SILD865170

celpac®
S/CLP/SILD865170/G/29/06/2006
page 1 /5 GB
AC Semiconductor Contactor
pitch 22,5mm with Diagnostic
compact size and DIN rail mounting.
SILD865170
Output : 150-510VAC 32A(*)
Input : 3,5-32VDC - I<10mA
Diagnostic : 30VDC - 100mA
❏ Ready to use Single-Phase Relay: " Install it & Forget it!"
Zero cross model : 150-510VAC
50A back to back thyristors on output
TMS2 technology - I2t value > 1500A2s
I2t values on request to 5 000A2s.
PATENTED !
❏ Model with diagnostic : status of the SSR and the load .
Normally closed status output .
Without external power supply .
Status visualization by yellow LED (*) .
Status output can be chained.
❏ Very high immunity : Voltage protection on output
and input- 4kV according IEC61000-4-4 & 5
❏ Large control range : 3,5-32VDC with an input
current < 10 mA on all the range.
Green LED visualization on the input.
❏ IP20 housing
❏ Low zero cross voltage ( <15V)
❏ Mounting and dismounting on DIN rail without any
tool or directly mountable on panel.
❏ Designed in conformity with EN60947-4-3
(IEC947-4-3) and EN60950
Dimensions :
28A
-UL-cUL
(*) see conditions (thermal curve page 4)
(*) : was Red on the first pieces.
Proud to serve you
All technical characteristics are subject to change without previous notice.
Caractéristiques sujettes à modifications sans préavis.
celduc
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celpac®
S/CLP/SILD865170/G/29/06/2006
page 2 /5 GB
Control characteristics (at 25°C)
Parameter
Control voltage
Control current (@ Uc )
Release voltage
Input LED
Reverse voltage
Clamping voltage
Input immunity : EN61000-4-4
Input immunity : EN61000-4-5
Symbol
Uc
Ic
Uc off
Urv
Uclamp
Output characteristics (at 25°C)
Parameter
Load voltage
Operating range
Peak voltage
Clamping voltage
Zero cross level
Latching voltage
AC-51 nominal current : permanent
AC-53 nominal current
Non repetitive overload current
On state voltage drop (typical value)
Dynamic resistance (typical value)
Min
3,5
<10
2
DC
Nom
Max
5-12-24 32
<10
<10
green
32
42
2kV
2KV
Input : Ic = f( Uc)
Unit
V
mA
V
V
V
Conditions
Ie nom
( see Fig. 2 page 4 )
tp=10ms (Fig. 3)
@ 25°C
Symbol
Ue
Uemin-max
Up
Uclamp
Usync
Ua
Ie AC-51
Ie AC-53
Itsm
Vt
rt
Typ.
400
150-510
1200
820 (@1mA)
14
14
12
550
0,9
8
Unit
V rms
V rms
V
V
V
V
A rms
A rms
A
V
mΩ
Pd
0,81xIe+0,008xIe2
W
Output Power dissipation (typical value)
Thermal resistance between junction to air
Off state leakage current
Minimum load current
Turn on time
Turn off time
Operating frequency range
Off state dv/dt
Maximum di/dt non repetitive
I2t (<10ms)
Conducted immunity level
Conducted immunity level
Short circuit protection
General characteristics (at 25°C)
Input to output insulation
Output to status insulation
Output to case insulation
Insulation resistance
Rated impulse voltage
Protection level / CEI529
Pollution degree
Vibration resistance 10 -55 Hz according to CEI68 :
Shocks resistance according to CEI68 ( on DIN rail / with screws)
Ambient temperature (with no icing or condensation)
Storage temperature (with no icing or condensation)
Ambient humidity
Weight
Conformity
Conformity
Proud to serve you
All technical characteristics are subject to change without previous notice.
Caractéristiques sujettes à modifications sans préavis.
@Ue, 50Hz
Uc nom DC ,f=50Hz
Uc nom DC ,f=50Hz
Rthj/a
Ilk
Iemin
ton max
toff max
f
dv/dt
di/dt
I2t
3,3 (2,5)
K/W
<5
mA
100
mA
10
ms
10
ms
40-440
Hz
500
V/µs
50
A/µs
1500
A 2s
4kV criterion A
4kV criterion A
gRC 25A/32A/50A/63A 14x51
IEC 1000-4-4 (burst)
IEC 1000-4-5(schocks)
FERRAZ
Ui
Ui
Ui
Ri
Uimp
double amplitude
HR
32
4000
2500
4000
100 (@500VDC)
4000
IP20
2
1,5
30/50
-40 /+80
-40/+100
40 to 85
260
EN60947-4-3 (IEC947-4-3)
UL/cUL pending
VRMS
VRMS
VRMS
MΩ
V
mm
g
°C
°C
%
g
celduc
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celpac®
S/CLP/SILD865170/G/29/06/2006
page 3 /5 GB
Status output answer characteristics (at 25°C)
Parameter
Conditions
Symbol
Voltage range
Us
Output current
Id
On resistance
Rdson
Open delay (faults) - fig. 1
Uenom
to1
Total open delay (faults) - fig. 1
Uenom, Uc=0V
to2
Uenom, Uc=Ucnom
tc1
Closed mains delay
Uenom, Uc=Ucnom
tc2
Closed mains delay
Maximum cable length for open load ( maximum load due to capacitor)
Min
1
0
Nom
12-24
0,1
Max
32
0,1
2
70
120
20
20
40
Unit
V
A
Ω
ms
ms
ms
ms
m
Diagnostic description
Control
Control
LED
Mains
Load
SSR
Status LED
Output status
0
No
x
x
Open
1
No
x
x
Open
0
Yes
OK
OK
closed
1
Yes
OK
OK
closed
0
Yes
Open
OK
Open
0
Yes
OK
short-circuit
1
Yes
Open
OK
Open
p
Open
1
Yes
OK
short-circuit
Open
Notices
• The red LED luminosity depends on :
- Ue voltage.
- Control : ON,OFF
- Load type.
• The status outputs can be connected in
serial for only one information.
• NPN/ PNP output is possible with status
( insulation with the control) and no power
supply for the relay.
• In case of using with a mains voltage
lower than specifications, the SSR works
correctly, but an alarm status can be given
with control OFF.
In this case, the status works only with
control ON with the diagnostic of open
load or SSR short-circuit.
* Status (static output) is normally closed
without failure on the relay and the load,
and the yellow LED is switched ON :
That means there is
- voltage across the SSR without control.
- current inside the SSR with control .
* In case of failure on the load ( opened)
or on the SSR (short-circuited) :
- the status is opened .
- the yellow LED is switched OFF .
Important :
In case of long wiring cable between the SSR and
the load ( > 25 meters), it is possible than the diagnostic system can't detect an open load.
Proud to serve you
All technical characteristics are subject to change without previous notice.
Caractéristiques sujettes à modifications sans préavis.
celduc
r
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a
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s
celpac®
S/CLP/SILD865170/G/29/06/2006
page 4 /5 GB
Thermal specifications.
The curve "1" gives the limits of the product. The temperature reached are acceptable for the components. These values are in compliance with most of SSRs manufacturers. In a
cabinet with a minimum of ventilation or a non permanent
current, these values are correct.
♦
The curve "2" gives the limits of the product according to
EN60947-4-3 with a maximum rise temperature of 50°C
(@40°C) for a permanent working and in air calm ( test during 8 hours).
♦
♦ For a non permanent current, you can calcule the average
power = Pd x duty cycle and check the rise temperature : ∆Tj
= Pd x Rthj/a (Pd and Rthj/a are given page 2)). The junction
temperature must not exceed 125°C at the maximum ambient
temperature. The maximum current is limited to the size of
the thyristors = 50A.
♦ The thermal constant (Cth) of the product is 7 minutes. That
means the rise temperature is only 63% of the stabilized temperature after a running time of
7 minutes.
Overload current.
1 - No repetitive Itsm is given without voltage
reapplied . This curve is used for the
determination of the protection.
2 - Repetitive Itsm is given for inrush current with
initial Tj = 70°C. In normal working , this curve
musn't be exceed. Be carefull, the
repetition of the surge current decrease the
lifetime SSR's .
fig 3
Panel Mounting
Mounting and dismounting on DIN rail without any tool.
♦ Warning ! semiconductor relays don't provide any galvanic insulation between the load and the mains. Always use in conjunction
with an adapted circuit breaker with isolation feature or a similar device in order to ensure a reliable isolation in the event of wrong function
and when the relay must be insulated from the mains (maintenance ; if not used for a long duration ...).
Proud to serve you
All technical characteristics are subject to change without previous notice.
Caractéristiques sujettes à modifications sans préavis.
celduc
r
e
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a
i
®
s
celpac®
S/CLP/SILD865170/G/29/06/2006
page 5 /5 GB
Connections .
wires
(mm2)
L
♦ For the output terminals, the wire cross sections must be
adapted to the load current and to the overcurrent protection
device characteristics. The relay rated voltage must be adapted
to the mains rated voltage.
L
control
1 x(0,75-->2,5)
L = 6mm
♦ celpac use screw clamp connections.
Power
1x(1,5-->16) 1 x(1,5-->10)
L = 10mm
torques
screwdriver
s c rewdrive
0,4N.m
(0,6N.m max)
3,5x0,5mm
1,2N.m
(1,8N.m max)
Pozidriv2/
0,8x5,5 (1x6)
Mounting
♦ Only
in vertical position:
The user should protect heat sensitive materials as well as persons against any contacts with the
heatsink. For non vertical mounting , the load current must be 50% lower than the rated one . For a
good cooling, the SSR needs an air convection. Less convection air produces an abnormal heating.
Keep a distance between the upper SSR and the lower SSR. In case of no space between two SSR (zero space between two SSRs) , please reduce the load current. For further details refer to below :
♦ Derating
current with no space between SSRs
AC-51 nominal currents are given with a space of 22,5mm between each SSR, for a
permanent current during a minimum time of 8 hours in air calm according to IEC60947-4-3. In case
of non permanent currents or in case of SSRs are mounted with no space, you must check the heatsink
temperature never exceed 90°C. When the SSRs are mounted side to side ( no space between each relay) a derating current of 25% must be take into account.
A forced cooling ( fan inside the cabinet) improves significantly the thermal performances.
Typical application :
LOADS
SILD product is designed mainly for AC-51 résistive load. AC-53 motor current are also given .
For other loads, check the inrush current at turn ON and possible overvoltages at turn OFF or
consult us :
* AC-55b : Incandescent lamps : Inrush current is generally 10 times In during few 10ms. So limit the
nominal current at about 15A.
* AC-55a : Electric discharge lamp : These loads often have overcurrent at turn ON and overvoltage
at turn OFF, so we advise to use 400VAC SSR on 230VAC mains.
* AC-56a : Transformers loads : Very high inrush current up to 100 times In . We advise to use random SSR.
* AC-56b : Capacitors loads : Very high current at turn ON and overvolatge at turn OFF, please
consult us with 1600V peak SSR with high inrush current.
Protection :
To protect the SSR against a short-circuit of the load , use a fuse with a I2t value = 1/2 I2t value
specified page 2. A test has been made with FERRAZ fuse ( see page 2).
It is possible to protect SSR by MCB ( miniature circuit breaker). In this case, see application note (
SSR protection) and use a SSR with high I2t value (5000A2s minimum).
EMC :
♦ Immunity
:
We give in our data-sheets, the immunity level of our SSRs according to the main standards for
this type of products : EN61000-4-4 &5. You can see the high immunity level in comparison with the
products on the market.
♦ Emission:
SSRs are complex devices which must be interconnected with other equipment (loads, cables,etc.)
to form a system. Because the other equipment or the interconnections may not be under the control of
celduc, it shall be the responsibility of the system integrator to ensure that systems containing SSRs
comply with the requirements of any rules and regulations applicable at the system level.. Consult celduc laboratory which can make some tests in your application.
celduc
®
www.celduc.com
r e l a i s
5, Rue Ampère BP30004 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