Tyco 1540 manual Reading Bottom A1rb or A2rb

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Press >> to accept the displayed Reading Top value, The next

Set-up screen will appear.

Press to return to the Edit screen.

Confirmation

3.15.8 Reading Bottom - A1rb or A2rb

Use these screens to specify the minimum or most negative value for the Reading Bottom value.

The method of setting the Reading Bottom screens is the same as for setting the Reading Top screens, as described in Section 3.15.7. The Reading Bottom screens show A1rb (or A2rb for the Analogue output 2) on the top line.

3.15.9 Output Top – A1ot or A2ot

Use these screens to set the maximum analogue output current (in mA). This current will represent the highest reading value. You cannot specify a greater current than the actual value that the unit can supply, e.g. 1 mA.

The method of setting the Output Top screens is the same as for setting the Reading Top screens, as described in Section 3.15.7. The Output Top screens show A1ot (or A2ot for the Analogue output 2) on the top line.

3.15.10 Output Bottom – A1ob or A2ob

Use these screens to set the minimum or most negative analogue output current (in mA). This current will represent the lowest or most negative reading value. The current cannot be set to a value that exceeds the actual capability of the unit, e.g. it cannot be set it to –10 mA if the unit can only handle –1 mA.

The method of setting the Output Bottom screens is the same as for setting the Reading Top screens, as described in Section 3.15.7. These screens show A1ob (or A2ob for Analogue output 2) on the top line.

Integra 1540, 1000, 0640, 0440, 0340, 0240 Issue 1 04/03

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Contents Energy Division Crompton Switchboard Integra Contents Setting up Specification Basis of measurement and calculations Serial Communications Maintenance Appendix a CE Declaration of ConformityTHD Introduction3 0440 Unit CharacteristicsIntegra 1540, 1000, 0640, 0440, 0340, 0240 Issue 1 04/03 Default display Maximum Power Secondary VoltageDemand Calculation RS485 Serial Option Pulse Output OptionAnalogue Output Option Display Screens LayoutStart Up Screens System Screen System %THD Screen Line to Neutral VoltagesLine to Neutral Voltage %THD Line to Line Voltages Line to Line Voltages %THDLine Currents Neutral Current, Frequency and Power Factor PowerLine Currents %THD Reactive Energy kVArh Active Energy kWhDemand Maximum DemandOver Range Setting up Error MessagesKWh and kVArh Display Range Number Entry Procedure Integra 1540, 1000, 0640, 0440, 0340, 0240 Issue 1 04/03 Access Access with No Password ProtectionAccess with Password Protection Integra 1540, 1000, 0640, 0440, 0340, 0240 Issue 1 04/03 Changing the Password Potential Transformer Primary Voltage Full Scale CurrentIntegra 1540, 1000, 0640, 0440, 0340, 0240 Issue 1 04/03 Potential Transformer Secondary Value Demand Integration Time Resets Pulsed Output, Pulse Duration Pulse Rate 12 RS485 Baud Rate 13 RS485 Parity Selection 14 RS485 Modbus Address Second Channel Analogue Output Set UpReverse Operation Reduced output rangeReading A1r or A2r Analogue Output Scaling ExampleReading Top A1rt or A2rt Reading Bottom A1rb or A2rbPower Factor Output Bottom A1ob or A2obSummary USA Reading European Convention North American Convention Output Phase Angle L1-L2 Calculated Reading Parameter Selection A1r or A2r Parameter Number WireReading Top A1rt or A2rt Reading Bottom A1rb or A2rb Display Only Versions SpecificationDisplay/Transducer Combined 0240, 0340, 0440 121 240V L-L 70.1 139V L-N Measuring Ranges AccuracyReference conditions of influence quantities Display/Tranducer Combined 1000 Auxiliary Power Supply Reference conditions Functional ranges Nominal range of use of influence quantities for measurandsScreen StandardsModbus RS485 Serial Communications OptionIntegra 1540 Only Active Energy Pulsed Output OptionReactive and Apparent Power Energy resolutionBasis of measurement and calculations Total Harmonic Distortion 1540 only Serial Communications RS485 Port Modbus or JC N2Modbus Implementation Input Registers Parameter Modbus Start High Low Byte Modbus Holding Registers and Integra set upRS485 Implementation of Johnson Controls Metasys Application detailsMetasys release requirements Support for Metasys Integration Support for Crompton Integra operationDesign considerations Integra 1560/1580 Point Mapping table Metasys N2 applicationMaintenance Integra 1540, 1000, 0640, 0440, 0340, 0240 Issue 1 04/03 Integra 1540, 1000, 0640, 0440, 0340, 0240 Issue 1 04/03 Integra 1540, 1000, 0640, 0440, 0340, 0240 Issue 1 04/03

1540 specifications

The Tyco 1540 is an innovative and versatile telecommunications solution that has gained popularity in various industries due to its robust features and state-of-the-art technology. Designed primarily for high-performance communication, the Tyco 1540 has become a go-to choice for service providers, enterprises, and data centers looking to enhance their network capabilities.

One of the main features of the Tyco 1540 is its advanced multiplexing technology. This allows for the efficient transmission of multiple data signals over a single optical fiber, maximizing bandwidth utilization and reducing infrastructure costs. The device supports a range of protocols, making it adaptable to various network environments and requirements.

The Tyco 1540 also incorporates automation capabilities, which significantly streamline network management and operational processes. With built-in monitoring and diagnostic tools, administrators can easily track performance metrics, troubleshoot issues, and optimize network resources in real-time, thus ensuring seamless communication and minimal downtime.

Another standout characteristic of the Tyco 1540 is its scalability. As businesses grow and their communication needs evolve, the Tyco 1540 can be adjusted to accommodate increased data traffic without needing extensive hardware upgrades. This scalability is essential for organizations that need to remain agile and responsive in an ever-changing technological landscape.

Security is a critical concern in telecommunications, and the Tyco 1540 addresses this with robust encryption protocols. This functionality safeguards sensitive data transmitted across the network, providing peace of mind for organizations handling confidential information. Moreover, the device is designed to comply with industry standards and regulations, ensuring that users meet necessary compliance requirements.

Energy efficiency is another notable aspect of the Tyco 1540. The device is engineered to consume less power, reducing operational costs and minimizing the environmental impact. The incorporation of energy-saving technologies reflects a commitment to sustainable practices, which is increasingly important in today's eco-conscious world.

In conclusion, the Tyco 1540 represents a significant advancement in telecommunications technology. Its features, including advanced multiplexing, automation capabilities, scalability, enhanced security, and energy efficiency, make it an ideal choice for a wide range of applications. Organizations looking to improve their communication infrastructure can certainly benefit from integrating the Tyco 1540 into their systems. With its robust performance and adaptability, the Tyco 1540 stands out as a leading solution in the evolving telecommunications landscape.