CY8CKIT-046 | Cypress Semiconductor

CY8CKIT-046

Development KitCY8CKIT-046
Automotive QualifiedN
Max. Operating Temp. (°C)125
Max. Operating Voltage (V)5.50
Min. Operating Temp. (°C)-40
Min. Operating Voltage (V)3.30
Tape & ReelN

Pricing & Inventory Availability

1-9 unit Price* 10-24 unit Price* 25-99 unit Price* 100-249 unit Price* 250-999 unit Price* 1000+ unit Price*
$52.55 $50.35 $48.14 $45.94 $43.73 $40.06
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Packaging/Ordering

Package Cross Section Drawing
Package Carrier
Bulk
Package Carrier Drawing / Orientation
Standard Pack Quantity
1
Minimum Order Quantity (MOQ)
1
Order Increment
1
Estimated Lead Time (days)
56
HTS Code
8473.30.1180
ECCN
(A.3)
ECCN Suball
3A991

Quality and RoHS

Moisture Sensitivity Level (MSL)
2
Peak Reflow Temp. (°C)
PB Free
Y
Lead/Ball Finish

Technical Documents

Application Notes (17)

Sep 30, 2018
AN86439 explains how to effectively use PSoC® 4 GPIO pins with various use case examples to demonstrate their features. Major topics in this application note include GPIO basics, configuration options, mixed-signal use, interrupts, and low-power behavior.
Sep 18, 2018
AN90799 explains the interrupt architecture in PSoC 4 and its configuration using PSoC Creator™
Sep 17, 2018
AN84858 Application note shows you how to implement PSoC 4 device programming with an external microcontroller by using modular C code.
Sep 11, 2018
Application Note AN86233 shows how to use the PSoC 4 low-power modes and features to operate at very low power levels while retaining essential functionality.
Sep 11, 2018
This application note shows how to optimize C and assembler code for the Arm Cortex CPUs in PSoC 4 and PSoC 5LP. Gcc and Keil Microcontroller Development Kit (MDK) C compilers are supported.
Jul 02, 2018
AN68272 describes a UART-based bootloader for PSoC® 3, PSoC 4, PSoC 5LP, and PSoC Analog Coprocessor. In this application note, you will learn how to use PSoC Creator™ to quickly and easily build a UART-based bootloader project and bootloadable projects. It also shows how to build a UART-based embedded bootloader host program.
May 11, 2018
AN86526 describes an I2C-based bootloader for PSoC(R) 4. In this application note, you will learn how to use PSoC Creator(TM) to quickly and easily build an I2C-based bootloader project and bootloadable project. You will also see how to build an I2C-based embedded bootloader host program.
Apr 05, 2018
AN73854 briefly introduces bootloader theory and technology, and shows how bootloaders are quickly and easily implemented in PSoC® 3, PSoC 4, and PSoC 5LP MCUs using PSoC Creator™.
Apr 05, 2018
AN88619 shows you how to design a hardware system around a PSoC® 4 device, starting with considerations for package selection, power, clocking, reset, I/O usage, programming and debugging interfaces, and analog module design. Also included are instructions on how to use PSoC Creator™ to configure the device for the hardware environment.
Apr 04, 2018
AN93637 shows how to implement sensorless field-oriented control (FOC) for a permanent magnet synchronous motor (PMSM) with a CY8C42xx device. A code example using the CY8CKIT-037 Motor Control Evaluation Kit is included to demonstrate sensorless FOC.
Feb 18, 2018
AN92239 shows how to implement capacitive proximity-sensing applications using PSoC® CapSense®. It explains how to design a proximity sensor and tune it to achieve a large proximity-sensing distance and liquid-tolerant proximity sensing. This application note also explains how to implement gesture detection based on proximity sensing and the wake-on-approach method to reduce device power consumption. Example projects demonstrate tuning proximity sensors for a large proximity-sensing distance and liquid tolerance, and implementing gesture detection for PSoC 4 series devices.
Feb 18, 2018
AN89346 demonstrates how to quickly and easily develop a 4-wire Brushless DC fan control system using PSoC® 4. The Fan Controller Component, available in PSoC Creator, helps to manage the fans in a variety of configurations. This application note also shows how to combine fan control and temperature sensing to create a complete thermal management solution using PSoC 4.
Dec 14, 2017
PSoC 3, PSoC 4, and PSoC 5LP have a powerful and flexible programmable digital peripheral system. In addition to a set of fixed function blocks (4 timers, I2C, USB, CAN), they offer as many as 24 programmable Universal Digital Blocks (UDBs) and an extensive signal routing system called the Digital System Interconnect (DSI).
Nov 07, 2017
AN82250 describes implementation of programmable digital logic designs in the PLD portion of Universal Digital Blocks (UDBs) in PSoC 3, PSoC 4, and PSoC 5LP
Jul 31, 2017
This application note explains how to design PSoC® Creator components that use PSoC 3, PSoC 4, and PSoC 5LP Universal Digital Block (UDB) datapath modules. Datapath-based components can implement common functions, such as counters, PWMs, shifters, or UARTs. They can also perform data management tasks in programmable logic that would otherwise need to be done by the CPU.
May 11, 2017
This application note introduces the concepts of switch debouncing and glitch filtering for digital input signals, and shows several solutions for PSoC® 3, PSoC 4, and PSoC 5LP, using PSoC Creator.
May 10, 2017
AN87391 demonstrates how easy it is to drive segment LCD glass using the integrated LCD driver in PSoC® 4. PSoC 4 offers multiple LCD drive modes, very low power consumption, and provides a complete user interface and system solution. Using example projects, this application note explains low-power LCD design and a user interface solution that includes CapSense® .