WOODWARD 5501-470 Speed Controller

Description

WOODWARD 5501-470 Speed Controller

Product Description:

The Woodward 5501-470 Speed Controller is a high-performance device designed for precise speed control and monitoring of various mechanical systems. It offers a range of advanced features and capabilities to meet the demands of different industrial applications.

WOODWARD 5501-470 Speed Controller

Product Parameters:

Control Precision: ±0.1% of rated speed

Speed Range: Depends on the specific application and configuration

Power Supply: 24V DC ±10%

Operating Temperature: -40°C to +85°C

Storage Temperature: -40°C to +125°C

Humidity Range: 0% to 95% RH (non-condensing)

Product Specifications:

Processor: ARM Cortex-M3

Flash Memory: 512kb

SRAM: 64kb

Clock Frequency: 80mhz

Communication Interfaces: SPI, I2C, UART

Dimensions: Specified in millimeters

Weight: Specified in grams or kilograms

Series:

The Woodward 5501 series of speed controllers offers a range of products designed for different industrial applications, including the 5501-470 model.

Features:

Versatile Control: Capable of PID control, motion control, and speed control to meet different application requirements.

Communication Interface: Equipped with communication interfaces for easy integration with other devices and systems, such as monitoring systems or上位机.

Programmable: Some models offer programming capabilities, allowing users to write custom control logic and programs.

Robust Performance: Designed for reliable and accurate performance even in harsh environments.

Functions:

The Woodward 5501-470 Speed Controller serves as a crucial component in various industrial applications. It controls the speed and performance of mechanical systems, ensuring smooth and efficient operation. It also monitors the system status, records operational data, and provides alarms and protective functions to prevent overloads, overheating, and other issues.

Applications and Usage:

The Woodward 5501-470 Speed Controller finds widespread applications in various industries, including power generation, aviation, maritime, oil and gas, and industrial automation. It is used to control the speed and performance of engines, turbines, generators, compressors, and other mechanical systems. It ensures stable and efficient operation, improves system reliability, and reduces operational costs.

Applicable Fields:

Power Generation

Aviation

Maritime

Oil and Gas

Industrial Automation