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Title
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Customer Rating
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Updated
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AN2223 - PSoC® 1 - Approximating an Opamp with a Switched Capacitor Integrator
AN2223 demonstrates how a switched capacitor Integrator can approximate an Opamp.
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(5/5) by 1
user
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12/11/12 |
AN2219 - PSoC® 1 Selecting Analog Ground and Reference
AN2219 describes the internal ground and reference structure in detail and outlines the applicability of each reference setting to typical system designs.
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(5/5) by 2
users
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12/11/12 |
AN2168 - PSoC® 1 - Understanding Switched Capacitor Filters
AN2168 presents the theory behind switched capacitor filters, and provides guidelines and examples for implementing these filters in PSoC 1 devices.
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(4.5/5) by 4
users
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12/11/12 |
AN2165 - PSoC® 1 - Implementing Direct Sequence Spread Spectrum in the PSoC
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Not yet rated
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12/11/12 |
AN2163 - Interfacing to 1-Wire/Two-Wire Digital Temperature Sensors using PSoC® 1
AN2163 demonstrates how a PSoC® 1 microcontroller can be interfaced with 1-wire® and Two-Wire (I2C) digital temperature sensors.
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(5/5) by 2
users
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12/11/12 |
AN2161 - PSoC® 1 Analog - Voltage-to-Frequency Converter
AN2161 demonstrates how to build a voltage-to-frequency converter using one continuous time PSoC block and one switched capacitor PSoC block.
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Not yet rated
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12/11/12 |
AN2155 - PSoC® 1/3/5 - EMI Design Considerations for PSoC
AN2155 discusses designing PSoC mixed-signal array-based systems for compliance with EMC standards. This results in easier qualification of new designs and more robust low-cost system design.
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(4.5/5) by 2
users
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12/11/12 |
AN2152 - PSoC® 1 Graphics LCD and PSoC® Interface
AN2152 describes how to control a PCD8544-based graphics LCD in a PSoC® project.
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Not yet rated
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12/11/12 |
AN2141 - PSoC® 1 Glitch Free PWM
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(4/5) by 2
users
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12/11/12 |
AN2108 - PSoC® 1 - Implementing Hysteresis Comparator
AN2108 explains multiple implementations of a hysteresis comparator using PSoC® 1. Hysteresis is necessary to produce a glitch free comparator output when there is noise in the inputs signals.
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Not yet rated
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12/11/12 |
AN2104 - PSoC®1 - Dynamic Reconfiguration With PSoC® Designer™
AN2104 gives a detailed explanation of dynamic reconfiguration, and presents best practices for successfully implementing Dynamic Reconfiguration with PSoC® Designer™
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(4.4/5) by 5
users
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12/11/12 |
AN2096 - PSoC® 1 - Using the ADCINC Analog to Digital Converter
AN2096 describes the necessary configuration and code required to use the PSoC 1 ADCINC Analog to Digital Converter (ADC). The ADCINC can be configured from 8 to 14 bits, with several different input ranges.
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(2.8/5) by 4
users
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12/11/12 |
AN2042 - Sensing - Multifunctional Optical Sensor
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Not yet rated
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12/11/12 |
AN2041 - Understanding PSoC® 1 Switched Capacitor Analog Blocks
AN2041 explains the operation of PSoC® 1's versatile switched capacitor analog blocks, and provides practical examples of their use.
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(5/5) by 3
users
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12/11/12 |
AN2034 - PSoC® 1 - Reading Matrix and Common Bus Keypads
AN2034 shows how to use PSoC® 1 to read mechanical keypads. It covers matrix and common bus keypads, in both polled and interrupt modes.
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(4/5) by 1
user
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12/11/12 |
AN2032 - PSoC® 1 Fast Unsigned Multiplication Algorithms
AN2032 details efficient high-speed algorithms for multiplication using the PSoC® 1’s built-in Multiply-accumulate (MAC) unit. Topics include signed versus unsigned values, the basics of the PSoC 1 MAC, using macros, and multi-byte multiplication.
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(3/5) by 1
user
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12/11/12 |
AN2027 - PSoC® 1 - 32.768 kHz External Crystal Oscillator
Many microcontroller applications require a timing source more accurate than the typical internal oscillator. An external crystal can provide a solution. These crystals are used with an external crystal oscillator (ECO) to generate clocks as accurate as +/-50 parts per million. PSoC® 1 can implement an ECO that uses a 32.768-kHz crystal.
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(4/5) by 2
users
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12/11/12 |
AN2015 - PSoC® 1 - Getting Started with Flash & E2PROM
AN2015 enables the reader to get started with the flash memory in PSoC® 1 by focusing on PSoC 1 flash architecture Read, Write algorithm, Protection modes and their impact on user applications. The example projects demonstrates the two methods for reading and writing to the flash memory within a user application, E2PROM User Module and Flash block API library that is included in the PSoC Designer™ integrated development environment (IDE).
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(4.3/5) by 3
users
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12/11/12 |
AN16833 - Signal Mixing with PSoC® Switched Capacitor Blocks
Routing analog signals inside a PSoC® device can be tricky because the desired connections are often not directly available.
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Not yet rated
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12/11/12 |
AN13666 - PSoC® 1 Driving Analog Buffer Output to the Rail
AN13666 provides a model for the PSoC® 1 analog column buffers' output drive and outlines a simple external circuit to extend the drive capability all the way to the rail.
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Not yet rated
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12/11/12 |
AN72419 - West Bridge® Benicia™ Hardware Design Guidelines and Schematic Checklist
AN72419 discusses the hardware design best practices and the device configuration for the West Bridge® Benicia™ device.
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Not yet rated
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12/11/12 |
AN58825 - PLC - Powerline Communication Debugging Tools
AN58825 addresses the challenges with Powerline communication and describes tools to detect and debug these issues with Cypress’ PLC solution implementation.
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(5/5) by 2
users
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12/10/12 |
AN60934 - PLC/PowerPSoC - High Brightness LED Control with Powerline Communication Interface
AN60934 describes a Powerline communication interface for PowerPSoC based lighting systems using Cypress PLC solution.
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(5/5) by 4
users
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12/10/12 |
AN55427 - Cypress Powerline Communication Board Design Analysis
AN55427 describes the design of Powerline coupling circuit and on-board power supply used in Cypress's PLC Kits (CY3272/3273/3274/3275/3276/3277).
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(4.8/5) by 4
users
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12/10/12 |
AN58717 - PLC - LED Lighting Control using Powerline Communication
AN58717 describes the use of Powerline communication for LED lighting control using CY8CLED16P01.
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(5/5) by 2
users
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12/10/12 |
AN62487 - Cypress Powerline Communication (PLC) Repeater Implementation
AN62487 explains Cypress’ Powerline Communication Repeater algorithm and its implementation on CY8CPLC20
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(5/5) by 3
users
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12/07/12 |
AN55102 - PSoC® 1 - Single Cell Li-Ion Battery Charger with CY8C21x23
AN55102 presents a Lithium-Ion (Li-Ion) battery charger design, with the smallest, low-cost PSoC® 1 device – CY8C21x23.
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Not yet rated
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12/07/12 |
AN78175 - PSoC® 3 and PSoC 5LP - IEC 60730 Class B Safety Software Library
AN78175 describes the PSoC 3 and PSoC 5LP IEC 60730 Class B Safety Software Library and includes an example project with self-check routines to ensure reliable and safe operation.
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Not yet rated
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12/07/12 |
AN49943 - PSoC® 1 USB-to-UART Bridge
Although USB is now the generally accepted standard for interfacing with PCs, RS-232 and other UART protocols are still widely used in embedded systems and some PC software. This application note describes a USB-to-UART bridge solution implemented in PSoC® 1. User module configuration, critical firmware, and reasons for a USB-to-UART bridge are also described.
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(4.3/5) by 4
users
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12/07/12 |
AN50475 - Induction Cooker Design with CapSense®
AN50475 discusses the implementation of an induction cooker with CapSense® control based on CY8C22x45.
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(4.4/5) by 5
users
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12/07/12 |
AN50987 - Getting Started with I2C in PSoC® 1
AN50987 discusses the I2C protocol, and how the PSoC 1 device handles I2C communications.
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(4.8/5) by 6
users
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12/07/12 |
AN50989 - PSoC® 1 - USB TO SPI Bridge using PSoC
This application note discusses how to implement a USB to SPI bridge using PSoC 1.
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Not yet rated
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12/07/12 |
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 |
AN2010 - PSoC® 1 Best Practices and Recommendations
AN2010 provides some introductory guidelines and best practices for developing PSoC® 1 systems, and it exposes some common mistakes designers make.
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(4.5/5) by 2
users
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12/07/12 |
Power Management - Increasing Output Power of a Switch Mode Pump - AN2349
AN2349 demonstrates how to increase the output current of the PSoC’s switch mode pump (SMP) up to 500 mA.
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(4/5) by 1
user
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12/07/12 |
AN2197 - Stepper Motor Driver for Smart Gauges
AN2197 shows how to use the PSoC® Programmable System-on-Chip to drive a low-power stepper motor for smart pointer gauges.
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(5/5) by 1
user
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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 |
AN82072 - PSoC® 3 and PSoC 5LP USB General Data Transfer with Standard OS Drivers
AN82072 discusses how to use PSoC 3 and PSoC 5LP devices to transfer generic data across USB using native OS drivers included with Windows, Mac OS, and Linux.
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Not yet rated
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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 |
AN73054 - PSoC® 3 and PSoC 5LP Programming Using an External Microcontroller (HSSP)
AN73054 shows how to apply C code to program PSoC® 3 / PSoC 5LP devices using an external microcontroller. This process is referred to as Host Sourced Serial Programming (HSSP), in which the host microcontroller programs PSoC 3 / PSoC 5LP through the serial wire debug (SWD) interface. The C code is written so it can be ported to any microcontroller with minimal changes, greatly reducing the time required to develop HSSP applications for PSoC 3 / PSoC 5LP.
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Not yet rated
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12/06/12 |
AN81623 - PSoC® 3 and PSoC 5LP Digital Design Best Practices
AN81623 gives a brief introduction to the digital hardware design theory and then describes the powerful and highly flexible digital subsystem in PSoC 3 and PSoC 5LP. It describes best practices for digital design using PSoC Creator, and shows how to use static timing analysis (STA) report files.
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Not yet rated
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12/05/12 |
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 |
AN69133 - PSoC® 3 / PSoC 5LP Easy Waveform Generation with the WaveDAC8 Component
AN69133 describes how the WaveDAC8 component works and how to use it to generate either predefined or custom waveforms.
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(4.7/5) by 3
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 |