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2.3 

Electrical Installation 

 

DANGER 

The device must be disconnected 

from any power supply prior to any 

installation or maintenance work. 

Make sure that no more voltages

 

LIABLE TO CAUSE AN ELECTROCUTION

 

are present.  

 

AC-powered devices must only be 

connected to the low-voltage network 

via a switch or circuit breaker installed 

close to the device and marked as 

their disconnecting device.  

 

Installation or maintenance work must 

only be carried out by qualified 

personnel and in compliance with the 

applicable national and international 

standards. 

 

Take care to separate all extra-low 

voltages entering or exiting the device 

from hazardous electrical conductors 

by means of a double or reinforced 

insulation (SELV circuits). 

 

 

DANGER 

The device must be protected 

externally for its proper operation. 

Information about the prescribed 

fuses can be found in the technical 

information. 

 

The relay outputs are not protected 

internally in the device. Without 

suitable protection of the relay 

outputs, undesired heat development 

or even fire may occur. The relay 

outputs must be protected externally 

by the manufacturer of the plant. It 

must also be made sure that, even in 

case of a malfunction, the values 

stated in the technical data are under 

no circumstances exceeded.  

 

 

During installation, make sure that the supply 

voltage and the wiring of the output contacts 

are both fed from the same mains phase, in 

order not to exceed the maximum permitted 

voltage of 250V. 

 

The cables and their insulation must be 

designed for the planned temperature and 

voltage ranges. Regarding the type of the 

cables, adhere to the applicable standards of 

the country and of the plant. The cross sections 

allowed for the screw terminals can be found in 

the technical data.  

 

Before starting the device, check the cables for 

proper wiring and tightening. The screws of 

unused screw terminals must be screwed to the 

stop, so that they cannot loosen and get lost.    

 

The device has been designed for overvoltage 

category II. If higher transient voltages cannot 

be excluded, additional protection measures 

must be taken in order to limit the overvoltage 

to the values of CAT II. 

 

Advice on noise immunity 

All connections are protected against external 

sources of interference. The installation location 

should be chosen so that inductive or capacitive 

interference does not affect the device or its 

connecting lines! Interference (e.g. from switch-

mode power supplies, motors, clocked controllers 

or contactors) can be reduced by means of 

appropriate cable routing and wiring.  

Measures to be taken: 

 

Use only shielded cable and control lines. 

Connect shield at both ends.  The conductor 

cross-section of the cables should be a 

minimum of 0.14 mm². 

 

The shield connection to the equipotential 

bonding should be as short as possible and 

with a contact area as large as possible (low-

impedance).  

 

Only connect the shields to the control panel, if 

the latter is also earthed.  

 

Install the device as far away as possible from 

noise-containing cables.  

 

Avoid routing signal or control cables parallel to 

power lines. 

2.4 

Cleaning and maintenance 

The front side of the unit should only be cleaned 

using a soft damp (water!) cloth. Cleaning of the 

embedded rear side is not planned and is the 

responsibility of the service personnel or of the 

installer.    

 

In normal operation, this device is maintenance-

free. Should the device nevertheless not operate 

properly, it must be sent back to the manufacturer 

or to the supplier. Opening and repairing the device 

by the user is not allowed and can adversely affect 

the original protection level.  

 

 

 

 

 

 

 

 

 

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Summary of Contents for CODIX 924

Page 1: ...CODIX 924 Electronic Preset Counter With two presets Models LCD positive LCD positive green backlighting LCD negative red backlighting LCD negative red green backlighting english ...

Page 2: ...ting the setting 7 7 7 Ending the programming 7 7 8 Programming Menu 8 7 8 1 Default parameters 8 7 8 2 Table Parameter Sets 8 7 8 3 Setting the Basic Function 8 7 8 4 Pulse Counter 9 7 8 5 Tacho Frequency meter 11 7 8 6 Timer 13 7 9 Setting the presets 17 7 9 1 Setting via Decade Keys 17 7 9 2 Setting with Teach In Function 17 7 9 3 Setting the tracking presets trail 17 7 10 Set Function 17 8 Err...

Page 3: ... 20 10 13Connections 20 11 Scope of Delivery 20 12 Ordering codes 20 13 Frequencies typical 20 13 1 Pulse counter 20 13 2 Frequency meter 21 14 Input modes Pulse counting 22 15 Input modes Timing 24 16 Input modes Frequency meter 25 17 Output operations 26 18 Dimensional Drawings 28 english Page 3 www kuebler com ...

Page 4: ...ccordance with its intended purpose and thus not complying with the requirements The application area for this device lies in industrial processes and controls in the fields of manufacturing lines for the metal wood plastics paper glass textile and other like industries Over voltages at the terminals of the device must be kept within the limits of Over voltage Category II The device must only be o...

Page 5: ...minals can be found in the technical data Before starting the device check the cables for proper wiring and tightening The screws of unused screw terminals must be screwed to the stop so that they cannot loosen and get lost The device has been designed for overvoltage category II If higher transient voltages cannot be excluded additional protection measures must be taken in order to limit the over...

Page 6: ...age 100 240 VAC 10 24 VAC or 10 30 VDC 4 Display Operating elements T1 6 Decade key T1 T6 P Prog Mode key R Reset key 8 Current count value main counter 9 Preset value Total count Batch counter 10 Run display for Timer 11 Shows which preset value is being displayed 12 Shows which preset output is active Pr Keys necessary for programming the parameters highlighted in grey 5 Inputs 5 1 INP A INP B S...

Page 7: ...ected using the keys T2 next and T1 back 7 3 Entering a Submenu The Submenu is opened with the Prog Mode key and the first menu item is displayed 7 4 Selecting the menu items The Prog Mode key is used to select a menu item within the Submenu 7 5 Setting the menu items The T2 key is used to select the individual settings for the menu items When setting count values each decade has a key assigned to...

Page 8: ... set 2 Default setting Parameter set 3 Freely programmable User settings Factory settings are highlighted in grey 7 8 2 Table Parameter Sets P SEt 1 P SEt 2 P SET 3 Func Count Count Count InP PoL PnP PnP PnP FiLtEr on oFF oFF Count Cnt dir uP dn Quad MPi LAtch LAtch Set Loc InP ProG ProG ProG ModE Add Sub TrAiL FActor 01 0000 01 0000 01 0000 diViSo 01 0000 01 0000 01 0000 dP 0 0 0 00 SEtPt 000000 ...

Page 9: ...ed Ratio measurement A B Inp A count input A Inp B count input B Percentage differential counting A B A in Inp A count input A Inp B count input B User input When the MPI input is activated the display is frozen and remains frozen until the MPI input is deactivated Internally the preset counter continues counting When the MPI input is activated the current count value for the preset that has just ...

Page 10: ...when Batch counter preset 1 Manual reset sets main counter to preset value 2 batch counter to zero Electrical reset only sets the main counter to preset value 2 Count mode ADDING with automatic reset and Total counter Output 2 timed signal active when main counter preset value 2 Automatic reset to zero when main counter preset value 2 Total counter counts all the count pulses from the main counter...

Page 11: ...y colour for device 6 92x x1x3 xx0 Display colour upper line red lower line red Display colour upper line red lower line green 7 8 4 4 Mainmenu for reset mode Setting the reset mode Manual reset with red key and electrical reset reset input No reset possible red key and reset input inhibited Only electrical reset possible reset input Only manual reset possible red key 7 8 4 5 Preset 1 See below 7 ...

Page 12: ...When the Lock input is activated the setting of the preset values and the programming are both inhibited 7 8 5 2 Mainmenu for configuration Mainmenu for matching the input pulses and display Multiplication factor Multiplication factor can be programmed from 00 0001 to 99 9999 The setting 00 0000 will not be accepted Division factor Division factor can be programmed from 01 0000 to 99 9999 The sett...

Page 13: ...np A and Inp B no function The timer is reset by means of a RESET to zero when adding to preset 2 when subtracting and then starts timing again Timing is stopped with adding operations when preset 2 is reached Timing is stopped with subtracting operations when zero is reached A RESET during the timing process also causes this to stop Inp A and Inp B no function Gate control for Timing Timing takes...

Page 14: ... of automatic repetitions of preset 2 Output 1 active when batch counter preset 1 manual reset sets both counters to zero electrical reset sets only main counter to zero Count mode SUBTRACTING with automatic reset and Batch counter Output 2 timed signal active when main counter zero Automatic reset to preset 2 when main counter zero Batch counter counts the number of automatic repetitions of prese...

Page 15: ...the resolution 0 no decimal place 0 0 1 decimal place 0 00 2 decimal places 0 000 3 decimal places Set value Set value can be programmed from 000000 to 999999 A previously programmed decimal point will be displayed Display colour for 6 92x x1x3 xx0 Display colour upper line red lower line red Display colour upper line red lower line green 7 8 6 4 Mainmenu for reset mode Setting the reset mode Manu...

Page 16: ...and when count Preset 1 Duration of timed signal of Output 1 programmable from 00 01 to 99 99 s Timed signal is post triggered 7 8 6 6 Mainmenu for Preset 2 Mainmenu for Preset 2 ADD mode output operations permanent signal at Output 2 becomes active when count Preset 2 SUB mode output operations permanent signal at Output 2 becomes active when count zero ADD mode output operations permanent signal...

Page 17: ...Reset key the new preset value will be accepted and the counter will switch back to operating mode 7 9 2 Setting with Teach In Function Program the MPI input to tEAch In programming mode select the preset to be changed using the Prog Mode key Briefly activate the MPI NPN or PNP input logic The current count value will be adopted as the new preset value The preset value can subsequently be further ...

Page 18: ...AC 100 240 VAC 10 N DC 10 30 VDC Supply voltage 15 AC 100 240 VAC 10 L DC GND 0 VDC Supply voltage 10 Technical Data 10 1 General Data Display LCD positive or negative backlit 2 x 6 digit Digit height upper line 9 mm lower line 7 mm special characters 2 mm Overload Blinking 1 s Underload Counter loses up to 1 decade no pulses Data retention 10 years EEPROM Operation 8 keys 10 2 Pulse counter Count...

Page 19: ...switching cycles at 3 A 30 V DC 1x105 or NPN optocoupler Switching capacity 30 VDC 10 mA UCESAT for IC 10 mA max 2 0 V UCESAT for IC 5 mA max 0 4 V Output 2 Relay with changeover contact Prescribed fuse 3A Switching voltage max 250 VAC 150 VDC Switching current max 3 A AC A DC min 30 mA DC Switching capacity max 750 VA 90 W The maximum values shall in no case be exceeded Mechanical service life sw...

Page 20: ...Connections Supply voltage and outputs Plug in screw terminal 7 pin RM5 08 Core cross section max 2 5 mm Signal and control inputs Plug in screw terminal 8 pin RM 3 81 Core cross section max 1 5 mm 11 Scope of Delivery Delivery includes Preset counter Mounting clip Instruction manual 12 Ordering codes 6 924 X1XX XX0 Input trigger levels 0 Standard HTL A 4 30 VDC Supply voltage 0 100 240 V AC 10 2 ...

Page 21: ...typ High 22 V DC supply 12V typ Low 2 V typ High 10 V DC supply 24V typ Low 2 5 V typ High 22 V 4 30 V level typ Low 1 0 V typ High 4 0 V HTL 5V A 65 kHz 9 kHz A B A B A B A B A 65 kHz 9 kHz Quad 30 kHz 9 kHz NOTE Switching levels of the input Switching levels with AC supply HTL level Low 0 4 VDC High 12 30 VDC 4 30 V level Low 0 2VDC High 3 5 30 VDC Switching levels with DC supply HTL level Low 0...

Page 22: ... Up Dn Inp A Count input add Inp B Count input sub Add Display 0 Preset Sub Display Preset 0 Up Up Inp A Count input 1 add Inp B Count input 2 add Add Display 0 Preset Quad A 90 B Inp A Count input Count on one edge Inp B Reverse direction Add Display 0 Preset Sub Display Preset 0 Quad 2 A 90 B Inp A Count input Count on rising and on falling edges Inp B Reverse direction Add Display 0 Preset Sub ...

Page 23: ...B Inp A Count input Count on rising and on falling edges Inp B Count input Count on rising and on falling edges Reverse direction Add Display 0 Preset Sub Display Preset 0 A B Inp A Count input 1 Inp B Count input 2 Formula A B A B A Inp A Count input 1 Inp B Count input 2 Formula A B A x100 english Page 23 www kuebler com ...

Page 24: ...nB Inp A no function Inp B Start Stop Add Display 0 Preset Sub Display Preset 0 FrRrun Inp A no function Inp B no function Control of the timing only via the GATE input Add Display 0 Preset Sub Display Preset 0 Auto Inp A no function Inp B no function Control of the timing via RESET manual or electrical Add Display 0 Preset Sub Display Preset 0 Page 24 www kuebler com ...

Page 25: ... A Frequency input 1 Inp B Frequency input 2 Formula A B AaddB Inp A Frequency input 1 Inp B Frequency input 2 Formula A B Quad A 90 B Inp A Frequency input 1 Inp B Reverse direction A B Inp A Frequency input 1 Inp B Frequency input 2 Formula A B A B A Inp A Frequency input 1 Inp B Frequency input 2 Formula A B A x100 english Page 25 www kuebler com ...

Page 26: ...17 Output operations Mode Diagram Mode Diagram Only in the mode and Additionally in the mode and Add Sub AddAr SubAr AddBat SubBat AddTot SubTot Page 26 www kuebler com ...

Page 27: ...Mode Diagram Trail TrailAr english Page 27 www kuebler com ...

Page 28: ...18 Dimensional Drawings Dimensions in mm inch Panel cut out Page 28 www kuebler com ...

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