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Title
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Customer Rating
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Updated
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AN61102 - PSoC® 3 and PSoC 5LP - ADC Data Buffering Using DMA
Updated
AN61102 describes how to configure the direct memory access (DMA) to buffer the analog-to-digital converter (ADC) data. It discusses how to overcome some of the limitations of the DMA when buffering the ADC data.
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(2.3/5) by 3
users
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02/06/13 |
AN65977 - PSoC® 3 and PSoC 5LP - Creating an Interface to a TMP05/TMP06 Digital Temperature Sensor
AN65977 describes how to configure PSoC 3 applications to interface to an Analog Devices' TMP05 or TMP06 temperature sensor.
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(4.7/5) by 12
users
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02/04/13 |
AN52705 - PSoC® 3 and PSoC 5LP - Getting Started with DMA
AN52705 provides an introduction to direct memory access (DMA) in PSoC® 3 and PSoC 5LP.
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(5/5) by 2
users
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01/07/13 |
AN54181 - Getting Started with PSoC® 3
PSoC® 1, PSoC 3, and PSoC 5LP are Programmable System-on-Chips that do everything a microcontroller does and more.
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(4/5) by 10
users
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01/03/13 |
AN82156 - PSoC® 3 and PSoC 5LP® - Designing PSoC Creator™ Components with UDB Datapaths
AN82156 explains how to design PSoC® Creator™ components that use PSoC 3 and PSoC 5LP® Universal Digital Block (UDB) datapath modules.
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(4.7/5) by 6
users
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12/18/12 |
AN58726 - PSoC® 3 / PSoC 5LP USB HID Intermediate (with Keyboard and Composite Device)
AN58726 covers the next level of human interface devices (HID) USB development on PSoC® 3 / PSoC 5LP discussing OUTPUT items using a keyboard and a composite device as example projects.
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(5/5) by 1
user
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12/18/12 |
AN56377 - PSoC® 3 and PSoC 5LP USB Transfer Types
AN56377 describes the four USB transfer types: Interrupt, Bulk, Isochronous, and Control.
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(3.8/5) by 4
users
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12/18/12 |
AN62582 - AM Modulation and Demodulation
AN62582 explains how to implement amplitude modulation (AM) and demodulation using PSoC® 3 and PSoC 5LP.
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(3/5) by 1
user
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12/12/12 |
AN64275 - PSoC® 3 and PSoC 5LP Getting More Resolution from 8-Bit DACs
AN64275 demonstrates how to increase the resolution of the 8-bit DACs available in the PSoC 3 and 5LP devices up to 12-bits using additional PSoC resources.
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(4.4/5) by 5
users
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12/07/12 |
AN60321 - Peak Detection with PSoC® 3 and PSoC 5LP
AN60321 describes several techniques for implementing a peak detector in PSoC 3 and PSoC 5LP.
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(5/5) by 3
users
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12/06/12 |
AN58827 - PSoC® 3 and PSoC 5LP Internal Analog Routing Considerations
AN58827 discusses how internal trace and switch resistance can affect the performance of a design and how these issues can be avoided by understanding a few basic details about the PSoC® 3 and PSoC 5LP architecture.
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(4/5) by 3
users
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12/06/12 |
AN58304 - PSoC® 3 and PSoC 5LP - Pin Selection for Analog Designs
AN58304 assists the designer in making the best pin selection for both performance and resource utilization for the PSoC 3 and PSoC 5LP families.
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(4/5) by 4
users
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12/06/12 |
AN60220 - PSoC® 3 / PSoC 5LP Multiplexed Comparator
AN60220 describes how to multiplex the comparator for use with more than one input signal.
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(5/5) by 1
user
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12/06/12 |
AN57821- PSoC® 3 and PSoC 5LP Mixed Signal Circuit Board Layout Considerations
AN57821 introduces basic PCB layout practices to achieve 16 to 20 bit performance for the PSoC® 3 and PSoC 5LP family of devices. The design practices covered in this application note are good rules to use in any mixed signal design for any accuracy.
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(5/5) by 1
user
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12/06/12 |
AN60631 - PSoC® 3 and PSoC 5LP Clocking Resources
AN60631 covers PSoC® 3 and PSoC 5LP's highly versatile and reconfigurable clocking system.
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(5/5) by 1
user
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12/05/12 |
AN60594 - PSoC® 3 and PSoC 5LP: 1200 Baud FSK Modulation and Demodulation
AN60594 describes how to create a 1200-baud frequency shift keying (FSK) transmitter and receiver with PSoC® 3 and PSoC 5LP, with digital 0s represented by 2100 Hz, and digital 1s, represented by 1300 Hz. The transmitter is created using a sine table, DMA, and VDAC.
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(5/5) by 1
user
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12/05/12 |
AN60616 - PSoC® 3 and PSoC 5LP Startup Procedure
AN60616 describes PSoC® 3 and PSoC 5LP startup procedures, from the application of device power until the execution of user code. It describes how to customize the startup procedure, and includes the reasons a designer might want to change the startup procedure.
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(5/5) by 1
user
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12/05/12 |
AN54439 - PSoC® 3 and PSoC 5LP External Crystal Oscillators
AN54439 describes how to use an external crystal or ceramic resonator at 32.768 kHz or in the 4-25 MHz range in PSoC® 3 or PSoC 5LP. External crystal oscillators provide more accurate clock signals than the oscillators built into PSoC 3 and 5LP.
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(3.9/5) by 11
users
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12/05/12 |
AN54460 - PSoC® 3 and PSoC 5LP Interrupts
AN54460 explains the interrupt architecture in PSoC® 3 and PSoC 5LP and the support for interrupts in the PSoC Creator™ IDE.
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(4.5/5) by 4
users
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12/05/12 |
AN60580 - SIO Tips and Tricks in PSoC® 3 / PSoC 5LP
AN60580 explains the following applications of SIO pins: Comparator, Charge pump, Level shifter, Half wave rectifier, Peak detector, and Sleep wakeup using SIO Comparator.
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(3.5/5) by 2
users
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12/05/12 |
AN60317 - PSoC® 3 and PSoC 5LP I2C Bootloader
AN60317 describes how to add an I2C bootloader to a PSoC® 3 or PSoC 5LP project.
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(5/5) by 3
users
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12/05/12 |
AN61290 - PSoC® 3 and PSoC 5LP Hardware Design Considerations
AN61290 reviews several topics for designing a hardware system around a PSoC® 3 or PSoC 5LP device. Subjects include power system, reset, crystal, and other pin connections, and programming and debugging interfaces. Also included are instructions on how to use PSoC Creator™ to configure the device for the hardware environment.
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Not yet rated
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12/05/12 |
AN52927 - PSoC® 3 and PSoC 5LP - Segment LCD Direct Drive
Although segment LCD modules are available with inbuilt drivers, these modules are more expensive than segment LCD glass. PSoC® 3 and PSoC 5 LP, with its configurable analog and digital hardware, also has an integrated configurable LCD driver that supports a wide variety of LCD glass types. This application note explains how to drive multiplexed segment LCD glass using PSoC 3 and PSoC 5LP.
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(5/5) by 1
user
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12/05/12 |
AN60024 - Switch Debouncer and Glitch Filter with PSoC® 3 and PSoC 5LP
AN60024 introduces the concepts of switch debouncing and glitch filtering for digital input signals, and shows how to create several debounce and filter projects for PSoC® 3 and PSoC 5LP, using PSoC Creator™.
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(5/5) by 1
user
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12/05/12 |
AN60590 - PSoC® 3 and PSoC 5LP - Temperature Measurement with a Diode
AN60590 explains the diode-based temperature measurement using PSoC® 3 and PSoC 5LP.
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(3/5) by 2
users
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12/05/12 |
AN62510 - Implementing State Machines with PSoC® 3 / PSoC 5LP
The method to implement state machines using the PSoC® 3 / PSoC 5LP family of devices is explained in this Application Note. Mealy and Moore state machines implementations are shown with associated projects.
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(4/5) by 1
user
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12/05/12 |
AN57473 - PSoC® 3 / PSoC 5LP USB HID Fundamentals with Mouse and Joystick
AN57473 covers basic Human Interface Device (HID) USB development on PSoC® 3 and PSoC 5LP. It focuses on basic mouse and joystick inputs as example projects.
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(4.4/5) by 9
users
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12/05/12 |
AN60630 - PSoC® 3 – 8051 Code and Memory Optimization
AN60630 shows how to increase the efficiency of 8051 code in PSoC® 3 by making greater use of the 8051 core internal features.
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(5/5) by 1
user
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03/15/12 |
AN60305 - PSoC® 3/5 - Using IDACs to Build a Better VDAC
AN60305 describes how to configure and use the PSoC 3/5 IDACs as highly flexible voltage sources.
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(5/5) by 1
user
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03/29/11 |