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Microchip Technology's PIC18F47J53 8-bit USB microcontroller (MCU) features XLP technology for eXtreme Low Power Consumption, up to 128 KB Flash program memory and 4 KB RAM, offering plenty of code space for Microchip’s free USB stack, and for application code.
Microchip Technology's PIC24F32KA304 Plug-In Module (Part # MA240022, $25) for the Explorer 16 Development Board (Part # DM240001, $129.99).
Microchip's DC/DC LLC Converter Reference Design is implemented using Microchip’s dsPIC33F ‘GS’ series of digital-power Digital Signal Controllers (DSCs), which provide fully digital control of the power-conversion and system-management functions. As demonstrated in this reference design, the dsPIC33F ‘GS’ DSCs allow designers to easily and cost effectively create products using advanced topologies, which lower switching losses and boost efficiencies as high as 95%. Complete documentation—including software, Gerber files, MATLAB® models, Webinars and application notes—can be downloaded for free today from Microchip’s Web site at www.microchip.com/SMPS.
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
The PIC 16F690 is one of Microchip midrange 8-bit microcontroller that has a build in 10-bit resolution of Analog to Digital Converter (ADC) peripheral. The ADC is one of the important features that enable us to digitize our analog world. Usually we use the electronic sensor to convert the analog value to the voltage level value. For more information please visit www.ermicro.com/blog/?p=660
Microchip's MTD6505 3-Phase BLDC Sensorless Fan Controller Demonstration Board (part # ADM00345) is expected to be available in January 2012 for $59.99 at www.microchip.com/get/T560. This demo board comes with a 3-phase BLDC fan and three MTD6505 plug-in modules. Additionally, a free GUI is available for download that simplifies fan monitoring and control with the onboard PIC® microcontroller.
Reshoot of this same kind of chip flic.kr/p/2iVoxha (This is not the exact same die, I happen to have two of them and didn't notice), except now with my better camera, scope and experience.
Die Size: (Will update later)
Camera: SONY A6000
Number of Images: 12
Panorama Y Axis: 4 Images
Panorama X Axis: 3 Images
ISO: 100
Shutter Speed: 1/3"
Light Source: Internal Lamp
DIC: Yes
Overlap: 50%
Microscope Objective: 10X
Microscope Eyepiece: DSLR Mount
Grid Used: 4x4 (Panning Movement Aid)
Capture Motion: ZigZag
Stitching Software: Autopano Giga
Other Software: Photoshop for color correction, gimp for sharpening.
Image Type: PNG
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?
Have you ever thought that most of our perception about the robot is based on the Hollywood movie! The well-known 3CPO and R2D2 from Star Wars until the little cute garbage compacting robot named WALL-E; all of these machines are example of our dreams or should I say our quest to what we all think about the robot should be. Although the robot that we are going to build here is still far away from the technologies shown on those movies but at least it will give you an introductory to the robotics world. for more information please visit www.ermicro.com/blog/?p=983
Block diagram of Microchip Technology's 8-bit PIC18F87J72 microcontroller (MCU) family for single-phase, multi-function smart-metering and energy-monitoring applications.
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 Utility-Band Power-Line Modem (PLM) PICtail™ Plus Daughter Board Development Kit (part # AC164145)
Microchip's first-ever family of high-speed MOSFETs offers very low FOMs and is packaged in industry-standard 5x6 mm and 3.3x3.3 mm PDFN packages. Releasing are the MCP87022, MCP87050, and MCP87055 devices, which offer on-state resistance of 2.2mΩ, 5.0mΩ, and 5.5mΩ, respectively. These new MOSFETs enable high-efficiency power-conversion designs. For more info, visit: www.microchip.com/get/JT71
Microchip's new family of dsPIC33 Digital Signal Controllers (DSCs) — the dsPIC33EP512GM710 family. This is an expansion of Microchip’s dsPIC® DSC portfolio that adds higher levels of integration for motor control applications. The new family of DSCs enables efficient dual motor control with 12 motor control PWM channels (6 pairs), dual 12-bit ADCs, multiple 32-bit Quadrature Encoder Interfaces, and two CAN modules. With this level of integration, the dsPIC33EP512GM710 family can independently control two motors with a single microcontroller (MCU) for optimized system costs. This family can also serve as a communication hub for automotive or industrial applications to connect with multiple CAN busses. For more info, visit: www.microchip.com/get/V37V.
Microchip Technology expanded its 36V digital potentiometer (digipot) portfolio with two new volatile, I2C™ devices—the MCP45HV31 and MCP45HV51 (MCP45HV31-51). These are the industry’s first digipots to offer a 5 kohm resistance with a specified operating voltage of 36V. Additionally, they provide 10V to 36V analog operation and 1.8V to 5.5V digital operation, for systems requiring wide signal swings or high power-supply voltages. The MCP45HV31-51 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 MCP45HV31-51 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/FAHU
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
Microchip expanded its serial SRAM portfolio with four new devices that feature the industry’s largest densities and speeds. They are also the industry’s first with 5V operation, which remains prevalent in automotive and industrial applications. These 512 Kb and 1 Mb SPI devices maintain the portfolio’s low power consumption and small, 8-pin packages at the low starting cost of $1.16 each in 10,000-unit quantities. Speeds of up to 80 Mbps are achieved via the quad-SPI, or SQI™, protocol, providing the zero write-cycle times with near instantaneous data movement needed for offloading graphics, data buffering, data logging, displays, math, audio, video and other data-intensive functions. For more info, visit: www.microchip.com/sram
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
Microchip announced an expansion of its 8-bit PIC® microcontroller (MCU) portfolio with the PIC12(L)F157X family, which features multiple 16-bit PWMs with an assortment of analog peripherals and serial communications in an 8-pin package. These MCUs deliver three full-featured 16-bit PWMs with independent timers, for applications where high resolution is needed, such as LED lighting, stepper motors, battery charging and other general-purpose applications. For more info, visit: www.microchip.com/get/G6RB
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
Microchip’s MCP79410 RTCC PICtail™ Plus Daughter Board (part # AC164140, $45) is expected to be available in February 2011. The daughter board will work with Microchip’s Explorer 16 Development Board (part # DM240001, $129.99), PIC18 Explorer Board (part # DM183032, $99.99), PICkit™ Serial Analyzer (part # DV164122, $49.99), and XLP 16-bit Development Board (part # DM240311, $59.99).
Microchip expanded its RF portfolio with the new SST11CP16 5 GHz power amplifier (PA). This PA supports the new IEEE 802.11ac ultra high data rate Wi-Fi® standard for 351 Mbps with 1.8% Error Vector Magnitude (EVM) at 19 dBM output power, enabling a longer range. Additionally, the SST11CP16 provides low operating current of 360 mA at 22 dBm, which enables more transmission channels at a higher data rate, per system. To conserve space, this PA is offered in a 3x3x.45 mm, 16-pin QFN package. For more info, visit: www.microchip.com/get/D2JG
Microchip's latest 2.4 GHz 256-QAM RF high-power amplifier—the SST12CP21—offers ultra low EVM and current consumption for 256-QAM and IEEE 802.11n systems. The SST12CP21 delivers high linear output power of up to 23 dBm at 1.75% dynamic EVM, with MCS9 HT40 MHz bandwidth modulation at 5V and 320 mA current consumption. Additionally, the SST12CP21 delivers 25 dBm linear power at 3% EVM with only 350 mA current consumption for 802.11g/n applications. This performance significantly extends the range of 802.11b/g/n WLAN and MIMO systems, while consuming extremely low current at the maximum 256-QAM data rate. The SST12CP21 is also spectrum mask compliant up to 28 dBm for 802.11b/g communication. Board space is reduced by the small 3x3x0.55 mm, 16-pin QFN package that matches a popular pin-out. For more info, visit: www.microchip.com/get/L3PX
Microchip's MCP19111, the world's first analog-based power management controller. The MCP19111 Digitally Enhanced Power Analog family operates across a wide voltage range of 4.5 to 32V and offers a significant increase in flexibility over conventional analog-based solutions. The MCP19111 offers the world’s first hybrid, mixed-signal power-management controller, integrating an analog-based PWM controller with a fully functional Flash-based microcontroller. The MCP19111 devices support operation up to 32V, and have integrated MOSFET drivers configured for synchronous, step-down applications.
For more info, visit: www.microchip.com/get/MDNV
Microchip Technology's MCP1623 and MCP1624 (MCP1623/4) Synchronous Boost Regulators bring low-voltage support to any PIC® microcontroller, providing a customizable solution for single-cell battery applications.
The 8 pins PIC12F683 microcontroller is one of the smallest members of the Microchip 8-bit microcontroller families but equipped with powerful peripherals such as ADC and PWM capabilities. This make this tiny microcontroller is suitable for controlling the DC motor speed. In order to demonstrate the PIC12F683 capabilities and to make this tutorial more attractive, I decided to use the PIC12F683 microcontroller to generate simple and yet fascinating laser light show from a cheap keychain laser pointer. For more information please visit www.ermicro.com/blog/?p=1622