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All clocks sourced through Chime Master use Minute Impulse technology to provide accurate digital control to analog clock movements. This technology is superior to previous movement technology using synchronous motors.
== Theory of operation ==
Minute impulse clock technology is best described using the 3-way stairway light switch metaphor. The stair light is the clock motor, the upstairs switch is actuated one way or the other when the clock shaft has advanced one minute on the dial, and the downstairs switch is actuated by a controller to indicate if we are currently in an even minute (up) or an odd minute (down).  If the clock has advanced to the current minute, the light will be off (dial motor not running). When real time advances to the next minute, the downstairs switch changes, energizing the light (dial motor running). When the clock has advanced to this new time it changes the state of the upstairs switch turning off the light (dial motor not running). This continues keeping the clock dial in perfect sync with real time.
Minute impulse clock technology is best described using the 3-way stairway light switch metaphor. The stair light is the clock motor, the upstairs switch is actuated one way or the other when the clock shaft has advanced one minute on the dial, and the downstairs switch is actuated by a controller to indicate if we are currently in an even minute (up) or an odd minute (down).  If the clock has advanced to the current minute, the light will be off (dial motor not running). When real time advances to the next minute, the downstairs switch changes, energizing the light (dial motor running). When the clock has advanced to this new time it changes the state of the upstairs switch turning off the light (dial motor not running). This continues keeping the clock dial in perfect sync with real time.


To provide for power outage recovery, the controller advances a memory register each time it commands the clock movement to advance. When power is restored after an outage, the controller will command the dial to advance at a faster rate until this register equals the real time.
== Corrections ==
To provide for power outage recovery, the controller advances a non-volatile memory register each time it commands the clock movement to advance. When power is restored after an outage, the controller will command the dial to advance at a faster rate until this register equals the real time.


In the case of Daylight Time adjustments, the clock will advance at a faster rate to catch up with the new real time, or stop the clock to wait for real time to catch up.
In the case of Daylight Time adjustments, the clock will advance at a faster rate to catch up with the new real time, or stop the clock to wait for real time to catch up.
== Why not synchronous motors? ==
Two problems occur with synchronous motors. First, American power companies no longer maintain a long-term average of 60 Hz line frequency because most consumers are using crystal based clocks and critical systems are always synchronized to time standards. Secondly automatic corrections made by speeding up the dials only approximated the correct time. Human operations are continually required to fine tune the exact time displayed.


[[Category: Clocks]][[Category: Electrical]]
[[Category: Clocks]][[Category: Electrical]]

Revision as of 14:54, 4 January 2018

All clocks sourced through Chime Master use Minute Impulse technology to provide accurate digital control to analog clock movements. This technology is superior to previous movement technology using synchronous motors.

Theory of operation

Minute impulse clock technology is best described using the 3-way stairway light switch metaphor. The stair light is the clock motor, the upstairs switch is actuated one way or the other when the clock shaft has advanced one minute on the dial, and the downstairs switch is actuated by a controller to indicate if we are currently in an even minute (up) or an odd minute (down). If the clock has advanced to the current minute, the light will be off (dial motor not running). When real time advances to the next minute, the downstairs switch changes, energizing the light (dial motor running). When the clock has advanced to this new time it changes the state of the upstairs switch turning off the light (dial motor not running). This continues keeping the clock dial in perfect sync with real time.

Corrections

To provide for power outage recovery, the controller advances a non-volatile memory register each time it commands the clock movement to advance. When power is restored after an outage, the controller will command the dial to advance at a faster rate until this register equals the real time.

In the case of Daylight Time adjustments, the clock will advance at a faster rate to catch up with the new real time, or stop the clock to wait for real time to catch up.

Why not synchronous motors?

Two problems occur with synchronous motors. First, American power companies no longer maintain a long-term average of 60 Hz line frequency because most consumers are using crystal based clocks and critical systems are always synchronized to time standards. Secondly automatic corrections made by speeding up the dials only approximated the correct time. Human operations are continually required to fine tune the exact time displayed.