A vast majority of Electrical loads in low industrial installations are inductive in nature. Typical examples are Motors, Transformers, Drives, Flourescent lighting. Such loads consume both Active and Reactive Power. The Active Power is used by the load to meet its real output requirements whereas Reactive Power is used by the load to meet its magnetic field requirements. The Reactive Power ( inductive) is always 90 deg. lagging with respect to the Active Power. it is thus a reality that the flow of Active and Reactive Power always takes place in Electrical installations. his means that the supply system has to be capable of supplying both Active & Reactive Power.
The Supply of Reactive Power from the system results in reduced installation efficiency due to Increased current flow for a given load.Higher voltage drop in the system. Increase in losses of Transformers, Switchgears and Cables. Higher KVA demand from the supply system. Levy of penaltie
by the Electrical supply authorities
It is therefore necessary to reduce & manage the flow of Reactive Power to achieve higher efficiency of the Electrical system and reduction in cost of Electricity consumed. The most cost-effective method of reducing and managing Reactive Power is by Power Factor improvement through Power Capacitors.
Due to changing nature of modern electrical installations if has now become necessary to use various types of fixes and variable power capacitors to achieve desired power factor improvement.
The methodology followed to achieve a consistently high power factor under modern application conditions is referred to ac "REACTIVE POWER MANAGEMENT" therefore involves proper selectionand use the following products.
• Power Capacitors
• Automatic Power Factor Correction systems
• Detuned Harmonic Filters
1-100 HP, O. E. M. UNITS, Drive Panel Systems
QUALITY AND RELIABILITY WITH TECHNICAL PERFECTION Single Quadrant Drives :
conventional uni-directional drives, reversible by contactors. typical application include machine tools,
conveyors packaging & printing machines etc.
RATING VOLTAGE :
415 v. AC 3ph input : 400 v. DC armature
415 v. AC 2ph input : 360 v. DC armature
230 v. AC 1ph input : 180 v. DC armature
STANDARD FEATURES • Adjustable soft start. •
Adjustable current limit. •
Fuse protection
•
Stability Potentiometers. •
RC filter for voltage spike protection
•
Adjustable minimum speed settings. •
Meter outputs.
•
Tacho/arm feedback field settable
QUALITY AND RELIABILITY Drives have gained the trust of O. E. M And End user customer due to their quality and
Reliability
to ensure
this only the best components Are used. Assembly
work is carefully
monitored And
every unit/ panel is
100% tested before dispatch.
PANEL FEATURES Meters for armature current, armature
Voltage and / or speed,
Isolation contractors fuses
and
switches Control section isolated from power section,
Programmable logic controllers.
Push
buttons and indicating lamps,
Reversing contractors (optional),
Process instrumentation
etc.
O. E. M SUPPORT Provides full support to O. E. M. Panel and Machine builders to ensure that you get Exactly
what you need. We provide comprehensive application engineering support
To Our O. E. M.
customers
SPECIFICATION & FEATURES : SINGLE QUADRANT DC DRIVES
MODELS
KUK-01
KUK- 02
KUK-03
KUK-05
KUK-07
KUK-10
KUK-24(PWM)
POWER
HP / KW
1 / 0.75
2 / 1.5
3 / 2.2
5 / 3.7
7.5 / 5
10 / 7.5
0.25 / 0.2
WEIGHT
Kg.
0.3
0.5
1
3
7
7
2
SIZE (mm)
HXWXD
220X185x60
220X210X90
220X210X90
210X180X130
310X260X170
310X260X170
145X285X110
INDICATION
Enable
Enable/Phase Fail
Enable
Regulation
Taco Fail/Start
Regulation
Curr. limit
Over Temp
Curr. limit
FUSE
PROTECTION
YES
YES
YES
EXT
EXT
EXT
YES
CURRENT
(MAX)
AMP
5
10
15
25
38
50
6
A.C. POWER SOURCE
230 V, 1 PH
N. A
220 VAC
N. A
415 V, 3 Ph
1 Ph
D.C
ARMATURE
180 V.D.C
N.A
0 - 48 V
OUTPUTS
FIELD
200 VDC / 360 VDC
N.A
SPEED
CONTROL
ARMATURE
20 : 1 (3%)
RANGE &
ACCURANSY
TACHO
50 : 1 (1%)
STANDARD FEATURES
SOFTSTART / FIELD FAILURE PROTECTION / IR COMPENSATION
