The Kynix Blog

Apacer Technology has launched the DDR4 VLP Mini RDIMM memory module for networking, telecommunications and embedded systems, as it responds to key trends such as cloud computing, IoT and big data in the networking industry worldwide in recent years. Compliant with new generation ATCA (Advanced Telecommunications Computing Architecture) specifications for telecommunications and communication equipment, the DDR4 VLP Mini RDIMM memory module measures 0.738" high. It is suitable for space-constrained 1U rack systems, blade servers and embedded systems, effectively improving heat dissipation, and improving system stability and reliability.Networking and telecommunication specifications in the past were complicated and not standardised, causing many unnecessary problems in system design. ATCA is a new series of open architecture specifications developed for networking, telecommunications and industrial automation computer products. This series of specifications allows networking, communication and storage devices to be integrated on a single platform, greatly lessening the burden of monitoring and management. Adopting the common industry platform, Apacer’s new DDR4 VLP Mini RDIMM memory module fits into networking and communication equipment, such as router, gateway and switch, and embedded industrial automation equipment, reducing R&D costs and shortening time to market. Its expandability also provides convenience in the integration of the networking environment.JEDEC-compliant Apacer DDR4 VLP Mini RDIMM memory module measures only 80mm long, which is 60% the length of the standard 133mm RDIMM. Available in 4 and 8GB capacities, its 1.2V ultra-low operating voltage is up to 30% more power saving. The DDR4 also supports deep power-down mode, reducing close to 50% standby power consumption. Its power efficiency is particularly significant in satisfying the requirement for low power consumption in industrial embedded, networking and server systems. It is equipped with ECC function to ensure memory access reliability and data integrity, and has built-in thermal sensor that monitors temperature changes during memory module operation and optimises power use. Apacer DDR4 VLP Mini RDIMM memory module demonstrates high-speed transmission and low power consumption within space-constraint systems. Furthermore, its ATCA-compliance allows for system integration, providing the highest quality and stability. Ref:KY32-AT49BV162AT(T)KY32-K9T1G08U0M-YIBOKY32-CY7C131E-55NXI

Two microcontroller lines from STMicroelectronics increase energy efficiency, flexibility, and feature integration at the high end of the STM32F4 Access Line for high-performance embedded designs. Qualified up to 125°C, these STM32 devices target always-on sensor acquisition and general-purpose industrial applications and present a robust and cost-effective upgrade from STM32F1 MCUs. The STM32F413 and crypto-enhanced STM32F423 integrate up to 1.5MB Flash and dense SRAM of 320KB. These are the most highly featured of the STM32F4 Access Lines, with rich audio capabilities including a Serial Audio Interface (SAI) and an enhanced voice-acquisition interface with multi-channel Digital Filter for Sigma-Delta Modulators (DFSDM) that enables low-power sound localisation and beam forming. The devices also provide peripheral integration, with two 12-bit Digital-Analogue Converters (DACs), up to 10 UARTs, and three CAN 2.0B active interfaces. The crypto-enhanced STM32F423 also has a True Random-Number Generator (TRNG) and AES-256 cryptographic hardware accelerator.Sitting at the top of the STM32F4 Access Lines, the MCUs introduce a 100MHz dual-mode Quad SPI for connecting serial off-chip memory, 16-bit Flexible Memory Controller (FMC) for external SRAM, PSRAM or NOR Flash, up to 16-bit QVGA or 8-bit WQVGA LCD interface, and USB OTG with Link Power Management (LPM) and dual power rails that save external level shifting.In addition, both lines feature a RAM-access scheme that uses the Instruction and Data (I/D) buses and the System BUS (SBUS) to connect to separate RAM1 (256KB) and RAM2 (64KB) areas thereby minimising contentions. An enhanced DMA Batch Acquisition Mode (BAM+) takes advantage of these separate RAM1 and RAM2 areas to process code and data extremely efficiently in sensor-hub applications.Delivering high performance, the STM32 microcontrollers combine the 100MHz 125DMIPS/339 EEMBC CoreMark ARM Cortex-M4 core with ST’s power-saving Dynamic Efficiency technologies that cut RUN mode current up to 112µA/MHz. These Dynamic Efficiency technologies include the ST ART Accelerator for zero-wait execution from Flash, and the supply-voltage extending down to 1.7V, to maximise the battery life of always-connected devices.Designers can immediately start their projects using the NUCLEO-F413ZH development board. This STM32 Nucleo-144 board comes with the ST-LINK/V2-1 debugger/programmer, software libraries and examples, and can be used directly with ARM mbed online resources. Ref:KY32-STM32F401CBU6KY32-STM32F401CCU6KY362-STM32F401C-DISCO

ST announced last week the world’s most powerful implementation of the ARM® Cortex®-M7 processor for the embedded market. Come and see it in action on our booth Hall 5, Stand 207. It is more than twice as fast as the STM32F7 series, the previous STM32 flagship series, meaning that its core frequency of 400 MHz has enabled ST to become the first ever to reach 2010 points in CoreMark with a Cortex-M MCU. This is possible because ST is the first to have shrunk its M7 implementation from a 90 nm process node to 40 nm. Although some manufacturers have started or are about to start mass producing SoCs in 10 nm technologies, it is important to understand that these components only have digital circuits, unlike ST’s embedded MCU, which includes digital circuitry as well as Flash memory, and analog components which require much more complex processes.Some reasons other than the technology shrink that enable the STM32H7 to set new performance records are detailed below.Three Domains, Memory-PackedTo optimize the STM32H7, its architecture has been divided into three domains. Very simply, the first one (D1) includes the core with its cache, Flash memory and high bandwidth peripherals like the module to drive a screen or the Chrom-Art graphics engine. D2, the connectivity domain, groups low-speed peripherals like USB, the cryptographic accelerator and the SD/MMC2 unit for storage. Finally, D3, the batch acquisition mode domain, is responsible for some of the most fundamental aspects of the MCU like its reset and clock control as well as ADCs, GPIO, RTC, the chip’s power management and a basic DMA (BDMA) controller.This structure allowed ST to design a flexible and efficient architecture that packs a massive internal memory compared to some STM32F7 series. Tthe L1 Cache is now four times bigger with 16 KB for instructions and the same amount for data. ST also included a total of 1 MB of SRAM and 2 MB of Flash, which is three times and twice as much respectively as the previous generation. However, instead of using a single block of SRAM, that would only benefit a certain domain, the STM32H7 placed various amounts at different locations to make the memory more versatile.Optimized Memory and FPUAnother great feature of the STM32H7 series is the ability to use ECC SRAM and Flash. The speed increase compared to the STM32F7 series is so high that ST now has the computational resources to add error correction and still break performance records.  By providing ECC, ST not only ensures data integrity, but also improves data retention in the Flash.The inclusion of a double precision (FP64) floating point unit may not always be obvious, but some of the products that will benefit the most from the STM32H7 series need to perform DSP-type computations. For instance, an embedded system that monitors a power grid and will need to compute fast Fourier Transform algorithms, or a connected device that will run a precise GPS system will rely heavily on double precision computations.The STM32H7 series also builds on the previous generation by adding 10 more communication peripherals, making a total of 35, it still offers cryptographic and hashing hardware acceleration, and remains pin to pin as well as software compatible with the STM32F7 series.Power Saving FeaturesDespite all this performance the STM32H7’s dynamic power consumption is 50% lower at only 250uA/MHz and it is possible to put D1 and D2 in a very low-powered standby mode (7µA) while D3 continues to capture data in its SRAM without needing to wake up the other domains, therefore greatly saving energy. There’s also a complex and elaborate clock-control scheme to ensure that different parts of the architecture run at varying speeds in order to further improve the MCU’s efficiency.The record-breaking STM32H7 series is sampling today to specific partners, and will be in mass production in Q2 2017. At this time, ST will have updated the mbed development platform to ensure developers can take full advantage of this groundbreaking architecture.More information about the STM32H7 series may be found on ST’s blog post or on it’s website. More information about ST’s Electronica presence, including the presentation program, can be found on the dedicated event pages.Meet also with the ST teams on the electronica Fast Forward startup platform. Ref:KY32-STM32F745IEK6KY32-STM32F745IGK6KY362-STM32F746G-DISCO 

The days of making a prototype board by hand by the artist are long gone. For many years, the ability to make one's own PCBs was the characteristic of an ideal design engineer (or a big shot electronic hacker). The art of making a homemade PCB has progressed over time, beginning with the use of ferric chloride solutions and progressing to laser toner printers and, more recently, 3D printers. The commercial PCB manufacturing process has evolved in tandem with the evolution of "homemade technology." Over the last few decades, the manufacturing process of the PCB (and the businesses involved in it) have expanded by leaps and bounds. The use of materials changed, and the cost of production dropped like never before, ushering in the age of affordable PCB prototype service by full scale pcb manufacturers. Designers seldom approached a full-service PCB manufacturer to print a prototype in the early days. Designers either created a prototype of their own or, in the majority of cases, approached a small-scale board manufacturer to have their images created. In those days, the expense of printing a prototype was prohibitively expensive. As technologies and processes have advanced, both designers now shift to full-service PCB manufacturers for prototyping. The advancement of technology and modern processes allowed full-scale PCB manufacturers to print prototypes and small volumes at a much lower cost than in the past. Let's dig a little deeper to see what are the 10 most important items a designer should consider when selecting a PCB prototype service are.How to Choose the Right PCB Prototype Service ? 1. CostThe first criterion to consider when selecting a PCB partner should be consistency. The prototype you print should be error-free (like a missing print or a small drill hole than the actual design). The materials selected by the PCB printing company should be free of flaws. All of these factors add up to consistency. The PCB manufacturer's quality is critical for getting your prototype correct and working. You may evaluate quality by examining the services provided by a PCB manufacturer. Examine how seriously they take a prototype client when it comes to PCB prototype operation. What is the significance of this PCB prototype service business to a specific manufacturing company? You may also speak with the customer service representatives to see how knowledgeable they are about the prototype service. A good company/manufacturer that is serious about prototype service will almost certainly have a separate segment dedicated to prototype service only. Their website will have details on the subject. Customer service will be very knowledgeable and supportive. Finally, before making a decision, conduct research on the internet about a specific manufacturer, especially in forums and communities. ALLPCB, Sunstone, EuroCircuits, 4PCB, and EpecTec are some PCB manufacturers that provide high-quality prototype services based on my experience (and other reviews). 4PCB is the only one of these five firms that does not have a dedicated section for prototype printing. Sunstone and AllPCB have whole parts devoted to prototyping services. Services for all PCBs start as low as $5 USD. 2. MOQ (Minimum Order Quantity)The minimum order quantity requested by the manufacturer, in my opinion, should be the second criterion in selecting a PCB prototype service. A prototype is a concept that is in its early stages and is subject to alteration. If a PCB manufacturer wants you to order a much larger minimum quantity (usually measured and quoted in square inches) than you can afford (or far exceeds your budget), you can avoid that manufacturer. The majority of manufacturers are willing to negotiate on this point.As a designer, you will negotiate with the manufacturer for potential orders. The main point here is that a MOQ that appears low or inexpensive to one designer (or design/production company) can be prohibitively expensive to another.33. CostThe cost/price quoted by the PCB manufacturer is the third factor to consider. In reality, the PCB printing industry is a highly competitive one. With the internet at their fingertips (4G and smartphones), everyone can search and compare quotes from various PCB manufacturing companies in a matter of hours. Because of the highly competitive climate, it is unlikely that there would be a significant difference in prices quoted by various manufacturers. Bear in mind that quality and price do not go together! Manufacturers with superior technologies, high-quality products, and overall quality would undoubtedly charge a higher price than their competitors. My advice is always to prioritize quality over price. Consider the following scenario: you had to reprint the prototype due to poor quality or a problem on the manufacturer's end. Weighing the additional cost (for reprinting) and time loss, I would probably choose a reputable manufacturer with good quality, even if the price is slightly higher.4. Turnaround TimeFast delivery of your prototype from the order date is a critical criterion to consider when selecting a PCB prototype service partner. It's pointless if a manufacturer takes two weeks from the order date to ship your prototype. The majority of prototype projects have strict deadlines. Typically, a manufacturer quotes 5 days or more to ship the prototype from the day the order is approved (Gerber files accepted). There are providers that provide quicker service as well; for example, ALLPCB provides prototype delivery within 2 to 3 days of Gerber file approval. EuroCircuits, a well-known PCB manufacturer, charges between 2 and 7 days for their prototype operation. Sunstone, another big player, provides a time guarantee in which they guarantee a refund if they fail to ship on the agreed-upon date. However, they are not as fast as the ALLPCB men, typically taking more than 5 days to complete an order (the maximum lead time of Sunstone is around 3 weeks). 5. Customization OptionsPrototypes are subject to alteration until they take on their final form. They can change scale, parts, and, in some cases, the entire form. It is difficult for any manufacturer to provide customizations on the fly. If customizations are important to you, look for a manufacturer who has the necessary equipment and facilities to provide what you want. 6. International DeliveryCheck to see if the manufacturer you've narrowed down offers delivery to your country, particularly if you're working with an overseas printing business. The majority of full-service manufacturers have foreign shipping to almost all business countries. The majority of designers now work with PCB manufacturers in China, who provide high-quality PCBs at a low cost. The majority of these well-established Chinese businesses provide worldwide shipping. 7. Instant Quote Facility The majority of well-known manufacturers provide instant quotes on their websites. Often go with manufacturers who provide this online quote service. Instant quotes provide us with an idea of the costs involved. 8. Industry ExperienceUnique and advanced projects need prior expertise in a specific industry. For example, if you're working on a communication technology project, it's best to work with a vendor that has a proven track record in the same industry. Similarly, as the number of layers on your board grows, go with existing players who are well-versed in multilayer printing. 9. Multi Disciplinary Services If you intend to outsource services such as PCB assembly, you should look for a manufacturer that provides a variety of options.10. Safe Packing & ShippingFinally, be certain that the manufacturer you choose adheres to healthy packaging and shipping practices. Nobody wants their goods to be harmed during delivery. If you need faster delivery, see if the manufacturer provides express shipping (often at a higher price). Ref:KY66-G6EU-134P-US DC6KY66-EF2-5NUKY66-G6K-2G-Y-DC4.5

New industrial-grade microSDHC/XC memory cards have been launched by Apacer Technology which are custom-built for video monitoring equipment to endure long hours of continuous data writing. Not only are Apacer microSDXC UHS-1(U3) memory cards available in capacities ranging from 4-128GB, their Ultra High Speed Class 3 specification also supports smooth Full-HD, 3D and 4K video recording, which is particularly significant in video monitoring applications that require continuous recording and sustain high wear rate.  Their durability, endurance and performance make them suitable for surveillance video recorders, dashcams for fleet vehicles and government use, and webcams.High-endurance memory cards, high-reliability assuranceUnlike those used for photographs and storing small files, Apacer memory cards are designed to endure extensive write cycles. Industrial-grade high-endurance microSDHC/XC memory cards are developed for security surveillance equipment that requires all-year-round uninterrupted data writing, ensuring high-quality images and data integrity required for long-lasting video recording. When using the 128GB ultra high capacity microSDXC memory card to record Full-HD in 20FPS, it can record for up to 20,000 hours; in loop recording, it can store 32 hours of video footage with automatic write-over. In an emergency when both quality and performance are required in the video surveillance system, Apacer microSD memory cards protect and store data securely, providing high endurance and high capacity.Improved speed, enhanced access performanceFeaturing Ultra High Speed Class 3 (U3) specification, Apacer microSD memory cards have maximum read/write speed of 75/65MB per second. The memory cards also support ECC (Error Correcting Code) to automatically check data and provide timely error correction, preventing data loss and damage, and increasing data accuracy and integrity. When teamed with 128GB (SDXC) large capacity, they become a suitable storage device for security surveillance systems.All Apacer microSDHC/SDXC memory cards are temperature-resistant, shockproof, waterproof, anti-static and x-ray-proof, allowing surveillance systems to operate reliably in a harsh environment. The memory cards also feature high quality MLC flash memory chip and customised firmware optimised management tools, such as write protect which prevents precious data from being written over or erased by mistake. Furthermore, the memory cards support ECC to reduce data error arising from constant overwrite, and wear-leveling and S.M.A.R.T. techniques which automatically monitor memory health status, improving product reliability and lifespan. Ref:KY32-K9T1G08U0M-YIBOKY32-CY7C1357S-100AXCKY32-70V639S10BC8

The BHA250 low-power sensor hub and BHI160 ultra-low power sensor hub from Bosch Sensortec is now in stock at distributor Mouser Electronics . Designed specifically for always-on sensor applications in smartphones running the Android operating system, the BHA250 and BHI160 enable designers to offload sensor processing from the main processor, which can reduce power consumption and extend battery life.  The sensor hubs integrate a best-in-class 3-axis MEMS accelerometer (BH250) or 6-axis gyroscope/accelerometer inertial measurement unit (BH160) with the new Bosch Sensortec digital signal processor, Fuser Core.The Fuser Core is a 32-bit floating-point microcontroller optimised to execute Bosch Sensortec's sensor fusion and activity-recognition algorithms with ultra-low power consumption — up to 95 percent less than that of other microcontrollers.The BHA250 and BHI160 are specifically designed for applications in Android smartphones — implementing a full Android sensor stack inside the devices to provide a flexible, low-power solution for always-on motion sensing and sensor data processing. In both devices, the 32-bit Fuser Core microcontroller features 96 kBytes of ROM, including the BSX sensor fusion library, and 48 kBytes of RAM for additional drivers, local data buffering, or feature updates.The devices provide up to three general-purpose input/outputs (GPIOs) and a high-speed I2C interface with data rates up to 3.4 MBit/s for power-efficient data transfer.They meet the requirements of smartphones, wearables, and other applications that demand highly accurate, real-time motion data at very low power consumption.Mouser also offers corresponding shuttle boards for the sensor hubs. Both the BHA250 shuttle board and BHI160 shuttle board, available to order from Mouser, include four external magnetometers that can be connected to the sensor hubs using the available jumpers on the PCB.The shuttle board allows easy access to the sensor‘s pins via a simple socket and can be plugged into the Bosch Sensortec Application Board. Ref:KY45-AD22293ZKY45-SS16-3KY45-TLE4998P3