Instructions
24
The bandwidth of the power stages of the load is reduced (by changing the compensation
networks) when the slew rate is set to less than 0·1% of the maximum slew rate for the given
load mode. For example, in constant current mode, the maximum slew rate setting is 500A/ms,
so the bandwidth is reduced when the slew rate is set < 500A/s. This change is made even if the
transient facilities are not being used, and alters the dynamic behaviour of the unit. This may
improve stability with some difficult combinations of source and load characteristics.
Upon completion of the slew rate setting update, press the Back soft-key to return to the
transient menu or the
Home key to return to the home screen.
7.14.1 Slow Slew Rate Limitations
There is a lower limit to the slew rate value that can be used, which is determined by the
combination of slew rate, frequency, duty cycle, and the difference between the two levels. If the
requested transition time (which is the difference between the level settings divided by the slew
rate) is longer than the available time (which is the oscillator period multiplied by the smaller duty
factor), then the transition will not complete before the oscillator initiates a return to the other
level. As a result, the intended level setting will never be reached. In this case, Slew is displayed
in the status line as a warning.
7.14.2 Fast Slew Rate Limitations
In practice there are a number of limitations on the fastest slew rate actually attainable. One is
the minimum transition time of the power stages of the load (which depends on the operating
mode – see the Specification). If a combination of a fast slew rate and a small change in level
imply a transition time shorter than this, then the settling time of the power stage will dominate.
The dynamic behaviour of a source and load combination at high slew rates depends on many
factors, particularly interconnection inductance and the damping factor of feedback loops. In
addition, the response of the power stages of the load is slower when operated at very low or
high currents, or at low voltages. In many circumstances, a lower slew rate setting will be needed
to avoid aberrations.
If an attempt is made to set a slew rate faster than is possible in the circumstances, then
significant overshoots and extended settling times can arise. When configuring fast transitions
approaching the limits of the capabilities of the unit, it is strongly recommended that the current
monitor output be viewed on an oscilloscope to verify the results actually obtained. Particular
care should be taken to avoid a fast transition down to a low current, as this may result in the
power stage entering the cut-off state, which incurs a long recovery time and possibly multiple
current pulses.
In CR (constant resistance) mode, where the current is inversely related to the resistance
transition, it is particularly difficult to predict the maximum useful slew rate setting.
7.15 Voltage and Current Limits
These limits specify values of source voltage and load current which will cause the load to
automatically disable its input if the actual measured voltage or current exceeds the set limit. This
is not an independent hardware trip, but a simple comparison against the meter measurements.
To access the Limits menu, press the Limits soft-key on the home screen.
The V / I soft-key toggles the menu between setting up the two limits, allowing a numeric value
for each to be entered in the usual way. Pressing the None soft-key (or entering a value of zero)
disables that particular limit. Press the Back soft-key or the
Home key to return to the home
screen.
While a value is specified for either limit, Lim appears on the status line of the display. Then, if
either of the limits is exceeded a fault message is displayed and the load input is disabled.