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HI3-674AKN-5 Intersil Corporation 12-BIT SUCCESSIVE APPROXIMATION ADC, PARALLEL ACCESS, PDIP28 visit Intersil
HI5812JIP Intersil Corporation 12-BIT SUCCESSIVE APPROXIMATION ADC, PARALLEL ACCESS, PDIP24 visit Intersil
HI3-674AJN-5 Intersil Corporation 12-BIT SUCCESSIVE APPROXIMATION ADC, PARALLEL ACCESS, PDIP28 visit Intersil
HI5812JIB Intersil Corporation 12-BIT SUCCESSIVE APPROXIMATION ADC, PARALLEL ACCESS, PDSO24 visit Intersil
HI3-574AJN-5 Intersil Corporation 12-BIT SUCCESSIVE APPROXIMATION ADC, PARALLEL ACCESS, PDIP28 visit Intersil
HI5812KIB Intersil Corporation 12-BIT SUCCESSIVE APPROXIMATION ADC, PARALLEL ACCESS, PDSO24 visit Intersil

xmega ADC

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xmega ADC

Abstract: XMEGA D AVR1324: XMEGA ADC Selection Guide Features The Atmel® AVR® XMEGA® A family · · · · · · · , . Depending on the selected family, AVR XMEGA devices offer two ADC types. Both are flexible modules suitable , ADC for their application. Rev. 8378A-AVR-10/2011 2 AVR XMEGA ADC Summary The main differences between the Atmel AVR XMEGA ADCs are described in Table 2-1. This table provides a summary of ADC , guidance in finding the appropriate Atmel AVR XMEGA ADC. Table 3-1. ADC selection guide Explanation
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xmega ADC XMEGA D digital multimeter avr XMEGA dma example avr dac adc Atmel AVR XMEGA dma

Atmel AVR XMEGA dma

Abstract: xmega ADC AVR1300: Using the XMEGA ADC Features · · · · · · · · · · Up to 12 bit resolution Up , source code included 1 Introduction The Atmel® AVR® XMEGA® ADC module is a high-performance , Preliminary This application note describes the basic functionality of the XMEGA ADC with code examples to , DMA Controller, and AVR1001: Getting Started with the XMEGA Event System. Figure 1-1. ADC Overview Rev. 8032E-AVR-10/10 2 Table of content AVR1300: Using the XMEGA ADC
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AVR1304 sample code adc store avr AVR1301 AVR1305 AVR120 XMega 256 8032E

AVR121

Abstract: AVR1301 AVR1300: Using the XMEGA ADC Features · · · · · · · · · · Up to 12 bit resolution Up , application note describes the basic functionality of the XMEGA ADC with code examples to get up and running , XMEGA peripheral clock and the ADC clock is described in Section 2.8. Figure 2-1 below shows a , accuracy of the XMEGA ADC depends on the quality of the input signals and power supplies. The following , conversion timing and further offload work from the CPU, the ADC is connected to the XMEGA Event System
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AVR121 xmega 128 XMEGA Application Notes 8032C-AVR 8032C-AVR-09/09

AVR1301: Using the XMEGA DAC

Abstract: Application Notes external equipment. Using the XMEGA ADC module enables fully automatic DAC calibration, while using , AVR1301: Using the XMEGA DAC Features · · · · · · 8-bit Microcontrollers 12 bit , Analog-to-Digital converter (ADC) make this a flexible module suitable for a huge range of applications, such as , application note describes the basic functionality of the XMEGA DAC with code examples to get up and running , (DMA) and the XMEGA Event System, is outside the scope of this application note. Please refer to the
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AVR1301: Using the XMEGA DAC Application Notes AVR1303 sample code dac store avr 8033b AVR1000 8033B-AVR-04/08

xmega ADC

Abstract: Atmel AVR XMEGA A Manual Introduction The Analog to Digital Converter (ADC) in the Atmel® AVR® XMEGA® A series has 12bit resolution. It , from most Atmel AVR ADCs, the ADC in the XMEGA A has a pipelined architecture. This means that a new , Atmel XMEGA. Task 2: Compare Function The ADC has a compare function; this task shows how it works , ® XMEGA® ADC, the ADC will signal the application via an interrupt or event when the threshold is reached , ® XMEGA® ADC has up to four (two for the Atmel XMEGA D series) sets of input MUX and result registers
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Atmel AVR XMEGA A Manual AVR1517 AVR1512 AVR1516 128A1

8320A

Abstract: avr1505 AVR1505: XMEGA training - ADC Prerequisites · Required knowledge Atmel® AVR® XMEGATM - Basics , -bit Microcontrollers Application Note Rev. 8320A-AVR-08/10 1 Introduction The ADC in the Atmel XMEGA A series , ATxmega128A1 microcontroller. Different from most Atmel AVR ADCs, the ADC in the XMEGA A has a pipelined , this can be done with the Atmel XMEGA. Task 2: Compare Function The ADC has a compare function , threshold 5 8320A-AVR-08/10 5 Task 3: Virtual Channels The Atmel XMEGA ADC has up to four (two for
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8320A AVR Studio 6 jtagice mkii atxmega128a1 SingleEnded.aps XMEGAA

digital multimeter avr

Abstract: AVR1615 AVR1615: Atmel AVR XMEGA B1 ADC Voltmeter Features · Atmel® ATxmega128B1 microcontroller - Two , application note describes an example using the AVR XMEGA ADC through a voltmeter application with mV , second · Up to 12-bit resolution · Signed and unsigned mode · Selectable gain · 1.4MHz maximum ADC frequency · Four Atmel QTouch® buttons · Analog inputs to ATxmega128B1 ADC: - Potentiometer - External voltage 8-bit Atmel Microcontrollers Application Note 1 Introduction The Atmel® AVR® XMEGA®-B1
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atxmega adc voltmeter atxmega128b1 AVR1912 ATMEL PRODUCT GUIDE 2011 Xplain 128B1

AVR121

Abstract: AVR1301 AVR1300: Using the XMEGA ADC Features · · · · · · · · · · Up to 12 bit resolution Up , Preliminary This application note describes the basic functionality of the XMEGA ADC with code examples to , result every ADC clock cycle. The relation between the XMEGA peripheral clock and the ADC clock is , offset in the ADC block because V will be larger than any offset. V will allow the XMEGA ADC to be used , purpose. However, the typical DNL and INL values are less than ±2 LSB for the 12-bit ADC of the XMEGA
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8032d 8032D-AVR-02/10

atmel 8051 sample code for energy meter

Abstract: 8051 microcontroller based Digital clock with alarm with high-speed analog peripherals. The XMEGA ADC has 12-bit resolution and is capable of up to 2 , samples of the same signal. Thus, the 2 Msps on the XMEGA ADC makes it possible to measure a 125 kHz , AVR XMEGA Solves the System Performance Challenge . 6 CPU performance , detection will be too slow and unpredictable. The AVR XMEGA Solves the System Performance Challenge The , possible way. In 2008 Atmel introduces the AVR XMEGA microcontroller family. XMEGA offers a significant
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atmel 8051 sample code for energy meter 8051 microcontroller based Digital clock with alarm assembler Code Examples i2c avr led display alarm clock 8051 microcontroller atmel dac 8051 assembly code atmel 8051 i2c sample code 8/16-BIT

C12832_A1Z

Abstract: C12832 AVR XMEGA ADC. The relationship between the ADC sample values and the actual ambient temperature is , voltage across the series resistor, and this voltage is measured using the XMEGA ADC. Table 2-2 shows , -bit Atmel Microcontrollers Application Note 1 Introduction The Atmel® AVR® XMEGA®-A3BU Xplained , (XMEGA for this board) to the controller memory, eight bits at a time using eight data lines for the , linearized approximation To calculate the actual temperature efficiently using the XMEGA device
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AVR1934 C12832_A1Z C12832 xmega built in temperature sensor ST7565R avr studio 5 AVR1923

xmega ADC

Abstract: WinAVR training Atmel XMEGA Clock System Atmel XMEGA DMAC (Optional, may be needed for understanding task 4) Atmel XMEGA ADC (Optional, may be needed for understanding task 4) · Software prerequisites Atmel AVR , Introduction Atmel XMEGA provides various sleep modes and software controlled clock gating in order to tailor , modes alone. Refer to application note AVR1010 and XMEGA Datasheet for more in-depth information. Rev. 8318A-AVR-06/10 2 Introduction to the XMEGA power reduction and sleep system To reach the
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AVR1509 WinAVR xmega device board XMEGA automatic heat detector project using microcontroller atmel touch toggle

iox128a1

Abstract: xmega ADC ® XMEGA® Basics training - Atmel XMEGA Clock System - Atmel XMEGA DMAC (Optional, may be needed for understanding task 4) - Atmel XMEGA ADC (Optional, may be needed for understanding task 4) · Software , Note 1 Introduction Atmel AVR® XMEGA® provides various sleep modes and software controlled clock , management than sleep modes alone. Refer to application note AVR1010 and XMEGA Datasheet for more in-depth information. Rev. 8407A-AVR-07/11 2 Introduction to the XMEGA power reduction and sleep system To
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iox128a1 iox128a1 interrupt AVR1521

AVR1005: Getting started with XMEGA

Abstract: Application Notes , please refer to the application notes "AVR1300: Using the XMEGA ADC" and AVR1301: Using the XMEGA DAC , AVR1005: Getting started with XMEGA Features · · · · · XMEGATM vs. megaAVR® XMEGA feature , been expanded with the XMEGA family. Many ask if this is a new architecture and are uncertain how their experience with megaAVR transfers to AVR XMEGA. This document briefly introduces the similarities , . The ideas behind the XMEGA actually have their origin from the end users themselves. AVR users have
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AVR1005: Getting started with XMEGA xmega 128 A1 xmega 16 A4 xmega 128 a3 AVR1302 xmega a3* pdi 8169B-AVR-11/09

AVR1304

Abstract: DMAC eightbyte burst mode to repeatedly read all four results of an XMEGA ADC and write the data into an array , AVR1304: Using the XMEGA DMA Controller Features · · · · · · · · · Four separate DMA , lowpower sleep modes or performs other tasks, the XMEGA DMAC offloads the CPU by taking care of mere data , buffering capabilities and large block sizes make the XMEGA DMAC a powerful module for all data oriented , functionality of the XMEGA DMAC with code examples to get up and running quickly. A driver interface written in
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DMAC 8046B-AVR-04/08

MC310 schematic

Abstract: tiny23 . RC WDT BOD Ana.Comp. ADC 10bit (Channels) ISP TWI (I2C) USART SPI RTC , BOD Ana.Comp. ADC 10bit (Channels) ISP TWI (I2C) USART SPI RTC PWM (Channels , 8 4 ADC 12bit (Channels) 384 256 192 128 64 256 192 128 64 EEPROM (Bytes) I I , ADC 10bit (Channels) ISP TWI (I2C) USART SPI RTC PWM (Channels) Timers 8bit , CC-ADC ADC 10bit (Channels) 10 5 5 10 10 Interrupts Ext. (Interrupts) 2K 18 P-ch Y 512
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MC310 schematic tiny23 SOCKET TQFP100 AVR32739 AVR32743 AVR32744 AVR32747 AVR32749 AVR32752
Abstract: '" 3.6V 8/16-bit XMEGA D3 Microcontroller ATxmega256D3 ATxmega192D3 ATxmega128D3 ATxmega64D3 , Medical Applications 8134Iâ'"AVRâ'"12/10 XMEGA D3 1. Ordering Information Ordering Code Flash , (QFN) 2 8134Iâ'"AVRâ'"12/10 XMEGA D3 2. Pinout/ Block Diagram PA1 PA0 AVCC GND PR1 , 56 55 54 53 52 51 50 49 3 ADC A 4 5 6 PB1 7 PB2 8 14 15 , to ensure good mechanical stability. 3 8134Iâ'"AVRâ'"12/10 XMEGA D3 3. Overview The Atmel Atmel
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PDI 408

Abstract: ATxmega16D4 Features · High-performance, Low-power 8/16-bit Atmel® AVR® XMEGA® Microcontroller · Non-volatile , performance ­ 0 ­ 12 MHz @ 1.6 ­ 3.6V ­ 0 ­ 32 MHz @ 2.7 ­ 3.6V 8/16-bit XMEGA D4 Microcontroller , applications Power tools HVAC Metering Medical Applications 8135I­AVR­10/10 XMEGA D4 1. Ordering , XMEGA D4 2. Pinout/Block Diagram PA6 PB0 AVCC GND PR1 PR0 RESET/PDI PDI 39 , Control ADC A AC A1 PD5 24 OCD PD6 25 RTC PD7 26 TEMP PE0 PD4 PD3
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PDI 408 ATxmega16D4 c code for bldc motor control using avr 8135G xmega a3

XMEGA Application Notes

Abstract: 8/16-bit Atmel XMEGA D4 Microcontroller ATxmega128D4; ATxmega64D4; ATxmega32D4; ATxmega16D4 , Optical Medical applications XMEGA D4 [DATASHEET] 8315Mâ'"AVRâ'"02/2013 2 2. Pinout/Block , Internal references 8 VCC Real Time Counter ADC 7 GND Power Supervision AREF , . XMEGA D4 [DATASHEET] 8315Mâ'"AVRâ'"02/2013 3 Figure 2-2. VFBGA pinout Top view 1 2 3 , PC1 PC2 PC5 PC7 GND VCC PD2 XMEGA D4 [DATASHEET] 8315Mâ'"AVRâ'"02/2013 4 3
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128D4 128KB CRC-16 CRC-32

xmega 128

Abstract: xmega 128 A1 Features · High-performance, Low-power AVR 8/16-bit XMEGA Microcontroller · Non-volatile , Speed performance ­ 0 ­ 12 MHz @ 1.6 ­ 3.6V ­ 0 ­ 32 MHz @ 2.7 ­ 3.6V 8/16-bit XMEGA A3B , tools HVAC Metering Medical Applications 8116B­AVR­12/08 XMEGA A3B 1. Ordering Information , CORNER Port R DAT BU S A Port A ADC A Bat t Backup OSC/CLK Contro l BOD VREF POR TEMP R TC OCD AC A0 Power Contro l AC A1 FLASH CPU ADC B Port B R
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xmega 128 A1 fuse awex awex dc motor ATxmega256 AVR block diagram pipeline adc for zigbee

Atmel AVR XMEGA A Manual

Abstract: xmega 128 3.6V ­ 0 ­ 32 MHz @ 2.7 ­ 3.6V 8/16-bit XMEGA A4 Microcontroller ATxmega128A4 ATxmega64A4 , Applications 8069Q­AVR­12/10 XMEGA A4 1. Ordering Information Flash E2 SRAM Speed (MHz , Package (VFBGA) 2 8069Q­AVR­12/10 XMEGA A4 2. Pinout/Block Diagram PB0 AVCC GND PR1 , 3 5 OSC/CLK Control ADC A AC A1 7 8 9 10 T/C0 SPI USART0:1 T/C0:1 , board to ensure good mechanical stability. 3 8069Q­AVR­12/10 XMEGA A4 Figure 2-2. VFBGA
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xmega a4 251f 27 MHZ rc transmitter 33144A ATXMEGA32A4 xmega a1
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