceptional Reliability
SEU immune Zero FIT Flash FPGA Configuration
Reliability safety critical and mission critical systems
Battery charger IC I2C 1cell 3A Buck battery charger with power path and OTG
View Detail4-channel RGB/White LED driver with internal program memory and Independent channel control
View DetailOut of Stock
250-mA,1.8V, low-noise, high-PSRR, ultra-low-dropout voltage regulator with low IQ and enable
View DetailFour-bit dual-supply bus transceiver with configurable voltage-level shifting and tri-state outputs
View Detail24-bit translating 1.65- to 5.5-V I2C/SMBus I/O expander with interrupt, reset & config registers
View DetailPower good, 2.5V-5.5V input, 1A high efficiency step-down buck converter in SOT23 package
View Detail2.5V-5.5V input, 2-A high efficiency step-down buck converter in SOT23 package
View DetailPower Good, 2.5V-5.5V input, 2-A high efficiency step-down buck converter in SOT563 package
View Detail500-mA, low-IQ, high-accuracy, adjustable ultra-low-dropout voltage regulator with enable
View Detail±0.5°C 1.4V-to-3.6V digital temperature sensor with I²C/SMBus
View Detail0.5A loading, 4.5-5.5V, 97mΩ USB power switch, active-high, output discharge, reverse blocking
View Detail3.6-V, 3-A, 6.7-mΩ load switch with adj. rise time, power good, and output discharge
View Detail0.275-2.7A adj. ILIMIT, 2.5-5.5V, 70mΩ USB power switch, active-high, reverse blocking
View Detail3A Sink/Source DDR Termination Regulator w/ VTTREF Buffered Reference for DDR2, DDR3, DDR3L and DDR4
View Detail2A Peak Sink/Source DDR Termination Regulator with VTTREF Buffered Reference for DDR2/3/3L/4
View Detail2A Peak Sink/Source DDR Termination Regulator with VTTREF Buffered Reference for DDR2/3/3L/4
View Detail3-V to 28-V, synchronous buck controller with differential voltage feedback
View Detail4.5V to 28V Input, 2A Output, EMI Friendly Synchronous Step-Down Converter
View Detail4.5 V to 17 V input, 2 A output, synchronous step-down converter in Eco-mode
View Detail4.5 V to 17 V input, 2 A output, synchronous step-down converter in FCCM mode
View Detail4.5 V to 17 V input, 3 A output, synchronous step-down converter in Eco-mode
View Detail4.2-V to 18-V, 3-A, 1.2-MHz, synchronous buck converter with eco-mode and selectable FCCM
View Detail4.5V to 17V, 5A, Synchronous Step-Down Voltage Regulator in SOT23
View Detail3.8-V to 17-V, 12-A synchronous SWIFT™ buck converter with D-CAP3 control
View Detail4.5V to 18V Input Voltage, 3A/2A/2A Output Current Triple Synchronous Buck Converter
View Detail3-A, low-VIN, low-noise, ultra-low-dropout voltage regulator with power good with high-accuracy
View DetailHigh-brightness LED Matrix Manager for Automotive Headlight Systems
View Detail
The CSD95372AQ5M NexFET™ Power Stage is a highly optimized design for use in a high power, high density Synchronous Buck converters.
This product integrates the driver IC and NexFET technology to complete the power stage switching function.
The driver IC has a built-in selectable diode emulation function that enables DCM operation to improve light load efficiency.
This combination produces high current, high efficiency, and high speed switching capability in a small 5 × 6 mm outline package. It also integrates the temperature sensing functionality to simplify system design and improve accuracy.
In addition, the PCB footprint has been optimized to help reduce design time and simplify the completion of the overall system design.
TI 32-mm glass transponders provide superior performance and operate at a resonance frequency of 134.2 kHz.
Specific products are compliant to ISO 11784 and ISO 11785 global open standards.
TI LF transponders are manufactured with TI’s patented tuning process to provide consistent read and write performance. Before delivery,
the transponders undergo complete functional and parametric testing to provide the high quality that customers have come to expect from TI. The transponder is well suited for use in a broad range of applications including, but not limited to, access control, vehicle identification, container tracking, asset management,
and waste management applications.
Out of Stock
TPS23861EVM-612 Evaluation Module for Quad IEEE 802.3at PoE PSE Controller
View DetailOut of Stock
AWR6843 single-chip 60-GHz to 64-GHz automotive radar sensor antenna plug-in module
View DetailOut of Stock
AWR6843AOP evaluation module for single-chip, 60-GHz to 64-GHz, automotive radar sensor with AoP
View DetailOut of Stock
AWR1843 single-chip 76-GHz to 81-GHz automotive radar sensor evaluation module
View DetailOut of Stock
AWR6843AOP evaluation module for single-chip, 60-GHz to 64-GHz, automotive radar sensor with AoP
View DetailOut of Stock
AWR1843 single-chip 76-GHz to 81-GHz automotive radar sensor evaluation module
View Detail