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Hersteller: TELE Haase

Überblick über die Zeitrelaisfunktionen

Overview of the functions of time relays

E ON delay
When the supply voltage U is applied, the set interval t begins. After the interval t has expired the output relay R switches into on-position. This status remains until the supply voltage is interrupted. If the supply voltage is interrupted before the expiry of the set interval, the interval t already expired is erased and is restarted when the supply voltage is next applied.
A OFF delay without auxiliary voltage
When the supply voltage U is supplied, the output relay R swiches into on-position. If the supply voltage is interrupted, the set interval t begins. After the set interval t has expired the output relay R switches into offposition. If the supply voltage is reconnected before the interval t has expired the interval already is erased and is restarted with the next cycle.
R OFF delay
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the output relay R switches into on-position. If the control contact is opened, the set interval t begins. After the interval t has expired the output relay switches into off-position. If the control contact is closed again before the set interval has expired, the interval already expired is erased and is restarted.
S Star-Delta Start-up
When the supply voltage U is applied, the star-contact switches into on-position and the set star-time t1 begins. After the interval t1 has expired the star-contact switches into off-position and the set transit-time t2 begins. After the interval t2 has expired the delta-contact switches into on-position. To restart the function the supply voltage must be interrupted and re-applied.
ER ON delay and OFF delay with control contact
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position. If the control contact is opened, the set interval t2 begins. After the interval t2 has expired, the output relay Switches into offposition. If the control contact is opened before the interval t1 has expired, the interval already expired is erased and is restarted with the next cycle.
Ec Additive ON Delay
When the supply voltage U is applied, the release for the interval starts. When the control contact S is closed, the set interval t begins. If the control contact S is opened during the set interval t, the interval stops, and the already expired interval is stored. During the lapse of time the control contact can be opened or closed as often as required. If the sum of the periods, in which the control contact S is closed reaches the set interval t the output relay R switches into on-position. The interval is stopped and a further activation of the control contact S remains without effect. By interrupting the supply voltage, the device will be reset. A possibly expired time t is deleted.
Es ON delay with control input
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set interval t begins. After the interval t has expired the output relay R switches into on-position. This status remains until the control contact is opened again. If the control contact is opened before the interval t has expired , the interval already expired is erased and is restarted with the next cycle.
ET ON delay two wire connected
When the supply voltage U is applied, the set interval t begins. After the interval has expired the thyristor switches on. This status remains until the supply voltage is interrupted. If the supply voltage is interrupted before the expiry of the interval, the interval already expired is erased and is restarted when the supply voltage is next applied
Wu Single shot leading edge voltage controlled
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t begins. After the interval t has expired the output relay switches into off-position. This status remains until the supply voltage is interrupted. If the supply voltage is interrupted before the interval t has expired, the output relay switches into off-position. The interval already is erased and is restarted when the supply voltage is next applied.
EWu ON delay single shot leading edge with control contact
When the supply voltage U is applied, the set interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position and the set interval t2 begins. After the interval t2 has expired, the output relay switches into off-position. If the supply voltage is interrupted before the interval t1+t2 has expired, the interval already expired is erased and is restarted when the supply voltage is next applied.
nWu Maintained single shot leading edge
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t begins. After the interval t has expired the output relay switches into off-position. This status remains until the supply voltage is interrupted. If the supply voltage is reconnected before the interval t has expired, the unit continues to perform the actual single shot.
Ws Single shot leading edge with control input
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set interval t begins. After the interval t has expired the output relay R switches into on-position. This status remains until the control contact is opened again. If the control contact is opened before the interval t has expired , the interval already expired is erased and is restarted with the next cycle.
EWs ON delay single shot leading edge with control contact
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position and the set interval t2 begins. After the interval t2 has expired, the output relay switches into offposition. During the interval, the control contact can be operated any number of times. A further cycle can only be started when the cycle run has been completed.
Wa Single shot trailing edge with control input
The supply voltage U must be constantly applied to the device. Closing the control contact S has no influence on the condition of the output R. When the control contact is opened, the output relay switches into on-position and the set interval t begins. After the set interval has expired, the ouput relay switches into off-position. During the interval, the control contact can be operated any number of times. A further cycle can only be started when the cycle run has been completed.
nWa Maintained single shot trailing edge
When the supply voltage U is supplied, the output relay R remains into off-position. As soon as the supply voltage is interrupted the output relay switches into on-position and the set interval t begins. After the set interval t has expired the output relay switches into off-position. When the supply voltage is reconnected before the interval t has expired, the unit continues to perform the actual single shot.
nWuWa Maintained single shot leading and trailing edge
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t begins. After the interval t has expired the output relay switches into off-position. As soon as the supply voltage is interrupted the output relay switches into on-position again and the set interval t begins. After the set interval t has expired the output relay switches into off-position. If the supply voltage is interrupted (nWu) or reconnected (nWa) before the interval t has expired the unit continues to perform the actual single shot
WsWa Single shot leading and single shot trailing edge with control contact
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the output relay R switches into on-position and the set interval t1 begins. After the interval t1 has expired, the output relay R switches into off-position. If the control contact is opened, the output relay again switches into on-position and the set interval t2 begins. After the interval t2 has expired the output relay switches into off-position. During the interval, the control contact can be operated any number of times.
Bi Flasher pulse first
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t begins. After the interval t has expired, the output relay R switches into off-position and the set interval t begins again. The output relay is triggered at a ratio of 1:1 until the supply voltage is interrupted.
Bp Flasher pause first
When the supply voltage U is applied, the set interval t begins. After the interval t has expired, the output relay R switches into on-position and the set interval t begins again. After the interval t has expired, the output relay switches into off-position. The output relay is triggered at a ratio of 1:1 until the supply voltage is interrupted.
Wt Asymmetric flasher pulse first
When the supply voltage U is applied, the set interval t1 begins and the output relay R switches into on-position. After the interval t1 has expired, the set interval t2 begins. So that the output relay R remains in on-position, the control contact S must be closed and opened again within the set interval t2. If this does not happen, the output relay R switches into off-position and all further pulses at the control contact are ignored. To restart the function the supply voltage must be interrupted and reapplied.
Ii Asymmetric flasher pulse first
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t1 begins. After the interval t1 has expired, the output relay switches into off-position and the set interval t2 begins. After the interval t2 has expired, the output relay switches into on-position. The output relay is triggered at the ratio of t1:t2 until the supply voltage is interrupted.
Ip Asymmetric flasher pause first
When the supply voltage U is applied, the set interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position and the set interval t2 begins. After the interval t2 has expired, the output relay switches into off-position. The output relay is triggered at the ratio of t1:t2 until the supply voltage is interrupted.
T, TW Function automatic timer with (TW) or without (T) switch-off warning
After the pushbutton (control input) has been pressed, the output relay R closes and the set interval t begins. If the pushbutton is pressed again before the interval has expired, the interval begins again (restart function complies with EN 60669-2-3). Rapid, multiple pressing of the pushbutton (pumping) adds 2, 3 or more time intervals to extend the time up to 60 min. Prolonged pressure on the button (>2 s) aborts the interval running and switches the relay off (energy saving function). In the TW mode the device provides a switch-off warning (in accordance with DIN 180-158-2) by generating short pulses (flashing) at 30s, 15s and 5s prior to switch-off.
P, PN Impulse switch mode
In this mode, every keypress of the pushbutton (control input) toggles the output relay R (flip-flop). In function P, the output relay remains in off-position, whenever the supply voltage is applied. In function PN, the output relay switches into on-position after applying the supply voltage U, if the output relay was in on-position last before power failure. In both functions the output relay switches into on-position, if a short voltage impulse (2s) opens the output relay (central OFF).
P (R) Impulse switch mode with off delay
In this mode, every keypress toggles the output relay R (flip-flop). After the pushbutton (control input) has been pressed, the output relay closes and the set interval t begins. After the interval has expired the output relay switches into off-position. If the pushbutton is pressed again before the interval has expired, the interval will be canceled and the output relay switches into off-position.


Symbol Supply Voltage Pictures

G2ZMF11
24-240V AC/DC

 24-240V AC/DC, CoolZoom2)                                 1

G2ZMF11

 12-440V AC,
24V DC1)		                                

G2ZM20
12-240V AC/DC

 12-240V AC/DC                                  

G2ZA20 10min
24-240V AC/DC

 24-240V AC/DC                                        

G2ZA20 10min

 24-440V AC,
24V DC1)		                                        

G2ZIF20
24-240V AC/DC

 24-240V AC/DC, CoolZoom2)                                    

G2ZIF20

 12-440V AC,
24V DC1)		                                    

G2ZI20
12-240V AC/DC

 12-240V AC/DC                                      

G2ZE10
400V AC

 400V AC                                                

G2ZS20
24-240V AC/DC

 24-240V AC/DC, CoolZoom2)                                                

G2ZS20

 12-440V AC,
24V DC1)		                                                

K3ZM20
12-240V AC/DC

12-240V AC/DC                                     2

K3ZM20P
12-240V AC/DC

12-240V AC/DC                                    

K3ZI20
12-240V AC/DC

12-240V AC/DC                                    

K3ZS20
12-240V AC/DC

12-240V AC/DC                                                

K3ZA20 3min
24-240V AC/DC

 24-240V AC/DC                                        

E3ZM20
12-240V AC/DC

 12-240V AC/DC                                     3

E1ZM10
12-240V AC/DC

 12-240V AC/DC                                    

E1ZM10
24-240V AC/DC

 24-240V AC/DC                                    

E1ZMW10
24-240V AC/DC

 24-240V AC/DC                                    

E1ZMQ10
24-240V AC/DC

 24-240V AC/DC                                          

E1Z1E10
24-240V AC/DC

 24-240V AC/DC                                                

E1Z1R10
24-240V AC/DC

 24-240V AC/DC                                                

E1Z1ER10
24-240V AC/DC

 24-240V AC/DC                                                

E1ZI10
12-240V AC/DC

 12-240V AC/DC                                              

E3ZI20
12-240V AC/DC

 12-240V AC/DC                                    

E3ZS20
12-240V AC/DC

 12-240V AC/DC                                                

E1ZTPNC
230V AC

 230V AC                                              

E1ZTP
230V AC

 230V AC                                              

E1ZNT
230V AC

 230V AC                                                

FSM10
24V AC/DC

 24V AC/DC                                       4

FSM10 
100-240V AC

 100-240V AC                                      

COM3TP
24-240V AC/DC

 24-240V AC/DC                                   5

SRE2-PNP 1SEC
24V DC

 24V DC                                                 6

SRE2-PNP 3SEC
24V DC

 24V DC                                                

SRE2-PNP 10SEC
24V DC

 24V DC                                                

SRE2-PNP 1MIN
24V DC

 24V DC                                                

SRE2-PNP 10MIN
24V DC

 24V DC                                                

SRE2-PNP 60MIN
24V DC

 24V DC                                                

SRW2-PNP 1SEC
24V DC

 24V DC                                                

SRW2-PNP 10SEC
24V DC

 24V DC                                                

SRW2-PNP 1MIN
24V DC

 24V DC                                                

SRW2-PNP 10MIN
24V DC

 24V DC                                                

SRW2-PNP 60MIN
24V DC

 24V DC                                                

V2ZA10 3MIN
24-240V AC/DC

 24-240V AC/DC                                         7

V2ZE10
24-240V AC/DC

 24-240V AC/DC                                                

V2ZI10
12-240V AC/DC

 12-240V AC/DC                                              

V2ZM10
12-240V AC/DC

 12-240V AC/DC                              

V2ZM10-A
12-240V AC/DC

12-240V AC/DC                              

V2ZQ10
24-240V AC/DC

 24-240V AC/DC                                          

V2ZR10
24-240V AC/DC

 24-240V AC/DC                                                

V2ZS20
12-240V AC/DC

 24V DC;
110-230V AC/DC		                                                

Pictures time relays

Pictures 1

Pictures 2

Pictures 3

Pictures 4

Pictures 5

Pictures 6

Pictures 7
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Overview of the functions of time relays

E ON delay
When the supply voltage U is applied, the set interval t begins. After the interval t has expired the output relay R switches into on-position. This status remains until the supply voltage is interrupted. If the supply voltage is interrupted before the expiry of the set interval, the interval t already expired is erased and is restarted when the supply voltage is next applied.
A OFF delay without auxiliary voltage
When the supply voltage U is supplied, the output relay R swiches into on-position. If the supply voltage is interrupted, the set interval t begins. After the set interval t has expired the output relay R switches into offposition. If the supply voltage is reconnected before the interval t has expired the interval already is erased and is restarted with the next cycle.
R OFF delay
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the output relay R switches into on-position. If the control contact is opened, the set interval t begins. After the interval t has expired the output relay switches into off-position. If the control contact is closed again before the set interval has expired, the interval already expired is erased and is restarted.
S Star-Delta Start-up
When the supply voltage U is applied, the star-contact switches into on-position and the set star-time t1 begins. After the interval t1 has expired the star-contact switches into off-position and the set transit-time t2 begins. After the interval t2 has expired the delta-contact switches into on-position. To restart the function the supply voltage must be interrupted and re-applied.
ER ON delay and OFF delay with control contact
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position. If the control contact is opened, the set interval t2 begins. After the interval t2 has expired, the output relay Switches into offposition. If the control contact is opened before the interval t1 has expired, the interval already expired is erased and is restarted with the next cycle.
Ec Additive ON Delay
When the supply voltage U is applied, the release for the interval starts. When the control contact S is closed, the set interval t begins. If the control contact S is opened during the set interval t, the interval stops, and the already expired interval is stored. During the lapse of time the control contact can be opened or closed as often as required. If the sum of the periods, in which the control contact S is closed reaches the set interval t the output relay R switches into on-position. The interval is stopped and a further activation of the control contact S remains without effect. By interrupting the supply voltage, the device will be reset. A possibly expired time t is deleted.
Es ON delay with control input
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set interval t begins. After the interval t has expired the output relay R switches into on-position. This status remains until the control contact is opened again. If the control contact is opened before the interval t has expired , the interval already expired is erased and is restarted with the next cycle.
ET ON delay two wire connected
When the supply voltage U is applied, the set interval t begins. After the interval has expired the thyristor switches on. This status remains until the supply voltage is interrupted. If the supply voltage is interrupted before the expiry of the interval, the interval already expired is erased and is restarted when the supply voltage is next applied
Wu Single shot leading edge voltage controlled
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t begins. After the interval t has expired the output relay switches into off-position. This status remains until the supply voltage is interrupted. If the supply voltage is interrupted before the interval t has expired, the output relay switches into off-position. The interval already is erased and is restarted when the supply voltage is next applied.
EWu ON delay single shot leading edge with control contact
When the supply voltage U is applied, the set interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position and the set interval t2 begins. After the interval t2 has expired, the output relay switches into off-position. If the supply voltage is interrupted before the interval t1+t2 has expired, the interval already expired is erased and is restarted when the supply voltage is next applied.
nWu Maintained single shot leading edge
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t begins. After the interval t has expired the output relay switches into off-position. This status remains until the supply voltage is interrupted. If the supply voltage is reconnected before the interval t has expired, the unit continues to perform the actual single shot.
Ws Single shot leading edge with control input
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set interval t begins. After the interval t has expired the output relay R switches into on-position. This status remains until the control contact is opened again. If the control contact is opened before the interval t has expired , the interval already expired is erased and is restarted with the next cycle.
EWs ON delay single shot leading edge with control contact
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position and the set interval t2 begins. After the interval t2 has expired, the output relay switches into offposition. During the interval, the control contact can be operated any number of times. A further cycle can only be started when the cycle run has been completed.
Wa Single shot trailing edge with control input
The supply voltage U must be constantly applied to the device. Closing the control contact S has no influence on the condition of the output R. When the control contact is opened, the output relay switches into on-position and the set interval t begins. After the set interval has expired, the ouput relay switches into off-position. During the interval, the control contact can be operated any number of times. A further cycle can only be started when the cycle run has been completed.
nWa Maintained single shot trailing edge
When the supply voltage U is supplied, the output relay R remains into off-position. As soon as the supply voltage is interrupted the output relay switches into on-position and the set interval t begins. After the set interval t has expired the output relay switches into off-position. When the supply voltage is reconnected before the interval t has expired, the unit continues to perform the actual single shot.
nWuWa Maintained single shot leading and trailing edge
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t begins. After the interval t has expired the output relay switches into off-position. As soon as the supply voltage is interrupted the output relay switches into on-position again and the set interval t begins. After the set interval t has expired the output relay switches into off-position. If the supply voltage is interrupted (nWu) or reconnected (nWa) before the interval t has expired the unit continues to perform the actual single shot
WsWa Single shot leading and single shot trailing edge with control contact
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the output relay R switches into on-position and the set interval t1 begins. After the interval t1 has expired, the output relay R switches into off-position. If the control contact is opened, the output relay again switches into on-position and the set interval t2 begins. After the interval t2 has expired the output relay switches into off-position. During the interval, the control contact can be operated any number of times.
Bi Flasher pulse first
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t begins. After the interval t has expired, the output relay R switches into off-position and the set interval t begins again. The output relay is triggered at a ratio of 1:1 until the supply voltage is interrupted.
Bp Flasher pause first
When the supply voltage U is applied, the set interval t begins. After the interval t has expired, the output relay R switches into on-position and the set interval t begins again. After the interval t has expired, the output relay switches into off-position. The output relay is triggered at a ratio of 1:1 until the supply voltage is interrupted.
Wt Asymmetric flasher pulse first
When the supply voltage U is applied, the set interval t1 begins and the output relay R switches into on-position. After the interval t1 has expired, the set interval t2 begins. So that the output relay R remains in on-position, the control contact S must be closed and opened again within the set interval t2. If this does not happen, the output relay R switches into off-position and all further pulses at the control contact are ignored. To restart the function the supply voltage must be interrupted and reapplied.
Ii Asymmetric flasher pulse first
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t1 begins. After the interval t1 has expired, the output relay switches into off-position and the set interval t2 begins. After the interval t2 has expired, the output relay switches into on-position. The output relay is triggered at the ratio of t1:t2 until the supply voltage is interrupted.
Ip Asymmetric flasher pause first
When the supply voltage U is applied, the set interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position and the set interval t2 begins. After the interval t2 has expired, the output relay switches into off-position. The output relay is triggered at the ratio of t1:t2 until the supply voltage is interrupted.
T, TW Function automatic timer with (TW) or without (T) switch-off warning
After the pushbutton (control input) has been pressed, the output relay R closes and the set interval t begins. If the pushbutton is pressed again before the interval has expired, the interval begins again (restart function complies with EN 60669-2-3). Rapid, multiple pressing of the pushbutton (pumping) adds 2, 3 or more time intervals to extend the time up to 60 min. Prolonged pressure on the button (>2 s) aborts the interval running and switches the relay off (energy saving function). In the TW mode the device provides a switch-off warning (in accordance with DIN 180-158-2) by generating short pulses (flashing) at 30s, 15s and 5s prior to switch-off.
P, PN Impulse switch mode
In this mode, every keypress of the pushbutton (control input) toggles the output relay R (flip-flop). In function P, the output relay remains in off-position, whenever the supply voltage is applied. In function PN, the output relay switches into on-position after applying the supply voltage U, if the output relay was in on-position last before power failure. In both functions the output relay switches into on-position, if a short voltage impulse (2s) opens the output relay (central OFF).
P (R) Impulse switch mode with off delay
In this mode, every keypress toggles the output relay R (flip-flop). After the pushbutton (control input) has been pressed, the output relay closes and the set interval t begins. After the interval has expired the output relay switches into off-position. If the pushbutton is pressed again before the interval has expired, the interval will be canceled and the output relay switches into off-position.


Symbol Supply Voltage Pictures

G2ZMF11
24-240V AC/DC

 24-240V AC/DC, CoolZoom2)                                 1

G2ZMF11

 12-440V AC,
24V DC1)		                                

G2ZM20
12-240V AC/DC

 12-240V AC/DC                                  

G2ZA20 10min
24-240V AC/DC

 24-240V AC/DC                                        

G2ZA20 10min

 24-440V AC,
24V DC1)		                                        

G2ZIF20
24-240V AC/DC

 24-240V AC/DC, CoolZoom2)                                    

G2ZIF20

 12-440V AC,
24V DC1)		                                    

G2ZI20
12-240V AC/DC

 12-240V AC/DC                                      

G2ZE10
400V AC

 400V AC                                                

G2ZS20
24-240V AC/DC

 24-240V AC/DC, CoolZoom2)                                                

G2ZS20

 12-440V AC,
24V DC1)		                                                

K3ZM20
12-240V AC/DC

12-240V AC/DC                                     2

K3ZM20P
12-240V AC/DC

12-240V AC/DC                                    

K3ZI20
12-240V AC/DC

12-240V AC/DC                                    

K3ZS20
12-240V AC/DC

12-240V AC/DC                                                

K3ZA20 3min
24-240V AC/DC

 24-240V AC/DC                                        

E3ZM20
12-240V AC/DC

 12-240V AC/DC                                     3

E1ZM10
12-240V AC/DC

 12-240V AC/DC                                    

E1ZM10
24-240V AC/DC

 24-240V AC/DC                                    

E1ZMW10
24-240V AC/DC

 24-240V AC/DC                                    

E1ZMQ10
24-240V AC/DC

 24-240V AC/DC                                          

E1Z1E10
24-240V AC/DC

 24-240V AC/DC                                                

E1Z1R10
24-240V AC/DC

 24-240V AC/DC                                                

E1Z1ER10
24-240V AC/DC

 24-240V AC/DC                                                

E1ZI10
12-240V AC/DC

 12-240V AC/DC                                              

E3ZI20
12-240V AC/DC

 12-240V AC/DC                                    

E3ZS20
12-240V AC/DC

 12-240V AC/DC                                                

E1ZTPNC
230V AC

 230V AC                                              

E1ZTP
230V AC

 230V AC                                              

E1ZNT
230V AC

 230V AC                                                

FSM10
24V AC/DC

 24V AC/DC                                       4

FSM10 
100-240V AC

 100-240V AC                                      

COM3TP
24-240V AC/DC

 24-240V AC/DC                                   5

SRE2-PNP 1SEC
24V DC

 24V DC                                                 6

SRE2-PNP 3SEC
24V DC

 24V DC                                                

SRE2-PNP 10SEC
24V DC

 24V DC                                                

SRE2-PNP 1MIN
24V DC

 24V DC                                                

SRE2-PNP 10MIN
24V DC

 24V DC                                                

SRE2-PNP 60MIN
24V DC

 24V DC                                                

SRW2-PNP 1SEC
24V DC

 24V DC                                                

SRW2-PNP 10SEC
24V DC

 24V DC                                                

SRW2-PNP 1MIN
24V DC

 24V DC                                                

SRW2-PNP 10MIN
24V DC

 24V DC                                                

SRW2-PNP 60MIN
24V DC

 24V DC                                                

V2ZA10 3MIN
24-240V AC/DC

 24-240V AC/DC                                         7

V2ZE10
24-240V AC/DC

 24-240V AC/DC                                                

V2ZI10
12-240V AC/DC

 12-240V AC/DC                                              

V2ZM10
12-240V AC/DC

 12-240V AC/DC                              

V2ZM10-A
12-240V AC/DC

12-240V AC/DC                              

V2ZQ10
24-240V AC/DC

 24-240V AC/DC                                          

V2ZR10
24-240V AC/DC

 24-240V AC/DC                                                

V2ZS20
12-240V AC/DC

 24V DC;
110-230V AC/DC		                                                

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