خازن فشار قوی ویشای High Voltage Power Vishay ESTA
خازن های ولتاژ بالا به نوعی خازن اطلاق می شود که از یک بوش سرامیکی، یک گروه عنصر خازن و یک پوشش تشکیل شده است.خازن های ولتاژ بالا دارای ویژگی های کم افت و وزن سبک هستند.
مشخصات
- شرکت سازنده :
- VISHAY
- کشور سازنده :
- آلمان
فایلهای پیوست
VISHAY | 85٫67 کیلوبایت | دانلود |
ESTA-HV-Power-Capacitors | 1٫31 مگابایت | دانلود |
توضیحات محصول
Individual Power Factor Correction
The power factor correction capacitor is connected directly to
the terminals of the consumer and will be switched together
with it. The advantages of this method are: Relief of the
conductor lines and switches, no capacitor switches or
discharge resistors are needed, and the installation is simple
and cheap. The individual compensation is the best solution
for large consumers (e.g. motors), particularly if they are
in continuous operation.
Individual Power Factor Correction of 3-Phase Motors
The motor and the capacitor are connected in parallel.
They are both switched in and out by means of one and
the same switchgear and also monitored by a common
protective device. A discharge device is not required, because
discharging takes place through the motor windings.
The switchgear must be rated to be capable of withstanding
the inrush current of the capacitor and the connection lines
must be capable of withstanding the full load current of the
motor. The capacitor, in this case, has to be installed in close
proximity to the motor.
Individual Power Factor Correction of Power Transformers
The direct connection of the capacitor to a power transformer,
which is jointly switched in and out, is feasible and permissible
both at the H.V. side and the L.V. side.
In cases where harmonics exist in the line, the line should
be checked to determine whether the capacitors and the
power transformer are connected in series and create a
resonance.
Care should be taken not to overcompensate the power
transformer during low load operation in order to avoid an
unacceptable rise in voltage.
Individual Power Factor Correction of Welding Machines
The output of capacitors for welding transformers and
resistance welding machines only needs to be in the range of
30% to 50% of the nominal transformer capacity. For welding
rectifi ers, a capacitor output of about 10% of the nominal
capacity of the transformer/rectifi er is suffi cient.
Group Power Factor Correction
The power factor correction capacitor is connected to the
secondary distribution system which feeds a number of
individual motors, operating either continuously or at intervals.
The motors and the capacitors are each switched in and
out separately and are monitored by separate protective
devices. The capacitors can be switched in or out individually
or in groups