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560CVD11 Multimeter with FCD, 4U/4I

Can be set to automatically change the screen of the measurement page every 6 seconds and to display each screen once.

CT/VT interface with 3 voltage and 3 current inputs for direct monitoring of 3-wire 85…. .400 VAC

1 A/5 A input for AC transformers

RTU500 serial interface (RS-485)

Display on the front

Applications

The multimeter 560CVD11 is used to measure analog AC input signals from three independent phases with additional inputs for neutral current and voltage.

The module measures the voltage and current per www.cniacs.com phase directly and generates a series of calculated values.

In addition, the module can detect fault currents and the direction of overcurrent. The modules support configurations with 3 or 4 voltage transformers.

Features

The multimeter is a microprocessor-based intelligent electronic device (IED) for measuring current, voltage, power and energy.

Fault current detection and overcurrent indication are also provided.

The current and voltage inputs are connected via transformers only (see Wiring). The modules support configurations with 3 or 4 voltage transformers and 3 or 4 current transformers.

The calculated values are scaled according to the constants programmed by the user for the current and voltage transformers. All values are updated after 200 ms.

Fault current can be measured up to 20 times the rated current.

The current input can withstand 50 times the rated current for 1 second.

The multimeter is equipped with two binary outputs, which are not supported in the RTU500 series configuration.

Product Description.

The IC609EXP101 unit is an I/O Expansion Unit manufactured by GE Fanuc as part of their product line called Series One Junior.

GE Fanuc no longer manufactures or supports the IC609EXP101 I/O Expansion Unit; however, AX Control may have this product in stock.

The IC609EXP101 I/O Expansion Unit is a rectangular device with multiple ports, indicators, pushbuttons, and an on-surface display.

Like many of the devices in the Series One Junior product line, the IC609EXP101 I/O Expansion Unit has its own internal fuse and fuse protection system to avoid damage to the output circuitry.

The IC609EXP101 I/O Expansion Unit uses microminiature fast blow fuses that are rated at 2 amps.

These fuses are installed into the unit by soldering them directly into the circuit.

Although the IC609EXP101 I/O Expansion Unit has its own built-in fuses, GE Fanuc recommends that external fuses be supplied with the output circuitry.

Units in the Series One Junior catalogue are supplied with built-in indicators and other aids to assist in troubleshooting.

There is also a main diagnostic tool that can be attached to the IC609EXP101 I/O Expansion Unit that acts as a programmer.

This programmer is a key tool for checking the status of the Series One Junior unit, so it is important to have it with you during troubleshooting.

The total weight of the IC609EXP101 I/O Expansion Unit is approximately 3.75 lbs. or 1.70 kg.

• 8 channels

• 16-bit DACs

• Fast settling: 10 µs maximum to ±0.003 percent of FSR

• Buffered voltage output (±10 V at 5 mA)

• Multiplexed programmable outputs on P2 connector for testing analog outputs

• Double-buffered data latches

• Jumper-selectable synchronized update control

• Selectable external update control input or software-controlled strobe provides single update strobe for all DAC outputs

• Front panel fail LED

• High reliability DIN-type output connector

• Outputs set to 0.0 V on power up

— Outputs are automatically disconnected from the field at power up

• Double Eurocard form factor

• Supports VMIC’s analog expansion and Built-in-Test bus (AMXbus™) that interconnects the P2 connectors of various VMIC ADC and DAC boards and expansion multiplexer boards

• Multiplexed programmable outputs for testing analog input multiplexer boards

— Requires VMIC ADC board and AMXbus for Built-In-Test

INTRODUCTION — The VMIVME-4116 

Digital-to-Analog Converter (DAC) Board performs digital-to-analog conversion on 16-bit positive true offset binary or two’s complement coded words, with an analog output range of -10 to +10 V. This provides for a resolution of 305 µV for each digital input of 1 LSB change. The buffered output voltage settles to within 1/2 LSB in 10 µs.

The DAC offers a Digital-to-Analog Integrated Circuit (IC) per channel. A Control and Status Register (CSR) is loaded by the processor and this register controls the functioning of the board. The CSR can be read by the processor at any time. The VMIVME-4116 board functional block diagram is shown in Figure 1. Each of the eight DACs is preceded by double-buffered data latches. 

The data latches allow versatility in the way the DAC analog output may be updated.

There are three methods by which new data can be converted by a DAC. Each method is enabled/disabled by on-board jumpers and is further controlled by a CSR that must be loaded by the user.

FUNCTIONAL CHARACTERISTICS

Compatibility: The VMIVME-4116 Analog Output Board is a standard, double height, printed circuit board which is compatible with the VMEbus specification.

Board Address: The physical address for the board is selected by 12 DIP switches. VMEbus address lines A05 through A15 are decoded for board selection.

VMEbus Access: Address modifier bits are jumper-selectable to support nonprivileged short I/O or supervisory short I/O access. The board is factory configured for supervisory short I/O access. 

Data Transfer: Data can be written to one of the eight Digital-to-Analog Converters (DACs) in bytes or words (via data bits D00 through D15). Bipolar operation(-10 to +10 V output) uses offset binary coding or two’s complement binary coding.

Product Description

The DS200AAHAG1AD is an ARCNET connector board manufactured by General Electric as part of the Mark V LM SpeedtronicTurbine control system.

Mark V LM manual GEH-6353B clearly summarizes the function of the DS200AAHAG1AD in the control system. The board is referred to by its acronym AAHA.

The DS200AAHAG1AD, abbreviated AAHA, is part of the Speedtronic Mark V LM control panel.

The board is capable of providing connectivity and interface functionality between a control engine with an I/O core and external hardware.

The control engine is typically located within the core. The kernel typically requires the use of two AAHA boards.

One board is used to facilitate the stage link between the user interface and the core.

The second board is capable of connecting the core to COREBUS.

This link allows communication between the I/O core and the control engine.

The DS200AAHAG1AD is plugged in and installed to operate without any type of hardware or software modification.

The AAHA board is relatively small. It has an EBNC connection port that is not normally used.

It has one ARCBNC-B labeled P1 and one ARCBNC-A port labeled P1.

These ports are BNC ARCNET communication ports. There is an E2 and E1 LED indicator.

There is an EPL 9-pin connection that is not normally used and an APL 10-pin connection port that is used as an ARCNET communications link.

schneider 170AAI03000 Quantum modlue

### Product Description for schneider 170AAI03000
The **schneider 170AAI03000** is a robust and versatile automation solution designed specifically for demanding environments such as the power industry, petrochemical sector, and general automation applications. With its advanced technical features, the 170AAI03000 stands out as a reliable component for enhancing productivity and operational efficiency.
#### Key Technical Features
The **schneider 170AAI03000** boasts impressive input/output capacity, featuring 16 analog input channels that support a wide range of signal types. This model is engineered to handle a variety of applications, delivering precision and accuracy in data collection and processing. With a durable design, it is built to withstand harsh industrial conditions, ensuring longevity and reducing maintenance costs.
The performance metrics of the 170AAI03000 include a high-speed data processing capability that enables real-time monitoring and control. The device operates seamlessly within the temperature range of -20°C to +70°C, making it suitable for various environmental conditions. Its compatibility with various communication protocols ensures easy integration into existing systems, providing flexibility in automation setups.

#### Real-World Usage Scenarios
In the **power industry**, the **schneider 170AAI03000** excels in monitoring and controlling systems that require precise measurements of voltage, current, and temperature. For instance, it can be deployed in substations for real-time monitoring of electrical parameters, helping utility providers optimize energy distribution and ensure system reliability.
In **petrochemical applications**, the 170AAI03000 is invaluable for managing processes where real-time data is critical. It can be used in refining processes to monitor fluid levels and temperature, allowing for safe and efficient operation. Its robust design allows it to perform reliably in the presence of corrosive chemicals and extreme temperatures.
For **general automation**, the 170AAI03000 plays a pivotal role in manufacturing environments, where it can be utilized to monitor machine performance and automate processes. Its data acquisition capabilities enable manufacturers to streamline operations, reduce downtime, and improve overall productivity.
#### Comparison with Other Models
When compared to other models in the **schneider** lineup, such as the **schneider TSXASY810** and **schneider 170ADO34000**, the **170AAI03000** offers unique advantages in terms of analog input capabilities and environmental resilience. While the TSXASY810 is optimal for digital applications, the 170AAI03000 provides enhanced versatility in handling complex analog signals, making it a superior choice for mixed-signal environments.
Moreover, when compared to the **schneider 170ADM39010**, which is primarily focused on digital I/O operations, the **schneider 170AAI03000** stands out due to its specialized analog input functionalities, catering to industries that require precise monitoring of analog signals.
#### Complementary Models
The **schneider 170AAI03000** is designed to work in synergy with several other **schneider automation products**. Pairing it with the **schneider TSXMCPC002M** enhances the overall data processing capabilities, while the **schneider TSXCBY1000K** can be integrated for added communication options.
For systems requiring extensive input/output management, the **schneider 170ADI74050** and **schneider 170ADO54050** can complement the 170AAI03000 by providing additional analog and digital I/O points. Similarly, the **schneider TSXMRPC003M** can be utilized to expand the control capabilities of your automation setup, ensuring that all operations are synchronized effectively.
The **schneider TSXPSY8500M** can serve as a reliable power supply solution, ensuring that the 170AAI03000 operates under optimal conditions. Furthermore, integrating with the **schneider TSXCBRY2500** can enhance system reliability through better redundancy management.
In conclusion, the **schneider 170AAI03000** is an essential component for any industrial automation setup, particularly in the power and petrochemical industries. Its superior analog input capabilities, durability, and real-time performance metrics make it an ideal choice for professionals looking to improve their operational efficiency and data management processes. Whether used independently or in conjunction with other **schneider models**, the 170AAI03000 is designed to meet the rigorous demands of modern automation.
The above parameters are for reference only. Please contact our technical team for precise selection.

 Product Description for schneider 170AAI03000
The **schneider 170AAI03000** is a robust and versatile automation solution designed specifically for demanding environments such as the power industry, petrochemical sector, and general automation applications. With its advanced technical features, the 170AAI03000 stands out as a reliable component for enhancing productivity and operational efficiency.
#### Key Technical Features
The **schneider 170AAI03000** boasts impressive input/output capacity, featuring 16 analog input channels that support a wide range of signal types. This model is engineered to handle a variety of applications, delivering precision and accuracy in data collection and processing. With a durable design, it is built to withstand harsh industrial conditions, ensuring longevity and reducing maintenance costs.
The performance metrics of the 170AAI03000 include a high-speed data processing capability that enables real-time monitoring and control. The device operates seamlessly within the temperature range of -20°C to +70°C, making it suitable for various environmental conditions. Its compatibility with various communication protocols ensures easy integration into existing systems, providing flexibility in automation setups.
#### Real-World Usage Scenarios
In the **power industry**, the **schneider 170AAI03000** excels in monitoring and controlling systems that require precise measurements of voltage, current, and temperature. For instance, it can be deployed in substations for real-time monitoring of electrical parameters, helping utility providers optimize energy distribution and ensure system reliability.
In **petrochemical applications**, the 170AAI03000 is invaluable for managing processes where real-time data is critical. It can be used in refining processes to monitor fluid levels and temperature, allowing for safe and efficient operation. Its robust design allows it to perform reliably in the presence of corrosive chemicals and extreme temperatures.

For **general automation**, the 170AAI03000 plays a pivotal role in manufacturing environments, where it can be utilized to monitor machine performance and automate processes. Its data acquisition capabilities enable manufacturers to streamline operations, reduce downtime, and improve overall productivity.
#### Comparison with Other Models
When compared to other models in the **schneider** lineup, such as the **schneider TSXASY810** and **schneider 170ADO34000**, the **170AAI03000** offers unique advantages in terms of analog input capabilities and environmental resilience. While the TSXASY810 is optimal for digital applications, the 170AAI03000 provides enhanced versatility in handling complex analog signals, making it a superior choice for mixed-signal environments.
Moreover, when compared to the **schneider 170ADM39010**, which is primarily focused on digital I/O operations, the **schneider 170AAI03000** stands out due to its specialized analog input functionalities, catering to industries that require precise monitoring of analog signals.
#### Complementary Models
The **schneider 170AAI03000** is designed to work in synergy with several other **schneider automation products**. Pairing it with the **schneider TSXMCPC002M** enhances the overall data processing capabilities, while the **schneider TSXCBY1000K** can be integrated for added communication options.
For systems requiring extensive input/output management, the **schneider 170ADI74050** and **schneider 170ADO54050** can complement the 170AAI03000 by providing additional analog and digital I/O points. Similarly, the **schneider TSXMRPC003M** can be utilized to expand the control capabilities of your automation setup, ensuring that all operations are synchronized effectively.
The **schneider TSXPSY8500M** can serve as a reliable power supply solution, ensuring that the 170AAI03000 operates under optimal conditions. Furthermore, integrating with the **schneider TSXCBRY2500** can enhance system reliability through better redundancy management.
In conclusion, the **schneider 170AAI03000** is an essential component for any industrial automation setup, particularly in the power and petrochemical industries. Its superior analog input capabilities, durability, and real-time performance metrics make it an ideal choice for professionals looking to improve their operational efficiency and data management processes. Whether used independently or in conjunction with other **schneider models**, the 170AAI03000 is designed to meet the rigorous demands of modern automation.
The above parameters are for reference only. Please contact our technical team for precise selection.