Service Manual: F .U.-.N. F .U. - .N [PDF]

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service manual Version EC 10-01.xx

Table of Contents

1.

GENERAL OPERATING INSTRUCTIONS FOR PARAMETERIZATION .................................................. 3

1

PUTTING INTO OPERATION...................................................................................................................... 4 1.1

2

PARAMETER OVERVIEW .......................................................................................................................... 5 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 2.12 2.13 2.14 2.15 2.16 2.17 2.18 2.19 2.20 2.21 2.22 2.23 2.24 2.25 2.26 2.27 2.28 2.29 2.30 2.31 2.32 2.33 2.34 2.35 2.36 2.37 2.38 2.39 2.40 2.41 2.42

3

INPUT PARAMETRISATION ....................................................................................................................... 82 OUTPUT PARAMETRISATION.................................................................................................................... 83

OVERVIEW OF MESSAGES..................................................................................................................... 84 4.1

2


COUNTER AND TIMES ............................................................................................................................... 5 DRIVE ..................................................................................................................................................... 5 CONVERTER ............................................................................................................................................ 7 BRAKE .................................................................................................................................................. 10 POSITIONING SYSTEM ............................................................................................................................ 11 POSITIONING ......................................................................................................................................... 11 SYNCHRONIZATION ................................................................................................................................ 18 SPEEDS ................................................................................................................................................ 20 ERROR MONITORING .............................................................................................................................. 34 CLOSING-EDGE SAFETY ......................................................................................................................... 37 ADDITIONAL SAFETY A-C........................................................................................................................ 41 INPUTS .................................................................................................................................................. 43 OPEN COMMANDS .................................................................................................................................. 44 CURRENT IMPULSE COMMANDS .............................................................................................................. 45 PULSE OPEN COMMANDS.................................................................................................................... 47 STOP COMMANDS .................................................................................................................................. 48 ADDITIONAL SAFETY B ........................................................................................................................... 49 MANUAL / AUTOMATIC TOGGLING ............................................................................................................ 51 CLOSE COMMANDS ................................................................................................................................ 52 DOOR LOCKING IN END POSITION ............................................................................................................ 53 CROSS TRAFFIC INPUT ........................................................................................................................... 54 SWITCHING OFF / DEACTIVATING ............................................................................................................. 55 LIMIT SWITCH FUNCTIONS ....................................................................................................................... 56 ADDITIONAL SAFETY A ........................................................................................................................... 57 SIMULATION OF THE FOIL KEYPAD ........................................................................................................... 58 ADDITIONAL SAFETY C ........................................................................................................................... 59 EMERGENCY OFF ............................................................................................................................. 61 FOIL KEYPAD ......................................................................................................................................... 61 LOOP DETECTOR 1................................................................................................................................. 63 RADIO CHANNEL 1+2............................................................................................................................. 67 LOOP DETECTOR 3................................................................................................................................. 68 LOOP DETECTOR 4................................................................................................................................. 71 OUTPUTS .............................................................................................................................................. 73 FORWARDING OF POSITION..................................................................................................................... 75 TRAFFIC LIGHT FUNCTION ....................................................................................................................... 75 COMMAND FORWARDING ........................................................................................................................ 76 ADDITIONAL CIRCUIT BOARD ................................................................................................................... 77 BLOCK TIMES......................................................................................................................................... 77 AIRLOCK ............................................................................................................................................... 78 CRASH .................................................................................................................................................. 78 DIAGNOSIS ............................................................................................................................................ 78 GENERAL BASIC SETTINGS ..................................................................................................................... 81

IN-/OUTPUT PARAMETRISATION........................................................................................................... 82 3.1 3.2

4

NEW REQUEST OF TEACHING OF END POSITIONS........................................................................................ 4

INFORMATION MESSAGES ....................................................................................................................... 88

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EFAFLEX GmbH

EFACON

Door-Controller

1. General operating instructions for parameterization Operating element A

Function / remarks

Reaction

LC display

Activate the parameter mode 1 to 3: Optionally to enable code inputs (Par 999 visible)

1.

2.

3.

4.

Turn off main switch

Supply separated at all poles (observe safety instructions)

Set service DIPswitch S200 to ON

Service mode is active

Turn on main switch

Controller is switched on

Press STOP+OPEN keys at same time for 1s!

Software-controlled switching into parameter mode

0/off

SERVICE

1 on

×


 B

OPEN or CLOSE

C

Select desired parameter W A R N I N G: Not all the parameters are directly accessible or changible. This depends on the password used in P.999 and the door type selected

xxxx

The parameter value can be checked and changed (see C)

Control the parameter mode

In the bottom line, the parameter P: Service number with the currently set xxx xx value is shown.

STOP short

Value of the parameter

P: Service The cursor jumps to the right onto the parameter value xxx= 10

×

OPEN

Press OPEN key to increase parameter value

If the current parameter value is P: Service increased, a little star flashes xxx= 11‘ behind the value.

Ø

CLOSE

Press CLOSE key to reduce the parameter value

If the current parameter value is P: Service decreased, a little star flashes xxx= 09‘ behind the value.

STOP long

Store set parameter value

The parameter value is stored P: Service when a hook appears behind the xxx= 119 value.

STOP short

Reject selected parameter value

Abortion, P: Service the original parameter value is xxx= 10 shown again

STOP short

End of parameter setting

P: Service The cursor jumps to the left onto the parameter number xxx 10











or

4.

000=

Value change in parameters

2.

3.

P: Service

Parameter selection

× Ø

1.

„Service“ is shown in the top line of the display






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3

Operating element

Function / remarks

D

Reaction

LC display

Automatic operation, procedure depending on the door type set.

Sync-Start

End the parameter mode Press STOP key Parameter mode is left, automatic 3s mode active

1.

2-4: Optionally to enable code inputs (Par 999 not visible) 2

3.

SERVICE

1 on

Turn off main switch

Supply separated at all poles (observe safety instructions)

Set service DIPswitch S200 to OFF

Service mode inactive close control cabinet

Turn on main switch

Control active, in automatic mode

Automatic operation, procedure depending on the door type set.

Sync-Start

S200

4.

0/off

ON

OFF

X26

S200

80 81 X25

82

83

1 1

2

61 60 X 23

2

3

4

5

70 71 X24

1

72

73

74

Figure Position S200

1

Putting into operation

1. After switching on, change to the synchronization mode by briefly pressing the STOP key 2. Close door using the CLOSE key and save position by pressing the STOP key (for approx 3 seconds). IMPORTANT If necessary increase BOOST (see Chapter 2.3).

3. Press foil keypad OPEN key door OPEN position is automatically moved to in slow motion and stored. By the subsequent first travels of the door in automatic operation, the acceleration and braking ramps are automatically set.

1.1

New request of teaching of end positions

The teaching of end positions can be again requested. Set parameter P.210 = New teaching of all end positions at value „5“.

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EFAFLEX GmbH

EFACON

Door-Controller

2 Parameter overview P.

2.1

[Unit] Operating range

Function

Description / note

Counter and times

P.000

[Cycles]

Door cycle counter

P.002

[Cycles]

Total number of cycles

Indicates the total number of counted door cycles This counter can be reset via P.998 = 2 (password-protected)

P.005

[Cycles]

Maintenance instruction

Indicates the number of cycles remaining until maintenance is due

Shows the number of counted door cycles

) Setting -1 means that the counter has not yet been activated. P.010

[s] 0 ... 200

Keep open time 1

Indicates the time value, after which the door is automatically closed (is active after complete door opening)

P.011

[s] 0 ... 200

Keep open time 2

Indicates the time value, after which the door is automatically closed (is active on travel to intermediate hold)

P.015

[s] 0 ... 200 [s] 0 ... 60 [s] 0 ... 60

Minimum keep-open time Minimum display time for green signal Saving of opening pulses

Indicates the minimum time value, after which the door is automatically closed Stipulates the direction release for the air locks

P.016 P.017

P.018

[min] 0 ... 255

P.019

[s] 0 ... 60

P.020

[10ms] 0 ... 1000 [s] 0 ... 20

P.025

P.026

0 .. 1

P.030

[sec] 0 ... 60

2.2

0: Saving of opening pulses is switched off > 0: Saving period for opening pulses (is only active when the door is closed) Compulsory opening 0: Compulsory opening time is switched off time > 0: Door opens after the time set and closes after the pre-set keep open time 1 (P.010) Saving of closing 0: Saving of closing commands is switched off. commands > 0: Closing command is saved for this time with active counterlocking Pre-warming time before The opening of the door is delayed after the receipt of the OPEN opening command by the time set in this parameter. Pre-warming time before The closing of the door is delayed after the receipt of the CLOSE closing command or after expiry of the keep open time (compulsory closing) by the time set in this parameter. Clearing / Pre-warning 0: Clearing time is only active in the end positions. time 1: Counts down always, not only in the end positions. Vehicle - over-length detection after x sec

Drive

P.100

[HZ] 30 ... 200

Motor rated frequency

The motor-rated frequency indicated on the nameplate of the motor is entered here.

P.101

[A] 0 ... 9,9

Motor rated current

The motor-rated current indicated on the nameplate of the motor is entered here. IMPORTANT Note Y/∆ switching of the motor! (see Figure 1: Typical star /delta wiring

P.102

[%] 40 ... 100

Power factor cos ϕ

The time factor indicated on the nameplate of the motor is entered here.

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5

P.

[Unit] Operating range

Function

Description / note

IMPORTANT The entry is made without the leading „0“, 63 thus means cos ϕ 0.63. P.103

[V] 100 ... 500

Motor rated voltage

The motor-rated voltage indicated on the nameplate of the motor is entered here. IMPORTANT Note Y/∆ switching of the motor! L1

L2

L3

U1

V1

W1

W2

U2

V2

Stern-Schaltunng

L1

L2

L3

U1

V1

W1

W2

U2

V2

Dreieck-Schaltung

Figure 2: Typical star /delta wiring IMPORTANT Switching of the motor windings to 400V operation does not make sense with the efacon door controller, as it can output a maximum of 230V!

U

Unenn P103

f nenn P100

Input of the voltage frequency curve on the basis of the motor nameplate

Figure 3: Voltage / frequency curve P.110

Drive profile

This profile is used to set the motor rating of a known motor.

) The exact settings which the profile involves can be found in the „drive profile appendix“. Example settings for typical motors Motor nameplate Rated freRated Nominal quency voltages output: (Example) ∆/Y

6


P.100

50 Hz

230 / 400 V

2.2 kW

50 Hz

50 Hz

133 / 230 V

1.1 kW

50 Hz

in ∆ P.103 Output and P.100 cutoff frequency at 400 V 3.8 kW 230 V 50 Hz at 87 Hz 3.3 kW 133 V 50 Hz at 150 Hz

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in Y P.103 Output and cutoff frequency at 400 V 2.2 kW at 50 400 V Hz 1.9 kW 230 V at 87 Hz

EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

100 Hz

230 / 400 V

2.2 kW

100 Hz

230 V

3.8 kW at 173 Hz

100 Hz

133 / 230 V

1.1 kW

100 Hz

133 V

not useful

0 ... 1

Motor cut-out

P.111

400 V 230 V

2.2 kW at 100 Hz 1.9 kW at 173 Hz

The motor cut-out activates the monitoring of the motor current (error message F515). 0:

1: 2.3

100 Hz 100 Hz

Normal operation (switched off) Activated

Converter

P.130

0 ... 1

Motor rotary field

P.140

[%] 0 ... 30

Boost for OPEN move

This parameter specifies the rotary field of the motor for OPEN move. 0: Right rotating 1: Left rotating The boost increases the output voltage and thus the power in the lower speed range until the cutoff frequency (P.100) is reached.

U UMAX Boost curve

P.140/ 145

normal curve

Fcutoff

f

Figure 4: Boost curve

P.141

[Hz] 10 ... 200

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Start frequency of the frequency ramp stop for OPEN

The voltage is increased by the value in percent of the motor rated voltage (P.103) entered in the parameter. Here, the starting point for the frequency ramp stop function is set. Below the set frequency the function is deactivated. The current may then rise above the limit of 2x the motor rated current (P.101). This is possible for a short time, but for longer travel will result in an overcurrent error (F.410 or F.510).

7

P.

[Unit] Operating range

Function

Description / note

i

Without frequency ramp stop function

F410 2x motor rated current P101

t The frequency stop function enables the moving of heavy doors.

f fmax P310

fRampstop P141/146

t Figure 5: Frequency ramp stop characteristic curve

) Setting of 200 deactivates the function P.142

[Hz] 0 ... 15

IxR compensation for OPEN

In this parameter you specify the frequency up to which IxR compensation is in effect. The voltage is held at the same value below this frequency. The voltage value is derived from the voltage which is normally output for the frequency set here.

U UMAX

UIXR

fIxR

fECK

f

Figure 6: IxR compensation characteristic curve

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

The IxR compensation increases the voltage and thus the output of the motor exclusively in the lower speed range. P.143

[% 35 ... 100

Voltage reduction for OPEN move

The indicated value specifies what percent of the output voltage is.

U U MAX % U NENN P.143/ 148

f ECK

f

Figure 7: Voltage reduction characteristic curve By the reduction of the motor voltage output an overshooting of the motor is prevented. This reduces losses and noise. P.145 P.146

P.147 P.148 P.148 Mcp2 P.147

P.14C Mcp2 P.148

P.160

[%] 0 ... 30 [Hz] 10 ... 200 [Hz] 0 ... 15 [%] 35 ... 100 [%] 0 ... 30 [Ink] 0 ... 4200 0 ... 4

Boost for Close move

See parameter P.140

Start frequency of the frequency ramp stop for CLOSE IxR compensation for CLOSE Voltage reduction for CLOSE Boost for safety reversal

See parameter P.141

Limit value for P.14B

See parameter P.142 See parameter P.143 Voltage increase (U/f-curve) for safety reversal for the lower speed range Below this position, P14B is not used, but P140 (boost for open) 0: function is switched off, P.140 is always used

PWM – pulse frequency The switching frequency of the output voltage can be adjusted with this parameter. The rule of thumb is: The higher the clock frequency the more heat is developed. 0: 1: 2: 3: 4:

P.161 Mcp2 P.103

[Hz] 15 ... 200

The pulse frequency is temperature-controlled. 4 kHz 8 kHz 12 kHz 15 kHz

Max. frequency for open The maximum permissible travel speed is limited by the value entered in this parameter.

) This parameter can only be changed by someone having a password for the plant level. P.162 Mcp2 P.103

P.165

[Hz] 15 ... 200 0 ... 3

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Max. frequency for close See parameter P.161 Monitoring the mains input voltage

The mains input voltage is monitored by the door controller

9

P.

[Unit] Operating range

Function

Description / note

ATTENTION If the mains input voltage is too high, this may damage the controller.

There are various ways to respond to excessive voltage. 0: 1: 2: 3:

P.17F

Converter profile

Function deactivated Warning F.425 is issued for overvoltage Fault F.525 is issued for overvoltage and the door can only be operated in deadman mode Fault F.525 is issued for overvoltage and no operation is possible

This profile is used to make converter-specific settings.

) The exact settings which the profile involves can be found in the „drive profile appendix“.

2.4

Brake

P.180

[Hz] 0 ... 20

Activating the brake

The brake is activated when the travel frequency specified in the parameter falls short while the door is slowing down.

P.181

[10ms] 0 ... 6000

Activating the brake

The brake is activated after reaching the limit switch bands after the time set in the parameter

) Parameters P.180 and P.181 work in parallel. The function whose condition is first met is executed. P.185

[Hz] 0 ... 20

Deactivating the brake

The brake is deactivated when the travel frequency specified in the parameter is exceeded while the door is accelerating.

P.186

[10ms] 0 ... 6000

Deactivating the brake

The brake is deactivated after the time specified in the parameter during acceleration of the door.

) Parameters P.185 and P.186 work in parallel. The function whose condition is first met is executed. P.187

0 ... 1

P.18F

Switching brake contact

Brake profile

Switching of the rest state of the brake contact 0: Brake contact declined in rest state 1: Brake contact increased in rest state This profile is used to set the behaviour of the brake.

) The exact settings which the profile involves can be found in the „drive profile" appendix. P.189

[%] 0 ... 50

Brake for lifting anchor motors

Lifting anchor motors require a voltage in order to lift the rotor. Only then is the motor able to turn. Since frequency converters increase the voltage at the beginning of travel only slowly, this does not result in releasing of the brake or raising of the rotor. Therefore this parameter is used to set a voltage increase similar to IxR compensation The value of this parameter is expressed in percent of motor rated voltage The amount of voltage required varies with the motor model, so that the best setting is determined experimentally. Generally, the parameter should be set as low as possible.

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EFACON

Door-Controller P.

2.5

[Unit] Operating range

Function

Description / note

Positioning system

P.200

0 ... 8

P.201

0 ... 1

Selecting the positioning Select from the following systems: system 0: Mechanical limit switches 1: Absolute encoders TST PB-A 2: Incremental encoders 3: Absolute encoder DES-A with 19200 Baud 4: Absolute encoder DES-A with 9600 Baud 5: Reserved 6: Reserved 7: Absolute encoder DES-B 8: Absolute encoder EFA-PD Baud rate

This parameter determines the baud rate of the limit switch connected. with absolute encoder DES-B 0: 9600 Baud 1: 19200 Baud ) This parameter is only visible if P.200 is parameterized to DESB.

P.202

0 ... 20

Translation factor

This parameter is used to set the translation factor of the encoder. The quicker the drive shaft, the higher the translation factor set. Is only effective in connection with the absolute encoder EFA-PD. ) This parameter is only visible if P.200 is parameterized to EFAPD.

P.205

Positioning system profile

This profile sets the limit switch system used. IMPORTANT In addition, the standard functions of the controller inputs are adjusted to the limit switch type used.

) The exact settings which the profile involves can be found in the „positioning system profile" appendix.

2.6 P.210

Positioning 0 ... 5

New teaching of end positions:

This parameter is used to start a new teaching of the end positions. The corresponding end positions are moved to in deadman mode after activating the procedure and saved by holding down the stop key. The following setting options are possible: 0: 1: 2: 3: 4: 5:

Cancel, no end positions are taught. Lower limit switch, upper limit switch and if appropriate limit switch Intermediate Stop are taught Upper limit switch and if appropriate limit switch Intermediate Stop are taught Lower limit switch and upper limit switch are taught. Limit switch Intermediate Stop is taught. All limit switches are taught.

) Teaching the intermediate stop limit switch depends on the

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11

P.

[Unit] Operating range

Function

Description / note

setting in Parameter P.244 P.215

0 ... 1

Requesting correction of If automatic calculation of the pre-limit switch and limit switch bands the pre-limit switch and (P.216) is activated, this parameter can be used to start a new limit switch bands teaching of the pre-limit switch and limit switch bands. 0: 1:

Make no correction. Start correction of the pre-limit switch and limit switch bands

) Correction of the pre-limit switch and limit switch bands is only possible if P.216 = 2 P.216

0 ... 2

Selecting the ramp setting mode

There are two basic ways to set the steepness of a ramp. The ramp time can be set in milliseconds, or the ramp acceleration can be set in Hz per second. In addition, the limit switch bands are automatically set when Automatic is activated. 0: 1:

2:

Ramp times are manually set. Ramp acceleration is manually set. Acceleration and limit switches are automatically set. IMPORTANT In case of changing the speed of the door or one of the ramp accelerations the automatically setting of the pre limit switches and limit switch bands will start again. The values set in the corresponding parameters are then overwritten.

) Automatic teaching of the limit switches and ramp times only functions if accelerations for ramps are set. You cannot use ramp times as they were defined in earlier versions of the controllers P.217

[%] 0 ... 250

Tolerance band for automatic limit switch correction

An offset value is added to the end position ascertained by the automatic limit switch correction. This prevents the door from crossing the end position during the first travel and being damaged. The end position is shifted by the percentage set.

P.218

0 ... 2

Independent implementation of automatic limit switch correction

This parameter is used to determine the start conditions for the independent implementation of the automatic end limit switch correction. If the start condition is fulfilled, the controller starts with an automatic operation, whereby in the LOWER end position and in the UPPER end position a keep open time expires, which can be set by P.219. Then, the door moves again into the other end position. If the message I.510 is issued, the automatic limit switch correction is completed and the door remains in the LOWER end position. Independent implementation is deactivated. 0: Independent implementation is started by request OPEN or CLOSE command 1: Independent implementation is started after the expiry of the time set in parameter P.219.

) If the automatic limit switch correction can not be completed, the automatic implementation is aborted after 15 door cycles. Such a reason can be the message I.520, for example. P.219

[s] 2 ... 60

P.221

[Increments] ± 125

12


Time for the independent implementation of automatic limit switch correction Correction value end position door CLOSE

This parameter is used to set the keep open time in the LOWER and UPPER end position during the independent implementation of the limit switch correction. In addition, this time can be used as a start condition, if P.218 = 2 is set. This parameter is used to shift the entire lower end position, i.e. the end position is shifted together with the relevant pre-limit switch.

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

A change of the parameter value into a positive direction leads to a shift of the end position upwards. A change of the parameter value into the negative direction leads to a shift of the end position downwards. P.222 Mcp2 P.223

[Increments] 0 ... 2100

Position pre-limit switch door CLOSE

The parameter value specifies the distance to the absolute limit switch door CLOSE in increments. The pre-limit switch is used to initiate the brake ramp “r6”. The steepness of the ramp is set with Parameter P.361 or P.362. Limit switch Door CLOSE

Way

Pre limit switch Door CLOSE

CLOSE

P.222

Break ramp r6 P.361 / P.362

Frequency Figure 8: Pre-limit switch position door CLOSE P.223 Mcp2 P.222

[Increments] 0 ... 200

Limit switch band door CLOSE

The limit switch band specifies the range by detecting the position as end position for door CLOSE. This is comparable with the range in which a mechanical cam limit switch is tripped. When the limit switch band is reached, the stop ramp “ru” is run. The steepness of the ramp is set with Parameter P.381 or P.383 Limit switch Door CLOSE

Way

Pre limit switch Door CLOSE

CLOSE

P.223

Stop ramp ru P.381 / P.383

Frequency Figure 9: Limit switch band door CLOSE P.225

[Increments] 0 ... 4200

Position of second prelimit switch door CLOSE

This pre-limit switch is used to achieve an additional acceleration ramp during the beginning of the door travel. The incremental value entered in the parameter specifies the distance of the pre-limit switch 2 to the end position down. At the beginning of the travel, the start ramp „r3“ is run. After activation of the pre-limit switch 2, the start ramp „r1“ begins.

) Without activated pre-limit switch 2, the travel starts directly with

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13

P.

[Unit] Operating range

Function

Description / note

start ramp „r1“. The steepness of the start ramp "r1" is set with parameter P.311 or P.312, the steepness of the start ramp "r3" is set with parameter P.316 or P.317.

Frequency

Start ramp r1 P.311 / P.312

Start ramp r1 P.311 / P.312

Limit switch Door CLOSE

P.225

Pre limit switch 2

Way

OPEN

Figure 10: Pre-limit switch 2 door CLOSE P.226

[Increments] 0 ... 2100

Position of third pre-limit With this pre-limit switch an additional brake ramp for braking the switch door is activated. end position door CLOSE 0 switches off the additional brake ramp. The entered value specifies the distance of the pre-limit switch to the end position door CLOSE in increments. The pre-limit switch 3 is used to initiate the brake ramp “r8”. The steepness of this ramp is set with Parameter P.366 or P.367. After reaching the pre-limit switch door CLOSE, the ramp “r6” is run. Limit switch Door CLOSE

Way

Pre limit switch Door CLOSE

Pre limit switch 3 Door CLOSE

CLOSE

Break ramp r6 P.361 / P.362 Break ramp r8 P.366 / P.367

Frequency Figure 11: Pre-limit switch 3 door CLOSE P.229

[Increments] 0 ... 100

Emergency limit switch band door CLOSE

The emergency limit switch band lies behind the limit switch band (P.223). If the limit switch band is passed and the emergency limit switch band reached, the frequency converter runs a fast stop ramp. At the same time the information message I.150 (End position door CLOSE reached at excessively high speed) is issued.

) This function is comparable with a mechanical cam-operated limit switch, which generates an E-STOP when the end position is crossed.

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

Limit switch Door CLOSE

CLOSE

Pre limit switch Door CLOSE

P.229 P.223

Way

Frequency Figure 12: Emergency limit switch band door CLOSE

P.230

[Increments] 50 ... 9999

End position door OPEN This parameter displays the number of increments that were taught during calibration or synchronization of the door

) The end position door OPEN can be manually shifted by changing this value. IMPORTANT A maximum of 3700 increments are possible when using absolute encoders for position sensing. P.231

[Increments] ± 60

Correction value end position door OPEN

P.232

[Increments] 0 ... 2100

Position pre-limit switch door OPEN

Mcp2 P.233

This parameter is used to shift the entire door OPEN end position, i.e., the end position is shifted together with the associated pre-limit switches. A change in the parameter value in the negative direction causes the end position to shift up. A change in the parameter value in the negative direction causes the end position to shift down. The parameter value specifies the distance to the absolute limit switch door OPEN in increments. The pre-limit switch is used to initiate the brake ramp “r2”. The steepness of the ramp is set with Parameter P.321 or P.322

Frequency

Break ramp r2 P.321 / P.322

P.232

OPEN

Pre limit switch Door OPEN

Way

Limit switch Door OPEN

Figure 13: Pre-limit switch position door OPEN P.233 Mcp2 P.232

[Increments] 0 ... 200

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Limit switch band door OPEN

The limit switch band specifies the range by detecting the position as upper end position. This is comparable with the range in which a mechanical cam switch is tripped. When the limit switch band is reached, the stop ramp “ro” is run.

15

P.

[Unit] Operating range

Function

Description / note

The steepness of the ramp is set with Parameter P.341 or P.343

Frequency

Stop ramp ro P.341 / P.343

P.233

OPEN

Pre limit switch Door OPEN

Way

Limit switch Door OPEN

.Figure 14: End-limit switch band door OPEN P.235

[Increments] 0 ... 4200

Position of second pre- This pre-limit switch is used to achieve an additional acceleration ramp during the beginning of the door travel. limit switch End position door OPEN The incremental value entered in the parameter specifies the distance of the pre-limit switch 2 to the end position door OPEN. At the beginning of the travel, the start ramp „r/“ is run. After activation of the pre-limit switch 2, the start ramp „r5“ begins.

) Without activated pre-limit switch 2, the travel starts directly with start ramp „r5“. The steepness of the start ramp "r5" is set with parameter P.351 or P.352, the steepness of the start ramp "r7" is set with parameter P.356 or P.357.

Pre limit switch 2

CLOSE

Upper end position P.235

Way Start ramp r7 P.356 / P.357

Start ramp r5 P.351 / P.352 Frequency

Figure 15: Pre-limit switch 2 door OPEN P.236

16


[Increments] 0 ... 2100

Position of third pre-limit With this pre-limit switch an additional brake ramp when braking the switch door is activated. door OPEN The entered value specifies the distance from the pre-limit switch to the end position door CLOSE in increments. The pre-limit switch 3 is used to initiate the brake ramp “r4”. The steepness of this ramp is set with Parameter P.326 or P.327. After reaching the pre-limit switch door OPEN, the ramp “r2” is run.

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EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

Frequency

Break ramp r4 P.326 / P.327 Break ramp r2 P.321 / P.322

Pre limit switch 3 Door OPEN

OPEN

Pre limit switch Door OPEN

Way Limit switch Door OPEN

Figure 16: Pre-limit switch 3 door OPEN P.239

[Increments] 0 ... 100

Emergency switch band The emergency limit switch band lies behind the limit switch band door OPEN (P.223). If the limit switch band is passed and the emergency limit switch band reached, the frequency converter runs a fast stop ramp. At the same time the information message I.100 (End position door OPEN reached at excessively high speed) is issued. ) This function is comparable with a mechanical cam-operated limit switch, which generates an E-STOP when the end position is crossed.

Frequency

Way P.233 P.239

OPEN

Pre limit switch Door OPEN

Limit switch Door OPEN

Figure 17: Emergency limit switch band door OPEN

P.240

[Increments] 25 ... 9999

Intermediate stop position E1

The entered value specifies the distance of the intermediate stop position to the end position door CLOSE in increments.

) If an absolute encoder is used as the limit switch, a max. of 4200 increments are possible. P.242 Mcp2 P.243

[Increments] 0 ... 2100

EFAFLEX GmbH

Position of middle prelimit switch

The parameter value specifies the distance to the middle limit switch in increments. The pre-limit switch is used to initiate the brake ramp “r2”. The steepness of the ramp is set with Parameter P.321 or P.322.

17

P.

[Unit] Operating range

Function

Description / note

Frequency

Break ramp r2 P.321 / P.322

P.242 Middle pre limit switch

OPEN

Way

Limit switch middle

Figure 18: Pre-limit switch intermediate stop P.244

0 ... 3

Selection of intermediate The position of the intermediate stop can be set directly to typical stop position values using this parameter. 0: 1: 2: 3:

No intermediate stop permitted, intermediate stop is same as end position for door OPEN Half-open door (½ of the value in P.230) Ҁ door opening (Ҁ of the value in P.230) Intermediate stop position is taught in deadman mode.

) The intermediate stop position cannot be manually taught in deadman mode, when the parameter P.253 is > 0. P.245

[Increments] 25 ... 9999

Intermediate stop position E2

The entered value specifies the distance of the intermediate stop position to the end position door CLOSE in increments.

) If an absolute encoder is used as the limit switch, a max. of 4200 increments are possible.

2.7

Synchronization

P.250

0 ... 1

Incremental counting

The pulses of the incremental encoder can be processed in two different ways. Either the edges (rising and falling edge) of the signal or the states (High or Low level) are evaluated. By counting edges, four increments per signal pair result. Counting states results in one increment per signal pair. 0. Quadrature method (edges are processed) 1. Single method (states are processed)

P.251

0 ... 5

Mode for automatic synchronization after power-up

The door position is lost after turning off the controller when using incremental encoders. To find a valid position again, the door must be resynchronized (homed) to a reference point. This parameter specifies how the door controller is to behave after power-up. 0: 1: 2:

18


Manual deadman move to door close end position, then save Position with STOP Manual deadman move to door open end position, then save Position with STOP Manual deadman move to door close end position, then deadman move to the door OPEN end position. Then save position with STOP automatic close move to reference point in

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

3: 4:

the door close end position Automatic OPEN move to reference point in the door open end position Automatic CLOSE move to reference point in the door CLOSE end position, then automatic OPEN move to reference point in the door OPEN end position

IMPORTANT Automatic opening is only possible if P.280 • 1. P.253

0 ... 4

Mcp2 P.252

Automatic first synchronization

If this parameter is activated, an automatic first synchronization is carried out, without manually teaching the end positions before. 0: Manual deadman move to door CLOSE end position, then deadman move to the door OPEN end position. Then save position with STOP 1: Manual deadman move to door CLOSE end position, then save position with STOP, then automatic OPEN travel to reference in the door OPEN end position. 2: Manual deadman move to the door OPEN end position, then save position with STOP, then automatic CLOSE travel to reference in the door CLOSE end position. 3: Automatic CLOSE move to reference point in the door CLOSE end position, then automatic OPEN move to reference point in the door OPEN end position 4: Automatic OPEN move to reference point in the door OPEN end position, then automatic CLOSE move to reference point in the door CLOSE end position

) The automatic first synchronization types P.253 > 0 cannot be used together with the manual teaching of the intermediate stop position P.244 = 3. In this case, the intermediate stop position is not taught! ) References for the two end positions are set with the parameters P.270 and P.280. As references which enable automatic teaching, the mechanical stop and the safety edge are intended. P.256

0 ... 1

P.25F

Synchronization after emergency stop

Synchronization profile

Mcp2 P.290

Synchronization after emergency stop 0: Deactivated 1: Active This profile is used to set the references switches and the mode of the automatic synchronization.

) The exact settings which the profile involves can be found in the „positioning system profile" appendix. P.270

0 ... 3

Select reference in the door CLOSE end position

Here you specify the type of reference which is activated in the door CLOSE end position. 0: 1:

2: 3:

No reference Reference switch Mech. stop Safety edge

IMPORTANT Automatic synchronization to reference switches only functions if the switch was previously detected during an automatic move. In this case, message I.200 is issued P.271

0 ... 3

Mcp2 P.254

Start conditions for automatic synchronization

Automatic synchronization to the door CLOSE end position starts under the following conditions: 0:

EFAFLEX GmbH

After briefly pressing the foil key À CLOSE

19

P.

[Unit] Operating range

Function

Description / note

1:

P.272

0 ... 1

Cyclical synchronization: When cyclical synchronization is enabled, the reference position is checked each time a close move is made. If this deviates too significantly from the learned position, a fault is generated. 0: 1:

P.273

[s] 0 ... 200

P.275

[Increments] ±500

P.280

0 ... 2

Waiting time before the beginning of the automatic synchronization Correct increments after completion of synchronization

The value entered in this parameter is used to shift the switching off position of the door. If, for example, synchronization to a mech. stop is made, the door should not travel against this stop with each travel. To prevent this, the stop position is corrected using this parameter. Select reference in the Here you specify the type of reference which is activated in the door OPEN end position door OPEN end position.

2:

0 ... 1

Mcp2 P.254

Synchronization only after turning on the controller A recalibration is performed after each automatic close move

After expiry of this time, the automatic synchronization of the door CLOSE end position begins if Parameter P.273 was entered as a start condition in Parameter P.271.

0: 1:

P.281

Automatically after the synchronization time entered in Parameter P.273 has elapsed.

Start conditions for automatic synchronization

No reference Reference switch Mech. stop

IMPORTANT Automatic synchronization to reference switches only functions if the switch was previously detected during an automatic move. In this case, message I.200 is issued. Automatic synchronization to the door OPEN end position starts under the following conditions:

After briefly pressing the foil key ¿ OPEN Automatically after the synchronization time entered in Parameter P.283 has elapsed. Cyclical synchronization: When cyclical synchronization is enabled, the reference position is checked each time an open move takes place. If this deviates too significantly from the learned position, a fault is generated. 0:

1:

P.282

0 ... 1

0: 1: P.283

[s] 0 ... 200

P.285

[Increments] ±1250

2.8 P.310 Mcp2 P.315

20


Synchronization only after turning on the controller A recalibration is performed after each automatic close move

Waiting time before the beginning of the automatic synchronization Correct increments after completion of synchronization

After expiry of this time, the automatic synchronization of the door OPEN end position begins if the value 1 was entered as a start condition in Parameter P.281.

Travel frequency for rapid open

Here you specify the maximum opening speed in Hz. Start ramp “r1” is used to accelerate to this speed. The steepness of the ramp is set with Parameter P.311 or P.312.

By value entered in this parameter the switching off position of the door is shifted. If, for example, synchronization to a mech. stop is made, the door should not travel against this stop with each travel. To prevent this, the stop position is corrected using this parameter.

Speeds [Hz] 6 ... 200

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

Frequency

P.310

Start ramp r1 P.311 / P.312

Way

Pre limit switch Door OPEN

OPEN

Limit switch Door OPEN

Figure 19: Start ramp OPEN travel P.311 Mcp2 P.316

[10ms] 15 ... 500

Duration of start ramp „r1“

Time of start ramp „r1“ in milliseconds. The door is accelerated within the specified time from 0Hz to the maximum opening speed (P.310). Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.312

[Hz/s] 5 ... 300

Acceleration of start ramp „r1“

Acceleration during start ramp "r1" in Hertz per second. Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.315 Mcp2 P.310

[Hz] 6 ... 200

Average opening speed during acceleration phase

If Parameter P.225 was used to activate the additional acceleration ramp “r3”, this parameter is used to determine the average opening speed.

Frequency

Start ramp r1 P.311 / P.312

P.315 Start ramp r3 P.316 / P.317 P.225 Door position CLOSE

OPEN

Way

Pre limit switch 2

Figure 20: Average opening speed P.316 Mcp2 P.311

[10ms] 20 ... 500

EFAFLEX GmbH

Duration of start ramp „r3“

Time of start ramp „r3“ in milliseconds. The door is accelerated within the specified time from 0Hz to the average opening speed (P.315). After reaching the pre-limit switch 2, the door is accelerated up to the maximum opening speed (P.310).

21

P.

[Unit] Operating range

Function

Description / note

Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is P.317

[Hz/s] 5 ... 300

Acceleration of start ramp „r3“

set at 0. Acceleration during start ramp "r3" in Hertz per second. After reaching the pre-limit switch 2, the door is accelerated up to the maximum opening speed (P.310). Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.320 Mcp2 P.325

[Hz] 6 ... 200

Creep speed frequency for open

Brake ramp “r2” is used to slow to creep speed frequency, and is initiated after activation of the pre-limit switch door OPEN. Brake ramp “r2” is used to slow to creep speed frequency, and is initiated after activation of the pre-limit switch door OPEN. The steepness of the brake ramp “r2” is set with Parameter P.321 or P.322.

Frequency

P.310 Break ramp r2 P.321 / P.322

P.320

Way

OPEN

Pre limit switch Door OPEN

Limit switch Door OPEN

Figure 21: Creep speed for OPEN travel P.321 Mcp2 P.326

[10ms] 15 ... 500

Duration of brake ramp „r2“

This parameter specifies the time of brake ramp “r2” in milliseconds. The door is decelerated from maximum opening frequency (P.310) to creep frequency (P.320) within this time. Smaller values result in greater deceleration of the door. Larger values result in diminished deceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.322

[Hz/s] 5 ... 300

Acceleration of brake ramp „r2“

This parameter specifies the acceleration of the door during brake ramp “r2 in Hertz per second. Smaller values result in diminished deceleration of the door. Larger values result in greater deceleration of the door. ) This parameter is only visible and settable if parameter P.216 is greater than 0.

22
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EFACON

Door-Controller P.

P.325 Mcp2 P.320

[Unit] Operating range [Hz] 6 ... 200

Function

Description / note

Specify frequency for second opening speed during braking phase

If Parameter P.236 was used to activate the additional braking ramp “r3”, this parameter is used to determine the second opening speed. After reaching pre-limit switch 3, ramp “r4” is used to decelerate to this speed. The steepness of the ramp is set with Parameter P.326 or P.327.

Frequency

P.310

Break ramp r4 P.326 / P.327 Break ramp r2 P.321 / P.322

P.325 P.320

OPEN

Pre limit switch 3 Door OPEN

Pre limit switch Door OPEN

Way Limit switch Door OPEN

Figure 22: Second opening speed P.326 Mcp2 P.321

[10ms] 15 ... 500

Duration of brake ramp „r4“

Time of brake ramp „r4“ in milliseconds The door is decelerated within the specified time from maximum opening speed (P.310) to the second opening speed (P.325). Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.327

[Hz/s] 5 ... 300

Acceleration of start ramp „r4“

Acceleration during start ramp "r4" in Hertz per second. After reaching the pre-limit switch 3, the door is decelerated to the second opening speed (P.325). Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.331

[10ms] 0 ... 250

EFAFLEX GmbH

Duration of stop ramp Time of stop ramp „rSi-A“ in milliseconds “rSi-A” after safety edge is The door is decelerated within the specified time from maximum opening speed to 0 Hz after tripping of the safety edge. tripped

23

P.

[Unit] Operating range

Function

Description / note

Frequency

Stop ramp rSi-A P.331 / P.332

Way

OPEN

Pre limit switch Door OPEN

Limit switch Door OPEN

Figure 23: Safety edge tripping during open move Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.332

[Hz/s] 50 ... 600

Acceleration of stop ramp “rSi-A” after safety edge is tripped

Acceleration during stop ramp "rSi-A" in Hertz per second. The door is decelerated from maximum opening speed to 0 Hz after tripping of the safety edge. Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.333

[10ms] 0 ... 250

Duration of stop ramp Time of stop ramp „rZSi-A“ in milliseconds. “rZSi-A” after an additional The door is decelerated within the specified time from maximum opening speed to 0 Hz after tripping of an additional safety. safety is tripped

Frequency

Stop ramp rZSi-A P.333 / P.334

Way

OPEN

Pre limit switch Door OPEN

Limit switch Door OPEN

Figure 24: Additional safety tripping open move Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.334

24


[Hz/s] 50 ... 600

Acceleration of stop ramp “rZSi-A” after an

Acceleration during stop ramp „rZSi-A“ in Hertz per second. The door is decelerated from maximum opening speed to 0 Hz

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

additional safety is tripped

Description / note

after tripping of an additional safety. Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.335

[10ms] 0 ... 500

Duration of start ramp after safety reversal /reversal

Acceleration ramp after reversal request by tripping an (additional) safety or an open command during closing.

) This parameter is only visible if parameter P.216 is set at 0. P336

[Hz/s] 5 ... 300

Acceleration of start ramp after safety reversal

Acceleration of start ramp after safety reversal Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.340 Mcp2 P.342

[10ms] 3 ... 250

Duration of stop ramp “rSTOP-A” after stop is tripped

Time of stop ramp „rSTOP-A“ in milliseconds The door is decelerated in the specified time from maximum opening speed to 0 Hz after tripping of a stop command.

Frequency

Stop ramp rSTOP-A P.340 / P.342

Way

OPEN

Pre limit switch Door OPEN

Limit switch Door OPEN

Figure 25: Triggering of stop for OPEN move Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.341

[10ms] 3 ... 250

EFAFLEX GmbH

Duration of stop ramp „ro“

Time of stop ramp „ro“ in milliseconds. The door is decelerated in the specified time from creep speed to 0 Hz after reaching the limit switch.

25

P.

[Unit] Operating range

Function

Description / note

Frequency

Stop ramp “ro” P.341 / P.343

Way Pre limit switch Door OPEN

OPEN

Limit switch Door OPEN

Figure 26: Stop ramp during OPEN move Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.342

[Hz/s] 5 ... 300

Acceleration of stop ramp “rSTOP-A” after stop is tripped

Acceleration during stop ramp „rSTOP-A“ in Hertz per second. The door is decelerated from maximum opening speed to 0 Hz after tripping of a stop command. Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.343

[Hz/s] 5 ... 300

Acceleration of stop ramp „ro“

Acceleration during stop ramp "ro" in Hertz per second. The door is decelerated from creep speed to 0 Hz after reaching the limit switch Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.348

[Hz/s] 50 ... 600

Acceleration of stop ramp after Emergency STOP is tripped

Acceleration during stop ramp in Hertz per second. The door is decelerated from maximum opening speed to 0 Hz after tripping of an emergency stop.

Frequency

Stop ramp NOTAUS P.348 / P.349

Way

OPEN

26
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Pre limit switch Door OPEN

Limit switch Door OPEN

EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

Figure 27: Emergency stop ramp Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.349

[10ms] 3 ... 250

Duration of stop ramp after Emergency STOP is tripped

Time of stop ramp in milliseconds. The door is decelerated in the specified time from maximum opening speed to 0 Hz after tripping of an emergency stop. Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.350 Mcp2 P.355

[Hz] 6 ... 200

Travel frequency for rapid close

Here you specify the maximum closing speed in Hz. Start ramp “r5” is used to accelerate to this speed. The steepness of the ramp is set with Parameter P.351 or P.352.

Limit switch Door CLOSE

Pre limit switch Door CLOSE

CLOSE

Way Start ramp r5 P.351 / P.352

P.350

Frequency Figure 28: Start ramp open move

P.351 Mcp2 P.356

[10ms] 15 ... 500

Duration of start ramp „r5“

Time of start ramp „r5“ in milliseconds The door is accelerated within the specified time from 0Hz to the maximum closing speed (P.350). Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.352

[Hz/s] 20 ... 300

Acceleration of start ramp „r5“

Acceleration during start ramp "r5" in Hertz per second. Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0.

EFAFLEX GmbH

27

P.

P.355 Mcp2 P.350

[Unit] Operating range [Hz] 6 ... 200

Function

Description / note

Average closing speed during acceleration phase

If Parameter P.235 was used to activate the additional acceleration ramp “r7”, this parameter is used to determine the average closing speed.

Upper end position

Pre limit switch 2

CLOSE

P.235

Way Start ramp r7 P.356 / P.357

P.355

Start ramp r5 P.351 / P.352 Frequency

Figure 29: Average closing speed

P.356 Mcp2 P.351

[10ms] 20 ... 500

Duration of start ramp „r7“

Time of start ramp „r7“ in milliseconds The door is accelerated within the specified time from 0Hz to the average closing speed (P.355). After reaching the pre-limit switch 2, the door is accelerated up to the maximum closing speed (P.350). Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0.

P.357

[Hz/s] 5 ... 300

Acceleration of start ramp „r7“

Acceleration during start ramp "r7" in Hertz per second. After reaching the pre-limit switch 2, the door is accelerated up to the maximum closing speed (P.350). Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0.

P.360 Mcp2 P.365

28


[Hz] 6 ... 200

Creep speed frequency for close move

Brake ramp “r6” is used to slow to creep speed frequency, and is initiated after activation of the pre-limit switch door CLOSE. The steepness of the brake ramp “r6” is set with Parameter P.361 or P.362.

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

Limit switch Door CLOSE

Pre limit switch Door CLOSE

CLOSE

Way P.360

Start ramp r6 P.351 / P.352

Frequency Figure 30: Creep speed for CLOSE move P.361 Mcp2 P.366

[10ms] 15 ... 500

Duration of brake ramp „r6“

This parameter specifies the time of brake ramp “r6” in milliseconds. The door is decelerated from maximum closing frequency (P.350) to creep frequency (P.360) within this time. Smaller values result in greater deceleration of the door. Larger values result in diminished deceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.362

[Hz/s] 5 ... 300

Acceleration of brake ramp „r6“

This parameter specifies the acceleration of the door during brake ramp “r6" in Hertz per second. Smaller values result in diminished deceleration of the door. Larger values result in greater deceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.365 Mcp2 P.360

[Hz] 6 ... 200

Specify frequency for second closing speed during braking phase

If Parameter P.226 was used to activate the additional brake ramp “r8”, this parameter is used to determine the second opening speed. After reaching pre-limit switch 3, ramp “r9” is used to decelerate to this speed. The steepness of the ramp is set with Parameter P.366 or P.367. Pre limit switch Door CLOSE

Limit switch Door CLOSE

Way

Pre limit switch 3 Door CLOSE

CLOSE

P.360 Break ramp r6 P.361 / P.362

P.365

Break ramp r8 P.366 / P.367 P.350

Frequency Figure 31: Second closing speed

EFAFLEX GmbH

29

P.

[Unit] Operating range

Function

P.366

[10ms] 15 ... 500

Duration of brake ramp „r8“

Mcp2 P.361

Description / note

Time of brake ramp „r8“ in milliseconds The door is decelerated from maximum closing speed (P.350) to the second closing speed (P.365) after reaching pre-limit switch 3 in the specified time. Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.367

[Hz/s] 5 ... 300

Acceleration of brake ramp „r8“

Acceleration during start ramp "r8" in Hertz per second. After reaching pre-limit switch 3, the door is decelerated from nd maximum closing speed (P.350) down to the 2 closing speed (P.365). Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.371

[10ms] 3 ... 250

Duration of stop ramp „rn“ after safety edge is tripped

Time of stop ramp „rn“ in milliseconds The door is decelerated within the specified time from maximum closing speed to 0 Hz after tripping of the safety edge. Limit switch Door CLOSE

CLOSE

Pre limit switch Door CLOSE

Way

Stop ramp rn P.371 / P.372

Frequency Figure 32: Tripping of safety edge close move Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.372

[Hz/s] 50 ... 600

Acceleration of stop ramp „rn“ after safety edge is tripped

Acceleration during stop ramp „rn“ in Hertz per second. The door is decelerated from maximum closing speed to 0 Hz after tripping of the safety edge. Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.373 Mcp2 P.372

30


[10ms] 3 ... 250

Duration of stop ramp Time of stop ramp „rZSi-Z“ in milliseconds „rZSi-Z“ after an additional The door is decelerated within the specified time from maximum closing speed to 0 Hz after tripping of an additional safety device. safety is tripped

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

Limit switch Door CLOSE

Pre limit switch Door CLOSE

CLOSE

Way

Stop ramp rZSi-Z P.373 / P.374

Frequency

Figure 33: Tripping of additional safety closing speed Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.374

[Hz/s] 50 ... 600

Aceleration of stop ramp Acceleration during stop ramp „rZSi-Z“ in Hertz per second. „rZSi-Z“ after an additional The door is decelerated from maximum closing speed to 0 Hz after safety device is tripped tripping of an additional safety device. Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.380 Mcp2 P.382

[10ms] 3 ... 250

Duration of stop ramp “rSTOP-Z” after stop is tppried

Time of stop ramp „rSTOP-Z“ in milliseconds. The door is decelerated in the specified time from maximum closing speed to 0 Hz after tripping of a stop command. Limit switch Door CLOSE

Pre limit switch Door CLOSE

CLOSE

Way

Stop ramp rSTOP-Z P.380 / P.382

Frequency Figure 34: Tripping of stop at close move Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. ) This ramp also takes effect after the light barrier is tripped. P.381

[10ms] 3 ... 250

EFAFLEX GmbH

Duration of stop ramp „ru“

Time of stop ramp „ru“ in milliseconds The door is decelerated in the specified time from creep speed to 0 Hz after reaching the limit switch.

31

P.

[Unit] Operating range

Function

Description / note

Limit switch Door CLOSE

Pre limit switch Door CLOSE

CLOSE

Way

Stop ramp “ru” P.381 / P.383

Frequency Figure 35: stop ramp at close move Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0. P.382

[Hz/s] 5 ... 300

Acceleration of stop ramp “rSTOP-Z” after stop is tripped

Acceleration during stop ramp „rSTOP-Z“ in Hertz per second. The door is decelerated from maximum closing speed to 0 Hz after tripping of a stop command. Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. ) This ramp also takes effect after the light barrier is tripped. P.383

[Hz/s] 5 ... 300

Acceleration of stop ramp „ru“

Acceleration during stop ramp „ru“ in Hertz per second. The door is decelerated from creep speed to 0 Hz after reaching the limit switch Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0.

32
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EFAFLEX GmbH

EFACON

Door-Controller P.

P.388

[Unit] Operating range [Hz/s] 0 ... 600

Function

Description / note

Acceleration of stop ramp after EmergencySTOP is tripped

Acceleration during start ramp in Hertz per second. The door is decelerated from maximum closing speed to 0 Hz after tripping of an emergency stop. Limit switch Door CLOSE

Pre limit switch Door CLOSE

CLOSE

Way Stop ramp Emergency-STOP P.388 / P.389

Frequency Figure 36: Emergency stop ramp Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. P.389

[10ms] 3 ... 300

Duration of stop ramp after Emergency-STOP is trigpped

Time of stop ramp in milliseconds. The door is decelerated in the specified time from maximum closing speed to 0 Hz after tripping of an emergency stop. Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door. ) This parameter is only visible if parameter P.216 is set at 0.

P.390

[Hz] 6 ... 100

Travel frequency for deadman open move

This parameter specifies the travel speed in Hertz for opening in deadman mode.

P.391

[10ms] 10 ... 500

Duration of start ramp for deadman Open move

Time of start ramp for deadman open move in milliseconds The door is accelerated within the specified time from 0Hz to the deadman speed (P.390). Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0.

P.392

[Hz/s] 5 ... 300

Acceleration of start ramp for deadman opening

Acceleration during start ramp for opening in deadman mode in Hertz per second. The door is accelerated with the maximum permissible specified acceleration from 0Hz to the deadman speed (P.390). Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0.

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33

P.

[Unit] Operating range

Function

Description / note

P.395

[Hz] 6 ... 100

Travel frequency for deadman close

This parameter specifies the travel speed in Hertz for closing in deadman mode.

P.396

[10ms] 10 ... 500

Duration of start ramp for close in deadman mode

Time of start ramp for closing in deadman mode in milliseconds The door is accelerated within the specified time from 0Hz to the deadman speed (P.395). Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0.

P.397

[Hz/s] 5 ... 300

Acceleration of start ramp for close in deadman mode

Acceleration during start ramp for close in deadman mode in Hertz per second. The door is accelerated with the maximum permissible specified acceleration from 0Hz to the deadman speed (P.395). Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0.

P.398

[Hz/s] 5 ... 300

Acceleration of stop ramp after deadman mode

Acceleration during stop ramp for deadman travel in Hertz per second. The door is decelerated with the maximum permissible specified acceleration from deadman speed to 0 Hz (P.395 or P.390). Smaller values result in diminished acceleration of the door. Larger values result in greater acceleration of the door.

) This parameter is only visible and settable if parameter P.216 is greater than 0. ) This ramp applies both to deadman OPEN and to deadman CLOSE.

P.399

[10ms] 3 ... 100

Duration of stop ramp after deadman move

Time of stop ramp for deadman move in milliseconds The door is decelerated within the specified time to 0Hz from the deadman speed (P.395 or P.390). Smaller values result in greater acceleration of the door. Larger values result in diminished acceleration of the door.

) This parameter is only visible if parameter P.216 is set at 0.

P.39F

Speed profile

Mcp2 P.992

With this profile, the acceleration of the door is set.

) The exact settings which the profile involves can be found in the „speed profile" appendix.

2.9 P.407

34


Error monitoring [10ms] 5..300

Processing of stop detection

Max. time without change in distance until detection of the mech. stop

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EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

P.408

0 ... 3

Acknowledgement

The controller allows you to require an acknowledgement after certain controller events, i.e., the operator must intervene. Without this acknowledgement the door can no longer be operated. The STOP key is used for acknowledgement. 0: 1: 2: 3:

P.410 Mcp2 P.400

[s] 0 ... 9900

Run time monitoring open move

no acknowledgement Acknowledgement necessary after turning on the controller Acknowledgement necessary after turning on the controller and tripping of the EMERGENCY OFF. Acknowledgement necessary after turning on the controller, tripping of the EMERGENCY OFF and after error messages.

The time set here is the max. permissible door runtime for the OPEN direction. If the move takes longer than specified, this results in fault F.020.

) The setting 0 means that the run time monitoring is deactivated.

P.415 Mcp2 P.401

[s] 0 ... 9900

Runtime monitoring close move

The time set here is the max. permissible door runtime for the CLOSE direction. If the move takes longer than specified, this results in fault F.020.

) The setting 0 means that the run time monitoring is deactivated.

P.417

0 ... 1

Stop at new tripping of a Switching off of the stop at new tripping of a safety in deadman safety in deadman mode mode (e.g. at P.980=2, in close move at P.980=1, on switching off automatic per receipt and similar) 0: 1:

P.418

0 ... 2

Deadman mode in automatic mode

Function of deadman mode by tripped securities in automatic mode (e.g. at P.980 = 0 or at P.980=1 in open move) 0: 1: 2:

P.419 Mcp2 P.402

[s] 0 ... 9900

Runtime monitoring deadman mode

Stop at new tripping of a safety, continuation in deadman mode permitted No stop at new tripping of a safety device, deadman mode permitted against safety devices

Stop at new tripping of a safety device, continuation in deadman mode permitted No stop at new tripping of a safety, deadman mode permitted against securities No deadman mode permitted against safety devices

The time set here is the max. permissible door runtime for the OPEN and CLOSE direction in deadman mode. If the move takes longer than specified, this results in fault F.020.

) The setting 0 means that the run time monitoring is deactivated.

P.420 Mcp2 P.425

P.421 Mcp2 P.435

[10ms] 3 ... 200

Reversing time when safety edge is tripped during closing

If the safety edge is tripped during moving, the door is stopped and after a short pause moved into the opposite direction again. The time of the pause between stop and resume is set by this parameter.

[10ms] 0: 3 ... 200

Reversing time when external safety edge is tripped

If the safety edge is tripped during moving, the door is stopped and after a short pause moved into the opposite direction again. The time of the pause between stop and resume is set by this parameter.

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35

P.

[Unit] Operating range

Function

Description / note

If this parameter is 0, the value of P.420 is used. 0: value of P.420 is used >0: Pause time between stop and continuation P.422

[10ms] 0; 5 ... 200

Reversing time during close

If an open command is tripped during closing, the door is stopped and after a short pause opened again. The time of the pause between stop and resumed opening is set by this parameter. 0: > 0:

immediate reversal, brake is not activated (only FU controllers, not selectable for WU and WUI) Pause time between stop and continuation during close move

IMPORTANT The reversal times on tripping of the safety edges are separately set by the parameters P.420 and P.421. P.424

[10ms] 0; 5 ... 200

Reversing time during close on tripping of an additional safety device

If an additional safety device (e.g. a light barrier) which has a reversing effect when tripped is tripped during closing, the door is stopped and after a short pause opened again. The time of the pause between stop and resume is set by this parameter. 0: > 0:

P.426

[°C] -11 ... +10

Low temperature monitoring

Value of P.422 is used Pause time between stop and continuation during close move on tripping of a safety device IMPORTANT The reversal times on tripping of the safety edges are separately set by the parameters P.420 and P.421. To protect the electronic components of the door controller, the temperature is monitored. The temperature must not drop below –10°C. If this lower limit is exceeded, fault F.530 or F.540 is issued and the door can no longer be operated. -11. Low temperature monitoring deactivated +10°C ... –10°C. limit value for turning off the controller

) After the set temperature is exceeded, the fault and the controller are automatically reset. The hysteresis is approx. 4°C.

P.430 Mcp2 P.405

[s] 0 ... 5.0

Lag error when using mechanical limit switches

If after initiating a move command the limit switch is not left within a time specified by this parameter, it is assumed that the door is not moving. This results in fault F.030 and the door will be stopped

) The setting 0 means that the monitoring is deactivated. P.431

36


1..190

Number of permissible self-test errors until error message

This parameter is only available when the TLG is activated! In the case of a missing self-test, the info message I 927 is issued and the missing self-text is counted. The further automatic operation is still possible. On reaching the set number, the controller goes into error and only closing in deadman mode is possible. Error F.927 is shown. After the successful test, the error counter is set to 0 and the error is cancelled. The test is also carried out at closing in deadman mode 0 = deactivated 1-190: Number of permissible self-test errors

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EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

P.433

0…2

Activate TLG

This parameter determines among others the self-test logics for the the TLG. 0: 1: 2:

Deactivation of TLG Activation of TLG

P.438

[ms] 10 ... 500

Direction of rotation errors with electronic limit switches

This function monitors constantly whether the door moves intot he expected direction. If the door moves into the wrong direction by the time set in this parameter, then error F.031 is issued.

P.440

[Increments] -60 ... 999

Safety edge pre-limit switch position

This parameter specifies the distance of the safety-edge pre-limit switch to the end position door CLOSE in increments. With active TLG, this position is maintained without regard to P.221 (correction value of door CLOSE), otherwise it will be shifted.

Mcp2 P.426

WARNING The max. permissible distance of the safety edge pre-limit switch to the ground is 50mm at the worst point.

max. 50 mm

P.450 Mcp2 P.406

2.10

[10ms] 10 ... 300

Lag error when using electronic limit switches

With electronic limit switches a change in distance is constantly monitored during active moving. If there is no change, after the time specified here fault F.030 is issued and the door is stopped.

Closing-edge safety

P.451

[%] 35 ... 100

Response threshold for obstacle detection

P.452

[%] 35 ... 100

Dynamics at obstacle detection

P.453

[Increments] 0 ... 99

Tolerance band

P.460

-1 ... 5

Type of safety edge

Mcp2 P.420

The larger the later the response to the obstacle takes place. This parameter refers to the tolerated deviation of planned and actual speed until a detection of an obstacle takes place The smaller the later the response to the obstacle takes place. Short-term faults, for example when starting or reversing can be filtered out The tolerance band set here must be exceeded at the beginning of the travel or at reversal, before the monitoring of the obstacle starts. This parameter is used to specify which safety edge type is connected. 0:

1: 2: 3:

4:

EFAFLEX GmbH

Safety edge inactive IMPORTANT This setting is only possible if no safety edge is connected. Electrical safety edge, redundantly processed, functioning as closing system, i.e., short circuit indicates tripping. Electrical safety edge, redundantly processed, functioning as opening system, i.e., interruption indicates tripping. Safety edge with testing in the door CLOSE end position, functioning as closing system, i.e. there must be a tripping of the safety edge for checking its proper function in the door CLOSE end position Safety edge with testing in the door CLOSE end position, functioning as opening system, i.e. there must be a tripping of the safety edge for checking its proper function in the door

37

P.

[Unit] Operating range

Function

Description / note

5:

CLOSE end position Dynamic optical system

) The setting -1 means that the connected safety edge type is automatically detected.

P.461

0 ... 5

Mcp2 P.421

Max. number of permissible reversals

In case of an obstacle in the door area the safety edge is used to reverse the movement. If the obstacle is still present and automatic closing is activated, the door would continuously open and close. To prevent this the door remains stopped at the door OPEN end position after the number of reversals set here is reached This also causes fault F.361 to be issued. IMPORTANT To acknowledge this fault, the door must be moved once in deadman mode to the door CLOSE end position.

) The setting 0 means that the monitoring is deactivated.

P.462

0 ... 2

Safety edge functions

Mcp2 P.422

This parameter specifies how the safety edge processing responds to the safety edge pre-limit switch. 0: 1: 2:

After the safety edge pre-limit switch is tripped, the safety edge is tripped only to stop the door. After the safety edge pre-limit switch is tripped, the safety edge function is ignored. The safety edge function is ignored after the door CLOSE end position regardless of the safety edge pre-limit switch.

) For electronic limit switches, the position of the pre-limit switch is defined with Parameter P.440. For mechanical limit switches a corresponding input must be parameterized (P.5x0=11 and P.5x1=0 P.463

0 ... 1

Mcp2 P.423

P.467 Mcp2 P.427

[Ink] 0 ... 9999

End positions after This parameter specifies which are moved to after reversal. reversals to be moved to 0: End position door OPEN 1: End position as before e.g. intermediate hold / partial opening

Increments to be moved This parameter specifies whether and which keep open times / to after reversals forced closing time runs after the reversal until end position top. 0: Reversing until end position >0: Reversing by number of increments

P.468

0 ... 1

Mcp2 P.428

Deactivation during automatic synchronization

Deactivates the safety edge during automatic synchronization

0: Evaluate safety edge also during automatic synchronization 1:

P.469

0 ... 27

Ignores safety edge during automatic synchronization

LCD message for safety For each input a message can be selected from a list, which is edge tripping shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

38
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EFACON

Door-Controller P.

P.46A

[Unit] Operating range 0 ... 1

Function

Clearing time

Mcp2 P.42A

P.46B

Description / note

Activates the clearing time which elapses before the next closing. 0: 1:

0 ... 3

Keep open time

Mcp2 P.424

Without clearing time With clearing time (P.025)

This parameter specifies whether and which keep open times / forced closing time runs after the reversal until end position top.

0: Without keep open time 1: 2:

3: 4: 5:

6: 7:

P.470

0 ... 5

Mcp2 P.430

Mode of external safety edge

With keep open time (P.010 or P.011) With minimum keep open (P.015) No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command. As before Stop upper time in end position, on reversal only minimum keep open time. With priority 1 (highest prio: pulse OPEN) With priority 2 (second highest prio: as one channel (=current impulse))

This parameter is used to specify which safety edge type is connected. 0:

1: 2: 3:

4:

5:

Safety edge inactive IMPORTANT This setting is only possible if no safety edge is connected. Electrical safety edge, redundantly processed, functioning as normally open, i.e., short circuit indicates tripping. Electrical safety edge, redundantly processed, functioning as opening system, i.e., interruption indicates tripping. Safety edge with testing in the door CLOSE end position, functioning as closing system, i.e. there must be a tripping of the safety edge for checking its proper function in the door CLOSE end position Safety edge with testing in the door CLOSE end position, functioning as opening system, i.e. there must be a tripping of the safety edge for checking its proper function in the door CLOSE end position Dynamic optical system

) The setting -1 means that the connected safety edge type is automatically detected. P.471

0 ... 5

Mcp2 P.431

Max. number of reversals

In case of an obstacle in the door area the safety edge is used to reverse the movement. If the obstacle is still present and automatic closing is activated, the door would continuously open and close. To prevent this the door remains stopped at the door OPEN end position after the number of reversals set here is reached This also causes fault F.361 to be issued. To acknowledge this fault, the door must be moved once in deadman mode to the door CLOSE end position.

) The setting 0 means that the monitoring is deactivated.

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39

P.

P.472

[Unit] Operating range 0 ... 2

Mcp2 P.432

Function

Description / note

Safety edge function for close move

This parameter specifies how the safety edge processing responds to the safety edge pre-limit switch. 0: 1: 2:

After the safety edge pre-limit switch is tripped, the safety edge is tripped only to stop the door. After the safety edge pre-limit switch is tripped, the safety edge function is ignored. The safety edge function is ignored after the door CLOSE end position regardless of the safety edge pre-limit switch.

) For electronic limit switches, the position of the pre-limit switch is defined with Parameter P.440. For mechanical limit switches a corresponding input must be parameterized (P.5x0=11 and P.5x1=0

P.473

0 ... 1

Mcp2 P.433

P.475

0 ... 1

End positions after This parameter specifies which are moved to after reversal. reversals to be moved to 0: End position door OPEN 1: End position as before e.g. intermediate hold / partial opening

Safety edge functions for OPEN move

Specifies the response to a safety edge trip during the OPEN move starting at door OPEN limit switch. 0: 1:

P.476

0 ... 1

Response after tripping during OPEN move

Specifies the behavior of the door after the safety edge is tripped during the OPEN move. 0: 1:

P.477 Mcp2 P.437

[Inc] 0 ... 9999

The door is stopped. The safety edge tripping is ignored and the door continues to door OPEN end position

Door is stopped and then closed as far as the door CLOSE end position Door is stopped and then closes until the safety edge is no longer tripped

Leaving increments after This parameter specifies whether and which keep open times / reversals forced closing time runs after the reversal until end position top. 0: Reversing until end position >0: Reversing by number of increments

P.478

0 ... 1

Mcp2 P.438

Deactivation during automatic synchronization

Deactivates the safety edge during automatic synchronization 0:

Evaluate safety edge also during automatic synchronization

1: Ignores safety edge during automatic synchronization P.479

0 ... 27

Mcp2 P.439

LCD message for safety For each receipt a message can be selected from a list, which is edge tripping shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.47A

0 ... 1

Clearing time

Mcp2 P.43A

P.47B Mcp2

40


Activates the clearing time which elapses before the next closing. 0: 1:

0 ... 3

Keep open time

Without clearing time With clearing time (P.025)

This parameter specifies whether and which keep open times / forced closing time runs after the reversal until end position top.

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

P.434

0: Without keep open time 1: 2:

3:

P.480

0 ... 2

Selecting of the internal additional safety

0: 1:

2: P.481

0 ... 3

Reaction to obstacle in OPEN move

[10ms] 10 ... 250

P.483

0 ... 5

max. number of obstacles

P.485

0 ... 2

Reaction to obstacle in CLOSE move

[10ms] 10 ... 250

P.487

0 ... 10

2.11

Deactivated Reserved Monitoring the change in distance

None Stop Reserved 3: Stop, when free continue Waiting time after At present only used when P481 = 3, corresponds to the waiting obstacle in OPEN move time after an obstacle before the move is continued

P.482

P.486

Keep open time as after the latest OPEN command With minimum keep open (P.015) No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command.

Reversal time after obstacle in CLOSE move Max. number of obstacles

0: 1: 2:

Max. number of obstacles during OPEN move, on excess F320, when reaching the top end position the move is considered to be completed and counting starts from the beginning 0: 1: 2:

None Stop Reversal:

At present only used when P485 = 2, corresponds to the waiting time after an obstacle before the reversal is made

0: F.325 is not set, always reversing >0: Max. number of obstacles during CLOSE move, on excess F0.325, when reaching the lower end position the move is considered to be completed and counting starts from the beginning

Additional safety A-C

P.4A0

0 ... 3

Switching off of Selection of different conditions for the switching off of additional additional safety A Open securities in OPEN move move 0: No switching off 1: Switching off after reaching the top end position 2: Switching off after reaching the pre-limit switch TOP 3: Switching off after reaching the pre-limit switch TOP for additional safety A (only for electronic limit switch P.4A2)

P.4A1

0 ... 3

Switching off of Selection of different conditions for the switching off of additional additional safety A Close securities in CLOSE move move 0: No switching off 1: Switching off after reaching the lower end position 2: Switching off after reaching the lower pre-limit switch 3: Switching off after reaching the lower pre-limit switch for additional safety A (P.4A3 / P.5x0=11, P.5x1=1)

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41

P.

P.4A2

[Unit] Operating range 0 ... 9999

P.4A3

0 ... 9999

P.4A7

0 ... 2

P.4A8

0 ... 1

Switching off during Open move

P.4A9

0 ... 1

Additional safety A active during automatic synchronization

Mcp2 P.468 Mcp2 P.478

Function

Description / note

Position of additional safety A Open move

Position for switching off of additional safety A Open move

Position of switching off of additional safety A Close move Closing command on release of additional safeties A

Position for switching off of additional safety A close move

0: 1: 2:

0: 1:

No close command Close command after additional safety becomes free Close command after release of additional safety and the close command is also saved during the OPEN move. Switching off deactivated Switching off activated

Selection of additional safety during automatic synchronization 0: Input is processed 1: Input is ignored during synchronization.

P.4B0

0 ... 3

Switching off of Selection of different conditions for the switching off of additional additional safety B Open securities in OPEN move move 0: No switching off 1: Switching off after reaching the top end position 2: Switching off after reaching the pre-limit switch TOP 3: Switching off after reaching the pre-limit switch TOP for additional safety B (only for electronic limit switch P.4B2)

P.4B1

0 ... 3

Switching off of Selection of different conditions for the switching off of additional additional safety B Close securities in CLOSE move move 0: No switching off 1: Switching off after reaching the lower end position 2: Switching off after reaching the lower pre-limit switch 3: Switching off after reaching the lower pre-limit switch for additional safety B (P.4B3 / P.5x0=11, P.5x1=1)

Mcp2 P.440

P.4B2

0 ... 9999

P.4B3

0 ... 9999

Mcp2 P.446

Position of switching off of additional safety B Open move Position of switching off of additional safety B Close move Closing command on release of additional safeties B

P.4B7

0 ... 2

P.4B8

0 .. 1

Switching off during Open move

P.4B9

0 ... 1

Additional safety B active during automatic synchronization

Mcp2 P.448 Mcp2 P.468

P.4C0

0 ... 3

P.4C1

0 ... 3

42


Position for switching off of additional safety B Open move

Position for switching off of additional safeties B close move

0: 1: 2:

No close command Close command after additional safety becomes free Close command after release of additional safety and the close command is also saved during the OPEN move.

0: 1:

Switching off deactivated Switching off activated

Selection of additional safety during automatic synchronization 0: Input is processed 1: Input is ignored during synchronization.

Switching off of Selection of different conditions for the switching off of additional additional safety C Open securities in OPEN move move 0: No switching off 1: Switching off after reaching the top end position 2: Switching off after reaching the pre-limit switch TOP 3: Switching off after reaching the pre-limit switch TOP for additional safety C (only for electronic limit switch P.4C2) Switching off of

Selection of different conditions for the switching off of additional

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

additional safety C Close move

Description / note

securities in CLOSE move 0: 1: 2: 3:

P.4C2

0 ... 9999

P.4C3

0 ... 9999

Mcp2 P.456

Position of switching off of additional safety C Open move Position of switching off of additional safety C Close move Closing command on release of additional safeties C

No switching off Switching off after reaching the lower end position Switching off after reaching the lower pre-limit switch Switching off after reaching the lower pre-limit switch for additional safety C (P.4C3 / P.5x0=11, P.5x1=1)

Position for switching off of additional safety C in Open move

Position for switching off of additional safeties C in close move

P.4C7

0 ... 2

P.4C8

0…1

Switching off during Open move

P.4C9

0 ... 1

Additional safety C active during automatic synchronization

Selection of additional safety during automatic synchronization 0: Input is processed 1: Input is ignored during synchronization.

Input profiles

Through this profile, the input function can be defined. All parameters necessary for the input function are reset in one step.

Mcp2 P.458 Mcp2 P.468

2.12

0: 1: 2:

0: 1:

No close command Close command after additional safety becomes free Close command after release of additional safety and the close command is also saved during the OPEN move. Switching off deactivated Switching off activated

Inputs

P.501

Input 1

The profiles are divided into function groups which are allocated as follows: 01xx = External OPEN commands 02xx = Pull switch / single channel inputs 03xx = Continuously OPEN commands 04xx = External STOP commands 05xx = Light barriers / additional safety inputs B 06xx = Manual / automatic switching 07xx = External CLOSE commands 08xx = Door locking in the door CLOSE end position 09xx = Cross traffic functions 10xx = Deactivation functions 11xx = Limit switch inputs 05xx = Light barrier / additional safety inputs A 15xx = Simulation of the foil key board 16xx = Light barrier / additional safety inputs C Settings see profile list

) For exact settings, please refer to the enclosed "Input profile"”. P.502 P.503 P.504 P.505 P.506 P.507

EFAFLEX GmbH

Input 2 Input 3 Input 4 Input 5 Input 6 Input 7

see P.501 see P.501 see P.501 see P.501 see P.501 see P.501

43

P.

[Unit] Operating range

P.508 P.509 P.50A

Function

Input 8 Input 9 Input 10

Description / note

see P.501 see P.501 see P.501

Extension circuit board (must be activated after plug in by P800) P.A01 P.A02 P.A03 P.A04 P.A05 P.A06 2.13

Input 21 Input 22 Input 23 Input 24 Input 25 Input 26

see P.501 see P.501 see P.501 see P.501 see P.501 see P.501

Open commands

Parameter P.5x0 must be set to 1 to activate the basic faction OPEN command for this input. X = Number of the input you wish to configure. P.5x1

0 ... 6

Mode

This parameter specifies the mode of the OPEN command. 0: 1: 2: 3: 4:

OPEN 1, lockable OPEN 2, lockable OPEN 3, not lockable OPEN 4, not lockable OPEN 5, not lockable and deadman move possible ) Deadman opening using external command switches is only possible using this setting. 5: OPEN air lock move, not lockable )This OPEN command can only be used with an active airlock system 6: Reserved 7: Reserved 8: Reserved 9: Reserved 10: In the case of a crash with key switch after end position OPEN

) OPEN 1 and OPEN 2 are lockable by means of cross-traffic inputs or induction loop inputs, i.e., the command cannot then be executed. ) OPEN 1 and OPEN 2 as well as OPEN 3 and OPEN 4 are identical in their function. You must assign these to the respective directions when using different directions (P.5x6). P.5x2

0 ... 1

Contact type

Specifies the contact type of the switch which is connected to the input. 0: 1:

P.5x3

0 ... 3

End position to move to

This parameter specifies which end position is traveled to after activating the input. 0: 1: 2:

3:

44


Normally closed Normally open

End position door OPEN End position intermediate stop / partial opening When activating door CLOSE end position, the door travels up to the intermediate stop / partial opening end position, and when activating intermediate stop the door travels up to the door OPEN end position Like 2., but the door travels directly to the door OPEN end position if activation takes place 2x in quick succession in the

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

Lower end position. P.5x4

0 ... 4

Keep open time / priority This parameter specifies if and which hold-open time / forced closing time runs after activating the input and/or which priority a command has.

0: Without keep open time 1: 2:

3: 4: 5:

6: 7: P.5x5

0 ... 1

Clearing time

Activates the clearing time which elapses before the next closing. 0: 1:

P.5x6

0 ... 3

Direction

With keep open time (P.010 or P.011) With minimum keep open (P.015) No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command. Reserved With keep open time from lower end position, Stop TOP time in end position, on reversal only minimum keep open time. With priority 1 (highest prio: pulse OPEN) Wth priority 2 (second highest prio: as one channel (=current impulse))

Without clearing time With clearing time (P.025)

Specifies which logical direction the input has. Specifying the direction is necessary for opposing traffic controllers. The controller uses this information to decide which direction is clear, which traffic light is switched or which airlock gate is opened. 0: 1: 2: 3:

No direction specified From outside to inside From inside to outside Both directions are cleared

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

2.14

No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

Current impulse commands

Parameter P.5x0 must be set to 2 to activate the basic function single channel / pull switch for this input. X = Number of the input you wish to configure

EFAFLEX GmbH

45

P.

P.5x1

[Unit] Operating range 0 ... 7

Function

Description / note

Mode

This parameter specifies the mode of the current impulse command. By repeatedly activating the input the various commands are run in the sequence shown below. 0: 1: 2: 3: 4: 5: 6: 7:

OPENÆSTOPÆOPENÆend position OPENÆSTOPÆOPENÆend positionÆCLOSEÆOPEN OPENÆend positionÆCLOSEÆOPEN OPENÆSTOPÆCLOSEÆOPEN OPENÆSTOPÆCLOSEÆSTOP OPENÆend position CLOSE OPEN only from end position door CLOSE

) The end position reached is specified using Parameter P.5x3. P.5x2

0 ... 1

Contact type

Specifies the contact type of the switch which is connected to the input. 0: 1:

P.5x3

0 ... 3

End position to move to

This parameter specifies which end position is traveled to after activating the input. 0: 1: 2:

3:

P.5x4

0 ... 3

Normally closed Normally open

End position door OPEN End position intermediate stop / partial opening When activating door CLOSE end position, the door travels up to the intermediate stop / partial opening end position, and when activating intermediate stop the door travels up to the door OPEN end position Like 2, but the door travels directly to the door OPEN end position if activation takes place 2x in quick succession in the Lower end position. ) This function is only possible if P.5x1 = 2 or 5.

Keep open time / priority This parameter specifies if and which hold-open time / forced closing time runs after activating the input and/or which priority a command has.

0: Without keep open time 1: 2:

3: 4: 5:

6: 7: P.5x5

0 ... 1

Clearing time

Activates the clearing time which elapses before the next closing. 0: 1:

P.5x6

46


0 ... 3

Direction

With keep open time (P.010 or P.011) With minimum keep open (P.015) No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command. Reserved With keep open time from end position LOWER, Stop TOP time in end position, on reversal only minimum keep open time. With priority 1 (highest prio: pulse OPEN) With priority 2 (second highest prio: as one channel (=current impulse))

Without clearing time With clearing time (P.025)

Specifies which logical direction the input has. Specifying the direction is necessary for opposing traffic controllers. The controller uses this information to decide which direction is clear, which traffic light is switched or which airlock gate is opened.

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

0: 1: 2: 3:

No direction specified From outside to inside From inside to outside Both directions are cleared

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

2.15

No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

PULSE OPEN commands

Parameter P.5x0 must be set to 3 to activate the basic function pulse OPEN for this input. X = Number of the input you wish to configure P.5x1

Mode

This parameter is not evaluated when using this function. 0: 1: 2:

P.5x2

0 ... 1

Contact type

Specifies the contact type of the switch which is connected to the input. 0: 1:

P.5x3

0 ... 3

End position to move to

Normally closed Normally open

This parameter specifies which end position is traveled to after activating the input. 0: 1: 2:

3:

EFAFLEX GmbH

Pulse Open (no close move until the next external close command, i.e. keep open times are switched off, priorities can be allocated with 5x0 = 6.7) Summer mode for airlock (open commands from door 1 (open) are sent to door 2 (functional like contact opening) Contact opening (with rising edge, open move takes place, on falling edge, Close move from upper end position)

End position door OPEN End position intermediate stop / partial opening When activating door CLOSE end position, the door travels up to the intermediate stop / partial opening end position, and when activating intermediate stop the door travels up to the door OPEN end position Like 2., but the door travels directly to the door OPEN end position if activation takes place 2x in quick succession in the Lower end position.

47

P.

[Unit] Operating range

P.5x4

P.5x5 P.5x6

Function

Description / note

Keep open time / priority 0: Without keep open time 1-5: Without function 6: With priority 1 (highest prio: pulse OPEN) 7: With priority 2 (second highest prio: as one channel (=current impulse)) 8: With priority 3 (third highest prio: like contact opening)

0 ... 3

Clearing time Direction

This parameter is not evaluated when using this function. Specifies which logical direction the input has. Specifying the direction is necessary for opposing traffic controllers. The controller uses this information to decide which direction is clear, which traffic light is switched or which airlock gate is opened. 0: 1: 2: 3:

No direction specified From outside to inside From inside to outside Both directions are cleared

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

2.16

No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

Stop commands

Parameter P.5x0 must be set to 4 to activate the basic function STOP for this input. X = Number of the input you wish to configure P.5x1

0 ... 1

Mode

This parameter specifies the mode of the stop command. 0:

Stop function

1: Stop function and additional acknowledgement function, i.e.

2: 3:

P.5x2

48


0 ... 1

Contact type

with this input an acknowledgement takes place. An acknowledgement must be performed under the conditions stated under P.408. (Crash impulse, deadman travel permitted, acknowledgement only in end position TOP (debouncing with additional 170 ms) (Crash impulse, deadman's open/close travel not permitted, acknowledgement automatically in upper end position (debouncing with additional 170 ms)

Specifies the contact type of the switch which is connected to the input.

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

0: 1:

Normally closed Normally open

P.5x3

End position to move to

This parameter is not evaluated when using this function.

P.5x4

Keep open time

This parameter is not evaluated when using this function.

P.5x5

Clearing time

This parameter is not evaluated when using this function.

P.5x6

Direction

This parameter is not evaluated when using this function.

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

2.17

No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

Additional safety B

Parameter P.5x0 must be set to 5 to activate the basic function additional safeties for this input. X = Number of the input you wish to configure P.5x1

0 ... 7

Mode

This parameter specifies the reaction to an activated additional safety input and/or which function is performed. 0: 1: 2: 3: 4: 5:

Reversing during close travel Stop during close travel Reversing during close move and stop during open move Stop during OPEN move Entrapment protection Stop during OPEN travel with continuation after end position door OPEN after the input has become free. 6: Stop during open and close travel 7: Stop during OPEN and CLOSE travel with continuation after end position door close after the CLOSE move has become free. 8: Monitoring of close move with stop, continuation to lower end position after CLOSE move has become free. 9: Monitoring of open move, reversing after close move on tripping in open move 10: Monitoring of open move, reversing after close move on

EFAFLEX GmbH

49

P.

[Unit] Operating range

Function

Description / note

tripping in open move until input is free again, then stop

P.5x2

0 ... 1

Contact type

Specifies the contact type of the switch which is connected to the input. 0: 1:

P.5x3

0 ... 1

End position to move to

This parameter specifies which end position is traveled to after activating the input. 0: 1: 2:

3: 4:

P.5x4

0 ... 3

Keep open time

Normally closed Normally open

End position door OPEN End position intermediate stop / partial opening When activating door CLOSE end position, the door travels up to the intermediate stop / partial opening end position, and when activating intermediate stop the door travels up to the door OPEN end position Like 2., but the door travels directly to the door OPEN end position if activation takes place 2x in quick succession in the Lower end position. End position as before e.g. intermediate hold / partial opening

This parameter specifies whether and which keep open times / forced closing time runs after activation of the input.

0: Without keep open time 1: 2:

3: 4: 5:

P.5x5

0 ... 1

Clearing time

Activates the clearing time which elapses before the next closing. 0: 1:

P.5x6

Direction

With keep open time (P.010 or P.011) With minimum keep open (P.015) No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command. Keep open as before With keep open time from lower end position, in upper end position, stop time, when reversing only minimum open time, if current impulse command before, then select keep open time as before. On tripping .... no keep open time, stop in end position OPEN, otherwise not keep open time

Without clearing time With clearing time (P.025)

This parameter is not evaluated when using this function.

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0:

50


No testing

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

1: 2:

2.18

Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

Manual / automatic toggling

Parameter P.5x0 must be set to 6 to activate the basic function manual / automatic toggling for this input. X = Number of the input you wish to configure P.5x1

0 ... 1

Mode

This parameter specifies the mode of the hand / automatic toggle. When activated, the controller switches to manual operation. 0: 1:

Only close move is in manual mode Close and open move are in manual mode

) Switching over to manual operation functions only if P.980 = 0. P.5x2

0 ... 1

Contact type

Specifies the contact type of the switch which is connected to the input. 0: 1:

Normally closed Normally open

P.5x3

End position to move to

This parameter is not evaluated when using this function.

P.5x4

Keep open time

This parameter is not evaluated when using this function.

P.5x5

Clearing time

This parameter is not evaluated when using this function.

P.5x6

Direction

This parameter is not evaluated when using this function.

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

EFAFLEX GmbH

No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

51

P.

2.19

[Unit] Operating range

Function

Description / note

Close commands

Parameter P.5x0 must be set to 7 to activate the basic function CLOSE command for this input. X = Number of the input you wish to configure P.5x1

0 ... 1

Mode

This parameter specifies the mode of the close command. 0: 1: 2:

P.5x2

0 ... 1

Contact type

Only close move is in automatic mode Close move is in hand and automatic mode Closing from door OPEN end position to Intermediate Stop / Partial Opening end position

Specifies the contact type of the switch which is connected to the input. 0: 1:

Normally closed Normally open

P.5x3

End position to move to

P.5x4

Keep open time / priority 0: Without keep open time 1-5: Without function 6: With priority 1 (highest prio: like pulse CLOSE) 7: With priority 2 (second highest prio: like current impulse

P.5x5

0 ... 1

Clearing time

This parameter is not evaluated when using this function.

Activates the clearing time which elapses before the next closing. 0: 1:

P.5x6

Direction

Without clearing time With clearing time (P.025) at CLOSE command in end position

This parameter is not evaluated when using this function.

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

52


No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

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EFAFLEX GmbH

EFACON

Door-Controller P.

2.20

[Unit] Operating range

Function

Description / note

Door locking in end position

Parameter P.5x0 must be set to 8 to activate the basic function door locking in end position for this input. X = Number of the input you wish to configure P.5x1

0 ... 2

Mode

This parameter specifies the behaviour of the door when the locking is activated. 0: 1:

2:

Door locking in the door CLOSE end position, no deadman mode permissible, permitted during synchronization Door locking in the door CLOSE end position, deadman mode permitted Locking to position which is specified in parameter P.5x3. Moreover, a move command is generated which move the door to this position. Deadman travel is permitted during synchronization.

Door locking in the door CLOSE end position, no deadman mode permissible, also locked during synchronization

P.5x2

0 ... 1

Contact type

Specifies the contact type of the switch which is connected to the input. 0: 1:

P.5x3

0 ... 3

Locking position

Normally closed Normally open

This specifies in which position the controller is to change in the locked condition. 0: 1: 2: 3:

Locking in position door OPEN Locking in intermediate stop 1 (P.240) Locking in intermediate stop 2 (P.245) (only when using electric position encoders Locking in position door CLOSE

P.5x4

Keep open time

This parameter is not evaluated when using this function.

P.5x5

Clearing time

This parameter is not evaluated when using this function.

P.5x6

Direction

This parameter is not evaluated when using this function.

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1:

EFAFLEX GmbH

No testing Testing on reaching the end position door OPEN and after switching on

53

P.

[Unit] Operating range

Function

Description / note

2:

2.21

Testing on reaching the end position door CLOSE and after switching on

Cross traffic input

Parameter P.5x0 must be set to 9 to activate the basic function cross traffic for this input. X = Number of the input you wish to configure

P.5x1

0 ... 7

Mode

This parameter specifies the mode of the cross traffic input. If this input is activated, the following commands are locked or suppressed for the time set under Parameters P.810, P.811 and P.820, p.821. 0: 1: 2: 3: 4: 5: 6: 7:

P.5x2

0 ... 1

Contact type

Detector Channel 1 and 2 as well as OPEN 1 and 2 commands Detector Channel 1 Detector Channel 2 Detector Channel 1 and 2 Open 1 commands Detector Channel 1 and OPEN 1 commands Open 2 commands Detector Channel 2 and OPEN 2 commands

Specifies the contact type of the switch which is connected to the input. 0: 1:

Normally closed Normally open

P.5x3

End position to move to

This parameter is not evaluated when using this function.

P.5x4

Keep open time

This parameter is not evaluated when using this function.

P.5x5

Clearing time

This parameter is not evaluated when using this function.

P.5x6

Direction

This parameter is not evaluated when using this function.

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

54


No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

ҏ

EFAFLEX GmbH

EFACON

Door-Controller P.

2.22

[Unit] Operating range

Function

Description / note

Switching off / deactivating

Parameter P.5x0 must be set to 10 to activate the basic function switching off / deactivation for this input. X = Number of the input you wish to configure P.5x1

0 ... 5

Mode

This parameter specifies which function or input is deactivated. 0: 1: 2: 3: 4: 5: 6: 7: 8:

P.5x2

0 ... 1

Contact type

Keep open time / forced closing OPEN commands from outside direction (P.5x6 = 1)) Detector commands from outside direction (P.666 or P.676) Intermediate stop / partial opening Airlock function Foil keypad for door function, the foil keypad is still activated for parameterizing. Reserved Reserved Switching off deadman mode, e.g. to avoid unauthorized door movement in public area.

Specifies the contact type of the switch which is connected to the input. 0: 1:

Normally closed Normally open

P.5x3

End position to move to

This parameter is not evaluated when using this function.

P.5x4

Keep open time

This parameter is not evaluated when using this function.

P.5x5

Clearing time

This parameter is not evaluated when using this function.

P.5x6

Direction

This parameter is not evaluated when using this function.

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1:

No testing Testing on reaching the end position door OPEN and after switching on

Testing on reaching the end position door CLOSE and after

EFAFLEX GmbH

55

P.

[Unit] Operating range

Function

Description / note

switching on

2.23

Limit switch functions

Parameter P.5x0 must be set to 11 to activate the limit switch basic functions for this input. X = Number of the input you wish to configure

P.5x1

0 ... 7

Mode

Specifies which limit switch type is connected to the input.

0: Safety edge pre-limit switch

WARNING The max. permissible distance of the safety edge pre-limit switch to the floor is 50mm at the lowest point. max. 50 mm

1: 2:

3:

4: 5: 6: 7:

P.5x2

0 ... 1

Contact type

Pre-limit switch additional securities (only applicable for additional safety device A) Limit switch intermediate stop / partial opening Reference switch IMPORTANT Only one reference switch can be used. Either in the door OPEN end position or in the door CLOSE end position. Pre-limit switch door OPEN Pre-limit switch door CLOSE Pre-limit switch intermediate stop / partial opening Crash switch

Specifies the contact type of the switch which is connected to the input. 0: 1:

Normally closed Normally open

P.5x3

End position to move to

This parameter is not evaluated when using this function.

P.5x4

Keep open time

This parameter is not evaluated when using this function.

P.5x5

Clearing time

This parameter is not evaluated when using this function.

P.5x6

Direction

This parameter is not evaluated when using this function.

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

56


0 ... 2

Testing

Each input can be tested. This parameter specifies in which end

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

position testing is made. 0: 1: 2:

2.24

No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

Additional safety A

Parameter P.5x0 must be set to 14 to activate the basic function additional safeties for this input. X = Number of the input you wish to configure

P.5x1

0 ... 7

Mode

This parameter specifies the reaction to an activated additional safety input and/or which function is performed. 0: 1: 2: 3: 4: 5:

Reversing during close travel Stop during close travel Reversing during close move and stop during open move Stop during OPEN move Entrapment protection Stop during OPEN travel with continuation after end position door OPEN after the input has become free. 6: Stop during open and close travel 7: Stop during OPEN and CLOSE travel with continuation after end position door close after the CLOSE move has become free. 8: Monitoring of close move with stop, continuation to lower end position after CLOSE move has become free. 9: Monitoring of open move, reversing after close move on tripping in open move 10: Monitoring of open move, reversing after close move on tripping in open move until input is free again, then stop

P.5x2

0 ... 1

Contact type

Specifies the contact type of the switch which is connected to the input. 0: 1:

P.5x3

0 ... 3

End position to move to

This parameter specifies which end position is traveled to after activating the input. 0: 1: 2:

3: 4:

P.5x4

0 ... 3

EFAFLEX GmbH

Keep open time

Normally closed Normally open

End position door OPEN End position intermediate stop / partial opening When activating door CLOSE end position, the door travels up to the intermediate stop / partial opening end position, and when activating intermediate stop the door travels up to the door OPEN end position Like 2., but the door travels directly to the door OPEN end position if activation takes place 2x in quick succession in the Lower end position. End position as before e.g. intermediate hold / partial opening

This parameter specifies whether and which keep open times /

57

P.

[Unit] Operating range

Function

Description / note

forced closing time runs after activation of the input.

0: Without keep open time 1: 2:

3: 4: 5:

P.5x5

0 ... 1

Clearing time

Activates the clearing time which elapses before the next closing. 0: 1:

P.5x6

Direction

With keep open time (P.010 or P.011) With minimum keep open (P.015) No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command. Keep open as before With keep open time from lower end position, stop time in end position top, when reversing only minimum open time, if current impulse command before, then select keep open time as before.

Without clearing time With clearing time (P.025)

This parameter is not evaluated when using this function.

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

2.25

No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

Simulation of the foil keypad

Parameter P.5x0 must be set to 15 to activate the simulation of the foil keypad basic function for this input. X = Number of the input you wish to configure P.5x1

0 ... 2

Mode

This parameter specifies which keys of the foil keypad are simulated. 0: 1: 2:

Foil key OPEN Foil key STOP Foil key CLOSE

IMPORTANT The external foil keypad cannot be used for parametrizing the controller. The functionality of the inputs depends on the parametrizing of the foil keypad inputs (see Parameter P.631 to P.659)

58
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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

P.5x2

0 ... 1

Contact type

Description / note

Specifies the contact type of the switch which is connected to the input. 0: 1:

Normally closed Normally open

P.5x3

End position to move to

This parameter is not evaluated when using this function. The settings which have been made for the respective key of the foil pad, are taken over (see P.631 to P.659)

P.5x4

Keep open time

This parameter is not evaluated when using this function. The settings which have been made for the respective key of the foil pad, are taken over (see P.631 to P.659)

P.5x5

Clearing time

This parameter is not evaluated when using this function. The settings which have been made for the respective key of the foil pad, are taken over (see P.631 to P.659)

P.5x6

Direction

This parameter is not evaluated when using this function. The settings which have been made for the respective key of the foil pad, are taken over (see P.631 to P.659)

P.5x7

[s] 0 ... 999,9

Switching on delay of input

The evaluation of the input is delayed by the time set in this parameter.

P.5x8

[s] 0 ... 999,9

Switching off delay of input

The decrease of the input is delayed by the time set in this parameter.

P.5x9

0 ... 27

LCD text

This parameter is not evaluated when using this function. The settings which have been made for the respective key of the foil pad, are taken over (see P.631 to P.659)

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

2.26

No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

Additional safety C

Parameter P.5x0 must be set to 16 to activate the basic function additional safeties for this input. X = Number of the input you wish to configure

P.5x1

0 ... 7

Mode

This parameter specifies the reaction to an activated additional safety input and/or which function is performed. 0: 1:

EFAFLEX GmbH

Reversing during close travel Stop during close travel

59

P.

[Unit] Operating range

Function

Description / note

2: 3: 4: 5:

Reversing during close move and stop during open move Stop during OPEN move Entrapment protection Stop during OPEN travel with continuation after end position door OPEN after the input has become free. 6: Stop during open and close travel 7: Stop during OPEN and CLOSE travel with continuation after end position door close after the CLOSE move has become free. 8: Monitoring of close move with stop, continuation to lower end position after CLOSE move has become free. 9: Monitoring of open move, reversing after close move on tripping in open move 10: Monitoring of open move, reversing after close move on tripping in open move until input is free again, then stop

P.5x2

0 ... 1

Contact type

Specifies the contact type of the switch which is connected to the input. 0: Normally closed 1: Normally open

P.5x3

0 ... 1

End position to move to

This parameter specifies which end position is traveled to after activating the input. 0: 1: 2:

3: 4: P.5x4

0 ... 3

Keep open time

End position door OPEN End position intermediate stop / partial opening When activating door CLOSE end position, the door travels up to the intermediate stop / partial opening end position, and when activating intermediate stop the door travels up to the door OPEN end position Like 2, but the door travels directly to the door OPEN end position if activation takes place 2x in quick succession in the Lower end position. End position as before e.g. intermediate hold / partial opening

This parameter specifies whether and which keep open times / forced closing time runs after activation of the input.

0: Without keep open time 1: 2:

3: 4: 5:

P.5x5

0 ... 1

Clearing time

Activates the clearing time which elapses before the next closing. 0: 1:

P.5x6

P.5x7

60


Direction

[s]

Switching on delay of

With keep open time (P.010 or P.011) With minimum keep open (P.015) No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command. Keep open as before With keep open time from lower end position, stop time in end position top, when reversing only minimum open time, if current impulse command before, then select keep open time as before.

Without clearing time With clearing time (P.025)

This parameter is not evaluated when using this function.

The evaluation of the input is delayed by the time set in this

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range 0 ... 999,9

Function

P.5x8

[s] 0 ... 999,9

Switching off delay of input

P.5x9

0 ... 27

LCD text

input

Description / note

parameter. The decrease of the input is delayed by the time set in this parameter.

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.5xA

0 ... 2

Testing

Each input can be tested. This parameter specifies in which end position testing is made. 0: 1: 2:

2.27

P.610

No testing Testing on reaching the end position door OPEN and after switching on Testing on reaching the end position door CLOSE and after switching on

EMERGENCY OFF 0 ... 27

LCD message for internal EMERGENCY OFF

Mcp2 P.6C9

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.611

0 ... 27

LCD message for external EMERGENCY OFF 1

Mcp2 P.6D9

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.612

0 ... 27

LCD message for external EMERGENCY OFF 2

Mcp2 P.6E9

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

2.28

Foil keypad

P.603

Profile keypad

See attached profile table

Mcp2 P.630

P.631

0 ... 2

Function foil keypad OPEN

Specifies the function (mode) of the OPEN key. 0: 1: 2:

P.633

0 ... 3

End position to move to

Specifies which end position is traveled to after pressing the OPEN key. 0: 1:

EFAFLEX GmbH

No door function Only deadman travel during deadman mode Deadman and automatic mode

To door open end position Open travel to intermediate stop / partial opening

61

P.

[Unit] Operating range

Function

Description / note

2: 3:

P.634

0 ... 4

Keep open time

To intermediate stop / to door OPEN end position from intermediate stop Like 2, but when key is pressed twice the door moves to the door OPEN end position.

This parameter specifies whether and which keep open time / forced closing time elapses after arriving at the end position. 0: 1: 2:

3: 4: 5:

6: 7:

Without keep open time Without keep open time With minimum keep open time No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command. Reserved With keep open time from lower end position, stop time in end position top, when reversing only minimum open time, if current impulse command before, then select keep open time as before. with priority 1 (highest prio: pulse OPEN) with priority 2 (second highest prio: as one channel (=current impulse))

) The hold-open time / forced closing time is set using Parameter P.010.

) The minimum hold-open time is set using Parameter P.015. P.635

0 ... 1

Clearing time

Activates the clearing time / pre-warning time before closing the door if it was previously opened by pressing the OPEN key. 0: 1:

Without clearing time With clearing time

) The clearing time / pre-warning time before closing is set using Parameter P.025. P.636

0 ... 3

Direction

The direction of the OPEN command is used mainly for directiondependent controlling of traffic lights. The parameter specifies for which direction the OPEN command works. 0: 1: 2: 3:

P.639

0 ... 27

LCD message

No direction enabled From outside to inside enabled From inside to outside enabled Both directions are cleared

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.641

0 ... 1

Function foil keypad STOP

Specifies the function (mode) of the STOP key. 0: 1: 2:

P.649

62


0 ... 27

LCD message

After pressing the STOP key the door is stopped and waits for any command. After pressing the STOP key the door is stopped and waits for a keypad command. After pressing the STOP key the door is stopped, open move is possible with any command, close move only by keypad CLOSE command.

For each receipt a message can be selected from a list, which is

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages. P.651

0 ... 2

Function foil keypad CLOSE

Specifies the function (mode) of the CLOSE key. 0: 1:

2: P.654

0-7

P.655

0 ... 1

No door function Only deadman travel during deadman mode Deadman and automatic mode

Keep open time / priority 0: 1:

Clearing time

Without keep open time 5: Without function 6: with priority 1 (highest prio: like pulse CLOSE) 7: with priority 2 (second highest prio: as one channel (=current impulse)) Changing this parameter specifies whether the clearing time before closing is cancelled or not. 0: 1:

Direct closing without a clearing time Door closes after the clearing time has elapsed

) The clearing time / pre-warning time before closing is set using Parameter P.025. P.659

0 ... 27

LCD message

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

2.29

Loop detector 1

P.606 Mcp2 P.660

P.660

20...25

Mcp2 P.661

Profile of detector Channel 1

See attached profile table

Function detector Channel 1

The response of the door controller to triggering of detector Channel 1 is specified in this parameter. The detector responses as: 20: No response to detector tripping. 21: No OPEN command, no additional safety device, no forwarding to the output relay, legitimation, locking, closing command. 22: OPEN command and additional safety device 23: Additional safety with reversing during closing 24: Additional safety, however, the door is stopped if occupied during the closing 25: Additional safety during OPEN and CLOSE travel, closing is continued after becoming free, the door is stopped when closing.

) Additional safety = If occupied during closing the door reverses, no automatic closing possible in the door OPEN end position P.661 Mcp2 P.66B

P.662

[s] 0 ... 65

Switching on delay detector Channel 1 above lower end position

[s]

Falling delay detector

EFAFLEX GmbH

Loop delay above lower end position (when door is not CLOSE) (response delay) e.g. opening intermediate hold position →upper end position not effective for safety loop or during closing Continuous post running time for loop

63

P.

Mcp2 P.66C

P.663

[Unit] Operating range 0 ... 65

0 ... 3

Function

Channel 1 above lower end position End position to move to

Description / note

(off delay) also effective for safety loop or during closing Specifies which end position is traveled to after Detector Channel 1 is activated. 0: 1: 2: 3: 4: 5:

P.664

0 ... 3

Keep open time

To door open end position To intermediate stop / to partial opening (input switching off allowed for) Reserved Reserved as before To intermediate stop / to partial opening (input switching off not allowed for)

This parameter specifies whether and which keep open time / forced closing time elapses after arriving at the end position. 0: 1: 2:

3:

Without keep open time Without keep open time With minimum keep open time No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command.

) The hold-open time / forced closing time is set using Parameter P.010.

) The minimum hold-open time is set using Parameter P.015. P.665

0 ... 1

Clearing time

Activates the clearing time / pre-warning time before closing the door if it was previously opened by detector Channel 1 0: 1:

Without clearing time With clearing time

) The clearing time / pre-warning time before closing is set using Parameter P.025. P.666

0 ... 3

Direction

The direction is used mainly for direction-dependent controlling of traffic lights. The parameter specifies for which direction the detector Channel 1 works. 0: 1: 2: 3:

P.667

20 ... 25

Mcp2 P.66E

Locking detector Channel 1

No direction enabled From outside to inside enabled From inside to outside enabled Both directions are cleared

To prevent false triggering, the detector Channel 1 can be locked out for the time specified in P.678. Channel 1 is locked: 20: 21: 22: 23: 24: 25:

P.668 Mcp2 P.66D

64


[s] 0 ... 120

Locking time

Deactivated Detector Channel 2 Detector Channel 2 and OPEN 2 commands Detector Channel 3 Detector Channel 3 and OPEN 1 commands Reserved

Detector Channel 1 is locked out for the time specified in this parameter (see also P.667)

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EFAFLEX GmbH

EFACON

Door-Controller P.

P.669

[Unit] Operating range 0 ... 27

Function

LCD message

Description / note

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.66A

[s] 0 ... 65

P.66C

0 ... 4

Mcp2 P.661

Switching on delay detector Channel 1

The parameterized function of detector Channel 1 is only executed after the time specified in this parameter.

Closing command on 0: leaving the loop Channel 1: 1 2: 3: 4:

P.66D

0 ... 1

Mcp2 P.668

P.66F

0 ... 2

P.607 Mcp2 P.670

P.670

20...25

Mcp2 P.671

No close command Close command after the loop becomes free Close command after release of loop and the close command is also saved during the OPEN move. Reserved Close command after release of loop only in the UPPER end position. During closing, the detector is ignored.

Deactivation detector Channel 1 during automatic synchronization

Deactivation detector Channel 1 during automatic synchronization

Mode of work of locking detector Channel 1

Mode of work of locking 0. Locking time elapses after first occupation of Channel 1 1. 3b: Locking time starts first if Channel 1 is again free and will not be reset. 2. 2b: Compare 3b, but locking is directly aborted after leaving Channel 2 / -3 / - open-1/-2, independent of the locking time.

0: Evaluate detector also during automatic synchronization 1:

Ignores detector during automatic synchronization

Profile of detector Channel 2

See attached profile table

Function detector Channel 2

The response of the door controller to triggering of detector Channel 2 is specified in this parameter. The detector responses as: 20: No response to detector tripping. 21: No OPEN command, no additional safety, no forwarding to the output relay, legitimation, locking, closing command. 22: OPEN command and additional safety device 23: Additional safety with reversing during closing 24: Additional safety, however, the door is stopped if occupied during the closing 25: Additional safety during OPEN and CLOSE travel, closing is continued after becoming free, the door is stopped when closing.

) Additional safety = If occupied during closing the door reverses, no automatic closing possible in the door OPEN end position P.671 Mcp2 P.67B

P.672 Mcp2 P.67C

[s] 0 ... 65

Switching on delay detector Channel 2 above lower end position

[s] 0 ... 65

Falling delay detector Channel 2 above lower end position

EFAFLEX GmbH

Loop delay above lower end position (when door is not CLOSED) (response delay) e.g. opening intermediate hold position →upper end position not effective for safety loop or during closing Continuous post running time for loop (off delay) also effective for safety loop or during closing

65

P.

P.673

[Unit] Operating range 0 ... 5

Function

Description / note

End position to move to

Specifies which end position is traveled to after detector Channel 2 is activated. 0: 1: 2: 3: 4: 5:

P.674

0 ... 3

Keep open time

To door open end position To intermediate stop / to partial opening (input switching off allowed for) Reserved Reserved as before To intermediate stop / to partial opening (input switching off not allowed for)

This parameter specifies whether and which keep open time / forced closing time elapses after arriving at the end position. 0: 1: 2:

3:

Without keep open time Without keep open time With minimum keep open time No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command.

) The hold-open time / forced closing time is set using Parameter P.010. ) The minimum hold-open time is set using Parameter P.015. P.675

0 ... 1

Clearing time

Activates the clearing time / pre-warning time before closing the door if it was previously opened by detector Channel 2 0: 1:

Without clearing time With clearing time

) The clearing time / pre-warning time before closing is set using Parameter P.025. P.676

0 ... 3

Direction

The direction is used mainly for direction-dependent controlling of traffic lights. The parameter specifies for which direction the detector Channel 2 works. 0: 1: 2: 3:

P.677

20 ... 25

Mcp2 P.67E

Locking detector Channel 2

No direction enabled From outside to inside enabled From inside to outside enabled Both directions are cleared

To prevent false triggering, the detector Channel 2 can be locked out for the time specified in P.668. Channel 2 is locked: 20: 21: 22: 23: 24: 25:

P.678 Mcp2 P.67D

66


[s] 0 ... 120

Locking time

Deactivated Detector Channel 2 Detector Channel 2 and OPEN 2 commands Detector Channel 3 Detector Channel 3 and OPEN 1 commands Reserved

Detector Channel 2 is locked out for the time specified in this parameter (see also P.677)

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EFAFLEX GmbH

EFACON

Door-Controller P.

P.679

[Unit] Operating range 0 ... 27

Function

LCD message

Description / note

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.67A

[s] 0 ... 65

P.67C

0 ... 3

Mcp2 P.671

Switching on delay detector Channel 2 in lower end position Closing command on leaving the loop Channel 2

The parameterized function of detector Channel 2 is only executed after the time specified in this parameter. 0: 1: 2: 3: 4:

P.67D

0 ... 1

Mcp2 P.678

P.67F

0 ... 2

Deactivation detector Channel 2 during automatic synchronization Mode of work of locking detector Channel 2

No close command Close command after the loop becomes free Close command after release of loop and the close command is also saved during the OPEN move. Reserved Close command after release of loop only in the TOP end position. During closing, the detector is ignored.

Deactivation detector Channel 2 during automatic synchronization

0: Evaluate detector also during automatic synchronization 1:

Ignores detector during automatic synchronization

Mode of work of locking 0:

Locking time is counts down from first occupation of channel2

1: 3b: Locking time does not start before Channel 2 has become free again and is not reset

2: 2b: compare 3b, but locking is directly aborted after leaving the channel -2/ -3/ -open-1/-2, independent of the locking time.

2.30

Radio Channel 1+2

P.608

Radio Channel 1 profile

Mcp2 P.6A0

This parameter specifies all parameters for radio Channel 1 See attached profile table

P.680

0 ... 16

Basic function radio Channel 1 profile

P.681

0 ... 7

Mode radio Channel 1

See P.5x1

0 ... 3

End position to move to

See P.5x3

0 ... 3

Keep open time

See P.5x4

0 ... 1

Clearing time

See P.5x5

0 ... 3

Direction

See P.5x6

0 ... 27

LCD message

Defines the basic function of the radio input. The functions are similar to the basic functions of the inputs 1 to 10 and 21 to 26. The function of the P.68x parameter depends on the basic function set here. These are described in "" section.

Mcp2 P.6A1

P.683 Mcp2 P.6A3

P.684 Mcp2 P.6A4

P.685 Mcp2 P.6A5

P.686 Mcp2 P.6A6

P.689 Mcp2 P.6A9

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

EFAFLEX GmbH

67

P.

[Unit] Operating range

P.609

Function

Radio Channel 2 profile

Mcp2 P.6A0

Description / note

This parameter specifies all parameters for radio Channel 2 See attached profile table

P.690

0 ... 16

Basic function radio Channel 2 profile

P.691

0 ... 7

Mode radio Channel 2

See P.5x1

0 ... 3

End position to move to

See P.5x3

0 ... 3

Keep open time

See P.5x4

0 ... 1

Clearing time

See P.5x5

0 ... 3

Direction

See P.5x6

0 ... 27

LCD message

Defines the basic function of the radio input. The functions are similar to the basic functions of the inputs 1 to 10 and 21 to 26. The function of the P.68x parameter depends on the basic function set here. These are described in "" section.

Mcp2P. 6B1

P.693 Mcp2 P.6B3

P.694 Mcp2 P.6B4

P.695 Mcp2 P.6B5

P.696 Mcp2 P.6B6

P.699 Mcp2 P.6B9

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

2.31

Loop detector 3

The detector Channel 3 can only be used in connection with the extension circuit board EFACON. Extension circuit board (must be activated after plug in by P800) P.60C Profile of detector See attached profile table Mcp2 Channel 3 P.680

68
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EFAFLEX GmbH

EFACON

Door-Controller P.

P.6C0

[Unit] Operating range 20...25

Mcp2 P.681

Function

Function detector Channel 3

Description / note

The response of the door controller to triggering of Detector Channel 3 is specified in this parameter. The detector responses as: 20: No response to detector tripping. 21: No OPEN command, no additional safety device, no forwarding to the output relay, legitimation, locking, closing command. 22: OPEN command and additional safety device 23: Additional safety with reversing during closing 24: Additional safety, however, the door is stopped if occupied during the closing 25: Additional safety during OPEN and CLOSE travel, closing is continued after becoming free, the door is stopped when closing.

) Additional safety = If occupied during closing the door reverses, no automatic closing possible during door OPEN end position P.6C1 Mcp2 P.68B

P.6C2 Mcp2 P.68C

P.6C3

[s] 0 ... 65

Switching on delay detector Channel 3 above lower end position

[s] 0 ... 65

Falling delay detector Channel 3 above lower end position End position to move to

0 ... 3

Mcp2 P.683

Loop delay above lower end position (when door is not CLOSED) (response delay) e.g. opening intermediate hold position →upper end position not effective for safety loop or during closing Continuous post running time for loop (off delay) also effective for safety loop or during closing Specifies which end position is traveled to after detector Channel 3 is activated. 0: 1: 2: 3: 4:

P.6C4

0 ... 3

Keep open time

Mcp2 P.684

To door open end position To intermediate stop / to partial opening (input switching off allowed for) Reserved Reserved To intermediate stop / to partial opening (input switching off not allowed for)

This parameter specifies whether and which keep open time / forced closing time elapses after arriving at the end position. 0: 1: 2:

3:

Without keep open time Without keep open time With minimum keep open time No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command.

) The hold-open time / forced closing time is set using Parameter P.010.

) The minimum hold-open time is set using Parameter P.015. P.6C5

0 ... 1

Mcp2 P.685

Clearing time

Activates the clearing time / pre-warning time before closing the door if it was previously opened by detector Channel 3 0: 1:

Without clearing time With clearing time

) The clearing time / pre-warning time before closing is set using

EFAFLEX GmbH

69

P.

[Unit] Operating range

Function

Description / note

Parameter P.025. P.6C6

0 ... 3

Direction

Mcp2 P.686

The direction is used mainly for direction-dependent controlling of traffic lights. The parameter specifies for which direction the detector Channel 3 works. 0: 1: 2: 3:

P.6C7

20 ... 25

Mcp2 P.68E

Locking detector Channel 3

No direction enabled From outside to inside enabled From inside to outside enabled Both directions are cleared

To prevent false triggering, the detector Channel 3 can be locked out for the time specified in P.678. Channel 3 is locked: 20: Deactivated 21: Detector Channel 2 22: Detector Channel 2 and OPEN 2 commands 23: Detector Channel 3 24: Detector Channel 3 and OPEN 1 commands Reserved

P.6C8 Mcp2 P.68D

P.6C9

[s] 0 ... 120

Locking time

0 ... 27

LCD message

Mcp2 P.689

Detector Channel 3 is locked out for the time specified in this parameter (see also P.667) For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.6CA Mcp2 P.68A

P.6CC

[s] 0 ... 65 0 ... 3

Mcp2 P.681

Switching on delay detector Channel 3

The parameterized function of detector Channel 3 is only executed after the time specified in this parameter.

Closing command on 0: leaving the loop Channel 1: 3 2: 3: 4:

P.6CD

0 ... 1

Mcp2 P.688

Activation of detector Channel 3 during synchronization

Deactivation detector Channel 3 during automatic synchronization

1. Evaluate detector also during automatic synchronization 2.

P.6CF

0 ... 2

Mcp2 P.68F

Mode of work of locking detector Channel 3

No close command Close command after the loop becomes free Close command after release of loop and the close command is also saved during the OPEN move. Reserved Close command after release of loop only in the UPPER end position. During closing, the detector is ignored.

Ignores detector during automatic synchronization

Mode of work of locking 1.

2. 3.

Locking time is counts down from first occupation of the Channel 3 3b: Locking time does not start before Channel 3 has become free again and is not reset 2b: Compare 3b, but locking is directly aborted after leaving the Channel -2/ -3/ -open-1/-2, independent of the locking time.

P.B61

0 ... 1

Deactivating Loop 3

Here the scanning of Loop 2 can be deactivated. 0: Deactivate scanning 1: Scanning performed

P.B62

1 ... 5

Frequency range of Loop 3

This parameter specifies the frequency range of Loop 3. 1: Range 30-40 kHz

70
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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

2: 3: 4:

P.B63

1 ... 255

P.B64

[%] 20 ... 80 [min] 0 ... 255

P.B65

Range 45-55 kHz Range 60-75 kHz Range 80-100 kHz 5: Range 105-140 kHz Threshold value of Loop Threshold value from which Loop 3 is considered to be occupied. 3 0: Loop value 4 0,005% ∆f/f 1: Loop value 10 0,013% ∆f/f : 12: Loop value 120 0,150% ∆f/f : 255: Loop value 2550 3,188% ∆f/f

Hysteresis of Loop 3 Holding time of Loop 3

P.B6D

0 ... 1

Scanning filter

P.B6E

0 ... 1

Request new synchronization

2.32

Defines hysteresis of Loop 3. This parameter specifies the smallest time of occupation on which the detector starts a new synchronization for Loop 3. 0: Infinite holding time (no new synchronization) 1-255: Holding time in minutes This parameter specifies whether scanning signals are filtered. 0: No filter (high sensitivity) 1: With filter (high interference immunity) After setting the parameter to 1, a new synchronization of all loops is performed.

Loop detector 4

The detector Channel 4 can only be used in connection with the extension circuit board EFACON. Extension circuit board(must be activated after plug in by P800) P.60D Profile of detector See attached profile table Mcp2 Channel 4 P.690

P.6D0

20... 25

Mcp2 P.691

Function detector Channel 4

The response of the door controller to triggering of detector Channel 4 is specified in this parameter. The detector responses as: 20: No response to detector tripping. 21: No OPEN command, no additional safety device, no forwarding to the output relay, legitimation, locking, closing command. 22: OPEN command and additional safety 23: Additional safety with reversing during closing 24: Additional safety, however, the door is stopped if occupied during the closing 25: Additional safety during OPEN and CLOSE travel, closing is continued after becoming free, the door is stopped when closing.

) Additional safety = If occupied during closing the door reverses, no automatic closing possible during door OPEN end position P.6D1 Mcp2 P.69B

P.6D2

[s] 0 ... 65

Switching on delay detector Channel 4 above lower end position

[s]

Falling delay detector

EFAFLEX GmbH

Loop delay above lower end position (when door is not CLOSED) (response delay) e.g. open travel intermediate hold position →upper end position not effective for safety loop or during closing Continuous post running time for loop

71

P.

Mcp2 P.69C

P.6D3

[Unit] Operating range 0 ... 65

0 ... 3

Function

Channel 4 above lower end position End position to move to

Mcp2P. 693

Description / note

(off delay) also effective for safety loop or during closing Specifies which end position is traveled to after detector Channel 4 is activated. 0: 1: 2: 3: 4:

P.6D4

0 ... 3

Keep open time

Mcp2 P.694

To door open end position To intermediate stop / to partial opening (input switching off allowed for) Reserved Reserved To intermediate stop / to partial opening (input switching off not allowed for)

This parameter specifies whether and which keep open time / forced closing time elapses after arriving at the end position. 0: 1: 2:

3:

Without keep open time Without keep open time With minimum keep open time No keep open time, closing only after activation of a CLOSE command. Keep open time cannot be started by another OPEN command.

) The hold-open time / forced closing time is set using Parameter P.010.

) The minimum hold-open time is set using Parameter P.015. P.6D5

0 ... 1

Clearing time

Mcp2 P.695

Activates the clearing time / pre-warning time before closing the door if it was previously opened by Detector Channel 4 0: 1:

Without clearing time With clearing time

) The clearing time / pre-warning time before closing is set using Parameter P.025. P.6D6

0 ... 3

Direction

Mcp2 P.696

The direction is used mainly for direction-dependent controlling of traffic lights. The parameter specifies for which direction the detector Channel 4 works. 0: 1: 2: 3:

P.6D7

20 ... 25

Mcp2 P.69E

Locking detector Channel 4

No direction enabled From outside to inside enabled From inside to outside enabled Both directions are cleared

To prevent false triggering, the detector Channel 4 can be locked out for the time specified in P.678. Channel 4 is locked: 20: 21: 22: 23: 24: 25:

P.6D8 Mcp2 P.69D

72


[s] 0 ... 120

Locking time

Deactivated Detector Channel 2 Detector Channel 2 and OPEN 2 commands Detector Channel 3 Detector Channel 3 and OPEN 1 commands Reserved

Detector Channel 4 is locked out for the time specified in this parameter (see also P.667)

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range 0 ... 27

P.6D9

Function

LCD message

Mcp2 P.699

Description / note

For each receipt a message can be selected from a list, which is shown when tripping the corresponding input in the LCD display. The list of messages can be found in the LCD selection messages.

P.6DA Mcp2 P.69A

P.6DC

[s] 0 ... 65 0 ... 3

Mcp2 P.691

Switching on delay detector Channel 4

The parameterized function of detector Channel 4 is only executed after the time specified in this parameter.

Closing command on 0: leaving the loop Channel 1: 4 2: 3: 4:

P.6DD

0 ... 1

Mcp2 P.698

Activation of detector Channel 4 during synchronization

Deactivation detector Channel 4 during automatic synchronization

1. Evaluate detector also during automatic synchronization 2.

P.6DF

0 ... 2

Mcp2 P.69F

Mode of work of locking detector Channel 4

2. 3. 0 ... 1

Deactivating Loop 4

1 ... 5

Frequency range of Loop 4

Locking time is counts down from first occupation of the Channel 4 3b: Locking time does not start before Channel 4 has become free again and is not reset 2b: Compare 3b, but locking is directly aborted after leaving the Channel -2/ -3/ -open-1/-2, independent of the locking time.

Here the scanning of Loop 4 can be deactivated. 0: 1:

P.B72

Ignores detector during automatic synchronization

Mode of work of locking 1.

P.B71

No close command Close command after the loop becomes free Close command after release of loop and the close command is also saved during the OPEN move. Reserved Close command after release of loop only in the UPPER end position. During closing, the detector is ignored.

Deactivate scanning Scanning performed

This parameter specifies the frequency range of Loop 4. See P.xxx

P.B73

1 ... 255

P.B74

[%] 20 ... 80

Hysteresis of Loop 4

P.B75

[min] 0 ... 255

Holding time of Loop 4

2.33

Threshold value of Loop Threshold value from which Loop 4 is considered to be occupied. 4 See P.xxx Defines hysteresis of Loop 4.

This parameter specifies the smallest time of occupation on which the detector starts a new synchronization for Loop 4. 0: infinite holding time (no new synchronization) 1-255: Holding time in minutes

Outputs

P.701-

Output profiles

Through this profile, the output function can be defined. All parameters necessary for the output function are reset in one step. see profile table

P.702

EFAFLEX GmbH

Profile output 2

see P.701

73

P.

[Unit] Function Operating range Extension circuit board Extension circuit board (must be activated after plug in by P800) P.704 Profile output 4 see P.701 P.705 Profile output 5 see P.701 P.706 Profile output 6 see P.701 P.707 Profile output 7 see P.701 P.708 Profile output 8 see P.701 P.709 Profile output 9 see P.701 P.70A Profile output 10 see P.701

Description / note

X = Number of the output you wish to parametrize P.7x0 0 ... 24 Switching condition of The selected output relay has, among other, the following the output relay conditions: 0: 1: 2: 3: 4: 5: 6: 7: 8: 9: 10: 11: 12: 13: 14: 15: 16:

17:

18: 19: 20: 21: 22: 23: 24: 25: 26: xx:

P.7x1

[s] 0 ... 1000.0

Switching behaviour of the relay

When end position door OPEN was positively detected When end position door OPEN was not detected When end position door CLOSE was positively detected When end position door CLOSE was not detected When no fault or emergency stop exists, controller in automatic mode Courtyard light function, during each opening and closing switching off delay of 10 seconds after opening. Forwarding of commands ) This setting involves further settings under P.7xF. During each open and close travel During each open and close travel and during open clearing time Forwarding of other door release (e.g. airlock mode) Forwarding of other door locking (e.g. airlock mode) Reserved / without function: Traffic light function ) This setting involves further settings underP.7xF. reserved / without functions: Forwarding of position ) This setting involves further settings under P.7xF. Output of alarm message of maintenance counter Airlock OPEN, passes on OPEN command to second airlock door Test of entrapment protection. Relay switches door CLOSE in end position and is used, e.g. to test the light barrier of the entrapment protection and thus to deactivate and/or test the input. Reserved Reserved Reserved Reserved Reserved Reserved Reserved open Closing When end position door intermediate stop was positively detected

The switching behaviour of the relay is determined by this parameter after activation. 0: flashes at 1Hz 1-1000,0: Turn-on time of the relay in seconds 1000,0: Relay continuously switched on ) For courtyard function 10 seconds Turn off delay P.7x0 = 5

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EFAFLEX GmbH

EFACON

Door-Controller P.

P.7x2 P.7x3 P.7x4

[Unit] Operating range [s] 0 ... 999.9 [s] 0 ... 9999 0 ... 1

Function

Description / note

Turn on delay

The relay is turned on after a time delay set in this parameter.

Turn off delay

The relay is turned off after a time delay set in this parameter.

Logical reversal output

The parameter offers the possibility of reversing the logical condition of the relay output. Thus a closer can be made to an opener and vice versa. 0: 1:

2.34

Relay declined in rest state Relay increased in rest state

Forwarding of position

The position forwarding function is activated with P.7x0 = 14. P.7x5 [Increments] Forwarding of position The relay energizes above the position specified in this parameter. 0 ... 9999 ) This function is only practical if electronic limit switches are used.

2.35

Traffic light function

The traffic light function is activated with P.7x0 = 12. P.7x6 0 ... 4 Selection of traffic light This parameter specifies which lamp of the traffic light is switched type to the relay in use.

P.7x7

P.7x8

0 ... 4

0 ... 4

Behaviour in the door CLOSE end position

0: Green traffic light on inside of door 1: Red traffic light on inside of door 2: Green traffic light on outside of door 3: Red traffic light on outside of door 4: Direction-independent traffic light This parameter specifies the switching behaviour of the relay in the door CLOSE end position.

0: Continuously off 1: Continuously on 2: Flashes at 0.5Hz 3: Flashes at 1Hz 4: Flashes at 2Hz Behaviour during closing This parameter specifies the switching behaviour of the relay during closing. 0: 1: 2: 3:

4: P.7x9

0 ... 7

Behaviour in the door OPEN end position

This parameter specifies the switching behaviour of the relay in the door OPEN end position. 0: 1: 2: 3: 4: 5: 6:

EFAFLEX GmbH

Continuously off Continuously on Flashes at 0.5Hz Flashes at 1Hz Flashes at 2Hz

Continuously off Continuously on Flashes at 0.5Hz Flashes at 1Hz Flashes at 2Hz Traffic light off, when condition of P.7xF is fulfilled. Traffic light off, when condition of P.7xF is fulfilled.

75

P.

[Unit] Operating range

Function

Description / note

P.7xA

0 ... 4

Behaviour during clearing

7: Traffic light flashes at 1 Hz, when condition of P.7xF is fulfilled. This parameter specifies the switching behaviour of the relay during clearing / pre-warning time. 0: 1: 2: 3: 4: 5: 6: 7:

P.7xb

P.7xc

P.7xd

P.7x9

2.36

0 ... 4

0 ... 4

0 ... 4

0 ... 4

Behaviour during close travel

Behaviour during stop

Behaviour if no automatic

Traffic light behaviour during MinOH

Continuously off Continuously on Flashes at 0.5Hz Flashes at 1Hz Flashes at 2Hz Traffic light off, when condition of P.7xF is fulfilled. Traffic light off, when condition of P.7xF is fulfilled. Traffic light flashes at 1 Hz, when condition of P.7xF is fulfilled.

This parameter specifies the switching behaviour of the relay during closing. 0: Continuously off 1: Continuously on 2: Flashes at 0.5Hz 3: Flashes at 1Hz 4: Flashes at 2Hz This parameter specifies the switching behaviour of the relay at stop between the end positions. 0: Continuously off 1: Continuously on 2: Flashes at 0.5Hz 3: Flashes at 1Hz 4: Flashes at 2Hz This parameter specifies the switching behaviour of the relay when there is no automatic function. 0: Continuously off 1: Continuously on 2: Flashes at 0.5Hz 3: Flashes at 1Hz 4: Flashes at 2Hz 0: Continuously off 1: Continuously on 2: Flashes at 0.5Hz 3: Flashes at 1Hz 4: Flashes at 2Hz

Command forwarding

The command forwarding function is activated with P.7x0 = 6. This setting serves also as a condition for the parameters P.7x9 and P.7xA of the traffic light functions. P.7xF 0 ... 45 Command forwarding The selected relay is activated if one of the following inputs is activated. 0: 1 – 10: 11 – 12: 13: 14: 15: 16: 17: 18: 19: 20: 21: 22:

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Function deactivated Input 1 to 10 Reserved internal EMERGENCY OFF External EMERGENCY OFF 1 External EMERGENCY OFF 2 Foil keypad OPEN Foil keypad STOP Foil keypad CLOSE Detector Channel 1 Detector Channel 2 Radio Channel 1 Radio Channel 2

EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

23 – 28: Input 21 (only with extension circuit board) 29 – 30: Reserved Combinations: 31: One of the above inputs 32: One of the light barrier 33: One of the detectors 34: OPEN commands from direction 1 (from outside) 35: OPEN commands from direction 2 (from inside) 36 – 39: Reserved 40: Automatic CLOSE travel due to tripped internal safety edge not possible 41: Automatic CLOSE and/or OPEN travel (see P.470) due to tripped external safety edge not possible 42: Fault with safety edge 43: Reserved 44: Reserved 45: OPEN commands from direction 1 (from outside) and from direction 2 (from inside) 46: Leave Det 1 47: Leave Det 2 48: Leave Det 3 49: Leave Det 4 50: Det 3 51: Det 4

2.37 P.800

Additional circuit board 0 ... 1

Activation EFACON Additional circuit board

This parameter is used to activate the extension circuit board. 0: 1: 2: 3: 4:

Extension board deactivated Reserved Reserved Reserved Extension board activated

Please note: Activation is automatic on inserting.

2.38 P.810 Mcp2 P.811

P.811 Mcp2 P.821

P.820 Mcp2 P.812

P.821 Mcp2 P.822

Block times [s] 0 ... 30

Block time detector Channel 1 and OPEN 1

Detector Channel 1 and OPEN 1 commands are locked out for the time specified in this parameter after activating a cross-traffic input. .

[s] 0 ... 30

Block time for input OPEN 1 at cross traffic

Block time when locking a lockable OPEN 1 command by one of the detector Channels 2 and 3. 0: Deactivated >0: Locking time of the input OPEN 1 at cross traffic

[s] 0 ... 30

Block time detector Channel 2 and OPEN 2

Detector Channel 2 and OPEN 2 commands are locked out for the time specified in this parameter after activating a cross-traffic input.

[s] 0 ... 30

Block time for input OPEN 1 at cross traffic

Block time when locking a lockable OPEN 2 command by one of the detector Channels 1 and 4. 0: Deactivated >0: Locking time of the input OPEN 2 at cross traffic

EFAFLEX GmbH

77

P.

2.39 P.830

[Unit] Operating range

Function

Description / note

Airlock 0 ... 2

Airlock mode

This parameter specifies the mode of the airlock system. 0:

Airlock function deactivated

1: Airlock mode1: 2: 3: 4:

Airlock process is activated by an OPEN command from direction 1 (from outside) Like mode 1, however a light barrier attached to the first door (external safety device B) must be crossed so that the airlock process is started (pass-through detection). Like mode 1, however a light barrier attached to the first door (external safety device A) must be crossed so that the airlock process is started (pass-through detection). Like mode 1, however a light barrier attached to the first door (external safety device C) must be crossed so that the airlock process is started (pass-through detection).

) For pass-through detection, a light barrier must be activated with P.5x0 = 5 and P.5x1 = 1.

P.831

0 ... 1

Emergency exit

Mcp2 P.855

2.40

0: Without emergency exit 1: With emergency exit for airlock mode emergency exist with defective 2nd door

Crash

P.870

0 ... 4

CRASH

P.871 P.873 P.874

0...65535 0...300 [Ink] 5...15 [s]

Crash counter Crash band ”crash”) Waiting time after tripping of crash

P.879

0...1

Reset crash counter

0: Deactivated (does not apply for crash impulse) 1: Reserved 2: Reserved 3: Crash position is travelled to after expiry of a holding time 4: Reserved 5: Open move with key switch (P.5x0 = 1, P.5x1 = 10) Shows the number of counted crashes Crash position above top end position Shows the time the door rests in the crash position, before the door is closed again. In addition, this parameter shows the waiting time after a crash tripping, before it is automatically moved into the crash position. Resets the number of counted crashes to 0 1: Reset P.871 to 0.

2.41 P.910

Diagnosis 0 ... 22

Selection of display mode

With the aid of this parameter you can show the variables listed below in the display of the door controller. The following variables are displayed: 0: 1: 2: 3: 4: 5: 6: 7: 8:

78


The control sequence is shown (automatic) [Hz] The current travel speed [A] The current motor current [Hz] The current motor voltage [A] The current motor current [V] Current DC link voltage [°C] The power stage temperature in °Celsius [°C] The power stage temperature in °Fahrenheit [s] The run-time of the motor during the last operation

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

Description / note

9: 10: 11: 12: 13: 14: 15: 16: 17: 18: 19: 20: 21:

[Increments] The current position [Increments] The position of the reference [Dig] Channel 1 value of the absolute encoder [Dig] Channel 2 value of the absolute encoder [V] Current reference voltage [°C] The temperature in the housing in °Celsius [°C] The temperature in the housing in °Fahrenheit Reserved Reserved Only when using TST PD: [Hz] speed of the shaft of the PD Reserved Reserved Number of position requests without valid answer of the position encoder 22: Number of incorrectly received characters in (activates also the output in P.955)

) Setting 9 to 15 only have meaning when using an electronic switch. P.920

Error memory

The controller stores the last eight errors in the error memory. After opening parameter P.920: • Change level using OPEN and CLOSE keys • Opening the error memory with STOP • Closing the error memory with STOP • Exiting the parameter P.920 with Eb – Eb1: EB2: EB3: EB4: Eb5: EB6: EB7: EB8: Ebcl: EB--:

Eb 1 Eb 2 Eb 3 Eb 4 Eb 5 Eb 6 Eb 7 Eb 8 Ebcl Eb--

Error message 1 (most recent error) Error message 2 Error message 3 Error message 4 Error message 5 Error message 6 Error message 7 Error message 8 Clear the complete error memory Exit the error memory, jump back to parameter P.920

) Er—in the display means that no error was entered. P.925

Software version

This parameter is shows the version of the currently used software.

Mcp2 P.900 Mcp2 P.971

P.930

[s] 0 ... 120,0

Runtime of the motor

P.940

[V]

Input voltage

P.945

1 ... 2

Selection of detector channel for diagnosis data

In this parameter the time required for the last door operation is saved. In this parameter the amount of the currently present input voltage is displayed. Selecting the detector channel 1: 2:

Calls up diagnosis data for detector Channel 1 Calls up diagnosis data for detector Channel 2

) This and the next four parameters are not available if P.800 is configured at 4 (extension circuit board activated). P.946

[Hz] 0 ... 200000

EFAFLEX GmbH

Current frequency:

This parameter indicates the current frequency of the oscillator circuit of the detector channel selected via P.945.

79

P.

[Unit] Operating range

Function

P.947

-32767 ... 32768

Current detuning

P.948

-32768 ... 32767

Maximum detuning

P.949

[Cnt] 0 ... 65535

Presence counter

P.950

[Increments] -999 ... 9999

Current position

P.951

[Dig] 0 ... 0xFFFF

Raw data of the connected encoder system

P.952

0 ... 2

Description / note

This parameter indicates the current detuning of the detector channel selected via P.945. This parameter indicates the maximum detuning caused by the last metallic object, which occupied the loop of the detector channel selected via P.945. This parameter indicates the presence counter of the detector channel selected via P.945. In this parameter indicates the current position of the door related to the CLOSE door end position This parameter indicates, independent on the type of the connected encoder (e.g. incremental coder (e.g. absolute encoder, absolute encoder EFA-PD) the raw data. Display is in hex format and consists of maximally 8-digit.

Selection of incremental Selecting the incremental encoder encoder test 0. Normal encoder operation, no test 1. Checking of the incremental encoders signal A 2. Checking of the incremental encoders signal B

) The settings of this parameter are only considered if P.200 is configured at incremental encoder. ) If the incremental encoder is active, safeties are not considered. The door does not stop at the end positions. P953

[DIG] 0 ... 0xFFFF

P954

[.] 0 ... 255

Diagnosis TST PD Only when using TST PD: Bus diagnosis of position encoder

P955

[.]

Bus diagnosis TST PD

P.970

0 ... 3

Response to due maintenance.

P.971

[1000 cycl.] 1 ... 9999

Number of door cycles after acknowledgement

P.972

[Cycles] 0 ... 9999

Warning before expiration of the maintenance counter

Display of diagnosis information of EFA-PD

This parameter indicates the number of position requests to the position encoder without valid answer. By opening of the parameter with subsequently pressed stop key for a longer time, the counter can be reset. This parameter indicates the number of protocols not understood in the position encoder EFA-PD. The number can only be indicated if P910 = 22. By opening of the parameter with subsequently pressed stop key for a longer time, the counter can be reset (only possible when communication with EFA-PD exists). There are various ways to respond to a due maintenance. Messages or errors will be output: 0. 1. 2.

Service counter is deactivated: Warning I.080 is output Error F0.080 is output and the close move of the door is only possible in deadman mode

3.

Error F0.080 is output and the close and open move of the door is only possible in deadman mode

This parameter specifies the number of door cycles that are possible after resetting the maintenance counter until the next is issued. This parameter specifies the number of door cycles before the maintenance counter expires during which the warning I.080 is issued.

) This function is only active, if P.970 = 2 or 3.

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EFAFLEX GmbH

EFACON

Door-Controller P.

[Unit] Operating range

Function

P.973

0 ... 1

Resetting of the maintenance counter

P.980

0 ... 5

Operating mode

Description / note

By setting the parameter to 1, the maintenance counter is acknowledged.

This parameter is used to set the operating mode of the controller. The following modes are possible: 0: 1: 2: 3:

Close and open move are in self-holding (automatic) Open move are in self-holding (automatic), close move in manual operation (partial automatic) Open and close move in manual operation (deadman) Deadman mode

WARNING 4: 5:

All safety systems and limit switches are ignored. Endurance tests with safeties Automatic opening and closing motion Before each new operation, the holding time P.010 is in effect. Endurance test without safeties

WARNING All safety systems are ignored. P.981

0 ... 3

Mode of the door cycle counter

Depending on the setting, the cycle counter counts using various conditions. 0: Each time the door CLOSE end position is reached, the count is incremented by 1. 1: Each time one of the upper end positions (end position door OPEN or intermediate stop / partial open), the count is incremented by 1. 2: With each full door cycle the count is incremented by 1, i.e., the door must from the end position door CLOSE reach the end position door OPEN and then again move to the end position door CLOSE. 3: With each travel command, the count is incremented by 1 independent of the end positions.

2.42 P.985

General basic settings 0 ... 5

Language of the texts

The language of the texts shown in the display can be set with this parameter. 0. 1. 2. 3. 4.

P.986

0 ... 7

Selection of door name

Selection of the door name indicated on the LCD 0. 1. 2. 3. 4. 5. 6. 7. 8.

EFAFLEX GmbH

English texts German texts Spanish texts French texts Dutch texts

Display of „Efacon“ Display of „Efacon“ Display of „Eco Tor“ Display of „EL/EC Tor“ Display of „Efaflex HHS“ Display of „SRT“ Display of „SST“ Display of „STT“ Display of „STR“

81

P.

[Unit] Operating range

Function

Description / note

9. P.990

0 ... 1

P.991

Factory setting

By setting and saving this parameter to 1 all parameter values are restored to their original value.

Door profile

This profile is used to make settings for in- and outputs as well as typical settings for the door. ) The exact settings which the profile involves can be found in the „drive profile appendix“.

Mcp2 P.991

P.998

0 ... 2

Reset the door cycle counter

Mcp2 P997 Mcp2 P998

P.999

0 ... FFFF

Display of „SST-ECO“

Password

After setting this parameter to 1 the current door cycle counter is cleared. 0: Cancel 1: Resets only P.000 2: Resets P.000 and P.002 (is only selectable from password level 4 onwards) The password provides access to the various parameter levels. 1: 2: xxxx:

Start-up level Extended start-up level Manufacturer level

IMPORTANT Through the different levels of passwords, access to a different number of parameters is granted. A changing of parameters without knowing their function is not permitted. To avoid errors and dangers by unauthorized access, passwords must only be issued to trained staff.

3 In-/output parametrisation 3.1

Input parametrisation

For each input of the door controller, any function can be set. This function can be set through the selection of an input profile (P.501 to P.50A and P.A01 to P.A06) or with the parameters P.5x0 to P.5x9 and/or P.Ax0 to P.Ax9 individually. X = Number of the input you wish to configure Parameter group P.5xx Terminal X = Input TST FUN No. 1 2 3 4 5 6 7

E1 E2 E3 E4 E5 E6 E7

8 9 10 21 22 23 24 25 26

Standard function

E1 E2 E3 E4 E5 E6 E7

E8 E9 E10 E21 E22 E23 E24 E25 E26

E8 E9 E10 E21 E22 E23 E24 E25 E26

P.5x0 = Basic function of the input P.5x1 = Mode of basic function which was set under P.5x0. P.5x2 = Connected type of contact N.O. / closer or N.C. / opener P.5x3 = end position to travel to

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EFAFLEX GmbH

EFACON

Door-Controller P.5x4 = Type of keep open time / forced closing which counts down after activation of input (P.010 to P.015 P.5x5 = specifies whether the clearing time counts down after activation of input (P.020 and P.025) P.5x6 = Logical direction of the input P.5x7 = Turn on delay of input P.5x8 = Turn off delay of input P.5x9 = LCD text which is shown for activation of the input IMPORTANT The setting under P.5x0 involves different settings of parameters P.5x1 to P.5x9.

3.2

Output parametrisation

For each output of the door controller, any function can be set. This function can be set through the selection of an output profile (P.701 to P.702 and P.A01 to P.A06) or with the parameters P.7x0 to P.5xF individually. X = Number of the output you wish to parametrize

X = Output No

Terminal EFACON

Standard function

1

K1 NO/K1/NC K2 NO/K2/NC

K1

2

K2

X = Output No

Terminal EFACON Additional circuit board

Standard function

4

K4 NO/K4/NC K5 NO/K5/NC K6 NO/K6/NC K7 NO/K7/NC K8 NO/K8/NC K9 NO/K9/NC K 10 NO/K10/NC

K4

5 6 7 8 9 10

K5 K6 K7 K8 K9 K10

P.7x0 = Condition under which the relay is energized P.7x1 = Switching behaviour of the relay P.7x2 = Turn-on delay time P.7x3 = Turn-off delay time P.7x4 = Rest state of the relay P.7x5 = Position for position forwarding message P.7x6 = Type of traffic light connected P.7x7 = Behaviour in the door CLOSE end position P.7x8 = Behaviour during opening P.7x9 = Behaviour in the door OPEN end position P.7xA = Behaviour during clearing P.7xb = Behaviour during closing P.7xc = Behaviour on stops between end positions P.7xd = Behaviour if no automatic function is possible P.7xF = Forwarding of command Parameter P.7x5 is only active, when P.7x0 = 14. Parameters P.7x6 to P.7xd are only active, when P.7x0 = 12. Parameter P.7xF is only active, when P.7x0 = 6.

EFAFLEX GmbH

83

4 Overview of Messages Faulty end positions F.000

Upper door position incorrect

F.005

Lower door position incorrect

F.020

Run-time exceeded (during opening, closing or deadman)

F.030

Lag error (position change of the door is less than expected)

Too small a parameter for upper emergency limit switch Upper limit switch range (limit switch band) too small Mechanical brake defective or incorrectly set Too small a parameter for lower emergency limit switch Lower limit switch range (limit switch band) too small Mechanical brake defective or incorrectly set

Implausible conditions for door operation

F.031

F.035

Current motor run-time has exceeded the specified max. run-time; door may be stuck or blocked. If mechanical limit switches are used, one of the limit switches has not tripped.

Door or motor is blocked Insufficient power for providing necessary torque Speed too low Mechanical limit switch was not left or is defective Incremental or absolute encoder shaft is slipping Wrong positioning system selected (P.205) Detected rotation direction not When using incremental encoders: Channel A and B reversed Motor direction of rotation is reversed from the calibration same as expected rotation Excessive “sag” when starting out, brake engages too early or too little direction torque, adjust boost if necessary. Lag error closing (position change Door or motor is blocked of the door is less than expected) Insufficient power for providing necessary torque Speed too low Mechanical limit switch was not left or is defective Incremental or absolute encoder shaft is slipping Wrong positioning system selected (P.205)

F.043

Fault in pre-limit switch for the optosensor

F.050

Reference switch position deviates Reference switch constantly tripped (defective) from the permissible range. Reference switch trips too far from the selected reference. During cyclical synchronization: Reference switch trips in the limit switch band P270 and P280 are both set for reference switch

F.051

Reference switch position deviates Reference switch is in the limit switch band from the permissible range. Reference switch is more than 15 % of upper end position Reference switch is defective

F.052

Reference switch not detected

The pre-limit switch for the optosensor remains engaged even in the middle end position or the upper end position.

Incremental encoder error messages

84


The reference switch is not detected within 20% of upper end position during automatic synchronization after power-up The reference switch is not detected in the associated end position.

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EFAFLEX GmbH

EFACON

Door-Controller

Crash errors F.060

Crash detected

F.063

Synchronization of loop 3

•

Check and if necessary adapt sensitivity and frequency setting

F.064

Synchronization of loop 4

•

Check and if necessary adapt sensitivity and frequency setting

F.067

Error at loop 3

• Short circuit Interruption

F.068

Error at loop 4

• Short circuit Interruption

F.080

Fault: Maintenance required

•

F.090

Control is not parameterized

The basic parameters (P.205, P.100 to P.103) of the controller have not yet been set.

F.201

internal emergency off "button switch" tripped

The power circuit for the detection of crash tripping is open. (opener principle)

Error message of integrated detectors

Maintenance counter exceeded Service counter is deactivated:

Parameter not set

Safety chain faults

or watch dog (computer monitor)

E-stop chain was interrupted starting at "internal e-stop" input without parameterizing mode having been selected Internal parameter or EEPROM checks were incorrect, pressing the STOP key provides additional information about the cause

F.211

External E-stop 1 tripped

E-stop chain was interrupted starting at E-stop input 1

F.212

External E-stop 2 tripped

E-stop chain was interrupted starting at E-stop input 2

F.360

Short circuit detected at terminal strip input Number of edge actuations for closing has reached the set limit

Safety chain faults F.361

F.362

F.363

F.364

F.365

Short circuit on safety edge with opener contact detected Parameterized maximum number of safety edge actuations during a door cycle was exceeded

Redundancy error for short circuit One of the processing channels for short circuit detection is not responding identically to the second channel. detection Æ control board defective Dynamic optical system connected but not set in Parameter P.460. Open circuit on safety edge input Cable defective or not connected Termination resistor defective or missing Jumper incorrectly set Safety edge test failed • Safety edge was not activated as expected when test was requested. • The time between request for test and the actual test are incompatible. • The dynamic optical system is defective.´ Redundancy error at open circuit • One of the processing channels for open circuit detection is not responding identically to the second channel. Æ control board defective

• F.366

Too high a pulse frequency for optical safety edge

EFAFLEX GmbH

Dynamic optical system connected but not set in Parameter P.460.

Faulty optical safety edge • Defective input for internal safety edge.

85

Safety chain faults F.369 F.373

Internal safety edge incorrectly parametrized Fault in safety edge (message comes from module)

•

F.374

Safety edge test failed

F.379

Safety edge detection defective (coding pin or parameter setting)

F.385

Fault in pre-limit switch for the safety edge

F.400

Hardware reset of controller recognized

F.410

Overcurrent (motor current or DC link current)

F.420

DC link overvoltage limit 1

F.425

Overvoltage on mains input

F.430

Heat sink outside of working range Limit 1

F.435

Fault: Temperature in the housing above 75 °C DC-link overcurrent limit 1

An internal safety edge is connected, but not deactivated.

Cable break to safety edge, no edge connected, edge termination resistor incorrect or defectiveJumper for termination resistor definition in wrong position • Safety edge processing selected with Parameter P.470, but module not plugged in or wrong module. • Pre-limit switch for safety edge incorrectly set or defective • Processor module defective • Safety edge defective • No module plugged in, but was reported as present by a parameter The controller was started up with another module than the one currently plugged in. The pre-limit switch turning off the safety edge or reversing after the edge is tripped remains engaged even in the upper end position.

General hardware faults

F.440

F.510

Motor / DC-link overcurrent limit 2

F.515

Motor protection function detected overcurrent

F.519

IGBT driver chip detected overcurrent

F.520

DC-link overvoltage limit 2

F.521

DC-link undervoltage

F.524

ext. 24 V supply missing or too low

F.525

Overvoltage on mains input

86


Significant faults on the supply voltage Internal watchdog has tripped • RAM errors • Wrong motor rated data set (P100 – P103) • Voltage increase / boost not correctly set (P140 or P145) • Motor sized wrong for the door used • Door does not run freely • Brake chopper fault / defective / not present Significantly excessive feed voltage • Motor feeds back too much energy in generator mode, not enough movement energy of the door can be dissipated. • Supply voltage is too high • Supply voltage fluctuates significantly • Excessive load on final stage or brake chopper • Ambient temperature too low for operating the controller. • Final stage clock frequency too high (Parameter P.160) • Excessive load on frequency converter / of circuitry • Control cabinet not sufficiently cooled • Voltage increase (boost) not adjusted Motor sized wrong for the door used • Door does not run freely • Wrong motor rated data set (P100 – P103) • Voltage increase / boost not adjusted (P140 or P145) • Motor sized wrong for the door • Door does not run freely • Wrong motor characteristic curve (rated current) set (P101) Voltage increase / boost too high (P140 or P145) • Motor sized wrong • Short circuit or ground fault on motor terminals • Extremely wrong motor rated frequency set (P100) • Voltage increase / boost extremely high (P140 or P145) • Motor sized wrong • Motor winding defective • Momentary interruption in E-STOP circuit • Brake chopper fault / defective / not present • Input supply voltage too high Motor feeds back too much energy in generator mode, since it must dissipate the movement energy of the door. • Too little input voltage supply, usually with load present • Excessive load on / fault of final stage or brake chopper • Overload, however no short-circuit. • When 24V is short-circuited, controller supply does not start-up and glow-lamp V306 is on. • Supply voltage is too high • Supply voltage fluctuates significantly • •

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EFAFLEX GmbH

EFACON

Door-Controller

General hardware faults F.530

Heat sink temperature Working range limit 2

F.535

Fault: Temperature in the housing above the critical 80 °C DC-link overcurrent limit 2

• •

• F.540

•

Excessive load on final stage or brake chopper Excessive clock frequency on final stage (P160) Ambient temperature too low for the controller. Internal temperature too high

• Voltage increase (boost) not adjusted Motor sized wrong for the door used • Door does not run freely

Error in the positioning system F.700

Defective position sensing

F.720

Synchronization error in position sensing using incremental encoder

F.750

Protocol transmission error

F.751

Synchronization FUN absolute encoder Protocol transmission timeout

F.752

With mechanical limit switches: At least one limit switch does not correspond to the parameterized active state. • An implausible combination of at least 2 active limit switches. With electronic limit switches: • After invoking activation of the factory (default) parameters (Parameter P.990), the corresponding positioning system was not parameterized. • Calibration of the door system not completed and/or incorrect and must be repeated. • When activating the intermediate stop, the intermediate stop is implausible. • Synchronization of the door system not completed or reference switch defective • The intermediate stop position is smaller than the minimum incremental value (25). • Synchronization has not been completed. • The selected reference switch is not being reached or lies outside its tolerance. • The incremental encoder is not counting or the door is blocked (plus F.030, lag error) • Incremental encoder inputs IN 9 and IN 10 are reversed (plus F.031 rotation error) Faulty hardware or significantly disturbed environment • •

•

• •

• • •

• F.760

Position outside window range

•

• • F.761 F.762

Distance Channel 1 Channel 2 outside allowed window Electronic limit switch positions incorrect

F.766

Internal error of TST PD:

F.767

Overtemperature in TST PD

F.768

Undervoltage battery

F.769

Speed of the shaft of the PD is too high

EFAFLEX GmbH

Faulty hardware or significantly disturbed environment Absolute encoder processing electronics defective Interface cable defective / open Absolute encoder processing electronics defective Faulty hardware or significantly disturbed environment Shield control line Attach RC element(100Ω+100nF) to brake Position encoder drive defective Absolute encoder processing electronics defective Faulty hardware or significantly disturbed environment

Position encoder drive defective Faulty hardware or significantly disturbed environment Upper limit switch Eo or intermediate limit switch E1 has exceeded the valid limit range • Controller not yet initialized Position settings during calibration incorrect or values no longer plausible. inconsistent position of PD, by significantly disturbed environment or operation outside specifications Housing inside temperature in TST PD is too high Motor too strongly heated through permanent operation Battery voltage measured too small, in the case of de-energized control, danger of loss of position Travel frequency too high, speed of the shaft of the TST PD outside specification •

•

87

Internal system faults F.920

Defective hardware

F.921

Internal 2.5 reference voltage faulty Internal 15 V supply faulty

•

Defective hardware

F.922

E-stop chain not complete

•

F.927

TLG test error Number in P.431 exceeded

•

F.930

external watchdog faulty

•

Not all E-STOP inputs are separately jumpered although the entire E-Stop chain is jumpered Redundant checking tripped E-stop chain TLG defective (formerly message I.927) Door does not reach sync beam in lower end position of the door (formerly message I.928) Faulty hardware or significantly disturbed environment

F.931

ROM error

•

F.932

RAM error

• •

F.935

Stack error

•

• •

• F.960

Parameter checksum faulty

F.961

Checksum on calibration values etc. Converter parameter not plausible Ramp parameter not plausible

•

•

F.962 F.963

•

• •

• •

• F.964 F.970

Program version / manufacturer code Plausibility parameter block error

•

• • •

•

4.1

Incorrect EPROM Code Faulty hardware or significantly disturbed environment Faulty hardware or significantly disturbed environment UserStack or SystemStack overflow Possible software error due to recursive invocations (e.g. profile) new EPROM version with changed parameters Controller not yet initialized new EPROM version with changed EEPROM structure Controller not yet initialized New EPROM version Controller not yet initialized New EPROM version Controller not yet initialized New EPROM version Controller not yet initialized New EPROM version Controller not yet initialized Some parameter is implausible

Information messages General messages

STOP Endlage ZU CLOSE end position Zu, verriegelt Close locked Zufahrt Closing Endlage AUF Open end position Dauerauf Permanent open Auffahrt Opening Zwischenhalt Intermediate hold Störung/ Fehler Error/fault STOP Eichen Calibration Not-Aus E-Off Notfahrt E-travel

88


Stop / reset state, wait for the next arriving command. Lower end position Locked lower end position → no opening move possible (e.g. airlock) Active closing Upper end position Upper end position locked → no closing possible (e.g. safety loop) Active opening Middle end position E1 (intermediate stop position) Middle end position locked → no closing possible (e.g. safety loop) Fault → only deadman mode possible, if applicable automatic opening Calibration → Setting of end positions in deadman travel (for absolute encoders) → start procedure by STOP key Emergency off → no travel possible, hardware safety chain interrupted Fault → only deadman moves ignoring safeties etc.

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EFAFLEX GmbH

EFACON

Door-Controller Handbetrieb Manual operation P: Service Sync Automatik Automatic Halbautomatik Semi-automatic EFACON EFACON.

Manual → deadman mode Parameterization Synchronization (incremental position encoder / limit switch → pos. unknown) Automatic → indicates a switch from "manual" to "automatic" Semi-automatic → indicates a switch from "manual" to "semi-automatic" First indication after switching on (power up and self test) for 0.75 kW type First indication after switching on (power up and self test) for 1.5 kW type

Status signals during calibration Eichen EU Calibration of the lower end position requested (in deadman travel) Calib. lower end position Eichen EO Calibration of the upper end position requested (in deadman travel) Calib upper end position Eichen EH Calibration of the intermediate hold position E1 (in deadman travel) Calibration intermediate hold

Status signals during synchronization: Sync EU Sync lower end position Sync EO Sync upper end position Sync EH Sync interm. hold Sync op Sync cl Sync verr Sync locked.

Synchronization of the lower end position requested (Deadman travel or waiting for start condition) Synchronization of the upper end position requested (Deadman travel or waiting for start condition) Synchronization of the intermediate hold position E1 (in deadman travel) Automatic opening as far as mechanical stop, then automatic synchronization of upper end position Automatic closing using safety devices as far as mechanical stop, then automatic synchronization of lower end position Automatic closing is locked out, request

Status signals during deadman travel: Hand cl Deadman (closing) key: CLOSE) Manual cl Hand op Deadman opening (key: OPEN) Manual op Hand EU Lower end position reached, no further deadman closing possible Man. lower end pos. Hand EO Upper end position reached, no further deadman opening possible Man. upper end pos. Hand AO Outside allowed upper end position (no deadman opening possible) Manual outs. upper

Information messages in automatic mode: I.080 I.100 I.150 I.160 I.170 I.199 I.200 I.201 I.202 I.203 I.205 I.210 I.211 I.310

EFAFLEX GmbH

Maintenance is soon necessary / service counter is about to expire Speed when reaching upper end position too high Speed when reaching lower end position too high Constant OPEN still active Forced opening is being performed Door cycle counter is not plausible (re-initialize →parameter) Reference position corrected and/or detected (after calibration) Reinitialized reference position Reference position missing Reference position faulty Synchronization Upper pre-limit switch implausible Lower pre-limit switch implausible OPEN command to door 2 is issued

89

I.500 I.501 I.502 I.505 I.506 I.507 I.510 I.515 I.520 I.555 I.927 I.928

Correction of upper limit switch in progress Upper pre-limit switch corrected Upper limit switch band corrected Correction of lower limit switch in progress Lower pre-limit switch corrected Lower limit switch band corrected Correction of the end position Control prepares the automatic teaching of the limit switch. Speed error (set speed is not reached) Correction of the limit switch is in progress TLG test failed (no test impulse by TLG) TLG test failed (sync beam was not reached)

NoEr Er-Prog

Error memory: no error saved Error memory: if error is found but no associated message Programming message while original parameters and/or default set are being run.

E.000 E.050 E.090 E.101 E.102 E.103 E.104 E.105 E.106 E.107 E.108 E.109 E.110 E.121 E.128

Foil keypad OPEN key Foil keypad STOP key Foil keypad CLOSE key Input 1 Input 2 Input 3 Input 4 Input 5 Input 6 Input 7 Input 8 Input 9 Input 10 Input 21 Input 28

Information messages during parametrization:

General inputs

Safety /Emergency stop chain E.201 E.211 E.212

Internal emergency off "button switch" tripped External emergency off 1 tripped External emergency off 2 tripped

Safety edge in general E.360 E.363 E.370 E.373 E.379

Tripping of internal safety edge Fault of internal safety edge Tripping of external safety edge Fault of external safety edge External safety edge activated, but not plugged in

E.401 E.402

Radio Channel 1 Radio Channel 2

E.501 E.502 E.503 E.504

Detector Channel 1 Detector Channel 2 Detector Channel 3 Detector Channel 4

E.900

Error signal of the controller module

Radio plug-in module Induction loop evaluator plug-in module

Internal inputs

90
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EFAFLEX GmbH