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Digitronic DIGISPEED DS1/V2, Руководство пользователя

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Digitronic

Digitaler Schaltbeschleuniger

Automationsanlagen GmbH

DIGISPEED DS1/V2

4.5. Configuration of the switching-modes at DIGISPEED DS1/V2

To  set  a  switching-mode  of  the  DIGISPEED  use  the  switches  DIP1  and  DIP2  of  the  fourfold  DIP  -
Switch. It is located behind the drilling in the transparent sheet on the device's right side.

To adjust the dip-switch use a small screwdriver or an bent paper clip.

switching-

mode

DIP 1

DIP 2

DIP 3

DIP 4

1

off

off

off

off

2

on

off

off

off

3

off

on

off

off

4

on

on

off

off

Note:

The cion figurationof the DIP-switches 3+4 must not be changed, both have to be set
to OFF.

5. Commisioning

The device is snapped onto the "EN carrier rail" in the switchboard (see chapter ""9. Dimensions"" on
page 14). Through the grounded assembly board and it's electrical connection to the EN carrier rail, the
disturbances are optimally grounded onto the cover. All cable connections have to be realized in a cold
state  Connect  the  DIGISPEED  at  first  with  the  shortest  possiblew  over-aroousing-time  (run  relais  or
switchingdevices 

without 

flywheeling  diode)  and  switch  on  the  device.  Increase  the  overenergizing

time in small steps 8regarding the recovery time) until no further improvement of switchimng behaviour
can be detected. Thenb switch back to the last overenergizing time with a detectable improvement of
the  switching  behaviour.  To  run  the  unit  with  a  higher  load  does  not  make  any  sense  since  it  only
causes  a  quicker  using  up.  An  optimal  adjusted  over-energizing  time  on  the  contrary  will  cause  no
using up aboive average.

Attention:

  The connection to a lightbulb, an ohmic consumer, a valveplug with built in

LED or Zener-Diode at the output of the DIGISPEED is not allowed and can
cause thge destruction of the device.

Interrupting the connection between the DIGISPEED and a switching-link while
being under load can also cause the device's destruction. Try to avoid absolutely a
contact-switching or a connection that could be interrupted while being under load.

If this is not possible, a protection-switch has to be created at the switching-link.

For  it's  very  high  switchingperfomanbce,  the  DIGISPEED  is  not  resistant  against  short
circuits.  Therefore  take  care  to  do  the  complete  comissioning  in  cold  state.

Ausgabe: August 04

Seite: 11

  2 rue René Laennec 51500 Taissy France

 

Fax: 03 26 85 19 08,  Tel : 03 26 82 49 29

 

E-mail:[email protected]

Site web : www.hvssystem.com

 

 

 

 

 

 

 

 

 

 

 

Содержание DIGISPEED DS1/V2

Страница 1: ...e 3 D 72636 Frickenhausen Tel 49 7022 40590 0 Fax 10 Auf der Langwies 1 D 65510 Hünstetten Wallbach Tel 49 6126 9453 0 Fax 42 Internet http www digitronic com E Mail mail digitronic com 2 rue René Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 E mail hvssystem hvssystem com Site web www hvssystem com ...

Страница 2: ...ble for loss of profits forfeited savings intermediate and successive damages 2 The above mentioned limits to liability do not apply to insurance of named characteristics and damages which were caused deliberately or through negligence Protection The DIGISPEED and this instruction manual are protected by copyright All rights are reserved Neither the DIGISPEED nor this document may be copied as a w...

Страница 3: ... in DIGISPEED 7 4 1 Switching mode 1 factory preset 7 4 2 Switching mode 2 8 4 3 Switching mode3 9 4 4 Switching mode4 10 4 5 Configuration of the switching modes at DIGISPEED DS1 V2 11 5 Commisioning 11 5 1 The status LEDs 12 6 Recovery time for the DIGISPEED DS2 12 7 Terminal allocartion 13 8 Examples for connection 13 9 Dimensions 14 10 Technical Data 14 Ausgabe August 04 Seite 3 2 rue René Lae...

Страница 4: ...accelerates the dismantleling of the magnetic fieldusing a flywheel circle of 26V DC and causes a decreasing switching off time Result By time interval controlled overload impulsesin connection with the regulationof the flywheel voltage to 56V DC the DIGISOFT causes magnetically influenced switching links to work with tenth the speed 2 Attributes Microprocessor controlled perfomance electricity fo...

Страница 5: ...is able to antagonize the spring s force Now the switching movemeent is initialized This is finished at 41ms At the moment of 50ms the procedure of switchingboff begins The built in flywheeling diod causes a flywheeling voltage of 0 7V DC so that the flywheeling current de establishes the magnetic field slowly At 71 ms the spring s force is greater than the magnetic force so that the switching off...

Страница 6: ...he switching off is done at the moment of 50ms without flywheeling iode the flywheelingcurrent is set to 56V DC by the DIGISPEED This enables de establishing the magnetic force very quickly At 53ms the spring s power has allready overcome the magnetic force so that the switching off movement can be initialized At 67ms it is allready finished Important To use the reguzlated flywheeling circle s eff...

Страница 7: ...on out of an PLC controll 4 1 Switching mode 1 factory preset Switching mode 1 is the DIGISPEED s standard mode over energ over energ impuls Length Time Diagram Input 3 Input 4 Duration of the overenergizing impulse 0 VDC 0 VDC 1 ms 24 VDC 0 VDC 2 ms 0 VDC 24 VDC 5 ms 24 VDC 24 VDC 10 ms Ausgabe August 04 Seite 7 2 rue René Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 E mail h...

Страница 8: ...includes an enableling input E3 AND Linkage over over energ energ Impul length Time Diagram Input 4 Duration of the overenergizing impulse 0 VDC 2 ms 24 VDC 5 ms Ausgabe August 04 Seite 8 2 rue René Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 E mail hvssystem hvssystem com Site web www hvssystem com ...

Страница 9: ...DC 1 ms 24 VDC 0 VDC 2 ms 0 VDC 24 VDC 5 ms 24 VDC 24 VDC 10 ms Input 2 Pause 0 VDC Ü Zeit x 2 24 VDC Ü Zeit x 1 Ü Zeit Duration of the over energizing impulse Pause Time between the switching off of coil 1 and the switching on off coil 2 or vice versa It canb be calculated by multiplying the Ü Zeit with 2 or 1 Ausgabe August 04 Seite 9 2 rue René Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel...

Страница 10: ...n wire security for the reset input over over length length Impuls length Time diagram Input 3 Input 4 Duration of the over energizing impulse 0 VDC 0 VDC 1 ms 24 VDC 0 VDC 2 ms 0 VDC 24 VDC 5 ms 24 VDC 24 VDC 10 ms Ausgabe August 04 Seite 10 2 rue René Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 E mail hvssystem hvssystem com Site web www hvssystem com ...

Страница 11: ...rease the overenergizing time in small steps 8regarding the recovery time until no further improvement of switchimng behaviour can be detected Thenb switch back to the last overenergizing time with a detectable improvement of the switching behaviour To run the unit with a higher load does not make any sense since it only causes a quicker using up An optimal adjusted over energizing time on the con...

Страница 12: ... the continous recharging of the condenser to create the overload amplifier impulse since after every initiation of such a surge impulse the condenser has to recharge itself first This means that between two consecutive overload amplifier impulses you have to wait for at least the time given in the table below Current mA Ü Zeit 1 ms Ü Zeit 2 ms Ü Zeit 5 ms Ü Zeit 10 ms 100 4 ms 8 ms 20 ms 40 ms 20...

Страница 13: ...Terminal 7 output 1 Terminal 8 output 2 Terminal 9 24V DC 20 supply voltage a minimum of 5 0 Amp Terminal10 Do not connect for the internal condensors discharging only 8 Examples for connection Note The picture shows an DIGISPEED DS1 V2 set to 5ms over energizing time without galvanical separation at an S5 PLC Ausgabe August 04 Seite 13 2 rue René Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel...

Страница 14: ... Output voltage Supply voltage 1V at 1A permanent current bei 24V DC min 23V DC Output current 1A permanent current per output resistant against short circuits Delay times max 100µs Recovery times see chapter recovery times Cover hardly ignitable Thermoplast plastic continous temperature up to 100 C Conductor allocation five solid screw clamps up to 2 5mm in the structural module of 5 08mm with la...

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