ROHM’s New LDO <span style='color:red'>Regulators</span> with 500mA Output Current Achieving Stable Operation Even with Ultra-small Capacitors to Expand Design Flexibility for High-current Applications
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ROHM’s New LDO Regulators with 500mA Output Current Achieving Stable Operation Even with Ultra-small Capacitors to Expand Design Flexibility for High-current Applications

  ROHM has developed the “BD9xxN5 Series” of LDO regulator ICs with 500mA output current, featuring its proprietary ultra-stable control technology “Nano Cap™”. This series comprises 18 products designed for 12V/24V primary power supply applications used in automotive equipment, industrial equipment, and communication infrastructure.  In recent years, electronic devices have demanded higher density in smaller form factors at the same time. To meet this demand and achieve space savings and design flexibility, power supply ICs must be capable of stable operation even with small-capacity capacitors. However, achieving such performance with output capacitors of 1µF or less has been technically difficult.  To address this challenge, ROHM developed the “BD9xxN1 Series” LDO regulator (150mA output current) in 2022, incorporating its proprietary ultra-stable control technology, “Nano Cap™”. This innovation enables stable operation with output capacitors as small as 100nF, earning widespread adoption across numerous applications.  The newly developed BD9xxN5 Series builds on the success of the BD9xxN1 Series by increasing the output current to 500mA – more than three times higher than before – significantly broadening its suitability for applications requiring higher power. In addition, very low output voltage ripple of approximately 250mV (with load current variation of 1mA to 500mA within 1µs) is achieved with a small output capacitance of just 470nF (typical). Beyond standard small MLCCs (multi-layer ceramic capacitors) in the range of several µF and large-capacity electrolytic capacitors, it also supports ultra-small MLCCs, such as the 0603M size (0.6mm × 0.3mm), with capacities below 1µF – where stability was previously difficult to achieve. This contributes to space saving as well as greater flexibility in component selection.  Furthermore, high-precision SPICE models, “ROHM Real Model” are provided for accurate simulation and can be downloaded from the ROHM official website.  SPICE Models: BD900N5xxx-C BD933N5xxxx-C BD950N5xxxx-C  ROHM will continue to contribute to the high performance, miniaturization, and high reliability of electronic devices by further expanding its Nano Cap™ technology-equipped LDO series.  Application Examples  Automotive Equipment  ● Powertrain system power supplies for fuel injection systems (FI) and tire pressure monitoring systems (TPMS)● Body system power supplies for body control modules (BCM)● Infotainment system power supplies for clusters ad head-up displays (HUD), etc.Industrial Equipment  ● Power supplies for controllers like Programmable Logic Controllers (PLC), Remote Terminal Units (RTU), and industrial gateways● High-precision LDOs for analog loads and sensors measuring temperature, pressure, flow rate, etc.● Power supplies for monitoring and control panels in disaster prevention systems, access control systems and building automation.● Standby power supplies for Human-Machine Interfaces (HMI) and panel equipment, etc.Consumer Electronics  ● Power supplies for control boards in refrigerators, dishwashers, air conditioners, etc.● Power supplies for home appliances like thermostats and doorbells● Power supplies for constant power applications in home security and network equipment, etc.  What is Nano Cap™ Technology?  Nano Cap™ refers to ultra-stable control technology achieved by combining advanced analog expertise covering circuit design, processes, and layout utilizing ROHM’s vertically integrated production system. Stable control eliminates the problem of unstable operation related to capacitors in analog circuits, contributing to a reduction in design resources for a wide range of applications in automotive, industrial equipment, consumer, and other fields.  Terminology  Primary  In a power supply circuit, the side in charge of 1st stage conversion from a power source such as a battery is called the primary and the side responsible for 2nd stage conversion is referred to as the secondary.  LDO Regulator (Low Drop Out Regulator / Low Saturation Regulator)  A type of power supply IC that converts between two different DC voltage levels. Falls under the category of linear regulator (where the input/output voltages operate linearly) characterized by a small input-output voltage difference. Compared to DC-DC converter ICs (switching regulators), LDOs feature a simpler circuit configuration and lower noise.  ROHM Real Model  A high-accuracy simulation model that make it possible to also achieve a perfect match between the actual IC and simulation values utilizing ROHM’s proprietary model-based technology.
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Release time:2026-01-27 13:47 reading:284 Continue reading>>
A Comprehensive Guide to Choosing Between LDO (Low Dropout Linear <span style='color:red'>Regulators</span>) and DC-DC (Switching <span style='color:red'>Regulators</span>)
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A Comprehensive Guide to Choosing Between LDO (Low Dropout Linear Regulators) and DC-DC (Switching Regulators)

  Selecting the appropriate voltage regulator is critical for the stability and efficiency of various circuit systems. Among the numerous types available, LDO (Low Dropout Linear Regulators) and DC-DC (Switching Regulators) are two common voltage stabilizers. This article will thoroughly explore the selection methods for LDO and DC-DC regulators, covering concepts, operating principles, characteristics, and application scenarios.  A Comprehensive Guide to Selecting LDO (Low Dropout Linear Regulators) and DC-DC (Switching Regulators)  1. LDO (Low Dropout Linear Regulator)  1.1 Concept  LDO stands for Low Dropout Regulator, typically used to regulate high input voltages to lower output voltages. It achieves stable output voltage by adjusting the conduction resistance of its internal transistor.  1.2 Working Principle  When the input voltage exceeds the output voltage, the internal transistor enters an amplified state. It dissipates excess power to regulate the output voltage, maintaining it at the set value.  1.3 Characteristics  Simple design, low noise, relatively low cost, suitable for applications requiring high precision. However, it has low efficiency and significant thermal distortion.  2. DC-DC (Switching Regulator)  2.1 Concept  DC-DC refers to a switching regulator (DC-to-DC Converter) that converts input voltage to the desired output voltage by switching the state of a switching element (e.g., MOSFET).  2.2 Working Principle  DC-DC operates by periodically turning the switching element on and off to control the output voltage magnitude, while a filter removes high-frequency noise from the output waveform.  2.3 Features  High efficiency, capable of delivering substantial output power, suitable for applications requiring large voltage drops or enhanced efficiency, but involves complex design and relatively higher cost.  3. How to Select?  3.1 Output Voltage Range  For lower output voltages, an LDO is more suitable; whereas for large voltage drops or higher output power requirements, a DC-DC converter is more appropriate.  3.2 Efficiency Requirements  When prioritizing power efficiency, especially under large voltage drops, DC-DC converters typically outperform LDOs.  3.3 System Complexity  LDOs may be preferable for simplified design and cost reduction; DC-DC converters are necessary when higher output power and efficiency are required.  3.4 Ripple and Noise  In applications sensitive to output ripple and noise, LDOs are generally more suitable than DC-DC converters because they produce lower ripple and noise.  4. Application Scenarios  4.1 LDO Application Scenarios  Applications requiring high output voltage accuracy, low output current, and strict ripple/noise specifications.  4.2 DC-DC Applications  Applications requiring large voltage drops, high output power, and high efficiency, such as mobile devices, power amplifiers, and communication equipment.  4.3 Comprehensive Considerations  In practical applications, the optimal regulator type must be selected by comprehensively evaluating system power consumption, output load conditions, stability requirements, and cost factors.  As common voltage regulators, LDOs and DC-DC converters play vital roles in electronic product design. Selecting the appropriate regulator type depends on specific application requirements, including output voltage range, efficiency demands, system complexity, and ripple noise. During the selection process, a comprehensive evaluation of all factors is necessary to ensure the circuit system operates stably, reliably, and efficiently.
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Release time:2025-12-31 17:31 reading:840 Continue reading>>
China's Tencent falls 3% after disappointing earnings and scrutiny from Chinese regulators
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China's Tencent falls 3% after disappointing earnings and scrutiny from Chinese regulators

A flag bearing the Tencent logo is displayed alongside a Chinese flag outside the company's offices in Beijing, China.Tencent's stock was in focus after the company posted a quarterly earnings report on Wednesday that missed analyst expectations.Thursday morning trade saw the Chinese tech giant's Hong Kong-listed stock sliding around 3 percent following the news. The company's profit for the quarter ending in June dipped 2 percent to 17.87 billion yuan ($2.59 billion), which was weaker than analysts had anticipated. That was also the first decline in profit for the company in almost 13 years."The disappointment will be broad based from these results, particularly in a market that's still sensitive to the downside globally at the moment," said Douglas Morton, head of research at Northern Trust Capital Markets.Being more specific in his critique of Tencent's performance, Leo Sun, a technology specialist at The Motley Fool, said: "The big surprise was definitely the online gaming business."Speaking with CNBC's "Squawk Box," Sun said the 6 percent year-over-year growth from the segment was "pretty disappointing" as it usually reports numbers in the double digits. Furthermore, he added, most of the growth came from older games such as "Honor of Kings."To exacerbate matters, Sun pointed to the company's reported 19 percent sequential fall in smartphone gaming revenue, saying it is a result of Tencent's inability to obtain regulatory approval for the sale of in-game items in the mobile version of the popular battle royale game "PlayerUnknown's Battlegrounds."According to the Wall Street Journal, the roadblock toward approvalis largely due to "PlayerUnknown's Battlegrounds" being a product developed by a company out of South Korea, a country that has had strained ties with China."PC games were also a problem," Sun said, pointing to an 8 percent sequential fall in revenues as personal computer gamers made the transition toward mobile devices.Regulatory woes likely to be 'short-term'The further fall in Tencent's stock comes days after it removed the game "Monster Hunter: World" from its WeGame distribution platform following multiple complaints by Chinese regulatory authorities. That move has led some to question the possibility of more regulatory woes ahead for the tech giant.The removal of "Monster Hunter: World" a week into the title's China launch "really hurt," Sun said, adding, however, that it is unlikely to be permanent due to the importance of video games in Chinese tech.Such issues with regulators are not new for Tencent, he told CNBC, saying the company has made tweaks to games such as "Honor of Kings" and Activision Blizzard's "World of Warcraft" in the past to satisfy the demands of regulators.Echoing that sentiment, Morton said the Chinese regulatory environment "has always been stretched."Additionally, Morton said, changes at the top of the Chinese regulator and the global rise in popularity of what he terms "tactical tournament games" have likely led the authorities to be "slightly more cautious than they otherwise would be.""Eventually, the games will probably be approved again, but for now, there'll probably be a bit of short-term pain," Sun said.
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Release time:2018-08-20 00:00 reading:1406 Continue reading>>
EU <span style='color:red'>Regulators</span> Again Halt Qualcomm-NXP Investigation
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EU Regulators Again Halt Qualcomm-NXP Investigation

  European Union regulators have for a second time put the brakes on their investigation into the proposed $38 billion acquisition of NXP Semiconductors by Qualcomm.  The European Commission said in a posting on its website that the investigation was suspended on Aug. 17. The Reuters news service reported Wednesday (Sept. 6) that Qualcomm and NXP failed to supply regulators with key information about the proposed merger and that the investigation would resume after the information was received.  Qualcomm (San Diego) announced last October the deal, valued at about $38 billion, to acquire NXP (Eindhoven, the Netherlands). The EU launched an investigation into the proposed acquisition in June, citing concerns into the merged entity's position in NFC, mobile devices and vehicle-to-vehicle and vehicle-to-infrastructure technology.  The suspension marks the second time that EC regulators have paused the investigation to await documents from the firms. They also suspended the acquisition in June, shortly after it began.  The deadline for regulators to conclude their investigation is Oct. 17. According to the Reuters report, the EC will specify a new target date for completion of the investigation once they receive the requested information.  Analysts do not generally believe that there is much danger that the acquisition will be nixed by regulators. The two companies' product portfolios generally speaking have very little overlap, and the deal has already received a green light from regulators in the U.S. and elsewhere.  Neither the EC website or the Reuters report specified what information the regulators are waiting for. Both Qualcomm and NXP did not immediately respond to a request for comment on the issue by EE Times.
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Release time:2017-09-07 00:00 reading:1349 Continue reading>>

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