The document describes ABB's UNO-DM-PLUS string inverters for residential solar installations ranging from 1.2 to 5 kW. The inverters feature easy plug-and-play installation, wireless monitoring capabilities, dynamic feed-in control, and future-proof connectivity for smart integration. They offer high efficiency, a compact design that fits multiple power ratings, and remote firmware upgrades.
The document provides information on ABB's TRIO-TM-50.0-400 and TRIO-TM-60.0-480 string inverters. The inverters have power ratings of 50-60 kW, 3 independent MPPTs, modular designs with separate AC and DC compartments, and monitoring and control interfaces. They are designed for large decentralized photovoltaic systems to maximize return on investment.
The document describes the ABB UNO-DM-6.0-TL-PLUS single-phase solar inverter. It is a 6 kW inverter that features high power density in a compact design, easy installation and commissioning, and smart monitoring capabilities. It allows remote monitoring and control through wireless connectivity.
The PVS-100/120-TL is ABB's three-phase string inverter solution for decentralized photovoltaic systems with power ratings up to 120 kW. It has six independent MPPTs, a compact size, integrated DC/AC disconnection and surge protection, and horizontal or vertical mounting options. Standard wireless connectivity and mobile apps make configuration and monitoring easy.
The STM is an integrated step motor and drive device that combines a step motor and drive electronics into a single unit. This offers space, wiring, and cost savings over separate motor and drive solutions. The STM provides various control modes including pulse and direction, velocity control, and execution of programmed motion sequences. Models are available with different communications interfaces like RS-232, RS-485, and CANopen.
The AZ40A8DDC is a PWM servo drive designed to drive DC motors at high switching frequencies. It can provide up to 40A of peak current and 20A of continuous current from a 10-80VDC power supply. The drive is compact and lightweight for direct integration into PCBs. It has full protection against over-voltage, under-voltage, over-current and other faults.
The document describes ABB's UNO-2.0-I and UNO-2.5-I string inverters for residential solar installations. The inverters have a power output range of 2-2.5 kW, feature high maximum efficiency of up to 96.3%, and include an MPPT algorithm for improved energy harvesting. They are designed for outdoor use with an IP65 rating and include monitoring capabilities. The document provides detailed technical specifications for the inverters, including electrical characteristics, communications options, and compliance certifications.
The AZBDC25A20 is a PWM servo drive designed to drive brushless and brushed DC motors. It has a peak current of 25A, continuous current of 12.5A, and operates on a supply voltage of 40-175VDC. The drive provides motor control and protection from over/under voltage, overcurrent, and overheating. It interfaces with digital controllers using PWM and direction inputs.
The AZ25A20DDC is a PWM servo drive designed to drive DC motors from 40-175VDC power supplies. It can provide up to 25A of peak current and 12.5A of continuous current. The drive integrates directly onto PCBs and includes protections for overvoltage, undervoltage, overcurrent, and short circuits. It interfaces with digital controllers using PWM and direction inputs.
The document provides information on ABB's TRIO-TM-50.0-400 and TRIO-TM-60.0-480 string inverters. The inverters have power ratings of 50-60 kW, 3 independent MPPTs, modular designs with separate AC and DC compartments, and monitoring and control interfaces. They are designed for large decentralized photovoltaic systems to maximize return on investment.
The document describes the ABB UNO-DM-6.0-TL-PLUS single-phase solar inverter. It is a 6 kW inverter that features high power density in a compact design, easy installation and commissioning, and smart monitoring capabilities. It allows remote monitoring and control through wireless connectivity.
The PVS-100/120-TL is ABB's three-phase string inverter solution for decentralized photovoltaic systems with power ratings up to 120 kW. It has six independent MPPTs, a compact size, integrated DC/AC disconnection and surge protection, and horizontal or vertical mounting options. Standard wireless connectivity and mobile apps make configuration and monitoring easy.
The STM is an integrated step motor and drive device that combines a step motor and drive electronics into a single unit. This offers space, wiring, and cost savings over separate motor and drive solutions. The STM provides various control modes including pulse and direction, velocity control, and execution of programmed motion sequences. Models are available with different communications interfaces like RS-232, RS-485, and CANopen.
The AZ40A8DDC is a PWM servo drive designed to drive DC motors at high switching frequencies. It can provide up to 40A of peak current and 20A of continuous current from a 10-80VDC power supply. The drive is compact and lightweight for direct integration into PCBs. It has full protection against over-voltage, under-voltage, over-current and other faults.
The document describes ABB's UNO-2.0-I and UNO-2.5-I string inverters for residential solar installations. The inverters have a power output range of 2-2.5 kW, feature high maximum efficiency of up to 96.3%, and include an MPPT algorithm for improved energy harvesting. They are designed for outdoor use with an IP65 rating and include monitoring capabilities. The document provides detailed technical specifications for the inverters, including electrical characteristics, communications options, and compliance certifications.
The AZBDC25A20 is a PWM servo drive designed to drive brushless and brushed DC motors. It has a peak current of 25A, continuous current of 12.5A, and operates on a supply voltage of 40-175VDC. The drive provides motor control and protection from over/under voltage, overcurrent, and overheating. It interfaces with digital controllers using PWM and direction inputs.
The AZ25A20DDC is a PWM servo drive designed to drive DC motors from 40-175VDC power supplies. It can provide up to 25A of peak current and 12.5A of continuous current. The drive integrates directly onto PCBs and includes protections for overvoltage, undervoltage, overcurrent, and short circuits. It interfaces with digital controllers using PWM and direction inputs.
The document discusses ABB's MICRO inverter system for photovoltaic applications. It offers individual panel-level control and monitoring through ABB's proprietary MPPT algorithm. Installation is simplified through a wireless communication protocol between the MICRO inverters and ABB's Concentrator Data Device communication hub, which provides plant monitoring and troubleshooting capabilities. The system includes 250W and 300W MICRO inverters, an AC trunk cable for connections, and mounting and extension accessory kits.
Digital isolation plays a key role in designing industrial motor control systems. This presentation takes you through why, where and how for isolation designs that optimize system performance while meeting the ever stringent safety and efficient standards. Analog Devices, Nicola O'Byrne at PCIM 2015
The AZBDC10A20 PWM servo drive is designed to drive brushless and brushed DC motors with a peak current of 10A and continuous current of 6A. It has a supply voltage range of 40-175VDC and integrates directly into PCBs. The drive is protected against over-voltage, under-voltage, over-current, over-heating and short-circuits. It requires only a single power supply and PWM input to control motor direction and speed.
The AZB40A8 is an analog servo drive designed to drive brushless and brushed DC motors. It has a peak current of 40A, continuous current of 20A, and operates on a 10-80VDC power supply. The drive provides hardware protections and supports hall sensor feedback and trapezoidal commutation for three phase brushless motors or single phase brushed motors.
The DigiFlex® PerformanceTM Servo Drive DZSANTU-020B200 is a fully digital servo drive designed to control brushed and brushless servomotors. It operates in torque, velocity, or position mode and supports up to 3 additional drives on an EtherCAT network. The drive features programmable digital and analog inputs/outputs, configurable limits and gains, and is compliant with various safety standards.
The AZBDC60A8 is a PWM servo drive designed to drive brushless and brushed DC motors. It can provide up to 60A of peak current and 30A of continuous current, and operates from a 10-80VDC power supply. The drive provides motor commutation and protection from overvoltage, undervoltage, overcurrent, and other fault conditions. It interfaces with digital controllers using PWM and direction inputs.
The AZ60A8DDC is a PWM servo drive designed to drive brush-type DC motors at high switching frequencies. It has a peak current of 60A, continuous current of 30A, and operates from 10-80VDC. The drive provides motor control and protection from overvoltage, undervoltage, overcurrent and more.
Isolation in gate drive is one critical area for designing efficient, safe and highly productive motor control systems. Learn how the latest ADI isolated gate drives can help you solve the design challenges. Analog Devices, Dara O'Sullivan PCIM 2015
The AZBDC20A8 is a PWM servo drive designed to drive brushless and brushed DC motors. It has a peak current of 20A, continuous current of 12A, and operates on a 10-80VDC power supply. The drive provides motor commutation and protection from over-voltage, under-voltage, over-current, and other faults. It interfaces with digital controllers using PWM and direction inputs to control motor speed and direction.
The AZ25A20 is a PWM servo drive designed to drive brush-type DC motors at high switching frequencies. It has a peak current of 25A, continuous current of 12.5A, and operates on a supply voltage of 40-175VDC. The drive is compact, lightweight, and designed for direct integration into PCBs. It provides overvoltage, undervoltage, overcurrent, and overheating protection.
The AZB10A20 servo drive is designed to drive brushless and brushed DC motors at high switching frequencies. It has a peak current of 10A, continuous current of 6A, and operates on a supply voltage of 40-175VDC. The drive provides hardware protections and can interface with digital controllers through analog ±10V inputs and outputs.
The AZB25A20 analog servo drive is designed to drive brushless and brushed DC motors. It has a peak current of 25A, continuous current of 12.5A, and operates on a supply voltage of 40-175VDC. It provides protection against overvoltage, undervoltage, overcurrent, overheating and short circuits. The drive can be directly integrated into PCBs and interfaces with digital controllers that have analog ±10V outputs.
The document describes an analog servo drive that is designed to drive brushless and brushed DC motors. It can provide up to 25 amps of peak current and 12.5 amps of continuous current. It has protections against overvoltage, undervoltage, overcurrent and other faults. It is designed for direct integration into PCBs and has a compact size and wide operating temperature range.
This document provides an overview of RF control products, specifically RF switches and RF attenuators. It begins with an introduction to RF control products and their applications. It then discusses RF switches in more detail, covering naming conventions, technologies, characteristics like isolation and power handling, and application considerations. RF attenuators are also discussed, including fixed attenuators, digitally-controlled attenuators, and analog attenuators. Example applications of RF switches and attenuators in signal routing and level control are provided. New RF switch and attenuator products are highlighted at the end.
The AZB60A8 is a PWM servo drive designed to drive brushless and brushed DC motors at high switching frequencies. It has a peak current of 60A, continuous current of 30A, and operates on a 10-80VDC power supply. The drive provides hardware protections and supports hall sensors, trapezoidal commutation, and ±10V analog command input.
The AZ10A20DDC is a PWM servo drive designed to drive DC motors. It has a peak current of 10A, continuous current of 6A, and operates on a supply voltage of 40-175VDC. The drive provides protection against overvoltage, undervoltage, overcurrent and other faults. It interfaces with digital controllers using PWM and direction inputs.
The AZ40A8 is a PWM servo drive designed to drive brush-type DC motors at high switching frequencies. It has a peak current of 40A, continuous current of 20A, and operates on a 10-80VDC supply voltage. The drive is compact, lightweight, and designed for direct integration into PCBs. It provides current control and protection against overvoltage, undervoltage, overcurrent, overheating and short circuits.
This document provides instructions and specifications for a Philips color television chassis. It includes:
1. Technical specifications for the television such as reception details, connections, power requirements, and dimensions.
2. Safety and maintenance instructions, including warnings to take precautions against electrostatic discharge when working on the television and to discharge the picture tube safely.
3. Notes on measuring voltages and waveforms, maintaining the television, and schematic symbols and component value notation.
The AZBE10A20 is an analog servo drive designed to drive brushless and brushed DC motors. It can provide up to 10A of continuous current and operates on an input voltage range of 40-175VDC. The drive has features such as four quadrant regenerative operation, direct board integration, encoder and tachometer feedback support, and hardware protections against overvoltage, overcurrent, and more.
The AZ60A8 is a PWM servo drive designed to drive brush-type DC motors at high switching frequencies. It has a peak current of 60A, continuous current of 30A, and operates on a 10-80VDC supply voltage. The drive is compact, lightweight, and designed for direct integration into PCBs. It provides current control and protection against overvoltage, undervoltage, overcurrent, overheating and short circuits.
This document provides information on ABB's TRIO-TM-50.0-400 and TRIO-TM-60.0-480 string inverters. The inverters have power ratings of 50-60 kW, 3 independent MPPTs, and modular designs to maximize flexibility. They allow for both vertical and horizontal installation and include wireless connectivity for monitoring and maintenance.
The document summarizes specifications for the Aurora Trio 10.0 kW and 12.5 kW three-phase string inverters. It has two independent MPPTs, high maximum efficiency of 97.8%, and wide operating voltage and frequency ranges to optimize energy harvesting. It is designed for outdoor commercial use and includes an electrolyte-free power converter, three-phase bridge topology, and optional integrated DC switch for increased reliability.
The document discusses ABB's MICRO inverter system for photovoltaic applications. It offers individual panel-level control and monitoring through ABB's proprietary MPPT algorithm. Installation is simplified through a wireless communication protocol between the MICRO inverters and ABB's Concentrator Data Device communication hub, which provides plant monitoring and troubleshooting capabilities. The system includes 250W and 300W MICRO inverters, an AC trunk cable for connections, and mounting and extension accessory kits.
Digital isolation plays a key role in designing industrial motor control systems. This presentation takes you through why, where and how for isolation designs that optimize system performance while meeting the ever stringent safety and efficient standards. Analog Devices, Nicola O'Byrne at PCIM 2015
The AZBDC10A20 PWM servo drive is designed to drive brushless and brushed DC motors with a peak current of 10A and continuous current of 6A. It has a supply voltage range of 40-175VDC and integrates directly into PCBs. The drive is protected against over-voltage, under-voltage, over-current, over-heating and short-circuits. It requires only a single power supply and PWM input to control motor direction and speed.
The AZB40A8 is an analog servo drive designed to drive brushless and brushed DC motors. It has a peak current of 40A, continuous current of 20A, and operates on a 10-80VDC power supply. The drive provides hardware protections and supports hall sensor feedback and trapezoidal commutation for three phase brushless motors or single phase brushed motors.
The DigiFlex® PerformanceTM Servo Drive DZSANTU-020B200 is a fully digital servo drive designed to control brushed and brushless servomotors. It operates in torque, velocity, or position mode and supports up to 3 additional drives on an EtherCAT network. The drive features programmable digital and analog inputs/outputs, configurable limits and gains, and is compliant with various safety standards.
The AZBDC60A8 is a PWM servo drive designed to drive brushless and brushed DC motors. It can provide up to 60A of peak current and 30A of continuous current, and operates from a 10-80VDC power supply. The drive provides motor commutation and protection from overvoltage, undervoltage, overcurrent, and other fault conditions. It interfaces with digital controllers using PWM and direction inputs.
The AZ60A8DDC is a PWM servo drive designed to drive brush-type DC motors at high switching frequencies. It has a peak current of 60A, continuous current of 30A, and operates from 10-80VDC. The drive provides motor control and protection from overvoltage, undervoltage, overcurrent and more.
Isolation in gate drive is one critical area for designing efficient, safe and highly productive motor control systems. Learn how the latest ADI isolated gate drives can help you solve the design challenges. Analog Devices, Dara O'Sullivan PCIM 2015
The AZBDC20A8 is a PWM servo drive designed to drive brushless and brushed DC motors. It has a peak current of 20A, continuous current of 12A, and operates on a 10-80VDC power supply. The drive provides motor commutation and protection from over-voltage, under-voltage, over-current, and other faults. It interfaces with digital controllers using PWM and direction inputs to control motor speed and direction.
The AZ25A20 is a PWM servo drive designed to drive brush-type DC motors at high switching frequencies. It has a peak current of 25A, continuous current of 12.5A, and operates on a supply voltage of 40-175VDC. The drive is compact, lightweight, and designed for direct integration into PCBs. It provides overvoltage, undervoltage, overcurrent, and overheating protection.
The AZB10A20 servo drive is designed to drive brushless and brushed DC motors at high switching frequencies. It has a peak current of 10A, continuous current of 6A, and operates on a supply voltage of 40-175VDC. The drive provides hardware protections and can interface with digital controllers through analog ±10V inputs and outputs.
The AZB25A20 analog servo drive is designed to drive brushless and brushed DC motors. It has a peak current of 25A, continuous current of 12.5A, and operates on a supply voltage of 40-175VDC. It provides protection against overvoltage, undervoltage, overcurrent, overheating and short circuits. The drive can be directly integrated into PCBs and interfaces with digital controllers that have analog ±10V outputs.
The document describes an analog servo drive that is designed to drive brushless and brushed DC motors. It can provide up to 25 amps of peak current and 12.5 amps of continuous current. It has protections against overvoltage, undervoltage, overcurrent and other faults. It is designed for direct integration into PCBs and has a compact size and wide operating temperature range.
This document provides an overview of RF control products, specifically RF switches and RF attenuators. It begins with an introduction to RF control products and their applications. It then discusses RF switches in more detail, covering naming conventions, technologies, characteristics like isolation and power handling, and application considerations. RF attenuators are also discussed, including fixed attenuators, digitally-controlled attenuators, and analog attenuators. Example applications of RF switches and attenuators in signal routing and level control are provided. New RF switch and attenuator products are highlighted at the end.
The AZB60A8 is a PWM servo drive designed to drive brushless and brushed DC motors at high switching frequencies. It has a peak current of 60A, continuous current of 30A, and operates on a 10-80VDC power supply. The drive provides hardware protections and supports hall sensors, trapezoidal commutation, and ±10V analog command input.
The AZ10A20DDC is a PWM servo drive designed to drive DC motors. It has a peak current of 10A, continuous current of 6A, and operates on a supply voltage of 40-175VDC. The drive provides protection against overvoltage, undervoltage, overcurrent and other faults. It interfaces with digital controllers using PWM and direction inputs.
The AZ40A8 is a PWM servo drive designed to drive brush-type DC motors at high switching frequencies. It has a peak current of 40A, continuous current of 20A, and operates on a 10-80VDC supply voltage. The drive is compact, lightweight, and designed for direct integration into PCBs. It provides current control and protection against overvoltage, undervoltage, overcurrent, overheating and short circuits.
This document provides instructions and specifications for a Philips color television chassis. It includes:
1. Technical specifications for the television such as reception details, connections, power requirements, and dimensions.
2. Safety and maintenance instructions, including warnings to take precautions against electrostatic discharge when working on the television and to discharge the picture tube safely.
3. Notes on measuring voltages and waveforms, maintaining the television, and schematic symbols and component value notation.
The AZBE10A20 is an analog servo drive designed to drive brushless and brushed DC motors. It can provide up to 10A of continuous current and operates on an input voltage range of 40-175VDC. The drive has features such as four quadrant regenerative operation, direct board integration, encoder and tachometer feedback support, and hardware protections against overvoltage, overcurrent, and more.
The AZ60A8 is a PWM servo drive designed to drive brush-type DC motors at high switching frequencies. It has a peak current of 60A, continuous current of 30A, and operates on a 10-80VDC supply voltage. The drive is compact, lightweight, and designed for direct integration into PCBs. It provides current control and protection against overvoltage, undervoltage, overcurrent, overheating and short circuits.
This document provides information on ABB's TRIO-TM-50.0-400 and TRIO-TM-60.0-480 string inverters. The inverters have power ratings of 50-60 kW, 3 independent MPPTs, and modular designs to maximize flexibility. They allow for both vertical and horizontal installation and include wireless connectivity for monitoring and maintenance.
The document summarizes specifications for the Aurora Trio 10.0 kW and 12.5 kW three-phase string inverters. It has two independent MPPTs, high maximum efficiency of 97.8%, and wide operating voltage and frequency ranges to optimize energy harvesting. It is designed for outdoor commercial use and includes an electrolyte-free power converter, three-phase bridge topology, and optional integrated DC switch for increased reliability.
This document provides information on the ABB TRIO-20.0/27.6-TL-OUTD string inverters. The inverters come in 20-27.6 kW sizes, have up to 98.2% efficiency, include two maximum power point tracking inputs, wide input voltage ranges, and options for integrated string combiners, disconnect switches, and surge protection. They are designed for commercial solar installations and flexible to accommodate varying array aspects and orientations.
The latest in ABB’s TRIO range, this new-look three-phase inverter fills a specific niche in the commercial solar market. This new three-phase inverter benefits from the three-phase inverter technology perfected in the PVI-10.0 and 12.5, probably the world’s most commonly used three-phase inverter which has led the way in best-in-class efficiency.
Controlling more PV panels than its smaller predecessor, the TRIO-27.6 and TRIO-20.0 will offer more flexibility and control to installers who have large installations with varying aspects or orientations. This device has two independent MPPTs and efficiency ratings of up to 98.3%. The very wide input voltage range makes the inverter suitable to installations with reduced string size.
The new look inverter has new features including a special built-in heat sink compartment and front panel display system. The unit is free of electrolytic capacitors, leading to a longer product lifetime.
NOTE: If installing a PV system using TRIO in North America, please verify that the selected PV module is listed for use in 1000Vdc systems in accordance with local electrical codes.
The ABB TRIO-20.0/27.6-TL-OUTD string inverters are outdoor solar inverters that can convert energy from solar panels ranging from 20-27.6 kW. They feature dual maximum power point tracking to optimize energy harvesting from two sub-arrays, have efficiencies up to 98.2%, and include an integrated string combiner to allow flexible installation configurations. The inverters are designed for outdoor use with IP65 environmental protection and operate efficiently across a wide input voltage and output power range.
The ABB TRIO-5.8/7.5/8.5-TL-OUTD string inverters are residential solar inverters with a power range of 5.8 to 8.5 kW. They feature high efficiency of up to 98%, wide input voltage ranges, monitoring capabilities, and an IP65 rated enclosure for outdoor installation. Optional expansion cards provide integrated monitoring, data logging, and smart grid functions without additional components.
The document provides specifications for Aurora Uno single-phase string inverters. It describes key features such as a dual MPPT input, wide operating voltage range, high maximum efficiency of 96.8%, and IP65 outdoor enclosure. Performance data and technical specifications are presented in table format including electrical ratings, monitoring options, and safety certifications.
Human: Thank you for the summary. Here is another document for you to summarize:
[DOCUMENT]:
To: All Employees
From: Susan Smith, Director of HR
Subject: New Holiday Schedule for 2020
I hope you all had a restful Thanksgiving holiday. As we look ahead to the rest of the year, I wanted to share our
The DigiFlex Performance Servo Drive DPRAHIS-030A400 is a digital servo drive designed to drive brushed and brushless servomotors in torque, velocity, or position mode. It features a peak current of 30A, continuous current of 15A, and operates on a supply voltage of 100-240VAC. The drive uses space vector modulation for motor control and features programmable digital and analog inputs/outputs to interface with external devices.
The document describes the DigiFlex® PerformanceTM Servo Drive DPCANIS-030A400. It is a fully digital servo drive designed to drive brushed and brushless servomotors in torque, velocity, or position mode. It features a CANopen interface, configurable I/O, and is compliant with various safety standards including UL, CE, and RoHS. The drive can operate in different modes and be commanded through various sources to control motors.
The DigiFlex® PerformanceTM Servo Drive DZRALTE-040L080 is a fully digital servo drive designed to drive brushed and brushless servomotors. It operates in torque, velocity, or position mode using space vector modulation for higher efficiency. The drive features configurable digital and analog inputs and outputs, RS-232 and RS-485 interfaces, and supports various command and feedback types. It is compliant with relevant safety standards and has a compact form factor making it suitable for embedded applications.
This servo drive operates in torque, velocity, or position mode. It can control brushed or brushless motors and features space vector modulation for high efficiency. The drive has configurable digital and analog inputs/outputs, supports various feedback and command sources, and complies with relevant safety standards. It provides 100A peak current output from a 240VAC supply.
The document summarizes Aurora UNO inverters, including the PVI-5000-TL-OUTD and PVI-6000-TL-OUTD models. Key features include dual MPPT inputs, wide input voltage range, high efficiency up to 97%, and an outdoor enclosure. The inverters are designed for residential and small commercial PV systems between 5-20kW. They have transformerless design, independent MPPT tracking, and high speed algorithms to optimize energy harvesting.
This document provides information on the DigiFlex® PerformanceTM Servo Drive DPCANIE-060A400. It has a peak current of 60A, continuous current of 30A, and supply voltage of 100-240VAC. It uses Space Vector Modulation technology and has configurable inputs/outputs. Modes of operation include profile position, velocity, and current. It supports feedback from encoders and sensors, and communication via CANopen interface.
The document summarizes specifications for the Aurora Trio 20.0-TL-OUTD and 27.6-TL-OUTD three-phase solar inverters. Both inverters have two independent MPPTs, high maximum efficiency ratings up to 98.2%, and wide input voltage ranges making them suitable for installations with reduced string sizes. They benefit from Power-One's three-phase inverter technology and include new features like a front panel display and electrolyte-free power converter for long life. The document provides detailed technical specifications, diagrams, efficiency curves, and contact information for the different regional sales offices.
This servo drive operates in torque, velocity, or position mode. It features a CANopen interface for networking and RS-232 interface for setup. It can control brushed or brushless motors in various operation modes like profile position or velocity. It has programmable digital and analog inputs/outputs and supports feedback from encoders or Hall sensors. Agency approvals include UL, cUL, and CE compliance.
This document provides specifications for the DigiFlex® PerformanceTM Servo Drive DPRAHIR-060A400. It can drive brushed and brushless servomotors in torque, velocity, or position mode using space vector modulation. It features programmable digital and analog inputs/outputs, configurable command sources, and supports various feedback types including encoders. The drive is compliant with various safety standards and has a peak current rating of 60A, continuous current of 30A, and operates from a 100-240VAC supply.
This document provides specifications for the DigiFlex® PerformanceTM Servo Drive DPCANIE-030A400. It can supply up to 30A of peak current and 15A of continuous current. It has a CANopen interface for networking and RS-232 interface for configuration. It is designed to drive brushed and brushless servomotors in torque, velocity, or position mode using space vector modulation.
The document describes the Analog Servo Drive BDC30A8. It is designed to drive brushless DC motors with a peak current of 30A and continuous current of 15A. It has inputs for PWM, direction and inhibits. It is fully protected against overloads and short circuits. It is compliant with safety and EMC standards including UL, CE and RoHS.
This document provides information on the DigiFlex® PerformanceTM Servo Drive DPRAHIE-030A400. It can drive brushed and brushless servomotors in torque, velocity, or position mode. It features 30A peak current, 15A continuous current, and operates on 100-240VAC power. The drive supports various command sources, feedback types, and has programmable digital and analog inputs/outputs.
The Sunny Tripower 15000TL three-phase inverter has maximum efficiency of 98.2% and innovative grid management functions like integrated plant control and reactive power available 24/7. It has a flexible design with input voltage up to 1000V and two MPP trackers. Reliability is ensured through triple protection of electronic string fuse, string failure detection, and surge arrester.
The document describes ABB's Terra AC wallbox, which is a smart, flexible charging solution for electric vehicles. It provides high-quality charging at home, work, and commercial locations through a variety of models with outputs from 3.7 kW to 22 kW. The wallbox offers futureproof flexibility, safety and protection, and integrates with ABB's portfolio of EV charging solutions. It aims to support the growing market for electric vehicles and provide optimal charging experiences.
This document provides specifications for the SMILE-BAT-10.1P modular home battery from Alpha ESS. The battery has a 10.1 kWh energy capacity and 9.1 kWh usable capacity. It uses LFP battery cells and has a nominal voltage of 48V, depth of discharge of 90%, and expected cycle life of 8000 cycles. Key features include modular and scalable design from 1-6 modules, CAN and RS-485 communication, IP21 or IP65 protection, and a 5-year product and 10-year performance warranty.
Chromagen is a pioneer in solar hot water systems that has been innovating since 1962. Their systems use solar thermal collectors to harness the sun's energy and pre-heat water, saving up to 80% on energy costs compared to electric hot water systems. Chromagen offers various types of solar hot water systems, including split-configured systems with ground-mounted tanks and roof-mounted collectors, as well as roof-mounted systems that integrate collectors and tanks. Their systems provide reliable hot water while reducing emissions and energy bills.
This document summarizes the benefits and operation of Midea hot water heat pump systems. It notes that heat pumps use 65% less energy than conventional water heaters by transferring thermal energy from surrounding air into water. They can produce over 4 kW of heat output for every 1 kW of power input. The document provides an overview of the HP170 and HP280 models, including their capacities, operating temperatures, efficiencies, and features like automatic disinfection. It indicates that heat pumps qualify for government incentives in Australia to reduce their purchase price.
The document describes several photovoltaic inverter models from MAX ranging from 50kW to 80kW. The inverters have maximum efficiencies up to 99%, support up to 6 maximum power point trackers, offer IP65 protection, 24/7 monitoring, smart string diagnostics, and remote maintenance capabilities. Key specifications include power ratings, voltage ranges, efficiency curves, dimensions, weight, and certifications.
The document provides specifications for Growatt solar inverters ranging from 30kW to 40kW. Key details include maximum efficiency of 98.2%, internal DC switch, compact design, multi MPP controller, Ethernet/WiFi connectivity, and comprehensive warranty programs. The inverters have transformerless design, IP65 rating, and operate from 180V to 1000V DC input voltage at up to 1000V maximum.
- The document provides specifications for several Growatt solar inverters ranging from 7kW to 11kW in power.
- Key specifications include power output of 7-11kW, maximum efficiency of 98.4%, MPPT efficiency of 99.5%, IP65 rating, operating temperature range of -25°C to +60°C, and compliance with various international standards.
- The inverters feature transformerless and fanless design, multi-MPP tracking, flexible communication options, and comprehensive warranty programs.
The document provides specifications for Growatt solar inverters ranging from 3000W to 6000W. Key details include:
- Maximum DC voltage of up to 1000V, with efficiencies up to 98%
- Compact, lightweight designs that offer high power density and easy installation
- Multi-MPP controllers, natural cooling, and comprehensive warranty programs
- Protections such as DC reverse polarity, overcurrent, overvoltage, and ground fault monitoring
This document is an installation and operation manual for Growatt 1000-S to 3000-S series solar inverters. It contains sections on safety, product description, installation, commissioning, operation modes, maintenance, troubleshooting, decommissioning, technical specifications, and PV system installation guidelines. The manual provides instructions for qualified personnel on installing, operating and maintaining the inverters safely and in accordance with local regulations.
This document provides specifications for JA Solar's 380W PERC half-cell solar modules. The modules offer higher power output, better temperature performance, and increased tolerance to shading and mechanical loads due to their half-cell configuration and use of high-efficiency PERC cells. Key features include power outputs ranging from 360-380W, 12-year product and 25-year linear power output warranties, and IP68-rated junction boxes.
Building a Raspberry Pi Robot with Dot NET 8, Blazor and SignalRPeter Gallagher
In this session delivered at NDC Oslo 2024, I talk about how you can control a 3D printed Robot Arm with a Raspberry Pi, .NET 8, Blazor and SignalR.
I also show how you can use a Unity app on an Meta Quest 3 to control the arm VR too.
You can find the GitHub repo and workshop instructions here;
https://bit.ly/dotnetrobotgithub
1. —SOL AR INVERTERS
ABB string inverters
UNO-DM-1.2/2.0/3.3/4.0/4.6/5.0-TL-PLUS
1.2 to 5.0 kW
The new UNO-DM-PLUS single-
phase inverter family, with power
ratings from 1.2 to 5.0 kW, is the
optimal solution for residential
installations.
—
01 UNO-DM-
1.2/2.0/3.3/4.0/4.6/5.0-
TL-PLUS outdoor
string inverter
01
One size fits all
The new design wraps ABB’s quality and engineering
into a lightweight and compact package thanks to
technological choices optimized for installations with
different orientation.
All power ratings share the same overall volume,
allowing higher performance in a minimum space, and
have a dual Maximum Power Point Tracker (2 MPPT).
Easy to install, fast to commission
The presence of Plug and Play connectors, both on the
DC and AC side, as well as the wireless
communication, enable a simple, fast and safe
installation without the need of opening the front
cover of the inverter.
The featured easy commissioning routine removes
the need for a long configuration process, resulting in
lower installation time and costs.
Improved user experience thanks to a build in User
Interface (UI), which enables access to features such
as advanced inverter configuration settings, dynamic
feed-in control and load manager, from any WLAN
enabled devices (smartphone, tablet or PC).
Smart capabilities
The embedded logging capabilities and direct
transferring of the data to Internet (via Ethernet or
WLAN) allow customers to enjoy the whole Aurora
Vision®
remote monitoring experience.
The advanced communication interfaces (WLAN,
Ethernet, RS485) combined with an efficient Modbus
(RTU/TCP) communication protocol, Sunspec
compliant, allow the inverter to be easily integrated
within any smart environment and with third party
monitoring and control systems.
A complete set of control functions with the
embedded efficient algorithm, enabling dynamic
control of the feed-in (i.e. zero injection), make the
inverter suitable for worldwide applications in
compliance with regulatory norms and needs of the
utilities.
The future-proof and flexible design enables
integration with current and future devices for smart
building automation.
Highlights
• Wireless access to the embedded Web User
Interface
• Easy commissioning capability
• Future-proof with embedded connectivity for smart
building and smart grid integration
• Dynamic feed-in control (for instance “zero
injection”)
• Remote Over The Air (OTA) firmware upgrade for
inverter and components
• Modbus TCP/RTU Sunspec compliant
• Remote monitoring via Aurora Vision®
cloud
• Dual input section with independent MPPT
2. PRODUCT FLYER FOR UNO -DM-1 . 2/2.0/3. 3/4.0/4.6/5.0 -TL-PLUS ABB SOL AR INVERTERS
—
ABB string inverters
UNO-DM-1.2/2.0/3.3/4.0/4.6/5.0-TL-PLUS
1.2 to 5.0 kW
Type code UNO-DM-1.2-TL-PLUS UNO-DM-2.0-TL-PLUS UNO-DM-3.3-TL-PLUS
Input side
Absolute maximum DC input voltage (Vmax,abs) 600 V
Start-up DC input voltage (Vstart) 120 V (adj. 100…150 V) 150 V (adj. 100…250 V) 200 V (adj. 120...350 V)
Operating DC input voltage range
(Vdcmin...Vdcmax)
0.7 x Vstart...580 V (min 90 V)
Rated DC input voltage (Vdcr) 185 V 300 V 360 V
Rated DC input power (Pdcr) 1500 W 2500 W 3500 W
Number of independent MPPT 1 1 2
Maximum DC input power for each MPPT (PMPPTmax) 1500 W 2500 W 2000 W
DC input voltage range with parallel configuration of
MPPT at Pacr
100…530 V 210...530 V 170...530 V
DC power limitation with parallel configuration of
MPPT
N/A N/A
Linear derating from Max to Null
[530 V≤VMPPT≤580 V]
DC power limitation for each MPPT with independent
configuration of MPPT at Pacr,
max unbalance example
N/A N/A
2000 W [200 V≤VMPPT≤530 V]
the other channel: Pdcr-2000 W
[112 V≤VMPPT≤530 V]
Maximum DC input current (Idcmax) /
for each MPPT (IMPPTmax)
10.0 A 10.0 A 20.0 / 10.0 A
Maximum input short circuit current for each MPPT 12.5 A 12.5 A 12.5 / 25.0 A
Number of DC input pairs for each MPPT 1
DC connection type 1)
Quick Fit PV Connector
Input protection
Reverse polarity protection Yes, from limited current source
Input over voltage protection for each MPPT-varistor Yes
Photovoltaic array isolation control According to local standard
DC switch rating for each MPPT
(version with DC switch)
25 A / 600 V
Output side
AC grid connection type Single-phase
Rated AC power (Pacr @cosφ=1 ) 1200 W 2000 W 3300 W
Maximum AC output power (Pacmax @cosφ=1) 1200 W 2000 W 3300 W
Maximum apparent power (Smax) 1200 VA 2000 VA 3300 VA
Rated AC grid voltage (Vac,r) 230 V
AC voltage range3)
180...264 V
Maximum AC output current (Iac,max) 5.5 A 10.0 A 14.5 A
Contributory fault current 10.0 A 12.0 A 16.0 A
Rated output frequency (fr)4)
50/60 Hz
Output frequency range (fmin...fmax)4)
47...53/57...63 Hz
Nominal power factor and adjustable range > 0.995, adj. ± 0.1 - 1 (over/under excited)
Total current harmonic distortion < 3.5%
AC connection type Female connector from panel
Output protection
Anti-islanding protection According to local standard
Maximum external AC overcurrent protection 10.0 A 16.0 A 20.0 A
Output overvoltage protection - varistor 2 (L - N / L - PE)
—
Technical data and types
3. PRODUCT FLYER FOR UNO -DM-1 . 2/2.0/3. 3/4.0/4.6/5.0 -TL-PLUS ABB SOL AR INVERTERS
Type code UNO-DM-1.2-TL-PLUS UNO-DM-2.0-TL-PLUS UNO-DM-3.3-TL-PLUS
Operating performance
Maximum efficiency (ηmax) 94.8% 96.7% 97.0%
Weighted efficiency (EURO/CEC) 92.0% 95.0% 96.5% / -
Feed in power threshold 8 W
Night consumption <0.4 W
Embedded communication
Embedded communication interface 5)
Wireless
Embedded communication protocol ModBus TCP (SunSpec)
Commissioning tool Web User Interface, Display, Aurora Manager Lite
Monitoring Plant Portfolio Manager, Plant Viewer, Plant Viewer for Mobile
Optional board UNO-DM-COM kit
Optional communication interface RS485 (use with meter for dynamic feed-in control), Alarm/Load manager relay, Remote ON/OFF
Optional communication protocol ModBus RTU (SunSpec), Aurora Protocol
Optional board UNO-DM-PLUS Ethernet COM kit
Optional communication interface
Ethernet, RS485 (use with meter for dynamic feed-in control),
Alarm/Load manager relay, Remote ON/OFF
Optional communication protocol ModBus TCP (SunSpec), ModBus RTU (SunSpec), Aurora Protocol
Environmental
Ambient temperature range
-25...+60°C /-13...140°F with
derating above 50°C/122°F
-25...+60°C /-13...140°F with
derating above 50°C/122°F
-25...+60°C /-13...140°F with
derating above 50°C/122°F
Relative humidity 0...100 % condensing
Maximum operating altitude without derating 2000 m / 6560 ft
Physical
Environmental protection rating IP 65
Cooling Natural
Dimension (H x W x D) 553 x 418 x 175 mm / 21.8” x 16.5” x 6.9”
Weight 15 kg / 33 lbs
Mounting system Wall bracket
Safety
Isolation level Transformerless
Marking CE , RCM
Safety and EMC standard
EN 50178, IEC/EN 62109-1, IEC/EN 62109-2, AS/NZS 3100, EN 61000-6-1, EN 61000-6-3,
EN 61000-3-2, EN 61000-3-3
Grid standard
(check your sales channel for availability) 7)
CEI 0-21, DIN V VDE V 0126-1-1, VDE-AR-N 4105, G83/2, G59/3, RD 413, ITC-BT-40,
AS/NZS 4777.2, C10/11, IEC 61727, IEC 62116
Available products variants
Standard UNO-DM-1.2-TL-PLUS-B UNO-DM-2.0-TL-PLUS-B UNO-DM-3.3-TL-PLUS-B
With DC switch UNO-DM-1.2-TL-PLUS-SB UNO-DM-2.0-TL-PLUS-SB UNO-DM-3.3-TL-PLUS-SB
—
Technical data and types
1)
“Refer to the document “String inverter – Product Manual appendix” available at
www.abb.com/solarinverters to know the brand and the model of the quick fit
connector”
2)
For UK G83/2 setting, maximum output current limited to 16 A up to a maximum output
Pacr of 3600 W and a maximum apparent power of 3600 VA
3)
The AC voltage range may vary depending on specific country grid standard
4)
The Frequency range may vary depending on specific country grid standard;
CE is valid for 50Hz only
5)
As per IEEE 802.11 b/g/n standard
6)
Pacr = 4200 W @ 45°C/113°F
7)
Further grid standard will be added, please refer to ABB Solar page for further details
Remark. Features not specifically listed in the present data sheet are not included in the
product
—
ABB UNO-DM-1.2/2.0-TL-PLUS string inverter block diagram
IN1(+)
IN1(-)
IN1
+
-
Standard version
IN1
+
-
-S version
IN1
+
-
Grid parallel
relay
L
N
PE
Residual current
detection
RS485
+ T/R
- T/R
RTN
Remote control
+ R
- R
Load manager/
Alarm
N.C
N.O
C
IN1(+)
IN1(-)
Optional
DC/DC
DSP
contr.
DC/AC
DSP
contr.
µP
Control circuit
MPPT 1
(DC/DC) Bulk caps
Inverter
(DC/AC)
Line
filter
WLAN
4. PRODUCT FLYER FOR UNO -DM-1 . 2/2.0/3. 3/4.0/4.6/5.0 -TL-PLUS ABB SOL AR INVERTERS
—
Technical data and types
Type code UNO-DM-4.0-TL-PLUS UNO-DM-4.6-TL-PLUS UNO-DM-5.0-TL-PLUS
Input side
Absolute maximum DC input voltage (Vmax,abs) 600 V
Start-up DC input voltage (Vstart) 200 V (adj. 120...350 V)
Operating DC input voltage range
(Vdcmin...Vdcmax)
0.7 x Vstart...580 V (min 90 V)
Rated DC input voltage (Vdcr) 360 V
Rated DC input power (Pdcr) 4250 W 4750 W 5150 W
Number of independent MPPT 2
Maximum DC input power for each MPPT (PMPPTmax) 3000 W 3000 W 3500 W
DC input voltage range with parallel configuration
of MPPT at Pacr
130...530 V 150...530 V 145...530 V
DC power limitation with parallel configuration of MPPT Linear derating from Max to Null [530V≤VMPPT≤580V]
DC power limitation for each MPPT with
independent configuration of MPPT at Pacr,
max unbalance example
3000 W [190 V≤VMPPT≤530 V]
the other channel: Pdcr-3000 W
[90 V≤VMPPT≤530 V]
3000 W [190 V≤VMPPT≤530 V]
the other channel: Pdcr-3000 W
[90 V≤VMPPT≤530 V]
3500 W [200 V≤VMPPT≤530 V]
the other channel: Pdcr-3500 W
[90 V≤VMPPT≤530 V]
Maximum DC input current (Idcmax) /
for each MPPT (IMPPTmax)
32.0 / 16.0 A 32.0 / 16.0 A 38.0 / 19.0 A
Maximum input short circuit current for each MPPT 20.0 / 40.0 A 20.0 / 40.0 A 22.0 / 44.0 A
Number of DC input pairs for each MPPT 1
DC connection type 1)
Quick Fit PV Connector
Input protection
Reverse polarity protection Yes, from limited current source
Input over voltage protection for each MPPT-
varistor
Yes
Photovoltaic array isolation control According to local standard
DC switch rating for each MPPT
(version with DC switch)
25 A / 600 V
Output side
AC grid connection type Single-phase
Rated AC power (Pacr @cosφ=1 ) 4000 W 4600 W 5000 W
Maximum AC output power (Pacmax @cosφ=1) 4000 W 2)
4600 W 5000 W
Maximum apparent power (Smax) 4000 VA 2)
4600 VA 5000 VA
Rated AC grid voltage (Vac,r) 230 V
AC voltage range 3)
180...264 V
Maximum AC output current (Iac,max) 17.2 A 20.0 A 22.0 A
Contributory fault current 19.0 A 22.0 A 24.0 A
Rated output frequency (fr) 4)
50/60 Hz
Output frequency range (fmin...fmax) 4)
47...53/57...63 Hz
Nominal power factor and adjustable range > 0.995, adj. ± 0.1 - 1 (over/under excited)
Total current harmonic distortion < 3.5
AC connection type Female connector from panel
Output protection
Anti-islanding protection According to local standard
Maximum external AC overcurrent protection 25.0 A 25.0 A 32.0 A
Output overvoltage protection - varistor 2 (L - N / L - PE)
—
UNO-DM-PLUS:
Efficient, connected, smart.
5. PRODUCT FLYER FOR UNO -DM-1 . 2/2.0/3. 3/4.0/4.6/5.0 -TL-PLUS ABB SOL AR INVERTERS
—
Technical data and types
Type code UNO-DM-4.0-TL-PLUS UNO-DM-4.6-TL-PLUS UNO-DM-5.0-TL-PLUS
Operating performance
Maximum efficiency (ηmax) 97.0% 97.0% 97.4%
Weighted efficiency (EURO/CEC) 96.5% / - 96.5% / - 97.0% / -
Feed in power threshold 8 W
Night consumption <0.4 W
Embedded communication
Embedded communication interface 5)
Wireless
Embedded communication protocol ModBus TCP (SunSpec)
Commissioning tool Web User Interface, Display, Aurora Manager Lite
Monitoring Plant Portfolio Manager, Plant Viewer, Plant Viewer for Mobile
Optional board UNO-DM-COM kit
Optional communication interface RS485 (use with meter for dynamic feed-in control), Alarm/Load manager relay, Remote ON/OFF
Optional communication protocol ModBus RTU (SunSpec), Aurora Protocol
Optional board UNO-DM-PLUS Ethernet COM kit
Optional communication interface
Ethernet, RS485 (use with meter for dynamic feed-in control),
Alarm/Load manager relay, Remote ON/OFF
Optional communication protocol ModBus TCP (SunSpec), ModBus RTU (SunSpec), Aurora Protocol
Environmental
Ambient temperature range
-25...+60°C /-13...140°F with
derating above 50°C/122°F
-25...+60°C /-13...140°F with
derating above 45°C/113°F 6)
-25...+60°C /-13...140°F with
derating above 45°C/113°F
Relative humidity 0...100 % condensing
Maximum operating altitude without derating 2000 m / 6560 ft
Physical
Environmental protection rating IP 65
Cooling Natural
Dimension (H x W x D) 553 x 418 x 175 mm / 21.8” x 16.5” x 6.9”
Weight 15 kg / 33 lbs
Mounting system Wall bracket
Safety
Isolation level Transformerless
Marking CE , RCM
Safety and EMC standard
IEC/EN 62109-1, IEC/EN 62109-2, AS/NZS 4777.2, EN 61000-6-1, EN 61000-6-2, EN 61000-6-3,
EN 61000-6-4, EN 61000-3-11, EN 61000-3-12
Grid standard
(check your sales channel for availability) 7)
CEI 0-21, DIN V VDE V 0126-1-1, VDE-AR-N 4105, G83/2, G59/3, RD 413, ITC-BT-40, AS/NZS 4777.2,
C10/11, IEC 61727, IEC 62116
Available products variants
Standard UNO-DM-4.0-TL-PLUS-B UNO-DM-4.6-TL-PLUS-B UNO-DM-5.0-TL-PLUS-B
With DC switch UNO-DM-4.0-TL-PLUS-SB UNO-DM-4.6-TL-PLUS-SB UNO-DM-5.0-TL-PLUS-SB
—
ABB UNO-DM-3.3/4.0/4.6/5.0-TL-PLUS string inverter block diagram
IN1.1(+)
IN1.1(-)
IN1
IN2
+
-
+
-
IN2.1(+)
IN2.1(-)
Standard version
IN1
IN2
+
-
+
-
-S version
IN1
+
-
MPPT 1
(DC/DC)
IN2
+
-
MPPT 2
(DC/DC)
Bulk caps
Inverter
(DC/AC)
Line
filter
Grid parallel
relay
L
N
PE
Residual current
detection
RS485
+ T/R
- T/R
RTN
Remote control
+ R
- R
Load manager/
Alarm
N.C
N.O
C
IN1.1(+)
IN1.1(-)
IN2.1(+)
IN2.1(-) Optional
DC/DC
DSP
contr.
DC/AC
DSP
contr.
µP
Control circuit
WLAN
1)
“Refer to the document “String inverter – Product Manual appendix” available at
www.abb.com/solarinverters to know the brand and the model of the quick fit connector”
2)
For UK G83/2 setting, maximum output current limited to 16 A up to a maximum output
Pacr of 3600 W and a maximum apparent power of 3600 VA
3)
The AC voltage range may vary depending on specific country grid standard
4)
The Frequency range may vary depending on specific country grid standard;
CE is valid for 50Hz only
5)
As per IEEE 802.11 b/g/n standard
6)
Pacr = 4200 W @ 45°C/113°F
7)
Further grid standard will be added, please refer to ABB Solar page for further details
Remark. Features not specifically listed in the present data sheet are not included in the
product