Emerson CVS, MCR Brochure

Power Protection and Conditioning

Operating Characteristics of the CVS & MCR Series

Except as noted, all characteristics of SolaHD’s CVS products also apply to the MCR series.

Regulation

SolaHD’s CVS power conditioners will hold output voltages
to ±1.0% or less with input variations as great as ±15%
(115V ±15% or 120 V +10%/-20%). Units operated at less
than rated load will maintain approximately ±1% regulation
over a wider input line voltage variation. Output meets NEMA

voltage specications even when input voltage drops to 65%

of nominal. The output versus input voltage relationship for a
typical CVS is show in Figure A.

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CVS Conditioner

Rating - VA

30 3%

60 & 120 2%

250 & over 1%

Input Characteristics

SolaHD power conditioners include a resonant circuit that
is energized whether or not it is serving load. The input
current at no load or light load may run 50% or more of the
full primary current. As a result, the temperature of the unit
may rise to substantially full-load level, even at light or no
load. Input power factor will average 90-100% at full load,
but may drop to about 75% at half load and 25% at no load.
In any case, the current is always leading. The input no load
watts are about 12.5% of the VA rating.

Increase in Output Voltage due to

Load Removal

Figure A: Load Variation

Note: MCR line regulations: ±3% for 60 Hz; ±5% for 50 Hz.
The typical performances shown in Figure B indicate that
most of the residual changes take place near the lower
(95 V) and upper (130 V) ends of the input range. It is
possible to improve output regulation if line variations remain
within a restricted range near the center of the nameplate
range (for example, 100-120 V).

Figure B: Line Regulation

Frequency

Output voltage varies linearly with a change of frequency of
the input voltage. This change is about 1.5% of the
output voltage for each 1% change in input frequency and in
the same direction as the frequency change.

Normally, the output voltage will rise as the load is
decreased. Typical percentages for changes in resistive
load from full to zero load as shown below.

Contact Technical Services at (800) 377-4384 with any questions.

Visit our website at www.solahd.com.

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Power Protection and Conditioning

Operating Characteristics of the CVS & MCR Series

Except as noted, all characteristics of SolaHD’s CVS products also apply to the MCR series.

Figure C: Power Factor

Power Factor

SolaHD power conditioners regulate any power factor load.
Output voltage is a function of load current and load power
factor (see Figure C). If lower voltage under lagging power
factor is objectionable, correction may be made with capaci­tors at the load. “Median” value of output voltage will vary
from the nameplate rating if the load has a power
factor other than that for which the transformer was
designed. Load regulation will also be relatively greater as
the inductive load power factor is decreased (see Figure C).
However, the resulting median values of output voltage will
be regulated against supply line changes at any reasonable
load or load power factor.

Efficiency

The copper magnet wire and lamination material used in
SolaHD ferroresonant products are selected to achieve

efciencies of 90% or higher. Whether or not an external load

is being served, current will be drawn from the line whenever
the primary is energized, since the capacitor remains
connected in the circuit.

Overload and Short Circuits

When the load is increased beyond the regulator’s rated
value, a point is reached where the output voltage suddenly
collapses and will not regain its normal value until the load is
partially released. Under direct short circuit, the load current
is limited to approximately 150-200% of the rated full load
value and the input watts to less than 10% of normal.

Figure D: Overload Performance

A constant voltage regulator will protect both itself and its
load against damage from excessive fault currents. Fusing
of load currents may not be necessary. The actual value of

short-circuit current varies with the specic design and
rating. Units may be operated indenitely at short-circuit.

This characteristic protects the unit itself as well as the load
and load circuit being served. Typical overload
performance is shown in Figure D.

Motor Loads

Because of the fast response time of the SolaHD circuit, any
current-limiting characteristic must be taken into account
for transient overloads such as motor starting and solenoid
operation. In general, the SolaHD constant voltage regulator
must have a capacity nearly equal to the maximum demand
made on it, even for an instant. To determine the power
rating of the regulator, peak motor-starting current or
solenoid inrush current should be measured or power factor
correcting capacitors should be used to reduce the starting
VA of the load.

Response Time

An important advantage of SolaHD’s ferroresonant
transformer is its fast response time compared with other
types of AC regulators. Transient changes in supply voltage
are usually corrected within 1½ cycles or less; the output
voltage will not uctuate more than a few percent, even
during this interval.

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Contact Technical Services at (800) 377-4384 with any questions.

Visit our website at www.solahd.com.