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The Explorer 8 Development Kit is the latest offering in a long line of enterprise-class tools for 8-bit PIC microcontrollers. Additionally, it offers ample room for expansion, making it an excellent solution for developers and engineers looking for a tool with the largest number of supported 8-bit PIC MCUs. This kit is a versatile development solution, featuring several options for external sensors, off-board communication and human interface. The Explorer 8 Development Kit is a full-featured development board and platform for 8-bit PIC® microcontrollers. Charge stored in the battery is converted to AC output.Ĭontact local sales office in your geographical location and request for a demonstration. UPS Mode – Operational during power outage the system switches to a function called inverter to provide power to load. Standby Mode – Operational in the presence of AC line voltage battery is charged in this mode. The Digital Pure Sine Wave UPS System operates in two modes:
#Switching mouse modes on rd client for mac software#
Click here for a list of complete documentation and software & hardware design information. This reference design demonstrates how digital-power techniques when applied to UPS applications enable easy modifications through software, the use of smaller magnetics, intelligent battery charging, higher efficiency, compact designs, reduction in audible and electrical noise via a purer sine-wave output, USB communication and low-cost overall bill-of-materials.
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Microchip’s Digital Pure Sine Wave Uninterruptible Power Supply (UPS) Reference Design is based on the dsPIC33F “GS” series of digital-power Digital Signal Controllers (DSCs). Please contact local sales office in your geography to request a demonstration.Ĭlick here to find worldwide network of Sales & Support
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The DC to DC LLC Converter Reference Design is royalty free when used in accordance with the licensing agreement. As shown in this reference design the dsPIC33F ‘GS’ devices enable designers to easily and cost effectively create products using advanced switching techniques such as LLC that lower switching losses and enable efficiencies as high as 95%.
#Switching mouse modes on rd client for mac full#
This reference design is implemented using a single dsPIC33F “GS” digital-power DSCs from Microchip that provides the full digital control of the power conversion and system management functions. The DC-DC LLC Resonant Converter Reference Design utilizes Microchip’s digital power conversion dsPIC for unique “adaptive” control of the half-bridge converter and synchronous rectifier. A synchronous rectifier is implemented over the traditional full wave rectifier for improved efficiency. High efficiency is achieved through Zero Voltage Switching (ZVS) on the half-bridge converter and Zero Current Switching (ZCS) on the synchronous rectifier. Microchip’s 200W DC/DC LLC Resonant Converter Reference Design operates over a wide input voltage range (350 - 420Vdc) with a nominal input of 400V, providing a 12V DC output, while maintaining high-voltage isolation between the primary and secondary. More details are provided in the SENT Interface section. The SYNC pulse is transmitted at the start of every packet. The system clock rate is determined by measuring the SYNC pulse. The data is measured as falling edge to falling edge, and the duration of each pulse is related to the number of system clock ticks. An EMC filter is provided on the SENT output circuit as recommended in Section 6.3.1 of the SENT protocol (SAE J2716 Standard). This digital output pin is then level shifted externally to 5 V using an external NPN transistor. The single edge nibble transmission (SENT) interface to the host is implemented by using a timer to control a digital output pin.
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When the ADC input programmable gain amplifier (PGA) is configured for a gain of 32, the noise-free code resolution of the ADuC7060/ ADuC7061 is greater than 18 bits. In the source code, an ADC sampling rate of 4 Hz was chosen. As an extra option, the ADT7311 digital temperature sensor can be used to measure the cold junction temperature instead of the RTD. The RTD is used for cold junction compensation. In the circuit, the ADuC7060/ ADuC7061 are connected to a thermocouple and a 100 Ω platinum resistance temperature detector (RTD).
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The ADuC7060/ ADuC7061 integrate dual 24-bit sigma-delta (Σ-Δ) analog-to-digital converters (ADCs), dual programmable current sources, a 14-bit digital-to-analog converter (DAC), and a 1.2 V internal reference, as well as an ARM7 core, 32 kB flash, 4 kB SRAM, and various digital peripherals such as UART, timers, serial peripheral interface (SPI), and I2C interfaces. This circuit uses the ADuC7060 or the ADuC7061 precision analog microcontroller in an accurate thermocouple temperature monitoring application.