When it comes to configuring and optimizing industrial drives, the right software is critical to ensure smooth operation, easy diagnostics, and tailored performance.
Parker Hannifin offers a variety of software solutions that are designed to interface with its range of AC and DC drives, each serving different drive series and application needs. However, with so many software variations available, it can be tricky to figure out which one is best suited for your system.
In this blog, we’ll break down the most commonly used Parker software tools—explaining what they do, which drive series they support, and what kind of applications they are designed for. This guide will help you identify the most appropriate software for your specific drive configuration needs.
1. DSE Lite – User-Friendly Configuration for Standard Applications
DSE Lite is one of Parker’s most popular software tools, designed for straightforward drive configuration and monitoring. It is a free and easy-to-use software interface aimed at simple applications that don’t require extensive customization or complex parameter adjustments.
Key Features:
User-friendly interface with quick access to parameters and settings.
Basic configuration and diagnostic tools for general-purpose applications.
DSE Lite is perfect for users looking for a simple and intuitive platform to configure drives in basic applications like pumps, fans, and conveyors. Its straightforward interface is ideal for engineers or technicians who need to get systems up and running quickly with minimal setup time.
2. DSE 890 – Advanced Drive Configuration for the 890 Series
The DSE 890 software is an advanced tool specifically designed for Parker’s high-performance 890 series drives. It offers a more powerful platform for configuring, commissioning, and monitoring drives in complex, multi-axis systems. It can support the same drives as DSE, but also has an additional feature which allows you to communicate with multiple drives within a system, which is commonly seen within the 890 Series.
Key Features:
Sophisticated control features for advanced drive setups.
Integrated motion control options.
Diagnostic tools for monitoring and troubleshooting.
Supported Drives:
Parker 890 series
Applications:
DSE 890 is intended for multi-axis control systems and high-precision applications, making it suitable for industries like printing, packaging, and material handling where complex motion control is required. If you’re working with the 890 series, this is the go-to software for both configuration and maintenance.
3. DSD – Comprehensive Software for the LINK and 590 Series
DSD (Drive System Designer) is another versatile software tool from Parker, built to support a wider range of drive series. It is primarily designed for 590 DC drives and LINK. DSD offers extensive customization options, allowing users to configure complex drive systems with a high degree of flexibility.
Key Features:
Advanced programming capabilities with user-defined logic.
Support for LINK.
Real-time data monitoring and parameter adjustment.
DSD is particularly useful for industries that rely on both DC and AC motor control, such as metals, plastics, and paper processing. It enables precise control over motor speed, torque, and energy efficiency, which is crucial for high-performance industrial operations.
4. PDD (Parker Drive Developer) – Programming for the AC30 Series
Parker Drive Developer (PDD) is specifically tailored for Parker’s AC30 series AC drives. PDD provides a comprehensive environment for programming and parameter adjustment, allowing users to create customized drive configurations and fine-tune the performance of their systems.
Key Features:
Full support for drive programming and logic.
Real-time feedback and system diagnostics.
Advanced communication protocol support for integration into larger control systems.
PDD is designed for more complex drive control environments where users need full control over motor behavior and application-specific customizations. It’s ideal for advanced AC motor control applications, including automated machinery, material handling, and manufacturing systems that require fine-tuned operational control.
5. PDQ – Programming for AC30 Series
The PDQ software is used to configure Parker’s AC30 series, offering advanced options for those working with older AC drive systems. Though less commonly used today due to newer technologies, PDQ remains essential for businesses that continue to operate legacy equipment with Parker drives.
Key Features:
Provides detailed configuration options for AC drive systems.
Includes support for AC30 series installations.
Diagnostics and parameter setup tailored to AC applications.
For industries using AC drive systems such as heavy-duty processing plants and steel mills, PDQ ensures that these older drives can be optimized and maintained for extended use, allowing businesses to avoid costly upgrades while still maintaining high levels of performance.
6. CE Lite – Legacy Software for 590 and 690 Drives
CE Lite was previously used for configuring the 590 and 690 series drives but has since been made obsolete. Although some businesses may still have CE Lite in their software arsenal, Parker now recommends switching to DSE Lite or PDD for more modern solutions. CE Lite’s discontinuation highlights the importance of staying updated with supported software tools.
For those still using CE Lite, it’s time to transition to a more current platform like DSD or PDD to ensure compatibility with modern hardware and software systems. SDS Would recommend using DSE Lite.
Choosing the Right Software for Your Drives and Applications
When selecting the right software for your Parker drives, it’s essential to consider the drive series you’re working with and the specific application requirements. Here’s a quick recap of which software is suited to which drive:
DSE Lite: Best for basic setups with the AC10, 590, 690, 650G, 650G, 890, AC15, AC20, and AC30 series.
DSE 890: For high-performance multi-axis control in the 890 series.
DSD: Ideal for LINK and 590L DC drives in more complex applications.
PDD: For programming the AC30 series, offering advanced customization.
PDQ: For legacy AC30 series drive systems.
CE Lite (Obsolete): Previously for legacy Eurotherm Drives, now replaced by DSD and PDD.
SDS Drives: Your Partner for Parker Drive Solutions
At SDS Drives, we’re experts in all aspects of Parker drive configuration, offering full support with the right software solutions for your specific drives and applications. Whether you need help installing and configuring your drives, transitioning to newer software platforms, or troubleshooting issues, our team is here to help.
Contact us todayfor assistance in selecting the right software and ensuring your Parker drives are fully optimized for your operations.
Upgrading from Parker 690 to AC20 Drives: A Complete Technical Guide
As industries evolve, so too must the equipment and technology used to keep them running smoothly. The Parker 690 Drives, once a staple in AC motor control, are now obsolete, leaving many businesses searching for a reliable replacement. Fortunately, Parker’s AC20 Drive Seriesoffers a powerful and efficient solution that can serve as a like-for-like replacement with a few key considerations.
In this blog, we’ll provide a technical guide on how to replace the 690 drives with the AC20 series, outlining what you need to know about Top of Frame (TOF) sizes and voltage supply to ensure a seamless upgrade.
Understanding the Parker 690 Drive Obsolescence
The Parker 690 Drive is a versatile AC drive used in various applications ranging from conveyor systems to pumps and fans. However, like many industrial drives, it has reached its end-of-life status, meaning Parker no longer manufactures or supports it. For businesses still relying on the 690 series, this presents challenges in sourcing replacement parts or repairing faulty units.
Luckily, the Parker AC20 series offers a modern alternative with similar features and benefits, ensuring continued performance without the worry of obsolescence. But before making the switch, it’s important to understand the technical considerations involved in replacing the 690 with the AC20.
Key Considerations for Replacing 690 Drives with AC20 Drives
1. Top of Frame (TOF) Size
One of the most critical factors to account for when replacing the 690 with the AC20 is the Top of Frame (TOF) size. TOF refers to the kW power, so if you have a 2.2kW, the TOF for this can be 4kW. Naturally and in most cases, the larger the kW, the more likely the physical size and form factor of the drive will be bigger, and this must be carefully matched to ensure that the new drive fits within your existing enclosure or control cabinet. For further guidance on the Frame Size conversions to the AC20, click here.
The AC20 series is available in a range of frame sizes to suit different applications, but you’ll need to compare the frame size of your existing 690 drive with the equivalent AC20 model to ensure a like-for-like replacement. While the AC20 offers a more modern, compact design, some adjustments may be required to accommodate the new unit in your existing setup.
Here’s how to approach TOF matching:
Step 1: Identify the TOF size of your 690 drive. This will usually be listed in the technical documentation or on the drive’s nameplate.
Step 2: Cross-reference this with the AC20 series TOF specifications, ensuring that the new drive’s size and mounting options align with your setup.
Step 3: If space is limited, you may need to make minor adjustments to your control cabinet or consider re-routing cables and mounting brackets to ensure the new drive fits seamlessly.
2. Voltage Supply (230V or 400V)
Another essential factor to consider when replacing a Parker 690 Drive is the voltage supply. The 690 series could operate on either 230V or 400V power, and it’s important to match the voltage rating of the new AC20 drive to that of your existing supply to avoid any electrical issues.
The AC20 series is available in both 230V and 400V versions, so you can easily select the correct model based on your existing power infrastructure.
230V Applications: If your 690 drive was operating on a 230V supply, ensure that the replacement AC20 drive matches this voltage. The wrong voltage rating could result in underperformance or even damage to the drive.
400V Applications: For industrial systems running on a 400V supply, select the 400V version of the AC20 to ensure full compatibility and efficient operation.
It’s critical to verify the supply voltage before installation, as connecting a drive to the wrong voltage can lead to serious operational issues or drive failure.
Other Considerations for a Seamless Upgrade
1. Motor Compatability
When replacing the 690 with an AC20, ensure that the motor specifications remain compatible. The AC20 series offers flexible motor control for both induction and permanent magnet motors, but it’s always a good idea to verify the motor’s power rating, torque requirements, and speed range to ensure optimal performance.
2. Communication Protocols
While the Parker 690 drive supported various communication protocols, the AC20 drive offers an expanded range of options for more modern systems. The AC20 supports protocols like Modbus RTU, Ethernet, and CANopen, ensuring seamless integration with your existing control systems.
However, it’s important to check if any additional configuration or adapters are required when switching to a new communication protocol during the upgrade.
3. Programming and Configuration
One of the major advantages of the AC20 series is its ease of programming and configuration. Parker provides intuitive programming tools that allow you to replicate the configuration from your existing 690 drive or set up new parameters based on your application requirements.
If you’re unfamiliar with drive programming, SDS Drives offers programming and commissioning services, ensuring that your new AC20 drive is fully optimized and tailored to your operation.
How SDS Drives Can Help with Your AC20 Upgrade
At SDS Drives, we specialize in helping businesses make the transition from obsolete drives like the Parker 690 to newer, more efficient solutions like the Parker AC20. Our experienced engineers provide full support throughout the upgrade process, including:
Drive Selection: We help you select the right AC20 model based on your existing system, TOF size, and voltage requirements.
Installation and Commissioning: Our team of certified technicians can install and commission the new drive, ensuring it is fully integrated and configured for optimal performance.
Support and Maintenance: We offer ongoing support, troubleshooting, and repair services for the Parker AC20 series, ensuring that your system runs smoothly over the long term.
Conclusion: Future-Proof Your Operations with Parker AC20
Upgrading from the obsolete Parker 690 drives to the modern AC20 series is a smart choice for businesses looking to improve efficiency and avoid the headaches associated with unsupported hardware. By carefully considering factors like Top of Frame (TOF) size and voltage supply, you can ensure a smooth, like-for-like replacement.
At SDS Drives, we’re here to support you through every step of the upgrade process, from product selection to installation and beyond. Contact us today to discuss your upgrade requirements, and let us help you future-proof your operations with the powerful and efficient Parker AC20 drives.
When it comes to DC motor control, the Parker 590P Drive stands as one of the most reliable, efficient, and user-friendly options available.
This drive series delivers exceptional performance across a wide range of industries and remains a leading choice for businesses looking for power, flexibility, and ease of use in a compact design.
In a world where many industrial drives are becoming obsolete, the 590P remains a current, actively supported model, ensuring long-term availability and support. At SDS Drives, we specialize in selling, supporting, and maintaining Parker 590P drives, providing comprehensive solutions from initial installation to ongoing support.
Why Choose the Parker 590P Drive?
1. Regenerative Power – Efficiency at Its Best
One of the most important features of the Parker 590P drive is its regenerative capability. This means the drive can take energy from braking or deceleration and feed it back into the power supply, resulting in significant energy savings and improved overall efficiency. In applications where motors frequently stop or reverse, such as in conveyors, hoists, and winding systems, this feature can dramatically reduce energy costs over time.
By recovering energy that would otherwise be wasted, the 590P drive not only reduces your energy bill but also contributes to a more sustainable and eco-friendly operation.
2. Easy to Program and Customize
The 590P drives are designed with simplicity in mind, making them one of the easiest DC drives to program and operate. Whether you’re a seasoned engineer or someone newer to the field, the user-friendly interface and intuitive configuration tools make setup a breeze. With flexible software options and programming wizards, the drive can be quickly tailored to fit your exact requirements.
For those looking to integrate the drive into a more complex system, the 590P supports a wide range of communications protocols, including Ethernet, Modbus, and Profibus, ensuring seamless integration with your existing control infrastructure.
3. Compact and Space-Saving Design
In many industrial environments, space is a premium. The 590P drive is compact and designed to take up minimal space within your control panels or enclosures, without compromising on performance. Its smaller footprint makes it an ideal choice for retrofits or for applications where space constraints are an issue.
Despite its compact size, the 590P is powerful and capable of handling the most demanding DC motor applications, providing high torque and precise motor control in a streamlined package.
4. Not Obsolete – Future-Proof Your Operations
Many industrial drives are being phased out, leaving businesses stuck with unsupported hardware or forced to upgrade prematurely. Fortunately, the Parker 590P DC drive series is still in active production, and Parker Hannifin continues to offer full support, including parts, software updates, and technical assistance.
Choosing the 590P means you’re investing in a drive that will be supported for years to come, providing long-term peace of mind for your business.
SDS Drives: Your Trusted Parker 590P Experts
At SDS Drives, we don’t just sell Parker 590P drives – we’re experts in them. From sales to ongoing maintenance, we offer a full range of services to ensure your drives are perfectly suited to your needs and remain operational throughout their lifecycle.
1. Tailored Sales Solutions
Our team at SDS Drives understands that no two applications are exactly alike. That’s why we work closely with our customers to help them select the best drive configuration for their specific requirements. Whether you need a drive for a small DC motor or a more complex, high-torque application, we’ll guide you through the process and ensure you get the perfect match.
2. Installation and Commissioning
Our skilled engineers provide expert installation and commissioning services, ensuring that your 590P drive is set up correctly and optimized for your application. From initial programming to system integration, we’ll take care of every step, minimizing downtime and ensuring a smooth installation process.
3. Ongoing Support and Repairs
Even the most reliable equipment needs occasional support. That’s why SDS Drives offers comprehensive after-sales services, including maintenance, repairs, and technical assistance. If your drive encounters any issues, our experienced technicians are on hand to diagnose and fix problems quickly, ensuring your operations continue to run smoothly.
4. Retrofits and Upgrades
If you’re using older, unsupported DC drives, our team can help you upgrade to the Parker 590P series with minimal disruption. We offer retrofit solutions that allow you to replace aging or obsolete drives with modern 590P drives, improving efficiency, reducing energy consumption, and extending the lifespan of your equipment.
Why Choose SDS Drives for Your Parker 590P Needs?
Regenerative Efficiency: Maximize energy savings with the regenerative capability of the 590P drive.
User-Friendly Programming: Easily program and customize your drives to fit your specific application needs.
Compact and Powerful: Enjoy the benefits of a space-saving design without sacrificing performance.
Future-Proof: Invest in a drive that’s actively supported and won’t become obsolete.
Expert Support: From sales to repairs, SDS Drives offers full support for all your Parker 590P needs.
Contact SDS Drives for All Your Parker 590P Drive Requirements
Looking for a reliable, efficient, and future-proof DC drive solution? The Parker 590P series is the answer, and at SDS Drives, we’re here to provide expert guidance and support every step of the way. Whether you need help selecting the right drive, require installation services, or need ongoing maintenance, we’ve got you covered.
Contact us today to learn more about how the Parker 590P can enhance your operations and how SDS Drives can support your business.
Why the Parker AC30 is a must-have for your business
When it comes to drive solutions, you want a product that delivers top-notch performance, reliability, and flexibility. That’s exactly what the Parker AC30 Series drives offer. As one of the most powerful drives in Parker’s range, the AC30 series is a game-changer, especially with the growing trend of obsolescence in the industrial automation world.
In this blog, we’ll explore why the Parker AC30 is a must-have for your business, highlight its unique selling points, and explain how SDS Drives can support you with purchasing, installing, and maintaining these drives.
Why the Parker AC30 Stands Out
1. Unmatched Power – Up to 450 kW One of the AC30’s most impressive features is its massive power capacity—it supports up to 450 kW, making it the largest drive in Parker’s portfolio. This level of power output means the AC30 is ideal for heavy-duty industrial applications, from water treatment plants to large manufacturing facilities.
With this drive, you don’t need to compromise on performance. Whether you’re running large conveyors, pumps, fans, or compressors, the AC30 delivers smooth and reliable motor control, even in the most demanding environments.
2. Future-Proof: Still in Production Despite Obsolescence In a world where industrial drives are constantly becoming obsolete, the Parker AC30 stands out as one of the few that is still being manufactured. Obsolescence is a major issue across industries—many older drives are no longer supported by manufacturers, leaving businesses scrambling for replacements or costly workarounds.
Fortunately, the Parker AC30 Series is not going anywhere. As a current, actively supported product line, you can invest in the AC30 with the peace of mind that parts, software, and support will be available for years to come.
3. Fully Modular & Flexible The AC30 Series is designed with flexibility in mind. Whether you need a simple fan or pump control or a more complex multi-axis setup, the AC30 can handle it. Its modularity means that the drive can grow with your application—adding functionality as needed without the need for a complete system overhaul.
It supports everything from basic motor speed control to advanced process automation, with the ability to integrate seamlessly into your existing infrastructure. Additionally, its open communications architecture ensures compatibility with a wide range of industrial protocols, including Ethernet, Profibus, and CANopen.
SDS Drives: Your Complete AC30 Solution Provider
At SDS Drives, we don’t just sell you a product—we offer complete end-to-end support to ensure that your Parker AC30 is the perfect fit for your business and that it runs smoothly for years to come.
1. Sales & Custom Solutions
We understand that each business has unique needs, and we’re here to help you select the right AC30 model for your application. Whether you’re looking for a drive to handle a specific process or need a solution for a large-scale operation, our expert team can help you choose the best configuration.
2. Installation & Commissioning
Our qualified engineers have extensive experience with Parker drives and can handle all aspects of installation and commissioning. This means we don’t just deliver the drive—we ensure it’s fully set up and optimized for your system, minimizing downtime and getting your operations up and running quickly.
3. Ongoing Support & Repairs
We know that reliability is critical, but even the best equipment needs servicing from time to time. That’s why we offer comprehensive support and repair services for the AC30 drives. Our team of technicians is fully trained in diagnosing and repairing any issues that may arise, ensuring that your production lines keep moving.
4. Retrofit & Upgrades
Do you have an aging drive system that’s no longer supported? Let us help you retrofit your old equipment with Parker AC30 drives. Upgrading to an AC30 can drastically improve efficiency, reduce energy costs, and future-proof your operations. With our full range of commissioning and integrationservices, the transition will be seamless.
Why Choose Parker AC30 and SDS Drives?
Unrivaled Power: Up to 450 kW for heavy-duty applications.
Future-Proof: Still being manufactured and supported in a world of increasing obsolescence.
Modular Flexibility: Fully adaptable to your changing needs, with seamless integration into your system.
If you’re looking for a powerful, reliable, and future-proof drive solution, the Parker AC30 Series is the answer. And with SDS Drives by your side, you can rest assured that your drive will perform at its best from the moment it’s installed.
Contact us today to discuss your requirements, and let us help you find the ideal solution for your industrial application.
Understanding the Letter Designations in Parker Hannifin 590 and 591 Series Drives
Ever wanted to know what the letters after Parker Hannifin’s 590 and 591 Series Drives part numbers mean?
Here the SDS team explain their meaning and offer guidance on interchangeability when a specific model is not in stock.
Parker 590 and 591 Drives
Parker Hannifin’s 590 and 591 series DC drives are well-known for their reliability, precision, and flexibility in controlling DC motors across various industries. However, many users find the letter designations following the main part numbers confusing. These letters (P, PX, S, DRV) carry specific meanings and refer to key features or configurations of the drive.
In this article, we’ll explain what each letter means and explore whether different versions can be interchanged if your exact part number is unavailable.
1. 590P and 591P: Standard Drives
The 590P and 591P refer to the standard versions of Parker’s DC drives. These drives provide advanced digital control with a fully regenerative capability. The “P” designation highlights that these drives are part of the Performance Series:
590P: Single-quadrant drive for controlling DC motors in a non-regenerative mode.
591P: Similar to the 590P, but the difference is typically tied to its use for applications requiring four-quadrant (regenerative) operation, meaning it can drive the motor in forward and reverse and brake using regenerative braking.
Key Features:
Full digital control
Advanced performance for industrial applications
Regenerative capability (for 591P)
2. 590PX and 591PX: Enhanced Performance
The PX in the 590PX and 591PX refers to an Enhanced Performance Series. These drives come with additional features compared to the standard P versions. The “X” indicates extra functionality, such as enhanced cooling, extra firmware capabilities, or improved response times.
590PX: Enhanced performance for single-quadrant applications.
591PX: Enhanced performance for four-quadrant applications with regenerative braking.
Key Features:
Extended firmware options
Enhanced cooling capabilities
Improved response time for demanding applications
3. 590S and 591S: Simplified Models
The S designation stands for Simplified or Standard versions. These models are generally stripped down in terms of advanced features but provide core drive functionality for more straightforward applications where the high-end features of the P or PX models aren’t necessary.
590S: Standard single-quadrant control for basic DC motor applications.
591S: Standard four-quadrant regenerative drive with simplified settings.
Key Features:
Essential control features
Lower cost for basic industrial needs
Ideal for less demanding environments
4. 590DRV and 591DRV: Drive Only Modules
The DRV designation stands for Drive Module Only. These drives are modular units, which means they come without the complete enclosure or the additional components found in standard drives. The DRV versions are often used in larger, custom installations where users may already have external controllers, power supplies, or other system elements in place.
590DRV: Modular drive for single-quadrant applications.
591DRV: Modular drive for four-quadrant regenerative applications.
Key Features:
Modular design for integration into larger systems
Lacks enclosure and some auxiliary components
Can One Model Be Used in Place of Another?
One common question is whether you can use a different model (e.g., a 590P instead of a 590PX) when a specific model is not in stock.
The short answer is it depends on your application:
590P vs. 590PX: If you require the enhanced features provided by the PX version, such as extra cooling or advanced firmware, the 590P may not be suitable as a direct replacement. However, for basic motor control, a 590P may work in place of a 590PX.
591P vs. 591S: The 591P offers more advanced control features than the 591S. While the 591S can be used in place of the 591P for simpler applications, it may not perform as well in high-demand environments, especially where regenerative braking is critical.
DRV Versions: The DRV versions should only be replaced with other DRV versions. These modular drives are designed for specific installations, so replacing them with a standard enclosed drive would require substantial changes to your setup.
Key Considerations for Replacement:
Application Demands: Ensure that the replacement drive meets the voltage, current, and control requirements of your motor and application.
Quadrant Control: If your application requires four-quadrant operation (regenerative braking), make sure the replacement model has this capability (i.e., don’t replace a 591P with a 590P).
Firmware & Features: Some models (like PX) come with advanced firmware options. Replacing them with a base model may result in loss of functionality.
Conclusion
Understanding the differences between the P, PX, S, and DRV versions of the Parker Hannifin 590 and 591 Series drives is crucial for selecting the right drive for your application. While some models may be interchangeable for basic applications, it’s important to evaluate your specific requirements to ensure a successful replacement.
If you’re unsure which model to use or if you need assistance with sourcing, feel free to reach out to us at SDS Drives, and we’ll help you find the best solution for your application needs. Drop the SDS team an email: info@sdsdrives.com
Deciphering Parker part codes
When deciphering Parker Hannifin part codes specific to drives and ancillary parts/equipment, such as power boards and related components, the structure of the part number provides key information about product functionality, size, and specifications.
Here’s how to break down these part codes step by step, focusing only on parts relevant to drives, power electronics, and related equipment.
Step-by-Step Guide for Decoding Parker Hannifin Part Codes
1. Understand the Product Family
Parker Hannifin drives and power electronics components, such as AC drives, DC drives, and servo drives, are typically categorized by product family.
For example, you might see codes like:
AC10: Refers to the AC10 variable speed drive series.
AC30: Refers to the AC30 series, which offers more advanced control options.
590+: DC drives family, used for DC motor control. Example: AC10-04D022F (AC10 Series Drive)
AC10: The product family indicates this is an AC10 drive.
2. Voltage and Power Ratings
The next part of the code often indicates voltage, current, or power rating for the drive or board. It’s essential to know these values to select the correct part for your application.
04D: Typically, this refers to a drive with a 400V input.
022: This can refer to the current rating (e.g., 22A).
F: Indicates a specific feature, such as frequency or phase (often used for single-phase or three-phase power specifications). Example: AC10-04D022F
04D: Indicates this drive operates on a 400V input voltage.
022: Indicates a 22A current rating.
F: May refer to a specific frequency or phase configuration.
3. Drive Configuration and Form Factor
Drives and power electronics from Parker also include part codes that specify the form factor or configuration of the unit, such as chassis type or whether it’s enclosed.
Key codes:
C: Refers to a chassis-mounted drive.
E: Indicates an enclosed drive or power board. Example: 590P-534000C
590P: Refers to the 590+ DC Drive series.
534000: This can refer to a specific model number that gives detailed configuration information.
C: Indicates that this is a chassis-mounted drive.
4. Power Board and Control Board Specifications
For power boards or control boards (ancillary parts), Parker Hannifin part numbers often include codes that specify power capacity, control features, and interface options.
PBA: Refers to a power board assembly.
CBA: Refers to a control board assembly.
IO: Refers to input/output (I/O) capabilities on control boards. Example: PBA-040
PBA: This is a power board assembly.
040: Refers to a specific power rating, such as 40 kW.
5. Special Features or Modifications
In some cases, part codes include suffixes or letters indicating special features or modifications. These might be related to environmental ratings (e.g., IP ratings), added options, or firmware versions.
Common suffixes:
IP54: Indicates the drive is rated for protection against dust and water splashes.
T: Can indicate a “tropicalized” version with enhanced moisture protection. Example: AC30V-450T-IP54
AC30V: Refers to the AC30 series drive.
450T: Indicates a 450A current rating with tropicalization.
IP54: Environmental protection rating of IP54.
Summary:
Summary of Key Parts in the Code:
Product Family: Identifies whether it’s an AC, DC, or servo drive (e.g., AC10, 590+).
Voltage/Current Rating: Refers to the voltage and power capacity of the drive (e.g., 04D for 400V, 022 for 22A).
Form Factor/Configuration: Specifies whether the drive is chassis-mounted or enclosed (e.g., C for chassis).
Ancillary Part Type: Identifies power boards or control boards (e.g., PBA for power board assembly).
Special Features: Indicates environmental protection, phase configuration, or other custom features (e.g., IP54 for dust and water resistance).
Want to find out more about Parker drives? Drop the SDS team an email: info@sdsdrives.com
As technology evolves, so does the need for updating and replacing legacy equipment to maintain efficiency, reliability, and performance in industrial applications. Parker Hannifin’s AC20 inverter drives are designed to address obsolescence issues that plagued their predecessor models. Here’s how the AC20 achieves this:
1. Backward Compatibility
Seamless Transition: The AC20 drives are designed to be backward compatible with older (obsolete) inverter models. This compatibility ensures a smooth and hassle-free transition from older systems to the new AC20 drives without needing extensive modifications to existing setups.
Ease of Installation: By maintaining similar mounting dimensions and connection interfaces, the AC20 reduces installation time and costs, making it a straightforward replacement for outdated, obsolete drives.
2. Enhanced Performance and Efficiency
Advanced Motor Control: The AC20 incorporates advanced motor control techniques, such as sensorless vector control, providing superior performance over older models. This ensures precise speed and torque control, which is crucial for modern industrial applications.
Energy Savings: With improved efficiency, the AC20 helps reduce energy consumption, which is particularly beneficial given the rising costs of energy. This feature also aligns with contemporary goals of sustainability and reduced operational costs.
3. Robust Connectivity and Integration
Modern Communication Protocols: The AC20 supports a range of contemporary communication protocols, including Ethernet/IP, Modbus TCP, and Profinet. This makes it easier to integrate into modern industrial networks and control systems.
IoT and Industry 4.0 Ready: Enhanced connectivity allows the AC20 to be a part of smart manufacturing environments, enabling remote monitoring, diagnostics, and predictive maintenance. This reduces downtime and maintenance costs.
4. Improved Reliability and Durability
Advanced Protection Features: The AC20 includes built-in protection mechanisms against voltage fluctuations, short circuits, and overloads. These features enhance the reliability of the drive, ensuring long-term operation even in demanding environments.
Quality Components: Manufactured with high-quality, locally sourced components (whenever possible), the AC20 guarantees durability and consistent performance, addressing reliability issues found in older drives.
5. User-Friendly Interface and Configuration
Intuitive Setup: The AC20 offers an intuitive user interface and configuration tools, simplifying the setup and parameter adjustment process. This ease of use is particularly beneficial for technicians transitioning from older models.
Comprehensive Documentation and Support: Detailed documentation and robust customer support from Parker Hannifin ensure that users can quickly resolve any issues and fully leverage the capabilities of the AC20.
6. Extended Functionality
Versatility in Applications: The AC20 is versatile, supporting various motor types and control methods. This adaptability makes it suitable for a wide range of applications, from simple pump and fan control to complex machinery.
Expanded Power Range: The AC20 offers a broader power range compared to its predecessors, allowing it to handle more demanding applications and providing a future-proof solution for growing operational needs.
AC20 Conclusion
The Parker AC20 inverter drives effectively address the obsolescence issues associated with previous models by offering enhanced performance, improved connectivity, robust protection features, and user-friendly interfaces. By ensuring backward compatibility, the AC20 facilitates a smooth upgrade path, making it an ideal choice for modernizing industrial applications while maintaining high reliability and efficiency.
Understanding the Parker Hannifin 890 Series: CD, SD, CS, and CA Drives
Parker Hannifin’s 890 series of AC drives is designed to meet a variety of industrial needs. With four models to choose from—890 CD, 890 SD, 890 CS, and 890 CA—each one brings unique features to the table. Let’s break down the differences so you can find the right drive for your application.
Parker Hannifin 890 CD: Common Drive
Key Features:
Compact Design: The 890 CD fits perfectly in tight spaces, making it great for cramped control panels.
Versatile: Even though it’s small, this drive handles a variety of motor types and control methods.
Easy Installation: Setting up the 890 CD is a breeze, saving you time and hassle.
Applications:
Small Machinery: Perfect for small industrial machines with limited space.
Packaging and Conveying Systems: Great for compact, automated systems needing precise control.
Parker Hannifin 890 SD: Standalone Drive
Key Features:
Standalone Operation: The 890 SD operates independently without needing extra components.
High Performance: It delivers excellent speed and torque control for precise motor performance.
Advanced Control: Equipped with cutting-edge algorithms for better efficiency and performance.
Applications:
General Industrial Automation: Ideal for standalone applications across various industries.
Pump and Fan Control: Perfect for controlling pumps and fans on their own.
Parker Hannifin 890 CS: Multi Axis Power Supply Module (Common DC Bus)
Key Features:
Centralized Control: The 890 CS manages multiple drives from a single location.
Network Integration: It connects seamlessly with industrial networks for centralized monitoring and control.
Scalable: Easily add or remove drives as needed for your system.
Applications:
Multi-Drive Systems: Great for setups where you need to control several drives centrally.
Manufacturing Lines: Perfect for production lines that require coordinated control of multiple drives.
Parker Hannifin 890 CA: Common Bus Power Adaptor Module
Key Features:
Cabinet-Mounted Design: The 890 CA installs neatly in control cabinets for an organized setup.
High Power Capacity: It handles higher power requirements, making it ideal for demanding tasks.
Robust Construction: Built tough for long-term performance in industrial environments.
Applications:
Heavy Machinery: Ideal for large, power-hungry machines.
With this guide, you can find the perfect drive to keep your industrial processes running smoothly and efficiently.
Want to find out more about this powerhouse drive? Drop the SDS team an email: info@sdsdrives.com
The evolution of DC drive technology
The Evolution of DC Drive Technology
The Parker 590 drive, a key part of the DC drive series, has played a significant role in industrial motor control. Here’s a brief history and overview of the Parker 590 drive:
590 Origins and Development
1970s-1980s: Parker Hannifin, through its SSD Drives division (formerly Eurotherm Drives), led the charge in DC drive advancements during the 1970s and 1980s. During this period, the company focused on creating robust and reliable DC drives for various industrial applications.
Introduction of the Series: Consequently, the Parker 590 series was introduced as a high-performance solution for precise DC motor control. These drives targeted industries like manufacturing, metallurgy, and material handling.
Features and Innovations of Parker 590
Advanced Control Algorithms: The series features advanced control algorithms, ensuring accurate speed and torque control. This innovation made it ideal for applications requiring high precision and reliability.
Modularity and Flexibility: Furthermore, designed with a modular architecture, these drives offer easy customization and scalability. This flexibility made them adaptable to a wide range of industrial applications.
Integration Capabilities: Moreover, equipped with various communication options, Parker 590 drives integrate seamlessly with different automation systems and networks. This capability enhanced process control and monitoring.
Technological Advancements
Digital Enhancements: Over the years, the 590 drive series has seen several upgrades. These include digital signal processing (DSP) capabilities, improved diagnostics, and enhanced user interfaces.
Energy Efficiency: Additionally, newer models focus on energy efficiency, helping industries reduce energy consumption and operational costs. This is achieved through advanced power electronics and control strategies.
Legacy and Impact
Wide Adoption: Industries have widely adopted the Parker 590 series due to its reliability, performance, and ease of use. As a result, it has become a standard solution for DC motor control in many applications.
Continued Evolution: Despite the growing demand for AC drives, the 590 series remains relevant for specific applications where DC motors are still preferred. Consequently, Parker Hannifin continues to innovate and support the DC drive market, ensuring the series’ longevity and relevance.
Conclusion
The Parker 590 drive series boasts a rich history in the evolution of DC drive technology. Its development reflects Parker Hannifin’s commitment to providing high-quality motion and control solutions.
Ultimately, the drive’s robustness, advanced features, and adaptability have made it a trusted choice for industrial applications worldwide.
Want to find out more about this powerhouse drive? Drop the SDS team an email: info@sdsdrives.com
What’s not to like about this powerful AC 890 drive?
The Parker 890 Series drives stand out as advanced AC drives tailored for industrial applications requiring precise motor control and unwavering performance.
Here are 8 compelling reasons to choose the Parker 890:
Firstly, these drives are synonymous with high performance. Boasting excellent metrics such as precise speed and torque control, pivotal in industrial automation settings.
Moreover, their flexibility shines through with a wide array of voltage and power options, accommodating diverse applications and motor types, ensuring adaptability across industries.
Equipped with advanced control algorithms like sensorless vector control and adaptive tuning, the Parker 890 drives optimize motor performance and efficiency.
Compact yet mighty, Parker 890 drives are ingeniously designed to conserve space in control panels or cabinets, making them indispensable in installations where space is at a premium.
User-friendly interfaces and software tools streamline installation, setup, and maintenance tasks. With intuitive interfaces and diagnostic features facilitating troubleshooting, thus minimizing downtime and maximizing productivity.
Furthermore, renowned for their reliability and durability, Parker drives ensure uninterrupted operation even in the harshest industrial environments. These drives have built-in protection features shielding the drive and connected equipment from faults and overloads.
In terms of connectivity, many models offer various communication options such as Ethernet/IP, Modbus TCP, and Profinet, seamlessly integrating into modern industrial networks and control systems.
Lastly, Parker 890 drives prioritize energy efficiency, incorporating features like regenerative braking, active front-end technology, and sleep modes to help companies slash their carbon footprint and operational costs in the face of escalating energy expenses.
To enquire about Parker products, email the SDS Drives team via: info@sdsdrives.com
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