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C4800 Datasheet, PDF (2/3 Pages) Powerbox – AC input 1 or 3-phase, 47 - 400 Hz | |||
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Euro Series
EURO OPTION SPECIFICATIONS
OPTIONS
INPUT
Option âiâ (inrush current limiting): A thermistor is connected in series with the
input lines which changes its resistance from high to low when it gets hot. It does
not reduce the current surge if the input power is interrupted for a short period of
time not allowing the thermistor to cool down. Thermistors are fitted as standard
to all mains input models except for 1-phase input of models > 2.5kW.
Thermistors are available up to 45A. For higher input current an electronic inrush
current limitation can be offered.
Option âieâ electronic inrush current limiting An electronic circuit limits the inrush
current.
Option âsdâ (series diode): A series diode protects the module against input
voltage of wrong polarity (additional power losses).
Option âadâ (anti-parallel diode): To avoid the power losses of a series diode a diode is
provided with opposite polarity in parallel to the input blowing an internal or external
fuse if the module is connected to a supply with wrong polarity.
Option âauâ (auto-ranging) For standard dual AC input models the range of
115/230Vac is to be selected by connecting the input line to different pins on the
connector. With auto-ranging the unit senses the input voltage and provides
automatically the correct connection.
Option âpâ (power fail): A signal (logic or relay) is given if the input voltage (AC or
DC) drops below the specified limit. In AC input units we sense the rectified input
voltage so that a power fail alarm will not be triggered if at light loads mains
power returns before the input capacitors are substantially discharged.
Option ârâ (relay): A relay instead of a logic signal is provided for failure indication.
OUTPUT
Option âddâ (decoupling diode): For redundant operation the outputs of two or
more units are paralleled behind de-coupling diodes so that an internal fault of
one module does not affect the operation of the others. These diodes cause power
losses.
Option âcsâ (active current sharing): An additional control circuit provides active
current sharing via an interconnecting wire between converters that operate in
parallel. Active current sharing should be used for multi-output units operating in
parallel.
Option âcsiâ (current sharing interrupt): Option âcsiâ will effect the removal of the
âcsâ signal. Should there be an instance where a unit is not supplying the load,
then the effect of its âcsâ signal is removed, and the load voltage is unaffected by
this condition.
Option âh1â (inhibit): A terminal connected to the negative input line also shuts off the
converter. This can also be used in conjunction with a thermal trip which shuts the unit
down.
Option âh2â (inhibit): Operation of the unit is inhibited if a voltage signal
(5V/10mA) is applied in reference to the negative line of the (main) output.
Option ârcoâ (reducing current limiting at over temperature) A circuit reduces the
current limiting level at higher temperature (to be specified).
Option âdâ (DC-ok, one output): A logic signal is given if the output voltage (main
output in multi-output systems) is below the specified limit.
Option âmâ (DC-ok, all outputs): In multi-output systems a logic signal is provided
if the voltage of any output is below the specified limit.
Option âacâ (AC ok) A logic signal connected to relay contacts is given if the
output voltage of an inverter is below the specified limit.
Option âyâ (sys-reset): This logic signal is a combination of power fail and DC-ok
as specified for VME systems.
Option ârâ (relay): A relay instead of a logic signal is provided for failure
indication.`
PROGRAMMING & MONITORING
PROGRAMMING SERIES 200-5800, 6600
By external signal, 0-10Vdc
eu1
Of output voltage
By external signal, 4-20mA
eu2
from 0 to 100%
By 270° potentiometer
eu3
By 10 turn potentiometer
eu4
By external signal, 0-10Vdc
ei1
Of output current
By external signal, 4-20mA
ei2
from 0 to 100%
By 270° potentiometer
ei3
By 10 turn potentiometer
ei4
Isolating amplifier for programming
iso
Programming via interface RS232 or IEEE488
MONITORING SERIES 200-5800, 6600
Of output voltage
By external signal, 0-10Vdc
mu1
from 0 to 100%
By external signal, 4-20mA
mu2
Of output current
By external signal, 0-10Vdc
mi1
from 0 to 100%
By external signal, 4-20mA
mi2
Isolating amplifier for programming
iso
Programming via interface RS232 or IEEE488
CHARGER PROGRAMMING (ALL SERIES)
Temperature compensated charging voltage(sensor not included) tc
Temperature sensor
Not interchangeable due to fixed
resistor values
ts1
Interchangeable, IC controlled
ts2
Automatic selection of charging characteristic (float / equalize
charge) with timer
ch1
Additionally: Manual selection of charging characteristic
ch2
Additionally: Boost charge operation (manually activated with
time delayed return to normal operation)
ch3
Doc. No. PBC9 Rev.C 28-4-11
Powering Progress â www.powerbox.com.au
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