MAX14636EVB+T

Product Overview

Belongs to: Integrated Circuits (ICs)
Category: Power Management IC
Use: The MAX14636EVB+T is a power management evaluation kit designed for evaluating the MAX14636 low-power, multifunction, haptic driver for wearable devices.
Characteristics: The evaluation kit features low power consumption, compact size, and high efficiency, making it suitable for wearable device applications.
Package: Evaluation board
Essence: The MAX14636EVB+T is essential for testing and evaluating the performance of the MAX14636 haptic driver in real-world applications.
Packaging/Quantity: Single unit

Specifications

Input Voltage: 2.7V to 5.5V
Output Voltage: Programmable from 2.4V to 3.6V
Operating Temperature: -40°C to +85°C
Package Type: 12-pin WLP

Detailed Pin Configuration

The MAX14636EVB+T features a 12-pin WLP with the following pin configuration: 1. VIN 2. GND 3. INT 4. PWM 5. HAPTIC+ 6. HAPTIC- 7. VDD 8. SDA 9. SCL 10. RST 11. ALERT 12. VIBRATOR

Functional Features

Low-power operation
Programmable output voltage
I2C interface for control and monitoring
Integrated overcurrent protection
Small form factor

Advantages and Disadvantages

Advantages

Low power consumption
Compact size
High efficiency
Integrated protection features

Disadvantages

Limited input voltage range
May require additional external components for specific applications

Working Principles

The MAX14636EVB+T utilizes a combination of low-power circuitry and integrated haptic driver functionality to provide efficient and reliable haptic feedback for wearable devices. It interfaces with a microcontroller through the I2C interface, allowing for easy control and monitoring of the haptic driver's operation.

Detailed Application Field Plans

The MAX14636EVB+T is specifically designed for use in wearable devices such as smartwatches, fitness trackers, and other portable electronics requiring haptic feedback functionality. Its low power consumption and small form factor make it ideal for applications where space and energy efficiency are critical.

Detailed and Complete Alternative Models

MAX14636
MAX14806
DRV2605L

In conclusion, the MAX14636EVB+T is a versatile and efficient power management evaluation kit designed for evaluating the MAX14636 haptic driver in wearable device applications. With its low power consumption, programmable output voltage, and integrated protection features, it offers a reliable solution for adding haptic feedback to a wide range of portable electronics.

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10個與MAX14636EVB+T在技術方案中應用相關的常見問題與解答

Sure, here are 10 common questions and answers related to the application of MAX14636EVB+T:

What is MAX14636EVB+T?
- MAX14636EVB+T is an evaluation kit for the MAX14636, a USB charger detector and adapter emulator.
What is the purpose of MAX14636EVB+T?
- The MAX14636EVB+T is designed to evaluate the performance of the MAX14636 in detecting USB chargers and emulating adapters.
How does MAX14636EVB+T detect USB chargers?
- The MAX14636EVB+T uses the MAX14636 to detect USB chargers by monitoring the voltage and current levels on the USB port.
Can MAX14636EVB+T be used to test different types of USB chargers?
- Yes, MAX14636EVB+T can be used to test various USB chargers, including standard USB chargers and proprietary adapters.
What are the key features of MAX14636EVB+T?
- The key features of MAX14636EVB+T include USB charger detection, adapter emulation, and programmable settings for different charger types.
How can MAX14636EVB+T be integrated into a technical solution?
- MAX14636EVB+T can be integrated into a technical solution by connecting it to the system under test and using the provided software to monitor and control its operation.
What are the typical applications of MAX14636EVB+T?
- Typical applications of MAX14636EVB+T include testing USB charger compatibility, evaluating adapter emulation performance, and validating USB power delivery systems.
Does MAX14636EVB+T support USB Power Delivery (PD) protocol?
- Yes, MAX14636EVB+T supports USB PD protocol and can be used to test USB PD chargers and devices.
Are there any design considerations when using MAX14636EVB+T in a technical solution?
- Design considerations for using MAX14636EVB+T include proper PCB layout, power supply requirements, and interfacing with the host system.
Where can I find more information about MAX14636EVB+T and its application notes?
- More information about MAX14636EVB+T and its application notes can be found on the Maxim Integrated website or by contacting their technical support team.