SVTA4650 - Celduc Relais

S/GRA/SVTA4650/B/10/07/2002
Page 1/6 GB
DIGITAL THREE PHASE ANGLE
CONTROLLER
SVTA4650
 Allows to set the voltage applied to different sort of loads with 3 wires, 4 wires or inside the
delta wiring:
 Resistive (Bulbs, UV and IR lamps, ovens, …),
 Inductive (inductors, transformers, …),
 Motor (motorfan speed control (60 to 100% from the nominal speed),
 Rectified (power supplies, …).
 Small housing, easy and ready to use.
 Large mains frequency and voltage range.
 Fully optoisolated full cycle three phase phase angle controller (balanced currents, less
harmonics, …)
 Dynamic control voltage range according to the power factor of the load.
 Softstart and softstop functions (increase lifetime expectancy of the load).
 Adjustable filter regarding fast input voltage changes (ramps).
 Motor softstarting functions to control its speed within the stable area.
 Input-output transfert characteristic linearization function (resistive load).
 Diagnostic features : Status given on LED and AC/DC switches.
Mains
Voltage
Mains
Frequency
200 to
480VAC
40 to 65Hz
Max AC-51
Current
Max AC-53a
Current
50A
12A
(with heatsink)
(with heatsink)
Proportionnal analog voltage control
input
0-10V
200->480VAC
50A AC-51
Control Input
Status
Ouputs
In / Out
Insulation
Wire Size
Dimensions
(WxHxD)
0-10VDC
0 to 24VDC
1A AC/DC
4kV
In=2.5mm²
Out=10mm²
100x78x56,5
(mm)
Fig. 1
TYPICAL APPLICATIONS
Fig. 2
WIRING DIAGRAM
Fig. 3
PHASE ANGLE CONTROL DESCRIPTION
Fig. 4
INTERNAL DIAGRAM
Proud to serve you
Data given at Tambient=40°C and subject to modification without previous notice
Weight
500g
®
celduc
r
e
l
a
i
s
celduc®
r
e
l
a
i
S/GRA/SVTA4650/B/10/07/2002
s
Page 2/6 GB
SETTINGS
“Ramp
Time (s)”
“Initial
Value”
Ramp up time
(Softstart and
smooth
transients)
Initial load
voltage
(footstep)
Label
“Soft
Stop”
“Comp”
“Load”
“Ntrl”
“Curve”
Ramp down
time
Allows to adapt
the control
signal range
whatever the
power factor of
the load
Ask the unit to
make a
softstart up to
the max. before
analog control.
Tells the unit
the load star
point is
connected to the
mains neutral
On (Up)
On (Up)
On (Up)
Tells the unit
what kind of inout response to
use (angle or
RMS voltage
linearity)
0.5 x ts =
Inductive
load
Motor
Star wiring
with neutral
(4 wires)
RMS voltage
control
ts =
Off (Down)
Off (Down)
Off (Down)
Off (Down)
2 x ts =
Resistive load
Other loads
than motors
Delta or star
without
neutral
Phase angle
control
SETTINGS AND OPTIONS
Description
Function
Setting
possibilities
White squares =
buttons
Example :
0 x ts =
Ts= 0 to 64s
Vi=0 to 100 %
= all switches
down (OFF)
(factory setting)
On (Up)
INPUT CHARACTERISTICS
CHARACTERISTIC
LABEL
Labels
INPUT CIRCUIT
Function
Control type
Terminals
INFO.
“0-10V”
“Urg. Stop”
Analog control input
Stop the thyristor controls
DC control voltage
Opening the connection
between 5 & 6
4&6
5&6
Uc
0-10VDC
-
Release and control threshold
voltage
Ucsmin
0.3VDC
-
Full power threshold control voltage
Ucsmax
9.7VDC
-
Max. input voltage
Ucmax
30VDC
6VDC
Max. reverse voltage
-Ucmax
30VDC
6VDC
Control voltage range
Release voltage
Ut
Input impedance
Re
100k
-
See fig. 5
Current to switch
Ict
-
20mADC
Ict=f(Ut)
“Diag. “
“Pwr“
Labels
Terminals
Function
STATUS OUTPUTS
VALUE
Nominal operating voltage
>1,5V
1&2
2&3
Indicates a problem detected
in the circuit configuration
Indicates the load is
supplied
Usan
24VAC/DC
Operating voltage range
Usa
0->28VAC/DC
Max. peak voltage
Usap
Overvoltage protection
60V
Built-in 25V size7 varistors
Minimum load current
Ipw/Ipb
0A
Maximum load current
Ipw/Ipb
1A AC/DC
See fig. 6
Ipw/Ipb
2.4A AC/DC
@100ms 10%
of the cycle
On and off state switch resistance
Ron / Roff
500m / 100M
See fig. 6
On and off time delay
Ton / Toff
0.5ms / 2ms
Maximum overload current
celduc®
r
e
l
a
i
S/GRA/SVTA4650/B/10/07/2002
s
Page 3/6 GB
OUTPUT CHARACTERISTICS
CHARACTERISTIC
LABEL
VALUE
Mains voltage range
Ue
200 -> 480VAC
Non-repetitive peak voltage
Uep
1200V
Overvoltage protection
VDR
Built-in 510V size 14 varistors
Maximum nominal currents
Maximum line currents in delta
wiring
Max motor power
ILine
Motor
AC53a
Iemax
Motor
Ie AC53a
50A
12A
8.5A
87A
21A
14A
See fig. 7 for
limits
Values with
heatsink
Delta wiring :
See
installation
manual
Pe
5.5kW @400VAC star connection
Non-repetitive peak overload
current (1 cycle of 10ms)
ITSM
550A
See fig. 8
Melting limit for choosing the
protective fuses
I²t
1500A²s
@10ms
Iemin
100mA
Minimum load current
Maximum leakage current
Ielk
7mA
Power factor
Pf
0->1
Mains frequency range
F
40->65Hz
dv/dt
500V/µs
Max. off-state voltage rise
POWER CIRCUIT
Ie
Resistive
AC51
Ithmax
INFO.
Protection against fast voltage
transients
Max. current rise
@400VAC 50Hz
Buit-in RC network
di/dt
50A/µs
On-state voltage drop
Ud
1.4V
@Ith
Resistive part of the voltage drop
rt
12m
@125°C
Potential part of the voltage drop
Vto
0.9V
@125°C
Maximum junction temperature
Tjmax
125°C
Junction/case thermal resistance
per power element
Rthjc
0.45K/W
Case heatsink
thermal resistance
Rthcs
-
Built-in heatsink thermal
resistance vertically mounted
Rthra
4K/W
@Tra=60°C
Heatsink thermal time constant
Tthra
15min
@Tra=60°C
Inputs/power ouputs
insulation voltage
Uimp
4kV
Input/status outputs
insulation voltage
Uied
2.5kV
Inputs/case insulation voltage
Uimp
4kV
Status outputs/case
insulation voltage
Uimp
4kV
Isolation resistance
Rio
1G
Isolation capacitance
Cio
<8pF
Storage ambient temperature
Tstg
-40->+100°C
Tamb
-40->+90°C
Tc
100°C
Operating ambient temperature
Max. heatsink temperature
Total = 3
power
elements
See fig. 7
celduc®
r
e
l
a
i
S/GRA/SVTA4650/B/10/07/2002
s
Page 4/6 GB
INTERNAL
POWER SUPPLY
INTERNAL POWER SUPPLY
CHARACTERISTIC
LABEL
VALUE
Mains voltage range
Ue
200->480VAC
Consumption
Is
1mA typical
F
40-65Hz
tm
100ms
Terminals
Mains frequency range
Turn-on time
INFO.
3L2 & 5L3
GENERAL INFORMATION
CONNECTIONS
Connections
Screwdriver advised
Input terminal block
0.8 x 2mm
Min and max tightening torque
1.8->3N.m
Number and cross section of the
wires
2 x 1.5->6mm2
1 x 2.5mm2
(10mm2 without ferrule)
Screwdriver for settings
0.8 x 2mm
Housing
MISC.
Power
Posidriv 2 or 0.8 x 5.5mm
UL94V0
Mounting
Omega DIN rail (DIN50022) or screwed
Noise level
Low audible vibrations
Weight
500g
STANDARDS
GENERAL
Standards
EN60947-4-2 & EN60947-4-3
Protection level
IP2L0
Accordin to V.D.E. 160 part 100 :
Back hand and finger safety
Protection against direct touch
CE marking
Yes
UL, cULUS and VDE approvals
E.M.C.
EMISSION
E.M.C.
IMMUNITY
TYPE OF TEST
Pending
STANDARD
LEVEL
EFFECT
E.S.D. (Electrostatic discharges)
EN61000-4-2
8kV (air)
4kV (touch)
No effect
Radiated electromagnetic fields
EN61000-4-3
10V/m
No effect
Fast transients bursts
EN61000-4-4
2kV direct coupling on the power side
2kV coupling by clamp on the input side
No effect
Electric chocks
EN61000-4-5
1kV direct coupling differential mode (input and output)
2kV direct coupling common mode (input and output)
No effect
Voltage drop
EN61000-4-11
-
NFEN55011
The conducted or radiated disturbances generated by
solid state relays depend on the wiring and load
configuration.
The test method recommended by the European standards
and concerning electromagnetic compatibility leading to
results far from reality, we decided to advise our customer
in order to adapt their filtering scheme to their application.
Please refer to the SVTA – SWTA installation manual.
Radiated and conducted
disturbances
celduc®
r
e
l
a
i
S/GRA/SVTA4650/B/10/07/2002
s
Page 5/6 GB
CHARACTERISTIC CURVES
Fig. 5
INPUT CHARACTERISTIC
Fig. 7
Fig. 6
CURRENT AND ON RESISTANCE VS TEMPERATURE
POWER DISSIPATED AND LOAD CURRENT LIMIT VS TEMPERATURE
Permanent current
Ie AC51 (ARMS)
4K/W = No Heatsink
1.2K/W = WF121000
0.9K/W = WF115100
0.7K/W = WF070000
0.55K/W = WF050000
0.3K/W = WF031100
0.2K/W = WF020000
0.1K/W = No reference
Power dissipated
(W)
Please refere to the installation notice for
precautions about mounting the device on a heatsink.
60
275
55
243
50
212
45
182
0.55K/W
40
35
0.3K/W
0.2K/W
0.1K/W
155
129
0.7K/W
105
30
0.9K/W
83.3
25
1.2K/W
20
63
44.6
15
28
Max AC53a current 10
4K/W
5
13
0
0
0
10
20
30
40
50
60
70
80
90
100
Ambient temperature (°C)
Fig. 8
CURRENT OVERLOAD CHARACTERISTIC (ITSM PER POWER ELEMENT)
110
celduc®
r
e
l
a
i
S/GRA/SVTA4650/B/10/07/2002
s
Page 6/6 GB
DIMENSIONS AND ACCESSORIES
Fig. 9
DIMENSIONS
celduc®
r
e
l
a
i
www.celduc.com
s
5 Rue Ampère B.P. 30004
42290 SORBIERS - FRANCE
E-Mail : [email protected]
Fax +33 (0) 4 77 53 85 51
Service Commercial France Tél. : +33 (0) 4 77 53 90 20
Sales Dept.For Europe Tel. : +33 (0) 4 77 53 90 21 Sales Dept. Asia : Tél. +33 (0) 4 77 53 90 19
SVTA-SWTA DIAGNOSTIC
NORMAL OPERATION
LED DISPLAY
Supply
Line
Up
Load
Down
OUTPUTS
Pwr
Diag.
LOAD
COMMENTS
ANALOG INPUT VOLTAGE BELOW THE MINIMUM CONTROL VOLTAGE THRESHOLD
OFF
DIAGNOSTIC
Phase presence = OK ; Phase voltage = OK ; Phase frequency = OK
LEDs blinking sequence indicates mains phase rotation is direct
Load connected
Analog input voltage below the minimum control voltage threshold (0.3V (010V) ; 4mA (4-20mA) ; 0.15V (0-5V / potentiometer))
OFF
DIAGNOSTIC
Phase presence = OK ; Phase voltage = OK ; Phase frequency = OK
LEDs blinking sequence indicates mains phase rotation is reverse
Load connected
Analog input voltage below the minimum control voltage threshold (0.3V (010V) ; 4mA (4-20mA) ; 0.15V (0-5V / potentiometer))
ANALOG INPUT VOLTAGE ABOVE THE MINIMUM CONTROL VOLTAGE THRESHOLD
Indicates the voltage at the analog input or the voltage ramp set by the user
(Time ramp (s)) is increasing.
Indicates the voltage at the analog input exceeds the maximum full power
threshold voltage (9.7V (0-10V);19.7mA (4-20mA);4.9V (0-5V / potentiometer))
Indicates the voltage at the analog input or the voltage ramp set by the user
(soft-stop) is decreasing.
Stable analog input voltage or voltage ramps finished (if used)
NOTA : A fast UP/DOWN LEDs blinking can occur
ON
ON
ON
ON
ABNORMAL OPERATION
LED DISPLAY
Supply
Line
Up
Load
Down
OUTPUTS
Pwr
Diag.
LOAD
POSSIBLE CAUSE
SOLUTION
WHATEVER IS THE VOLTAGE VALUE AT THE ANALOG INPUT
OFF
Mains is missing or it is connected on
the motor side (2T1, 4T2, 6T3) of the
device, instead of the mains side (1L1,
3L2, 5L3)
Check the power side wiring
OFF
Mains voltage too low
Check phase to phase voltage between
3L2 and 5L3
OFF
OFF
OFF
OFF
OFF
OFF
1 or 2 phase(s) missing,
Mains frequency out of range,
Too many disturbances
Microcontroller malfunction or too
many problems at the same time
Load connection missing,
Shorted thyristor (s)
A problem on the main occurred (e.g.
phase missing) and now it is OK but
analog input voltage is present
A problem on the load occurred (e.g.
temporary disconnection) and now it
is OK but analog input voltage is
present
Check the phases
Disconnect the device from the mains
for a while and check the wiring
Check load connections and measure
the power element resistance (should
be several 100kOhms)
Remove the analog input voltage for a
while
Remove the analog input voltage for a
while
Factory diagnostic
Consult us
ANALOG INPUT VOLTAGE ABOVE THE MINIMUM CONTROL VOLTAGE THRESHOLD
OFF
Power elements can not turn on
Check connection between 5 and 6 of
the control terminal block. Check the
load current is above the minimum
specified
ON
1 or 2 phase(s) missing,
Mains frequency out of range,
Too many disturbances
Check the phases
LEGENDE
OFF
GREEN
RED
BLINKING
OFF/GREEN
BLINKING
OFF/RED
123-
IMPORTANT INFORMATION CONCERNING THE DIAGNOSTIC
The device makes a complete diagnostic (mains, load and itself) as soon as the mains voltage is sufficient
The device checks only the presence of phases when the analog input voltage is above the minimum control threshold,
during the ramps (softstart and softstop) and when it is full on (the power elements are tested only when analog control
voltage is below the minimum control voltage threshold).
The control overrides the diagnostic.
If a problem occurs during the control period, the device will try to go on driving the load according the analog
input voltage. If the problem goes on, it will be if possible indicated to the user according the diagnostic table.
If a problem occurs during the softstopping period, the device will stop immediately in order to reach the off
state diagnostic period.
PRELIMINARY 22/01/04