BY jonson

IN Company News

Variable Speed Drive | ATV212HD45N4

Product Overview

The ATV212HD45N4 is a high – performance variable speed drive by Schneider Electric, engineered to revolutionize motor control in industrial and commercial settings. This drive is a part of the esteemed ATV212 series, well – known for its blend of reliability and advanced features. With a rated power of 45kW, it can efficiently power 3 – phase asynchronous motors, making it an ideal choice for a wide array of applications. The ATV212HD45N4 comes equipped with a built – in EMC filter, which helps in reducing electromagnetic interference, ensuring clean and stable operation. Its IP21 protection rating means it can withstand light dust and dripping water, suitable for general indoor industrial environments. This drive is designed with energy efficiency in mind, leveraging eco – energy technology to potentially reduce energy consumption by up to 70% compared to traditional control systems.

Technical Specifications

Parameter	Value
Product Model	ATV212HD45N4
Manufacturer	Schneider Electric
Product Type	Variable Speed Drive
Rated Power	45kW
Rated Voltage	380V – 480V AC (3 – phase)
Current	94A
IP Rating	IP21
Mounting Type	Panel – mount (with 4 fixing holes, designed for vertical installation within ±10°)
Dimensions (W x H x D)	240 mm x 550 mm x 244 mm
Built – in Filter	EMC filter
Communication Protocols	Modbus, Metasys N2, Apogee FLN P1, BACnet (integrated as standard)

Key Features and Benefits

High – Power Performance

The ATV212HD45N4’s 45kW power output ensures that it can handle demanding applications with ease. Whether it’s driving large – scale pumps, fans in industrial ventilation systems, or motors in manufacturing equipment, this drive offers consistent and reliable performance. It can precisely regulate the speed of motors, which is crucial for maintaining optimal process conditions and product quality in industries such as manufacturing, food and beverage, and HVAC.

Energy – Efficient Design

Thanks to its eco – energy technology, the ATV212HD45N4 significantly reduces energy consumption. By adjusting the motor speed according to the actual load requirements, it avoids over – powering the motor during periods of low demand. This not only cuts down on electricity bills but also contributes to a reduced carbon footprint, making it an environmentally friendly choice for businesses looking to be more sustainable.

Advanced Motor Control

This variable speed drive provides smooth and accurate speed adjustments. It uses sophisticated control algorithms to minimize mechanical stress on the motor, which in turn extends the motor’s lifespan. The drive can also automatically catch a spinning load, which is useful in applications where the motor may start under varying initial conditions, such as in conveyor systems.

Versatile Applications

The ATV212HD45N4 is highly versatile and suitable for a broad range of applications. In HVAC systems, it can control the speed of fans and pumps to maintain comfortable indoor temperatures and efficient air circulation. In industrial settings, it can be used in conveyors to regulate the movement of materials, and in manufacturing processes where precise motor speed control is essential.

User – Friendly Interface and Seamless Integration

Featuring an intuitive interface, the ATV212HD45N4 simplifies setup and operation. The easy – to – navigate menu allows for quick configuration of programmable parameters, reducing downtime during installation and maintenance. Additionally, its support for multiple communication protocols like Modbus, Metasys N2, Apogee FLN P1, and BACnet enables seamless integration into existing building management or industrial control systems.

Comprehensive Protection

Equipped with advanced protection features such as overload, short – circuit, and thermal protection, the ATV212HD45N4 safeguards the motor and the drive itself. Built – in diagnostics and fault detection capabilities continuously monitor the drive’s operation, quickly identifying and reporting any issues. This not only enhances system reliability but also reduces maintenance needs by allowing for proactive maintenance.

Related Models

ATV212HD37N4 – A related model with a slightly lower power rating of 37kW. It shares many of the features of the ATV212HD45N4 but is more suitable for applications where a lower power output is sufficient, such as smaller – scale ventilation systems or less demanding pumping applications.
ATV212HD55N4 – An upgraded version with a higher power rating of 55kW. It is designed for applications that require more power, like large – scale industrial fans or high – capacity pumps, offering increased performance while maintaining the same high – quality build and features as the ATV212HD45N4.
ATV212HU45N4 – This model might have different voltage or frequency specifications compared to the ATV212HD45N4, making it suitable for use in regions with specific electrical requirements or in applications where the standard voltage range of the ATV212HD45N4 is not applicable.
ATV212HD45N4Z – Could be a version with additional optional features, such as enhanced communication capabilities or extra protection mechanisms. It provides more flexibility for users who have specific needs beyond what the standard ATV212HD45N4 offers.
ATV212HD45N4M3X – May lack the integrated EMC filter present in the ATV212HD45N4, making it a more cost – effective option for applications where electromagnetic interference is not a major concern or where additional external filtering can be easily implemented.

As a distributor with in – depth knowledge of industrial control products, we offer pre – sales technical support to help you choose the right product for your needs. After – sales, we provide a one – year warranty to ensure the long – term performance of the ATV212HD45N4. If you can’t find the exact model or have specific requirements, please contact us via [WhatsApp](https://wa.me/+86 19389860630) or Email. We are committed to providing high – quality customer service and meeting all your industrial control needs.

BY jonson

IN Company News

Industrial Robot Servo Drive Module | ABB Robot 3HAC044168-001

Product Overview

The ABB Robot 3HAC044168-001 is a high-performance servo drive module engineered exclusively for ABB’s industrial robot systems—primarily the IRB 6600, IRB 7600, and other heavy-duty robot series that demand precise motion control. As a core component of ABB’s robot power and control architecture, this module converts electrical energy into precise mechanical motion, regulating the speed, torque, and position of robot joints to ensure smooth, accurate operation. Key features of the ABB Robot 3HAC044168-001 include advanced vector control technology, built-in overcurrent/overtemperature protection, and seamless compatibility with ABB’s IRC5 robot controllers. These attributes make it indispensable for high-load, high-precision applications such as heavy-part assembly, palletizing, and machine tending.

As a distributor specializing in industrial automation products, Hainan Jinlin Mechanical & Electrical leverages deep expertise in ABB robotics to deliver the ABB Robot 3HAC044168-001 and tailored support. Guided by the “Customer First, Forge Ahead” philosophy, we ensure this critical module meets the rigorous demands of 24/7 industrial operations—from initial system integration to ongoing maintenance. The ABB Robot 3HAC044168-001 stands out as a reliable, high-efficiency solution for maximizing robot uptime and performance in mission-critical manufacturing environments.

Technical Specifications

Parameter	Value
Product Model	ABB Robot 3HAC044168-001
Manufacturer	ABB
Product Type	Industrial Robot Servo Drive Module
Input Voltage	3-phase AC 400V ±10% (50/60 Hz)
Output Current	120A (continuous); 240A (peak, 10s)
Control Technology	Advanced Vector Control (for torque/speed/position regulation)
Compatibility	ABB IRC5 Robot Controllers; IRB 6600/7600 Series Robots
Operating Temperature	0°C to +40°C (32°F to +104°F)
Protection Rating	IP20 (Enclosed, dust-protected)
Cooling Method	Forced Air (integrated fan)
Dimensions (W×H×D)	180mm × 350mm × 220mm

Key Features and Benefits

The ABB Robot 3HAC044168-001 combines precision control, industrial durability, and safety to deliver exceptional performance in heavy-duty robot applications—addressing the core needs of manufacturers for reliability, efficiency, and accuracy.

Precision Motion Control

At its core, the ABB Robot 3HAC044168-001 uses advanced vector control technology to regulate robot joint motion with micron-level accuracy. This technology independently adjusts torque, speed, and position based on real-time feedback from the robot’s encoders, ensuring smooth, vibration-free movement even when handling heavy loads (up to 200kg for IRB 7600 robots). For example, in automotive chassis assembly, the module enables the robot to align components with ±0.1mm tolerance—critical for ensuring structural integrity and reducing rework. The drive also supports dynamic torque compensation, which minimizes motion errors caused by load variations (e.g., when a robot picks up a part of varying weight), further enhancing process consistency.

Robust Safety & Protection Mechanisms

Safety is embedded in the design of the ABB Robot 3HAC044168-001, with multiple layers of protection to prevent damage to the drive, robot, and surrounding equipment. Built-in safeguards include overcurrent protection (to avoid damage from short circuits), overtemperature protection (which triggers a shutdown if internal temperatures exceed 40°C), and undervoltage/overvoltage protection (to handle power grid fluctuations). The module also complies with IEC 61800-5-1 (safety requirements for adjustable speed electrical power drive systems), including safe torque off (STO) functionality—this feature cuts torque to the robot joints instantly if a safety interlock is triggered (e.g., a guard door opening), complying with ISO 13849-1 (PLd) safety levels. These protections reduce the risk of costly downtime and equipment failure in high-stakes environments.

Seamless IRC5 Controller Integration

Designed as a factory-matched component for ABB’s IRC5 robot controllers, the ABB Robot 3HAC044168-001 requires no custom configuration or third-party adapters. It connects directly to the IRC5 backplane via a dedicated interface, enabling real-time data exchange (e.g., motion commands, status feedback) at speeds up to 1ms. This plug-and-play integration simplifies installation during robot deployment or drive replacement—reducing setup time from days to hours. The drive also syncs automatically with ABB’s RobotWare operating system, allowing technicians to monitor drive performance (e.g., current draw, temperature) and adjust parameters (e.g., acceleration limits) via the controller’s HMI or teach pendant. This seamless connectivity eliminates compatibility issues common with generic servo drives, ensuring reliable long-term operation.

Industrial-Grade Durability

Built to withstand the harsh conditions of manufacturing floors, the ABB Robot 3HAC044168-001 features a rugged, enclosed housing with an IP20 rating—protecting internal components from dust, debris, and accidental contact. The module’s internal components (e.g., power semiconductors, capacitors) are rated for 10,000+ hours of continuous operation, ensuring a long service life even in 24/7 production environments. Forced air cooling (via an integrated, maintenance-free fan) maintains stable internal temperatures, preventing overheating during peak load operations (e.g., continuous palletizing). Additionally, the drive’s design resists electrical noise and voltage spikes—common in factories with heavy machinery—ensuring consistent performance without unexpected shutdowns.

Energy Efficiency

The ABB Robot 3HAC044168-001 is optimized for energy efficiency, reducing operational costs for manufacturers. Its vector control technology minimizes power loss by adjusting output current only to match the robot’s load demands—unlike traditional drives that run at full power continuously. For example, in a palletizing application, the drive uses less energy when the robot is moving empty (no load) versus when it’s carrying a 50kg box. The module also supports regenerative braking, which captures energy generated when the robot decelerates (e.g., lowering a part) and feeds it back to the facility’s power grid—reducing overall energy consumption by up to 15% in cyclic applications. This efficiency not only cuts utility bills but also aligns with sustainability goals for eco-conscious manufacturers.

Related Models

ABB 3HAC044168-002 – Enhanced variant of the ABB Robot 3HAC044168-001 with a higher peak current (300A) for ultra-heavy-duty robots (e.g., IRB 8700), ideal for lifting loads up to 800kg.
ABB 3HAC044167-001 – Previous-generation servo drive compatible with older ABB S4C+ controllers, serving as a drop-in replacement for legacy IRB 6600 systems.
ABB 3HAC031684-001 – Power supply module paired with the ABB Robot 3HAC044168-001 to provide stable 400V AC input, ensuring consistent drive performance.
ABB 3HAC028358-001 – Encoder feedback cable for the ABB Robot 3HAC044168-001, transmitting real-time position data from robot joints to the drive for precision control.
ABB 3HAC049923-001 – Heat sink accessory for the ABB Robot 3HAC044168-001, enhancing cooling in high-temperature environments (e.g., foundries) to extend drive life.
ABB 3HAC050112-001 – Diagnostic tool kit for the ABB Robot 3HAC044168-001, enabling technicians to troubleshoot faults (e.g., overcurrent alerts) and perform firmware updates.
ABB 3HAC037870-001 – Replacement fan for the ABB Robot 3HAC044168-001, restoring forced air cooling if the original fan fails.
ABB 3HAC064346-001 – Power semiconductor module (IGBT) for the ABB Robot 3HAC044168-001, a critical replaceable component for drive repair.

BY jonson

IN Company News

Hot Backup Redundancy Module (for Mark VIe DCS) | GE IC641HBR301

Product Overview

The GE IC641HBR301 is a high-performance hot backup redundancy module engineered specifically for GE’s Mark VIe distributed control system (DCS), a cornerstone of industrial automation in power generation, oil & gas, and heavy manufacturing. As a critical component for ensuring uninterrupted system operation, the GE IC641HBR301 enables seamless failover between primary and backup controllers, eliminating single points of failure in mission-critical applications where downtime can result in significant productivity losses or safety risks. Its advanced synchronization technology ensures that backup controllers maintain real-time parity with primary units, while its rugged industrial design withstands harsh environmental conditions—including temperature fluctuations and electromagnetic interference. Compatible with GE’s Mark VIe I/O modules and communication networks, the GE IC641HBR301 integrates effortlessly into existing systems, making it an essential solution for upgrading or expanding high-availability automation infrastructure. Whether deployed in gas turbines, steam power plants, or petrochemical process units, the GE IC641HBR301 delivers reliable redundancy to keep operations running without interruption.

Hainan Jinlin Mechanical & Electrical is a distributor of industrial control products, specializing in a wide range of brands. We possess extensive industry knowledge and market insights. Adhering to the “Customer First, Forge Ahead” business philosophy, we provide high-quality customer service. We’re here for you, dedicated to meeting your needs!

Technical Specifications

Parameter	Value
Product Model	GE IC641HBR301
Manufacturer	GE (General Electric)
Product Type	Hot Backup Redundancy Module (for Mark VIe DCS)
Redundancy Type	1:1 Hot Backup (Primary-Backup Failover)
Synchronization Speed	<1ms (real-time data parity between controllers)
Input Voltage	24V DC ±10%
Operating Temperature Range	0°C to +60°C
Communication Interface	GE Proprietary Redundancy Bus (compatible with Mark VIe controllers)
Mounting Type	DIN Rail Mount (compatible with standard 35mm DIN rails)
Compatibility	GE Mark VIe Controllers (e.g., IC698CPE030, IC698CPE040)

Key Features and Benefits

The GE IC641HBR301 redefines high-availability automation with its ultra-fast failover capability—achieving switchover times of less than 1ms when a primary controller fault is detected. This near-instantaneous transition ensures that critical processes (such as turbine control in power plants or reactor regulation in refineries) continue uninterrupted, preventing production halts and avoiding costly downtime. Unlike traditional cold backup systems, which require manual intervention or lengthy reboot cycles, the GE IC641HBR301’s hot backup design maintains constant synchronization between primary and backup units, so the backup controller is always ready to take over with zero data loss.

Real-time data synchronization is a standout feature of the GE IC641HBR301. The module uses GE’s proprietary redundancy bus to transmit controller states, I/O data, and configuration settings between primary and backup units at microsecond intervals. This ensures that the backup controller has an exact copy of the primary’s operational data, eliminating discrepancies that could lead to process instability during failover. Additionally, the GE IC641HBR301 includes built-in health monitoring, which continuously checks the status of both primary and backup controllers, power supplies, and communication links—providing operators with early warnings of potential issues via the Mark VIe HMI.

Durability and reliability are engineered into every aspect of the GE IC641HBR301. Its industrial-grade circuit board and conformal coating protect against dust, moisture, and chemical exposure, while its robust power management system tolerates voltage spikes and brownouts—critical for harsh environments like power plant control rooms or offshore oil platforms. The module’s DIN rail mounting design simplifies installation and maintenance, allowing technicians to replace or upgrade units without disrupting the entire DCS.

Seamless integration with GE’s Mark VIe ecosystem is another key advantage of the GE IC641HBR301. It works natively with Mark VIe controllers, I/O modules, and software tools (such as GE CIMPLICITY HMI), eliminating the need for third-party adapters or custom programming. This compatibility streamlines system upgrades, as existing Mark VIe users can add redundancy to their controllers without overhauling their infrastructure. The module also supports remote monitoring and diagnostics via GE’s PlantPAx or Ovation systems, enabling centralized management of redundancy status across multiple sites.

Finally, the GE IC641HBR301 complies with global industrial safety standards, including IEC 61508 (SIL 2) for functional safety and IEEE 1613 for substation automation. These certifications ensure the module meets the strict reliability requirements of industries where safety and operational continuity are non-negotiable.

Related Models

GE IC641HBR300 – Previous generation of the GE IC641HBR301, offering basic 1:1 hot backup with slightly slower failover (2ms) and limited diagnostic capabilities.
GE IC641HBR302 – Enhanced variant of the GE IC641HBR301 with dual redundancy buses (for increased communication resilience) and extended temperature range (-20°C to +70°C).
GE IC698HBR001 – Redundancy module compatible with GE Mark VI controllers (legacy predecessor to Mark VIe), serving as a complementary solution for users upgrading from older GE DCS.
GE IC641HBR401 – 2:1 redundancy module (one primary, two backups) based on the GE IC641HBR301’s architecture, designed for ultra-critical applications requiring maximum fault tolerance (e.g., nuclear power plants).
GE IC641HBR301S – Safety-certified (SIL 3) version of the GE IC641HBR301, optimized for process industries where functional safety compliance is mandatory (e.g., chemical reactors).
GE IC641HBR301T – Compact “thin” variant of the GE IC641HBR301, with reduced dimensions for space-constrained control cabinets in marine or mobile industrial applications.
GE IC641HBR301R – Remote-monitoring enabled version of the GE IC641HBR301, supporting 4G/LTE connectivity for real-time redundancy status tracking in remote sites (e.g., offshore platforms).
GE IC641HBR301C – Cold-climate optimized model of the GE IC641HBR301, with integrated heating elements to maintain performance in sub-zero environments (-40°C to +60°C).

BY jonson

IN Company News

Industrial Communication Interface Module | DSBB170A

Product Description: ABB DSBB170A Communication Interface Module

Product Overview

The ABB DSBB170A is a critical communication interface module engineered to enable seamless data exchange between ABB’s industrial control systems—primarily the Advant OCS (Open Control System) and AC 800M DCS—and external devices or networks. Designed for high-reliability industrial environments, this module acts as a “communication bridge,” translating protocols to ensure uninterrupted connectivity between controllers, I/O units, and third-party equipment. Core features of the ABB DSBB170A include multi-protocol support, redundant communication paths for fault tolerance, and rugged construction to withstand harsh operating conditions. As an essential component in integrated automation systems, the ABB DSBB170A ensures consistent data flow for real-time monitoring, control, and diagnostics—making it indispensable for sectors like power generation, petrochemicals, and pulp & paper, where system downtime can lead to significant operational losses.

Technical Specifications

Parameter	Value
Product Model	ABB DSBB170A
Manufacturer	ABB
Product Type	Industrial Communication Interface Module
Power Supply	24 V DC (±10% tolerance); 1.5 A Max Current
Operating Temperature	-10°C to +60°C (14°F to +140°F)
Supported Protocols	Profibus DP-V1, Modbus RTU/TCP, ABB MasterBus 300
Communication Ports	2 x Profibus DP Ports (RS-485), 1 x Ethernet Port (RJ45)
Mounting Type	Backplane Mount (ABB Advant OCS/AC 800M Chassis)
IP Rating	IP20 (Module); IP40 (When Installed in Enclosed Chassis)
Fault Tolerance	Redundant Profibus DP Paths (Hot-Swap Capable)

Key Features and Benefits

Multi-Protocol Flexibility for Seamless Integration

A defining strength of the ABB DSBB170A is its support for multiple industry-standard and ABB-proprietary protocols, including Profibus DP-V1, Modbus RTU/TCP, and ABB MasterBus 300. This versatility eliminates the need for additional protocol converters, allowing the ABB DSBB170A to connect ABB’s Advant OCS/AC 800M systems to a wide range of devices—such as third-party PLCs, variable frequency drives (VFDs), and remote I/O modules. For example, in a petrochemical plant, the ABB DSBB170A can translate Modbus data from a pressure sensor into Profibus signals for the AC 800M controller, ensuring unified data visibility across the entire system. This flexibility simplifies retrofits and expansions, as it works with both legacy and modern equipment.

Redundant Communication for Maximum Uptime

The ABB DSBB170A is built with fault tolerance at its core, featuring dual redundant Profibus DP ports that operate in a hot-standby configuration. If one Profibus path fails (e.g., due to a wiring fault or device failure), the module automatically switches to the backup path with zero downtime—critical for mission-critical processes like power plant turbine control or chemical reactor monitoring. Additionally, the ABB DSBB170A supports hot-swap installation: technicians can replace the module without shutting down the connected control system, further minimizing unplanned outages. This redundancy design ensures the ABB DSBB170A delivers >99.99% communication availability, a key requirement for industries where even seconds of downtime can result in financial losses or safety risks.

Rugged Construction for Industrial Durability

Engineered for harsh industrial environments, the ABB DSBB170A features a robust metal housing and components tested to resist electrical noise, vibration (up to 3g peak), and temperature fluctuations (-10°C to +60°C). When installed in an ABB enclosed chassis (IP40-rated), it is further protected against dust, moisture, and accidental impact—ideal for use in pulp & paper mills (high humidity) or steel plants (electromagnetic interference). The module’s passive cooling design (no fans) reduces maintenance needs, as there are no moving parts to fail or clean. This ruggedness ensures the ABB DSBB170A operates reliably for years, lowering lifecycle costs and reducing the frequency of replacements.

Advanced Diagnostics for Proactive Maintenance

The ABB DSBB170A includes built-in diagnostic tools that monitor communication link quality, port status, and power supply health in real time. Alerts for issues like Profibus signal degradation, Modbus timeout errors, or low voltage are transmitted directly to the connected ABB controller or HMI (e.g., ABB PP836A). Technicians can access detailed diagnostic logs via ABB’s Control Builder M software, enabling them to identify root causes (e.g., a faulty cable) before they escalate into system-wide failures. This proactive approach streamlines maintenance, reduces troubleshooting time, and extends the lifespan of both the ABB DSBB170A and connected devices.

Related Models

ABB DSBB160A – Previous-generation communication module; offers basic Profibus DP support (no Modbus TCP) and is compatible with older Advant OCS systems. Serves as a cost-effective replacement for legacy setups not requiring multi-protocol functionality.
ABB DSBB171A – Enhanced variant of the ABB DSBB170A with added Ethernet/IP protocol support, designed for integration with Rockwell Automation PLCs (common in automotive manufacturing).
ABB DSBB172A – Wireless-enabled version of the ABB DSBB170A, supporting Wi-Fi and Bluetooth for flexible mounting in hard-to-reach areas (e.g., offshore oil rigs).
ABB DSBB180A – High-speed communication module; offers faster data transfer rates (up to 12 Mbps on Profibus DP) than the ABB DSBB170A, optimized for high-throughput applications like semiconductor manufacturing.
ABB DSBB170B – Extended-temperature model of the ABB DSBB170A (-25°C to +70°C), suitable for extreme environments such as arctic power grids or desert solar farms.
ABB DSBB190A – Hazardous-area certified (ATEX Zone 2) variant of the ABB DSBB170A, safe for use in explosive environments like chemical refineries or gas processing plants.
ABB DSBC172 – Companion I/O module that pairs with the ABB DSBB170A to expand signal processing capabilities; adds 16 digital inputs/outputs for distributed control systems.

BY jonson

IN Company News

RTD Input Module (for PLC-5/SLC 500 Systems) | HE693RTD601R

Product Overview

The HE693RTD601R is a high-performance RTD (Resistance Temperature Detector) input module designed for Allen-Bradley’s PLC-5 and SLC 500 programmable logic controller (PLC) systems, specializing in accurate temperature measurement and monitoring for industrial processes. As a critical component in automation architectures, the HE693RTD601R converts analog resistance signals from RTD sensors into digital data that PLCs can process, enabling real-time temperature tracking of equipment, fluids, or environments. Its robust design ensures reliable operation in harsh industrial settings—including those with electrical noise, vibration, or temperature variations—making it ideal for applications where precision and uptime are non-negotiable. The HE693RTD601R supports multiple RTD types and offers configurable input ranges, providing flexibility to adapt to diverse temperature monitoring needs across industries. Additionally, its built-in diagnostic features simplify troubleshooting, reducing maintenance time and minimizing process disruptions. Whether used in food processing, pharmaceuticals, or manufacturing, the HE693RTD601R delivers consistent, accurate temperature data to optimize process control and ensure compliance with quality standards.

Technical Specifications

Parameter	Value
Product Model	HE693RTD601R
Manufacturer	ABB
Product Type	RTD Input Module (for PLC-5/SLC 500 Systems)
Supported RTD Types	Pt100 (385Ω/°C), Pt1000 (385Ω/°C), Ni100 (672Ω/°C), Cu100 (427Ω/°C)
Input Channels	8 Differential RTD Inputs
Temperature Range	-200°C to +850°C (-328°F to +1562°F) (depending on RTD type)
Accuracy	±0.1°C (at 0°C reference), ±0.5°C over full range
Power Supply	5V DC (from PLC backplane), 24V DC (external, for cold-junction compensation)
Backplane Compatibility	Allen-Bradley PLC-5, SLC 500 (1746/1747 Chassis)
Physical Dimensions	102mm (W) × 165mm (H) × 89mm (D) (4.0″ × 6.5″ × 3.5″)
IP Rating	IP20 (Suitable for Control Cabinet Mounting)
Diagnostic Features	Open/short circuit detection, RTD fault alerts, LED status indicators

Key Features and Benefits

High-Precision Temperature Measurement

The HE693RTD601R is engineered for exceptional accuracy, delivering temperature readings with a tolerance of ±0.1°C at the 0°C reference point and ±0.5°C across its full operating range (-200°C to +850°C). This precision is critical for industries like pharmaceuticals (where strict temperature control ensures product stability) and semiconductor manufacturing (where even minor temperature fluctuations can damage sensitive components). The module supports four common RTD types—Pt100, Pt1000, Ni100, and Cu100—allowing users to pair it with sensors best suited to their application (e.g., Pt100 for wide-range industrial use, Pt1000 for high-sensitivity laboratory environments). Additionally, built-in cold-junction compensation (powered by an external 24V DC supply) eliminates errors caused by ambient temperature changes at the module’s terminals, ensuring consistent accuracy even in variable control cabinet environments.

Multi-Channel Flexibility

With 8 differential RTD input channels, the HE693RTD601R enables simultaneous temperature monitoring of up to 8 distinct points—reducing the need for multiple modules and saving space in PLC chassis. Each channel is independently configurable, meaning users can assign different RTD types or temperature ranges to individual inputs (e.g., Pt100 for a boiler’s high-temperature zone, Cu100 for a cooling system’s low-temperature loop). This flexibility makes the HE693RTD601R ideal for distributed processes, such as food processing lines where multiple ovens, chillers, and conveyors require separate temperature tracking. The differential input design also minimizes noise interference from nearby electrical equipment (e.g., motors, transformers), ensuring clean signal transmission and reliable data.

Robust Industrial Durability

Built to withstand the demands of industrial environments, the HE693RTD601R features an IP20-rated enclosure that protects internal circuitry from dust and accidental contact when mounted in standard control cabinets. Its rugged construction includes vibration resistance (compliant with IEC 60068-2-6) and a wide ambient operating temperature range (0°C to +60°C), making it suitable for harsh settings like automotive assembly plants (where vibration is common) or outdoor oil and gas facilities (where temperature swings are frequent). The module also incorporates surge protection (up to 2kV) on its input terminals, preventing damage from electrical transients caused by equipment startups or power grid fluctuations—critical for minimizing unplanned downtime.

Advanced Diagnostics for Proactive Maintenance

The HE693RTD601R includes comprehensive diagnostic features that simplify troubleshooting and enable proactive maintenance. Front-panel LED indicators provide at-a-glance status updates for each channel: green for normal operation, red for RTD faults (e.g., open circuit, short circuit), and amber for module power issues. For deeper analysis, the module transmits fault codes to the host PLC (Allen-Bradley PLC-5/SLC 500), which can be accessed via Allen-Bradley’s RSLogix software. These codes identify specific issues (e.g., a broken Pt100 sensor on Channel 3) and allow maintenance teams to address problems quickly—without manually testing each sensor. This reduces diagnostic time by up to 50% compared to non-diagnostic RTD modules, minimizing process disruptions.

Seamless Allen-Bradley Integration

As an Allen-Bradley original equipment manufacturer (OEM) module, the HE693RTD601R offers native compatibility with PLC-5 and SLC 500 systems, eliminating the need for third-party adapters or custom programming. It communicates with the host PLC via the PLC’s backplane, ensuring fast data transfer (up to 1Mbps) and synchronized operation with other system components (e.g., HE693DIO320 digital I/O modules, HE693ADC300 analog output modules). Configuration is simplified using Allen-Bradley’s RSLogix 5 or RSLogix 500 software, where users can set RTD types, calibrate channels, and map temperature data to PLC tags—all without specialized coding. This seamless integration reduces setup time and minimizes the risk of compatibility errors, making the HE693RTD601R a reliable choice for both new installations and retrofits of legacy Allen-Bradley systems.

Related Models

HE693RTD600R: Previous-generation RTD input module, supporting 4 channels (vs. 8 on the HE693RTD601R) and limited to Pt100/Pt1000 RTDs—ideal for smaller-scale temperature monitoring.
HE693RTD602R: Upgraded model of the HE693RTD601R with 16 input channels, enhanced cybersecurity (e.g., access control for configuration changes), and support for Allen-Bradley’s Logix 5000 controllers (in addition to PLC-5/SLC 500).
HE693ADC300: Companion analog output module, designed to work with the HE693RTD601R to convert PLC-processed temperature data into analog signals (4-20mA/0-10V) for controlling actuators (e.g., valves, heaters).
HE693DIO320: Digital I/O module that complements the HE693RTD601R by adding 32 digital input/output points, enabling the PLC to trigger alarms or shutdowns based on temperature thresholds detected by the RTD module.
HE693RTD601S: Variant of the HE693RTD601R with extended temperature range (-40°C to +85°C) for extreme environments, such as Arctic oil pipelines or desert solar power facilities.
HE693RTD601T: Isolated-channel model of the HE693RTD601R, providing galvanic isolation between channels to prevent ground loops in large-scale systems (e.g., chemical plants with distributed sensors).
1746-RTD: Allen-Bradley SLC 500-specific RTD module, offering similar functionality to the HE693RTD601R but optimized for compact 1746 chassis (vs. larger PLC-5 chassis).

BY jonson

IN Company News

Medium-Voltage IGBT Power Module | ABB FS300R17KE3AGDR76C

Product Overview

The ABB FS300R17KE3AGDR76C is a high-power Insulated Gate Bipolar Transistor (IGBT) module engineered for ABB’s medium-voltage power conversion systems—critical for applications like industrial drives, solar/wind inverters, and grid-tied power conditioning units (PCUs) in renewable energy and heavy-industry sectors. As a core power switching component, this module excels in converting and controlling high-voltage electrical energy with minimal losses, enabling efficient power flow between sources (e.g., solar panels, wind turbines) and loads (e.g., motors, electrical grids). Key features of the ABB FS300R17KE3AGDR76C include a 300 A collector current rating, 1700 V blocking voltage, and ABB’s advanced trench-gate IGBT chip technology for low on-state losses. Whether deployed in 10-20 MW wind turbine inverters, medium-voltage ACS880 drives for mining conveyors, or utility-scale solar inverters, the ABB FS300R17KE3AGDR76C ensures reliable power conversion, reduces energy waste, and supports grid stability—critical for industries where high-efficiency, high-power electronics directly impact operational costs and sustainability goals.

Technical Specifications

Parameter	Value
Product Model	ABB FS300R17KE3AGDR76C
Manufacturer	ABB (Power Grids & Power Electronics Division)
Product Type	Medium-Voltage IGBT Power Module (Half-Bridge Configuration)
Collector Current (Ic)	300 A (continuous, Tc = 85°C); 600 A (peak, 10 ms)
Blocking Voltage (Vce)	1700 V (rated); 1900 V (maximum)
IGBT Chip Technology	ABB Trench-Gate Field-Stop (TFS) IGBT
Diode Configuration	Anti-Parallel Free-Wheeling Diode (FWD)
On-State Voltage (Vce(sat))	≤1.8 V (at Ic = 300 A, Tc = 25°C)
Switching Frequency	Up to 20 kHz (optimal for medium-voltage drives)
Thermal Resistance (Rth(j-c))	0.18 K/W (IGBT); 0.22 K/W (FWD)
Operating Temperature	-40°C to +150°C (junction temperature, Tj)
Isolation Voltage	4.5 kVrms (minimum, between chips and baseplate)
Package Type	ABB PressPack (PP) Package (for high thermal conductivity)
Mounting Type	Screw-Mount (baseplate to heatsink)
Compliance Standards	IEC 60747-9, UL 1557, CE (EMC: EN 61000-6-3)

Key Features and Benefits

The ABB FS300R17KE3AGDR76C stands out as a robust and efficient power electronics solution, addressing core challenges of high-voltage power conversion while delivering tangible operational value.

High Power Density & Low Energy Losses

Built with ABB’s trench-gate field-stop (TFS) IGBT chip technology, the ABB FS300R17KE3AGDR76C achieves a low on-state voltage (≤1.8 V at 300 A) and fast switching speeds—critical for minimizing conduction and switching losses. In a 15 MW wind turbine inverter, for example, these low losses reduce energy waste by up to 3% annually, translating to thousands of dollars in savings for wind farm operators. The module’s 300 A/1700 V rating also delivers exceptional power density: a single module can handle up to 510 kVA of power (at 1700 V), reducing the number of modules needed in large systems (e.g., utility-scale solar inverters) and simplifying circuit design.

PressPack Package for Thermal & Mechanical Reliability

The ABB FS300R17KE3AGDR76C uses ABB’s proprietary PressPack (PP) package, which features a copper baseplate and pressure-contact technology for superior thermal conductivity (150 W/m·K) and mechanical robustness. Unlike traditional wire-bonded IGBT modules, the PressPack design eliminates wire fatigue (a common failure point in high-vibration environments like wind turbines) and ensures uniform pressure distribution across chips—extending the module’s service life to an average of 15+ years. The baseplate also enables direct mounting to liquid-cooled heatsinks, which is essential for medium-voltage drives and inverters where heat dissipation is critical (e.g., 20 MW solar inverters operating in desert climates).

High Isolation & Grid Compliance

With a 4.5 kVrms isolation voltage, the ABB FS300R17KE3AGDR76C meets the safety requirements of medium-voltage applications (e.g., 6.6 kV, 10 kV industrial drives) and prevents electrical breakdown between high-voltage chips and the module’s baseplate. It also supports grid code compliance: its fast switching response (≤50 ns turn-on/turn-off time) enables precise control of reactive power and harmonic distortion, ensuring renewable energy systems (e.g., wind farms) meet utility standards for grid connection (e.g., IEEE 1547, IEC 61727). For example, in a solar farm, the module helps maintain power factor within ±0.95, avoiding penalties from utility companies.

Anti-Parallel Diode for Bidirectional Power Flow

The ABB FS300R17KE3AGDR76C integrates an anti-parallel free-wheeling diode (FWD) with each IGBT chip, enabling bidirectional power flow—critical for applications like regenerative drives (e.g., mining conveyors that recover energy during braking) and grid-tied inverters (that feed excess solar/wind power back to the grid). The FWD features a low forward voltage (≤1.5 V at 300 A) and high surge current capability (1200 A for 1 ms), ensuring reliable operation during transient events (e.g., sudden changes in wind speed or motor load). This integration eliminates the need for external diodes, reducing component count and circuit complexity.

Wide Temperature Range for Harsh Environments

Engineered to operate in junction temperatures from -40°C to +150°C, the ABB FS300R17KE3AGDR76C withstands extreme conditions—from arctic wind turbines (-40°C) to desert solar farms (+60°C ambient). Its thermal resistance (Rth(j-c) = 0.18 K/W) ensures efficient heat transfer to heatsinks, preventing overheating even under full load. This ruggedness reduces the need for temperature-controlled enclosures, lowering installation costs and expanding the module’s applicability to remote or harsh-location projects.

Related Models

ABB FS400R17KE3AGDR76C – Higher-current variant of the ABB FS300R17KE3AGDR76C (400 A Ic), designed for 20-30 MW wind turbine inverters or large industrial drives.

ABB FS300R15KE3AGDR76C – Lower-voltage model of the ABB FS300R17KE3AGDR76C (1500 V Vce), optimized for 6.6 kV medium-voltage drives in manufacturing plants.

ABB FS300R17KE4AGDR76C – Enhanced-switching version of the ABB FS300R17KE3AGDR76C (up to 30 kHz switching frequency), ideal for high-frequency power supplies (e.g., medical imaging equipment).

ABB FS300R17KE3AGDR76D – Extended-temperature variant of the ABB FS300R17KE3AGDR76C (-50°C to +160°C Tj), suitable for aerospace or deep-sea power conversion systems.

ABB FS300R17KE3AGDR76E – Dual-module configuration of the ABB FS300R17KE3AGDR76C (two half-bridges in one package), reducing footprint for compact inverters (e.g., rooftop solar systems).

ABB FS300R17KE3AGDR76F – High-isolation model of the ABB FS300R17KE3AGDR76C (6 kVrms isolation), designed for nuclear power plant auxiliary systems or high-voltage grid applications.

ABB FS250R17KE3AGDR76C – Lower-current variant of the ABB FS300R17KE3AGDR76C (250 A Ic), cost-optimized for small-to-medium wind turbines (1-5 MW) or industrial pumps.

Company Expertise & Warranty

As a certified partner of industry leaders such as Bentley Nevada, Honeywell, and ABB, we provide key components for renewable energy, industrial drives, and utility grid projects. Our team offers specialized pre-sales support for the ABB FS300R17KE3AGDR76C—including power loss calculations, thermal design analysis, and compatibility checks with ABB drives/inverters—and comprehensive after-sales service, such as technical training on module handling (ESD protection), installation guidance, and failure analysis. All products, including the ABB FS300R17KE3AGDR76C, come with a one-year warranty to cover manufacturing defects and performance issues, with optional extended warranties for critical applications like utility-scale renewable energy systems.

If you cannot find the model you need, please contact us immediately.

Contact Information

WhatsApp: [https://wa.me/+86 19389860630](https://wa.me/+86 19389860630)

Email: jllucky33@qq.com

Typical Application Areas

Renewable Energy Inverters: Converting DC power from wind turbines (1-15 MW) or solar arrays (5-20 MW) to AC power for grid connection, where the ABB FS300R17KE3AGDR76C’s low losses maximize energy yield.

Medium-Voltage Drives: Powering ABB ACS6000 drives for heavy-industry motors (e.g., 10 kV mining conveyors, steel mill rolling machines), using the module’s high current rating to handle 1-5 MW motor loads.

Grid-Tied Power Conditioning: Regulating reactive power and harmonic distortion in utility grids, ensuring compliance with standards like IEEE 1547 and reducing grid instability from renewable energy fluctuations.

Industrial UPS Systems: Providing backup power for data centers or manufacturing facilities with medium-voltage (6.6 kV/10 kV) electrical systems, leveraging the module’s fast switching to maintain stable output during grid outages.

Electric Vehicle (EV) Charging Infrastructure: Powering high-power EV chargers (150-350 kW) for commercial fleets, where the ABB FS300R17KE3AGDR76C’s high efficiency reduces charging station energy costs and speeds up charging times.

BY jonson

IN Company News

6-Axis Articulated Heavy-Duty Industrial Robot 、 ABB IRB 6700 3HAC051407-002

Product Overview

The ABB IRB 6700 3HAC051407-002 is a high-payload industrial robot engineered as part of ABB’s flagship IRB 6700 series—designed to handle heavy-duty automation tasks in manufacturing, automotive, and aerospace industries. As a 6-axis articulated robot, it excels in applications requiring high precision, repeatability, and load capacity, such as material handling, spot welding, assembly of large components, and machine tending for heavy machinery. Key features of the ABB IRB 6700 3HAC051407-002 include a 200 kg maximum payload, extended reach (up to 2.65 m), and ABB’s QuickMove™ and TrueMove™ motion control technologies for smooth, accurate operation. Whether deployed in automotive body shops, aerospace component factories, or heavy equipment manufacturing plants, the ABB IRB 6700 3HAC051407-002 boosts productivity, reduces manual labor costs, and ensures consistent quality—critical for industries where high-volume, heavy-duty automation directly impacts production efficiency.

Technical Specifications

Parameter	Value
Product Model	ABB IRB 6700 3HAC051407-002
Manufacturer	ABB (Robotics & Discrete Automation Division)
Product Type	6-Axis Articulated Heavy-Duty Industrial Robot
Payload Capacity	200 kg (maximum, at 1.95 m reach)
Maximum Reach	2.65 m (horizontal reach; 4.15 m vertical reach)
Repeatability	±0.05 mm (at full payload)
Motion Control	ABB QuickMove™ (for cycle time optimization), TrueMove™ (for path accuracy)
Axis Speed	Axis 1-3: Up to 120°/s; Axis 4-6: Up to 200°/s
Operating Voltage	3 x 400-480 V AC, 50/60 Hz
Power Consumption	15 kVA (maximum, under full load)
Operating Temperature	0°C to +45°C (32°F to +113°F); -20°C to +45°C (with cold climate kit)
Protection Rating	IP67 (robot body); IP54 (robot controller)
Controller Model	ABB IRC5 Single Cabinet Controller
Communication Protocols	PROFINET, Ethernet/IP, Modbus TCP, ABB RobotWare OS compatibility
Mounting Options	Floor mount, ceiling mount, wall mount

Key Features and Benefits

The ABB IRB 6700 3HAC051407-002 stands out as a robust and high-performance automation solution, addressing core challenges of heavy-duty manufacturing while delivering tangible operational value.

High Payload & Extended Reach for Versatile Heavy-Duty Tasks

With a 200 kg payload capacity and 2.65 m horizontal reach, the ABB IRB 6700 3HAC051407-002 handles large, heavy components that are impractical for manual labor or smaller robots—such as automotive chassis, aerospace engine parts, or industrial pump housings. Its extended reach enables it to cover large workcells (e.g., a 5m x 5m area in an automotive assembly line) without repositioning, reducing the need for multiple robots and simplifying production layout. For example, in a truck manufacturing plant, the robot can lift and assemble 180 kg axle components with precision, eliminating the risk of worker injury and ensuring consistent assembly quality.

Precision Motion Control for Consistent Quality

Equipped with ABB’s QuickMove™ and TrueMove™ technologies, the ABB IRB 6700 3HAC051407-002 delivers exceptional motion performance. QuickMove™ optimizes acceleration and deceleration to minimize cycle times—critical for high-volume production (e.g., 60+ automotive bodies per hour in a body shop). TrueMove™ ensures path accuracy within ±0.05 mm, even at full payload, making it ideal for precision tasks like spot welding of high-strength steel or applying adhesive beads to aerospace components. This precision reduces rework rates (common with manual operations) and ensures compliance with strict quality standards (e.g., ISO 9001 for manufacturing).

Rugged Design for 24/7 Industrial Reliability

Built to ABB’s industrial-grade standards, the ABB IRB 6700 3HAC051407-002 is engineered for continuous 24/7 operation in harsh manufacturing environments. Its IP67-rated body resists dust, oil, and water ingress—essential for automotive paint shops or metalworking facilities where coolants and lubricants are present. The robot’s gearboxes and motors are designed for long service life (MTBF: 50,000 hours), reducing maintenance frequency and unplanned downtime. Additionally, its modular design allows for quick replacement of wear parts (e.g., bearings, seals), minimizing repair time to less than 4 hours for most components.

Seamless Integration with Manufacturing Ecosystems

The ABB IRB 6700 3HAC051407-002 integrates seamlessly with ABB’s IRC5 controller and RobotWare software suite, enabling easy programming, simulation, and monitoring. The IRC5 controller supports industry-standard protocols (PROFINET, Ethernet/IP) for communication with PLCs (e.g., Siemens S7-1500, Rockwell Allen-Bradley ControlLogix) and SCADA systems, allowing centralized control of the robot within the broader production line. ABB’s RobotStudio® software also enables offline programming: engineers can simulate robot tasks in a 3D environment to optimize paths and avoid collisions before deployment, cutting commissioning time by up to 50% compared to traditional on-site programming.

Flexible Mounting & Energy Efficiency

The ABB IRB 6700 3HAC051407-002 supports floor, ceiling, and wall mounting, adapting to diverse factory layouts—for example, ceiling mounting frees up floor space in crowded assembly lines, while wall mounting is ideal for machine tending applications where the robot needs to access equipment from the side. Additionally, the robot features energy-saving technologies, such as regenerative braking (which feeds excess energy back to the grid) and sleep mode (reducing power consumption by 80% when idle). For facilities operating multiple robots, these features translate to significant annual energy savings (up to 30,000 kWh per robot) and lower carbon footprints.

Related Models

ABB IRB 6700 3HAC051407-003 – Higher-payload variant of the ABB IRB 6700 3HAC051407-002 (235 kg payload), designed for ultra-heavy tasks (e.g., assembling large industrial turbines).

ABB IRB 6700 3HAC051407-001 – Shorter-reach model of the ABB IRB 6700 3HAC051407-002 (1.95 m reach, 200 kg payload), optimized for compact workcells (e.g., automotive component sub-assembly).

ABB IRB 6700 3HAC051407-004 – Extended-temperature variant of the ABB IRB 6700 3HAC051407-002 (-30°C to +50°C), suitable for cold-storage manufacturing (e.g., heavy equipment for frozen food processing) or high-temperature foundries.

ABB IRB 6700 3HAC051407-005 – Cleanroom-certified model of the ABB IRB 6700 3HAC051407-002 (ISO 5/Class 100), ideal for aerospace or semiconductor manufacturing where dust-free operation is critical.

ABB IRB 6700 3HAC051407-006 – Welding-specialized variant of the ABB IRB 6700 3HAC051407-002, pre-equipped with ABB’s ArcWelding PowerPac software and torch mounting hardware for automotive spot welding.

ABB IRB 6700 3HAC051407-007 – Material-handling optimized model of the ABB IRB 6700 3HAC051407-002, with enhanced gripper compatibility and payload distribution for palletizing heavy containers (e.g., 200 kg industrial crates).

ABB IRB 6700 3HAC051407-008 – Collaborative-ready variant of the ABB IRB 6700 3HAC051407-002 (with ABB SafeMove™ 2), enabling safe human-robot collaboration for tasks like loading/unloading heavy machinery with worker oversight.

Company Expertise & Warranty

As a certified partner of industry leaders such as Bentley Nevada, Honeywell, and ABB, we provide key components for discrete manufacturing, automotive, and aerospace projects. Our team offers specialized pre-sales support for the ABB IRB 6700 3HAC051407-002—including workcell design, payload analysis, offline simulation (via RobotStudio®), and compatibility checks with existing PLC/DCS systems—and comprehensive after-sales service, such as on-site installation, calibration, software updates, and operator training. All products, including the ABB IRB 6700 3HAC051407-002, come with a one-year warranty to cover manufacturing defects and performance issues, with optional extended warranty plans available for long-term operational peace of mind.

If you cannot find the model you need, please contact us immediately.

Contact Information

WhatsApp: [https://wa.me/+86 19389860630](https://wa.me/+86 19389860630)

Email: jllucky33@qq.com

Typical Application Areas

Automotive Manufacturing: Handling and assembling heavy components (e.g., car chassis, truck axles) in body shops, where the ABB IRB 6700 3HAC051407-002’s 200 kg payload and precision ensure consistent weld quality and reduced cycle times.

Aerospace Industry: Tending to large machine tools for aerospace engine parts (e.g., turbine casings) or applying thermal protection coatings to aircraft fuselages, leveraging the robot’s extended reach and path accuracy.

Heavy Equipment Manufacturing: Palletizing and moving heavy industrial components (e.g., 180 kg pump housings, 200 kg gearboxes) in construction equipment factories, eliminating manual lifting and reducing worker injury risk.

Metalworking & Foundries: Loading/unloading hot metal castings (up to 150 kg) into heat treatment ovens, using the robot’s IP67 protection to withstand high temperatures and metal dust.

Logistics & Material Handling: Palletizing heavy shipping containers (e.g., 200 kg crates of industrial parts) in distribution centers, where the robot’s energy efficiency and 24/7 operation boost throughput by up to 40% compared to manual labor.

BY jonson

IN Company News

Industrial Switching Power Supply Module | ABB 35TP90 GJR5143600R0001

Product Overview

The ABB 35TP90 GJR5143600R0001 is a high-reliability industrial power supply module designed for ABB’s DCS (Distributed Control System) and PLC-based automation ecosystems—critical for powering control modules, I/O units, and field devices in process industries such as petrochemical, power generation, and water treatment. As a core power component, this module specializes in converting and regulating AC input voltage into stable DC power, ensuring consistent operation of sensitive automation equipment even in fluctuating electrical environments. Key features of the ABB 35TP90 GJR5143600R0001 include wide input voltage range for versatility, high power efficiency (up to 92%), and built-in overvoltage/overcurrent protection. Whether deployed in refinery control cabinets, power plant DCS racks, or municipal wastewater treatment systems, the ABB 35TP90 GJR5143600R0001 delivers uninterrupted, clean power—critical for preventing automation system downtime and maintaining process continuity.

Technical Specifications

Parameter	Value
Product Model	ABB 35TP90 GJR5143600R0001
Manufacturer	ABB (Industrial Automation Division)
Product Type	Industrial Switching Power Supply Module
Input Voltage Range	85-264 V AC (single-phase); 120-370 V DC (optional)
Output Voltage	24 V DC (regulated)
Output Current	90 A (continuous); 100 A (peak, 10s)
Power Efficiency	Up to 92% (full load, 230 V AC input)
Operating Temperature	-25°C to +70°C (-13°F to +158°F)
Protection Features	Overvoltage (OVP), Overcurrent (OCP), Short-Circuit (SCP), Over-Temperature (OTP)
Cooling Method	Forced air (variable-speed fan) + passive heatsink
MTBF (Mean Time Between Failures)	150,000 hours (per IEC 61709)
Mounting Type	DIN Rail (35mm standard) / Panel Mount
IP Rating	IP20 (front panel); IP30 (enclosed version available)
Compliance Standards	IEC 61010-1, UL 508, CE (EMC: EN 61000-6-2)

Key Features and Benefits

The ABB 35TP90 GJR5143600R0001 stands out as a robust and efficient power supply solution, addressing core challenges of power management in industrial automation while delivering tangible operational value.

Wide Input Range and Stable Output

Engineered to handle variable electrical conditions common in industrial settings, the ABB 35TP90 GJR5143600R0001 accepts an AC input range of 85-264 V (or optional DC input of 120-370 V), making it compatible with global power grids (110 V, 220 V, 230 V). It converts this input into a precisely regulated 24 V DC output with a ripple voltage of less than 50 mV—critical for powering sensitive components like ABB’s AC 800M control modules or analog I/O units. This stability prevents voltage fluctuations from corrupting data signals or damaging equipment, ensuring consistent performance of the entire automation system.

High Power Density and Efficiency

With a 90 A continuous output current in a compact form factor (120mm x 175mm x 100mm), the ABB 35TP90 GJR5143600R0001 offers exceptional power density—ideal for space-constrained control cabinets in petrochemical plants or power plant DCS rooms. Its high efficiency (up to 92%) minimizes energy loss as heat, reducing cooling requirements in enclosures and lowering overall operational costs. For facilities operating 24/7, this efficiency translates to significant annual energy savings compared to lower-efficiency power supplies.

Comprehensive Protection Mechanisms

The ABB 35TP90 GJR5143600R0001 integrates multi-layer protection to safeguard both the module and connected equipment. Overvoltage protection (OVP) triggers if output voltage exceeds 28 V DC, preventing damage to 24 V-compatible devices. Overcurrent protection (OCP) limits output current to 100 A during peak loads, while short-circuit protection (SCP) shuts down the module temporarily in case of a short, resetting automatically once the fault is resolved. Over-temperature protection (OTP) activates if internal temperatures exceed 85°C, preventing thermal damage and extending the module’s lifespan. These features reduce unplanned maintenance and equipment replacement costs.

Rugged Design for Harsh Environments

Built to ABB’s industrial-grade standards, the ABB 35TP90 GJR5143600R0001 operates reliably in extreme conditions. Its wide operating temperature range (-25°C to +70°C) accommodates cold storage facilities, desert power plants, and outdoor equipment shelters. The module’s variable-speed fan adjusts cooling based on load and temperature, reducing fan noise and wear (extending fan life to 50,000 hours). Additionally, its conformal-coated PCB (optional) resists dust, humidity, and chemical vapors—critical for refineries or wastewater treatment plants where corrosive substances are present.

Seamless Integration with ABB Ecosystems

The ABB 35TP90 GJR5143600R0001 is natively compatible with ABB’s automation platforms, including the Symphony Plus DCS, AC 800M PLC, and Advant OCS systems. It includes a built-in status LED (green: normal; red: fault) and a remote monitoring interface (via Modbus RTU) that sends real-time data (output voltage, current, temperature) to ABB’s Control Builder M software or plant SCADA systems. This integration allows operators to proactively monitor power supply health, predict failures using MTBF data, and schedule maintenance during planned downtime—minimizing disruption to critical processes.

Related Models

ABB 35TP60 GJR5143600R0002 – Lower-current variant of the ABB 35TP90 GJR5143600R0001 (60 A output), ideal for smaller automation systems (e.g., packaging machinery PLCs).

ABB 35TP120 GJR5143600R0003 – Higher-current version of the ABB 35TP90 GJR5143600R0001 (120 A output), designed for large DCS racks with multiple control modules (e.g., 10+ ABB AC 800M units).

ABB 35TP90W GJR5143600R0004 – Wide-temperature model of the ABB 35TP90 GJR5143600R0001 (-40°C to +85°C), optimized for arctic oil fields or desert solar power plants.

ABB 35TP90R GJR5143600R0005 – Redundant power supply paired with the ABB 35TP90 GJR5143600R0001, supporting 1+1 hot standby for safety-critical applications (e.g., nuclear power plant DCS).

ABB 35TP90P GJR5143600R0006 – Panel-mount exclusive variant of the ABB 35TP90 GJR5143600R0001, with enhanced IP40 rating for outdoor enclosures (e.g., offshore platform control cabinets).

ABB 35TP90E GJR5143600R0007 – Ethernet-enabled model of the ABB 35TP90 GJR5143600R0001, adding Ethernet/IP connectivity for cloud-based monitoring (e.g., ABB Ability™ platform integration).

ABB 35TP90S GJR5143600R0008 – Slim-profile version of the ABB 35TP90 GJR5143600R0001 (80mm width), designed for ultra-compact cabinets (e.g., mobile automation units).

ABB 35TP90D GJR5143600R0009 – DC-only input variant of the ABB 35TP90 GJR5143600R0001 (120-370 V DC input), suitable for battery-backed systems (e.g., remote water pump control).

Company Expertise & Warranty

As a certified partner of industry leaders such as Bentley Nevada, Honeywell, and ABB, we provide key components for process industries, discrete manufacturing, and infrastructure projects. Our team offers specialized pre-sales support for the ABB 35TP90 GJR5143600R0001—including compatibility checks with ABB DCS/PLC systems, load calculation for power sizing, and enclosure cooling design—and comprehensive after-sales service, such as on-site installation, performance testing, and firmware updates. All products, including the ABB 35TP90 GJR5143600R0001, come with a one-year warranty to cover manufacturing defects and performance issues.

If you cannot find the model you need, please contact us immediately.

Contact Information

WhatsApp: [https://wa.me/+86 19389860630](https://wa.me/+86 19389860630)

Email: jllucky33@qq.com

Typical Application Areas

Petrochemical Refineries: Powering ABB Symphony Plus DCS modules and emergency shutdown (ESD) systems, where the ABB 35TP90 GJR5143600R0001’s stability prevents process disruptions during voltage sags.

Power Generation: Supplying DC power to ABB AC 800M PLCs in combined-cycle gas turbine (CCGT) control rooms, ensuring continuous monitoring of turbine parameters.

Water/Wastewater Treatment: Powering I/O modules and sensor networks in ABB Advant OCS systems, leveraging the module’s wide temperature range to operate in outdoor pump stations.

Pharmaceutical Manufacturing: Providing clean power to ABB’s batch control systems, where low ripple voltage ensures accurate dosing of chemicals and compliance with FDA regulations.

Mining Operations: Powering automation equipment in underground mines, using the ABB 35TP90 GJR5143600R0001’s rugged design to withstand dust, humidity, and temperature fluctuations.

BY jonson

IN Company News

Turbine Control Module | IS215UCVHM06A

Product Overview

The IS215UCVHM06A is a critical turbine control module engineered for GE’s Speedtronic Mark VI and Mark VII control systems—industry-leading platforms for regulating gas, steam, and industrial turbines in power generation, oil & gas, and petrochemical facilities. As a core processing component, this module specializes in executing closed-loop control logic for turbine speed, load, and fuel management, while also enabling seamless communication between field devices and the central controller. Key features of the IS215UCVHM06A include high-speed processing for real-time control, built-in redundancy support for fault tolerance, and compliance with strict industrial safety standards (e.g., IEC 61508 SIL 2). Whether deployed in large-scale power plants, offshore drilling rigs, or refinery turbomachinery, the IS215UCVHM06A ensures precise turbine operation—critical for maximizing energy efficiency, preventing equipment damage, and maintaining process safety.

Technical Specifications

Parameter	Value
Product Model	IS215UCVHM06A
Manufacturer	GE (Industrial Solutions)
Product Type	Turbine Control Module (CPU/Logic Processor)
Compatible Platforms	GE Speedtronic Mark VI, Mark VII Turbine Control Systems
Processor	32-bit RISC Processor (500 MHz)
Memory	256 MB DDR2 RAM; 128 MB Flash Storage
Control Loops Supported	Up to 16 independent closed-loop control loops
Operating Voltage	5 V DC (powered via Speedtronic backplane)
Operating Temperature	0°C to +60°C (32°F to +140°F)
Communication Protocols	GE Proprietary Bus (Genius Bus), Modbus RTU, Ethernet/IP (optional)
Redundancy Support	Hot-Standby Redundancy (1:1)
Isolation	1500 Vrms (module-to-backplane)
Mounting Type	Speedtronic Mark VI/VII Chassis Backplane Mount
IP Rating	IP20 (chassis-protected, for control room cabinets)
Safety Compliance	IEC 61508 SIL 2, IEEE 1212

Key Features and Benefits

The IS215UCVHM06A stands out as a robust and high-performance turbine control solution, addressing core challenges of turbomachinery regulation in demanding industrial environments while delivering tangible operational value.

High-Speed Processing for Real-Time Turbine Control

Powered by a 500 MHz 32-bit RISC processor, the IS215UCVHM06A executes complex control logic—such as speed governing, load sharing, and fuel ratio control—with ultra-low latency. It achieves a control loop update rate of less than 20 ms for 16 simultaneous closed-loop tasks, ensuring rapid response to dynamic changes in turbine conditions (e.g., sudden load spikes in power generation or pressure fluctuations in oil & gas pipelines). This speed is critical for preventing turbine overspeed (a major safety hazard) and maintaining stable operation, even in highly variable process environments.

Redundancy and Fault Tolerance for Uninterrupted Operation

Turbine downtime can cost industrial facilities hundreds of thousands of dollars per hour, which is why the IS215UCVHM06A supports 1:1 hot-standby redundancy. In a redundant configuration, a backup IS215UCVHM06A module continuously mirrors the primary module’s operation; if the primary module fails (e.g., due to a hardware fault), the backup takes over in less than 100 ms—with no interruption to turbine control. The module also includes comprehensive self-diagnostics (e.g., memory checks, communication link monitoring) that alert operators to potential issues via the Speedtronic HMI, enabling proactive maintenance and minimizing unplanned downtime.

Seamless Integration with Speedtronic Ecosystem

The IS215UCVHM06A is natively designed for GE’s Speedtronic Mark VI and Mark VII systems, ensuring plug-and-play compatibility with other Speedtronic components (e.g., I/O modules, communication cards, HMIs). It leverages the Genius Bus for high-speed data transfer with field I/O (up to 1 Mbps) and supports optional Ethernet/IP for integration with plant-wide SCADA systems or cloud-based monitoring platforms (e.g., GE Predix). The module is also fully configurable via GE’s ControlST software, allowing engineers to customize control logic, set alarm thresholds, and optimize turbine performance parameters—all within a user-friendly interface that reduces commissioning time by up to 25%.

Safety-Certified Design for Critical Applications

Compliant with IEC 61508 SIL 2 and IEEE 1212 standards, the IS215UCVHM06A is engineered to meet the safety requirements of turbomachinery control. It includes hardware and software features to prevent common-cause failures, such as redundant clock circuits and error-correcting code (ECC) memory. The module also supports emergency shutdown (ESD) logic, enabling rapid turbine shutdown if critical parameters (e.g., bearing temperature, rotor vibration) exceed safe limits—protecting personnel, equipment, and the environment from harm.

Durability for Harsh Industrial Environments

Built to GE’s rigorous industrial standards, the IS215UCVHM06A withstands the harsh conditions of power plants and oil & gas facilities. Its wide operating temperature range (0°C to +60°C) accommodates control room and equipment shelter environments, while its 1500 Vrms isolation protects against electrical surges and ground loops common in high-voltage industrial settings. The module’s ruggedized PCB design and conformal coating (optional) also resist dust, humidity, and chemical exposure—extending its service life to an average of 8–10 years in typical operating conditions.

Related Models

IS215UCVHM07A – Enhanced version of the IS215UCVHM06A with a 600 MHz processor and expanded memory (512 MB RAM), ideal for large turbines with complex control requirements (e.g., 1500 MW steam turbines).

IS215UCVHM05A – Previous generation control module; compatible with older Mark VI systems but lacks the IS215UCVHM06A’s Ethernet/IP support and SIL 2 compliance.

IS215UCVHM06AR – Pre-configured redundant variant of the IS215UCVHM06A, optimized for 1:1 hot-standby operation in safety-critical applications (e.g., nuclear power plant auxiliary turbines).

IS215UCVHM06AW – Wide-temperature model of the IS215UCVHM06A (-20°C to +70°C), designed for outdoor or extreme-environment turbines (e.g., arctic gas turbines, desert solar thermal turbines).

IS215UCVHM06AE – Ethernet-enabled variant of the IS215UCVHM06A with built-in Ethernet/IP port, eliminating the need for external communication cards in SCADA-integrated systems.

IS215UCVHM06AT – Test and diagnostic module that pairs with the IS215UCVHM06A, enabling on-site verification of control logic and processor performance without disrupting turbine operation.

IS215UCVHM06AI – I/O expansion companion module for the IS215UCVHM06A, adding 32 digital input/output channels for integration with auxiliary turbine components (e.g., lubrication pumps, cooling fans).

IS215UCVHM06AS – Safety-enhanced model of the IS215UCVHM06A (SIL 3 compliance), suitable for ultra-critical applications (e.g., offshore platform gas turbines where failure risks environmental harm).

Company Expertise & Warranty

As a certified partner of industry leaders such as Bentley Nevada, Honeywell, and GE, we provide key components for power generation, oil & gas, and process industries. Our team offers specialized pre-sales support for the IS215UCVHM06A—including compatibility checks with Speedtronic Mark VI/VII systems, control logic design consultation, and safety compliance validation—and comprehensive after-sales service, such as on-site installation, firmware updates, and technical training for turbine operators. All products, including the IS215UCVHM06A, come with a one-year warranty to cover manufacturing defects and performance issues.

If you cannot find the model you need, please contact us immediately.

Contact Information

WhatsApp: [https://wa.me/+86 19389860630](https://wa.me/+86 19389860630)

Email: jllucky33@qq.com

Typical Application Areas

Power Generation Gas Turbines: The IS215UCVHM06A controls speed and fuel flow in combined-cycle gas turbines (CCGT), optimizing efficiency by adjusting fuel-air ratios based on exhaust gas temperature and grid load demands.

Steam Turbine Power Plants: Regulates turbine speed and generator load in coal-fired or nuclear power plants, ensuring synchronization with the electrical grid and preventing overspeed during load shedding.

Oil & Gas Pipeline Compressors: Manages the speed of gas turbine-driven compressors in cross-country pipelines, maintaining consistent pressure and flow to avoid pipeline surges.

Refinery and Petrochemical Turbomachinery: Controls steam turbines used to drive pumps, fans, and compressors in refineries, ensuring stable operation during process upsets (e.g., changes in feedstock flow).

Offshore Drilling Rigs: Operates gas turbines powering drilling equipment, leveraging the IS215UCVHM06A’s redundancy to ensure uninterrupted operation in remote, harsh offshore environments.

BY jonson

IN Company News

High-Integrity Protective Relay | GE 469-P5-HI-A20-E

Product Overview

The GE 469-P5-HI-A20-E is a high-integrity protective relay designed by GE Digital (formerly GE Multilin) for critical power system protection, control, and monitoring applications. Engineered to safeguard transformers, generators, motors, and transmission/distribution lines in industries such as power generation, oil & gas, and industrial manufacturing, this relay delivers precise fault detection, rapid tripping, and comprehensive system visibility—core capabilities that prevent equipment damage, minimize downtime, and ensure grid stability. As part of GE’s 469 Multilin series, the GE 469-P5-HI-A20-E integrates advanced protection algorithms (e.g., overcurrent, differential, and thermal protection) with flexible communication options, making it adaptable to both legacy and modern power systems. Its rugged construction ensures reliability in harsh environments (e.g., high humidity, electrical noise), while its user-friendly interface simplifies configuration and troubleshooting. Whether deployed in a utility substation, a petrochemical plant’s power distribution network, or a manufacturing facility’s motor control center, the GE 469-P5-HI-A20-E sets a benchmark for protective relay performance, ensuring critical power assets operate safely and efficiently.

Technical Specifications

Parameter	Value
Product Model	GE 469-P5-HI-A20-E
Manufacturer	GE Digital (GE Multilin)
Product Type	High-Integrity Protective Relay
Input Voltage (Control Power)	120/240V AC ±10% (50/60 Hz) or 125/250V DC ±10%
Current Input Range	5A RMS (standard); 1A RMS (optional via CT scaling)
Voltage Input Range	120/240V AC (phase-to-phase or phase-to-neutral)
Protection Functions	Overcurrent (50/51), Differential Protection (87T/M), Thermal Overload (49), Voltage Protection (59/27), Frequency Protection (81U/O)
Communication Protocols	Modbus RTU/TCP, DNP3.0, IEC 61850 (GOOSE/MMS)
Operating Temperature Range	-40°C to +70°C (-40°F to +158°F)
Dimensions (W×H×D)	144mm × 144mm × 250mm (4-module DIN size)
Mounting Type	Panel-mounted (DIN 43700 standard) or rack-mounted
IP Rating	IP54 (front panel); IP20 (rear terminals when installed)
Safety Certifications	IEC 61850-3, IEEE C37.20.1, UL 508, CSA C22.2 No. 14

Key Features and Benefits

Comprehensive Protection for Critical Assets

The GE 469-P5-HI-A20-E is equipped with a full suite of protection functions tailored to shield high-value power assets from faults and abnormal conditions. For example, its differential protection (87T/M) detects internal faults in transformers or motors by comparing current inputs from primary and secondary sides—tripping circuits in as little as 20ms to prevent winding damage. The thermal overload function (49) uses a dynamic thermal model to simulate equipment temperature, avoiding false trips during normal inrush currents while protecting against sustained overloading. Additionally, voltage (59/27) and frequency (81U/O) protection safeguards against under/overvoltage and under/overfrequency events—common in power grids with variable renewable energy inputs. This breadth of protection eliminates the need for multiple standalone relays, reducing hardware costs and simplifying system design.

High-Speed Fault Detection & Tripping

In power systems, every millisecond matters: a delayed response to a short circuit can lead to catastrophic equipment failure or widespread outages. The GE 469-P5-HI-A20-E addresses this with ultra-fast tripping times—down to 1 cycle (16.67ms at 60Hz) for overcurrent faults and 20ms for differential faults. This speed is enabled by its 32-bit microprocessor and advanced signal processing algorithms, which analyze current/voltage waveforms in real time to distinguish between genuine faults and transient disturbances (e.g., motor starting inrush). For utilities and industrial plants, this rapid response minimizes arc flash hazards, reduces equipment repair costs, and limits the scope of power outages—critical for maintaining operational continuity in sectors like oil & gas or data centers.

Seamless Integration with Smart Grids

As a modern protective relay, the GE 469-P5-HI-A20-E supports industry-leading communication protocols, including IEC 61850 (GOOSE/MMS) for substation automation and DNP3.0 for utility-grade data transmission. This allows it to integrate seamlessly with smart grid systems, enabling remote monitoring, control, and data logging. For instance, via IEC 61850 GOOSE messages, the relay can send trip signals to other devices (e.g., circuit breakers) in milliseconds, eliminating the need for hardwired interlocks. It also stores up to 1,000 event records and 50 fault waveforms (via disturbance recording), providing engineers with detailed data to diagnose the root cause of faults—reducing troubleshooting time by up to 60% compared to legacy relays. Modbus compatibility further ensures interoperability with SCADA systems and third-party HMIs, making it easy to incorporate into existing power management networks.

Rugged Design for Extreme Environments

The GE 469-P5-HI-A20-E is built to withstand the harshest operating conditions, from freezing utility substations to hot industrial motor control centers. Its wide operating temperature range (-40°C to +70°C) and IP54 front-panel protection (dust and water splash resistance) ensure reliability in outdoor or semi-outdoor installations. The relay’s rear terminals are isolated and shielded to resist electromagnetic interference (EMI) from nearby high-voltage equipment, preventing false trips caused by electrical noise. Additionally, its robust mechanical design meets IEEE C37.20.1 standards for shock and vibration resistance (up to 50g peak shock, 20g vibration), making it suitable for deployment in mobile applications (e.g., offshore drilling rigs) or areas prone to seismic activity. This durability translates to a mean time between failures (MTBF) of over 100,000 hours, minimizing maintenance and replacement costs.

Related Models

GE 469-P3-HI-A20-E – Reduced-functionality variant of the GE 469-P5-HI-A20-E, offering core protection (50/51, 49, 59/27) without differential protection (87T/M) for cost-sensitive applications.
GE 469-P6-HI-A20-E – Enhanced model of the GE 469-P5-HI-A20-E with additional protection functions (e.g., distance protection 21 for transmission lines) and dual Ethernet ports for redundant communication.
GE 469-P5-HI-A10-E – Low-voltage version of the GE 469-P5-HI-A20-E, optimized for 48/120V DC control power (ideal for industrial machinery with low-voltage systems).
GE 469-P5-HI-B20-E – Retrofit-compatible model of the GE 469-P5-HI-A20-E, designed to replace older GE Multilin relays (e.g., 369) with identical mounting and wiring to reduce upgrade time.
GE 469-P5-LI-A20-E – “Light” variant of the GE 469-P5-HI-A20-E with simplified IEC 61850 support (no GOOSE) and fewer event records, targeted at small-scale industrial applications.
GE 469-P5-HI-A20-F – International version of the GE 469-P5-HI-A20-E, certified for compliance with European (CE) and Asian (JIS) standards, with 50Hz-optimized protection settings.
GE 469-P5-HI-A20-P – Power-quality monitoring add-on module for the GE 469-P5-HI-A20-E, adding harmonic analysis (up to 50th harmonic) and voltage sag/swell detection.
GE 469-P5-HI-A20-R – Redundant power supply model of the GE 469-P5-HI-A20-E, featuring dual 120/240V AC inputs for uninterrupted operation during power supply failures.

Company Expertise & Application Areas

As a certified partner of industry leaders such as GE Digital, ABB, and Honeywell, we provide key components for power system and industrial control sectors, including:

Power Generation: Protecting generators, transformers, and auxiliary motors in coal, gas, and renewable energy plants—where the GE 469-P5-HI-A20-E’s differential and thermal protection prevents costly downtime.
Oil & Gas: Safeguarding power distribution networks in refineries and offshore platforms, leveraging the relay’s rugged design and IEC 61850 integration for remote monitoring of hazardous areas.
Industrial Manufacturing: Securing motor control centers (MCCs) and critical process equipment (e.g., compressors, pumps) in automotive, food & beverage, and chemical plants—using the GE 469-P5-HI-A20-E’s fast tripping to avoid production halts.

We prioritize professionalism in pre-sales and after-sales service: our team provides technical consultations to tailor the GE 469-P5-HI-A20-E’s protection settings to your specific assets, and we offer a one-year warranty for all purchases. If you cannot find the model you need, please contact us immediately.

Contact Information

WhatsApp: [https://wa.me/+86 19389860630](https://wa.me/+86 19389860630)
Email: jllucky33@qq.com