Resetting The Clock After A Total Memory Loss

If you do not change the built in lithium battery within a reasonable period of time

after you see the warning indicator, the lithium battery may become exhausted and will no longer be able to supply back up power to the SmartSet® internal computer. If the unit is disconnected from the AC outlet after the battery is exhausted, or if a power interruption occurs, the SmartSet® memory will be lost and the clock will need to be reset when the power is restored. Be sure to install a fresh lithium battery before you reset the clock, otherwise the clock will need to be reset each time the power is interrupted.

If the lithium battery is exhausted and you experience an interruption in the AC power supply, the clock will reset itself to its initial default setting when the power is restored.

The initial default setting is “12:00 AM, Saturday, January 1st (1. 1), 2005”.

If you notice that the time on your SmartSet® clock radio is completely incorrect, and the DAY OF WEEK indicator is also wrong, press the MONTH/DATE button to see the date.

If the date display is showing “1. 1” (January first), you probably experienced a total memory loss.

To reset the clock after a total memory loss, proceed as follows:

1.) Follow the instructions on page 20-21 and install a new CR2430 lithium battery in the battery compartment.

2.) Connect the radio to your AC outlet and let the clock set itself.

3.) Depress the MONTH/DATE and TIME buttons together. The display will change from ‘Time’to ‘Year’.

While holding the MONTH/DATE and TIME buttons, press the SET + button to set the display to the correct year, then release the buttons.

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Emerson CKS3526 Resetting The Clock After a Total Memory Loss, Initial default setting is 1200 AM, Saturday, January 1st 1

CKS3525, CKS3526 specifications

The Emerson CKS3526 and CKS3525 are high-performance digital controllers renowned for their innovative features and advanced technologies. Designed for industrial applications, these controllers provide unparalleled precision in temperature regulation and control, making them a top choice for manufacturers and operators.

One of the standout features of the CKS3526 and CKS3525 models is their user-friendly interface. Both models are equipped with a large, easy-to-read LCD screen that displays relevant parameters clearly, enabling operators to monitor conditions at a glance. The intuitive navigation makes it simple to adjust settings, reducing downtime and increasing operational efficiency.

In terms of connectivity, both controllers support a variety of communication protocols. This flexibility allows operators to integrate the devices seamlessly into existing industrial systems, enhancing overall productivity. They are compatible with popular protocols such as Modbus, enabling straightforward data transmission and real-time monitoring.

The technology behind these controllers includes advanced PID (Proportional-Integral-Derivative) control algorithms, ensuring precise temperature regulation. This technology not only stabilizes process parameters but also improves the energy efficiency of industrial systems by minimizing temperature fluctuations. Additionally, the controllers utilize self-tuning capabilities which automatically optimize control settings, adapting to changes in process dynamics without manual intervention.

Another significant characteristic is their robust design, aimed at withstanding harsh industrial environments. Built with durable materials, the CKS3526 and CKS3525 are resistant to dust, moisture, and temperature variations, ensuring long-term reliability and reducing maintenance costs.

Moreover, these models feature comprehensive alarm and event logging functions. Operators can easily set programmable alarms for predefined conditions and track historical data, which assists in predictive maintenance and quality control processes.

Safety is a priority in the design of both controllers. They incorporate features such as over-temperature protection, ensuring that the system remains safe under all operating conditions. This focus on safety is critical in preventing costly downtime and equipment damage.

In summary, the Emerson CKS3526 and CKS3525 controllers provide cutting-edge solutions for temperature regulation in various industrial applications. With their user-friendly interface, robust communication capabilities, advanced PID control technology, and durable design, they represent some of the best options available for enhancing operational efficiencies and ensuring safety in industrial environments.