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G115
YUMO
YM0000680
Availability: | |
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Principle
The working principle of the photoelectric switch is that when the beam emitted by the emitter is blocked or partly reflected by the object, the beam receiver whereby makes a judgment and reacts.
Structural category
Throuht-beam type
Through-beam bype photoelectric switch is designed that via the light beam between opposite-mounted transmitter and receiver, the object passing through these two devices will interrupt the light beam and start the receiver.
Diffuse type
Diffuse reflection type photoelectric switch integrates the transmitter and the reciver. Light reflected by the photoelectric switch is reflected back to the receiver by the detected object.
Retroreflective type
Retroreflective type photoelectric switch also integrates the transmitter and the receiver, Its difference from other models is that reflecotr is used to relfect light to the photoelectric switch. Though the object between the photoelectric switch and reflector can reflect the light, it is much less efficient than the reflector so as to cut down reflected light.
Convergence reflection type (condensation type)
The working principle of convergence reflection type photoswitch is similar to that of direct reflection type one, while its projector and light receiver focus on boject distance, only when the object presents to the focus can the photoswitch actuate.
Technical Parameter
|
Diffuse type | Detection distance | |||
10-30VDC | NPN | NO | ||
NC | ||||
NO+NC | ||||
PNP | NO | |||
90-250VAC | NC | |||
NO+NC | ||||
SCR Contro Hable silicon | NO | |||
NC | ||||
Relay output | ||||
Retroreflective type | Detection distance | |||
10-30VDC | NPN | NO | ||
NC | ||||
NO+NC | ||||
PNP | NO | |||
90-250VAC | NC | |||
NO+NC | ||||
SCR Contro Hable silicon | NO | |||
NC | ||||
Relay output | ||||
Through beam | Detection distance | 25m | ||
10-30VDC | NPN | NO | G115-3E25NA | |
NC | G115-3E25NB | |||
NO+NC | G115-3E25NC | |||
PNP | NO | G115-3E25PA | ||
90-250VAC | NC | G115-3E25PB | ||
NO+NC | G115-3E25PC | |||
SCR Contro Hable silicon | NO | |||
NC | ||||
Relay output | ||||
DC/SCR Control output | DC:200mA,AC:300mA,Relay:2A | |||
DC/AC Consumption current | DC<15mA,AC<10mA | |||
DC/AC Response time | Dc<2ms,AC<20ms | |||
Directional angle | 3 . -10 . | |||
Detected object | transparent or opaque body | |||
Working environment temperature | 25~+55ºC | |||
Intensity of illumination of working environment | Sunlight under 1000LX incandescent lamp under 3000LX | |||
Shell material | Metal | |||
Protection grade | IP64 |
Principle
The working principle of the photoelectric switch is that when the beam emitted by the emitter is blocked or partly reflected by the object, the beam receiver whereby makes a judgment and reacts.
Structural category
Throuht-beam type
Through-beam bype photoelectric switch is designed that via the light beam between opposite-mounted transmitter and receiver, the object passing through these two devices will interrupt the light beam and start the receiver.
Diffuse type
Diffuse reflection type photoelectric switch integrates the transmitter and the reciver. Light reflected by the photoelectric switch is reflected back to the receiver by the detected object.
Retroreflective type
Retroreflective type photoelectric switch also integrates the transmitter and the receiver, Its difference from other models is that reflecotr is used to relfect light to the photoelectric switch. Though the object between the photoelectric switch and reflector can reflect the light, it is much less efficient than the reflector so as to cut down reflected light.
Convergence reflection type (condensation type)
The working principle of convergence reflection type photoswitch is similar to that of direct reflection type one, while its projector and light receiver focus on boject distance, only when the object presents to the focus can the photoswitch actuate.
Technical Parameter
|
Diffuse type | Detection distance | |||
10-30VDC | NPN | NO | ||
NC | ||||
NO+NC | ||||
PNP | NO | |||
90-250VAC | NC | |||
NO+NC | ||||
SCR Contro Hable silicon | NO | |||
NC | ||||
Relay output | ||||
Retroreflective type | Detection distance | |||
10-30VDC | NPN | NO | ||
NC | ||||
NO+NC | ||||
PNP | NO | |||
90-250VAC | NC | |||
NO+NC | ||||
SCR Contro Hable silicon | NO | |||
NC | ||||
Relay output | ||||
Through beam | Detection distance | 25m | ||
10-30VDC | NPN | NO | G115-3E25NA | |
NC | G115-3E25NB | |||
NO+NC | G115-3E25NC | |||
PNP | NO | G115-3E25PA | ||
90-250VAC | NC | G115-3E25PB | ||
NO+NC | G115-3E25PC | |||
SCR Contro Hable silicon | NO | |||
NC | ||||
Relay output | ||||
DC/SCR Control output | DC:200mA,AC:300mA,Relay:2A | |||
DC/AC Consumption current | DC<15mA,AC<10mA | |||
DC/AC Response time | Dc<2ms,AC<20ms | |||
Directional angle | 3 . -10 . | |||
Detected object | transparent or opaque body | |||
Working environment temperature | 25~+55ºC | |||
Intensity of illumination of working environment | Sunlight under 1000LX incandescent lamp under 3000LX | |||
Shell material | Metal | |||
Protection grade | IP64 |