2.The crowbar circuit creates an extra current path during normal operation of the supply, thus changing the current that flows through the current monitoring resistor. Diode CR1 keeps this extra current at a fixed level for which compensation can then be made in the constant current comparator circuit.
3.In preregulated supplies the crowbar turns off the preregulator circuit when the SCR fires, reducing the voltage drop across the series regulator and the current flow through the SCR.
4.An auxiliary winding is included on the blocking oscillator transformer for connection to an additional crowbar. Tandem crowbar operation is then available for coincident firing of all crowbars in a system.
Crowbar Response Time
The crowbar's speed of response to an overload is a critical parameter. If the response time is too slow, the output could rise to a level high enough to damage the load. If the response is too fast, then spurious noise can cause false tripping and create a nuisance condition.
There are three time delays that place a practical limit on how fast crowbars can react. In order of decreasing magnitude, they are:
(1)The typical SCR
(2)The reaction time of the trigger circuit; and
(3)The time delay associated with the crowbar
If the output voltage is rising relatively slowly there will be essentially no time delay of types (2) and (3). The SCR will be triggered within a fraction of a microsecond after the relatively
In practice, it is unrealistic to specify either the time delay or the maximum overvoltage as shown in Figure 22A, because they vary according to operating levels, load and line impedances, and the exact failure mode. Instead Agilent Technologies specifies the overvoltage trip margin, which is defined as "the minimum crowbar trip setting above the desired operating output voltage to prevent false crowbar tripping".
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