2. SOLCON
Soft Starting
Limiting the Starting Current :
Long supply cables
Loaded transformers
Diesel generator supply
Limiting the Starting Torque :
Preventing Water Hammer
High inertia loads
Complicated mechanical systems
Reducing maintenance
4. SOLCON
Soft Starter Advantages
Electronic soft starters provide:
Solid state, no moving parts, reduced maintenance
Reduction of starting current
Reduction of starting torque & mechanical shock
Smooth acceleration & deceleration
Closed current loop starting
Easy adjustments for all applications
Comprehensive motor protection package
Special features: “Pump Control”, Soft Stop, Dual Adjustments.
Communication for full setting, control and supervision
5. SOLCON
HRVS-DN Advantages
Complete line 60-1800A, 1500-15000V
Third generation, Microprocessor design
Superior Starting & Stopping Characteristics: Torque Control, Current Control
and Pump Control
Advanced Motor Protection package
Easy commissioning and maintenance - field testing with a L.V. motor
Patent pending - Wireless SCR firing control system
Patent pending – Electronic Voltage measurement system
Fiber optic control (also for mains voltage measurement)
Meets “Partial Discharge Test Requirements”
Friendly operation -Multi Languages LCD, English, German, French & Spanish
Communication: MODBUS, PROFIBUS, TCP/IP, DEVICENET and others
Chassis or cabinet type, various options are available
Solcon is offering the most advanced M.V. soft Starter
6. SOLCON
Heavy Duty Design
Starting & Operation conditions
Max. Starting Current 400 % I n
Max. Starting Time 30 sec.
Max. Ambient Temp. 40°C
Max. Number of Starts 4 starts / hour at max.
starting conditions
Special cases: One starter for few motors.
8. SOLCON
Medium Voltage motor starting
Range 50-1000A, 1500-13800V
Standard configuration includes:
- Soft starter
- Line Contactor
- Bypass Contactors
- Cabinet IP30
- L.V. Controls
Options are available
L.V.
Compartmen
t
M.V.
Compartme
nt upper
door
M.V.
Compartment
lower door
Operating
Buttons
M.V.
Compartment
Main (central)
door
Status
indications
Operating
Panel
(behind glass)
Emergency stop
Motor Protection
Relay
(Optional)
Name plate
with soft
starter data
9. SOLCON
Options
In H.V compartment
- Line Switch (On / Off load)
- Main Fuses (opt. Striker pin)
- Incoming Section
- Space Heater, Thermostat, C/B
- Fan at top, air inlet at bottom, C/B
- Special Painting
In L.V compartment
- Motor Protection Relay (MPR 2000)
- Digital Panel Meter (DPM-10)
- Other control components
Line Connection
(in the back)
Ground
Bus
Line
Contactor
Soft Starter
Power
Section
Cabinet
Light
Bypass
Contactor
Electronic
Transformer
(Transmitter)
Motor
Connection
Door
Switch
Space
Heater
Customer Control Terminals
10. SOLCON
PERDIDAS ELECTRICAS
P = 3 x Vscrs x I
EXAMPLE
4.16KV, 200 A, 1200 KW, 1600 HP
P = 3 x (2x3) x 4IFLA
P = 14.4 KW
2starts x 20 seconds in one hour
Pav = 14400 x 40 /3600 = 160 W
12. SOLCON
Patent Pending SCR Firing
Fully isolated HV from LV, “wireless” system (patent pending)
Diagnostics with firing and fault indication LED’s
13. SOLCON
EPT (Electronic Potential Transformer)
EPT
Transmitter
&
Receiver
The EPT (Patent Pending)
* Measures 3 phase current
and turns it to a PWM
sign.
Transmits it to the receiver
which turns the PWM sign
to a sine wave.
* The connection between
the transmitter and the
receiver is by fiber optic
wires for maximum safety
and reliability.
15. SOLCON
SCR’s Firing System
The left SCR conducts during
the positive period of the sine wave,
when Vc is On and can be turned
Off when the current is at zero
crossing.
Vc
16. SOLCON
SCR’s Firing System
The other SCR is coupled in an
anti-parallel method and conducts
in the negative half cycle.
Vc
17. SOLCON
SCR’s Firing System
SCR firing controls the soft starter output voltage
U start
Zero Crossing
t soft start
Phase Control
18. SOLCON
Calculating Motor’s Torque
Motor torque with soft starter
M soft = ( U soft / U n) 2
* M start
Assuming M start = 1.8 * M n
Assuming U start =0.5 Un M=(0.50)2
M soft = (0.25) * 1.8 = 0.45 M start
Torque is reduced by the square of the voltage reduction
22. SOLCON
The Control Module
* Analogue board
Analogue output
related to motor’s
current
Insulation board
Communication
Board, RS 485
Power
Supply
Board
EEPROM Dip Switch
µP
Fiber optic
board Optional cards:
3 Auxiliary Relays
23. SOLCON
Dip Switch
1 Display Minimum Maximum
2 Tacho feedback Disabled Enabled
3 Mains / Generator Mains Generator
4 Always Off
5+6 Language selector English, French, German, Spanish
7 Extended range settings Disabled Enabled
8 Software lock Unlocked Locked
No. Function Off On
1 2 3 4 5 6 7 8 Off
(factory default)
24. SOLCON
Line, Bypass & Capacitor Contactors
Power factor correction
Capacitors - when used, must
be at Line side, on top of
starter.
L1 L2 L3
∼3
Bypass Contactor
(must be used)
Line Contactor
(must be used)
25. SOLCON
Control Wiring
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
Stop
SoftStop
Start
Input#3(Ext.Fault-1)
Input#4(Ext.Fault-2)
Common-B
Aux.Contact
“Immediate”
L1
N
FaultContact
(Fault/FailSafe)
Aux.Contact
EndOfAccel.”
Input#1-Test/Reset
Common-A
Control CommandsControl
Supply
Input#2-D.Adjust/Reset
Ext. Faults
Note: Terminals 2, 19-20-21 differ from same in low voltage starter RVSDN
FiringTransformerControl
27. SOLCON
Control Supply Voltage
L N Same voltage for Control Supply (1-3) and Control Commands (4-9)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
Common
SoftStop
Test/Reset
D.Adjust/Reset
Start
Stop
Electronics
28. SOLCON
Control Supply Voltage
Different voltages for Control Commands (4-9)
can be AC or DC (must be specified)
NL Control Commands
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
Common
SoftStop
Test/Reset
D.Adjust/Reset
Start
Stop
Electronics
29. SOLCON
Soft Start & Immediate Stop
Motor will soft start when C closes and
stop immediately when C opensL N
1 2 3 4 5 6 7 8 9
Common
SoftStop
Stop
Reset
D.Adjust/Reset
Start
C
30. SOLCON
Soft Start & Soft Stop
Motor will soft start when C closes
and soft stop when C opensL N
1 2 3 4 5 6 7 8 9
Common
SoftStop
Stop
Reset
D.Adjust/Reset
Start
C
31. SOLCON
Soft Start, Immediate & Soft Stop
L N
1 2 3 4 5 6 7 8 9
Common
SoftStop
Stop
Reset
D.Adjust/Reset
Start
C2
With Start, Stop push buttons
C1 - Start and Soft Stop
C 2 - Emergency Stop
C1
32. SOLCON
Start - Stop With Push Buttons
L N
1 2 3 4 5 6 7 8 9
Common
SoftStop
Stop
Reset
D.Adjust/Reset
Start
C1
C – Start button
C2 – Soft Stop button
C1 – Emergency Stop Button
CC2
35. SOLCON
“Immediate Relay”
L
1 2 3 4 5 6 7 8 9 10 11 12
Immediate / Shear pin
Relay
Programmable (I/O Parameters) as:
* Immediate - with On and Off delays
* Shear pin - Functions only upon Jam, with On delay
36. SOLCON
On / Off Time Delays
Off Delay
after soft
stop
On delay
after start
When start / soft Stop
are used
Off delay
after stop
When start / stop
are used
On delay
after start
(Returns upon Stop, Trip, voltage outage)
37. SOLCON
Example for “Immediate” Operation
Creating special Starting
Curves:
1. Designate “Imm. Relay” as
Immediate, set On Delay time
2. Designate Terminal 8 as “Dual
Adjust”, setting parameter.
3. Connect the N.O contact to the
Dual Adj. Terminal
4. New Current & Torque - are
being developed now
1 2 3 4 5 6 7 8 9 10 11 12
D.Adjust
Immediate
Relay
On delay
Voltage
Ramp-up
38. SOLCON
Fault Relay
Programmable (I/O Parameters) as:
* Fault - changes position upon fault, returns upon fault reset
* Fault Fail Safe - changes position upon Control Supply (1-3)
connection, returns upon fault.
1 2 3 4…12 13 14 15 16 17 18 19 20 21
Fault Relay
39. SOLCON
End of Acceleration Relay
L
4…...
End of
Acceleration
Applications
* Operating a valve
* Operating By-Pass contactor
On delay
after End of
Acceleration
13 14 15 16 17 18
(Returns upon Stop, Soft stop, Trip, voltage outage)
40. SOLCON
External Faults
External Fault inputs - connected between terminals 19 or 20 and 21,
(no need to use short wires as in low voltage starter)
1 2 3 4...9 13 14 15 16 17 18 19 20 21
Input#4
Input#3
Common
N
41. SOLCON
Parameter Setting
6 keys, Menu driven software, Default parameters
Medium Voltage Digital Reduced Voltage Starter HRVS-DN
Mode
StoreReset
Select
On
Start
Run
S.Stop
Stop
Test
D.Adjust
Fault
CURRENT LIMIT
400%
8 LEDs for
quick status
display
Two lines - 16 characters each, Back light
Selectable languages - English, German, French and Spanish
Communication Setting (software program)
42. SOLCON
PAGE 0 PAGE 1 PAGE 2 PAGE 3 PAGE 9
?
Mode
Store
Select
I1 I2 I3
A
MAIN & PROTECT.
PARAMETERS
STARTER FLC
150 AMP.
MOTOR FLA
150 AMP.
START PARAMETERS
SOFT START CURVE
0 (STANDARD)
START TACHO GAIN
0 (MIN. GAIN)
PULSE TIME
0 SEC.
INITIAL VOLTAGE
30 %
CURRENT LIMIT
400 % OF FLA
ACC. TIME
10 SEC.
MAX. START TIME
30 SEC.
NUMBER OF STARTS
1
STARTS PERIOD
20 MIN.
START INHIBIT
15 MIN.
RUN CONTACT DEL.
5 SEC.
STORE ENABLE
START PARAMETERS
STOP PARAMETERS
SOFT STOP CURVE
0 (STANDARD)
STOP TACHO GAIN
0 (MIN. GAIN)
DEC. TIME
10 SEC.
FINAL TORQUE
0 (MIN.)
STORE ENABLE
STOP PARAMETERS
UNDERCURR.DELAY
10 SEC.
O/C - SHEAR PIN
850 % OF FLA
UNDERCURR. TRIP
0 % OF FLA
STATISTICAL DATA
LAST STRT PERIOD
NO DATA
LAST START MAX. I
NO DATA
TOTAL RUN TIME
0 HOURS
TOTAL # OF START
0
LAST TRIP
NO DATA
TRIP CURRENT
0 % OF FLA
TOTAL # OF TRIPS
0
Minimized Mode
O/C - DELAY
0.5 SEC
OVERLOAD DELAY
4 SEC - AT 5 FLA
1 2 3 4 5 6 7 8
SOFT START CURVE *
4 (TORQUE)
SOFT STOP CURVE *
4 (TORQUE)
* Window appears* Window appears
when previous windowwhen previous window
exceeded its maximumexceeded its maximum
range.range.
INITIAL CURRENT *
100-400 %
OPTION CARD
NOT INSTALLED
STORE ENABLE
MAIN PARAMETERS
UNBALANCE TRIP
20 % OF FLA
GND FAULT TRIP
20% OF FLA
UNDERVOLT. TRIP
75% Un
UNDERVOLT. DELAY
5 SEC.
OVERVOLT. TRIP
120% Un
OVERVOLT. DELAY
2 SEC.
OVERLOAD TRIP
115 % OF FLA
OVERLOAD DELAY
4 SEC - AT 5 FLA
UNBALANCE DELAY
5 SEC.
GND FAULT DELAY
5 SEC.
43. SOLCON
COMM. PARAMETERS
STORE ENABLE
COMM. PARAMETERS
Maximized Mode
PAGE 4 PAGE 5 PAGE 6 PAGE 7 PAGE 9
FUTURE
FUTURE
FUTURE
STORE ENABLE
DRIVE NUMBER
0
BAUD RATE
9600
PARITY CHECK
EVEN
SERIAL LINK NO
248 (OFF)
?
Mode
Store
Select
DUAL ADJUSTMENT
PARAMETERS
DA: INIT. VOLT.
30%
DA: CUR. LIMIT
400 % OF FLA
DA: ACC. TIME
10 SEC.
DA: DEC. TIME
10 SEC.
DA: MOTOR FLA
105 AMP.
D. ADJ: GENERATOR
PARAMETERS
FAULT PARAMETERS
TRIP AFTER BYPAS
ENABLE
UNDER CUR. RESET
OFF
I/O PROGRAMMING
PARAMETERS
PROG. INPUT #1
TEST
PROG. INPUT #2
DUAL ADJUSTMENT
FAULT RELAY TYPE
FAULT
ANALOG OUTPUT
NORMAL
STORE ENABLE
I/O PROG.PARAM.
IMM / S.PIN RELAY
IMMEDIATE
RELAY ON DELAY
0 SEC.
RELAY OFF DEL.
0 SEC.
STORE ENABLE
D.ADJ. PARAMETERS
UV & PL AUTO RST
NO
1 2 3 4 5 6 7 8
BY-PASS AUTO RST
NO
STORE ENABLE
FAULT PARAMETERS
BYPASS OPEN TRIP
ENABLE
44. SOLCON
Start & Stop Parameters
Fully Voltage Ramp, Current Ramp , Torque Ramp
Initial Voltage OR Initial Current
Acceleration Time (Ramp-up Time)
Current Limit
Deceleration Time (Ramp-down Time) - Soft Stop
Pump Control
Dual Adjustments
Diesel Generator Starting
Tacho. feedback
45. SOLCON
Initial Voltage
Initial Voltage - determines the Initial Voltage and Torque (the Torque
is reduced in the square proportion of the voltage reduction).
Adjustable : 10-50% (5% - 80%) Un, should be set for the motor to
start turning immediately after Start signal is initiated.
Initial Current : above maximum value of initial voltage, setting
change to Initial Current of 100%, for Current Ramp.
10%
Initial
Voltage
50%
Un
46. SOLCON
Acceleration Time
Acceleration Time - Determines the Voltage Ramp-up Time, from
Initial to Full Voltage.
Adjustable :1-30 (90) sec. Set to the shortest acceptable time.
Time
Voltage Ramp-up Time
Un
U start
30 sec2
47. SOLCON
Current Limit
Current Limit - Determines the maximum current during acceleration
process and the acceleration time to full speed.
Adjustable :100-400% (500%) I FLA, Set to the highest acceptable current.
Current
Limit
U start
t soft start
U C. L
U1
Un
I start
RPM
400%
100%
48. SOLCON
Current Limit / Start Time Ratio
Lower Current Limit => longer Start Time
Time
4 x In
5 10 15 20 25 30
In
3 x In
49. SOLCON
Deceleration Time “Soft Stop”
Deceleration Time - Determines the Voltage Ramp-down Time,
from Un to zero.
Adjustable: 1-30 (90) sec. Set to the shortest acceptable time.
Un
Speed
Deceleration Time
2 30 / 90 sec
50. SOLCON
High Acceleration Torque causes rapid increase in pump speed, fast
change in flow & consequently high Pressure in the pipe sys
This high pressure may result in damage to pipes, fittings, joints, etc.
Pump Starting - D.O.L
TimeTime
Torque
M start
Accel.
Torque
Motor
DOL
Voltage
Speed
Load
Speed
51. SOLCON
Pump Starting - Soft Starter (standard)
Standard soft starters drastically reduce the Starting Torque, however
Peak Torque still remains high, causing high Acceleration Torque and
rapid acceleration towards end of starting process.
Peak Torque & Acceleration Torque must be reduced to extend
Acceleration time
Time
Torque
M start
Accel.
Torque
Motor
DOL
With soft
starter
Voltage
Slow
Accel.
Speed
Load
Speed
Motor
soft starter
Time
52. SOLCON
Pump Control – Start Curves
Pump Control “Start Curves” - Three special voltage ramp-up curves
to reduce peak torque & extend Acceleration time.
Adjustable: 0-4 Curves, set as required, 5=Torque Curve
(6 = Virtual Current Curve is achieved when increasing Initial Voltage
above full range and adjusting Initial current to the required setting)
Time
Voltage
Area of
Pump Control
Start Curves
With soft starter
Speed
Time
2 3 4
DOL
0 5,6
Torque
3
Speed
D.O.L
2
1
0
4
5
1
53. SOLCON
Pump Stopping – D.O.L
When motor starter (DOL) is
opened, abruptly stopping the
pump, speed and flow are
quickly reduced. This may
cause a Water Hammer
(mechanical shock and audible
noise with severe damage to
pipes, joints, fittings, valves,
etc. )DOL opens
Un
Speed
54. SOLCON
Pump Stopping - Soft Starter (standard)
When using a standard soft
starter, while pumping to a
higher elevation, motor
torque may quickly fall
below load torque (as torque
decreases at the square route
of voltage reduction). This
may cause abrupt stalling
instead of smoothly
decreasing speed to zero,
creating the Water Hammer
phenomenon.
Stalling point
Un
Speed“Soft stop”
55. SOLCON
Pump Control – Stop Curves
Pump Control “Stop Curves” - enables selection between 3 special
voltage ramp-down curves preventing stall condition and eliminating
Water Hammer.
Adjustable:0-4 Curve, Set as required (4 = Torque controlled curve)
Time
Voltage
Area of
Pump Control
Stop Curves
Time
With soft starter
Speed 2 3 4
DOL
0 51
Torque
3
Speed
D.O.L
2
1
0
4
5
56. SOLCON
Pump Control - Final Torque
Before reaching end of deceleration, motor torque reaches a level
where the load torque is higher than motor's torque and motor stalls
while current continues flowing through the motor heating the
windings.
Final Torque feature enables setting a point where current stops when
the motor stops rotating.
Time
Check Valve
closes and
motor stops
Voltage
Speed
Area of
Pump Control
Final Torque
Time
DOL
57. SOLCON
Starting from a Diesel-Generator
When starting from older D.G. sets (especially those equipped with low
cost Voltage Regulators) both voltage and frequency are unstable, causing
irregular thyristor firing. The HRVS-DN is equipped with a special
program overcoming the voltage and frequency instability.
Two options to operate Generator Mode:
Use Basic Curve.
set Dip Switch 3 to On and energize the Dual Adjustment Terminal.
When testing in Generator mode at low voltage, motor must be loaded.
When motor can operate from Mains and D.G (stand-by D.G) set
Dip Switch # 3 to On. However, Dual Adjustment Terminal should be
energized only when D.G. is running.
1 2 3 4 5 6 7 8
58. SOLCON
Dual Adjustment Parameters
Generator Mode: Special starting mode (D.G. supply)
Initial Voltage: 10 - 50% Un
Current Limit: 100 - 400% Motor FLA setting
Acceleration Time: 1 - 30 sec.
Deceleration Time: 1 - 30 sec.
Motor FLA: 50 - 100% Starter FLC setting
Note - Set Dip Switch # 3
to On for Generator Mode
and connect control voltage
to terminal 8.
Dual Adjust
Characteristic
Voltage
Time
Standard
Characteristic
59. SOLCON
Motor & Starter Protection - 1
Too Many Start (No. of starts, Start period & Start Inhibit Time)
Long Start Time (Stall)
Over Current Shear pin (Jam)
Electronic Overload with selectable curves
Under Current
Under / No voltage
Over Voltage
Phase Loss
Phase Sequence
Wrong Connections / Shorted SCR
Continues on next page
60. SOLCON
Motor & Starter Protection - 2
Heatsink Over-temp.
External Fault 1 & 2
Unbalance Current
Ground Fault Current
Power On & no Start
Bypass Open - It is possible to disable.
It is possible to disable most of the protections after by-pass is
closed.
61. SOLCON
Upon Fault
The starter locks in a Fault Mode
The starter records the Fault Data and updated Faults record.
Fault LED lights
LCD describes fault cause
Fault Relay changes position
Data is transferred through the communication
62. SOLCON
Resetting After Fault
Resetting after fault has been removed, provided Start signal does not exist.
Local resetting – front panel key
Remote resetting – hard wire (terminals 7 & 8)
Remote resetting – through communication
Auto resetting – for Under Voltage & Phase Loss
Auto resetting – for Under Current
Auto resetting – for Faults occur after by-pass is closed
63. SOLCON
Motor & Starter Protection
Start Run Soft Stop Stop
Too Many Starts + - - -
Long Start Time (Stall) + - - -
O/C Shear pin + + + +
Overload - + - -
Under Current - + - -
Under / No Voltage + + + -
Over Voltage + + + -
Phase Loss + + + -
Phase Sequence + + + -
Wrong Con/ Shorted SCR + - + -
Continues on next page
64. SOLCON
Motor & Starter Protection
Start Run Soft Stop Stop
Heatsink Over temp. + - + -
External Fault 1 & 2 + + + +
Unbalance Current + + + -
Ground Fault Current. + + + -
Power On & no Start - - - +
By-pass Open - + - -
65. SOLCON
Max. C/L Adjustment, diff. Between LV & MV
In low voltage Max Current Limit is 500% (Extended Setting)
In Medium Voltage Max Current Limit setting is 400 * FLC / FLA
400* (FLC)
FLA
66. SOLCON
Too Many Starts
Note: 3 sec. Time delay after stop, before
restarting
Max. Number of Starts - preventing excessive starts during a short
period of time.
Adjustments:
Permitted Number of Starts: Off, 1- 10
Start period: 1- 60 min.
Start Inhibit Time (after Too Many Starts): 1- 60 min.
67. SOLCON
Stalled Motor
Max. start time - Preventing Stall condition, trips the starter if current is
not reduced below Motor FLA within the adjusted time.
Adjustments: 1-30 (240) sec.
Max. Starting Time
Starting
current
2010 30
68. SOLCON
Jam Protection
Jam Protection - Trips the starter in less than 1 cycle when current
exceeds 850% IFLA.
Trip
850% IFLA
Applications
* Conveyors
* Agitators
* Complex Machinery
69. SOLCON
Shear-pin (“Immediate Relay” set to “Shear-pin”) - Stops (no trip) the
motor when current exceeds the set level, with an adjustable time delay.
Adjustments:
Trip Current 200 - 850% Motor FLA (during starting 850%)
Shear-pin Delay 0.5 - 5 sec (no delay at 850%)
Trip
850% IFLA
Electronic Shear-pin
Applications
* Shredders
* Complicated drive
systems
70. SOLCON
Overload
Overload - Trips the starter when current increases above the O/L Trip level after
the inverse time curve delay.
Remember - Overload protection is functional only during RUN condition,
after Max Start Time. During Start time motor is protected by
Max Start Time.
Adjustments:
Trip Current: 75-150% I FLA
Trip Delay at 500% I FLA : 1-10 sec.
150%
10 sec
t
75% 500%
1 sec
I
115%
trip time at
500% FLA
O/L setting
71. SOLCON
Under Current
Under current - Trips the starter when current decreases below the U/C
Trip level after the selectable time delay. Under current auto reset
allows for restarting after a predefined period of time, to re-check the
under current status.
Adjustments:
Trip Current: Off, 20-90% I FLA
Trip Delay 1-40 sec.
Start
I FLA
20%
40 sec.
80%
20
90%
2
Applications
* Dry running pumps
* Broken belt / gear
* Closed air inlet (fan)
72. SOLCON
Under / No Voltage
Under Voltage - Trips the starter when voltage drops
below the U/V Trip level after the selectable time delay.
With programmable auto-reset.
Adjustments:
Trip level 50-90% of Un (Line - Line)
Trip Delay 1-10 sec.
The starter will trip immediately, overriding the the time delay, in
case voltage drops to zero
73. SOLCON
Over Voltage
Over Voltage - Trips the starter when voltage increases above the O/V Trip
level after the selectable time delay.
Adjustments:
Trip level 110-125% of Un (Line - Line)
Trip Delay 1-10 sec.
74. SOLCON
Phase Loss & Phase Sequence
Phase Loss - Trips the starter when one or two phases are missing for
over 1 sec. With programmable auto-reset.
Phase Sequence - Trips the starter immediately when phase sequence
is wrong
Note - There is no setting to allow working with wrong phase sequence
75. SOLCON
S.SCR / Wrong Motor Connection
Trips the starter if motor is not properly connected
to starters’ Load terminals, 1,2 or 3 wires.
Trips if current waveforms are wrong
Disabled when in curve 0.
Disabled for Generator starting.
C
R
4160V
76. SOLCON
Heatsink Over-temp.
Heatsink Over Temperature
- Trips the starter if thermal sensors mounted on starter’s heatsink sense
temperatures above 85 Deg. C.
- Sensors are of the N/O type
- Sensors are located on the top Heatsinks.
- Sensors are not isolated from Medium Voltage Heatsinks.
- “Sensor hot “ information is transferred to control module via fiber
optic
77. SOLCON
External Fault
External Fault – Inputs from two N.O. contacts. The starter trips
2 sec. after the any of the contact closes.
RVS-DN
Applications
* Water level for pumps
* Oil level for compressors
78. SOLCON
Current Imbalance
Current Imbalance - Trips the motor when the unbalanced current
increases above the preset current, and for time period above the
preset delay.
Adjustments:
Trip level 10-100% of I FLA
Trip Delay 1-60 sec.
79. SOLCON
Ground Fault Current
Ground Fault - Trips the motor when Ground Current increases above
the preset current, and for more then time period delay.
Adjustments:
Trip level 10-100% of I FLA
Trip Delay 1-60 sec.
Protection can be disabled with dip switch
80. SOLCON
Power on & No start
Power On and No Start -
This protection becomes operational upon mains voltage connection.
It trips the motor when mains is connected to the HRVS-DN for more
then 30 seconds without a Start signal.
Designed to prevent overheating of the voltage dividing resistors in
the power section.
81. SOLCON
By - Pass Open
By - Pass Open - Becomes operational when the by-pass contactor did
not close after EOA contact command the pilot ( interposing) relay to
close.
82. SOLCON
Main Parameters & Protection
Starter FLC 20 - 800A
Motor FLA 50 - 100% of starter FLC setting
Under Current Trip Off, 20 - 90% of motor FLA setting
Under Current Delay 1 - 40 sec.
O/C Shear pin 200 - 850% of motor FLA setting
O/C Shear pin Delay 0.5 - 5 sec.
Overload Trip 75 - 150% of motor FLA setting
Overload Delay 1 - 10 sec. (at 500% motor FLA)
Unbalance Trip 10-100% of motor FLA
Unbalance Delay 1-60sec.
Ground Fault Trip 10-100% of motor FLA
Ground Fault Delay 1-60sec.
Continues on next slide
83. SOLCON
Main Parameters - cont.
Under-voltage Trip 50 - 90% of Un
Under-voltage Delay 1 - 10 sec.
Over-voltage Trip 110 - 125%of Un
Over-voltage Delay 1 - 10 sec.
84. SOLCON
Start Parameters
Soft start curve 11 selectable curves, including:
Start Tacho Gain 5 levels of Tacho Gain
Torque Control
Pulse Time 0 - 2 sec.
Initial Voltage/Current 10 - 50% (5-80%) Un, 100-400% In
Current Limit 100 - 400% (600) Motor FLA setting
Acceleration Time 1 - 30 (90) sec.
Max Start Time 1 - 30 (250)sec.
Number of Starts 1 - 10, Off
Starts Period 1 - 60 min.
Start Inhibit Period 1 - 60 min.
Run Contact Delay 0 - 120 sec.
3 sec. time delay before immediate restart
Current limit 410..600%, only for RVS_FLC > Motor_FLA
85. SOLCON
Stop Parameters
Soft stop curve 11 selectable curves, including:
Stop Tacho Gain 5 levels of Tacho Gain
Torque Control
Deceleration Time 1 - 30 (90) sec.
Final Torque 0 - 10
86. SOLCON
Dual Adjustment Parameters
Generator Mode Special starting mode (D.G. supply)
Initial Voltage 10 - 50% Un
Current Limit 100 - 400% (600) Motor FLA setting
Acceleration Time 1 - 30 sec.
Deceleration Time 1 - 30 sec.
Motor FLA 50 - 100% Starter FLC setting
Note - Set Dip Switch # 3
to On for Generator Mode
and connect control voltage
to terminal 8.
Dual Adjust
Characteristic
Voltage
Time
Standard
Characteristic
87. SOLCON
Fault Parameters
U/V & Phase Loss Auto Reset Yes / No
Under Current Auto Reset Yes / No
By-Pass Open Trip Enable/Disable
Trip After By-Pass Enable/Disable
By-Pass Auto Reset Yes/No
Disable By-Pass Open Trip - When by-pass is external to
Starter’s cabinet and CTs do not “see” current when by-pass is
closed.
88. SOLCON
I / O Programming
Terminal 7 (Input # 1) Test (future), Reset
Terminal 8 (Input # 2) Dual Adjustment, Reset
Fault Relay Fault, Fault - fail safe
Immediate Relay function Immediate / Shear pin
Immediate Relay On-delay Imm. 0 - 60 sec. / Shear pin 0 - 5
sec.
Immediate Relay Off-delay Imm. 0 - 5 sec. / Shear pin 0 - 5 sec.
Analogue Output Normal, Inverted
89. SOLCON
Communication Parameters
MODBUS RTU (Optional)
Drive number 0 - 999
Baud rate 1200 - 9600
Parity check Even / Odd
Serial link No. 1 - 247 & 248 =Off
RS 485 with MODBUS RTU protocol
can control and supervise up to 32
starters through a twisted pair.
Other Optional protocols available
(Profibus, Modbus TCP/IP...)
90. SOLCON
Statistical Data
Last start Period
Last start max. current
Total run time
Total number of starts
last trip
Trip current
Total number of trips
Previous Trips (1-9)
91. SOLCON
Multi-Start Application
1100 mm
1100 mm
2500 mm
LC0
LC1
MOTOR
1
MOTOR
2
LC2
MOTOR
3
LC3
BP2 BP3BP1
Prot Prot Prot
MPS 3000 MPS 3000 MPS 3000
Prot
1100 mm 1100 mm 1100 mm
MOTOR
4
Prot
MPs 3000
1100 mm
BP4
LC4
INCOMING
MPS 3000
92. SOLCON
About Solcon
Established in 1977
Privately owned (approved investor)
60 employees
Export oriented (approx. 80% export)
ISO 9002
Other approvals CE, UL, cUL, Lloyd’s
Main office - in Herzlia (near Tel-Aviv)
Manufacturing - 3000 sq.m plant in Yokneam (near Haifa)
93. SOLCON
Soft Starter History
1978 – Start manufacturing of L.V. soft starters, type RVS
1981 – Introduction of digital soft starters, type RVS-D
1985 – Developed the HRVS-D with digital control for PCC
Patriot (a Magnetek company).
1999 – PCC / Motortronics Agreement
2000 – Introduction of the “Third Generation” soft starter, with
two patents (pending) for:
Wireless SCR Control
Electronic Potential Transformer
Offering today the most comprehensive line of soft starter
94. SOLCON
Contact Persons
Ami Shahaf – Managing Director
Dr. Yoram Waltuch – Engineering Director
Jacob Gabai – Production Director
Hanan Schwartz – Controller
Eli Wildawski – Marketing Manager
Ofir Goren – Sales Manager
Izzi Eicher – Area Manager
97. SOLCON
Marketing M.V. Soft Starters
Agreements with major international companies
Sales through Solcon Distributors
Unique activities in Mexico
Special activities in the marine market in Korea
98. SOLCON
Notes
When Ordering:
Specify low voltage level for testing.
Specify Motor FLA
Consult factory for multi - motor starting.
Consult factory for long starts.
Consult factory for long conveyer starting.
106. SOLCON
Power Section Connections
Power Section Harness
EPT Rx
Two F/O and
Three wires
Plug at the back of
Control Module
F/O Plugs at the Top
of Control Module
111. SOLCON
Fiber Optic Board
L3
Ground Fault 1&2
0 - Normal
1 - Cancel G/F Protection
Current Gain
L1
1- off – x 5 Gain
On - Normal
2- off - x 13.4 Gain
On - Normal
L2