Infineon CY8C4046LQI-T451, 32 bit ARM Cortex M0+, PSOC 4 Microcontroller, 48 MHz, 64kB FLASH, 16-Pin QFN

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TWD221.00

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TWD232.04

(inc. GST)

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2 - 18TWD110.50TWD221.00
20 - 198TWD99.50TWD199.00
200 +TWD91.50TWD183.00

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Packaging Options:
RS Stock No.:
214-437
Mfr. Part No.:
CY8C4046LQI-T451
Manufacturer:
Infineon
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Brand

Infineon

Product Type

Microcontroller

Series

PSOC 4

Package Type

QFN

Pin Count

16

Device Core

ARM Cortex M0+

Data Bus Width

32bit

Interface Type

I2C, SPI, UART

Program Memory Size

64kB

Maximum Clock Frequency

48MHz

RAM Size

8kB

Maximum Supply Voltage

5.5V

Minimum Operating Temperature

-40°C

Number of Programmable I/Os

21

Maximum Operating Temperature

85°C

Width

2.04 mm

Height

0.47mm

Standards/Approvals

RoHS

Length

1.96mm

Minimum Supply Voltage

1.71V

Program Memory Type

FLASH

Instruction Set Architecture

RISC

Automotive Standard

No

Number of Timers

16

COO (Country of Origin):
TH

Infineon Microcontroller Mcu, 48MHz Maximum Frequency, 64kB Program Memory size - CY8C4046LQI-T451


This microcontroller is a high-performance ARM Cortex M0+ device designed for low power applications. With a Compact surface mount design of just 1.96 x 2.04 x 0.47 mm and a 16-pin configuration, it integrates Advanced features such as 64 kB of flash memory, making it Ideal for diverse applications in automation, electronics, and electrical and mechanical engineering.

Features & Benefits


• Designed with an ARM Cortex M0+ for efficient processing

• Operating voltage range from 2 to 5.5 V enables flexible use

• Features two 16-bit PWM units for precise control of output signals

• Built-in CAPSENSE technology for responsive touch sensing capabilities

• Low power consumption modes ensure energy efficiency during operation

Applications


• Ideal for wearable technology requiring touch sensitivity

• Suitable for smart connected IoT devices needing low power consumption

• Utilised in home automation to enhance user interaction through touch

• Implemented in audio devices for seamless wireless communication

What advantages does the touch sensing technology provide in design?


The touch sensing technology offers a high signal-to-noise ratio, enabling accurate detection even in noisy environments. This makes it suitable for applications that require intuitive user interfaces.

How does the low power feature benefit device operation?


Low power consumption allows extended battery life in portable devices, contributing to overall efficiency and reliability in applications such as wearables and IoT products.

What communication capabilities are integrated within this microcontroller?


It features multiple interfaces including I²C, UART, and SPI, facilitating communication with various peripherals and enabling complex system integrations for a broad range of applications.

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