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The MTD6505 is the latest addition to Microchip's sinusoidal, sensorless, 3-phase BLDC fan motor driver portfolio. It is the industry’s first and only standalone, resistor-programmable driver that enables the selection of multiple back-EMF coefficient ranges. This unique feature allows engineers to design for a wide variety of 3-phase BLDC fan characteristics with a single device, thus saving time and money by standardizing multiple product lines on one driver and very few external components. Additionally, the low-cost driver comes in a 3x3 mm UDFN package with a 0.5 mm thickness for space-constrained applications, such as thin laptops and tiny BLDC fans. For more info, visit: www.microchip.com/get/G0JS
Microchip announced two families of new high-speed A/D converters in the MCP37DX1-200 and MCP372X1-200 families. These families feature 12-, 14- and 16-bit pipelined A/D converters with a maximum sampling rate of 200 Mega samples per second (Msps). The 14- and 16-bit devices feature high accuracy of over 74 dB Signal-to-Noise Ratio (SNR) and over 90 dB Spurious Free Dynamic Range (SFDR), while the 12-bit devices have 71.3 dB SNR and 90 dB SFDR. This enables high-precision measurements of fast input signals. These families operate at very low-power consumption of 490 mW at 200 Msps including LVDS digital I/O. Lower power-saving modes are available at 80 mW for standby and 33 mW for shutdown. For more info, visit: www.microchip.com/MCP37DX1-200_MCP372X1-200-Page--111214a
Microchip announced the completion of its high-accuracy, 1-8 channel, single and poly-phase MCP391X energy-measurement Analog Front End (AFE) family. The new MCP3919 and MCP3912 members integrate three and four channels of 24-bit, delta-sigma Analog-to-Digital Conversion (ADC), respectively, with industry-leading accuracy of 93.5 dB SINAD, -107 dB THD and 112 dB SFDR for precise signal acquisition and higher-performing end products. These are the optimal numbers of channels for single-phase energy meters with neutral monitoring (3-channel); or single-phase, three-wire energy meters (4-channel). The high level of integration on the new AFEs also includes a low-drift voltage reference, programmable gain amplifiers, phase-delay compensation and cycle redundancy check (CRC). For more info, visit www.microchip.com/MCP3912
Questo oggetto è uscito dalla mia bocca poco fa. Secondo voi cosa può essere?
This little thing just came out from my mouth...I wonder what it is! Any idea?
Microchip Technology's RE46C162/3 Ion smoke-detector ICs make it easy to quickly determine which detector in an interconnected loop triggered an alarm. The ICs’ low energy use enables smoke detectors with a battery life of 10 years, and an interconnect filter enables a connection to other devices, such as CO detectors.
Groutless mixed-media mosaic using dichroic, iridescent, & stained glass, 24k gold smalti, colored thinset mortar, sheet & scrap metal, pearl, & microchips. 4"x4"
UTC2000 Controller Enables Simple and Quick Implementation of Popular Reversible-Plug Connector for USB Devices and USB Cabling Into Wide Range of Applications.
Microchip announced the addition of the UTC2000, USB-C™ controller to its leading portfolio of USB devices. With this new device, designers of a wide range of applications covering the consumer, industrial and automotive markets can now simply and quickly implement the radically updated USB-C connector cost effectively, speeding time to market and minimizing bills of materials. Housed in a 16-pin QFN package, the UTC2000 controller’s small form factor also enables the deployment of USB-C connectors in mobile applications. To learn more about the USB-C connector revolution, visit: www.microchip.com/USB-C-081715a
The Microchip Bluetooth® Evaluation Kit includes CandleDragon, Inc.’s dotstack™ demonstration Bluetooth Stack. The kit provides an easy, cost-effective and flexible add-on for embedded evaluation and development using many 16/32-bit PIC® microcontrollers or dsPIC® digital signal controllers (DSCs). To speed development and further reduce costs, the Microchip Bluetooth Kit works with the Company’s existing tools. For more information visit: www.microchip.com/Bluetooth
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
Microchip announced its latest 2.4 GHz, 50 ohm Matched RF WLAN Front End Module (FEM)—the SST12LF09—for Bluetooth® connectivity, as well as 802.11b/g/n and 256-QAM Wi-Fi® applications. The SST12LF09 integrates a transmitter power amplifier, a receiver low-noise amplifier, and a low-loss, single-pole three-throw antenna switch for Bluetooth connectivity into one compact 2.5x2.5x0.4 mm, 16-pin QFN package, making it ideal for high-data-rate wireless applications. With its high linear output power of up to 15 and 17 dBm for 1.8% dynamic EVM at 3.3V and 5V, respectively—along with 17 and 18.5 dBm linear power for 3% EVM at 3.3V and 5V, respectively—this FEM significantly extends the range of IEEE 802.11b/g/n WLAN systems while providing excellent transmit power at the maximum 256-QAM data rate. The receiver has a 12 dB gain and a greater than -6 dBm input (1 dB) compression level. In the LNA bypass mode, the receiver has a 9 dB loss and an 8 dBm input compression level. For more info, visit: www.microchip.com/get/95TE
Microchip Technology's low pin-count 16-bit eXtreme Low Power (XLP) PIC24F32KA304 MCUs feature on-chip 12-bit ADC, EEPROM, intelligent mTouch™ capacitive sensing, and the capability to run from a 5V supply. The MCUs feature extremely low sleep currents down to 20 nA, for which all XLP PIC MCUs are known.
Microchip announced the KSZ8061 single-chip 10BASE-T/100BASE-TX automotive- and industrial-grade Ethernet physical-layer transceiver, which is designed for data communication over low-cost Unshielded Twisted Pair (UTP) cables. It is the first of a new family based on the patented and programmable Quiet-WIRE® enhanced EMC technology, providing reduced line emissions and superior receiver immunity performance. System reliability is also enhanced with Microchip’s proven LinkMD+® advanced cable diagnostics, along with an embedded signal-quality indicator for the dynamic monitoring of link error margins. To learn more about Microchip’s portfolio of Ethernet physical-layer transceivers, visit www.microchip.com/Ethernet-PHYs-111715a.
Microchip today announced a new nine-member low-power, general-purpose operational amplifier (op amp) family—the MCP647X/8X/9X. These op amps provide among the industry’s best power consumption for a given gain-bandwidth product, including low quiescent current, to extend battery lifetimes. Additionally, they have exceptionally low leakage current over temperature, up to 125°C, which reduces errors in applications such as sensor conditioning. In combination with features such as input offset voltage of 1.5 mV and space-saving packages as small as SC70 and SOT-23, these op amps are ideal for a broad range of portable applications in the consumer, industrial, automotive and medical markets. For more info, visit: www.microchip.com/get/LXDC
MCP9600 Thermocouple IC Evaluation Board (part # ADM00665) also announced, to enable development. It is available now for $65.00. For more info, visit: www.microchip.com/ADM00665-063015a
Verichip utilizes the implantable, passive RFID microchip, in their solutions for the purpose of automatic identification. About the size of a grain of rice, the microchip inserts just under the skin and contains only a unique, 16-digit identifier. In the future this chip may contain Global Positioning System (GPS) tracking capabilities. And unlike conventional forms of identification, the VeriChip™ cannot be lost, stolen, misplaced, or counterfeited. It is considered safe, secure, and will always be with you. Once inserted just under the skin, via a quick, outpatient procedure (much like getting a shot), the VeriChip™ can be scanned when necessary with a proprietary VeriChip reader, whether handheld or wall-mounted. A small amount of radio frequency energy passes from the reader energizing the dormant microchip which then emits a radio frequency signal transmitting the individuals unique verification number. This number can then be used for such purposes as accessing personal medical information in a password-protected database or assessing whether somebody has authority to enter into a high-security area. VeriChip has now been approved to offer an implantable FDA approved RFID microchip.
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Microchip announced its new 5 GHz, 50 ohm Matched WLAN Front End Module (FEM)—the SST11LF04—for high data rate mobile device applications. The SST11LF04 features a transmitter power amplifier, a receiver low-noise amplifier with bypass and a low-loss, single-pole two-throw antenna switch for 5 GHz WLAN connectivity into one integrated, compact 2.5x2.5x0.4 mm, 16-pin QFN package, making it ideal for high-data-rate mobile device applications. With its small footprint, high linear output power of up to 16 dBm and 17 dBm, at 3.3V and 5V Vcc respectively—for 1.75% dynamic EVM using MCS9-HT80 modulation and 80 MHz bandwidth along with 18 dBm and 19 dBm linear power for 3% EVM at 3.3V and 5V, respectively—the SST11LF04 extends the range of IEEE 802.11a WLAN system while providing exceptional transmit power at the maximum 11ac high-data–rate modulation. The receiver has a 12 dB gain and a greater than -6 dBm input (1 dB) compression level. In LNA bypass mode, the receiver has a 2.5 dB noise figure and an -6 dBm input compression level. For more info, visit: www.microchip.com/get/K6WW
Microchip announced from Electronica in Germany an expansion of its 8-bit PIC® microcontroller (MCU) portfolio, with the peripheral-rich, low-pin count PIC16(L)F161X family. These new MCUs introduce and expand the offering of Microchip’s Core Independent Peripherals (CIP), which were designed to reduce interrupt latency, lower-power consumption and increase system efficiency, and safety, while minimizing design time and effort. These peripherals are designed to reduce system complexity by eliminating the need for additional code and external components. Hardware-based peripherals offload timing-critical and core-intensive functions from the CPU, allowing it to focus on other critical tasks within the system. For more ino, visit: www.microchip.com/PIC16_LF161X-Family-Product-Page-111114a
Microchip today added two new 3-phase Brushless DC (BLDC) motor gate drivers with integrated power module, LIN transceiver and Sleep mode—the MCP8025 and MCP8026 (MCP8025/6). These devices can power a broad range of Microchip’s dsPIC® Digital Signal Controllers (DSCs) and PIC® microcontrollers (MCUs), complementing their control algorithms by driving MOSFETs, sensing current, preventing short circuits, outputting zero crosses, controlling dead time and blanking time, and monitoring for fault conditions such as over/under-voltage, over-temperature and other thermal warnings. This combination enables Microchip to provide a complete motor control and drive solution for a broad range of automotive and industrial applications. Additionally, the new drivers’ 150 degrees Celsius ambient temperature, low sleep current of 5 µA (typ.) and LIN transceiver make them particularly well suited for automotive designs, such as those that operate under the hood (e.g., pumps and HVAC blowers) or need to reduce key-off power consumption. The on-chip LIN transceiver is compliant with the LIN Bus 2.1 and SAE J2602 standards, as well as the previous-generation LIN 1.X standards. For more info, visit www.microchip.com/get/D3EG
Microchip’s next-generation, 2.4 GHz IEEE 802.15.4 MRF24XA transceiver radio provides a very low operating voltage range of 1.5 to 3.6V and receive power consumption of only 13 mA, which enables years of battery life. This is also Microchip’s first radio that can support both the IEEE 802.15.4 and proprietary data rates (from 125 kbps to 2 Mbps), including the ZigBee®, MiWi™ and other proprietary protocols. For more info visit www.microchip.com/pagehandler/en-us/technology/personalar....
Microchip Technology's PIC18F66K80 8-bit CAN microcontrollers (MCUs) feature1.8 – 5.5V operation and eXtreme Low Power (XLP) technology, for the industry’s lowest sleep current consumption of less than 20 nA. The MCUs feature an on-chip 12-bit Analog-to-Digital Converter (ADC) and a peripheral that enables mTouch™ capacitive touch-sensing user interfaces. They are ideal for applications in the automotive (e.g. body control modules, automotive lighting, door/seat/steering/window control, HVAC control), industrial (e.g. security systems, elevators and escalators) and medical (e.g. glucose meters, patient-monitoring devices) markets.
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
Microchip's MEC14XX family of highly configurable low-power embedded controllers is customized to the needs of x86-based notebook and tablet platform designers. To learn more about these products, visit www.microchip.com/MEC14XX-060115a.
The PAC1921 is supported by Microchip’s PAC1921 Evaluation Board (Part # ADM00592, $64.99). For more info, visit: www.microchip.com/ADM00592-042915a
Some Vgs vs. ID curves of DN2470 transistors. The horizontal parts od the curves must be hallucinations of the very low cost Locky-Z curve tracer.
Microchip announced the first power MOSFET drivers in a new product family—the MCP14A005X and MCP14A015X. These drivers feature an entirely new driver architecture for high speed operation, the first in the MCP14A product line. Available in SOT-23 and 2 x 2 mm DFN packages, the new devices are among the smallest packaged MOSFET drivers on the market today. The small packaging enables higher power densities and smaller solutions, while the design targets fast transitions and short delay times that allow for responsive circuit operation. Additionally, these MOSFET drivers include low input threshold voltages that are compatible with low voltage MCUs and controllers, while still maintaining strong noise immunity and hysteresis. For more info, visit: www.microchip.com/MCP14A005X-MCP14A015X-Page-012715a
fotografiert am 29. September 2006 in Berlin
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"Seit dem Jahr 2000 richtet das Bundesministerium für Bildung und Forschung (BMBF) im Rahmen der Initiative Wissenschaft im Dialog die Wissenschaftsjahre aus. Die Wissenschaftsjahre sollen einen Austausch zwischen Wissenschaft und Öffentlichkeit ermöglichen. Ziel ist es, das Interesse einer breiten Öffentlichkeit an Wissenschaft zu verstärken und junge Menschen für wissenschaftliche Themen zu interessieren. In jedem Wissenschaftsjahr steht eine Wissenschaftsdisziplin im Mittelpunkt, mit Ausnahme von 2005.
2000: Jahr der Physik
2001: Jahr der Lebenswissenschaften
2002: Jahr der Geowissenschaften
2003: Jahr der Chemie
2004: Jahr der Technik
2005: Einsteinjahr/Jahr der Physik (Albert Einstein (1879-1955), Annus mirabilis 1905)
2006: Jahr der Informatik
2007: Jahr der Geisteswissenschaften
2008: Jahr der Mathematik " Quelle und weitere Informationen: Wikipedia: Wissenschaftsjahr
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A microchip implant is an identifying integrated circuit placed under the skin of an animal. The chip, about the size of a large grain of rice, uses passive RFID (Radio Frequency Identification) technology, and is also known as a PIT tag (for Passive Integrated Transponder).
Photo by Lilibeth Serrano/USFWS, May 17, 2016 at Columbia, NC
The UTC2000 USB-C™ controller is supported by Microchip’s UTC2000 Evaluation Kit (part # EVK-UTC2000, $99.00), which is available today. This kit enables designers to easily convert a traditional USB connector to type C for both UFP and DFP. To learn more about the USB-C connector revolution, visit: www.microchip.com/USB-C-081715a
Microchip's MTCH101-112 turnkey controllers in small packages provide an easy way to add robust proximity detection with a range of up to 8 inches. Additionally, these low-cost controllers maximize battery life with power consumption as low as 5 microamps. The MTCH101/112 also provide advanced noise avoidance and cancelling technology, and can operate standalone or connected to any microcontroller via I2C™, making it easy to add touchless operation or user detection to any design. For more info, visit: www.microchip.com/get/MSSP www.microchip.com/get/WGPV
Microchip announced the KSZ8061 single-chip 10BASE-T/100BASE-TX automotive- and industrial-grade Ethernet physical-layer transceiver, which is designed for data communication over low-cost Unshielded Twisted Pair (UTP) cables. It is the first of a new family based on the patented and programmable Quiet-WIRE® enhanced EMC technology, providing reduced line emissions and superior receiver immunity performance. System reliability is also enhanced with Microchip’s proven LinkMD+® advanced cable diagnostics, along with an embedded signal-quality indicator for the dynamic monitoring of link error margins. To learn more about Microchip’s portfolio of Ethernet physical-layer transceivers, visit www.microchip.com/Ethernet-PHYs-111715a.
Microchip's next-generation energy-measurement analog front end (AFE), the MCP3911, features two 24-bit, delta-sigma ADCs that operate at 3V with industry-leading accuracy of 94.5 dB SINAD and 106.5 dB THD. This provides better energy-meter and power-monitoring performance by accurately measuring from start-up to maximum current, and enables faster calibration during production. Four different power modes offers the flexibility of enabling either extremely low-power designs, to 0.8 mA per channel, or designs for higher-speed signals and harmonic content. The extended temperature range allows operation from -40°C to +125°C. For more info, visit: www.microchip.com/get/XA2A
expanded its certified Full-Speed USB 2.0 Device PIC® microcontroller portfolio with three new Enhanced Midrange 8-bit families comprising 15 scalable MCUs ranging from 14 to 100 pins with up to 128 KB of Flash. All feature internal clock sources with the 0.25% clock accuracy necessary for USB communication, which saves up to $0.15 by eliminating the need for an external crystal. Additionally, all three families are eXtreme Low Power compliant, with power consumption down to 35 µA/MHz Active and 20 nA in Sleep mode. For more information, visit: www.microchip.com/pagehandler/en-us/technology/usb/produc...