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SINGLE POLE HV VACUUM
CONTACTORS / RELAYS
Compact Design
Compared with other devices of the same power interruption
range, the Ross contactors and relays are much lighter in weight and more
compact in structure. Ross designed these devices especially for
installation in indoor open style equipment and metal enclosed switchgear
or power supplies of the smallest and lightest configurations. Also,
because of the reliable actuator design and Ross Engineering's standard
vacuum sealed HV contacts, each unit can operate quietly and efficiently
in air, oil, or insulating gas atmospheres.
Long Life Vacuum
Interrupters
To insure minimum maintenance and extremely long
life, these Ross HV current interrupting contactors and relays are built
with sealed vacuum interrupters. These versatile components assure high
dielectric strength and rapid recovery after arc extinction. This high
dielectric strength exhibits comparatively low arc energy during high
current interruption, and thus minimizes contact erosion. The vacuum
medium provides a very rapid but controlled arc extinction due to high
velocity radial diffusion of vaporized special metal alloy contact
surfaces during contact separation, Consequently, this allows the very
rapid but controlled recovery of dielectric strength and minimizes over
voltages. The interruption capability is not affected by adverse
conditions such as altitude, extreme temperature or humidity. Of major
importance, the high speed interruption reduces possible fault damage to
equipment.
In addition to the extended life characteristics of the
vacuum interrupters, the Ross HV vacuum contactors and relays are built
with highly moisture resistant G-10 Epoxy glass as standard insulation
(special insulation and insulation lengths can be ordered by contacting
the factory.)
Variety of Uses
Ross Engineering basic HV contactors and relays
with sealed vacuum contacts are available in single pole, two-pole, and
three-pole variations. Models include normally open, normally closed, or
double throw units. Latching actuators are also available. The Ross
contactors and relays are used in many high voltage power supplies for
capacitor bank charging and discharging, current transfer, tap or load
selection, or sealed arc interruption. The units are excellent for high
speed interruption of up to 10 amps DC or up to 28,000 amps AC. They are
also very reliable for high speed crobar or fault diversion to protect
sensitive electronic devices. These different functions are accomplished
with 1 to 4 milliseconds contact closing or parting time when the vacuum
contactor is driven by an SCR triggered stored energy driver. This
combination, aided by a high speed vacuum power interrupter, can crobar in
2 milliseconds, divert the fault, then interrupt up to its maximum rated
current in approximately 3 to 16 milliseconds total, depending on type of
system and current zero timing.
High Voltage
Protection
OSHA and other safety organizations require high
voltage and line to ground current protection. Ross Engineering's lines of
HV vacuum contactors and relays help users and manufacturers meet these
regulations- In as little as 2 to 16 milliseconds the unit's high speed
trip, driven by a Ross relay driver, can close the contact(s) and divert
the fault current, or open the contact(s) and interrupt the load current,
or both, thus minimizing damage to the controlled equipment. When proper
ground fault or leakage current sensing is used, this may be fast enough
to reduce injury to personnel from accidental electrocution as a result of
contact with one line and ground or voltages developed in the ground
circuit from ground current.
Vacuum Contactors
Ross Engineering's HV contactors and relays
require only a 1/16" to 1/2" contact opening to obtain voltage
withstand of 20KV to 70KV PK (or more for series contacts) Operate times
of I to 16 milliseconds are easily obtained using the simple reliable Ross
operating mechanism to move the lightweight contacts the short travel
required.
Contact resistance is consistently very low, usually less than 10
microhms to 1 milliohm, depending on the type of contact used. Higher
continuous currents are also available with the use of Ross high current
shunting switches with capacities of up to 36,000 amps. The contacts are
readily adaptable to series placement for higher voltages, with a maximum
operating voltage of 30KV to 45KV PK per contact, enabling withstand
voltage capabilities to 300KV or more.
Each unit's vacuum contact mechanical life is generally at least 10,000
operations to several million operations depending on type of unit, speed
of operation, and contact opening distance. Contact electrical life is1 to
10 operations at maximum interrupt to several million at lower currents;
and is much more dependent on closing current than on interrupt currents
up to several times rated load current. Closing bounce and amp-seconds
during arcing are the biggest electrical life determining factors.
Operate Voltages
Ross Engineering's single contact, normally
open, normally closed, latching and trip free type HV vacuum contactors
and relays are used at 208V RMS to 30,000V PK, and 50 to 1,200 amps
continuous. In most standard applications, voltage ratings are raised in
multiples of 30KV (operating) above 15KV (operating) by placing contacts
in series. For example, two 15KV rated HB type contacts in series per
phase are suitable for 45KV, three contacts in series per phase are
suitable for 75KV applications.
Current Ratings
Continuous current ratings are 50, 200, 400,
600, 900, and 1,200 amps RMS, with up to 36,000 amps RMS continuous with
the use of a shunt switch to carry the continuous current while using the
vacuum interrupter's capability for the actual interruption. This
switchgear has 60Hz interrupt ratings of 2,000 to 28,000 amps, 10 cycle
momentary ratings of 5,000 to 60,000 amps and capacitor discharge to
1,00,000 amps Some 50Hz maximum interrupt ratings are derated 10%.
AC/DC Current Interruption
The Ross Engineering single pole HV vacuum
contactors and relays can be used on both AC and DC current interruption.
The units' DC rated vacuum contacts can normally be used for limited
current interruption to -10 amps DC. Some AC rated contacts can interrupt
DC at much higher currents with carefully controlled counter pulses to
create current zeros, and slow recovery voltage rates similar to those of
60Hz to 400Hz waveforms. Ross utilizes special tungsten contacts for
limited DC current interruption. In some cases, the interruption can be
carried to as high as 20 to 40 amps DC. When interrupting DC, transient
suppression such as non-linear resistance or the proper size of capacitor
in series with an 1 ohm per KV inrush limiting resistor should be used in
parallel with the Ross vacuum contacts and the load.
For higher DC current interruption, i.e. several hundred
to several thousand amps or more at 15KV DC per contact, or 40KV DC for 2
contacts in series, Ross AC rated contactors with copper alloy vacuum
contacts can be satisfactory. This is possible if multiple counter-pulses
are applied with a carefully controlled rate of recovery voltage that
approximates 60Hz current zero and recovery voltage characteristics by
means of a resistor/capacitor and switching network or if in combination
with an inductive ringing circuit.
For AC interruption, the Ross contacts are designed with
copper alloy combinations to limit current chopping to less than a 1 to 8
amp level to minimize switching transients. AC current interruption
generally occurs at the first current zero after contact parting. If
contacts are not parted sufficiently for the rate of recovery voltage, or
arc energy is very high, current may carry over to the second current zero
before clearing. At higher contact voltages and currents, care is taken to
insure that contacts do not bounce back after opening, thus reducing
contact spacing temporarily. Ross mechanisms are designed to be easily
checked for contact erosion limits and over travel to insure that proper over travel
and positive contact closing are maintained as erosion continues.
Inductive Load
Switching
With highly inductive loads, wherever possible,
transient suppressing non-linear resistance or protective capacitors
should be placed across the line as close to the load equipment terminals
as possible. Standard lightning arresters have not been found as effective
as a protective capacitor with approximately 2 ohm per KV of inrush
damping resistor in series directly connected across the load. This is
particularly essential for repeatedly switched inductive loads such as arc
furnaces, motors, and many low current, transient generating inductive
loads. Most switching devices can create over voltages on switching and
Ross Engineering experience has shown that for iron core reactive loads,
normal switching over voltages of 2 to 2-1/2 times operating voltage are
to be expected with almost any type of interrupter. Dry type transformers
and air core inductive loads can generate higher over voltages if there is
insufficient shunt capacitance.
Closing and Inrush
Currents
When closing-in on transformers and other iron
core inductive loads, normal inrush currents of 5 to 10 times rated load
current are expected, depending on the degree of magnetic retentivity from
the previous interruption. If iron core inductive loads can be
re-energized on the opposite polarity from which they were de-energized,
then inrush is minimized, otherwise, it is limited primarily by the
circuit and winding resistance. Repeated high inrush closing causes great
mechanical stress on the transformer windings as well as rapid erosion of
the vacuum contact (which can be over 10 times as great on closing as on
interrupting even the same current). Therefore, transformers that have
marginal insulation and bracing can deteriorate with repeated switching,
regardless of type of switch. A much larger number of transformer failures
have probably occurred because of these high inrush currents and poor
bracing than from over voltages.
Contact Erosion
Contact erosion and resultant internal vaporized
metal deposit distribution generally determines end of electrical life.
I/16" to 1/4" of total erosion is generally the limit. With the
proper selection of contact material and with currents under 600 to 1,000
amps, erosion should be very small. At currents between 1,000 and 3,500
amps, erosion should be moderate. At currents approaching maximum
interruption rating, life may only be 1 to 100 operations. Even at low to
moderate currents, closing generally causes 2 to 10 times as much erosion
as interrupting the same currents. Thus, for best long-life current
closing, the closing current should be limited. Step-start dual closing
contactors which use inrush current limiting resistors are available.
Voltage zero and current zero sensing devices for closing or opening are
under development.
Actuator Types and
Contactor Configurations
They are available with line or stored energy
driver opening or closing and anti-pump or automatic reset actuators.
Normally open, normally closed, double throw and latching type
configurations are available. Standard actuator voltages are 115V, 60Hz
for smaller units, 230V, 60Hz is recommended for larger, heavy-duty
solenoid actuated units. 208V, 480V, 24V, 60Hz, 50Hz, and 24V DC,
100/125V DC, 400Hz, and other voltages are available. Application
information should be furnished along with contact configuration
requirements. When ordering or requesting recommendations, actuator
voltage should be specified as well as the applicable HV contact operating
voltage and current, basic impulse level (BIL), insulation level for HV
contacts and HV contacts to actuator or ground, maximum RMS current
interrupt, 1 cycle (17 milliseconds) momentary RMS current, 10 cycle RMS
momentary current, or peak capacitor discharge current and the RC time
constant of the current decay to 35% of peak. Other information such as
type of load, number of operations per year, maximum current levels on
closing and opening, speed of opening and closing, and number and type of
auxiliary contacts required is also necessary for the best application
recommendation.
Auxiliary Contacts
Two auxiliary SPDT contacts are standard on each
model. Additional contacts can be ordered.
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