Mitsubishi Electric MELSEC-L Series User Manual page 26
Programmable controller
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- Basic user manual (382 pages) ,
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(b) Effects to relay life due to connected load
The actual relay life may be significantly shortened compared to the relay life curve, depending on the type of a
load connected and the characteristics of inrush current. (Page 23, Section 3.2 (3) (a)) Also, the inrush
current may cause the module contact welding.
Take the following measures to prevent shortening of the relay life and the contact welding.
• Select a load so that the inrush current will be within the rated current of the module.
• Connect an external relay that can withstand the inrush current.
The following table shows the relation between the load and the inrush current.
Select a load so that the inrush current (i) and the rated current (io) will be within the rated switching current
specified for the output module used.
The inrush current may flow for a longer time depending on the load.
Load type
Signal waveform diagram
Load of a solenoid
i
Inductive load
0.07 to 0.1 seconds
Load of an incandescent bulb
i
Approx. 0.33 seconds
Lamp load
Load of a fluorescent
i
Within 10 seconds
Capacitive load *
Capacitive load
i
*1
Typical electric-discharge lamp circuit includes discharge tubes, transformers, choke coils, and capacitors. Therefore,
note that the inrush current may flow 20 to 40 times as large as the rated current in the case of high power factor and low
power impedance.
*2
When the wiring of the circuit is long, take care of the wire capacity.
24
i
o
i: Inrush current
i
: Rated current
o
i
o
i: Inrush current
i
: Rated current
o
i
o
i: Inrush current
i
: Rated current
o
2
i
o
i: Inrush current
i
: Rated current
o
0.008 to 0.33 seconds
(0.5 to 2 cycles)
Inrush current
(i)/rated current
Signal waveform diagram
(io)
Load of an electromagnetic contactor
Approx. 10 to 20
times
i
Load of a mercury lamp
Approx. 3 to 10
i
times
Approx. 5 to 10
times
Approx. 20 to 40
times
i: Inrush current
i
: Rated current
i
o
o
0.017 to 0.033 seconds
(1 to 2 cycles)
i
o
i: Inrush current
i
: Rated current
o
180 to 300 seconds
(3 to 5 minutes)
Inrush current
(i)/rated current
(io)
Approx. 3 to 10
times
*1
Approx. 3 times
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Troubleshooting
