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Home > Electrical & Electronics > Electrical Control System > Allen-Bradley 2094-BM01-S Class Axis Module

Allen-Bradley 2094-BM01-S Class Axis Module

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Allen-Bradley 2094-BM01-S Class Axis Module photo-3

Allen-Bradley 2094-BM01-S Class Axis Module photo-4

Negotiable MOQ: 1 Unit (Price negotiable depending on order volume and customization)

Key Specifications

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Material:

Other, Global universal model

Condition:

Other, Global universal model

Task:

Other, Global universal model

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Guizhou Yuanmiao Automation Equipment Co., Ltd.

1Yr

Payment & Shipping

Payment Methods:

Port of Shipment:

China

Delivery Detail:

Delivery time depends on order quantity.

Product Details
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Material Other, Global universal model

Condition Other, Global universal model

Task Other, Global universal model

Mathematical Model Other, Global universal model

Signal Other, Global universal model

Customized Non-Customized

Structure Other, Global universal model

Operating temperature -0°C to 55°C

Humidity 5% - 95% (non - condensing)

I. Overview

2094-BM01-S is a reliable-performance servo driver module, mainly used for precise driving and control of servo motors, and is a key component for achieving high-precision motion of automated equipment. Relying on Rockwell Automation's years of technical accumulation in the field of industrial control and strict quality control system, this product has excellent stability and durability, and can adapt to various complex industrial production environments.

This product is originally produced in the United States. Every link from the selection of raw materials to the production process strictly follows Rockwell Automation's high-standard specifications to ensure that the product has excellent quality when leaving the factory. In the global industrial trade, 2094-BM01-S is exported to the world through important ports such as Shanghai and Shenzhen, and is widely used in automated production lines in many industries such as machinery manufacturing, automobile production, and electronic assembly, providing strong support for improving production efficiency and product quality.

II. Technical Parameters

(1) Power Parameters
2094-BM01-S adopts three-phase AC power input, with an input voltage range of 200-240V AC, which can adapt to the common voltage in this range in industrial sites. The input frequency is 50/60Hz, and it can run stably in power grid environments with different frequencies. Its rated output current is 1.5A, which can provide stable power output for small-power servo motors and meet the driving needs of corresponding equipment.

(2) Control Performance
This servo driver module has high control accuracy, with position control accuracy up to ±0.02mm and speed control accuracy of ±0.05% of the rated speed, which can accurately control the operating parameters of the motor and ensure the accuracy of the equipment during movement. It supports three basic control modes: position control, speed control, and torque control. Users can flexibly switch according to actual production needs to achieve diversified motion control effects.

In terms of dynamic response, 2094-BM01-S performs well. The motor acceleration time and deceleration time can be adjusted according to production requirements. The fastest acceleration time can meet the work needs of rapid start and stop of the equipment, effectively improving the production rhythm. At the same time, it can also maintain stability during low-speed operation, avoiding phenomena such as operation stuck, and ensuring the smoothness of the production process.

(3) Communication Capability
It is equipped with mainstream industrial communication interfaces and supports communication protocols such as EtherNet/IP and DeviceNet, enabling efficient data interaction with upper computers, PLCs and other control equipment. Through these communication methods, operators can remotely monitor the operating status of the driver in real-time, such as motor speed, current, temperature and other information, and can also send control commands remotely to realize remote control of the servo motor, improving the intelligence level of automated production.

(4) Environmental Adaptability
2094-BM01-S has strong environmental adaptability. The working temperature range is 0-55°C, and it can work normally in the common temperature environment of industrial workshops. In terms of relative humidity, it can run reliably in an environment of 5%-95% (non-condensing). Neither humid nor dry environments will have a significant impact on its performance. In addition, this module also has a certain anti-vibration capability, and can maintain stable operation under a vibration frequency of 10-500Hz, adapting to the vibration environment of industrial sites.

III. Functional Features

(1) Precise Driving Control
2094-BM01-S adopts advanced control algorithms, which can precisely drive and control the servo motor to ensure that the motor runs according to the preset trajectory and parameters. Whether it is a simple positioning movement or a complex contour movement, it can be executed accurately, effectively ensuring the processing accuracy and consistency of products in the production process, and is suitable for production scenarios with high precision requirements.

(2) Multiple Protection Mechanisms
To ensure the safety of equipment and personnel, this module has built-in multiple protection functions, including overcurrent protection, overvoltage protection, undervoltage protection, overtemperature protection, motor overload protection, and short-circuit protection. When an abnormal situation is detected, the driver will immediately cut off the output and send an alarm signal to prevent the fault from expanding, protect the servo motor and related equipment from damage, and provide safety guarantees for operators.

(3) Flexible Parameter Setting
Users can flexibly set various parameters of the driver through dedicated programming software or a control panel, such as motor parameters, control modes, acceleration and deceleration time, PID parameters, etc. This flexible parameter setting function enables the module to adapt to servo motors of different models and parameters, meet the driving needs of different equipment, and improve the versatility and adaptability of the product.

(4) Convenient Fault Diagnosis
2094-BM01-S has a complete fault diagnosis function, which can monitor the operating status of itself and the motor in real-time. When a fault occurs, the corresponding fault code will be output through the indicator light or communication interface. Operators can quickly locate the cause of the fault according to the fault code, which greatly shortens the time for fault detection and maintenance and improves the equipment utilization rate.

IV. Common Faults and Solutions

(1) Overvoltage Fault
Fault phenomenon: The driver displays an overvoltage alarm and stops working.
Possible causes: The input voltage is too high, exceeding the rated input voltage range of the driver; the power supply voltage fluctuates too much; the internal voltage detection circuit of the driver is abnormal.
Solutions: Check the input power voltage to ensure it is within the 200-240V AC range; if the power supply voltage fluctuates greatly, a voltage stabilizer can be installed for voltage stabilization; if it is suspected that there is a problem with the internal circuit of the driver, contact professional maintenance personnel for inspection or replacement.

(2) Undervoltage Fault
Fault phenomenon: The driver displays an undervoltage alarm and cannot work normally.
Possible causes: The input voltage is too low, failing to meet the minimum working voltage requirement of the driver; poor contact of the power line leads to voltage drop; the power supply capacity is insufficient to provide stable voltage for the driver.
Solutions: Check the input power voltage to ensure it meets the working voltage requirements of the driver; check the power line connection to ensure good contact; if the power supply capacity is insufficient, replace it with a power supply with larger capacity.

(3) Unstable Motor Operation
Fault phenomenon: The motor jitters, and the speed is uneven during operation.
Possible causes: Incorrect motor parameter settings, which do not match the driver; improper setting of the control mode; failure of the internal sensor of the driver.
Solutions: Recheck and set the motor parameters to ensure they match the driver; adjust the control mode according to actual needs; if a sensor failure is suspected, contact professionals for detection and replacement.

(4) Communication Interruption Fault
Fault phenomenon: The communication between the driver and the upper computer or PLC is suddenly interrupted, and data interaction cannot be performed.
Possible causes: The communication line is disconnected or in poor contact; the communication protocol setting is incorrect; the communication interface is damaged.
Solutions: Check the communication line, reconnect or replace the line to ensure good contact; check the communication protocol settings to ensure they are consistent with the upper computer and PLC; if the communication interface is damaged, replace the interface or the driver.

Product Tags: 2094-BM01-S