PR39MF21NSZF Sharp Microelectronics, PR39MF21NSZF Datasheet - Page 9
PR39MF21NSZF
Manufacturer Part Number
PR39MF21NSZF
Description
RELAY SSR 240VAC .9A ZC 8-DIP
Manufacturer
Sharp Microelectronics
Series
PR39MFr
Specifications of PR39MF21NSZF
Load Current
900mA
Circuit
SPST-NO (1 Form A)
Output Type
AC, Zero Cross
Voltage - Input
1.2VDC
Voltage - Load
0 ~ 240 V
Mounting Type
Through Hole
Termination Style
PC Pin
Package / Case
8-DIP (0.300", 7.62mm), 7 Leads
Control Voltage Type
DC
Input Voltage
1.4V
Load Voltage Range
240V
Switching Mode
Zero Cross
Load Current Rms Max
0.9A
Rms Load Voltage Max
600V
Surge Current
9A
Load Voltage Rating
35 V
Mounting Style
Through Hole
Relay Type
Solid State
Svhc
No SVHC (15-Dec-2010)
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
On-state Resistance
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
425-2374-5
■ Design Considerations
● Degradation
(
● Recommended Operating Conditions
● Design guide
Output
∗
Operating temperature
) See Fig.2 about derating curve (I
Input
In order for the SSR to turn off, the triggering current (I
Particular attention needs to be paid when utilizing SSRs that incorporate zero crossing circuitry.
If the phase difference between the voltage and the current at the output pins is large enough, zero crossing
type SSRs cannot be used. The result, if zero crossing SSRs are used under this condition, is that the SSR
may not turn on and off irregardless of the input current. In this case, only a non zero cross type SSR should
be used in combination with the above mentioned snubber circuit selection process.
When the input current (I
voltage across the Triac, V
please incorporate a snubber circuit. Due to the many different types of load that can be driven, we can
merely recommend some circuit values to start with : Cs=0.022µF and Rs=47Ω. The operation of the SSR
and snubber circuit should be tested and if unintentional switching occurs, please adjust the snubber circuit
component values accordingly.
When making the transition from On to Off state, a snubber circuit should be used ensure that sudden drops
in current are not accompanied by large instantaneous changes in voltage across the Triac.
This fast change in voltage is brought about by the phase difference between current and voltage.
Primarily, this is experienced in driving loads which are inductive such as motors and solenods.
Following the procedure outlined above should provide sufficient results.
For over voltage protection, a Varistor may be used.
Any snubber or Varistor used for the above mentioned scenarios should be located as close to the main
output triac as possible.
All pins shall be used by soldering on the board. (Socket and others shall not be used.)
In general, the emission of the IRED used in SSR will degrade over time.
In the case where long term operation and / or constant extreme temperature fluctuations will be applied to
the devices, please allow for a worst case scenario of 50% degradation over 5years.
Therefore in order to maintain proper operation, a design implementing these SSRs should provide at least
twice the minimum required triggering current from initial operation.
Input signal current
at ON state
Input signal current at OFF state
Load supply voltage
Load supply current
Frequency
Parameter
T
(rms) vs. ambient temperature).
PR29MF21NSZ
PR39MF2xNSZ
F
Rank 1
Rank 2
) is below 0.1mA, the output Triac will be in the open circuit mode. However, if the
D
, increases faster than rated dV/dt, the Triac may turn on. To avoid this situation,
V
I
I
OUT
Symbol
I
OUT
F
F
(OFF)
T
(ON)
(rms)
f
opr
(rms)
Locate snubber circuit between output terminals
9
(Cs=0.022µF, Rs=47Ω)
F
) must be 0.1mA or less.
Conditions
−
−
−
−
−
PR29MF21NSZ Series
PR39MF2xNSZ Series
MIN.
−20
20
10
50
0
−
−
I
T
Sheet No.: D4-A00701EN
(rms)×80%(
MAX.
120
240
0.1
25
15
60
80
∗
)
Unit
mA
mA
mA
Hz
˚C
V
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