Westinghouse M2401 Safety Guidelines, FCC Compliance Statement, For the United States and Canada

Page 5

Safety Guidelines

CAUTION: The power supply outlet should be located near the LCD Monitor and should be easily accessible. Always use the appropriate AC cord that is certified for your specific country. Some examples are listed below:

USA

UL

Switzerland

SEV

Canada

CSA

Britain

BASE/BS

Germany

VDE

Japan

Electric Appliance Control Act

IMPORTANT NOTICE CONCERNING POWER CORD SELECTION

The specific power cord for this LCD Monitor is enclosed and has been selected according to the country of destination and must be used to prevent electric shock. Use the following guidelines if it is necessary to replace the original cord set, or if the cord set is not enclosed. The female receptacle of the cord set must meet IEC-60320 requirements and should look like Figure A1 below:

Figure A1

Figure A2

For the United States and Canada

In the United States and Canada the male plug is a NEMA5-15 style (Figure A2), UL Listed, and CSA Labeled. For LCD Monitors that are placed on a desk or table, type SVT or SJT cord sets may be used. For LCD Monitors placed directly on the floor, only SJT type cord sets may be used. The cord set must be selected according to the current rating for the LCD Monitor. Please consult the table below for the selection criteria for power cords used in the United States and Canada.

Cord Type

Size of Conductors in Cord

Maximum Current Rating of Unit

 

18 AWG

10 Amps

SJT

16 AWG

12 Amps

 

14 AWG

12 Amps

SVT

18 AWG

10 Amps

17 AWG

12 Amps

 

FCC Compliance Statement

This equipment has been tested and complies with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy, and may cause harmful interference to radio communications if not installed and used in accordance with the instructions. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

Reorient or relocate the receiving antenna.

Increase the separation between the LCD Monitor and receiver.

Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

Consult the Westinghouse Service Center or an experienced radio/Monitor technician for assistance.

FCC Warning

To assure continued FCC compliance, the user must use a grounded power supply cord and the provided shielded video interface cable with bonded ferrite cores. If a BNC cable used, use only a shielded BNC (5) cable. Also, any unauthorized changes or modifications not expressly approved by Westinghouse Digital Electronics will void the user's authority to operate this device.

LAMP(S) INSIDE THIS PRODUCT CONTAIN MERCURY AND MUST Hg BE RECYCLED OR DISPOSED OF ACCORDING TO LOCAL, STATE

OR FEDERAL LAWS

3

Image 5
Contents USER’S Manual Westinghouse Digital Electronics Santa Fe Springs, CA Contents Important Product Safety Instructions FCC Compliance Statement Safety GuidelinesFor the United States and Canada FCC WarningTo clean the screen Cleaning the LCD MonitorTo clean the case DisclaimerPlug & Play FeaturesPower Saver Installation Control Panel Buttons OSD Menu OSD Menu FunctionsOSD Menu under PC Press -/+ to choose Return,Mute,Volume.Press menu to Troubleshooting Image Is Not Centered size is not scaled correctly How to Connect a DVI-D Input To the MonitorColors Are Incorrect No SoundTechnical Information Preset ModesProduct Specifications Wall Mounting Optional

M2401 specifications

The Westinghouse M2401 is a notable entry in the realm of advanced technology solutions, particularly geared towards the energy sector. With a focus on enhancing operational efficiency, reliability, and safety, the M2401 has garnered attention for its robust design and application versatility.

One of the defining features of the M2401 is its modular architecture. This allows for easy customization based on specific user needs and operational requirements. The modular design not only simplifies maintenance and upgrades but also ensures that the system can adapt to evolving technological landscapes. This flexibility is critical in industries where technology is rapidly advancing.

The M2401 incorporates cutting-edge digital technologies that enhance its performance capabilities. State-of-the-art sensors provide real-time monitoring and data analytics, enabling operators to make informed decisions based on comprehensive insights. This feature is particularly valuable in managing complex operations where precision and timing are paramount.

Moreover, the device is equipped with advanced communication technologies that facilitate seamless integration with existing systems. This interoperability is crucial in multi-facility operations, allowing different parts of an organization to work in harmony. The M2401 supports various communication protocols, ensuring it can effectively interface with a plethora of equipment and software platforms.

The advanced control algorithms implemented within the M2401 are another hallmark of its design. These algorithms optimize performance by dynamically adjusting system parameters based on real-time data. This adaptive capability helps in maximizing efficiency and reducing operational costs, making it a valuable asset for any power generation facility.

Safety features are also a top priority in the M2401’s design. It is built with fail-safe mechanisms and redundancy to ensure continuous operation even in the event of component failure. This reliability is critical for facilities where downtime can lead to significant financial losses.

In summary, the Westinghouse M2401 stands out with its modular architecture, advanced digital technologies, superior communication capabilities, adaptive control algorithms, and robust safety features. Its design and functionality make it a key player in the energy sector, addressing the needs for efficiency, reliability, and adaptability in an ever-changing technological environment. As industries strive for greater sustainability and productivity, innovations like the M2401 will be essential in shaping the future of energy management and operations.