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lm98765
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LM12345
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M/A-Com Technology Solutions
CD4504B
CMOS Hex Voltage-Level Shifter for TTL-to-CMOS or CMOS-to-CMOS Operation
TI
UCC28C52-Q1
Automotive, 30-V, low-power current-mode PWM controller, 14.5-V/9-V UVLO, 100% duty cycle
TI
TLV9302
Dual, 40-V, 1-MHz, low-power operational amplifier
TI
lm98765
Details
10
LM12345
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Details
100
inter
M/A-Com Technology Solutions
Details
CD4504B
CMOS Hex Voltage-Level Shifter for TTL-to-CMOS or CMOS-to-CMOS Operation
TI
Details
UCC28C52-Q1
Automotive, 30-V, low-power current-mode PWM controller, 14.5-V/9-V UVLO, 100% duty cycle
TI
Details
TLV9302
Dual, 40-V, 1-MHz, low-power operational amplifier
TI
Details
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LM12345
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SN74LV1T126-Q1
Automotive single power supply, single buffer gate w/ 3-state output (active high enable)
TXU0102-Q1
Automotive two-channel fixed-direction level shifter with channels in same direction
TXU0202
Two channel fixed-direction level shifter with channels in opposite direction
DS90UB921-Q1
5-96 MHz 24-bit Color FPD-Link III Serializer
TLV9364
Quad, 40-V, 10.6-MHz rail-to-rail output operational amplifier
TLV6002
Dual, 5.5-V, 1-MHz, RRIO operational amplifier
OPA2313
Dual, 5.5-V, 1-MHz, low quiescent current (50-μA), RRIO operational amplifier
OPA703
Single, 12-V, 1-MHz, low-offset operational amplifier
LMC6022
Dual, 15.5-V, 350-kHz operational amplifier
ti
jscj-elec
What are the applications of digital potentiometers?
2024-05-16
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2024-02-29
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How should I choose the spot integrated circuit?
2024-01-31
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What is the market size of integrated circuit?
2024-01-31
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What are the applications of digital potentiometers?
On 2024-05-16 in
3
Digital potentiometer, also known as numerical control device, is a new type of CMOS integrated circuit for mixed digital and analog signal processing. The digital potentiometer is controlled by digital input and generates analog output. According to different digital potentiometers, the maximum tap current can range from hundreds of microamps to several milliamps. The digital potentiometer adopts numerical control to adjust the resistance value, which has the remarkable advantages of flexibility, high adjustment accuracy, no contact, low noise, not easy to damage, anti vibration, anti-interference, small size, long service life and so on. It can replace the mechanical potentiometer in many fields. Potentiometer is an adjustable electronic component. It is composed of a resistor and a rotating or sliding system. When a voltage is applied between the two fixed contacts of the resistance body, the position of the contact on the resistance body is changed by rotating or sliding system, and a voltage that is certain to the position of the moving contact can be obtained between the moving contact and the fixed contact. Potentiometer is a resistance element with three leads, and the resistance value can be adjusted according to a certain change law. Potentiometers usually consist of resistors and movable brushes. When the brush moves along the resistance body, the resistance value or voltage that is related to the displacement is obtained at the output end. The potentiometer can be used as either a three terminal element or a two terminal element. The latter can be regarded as a variable resistor. Because its function in the circuit is to obtain an output voltage that is related to the input voltage (applied voltage), it is called a potentiometer. In terms of application scope, digital potentiometers are rapidly promoted at home and abroad, and are widely used in detection instruments, PCs, mobile phones, household appliances, modern office equipment, industrial control, medical equipment and other fields. For example: refrigerator, programmable computer, power supply, power meter, automatic detection equipment, optical fiber network, adjusting LCD display, voltage control, replacing mechanical potentiometer, matching linear impedance, adjusting VCOM settings.
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On 2024-02-29 in
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How should I choose the spot integrated circuit?
On 2024-01-31 in
5
Choosing the right integrated circuit (IC) for your project is crucial as it can greatly impact the performance, functionality, and cost of your design. With the wide variety of ICs available in the market, it can be overwhelming to make the right choice. In this article, we will guide you through the process of selecting the perfect IC for your application.1. Define your project requirements: Before diving into the selection process, it is essential to clearly define your project requirements. Consider the following factors:a. Functionality: Determine the specific functions and features your project requires. Make a list of the necessary inputs, outputs, and any special requirements.b. Performance: Identify the performance parameters such as speed, power consumption, accuracy, and resolution that are critical for your application.c. Cost: Set a budget for your project and consider the cost implications of different IC options.d. Package: Decide on the package type and size that suits your project's mechanical constraints.e. Support: Research the availability of technical support, documentation, and community resources for the chosen IC.2. Research available ICs: Once you have a clear understanding of your project requirements, start researching the available ICs in the market. Consider the following sources:a. Manufacturer's websites: Visit the websites of reputable IC manufacturers to explore their product catalogs, datasheets, and application notes. These resources provide detailed information about the IC's specifications, features, and recommended applications.b. Distributor websites: Online distributors like Digi-Key, Mouser, and Arrow Electronics offer extensive catalogs of ICs. Utilize their search filters to narrow down your options based on your project requirements.c. Technical forums and communities: Participate in online forums and communities related to your project's field. Seek advice from experienced individuals who have worked on similar projects or have expertise in the specific ICs you are considering.d. Application notes and reference designs: Many IC manufacturers provide application notes and reference designs that showcase the implementation of their ICs in real-world scenarios. These resources can provide valuable insights into the performance and suitability of specific ICs for your application.3. Compare and evaluate ICs: Once you have gathered a list of potential ICs, it's time to compare and evaluate them based on your project requirements. Consider the following factors:a. Specifications: Compare the specifications of different ICs, such as operating voltage, current consumption, speed, temperature range, and input/output compatibility. Ensure that the IC meets or exceeds your project's requirements.b. Features: Evaluate the additional features offered by each IC. Determine if these features are necessary for your project or if they add unnecessary complexity and cost.c. Availability: Check the availability and lead times of the ICs you are considering. Ensure that the ICs are in stock or have a reliable supply chain to avoid delays in your project.d. Cost: Compare the prices of different ICs and consider their long-term cost implications. Take into account any additional components or peripherals required for the IC's operation.e. Reliability: Research the reliability and reputation of the IC manufacturer. Look for customer reviews, ratings, and any known issues with the ICs you are considering.4. Prototype and test: Before finalizing your choice, it is advisable to prototype and test your design using the selected IC. This will help you verify its performance, compatibility, and suitability for your project. If possible, order a small quantity of the IC for testing purposes.5. Finalize your selection: Based on the evaluation and testing, finalize your selection of the IC that best meets your project requirements. Consider factors such as performance, cost, availability, and support.6. Document your decision: Once you have chosen the IC, document your decision-making process, including the reasons for selecting the specific IC. This documentation will be helpful for future reference and can assist in troubleshooting or redesigning your project if needed.In conclusion, choosing the right IC for your project requires careful consideration of your project requirements, thorough research, and evaluation of available options. By following the steps outlined in this article, you can make an informed decision that will ensure the success of your project.
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What is the market size of integrated circuit?
On 2024-01-31 in
1
Title: The Expanding Market Size of Integrated Circuits: A Technological RevolutionIntroduction (150 words) The integrated circuit (IC) industry has witnessed remarkable growth over the past few decades, becoming an integral part of modern technology. This article aims to explore the market size of integrated circuits, highlighting the factors driving their expansion and the potential future trends. With a focus on the global market, we will delve into the various applications of ICs, their market segmentation, and the key players shaping the industry.1. Historical Overview (200 words) The integrated circuit, also known as a microchip, was first developed in the late 1950s, revolutionizing the electronics industry. Initially, ICs were expensive and limited in functionality, but advancements in manufacturing processes and design techniques have led to their widespread adoption. The market size of integrated circuits has grown exponentially since then, driven by factors such as increasing demand for consumer electronics, automotive applications, and the rise of the Internet of Things (IoT).2. Market Segmentation (250 words) The market for integrated circuits can be segmented based on various factors, including application, type, and geography. Application-wise, ICs find extensive use in sectors such as telecommunications, automotive, industrial, healthcare, and consumer electronics. Each segment has its unique requirements, leading to the development of specialized ICs tailored to meet specific demands.3. Key Drivers of Market Growth (300 words) Several factors contribute to the expanding market size of integrated circuits. Firstly, the proliferation of smartphones, tablets, and other portable devices has significantly increased the demand for ICs. Additionally, the growing adoption of IoT devices, smart homes, and wearable technology has further fueled the demand for ICs with low power consumption and high performance.Moreover, the automotive industry has witnessed a surge in the use of ICs for advanced driver-assistance systems (ADAS), infotainment systems, and electric vehicle components. The increasing focus on autonomous vehicles is expected to drive the demand for ICs even further.Furthermore, the industrial sector has embraced automation and robotics, leading to a surge in demand for ICs used in control systems, sensors, and actuators. The healthcare industry also relies heavily on ICs for medical devices, imaging systems, and diagnostics.4. Global Market Analysis (300 words) The global market for integrated circuits is dominated by major players such as Intel, Samsung Electronics, Qualcomm, and Texas Instruments. Asia-Pacific holds the largest market share, driven by the presence of key semiconductor manufacturers in countries like China, South Korea, and Taiwan. North America and Europe also contribute significantly to the market size, owing to their strong technological infrastructure and high consumer demand.5. Future Trends and Challenges (200 words) Looking ahead, the market size of integrated circuits is expected to continue its upward trajectory. The emergence of 5G technology, artificial intelligence, and machine learning will drive the demand for more powerful and efficient ICs. Additionally, the increasing focus on renewable energy and sustainability will create opportunities for ICs in the field of energy management and storage.However, the industry faces challenges such as rising manufacturing costs, intellectual property concerns, and the need for continuous innovation to keep up with evolving technologies. Addressing these challenges will be crucial for sustained growth in the market.Conclusion (150 words) The market size of integrated circuits has witnessed remarkable growth, driven by the increasing demand for consumer electronics, automotive applications, and the IoT. The industry's future looks promising, with emerging technologies and applications set to further expand the market. However, addressing challenges such as manufacturing costs and intellectual property concerns will be vital for sustained growth. As ICs continue to revolutionize various sectors, their market size is expected to reach new heights, shaping the future of technology.
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