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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.
Microchip's SSC7102 is a low-power, flexible and turnkey sensor hub that makes implementing sensor fusion easy and provides an extremely large selection of supported sensors. In fact, Microchip directly partnered with multiple industry-leading sensor manufacturers and sensor-fusion specialists to create this solution, enabling faster time to market without the need for sensor-fusion expertise. The SSC7102 is also extremely efficient. It consumes ~4 mA while running complex sensor-fusion algorithms, resulting in longer battery life for Windows® 8.1 tablets, laptops, ultrabooks and smart phones. For more info, visit: www.microchip.com/get/9821
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
Microchip announced the expansion of its Low Power PIC® microcontroller (MCU) portfolio. Features of the new PIC24F “GB6” family include up to 1 MB of Flash memory with Error Correction Code (ECC) and 32 KB of RAM, making it the first 16-bit MCU in Microchip’s portfolio to offer such a large memory size. Also featuring dual-partition Flash with Live Update capability, these devices can hold two independent software applications, permitting the simultaneous programming of one partition while executing application code from the other. This powerful combination of features makes the PIC24F “GB6” family ideal for industrial, computer, medical/fitness and portable applications that require a long battery life, and data transfer and storage without the need of external memory, such as electricity metering, HVAC control, fingerprint scanners and gaming. For more information of the GB6 family, visit: www.microchip.com/PIC24FGB6-112315a
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...
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
Microchip’s Free MPLAB® XC32++ compiler for all 32-bit PIC32 MCUs offers unlimited code generation. Additionally, this free C++ compiler enables maximum code re-use, is standards compliant for commercial applications, includes Dinkumware® libraries, and has no time or memory limits. For more info, visit: www.microchip.com/mplabxc32plus
The MCP39F511 is supported by Microchip’s MCP39F511 Power Monitor Demonstration Board (Part # ADM00667), which is available now for $150 via any Microchip sales representative or authorized worldwide distributor, or from microchipDIRECT at www.microchip.com/microchipDIRECT-042115a.
Microchip Technology was selected as one of “Arizona’s Most Admired Companies” for 2011 by Arizona Business Magazine and BestCompaniesAZ.
With only 35 instructions to learn the Microchip PIC microcontroller assembler language is considered very efficient and easy to learn; you will not find such as Atmel AVR microcontroller CP (compare) and BRNE (branch if not equal) or BRGE (branch if greater or equal) on the PIC microcontroller assembler language dialect, instead it’s just provide us with a very simple bit test and skip one line instruction. For more information please visit http://www.ermicro.com/blog/?p=909
Microchip added a new member to its power-monitoring IC portfolio, the MCP39F511. This highly integrated and accurate single-phase power-monitoring IC, designed for the real-time measurement of AC power, combines the most popular power calculations with unique advanced features, making it ideal for use in high-performance commercial and industrial products such as lighting and heating systems, smart plugs, power meters and AC/DC power supplies. To learn more about the MCP39F511, visit www.microchip.com/MCP39F511-042115a. View a short video on Microchip’s metering products, here: www.microchip.com/Metering-042115a.
Microchip and Digilent's chipKIT(tm) Development Platform is the first 32-bit-microcontroller-based, open-source development platform that is compatible with Arduino™ hardware and software. More information is available at: www.digilentinc.com/chipkit.
Microchip Technology's enhanced mTouch™ Cap Touch Evaluation Kit includes a new board for development with the 32-bit PIC32 microcontroller family. It comes equipped with capacitive touch-sensing keys and sliders, which allows designers to evaluate this interface in their applications using the Windows® OS-based mTouch Diagnostic Tool. This software tool provides an easy-to-use Graphical User Interface (GUI) for developing cap-touch buttons and sliders, and is included in the free MPLAB® Integrated Development Environment. The additional software libraries, source code and other support materials that come with the board further shorten development cycles and reduce design costs.
When combined with its other included boards, the enhanced mTouch Cap Touch Evaluation Kit allows designers to evaluate all of Microchip’s 8-, 16- and 32-bit microcontrollers, providing a scalable capacitive touch sensing development platform for a wide range of design needs.
The enhanced mTouch Cap Touch Evaluation Kit (part # DM183026-2, $99.95) is available today at www.microchip.com/get/F3RD.
Microchip's volatile, SPI digital potentiometers (digipots)—the MCP41HV31 and MCP41HV51 (MCP41HVXX)—are its first to operate at 10, 12, 18, 24 and particularly 36 volts, for systems requiring wide signal swing or high power-supply voltages. Additionally, these digipots support both 7-bit and 8-bit resistor configurations, and a high terminal/wiper current, including the ability to sink/source up to 25 mA on all terminal pins for driving larger loads. These features, combined with an extended temperature range of -40°C to +125°C, make the MCP41HVXX well suited for a broad range of high-voltage and high-temperature applications, including those in the industrial, automotive and audio markets. For more info, visit: www.microchip.com/get/0PF1
Microchip's mTouch™ Projected Capacitive Development Kit (part # DM160211, $119.99) includes a 3.5” sensor mounted on a sensor board, a projected-capacitive board with the PIC16F707 MCU and fully functional firmware. The kit enables users to connect sensors to up to 24 channels, without modifying the firmware. The open source code supports sensors with up to 32 channels, and the kit includes a Graphical User Interface (GUI) tool that enables customers to easily adjust key parameters that are important to their design. The kit can be purchased today, at microchipDIRECT (http://www.microchip.com/get/746C).
Microchip announced the combined analog and digital current sensor—the PAC1921. The new device is a dedicated power monitoring device with a configurable analog output that can present power, current or voltage. The PAC1921, available in a 10-lead 3 x 3 mm DFN package, contains a digital current sensor to maximize data and diagnostic reporting, while having an analog current sensor to minimize data latency. The analog output can be configured to represent power, current or voltage and can be adjusted for a 3V, 2V, 1.5V or 1microcontroller input. Simultaneously, all output values are also available over SMBus. For more info, visit: www.microchip.com/PAC1921-042915a