Tormax TDA 200, TDA 100 Swing Door Operator Installation and Service Manual
The TDA 200 and TDA 100 are automatic door operators designed for commercial applications. These overhead, concealed units are designed to be installed inside of buildings. The installation and service manual provides instructions for certified technicians, covering safety, installation, electrical connections, teach-in, sensor wiring and DirCom programming.
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Installation and Service Manual
TDA SWING DOOR OPERATOR
1
T-957 US801353
4-2-10
Contents
1 Introduction
2 Safety
3 Installation 200 series
4 Installation 100 series
5 110vAC Connection
6 Teach In
7 Sensor wiring and input / output functions
8 Factory DirCom programming
9 Additional DirCom programming
10
Check List
3
3 - 4
5 - 8
9 - 13
14
15 - 16
17 - 22
23 - 29
30 - 35
36
22
Symbols Used in these Instructions
1 Introduction
These instructions are intended for AAADM Certified technicinas. Tormax strongly recommends all adjsstments be made in accordance with ANSI A156.10 and A 156.19 standards.
These two symbols mark all passages that concern your safety:
Warning of a health hazard of a general kind
Warning of electric voltage/current
Passages with text on grey background must be absolutely observed for reliable performance of the system! Neglect can cause material damage.
General Safety Instruction
2 Safety
Before beginning the installation read the instructions in this manaul failure to do so may cause serious injury to users or damage to the operator.
Make sure the door system is installed and serviced by an AAADM certified technician to the latest ANSI A156.10 and or ANSI A156.19
standard.
These products are Underwriters Laboratories, Inc. (UL) listed and cUL certified for the Canadian marketplace, and therefore comply with the requirements of the
National Electrical Code (NEC) and the Canadian Electrical Code (CEC). Installa tions intended to meet UL and cUL requirements must be followed as described in the instruction provided herein. These are minimum standard requirements.
Where local codes exceed these requirements, they must be followed as well.
-
The maximum leaf weight depends on the size of the door. Please proceed according to the diagram below.
325
Lb
Maximum door weights
0
0
Leaf width
48
T1163/1e
In
3
3
General Safety and
Accident Prevention
Instructions
Use for Intended Purpose
Requirements Relating to
Installation Personnel
Preventing General Hazards and Possible Damage to This Equipment
• Verify that the power selection switch is set to the correct voltage before start-up.
knockout that is close to the input power supply terminals. It should not be routed structure. It should not also be concealed behind walls, etc.
parts of the operator, door, or system.
Warnings of Dangerous Electrical Voltages or Current
• Be sure the electrical power is disconnected and locked-out when working on the operator unit.
• Install the electrical cables and power only after the mechanical installation to the unit is done.
• Turn on the power to the operator unit only after all internal cables are connected. Do not connect cables while the unit is powered.
• Always use appropriate tools for installation and repair.
Please read the operating instructions of the TORMAX operator and the following safety instructions carefully prior to commissioning or performing any work on the system—and adhere to them!
Pay particular attention to the specially marked notes in these instructions (for an explanation of the symbols please refer to chapter 1)!
The TORMAX operator has been designed and constructed according to the current state of technology and the recognized safety related rules and is intended exclusively for the usual application in conjunction with automatic TORMAX doors. The enclosure operator corresponds to protective class IP22 . Without additional safety measures, the operator may only be installed inside of buildings.
Any other use is considered incorrect and may result in injuries to the user or third parties. Further, it may result in damages to the system or other associated equipment.
The manufacturer will not be liable for damages resulting from incorrect application; the risk of such applications must be borne entirely by the user.
Tormax strongly recommends all service and installations be performed by an AAADM
Basic Safety Measures –
Appropriate Behavior
Relevant Regulations
Use system only in a technically sound condition. Ensure that faults which could diminish safety are eliminated in at once.
Do not touch any moving parts. Extra caution is required in the areas of the drive lever, the linkage and the secondary closing edges of the hinge.
Electrical voltage / current: perform manipulation cleaning only when the power supply is switched off!
Connect mains supply only when all internal cables are connected.
Use only tools suited for the relevant work sequence, without exception. Make sure the tools are in a sound condition.
The operating, service and maintenance instructions supplied by the manu–facturer must be observed. TORMAX door operators may only be maintained and repaired by
AAADM certified technicians.
4
3 Installation 200 series
Out Swing
5
0” Reveal In Swing
6
0 “- 6” In Swing Arm (RH SHown)
7
In Swing Parallel Arm (Speical Order)
11 - 13/16”
8
4 Installation 100 series
NOTE: Tormax recommends the use of a water level and and plumb bob
to proprley install any door package provided. An improper installation
could lead to premature weare of moving parts as well as an unpleasing
appeearance and / or service issues for the customer.
1.
TDA (Over Head Concealed) Installation
If the unit w as suppl ied with jambs they should be i nstalled at this time. If the unit was supplied without jambs, then the un it should be secured into the provided locat ion us ing the appr opriate fasteners. The unit should be installed so that outsi de forces acting on the door will not be able to move or twist the unit, allowing the fasteners to work themselves loose.
TDA UNIT
FASTENERS
JAMB
9
2.
DRIVE ARM INSTALLATION
At this point install the drive ar m (PN TID 345026 )(Pic 2a) into the splined output of the TDA Motor/Gear box assembly. This step should
be completed with no powe r supplied to the TDA.
The drive arm should be in serted so that two sides of the square boss run as close to parallel to the header as the splines will allow (Pic. 2b).
The location of the drive arm serves mu door and also allows the door to br ltiple purposes, it pre-loads the eak out when equipped to do so.
The drive arm is designed to have an interference fit with the splines on the TDA unit and thus should be driven into place. In sert the supplied bolt (PN 140240-16) into the drive arm at least half way (Pic. 2c). Drive the assembly into the TDA (Pic.2d). T he drive arm should be driven until it bottoms. Once installed the drive arm must be secured with the provided screw (M8 x 1.25 x 55 flat head). Insert as shown (Pic. 2e), into the threaded bore in the TDA unit (Pic. 2f). The finished assembly can be seen in (Pic. 2g).
2a 2b
2e
2c
2d
10
10
2f 2g
3.
INSTALLATION OF BOTT OM GUIDE/ THRESHOLD
The bottom door pivot should now be installed along with the threshold if required for this installation (Pic 3a). NOTE: The bottom doo r pivot is included in PN STD.AKIS. The bottom door pi vot must be in line with the drive arm previously installed in the TDA. The use of a plumb bob to align the bottom pivot is advised. If installed incorrectly, the door could swing in an
elliptical arc, resulting in ad verse door characteristics.
3a
4. DOOR INSTALLATION
Install the door from the side op posite the normal swing path (breakout side) and at approximately 90 degrees to the TDA unit, place the door onto the bottom pivot (Pic 4a & 4b). Line up the drive arm re ceiver with the drive arm mounted to the TDA (Pic. 4c & 4d). NO TE: The drive arm re ceiver is included in PN STD.AKIS. Engage the door with the drive arm and secure it with the supplied cap and bolts (Pic. 4e). Pictures contin ued on next page.
ENGAGE DOOR
4a
BREAK OUT PATH
11
11
INTENDED SWING PATH
4b
4c
DRIVE ARM
RECEIVER
4d
4e
5.
BREAK OUT SWITCH
The break out switch (PN STD.PKI) co mes factory installed and programmed for each ap plication. After the door is installed, rotate it to the closed position.
The breakout switch can be toggled back and forth to allow the door to bypass it (Pic 5a).
5a
6.
TEACH IN AND FINAL ASSEMBLY
The TDA overhead unit is now ready to be taught in. See Teach In instructions at the end of this docu ment. Install inspection covers (PN
140733-01 Clear finish, 140733-02 Drk Bronz e finish) provided and any applicable labels.
For technical questions contact Tormax Technical Service at 888-685-3707
Exts. 123 or 103.
12
12
7.
DRIVE ARM REMOVAL
In the event the dr ive arm needs to be removed proceed as follows. Lubricate and insert supplied bolt into drive arm. Hold drive arm wh ile tightening the bolt. Once the bolt bottoms against the TDA it will b egin to pull the drive arm out.
13
13
5 Electrical Connections
Mains Connection
Cable Routing
Emergency-O Switch
L1
10A T Main System switch
3 mm
230/115 V
50/60 Hz
Note mains voltage
N
T957/9 e
Prior to beginning any of the following work, ensure that the mains supply is turned off.
The mains cable should be routed along the side containing the power supply if possible.
The connections must be of type “PVC-cable H05VV-F” or “Rubber hose cable H05RR-
F” or material approved by local code.
Remove burrs from all feed-through holes for mains connections.
• Remove the mains supply cover (1).
• Connect the mains cable to terminal (K) according to the figure.
• Route mains cable either through the prepared holes in the side part or through the openings in the mounting plate.
• Use only cable glands made from plastic material. Metallic bushings are to be grounded.
.
S
L1
N
K
• Secure mains cable with a cable strap on the cable relief (Z).
1
Z
T957/8
• Check the correct setting of the voltage selector (S) and replace the mains supply cover (1).
moving parts, the system can be connected to mains supply.
The two cable straps fastened to the motor casing are used for the routing of external cables.
• Remove both cable straps.
• Install emergency-off switch according to the contract order and route the mains connection via the emergency-off switch.
Emergency-off switch
Mains connection TDA
L1
N
230 V
50/60 Hz
T957/1e
6 Teach - In
TDA Single / Master “Teach-In”
If required, the following basic adjustments of the door can be changed by the
“Teach-In” function:
SOFT KEY
Opening speed
Opening angle
Hold-open time (time delay)
Do not hold soft key down or programming will be deleted!
“Teach-In” Procedure
1. Locate the small gray button (Soft-Key) on the TCP-52 control next to the wide ribbon cable
NOTE: If the following steps take longer than 30 seconds each (except the adjustment for the hold-open time), the control system will return to the previously active operating mode (e.g. OFF, AUTO, HOLD-OPEN). The door should be in the HOLD-OPEN position before proceeding to the next steps!
2. Select operating mode OFF.
3. Press and release the gray button.
4. The control will “beep” and the LED’s on the ON/OFF/HOLD-OPEN panel will flash up and down. This signals that the Teach-In mode is activated.
5. The 2 nd
“beep” indicates the door is closed and the encoder is at the zero (0) degree position.
6. Manually open the door to establish the opening speed and opening angle.
Hold the door in this position until the control “beeps” (3 rd
beep).
7. After the 3 rd
“beep”, continue holding the door open to set the Hold-Open time.
8. Release the door after the desired Hold-Open time. When the door begins
time signaling that the Hold-Open time has closing, the control will “beep” a 4 th been set.
9. The control will “beep” a 5 th
time when the door is in the fully closed position.
10.Press and release the gray button. The control will “beep” a 6 acknowledging the settings. th
time
NOTE: After the door resets, it will open fully to the HOLD-OPEN position.
1/26/04
15
Do not hold soft key down or programming will be deleted!
PN: 408468 (Jumper Bee)
TDA Slave “Teach-In”
If required, the following basic adjustments of the door can be changed by the “Teach-In” function:
Opening speed
Opening angle
Hold-open time (time delay)
Slave “Teach-In” Procedure
1. Unplug the power to the Slave control by disconnecting the transformer cable.
2. Plug the red Jumper Bee plug into the red socket on the Slave control next to the wide ribbon cable as shown above. (This plug will be installed from the factory.)
3. Power the Slave control by reconnecting the transformer cable.
4. Put the function control panel on the Master in the “Automatic” position.
5. Locate the small gray button (Soft-Key) on the TCP-52 control next to the wide ribbon cable.
NOTE: If the following steps take longer than 30 seconds each (except the adjustment for the hold-open time), the control system will return to the previously active operating mode (e.g. OFF, AUTO, HOLD-OPEN).
6. Press and release the gray button. This is the 1
7. The 2 nd st
“beep” for the Teach-In process.
“beep” indicates the door is closed and the encoder is at the zero (0) degree position.
8. Manually open the door to establish the opening speed and opening angle. Hold the door in this position until the control “beeps” (3 rd
beep).
9. After the 3 rd
“beep”, continue holding the door open to set the Hold-Open time.
10. Release the door after the desired Hold-Open time. When the door begins closing, the control will “beep” a 4 th
time signaling that the Hold-Open time has been set.
11. The control will “beep” a 5 th
time when the door is in the fully closed position.
12. Press and release the gray button. The control will “beep” a 6 settings. The door will slightly move while the control resets. th
time acknowledging the
13. Remove the red Jumper Bee plug. Do not throw this plug away!!! It may be needed to make future adjustments.
2/6/04
16
7 Sensor wiring and input / output functions
Terminal Input / Output
Functions
Activation - Signals the operator to open. (NO input)
Reactivation - Reopens door while closing input is inhibited when the door reaches the full closed position. (NO input)
Stall - When door is opening and input is active the door will stop in the position it is in. Input is inhibited when door reaches 75* of the full open 90* (NO input)
Safety - Keeps a open door opena nd a closed door from opening. (NO input)
Key Switch - Signals the door to open even if in the Off Mode. (NO input)
E Module - Dry relay contact active when door is in programmed state. (NO or NC avaliable)
.75 A max output from 24vdc output, use of 24vac trans is strongly recommended
Factory Wiring for TDA 200 Single
Activation
Reactivation
Stall
Safety
Terminal C
1 GND
2 IN
3 GND
4 IN
5 +24 VDC
6 GND
7 IN
8 GND
9 IN
10 +24 VDC
Key Switch
1
2
Terminal D
IN
GND
2
3
Terminal L
1 GND
24 VDC
Door Closed
Opening / Open
E-Module
E14
E12
E11
E14
E12
E11
To lock out relay +24vdc present when door is Open / Opening.
Terminal Input / Output
Functions
Activation - Signals the operator to open. (NO input)
Reactivation - Reopens door while closing input is inhibited when the door reaches the full closed position. (NO input)
Stall - When door is opening and input is active the door will stop in the position it is in. Input is inhibited when door reaches 75* of the full open 90* (NO input)
Safety - Keeps a open door opena nd a closed door from opening. (NO input)
Key Switch - Signals the door to open even if in the Off Mode. (NO input)
E Module - Dry relay contact active when door is in programmed state. (NO or NC avaliable)
Inhibit Switch - Prevents door from operating also called break out switch.
(NO input)
.75 A max output from 24vdc output, use of 24vac trans is strongly recommended
Factory Wiring for TDA 100 Single
Activation
Reactivation
Stall
Safety
Terminal C
1 GND
Inhibit switch
2 IN
3 GND
4 IN
5 +24 VDC
6 GND
7 IN
8 GND
9 IN
10 +24 VDC
1
2
Terminal D
IN
GND
2
3
Terminal L
1 GND
24 VDC
Function Control Panel
Panel lock
3
6
7
4
5
8
9
10
1
2
Screen
B Module on TCP
1
4
5
2
3
GND
IN
IN
IN
OUT
6
7
8
OUT
OUT
OUT
9
10
OUT
+ 24 VDC
Door Closed
Opening / Open
E-Module
E14
E12
E11
E14
E12
E11
To lock out relay +24vdc present when door is Open / Opening.
BLACK/WHITE
BROWN
ORANGE
GREY
GREEN
RED/WHITE
WHITE
R 1
R 2
5
6
7
3 n
-
+
4
TA
TA
WE
WE
N.C.
N.O. white black
COM green red
PO
PO brow
DA
DA blue
1
8
7
6
5
4
3
D2
R
R
+
GN
IT
IT
PTY
CO
N.O
N.C
PO
PO
IN
IN
EM
HIB
HIB
.
.
M
WE
WE
1
8
7
6
5
4
3
D2
R
R
+
GN
IT
IT
PTY
CO
N.O
N.C
PO
PO
IN
IN
EM
HIB
HIB
.
.
M
WE
WE
19
Terminal Input / Output
Functions
Activation - Signals the operator to open. (NO input)
Reactivation - Reopens door while closing input is inhibited when the door reaches the full closed position. (NO input)
Stall - When door is opening and input is active the door will stop in the position it is in. Input is inhibited when door reaches 75* of the full open 90* (NO input)
Safety - Keeps a open door opena nd a closed door from opening. (NO input)
Key Switch - Signals the door to open even if in the Off Mode. (NO input)
E Module - Dry relay contact active when door is in programmed state. (NO or NC avaliable)
.75 A max output from 24vdc output, use of 24vac trans is strongly recommended
Factory Wiring for TDA 200 Pair
Activation
Reactivation
Stall
Safety
Master Slave
Terminal C
Terminal C
1 GND
1 GND
2 IN
Off Mode
2 IN
3 GND
3 GND
4 IN
Reactivation
4 IN
5 +24 VDC
5 +24 VDC
6 GND
6 GND
7 IN
Stall 7 IN
8 GND
8 GND
9 IN
Activation 9 IN
10 +24 VDC
10 +24 VDC
Key Switch
1
Terminal D
IN
2
GND
Open Mode
Off Mode
E-Module
E14
E12
E11
E14
E12
E11
Safety
1
Terminal D
IN
2 GND
Door
Opening / Open
Door Closed
E-Module
E14
E12
E11
E14
E12
E11
To lock out relay +24vdc present when door is Open / Opening.
Terminal Input / Output
Functions
Activation - Signals the operator to open. (NO input)
Reactivation - Reopens door while closing input is inhibited when the door reaches the full closed position. (NO input)
Stall - When door is opening and input is active the door will stop in the position it is in. Input is inhibited when door reaches 75* of the full open 90* (NO input)
Safety - Keeps a open door opena nd a closed door from opening. (NO input)
Key Switch - Signals the door to open even if in the Off Mode. (NO input)
E Module - Dry relay contact active when door is in programmed state. (NO or NC avaliable)
Inhibit Switch - Prevents door from operating aslo called the break out switch. (NO input)
.75 A max output from 24vdc output, use of 24vac trans is strongly recommended
Factory Wiring for TDA 100 Pair
Activation
Reactivation
Stall
Safety
Master Slave
Terminal C
Terminal C
1 GND
1 GND
2 IN
Off Mode
2 IN
3 GND
3 GND
4 IN
Reactivation
4 IN
5 +24 VDC
5 +24 VDC
6 GND
6 GND
7 IN
Stall 7 IN
8 GND
8 GND
9 IN
Activation 9 IN
10 +24 VDC
10 +24 VDC
Function Control Panel
Panel lock
3
6
7
4
5
8
9
10
1
2
Screen
B Module on TCP
1
4
5
2
3
6
7
GND
IN
IN
IN
OUT
OUT
OUT
8
9
OUT
OUT
10
+ 24 VDC
Inhibit Switch 1
Terminal D
IN
2 GND
Open Mode
Off Mode
E-Module
E14
E12
E11
E14
E12
E11
Safety
Door
Opening / Open
Door Closed
1
Terminal D
IN
2 GND
E-Module
E14
E12
E11
E14
E12
E11
Inhibit
Switch
Auxiliary supply
Terminal F
1 GND
2 IN
3 GND
4
+24 VDC
OUT
5 GND
6 IN
7 IN
See Sercom or Sersoft for programming input options.
To lock out relay +24vdc present when door is Open / Opening.
BROWN
ORANGE
PURPLE
GRAY
BLACK / WHITE
WHITE
RED/WHITE
22
R 1
R 2
4
5
6
7
3
-
+
WE
WE
TA
TA brown
N.C.
N.O. green
COM white black red
PO
PO
DA
DA blue
1
8
7
6
5
4
3
D2
R
+
GN
IT
IT
PTY
CO
N.O
N.C
PO
PO
IN
IN
EM
HIB
HIB
.
.
M
WER
WE
1
8
7
6
5
4
3
D2
R
+
GN
IT
IT
PTY
CO
N.O
N.C
PO
PO
IN
IN
EM
HIB
HIB
.
.
M
WE
WER
1
6
5
4
3
8
7
D2
+
GN
R
IT
IT
PTY
HIB
HIB
IN
IN
EM
N.C
CO
N.O
PO
PO
.
.
M
WE
WER
1
7
6
8
5
4
3
D2
+
GN
R
R
IT
IT
PTY
IN
IN
EM
N.C
N.O
PO
CO
PO
HIB
HIB
.
.
M
WE
WE
8 Factory DirCom Programming
Programming for TDA Single COMMERCIAL
TDASICOM
DIRCOM Codes
P,20,4,W,20
P,20,5,W,21
P,20,6,W,6
P,30,20,W,0
P,30,21,W,0
P,30,9,W,0
Safety approach side
Safety swing side
Safety both sides
Active level (active when closed)
Active level (active when closed)
Active level (active when closed)
Door opening or open
Over reading of safety swing side
P,40,0,W,37
T,80,W,455
T, 71, W, 0 Fire mode off
T, 70, W, 0 Push and Go off
T,100,W,1 3-position control panel
S,0 Software reset
Options
In / Output
C4
C7
C9
C4
C7
C9
E-module #1 relay A
T,50,W,50 1/2 second lock delay
T,70,W,10 Push and Go on Standard setting
T,100,W,2 5-function control panel
10/29/09
23
TDA OHC Single COMMERCIAL
*** Press UP BUTTON for 4 beeps before programming ***
TDAOHCLE
DIRCOM Codes
P,20,4,W,20
P,20,5,W,21
Safety approach side
Safety swing side
P,20,7,W,14
P,30,14,W,0
P,30,20,W,0
P,30,21,W,0
Reset after panic (OHC breakout)
Active level (active when closed)
Active level (active when closed)
Active level (active when closed)
P,30,9,W,0
P,40,0,W,37
Active level (active when closed)
Door opening or open
P,40,1,W,16 Door closed
T,100,W,2 5-Function panel
T,80,W,455 Over reading of safety swing side
T,70,W,0
T,87,W,0
T,86,W,0
T,71,W,0
Push & Go
Internal reversing off closing
Internal reversing off opening
Fire mode off
In / Output
C4
C7
C9
D1
D1
C4
C7
Off
C9
E-module #1 relay A
E-module #1 relay B
24
10/29/09
TDA OHC LE Single COMMERCIAL
*** Press UP BUTTON for 4 beeps before programming ***
TDAOHCLE
DIRCOM Codes
P,20,4,W,20
P,20,5,W,21
Safety approach side
Safety swing side
P,20,7,W,14
P,30,14,W,0
P,30,20,W,0
P,30,21,W,0
Reset after panic (OHC breakout)
Active level (active when closed)
Active level (active when closed)
Active level (active when closed)
P,30,9,W,0
P,40,0,W,37
Active level (active when closed)
Door opening or open
P,40,1,W,16
S,32,W,1
Door closed
Reduced opening force
T,100,W,2 5-Function panel
T,80,W,455
T,70,W,0
T,87,W,0
T,86,W,0
T,71,W,0
Over reading of safety swing side
Push & Go
Internal reversing off closing
Internal reversing off opening
Fire mode off
In / Output
C4
C7
C9
D1
D1
C4
C7
Off
C9
E-module #1 relay A
E-module #1 relay B
Low Energy application
25
10/29/09
P,20,4,W,20
P,20,5,W,21
P,20,6,W,4
P,20,7,W,6
P,30,20,W,0
P,30,21,W,0
P,30,9,W,0
P,40,0,W,37
P,40,1,W,16
T,110,W,1
T,70,W,0
T,80,W,455
T,87,W,0
P,20,2,W,32
P,30,32,W,1
T,71,W,0
Programming for TDA COMMERCIAL Pair
DIRCOM Codes
Master
P,20,4,W,20
P,20,5,W,21
Safety approach side
Safety swing side
In / Output
P,30,20,W,0
P,30,21,W,0
Active level (active when closed)
Active level (active when closed)
P,30,9,W,0 Active level (active when closed)
P,40,0,W,29 Operating – Open
P,40,1,W,25 Operating - Off
S,30,W,2
T,70,W,0
Operation mode auto
Push and go off
T,80,W,455
T,87,W,0
T,71,W,0
Over reading of safety swing side
Internal Closing Reversing – Off
Fire mode off
Slave
C4
C7
C9
C4
C7
C9
E module #1 relay A
E module #1 relay B
Safety approach side
Safety swing side
Open impulse
Safety Both Sides
Active level (active when closed)
Active level (active when closed)
Active level (active when closed)
Door opening or open
Door closed (for interlocking)
Operation mode return
Push and go off
Over read of safety swing side
Internal Closing Reversing – Off
Operation mode auto
Active level (active when open)
Fire mode off
B4
B4
C2
C4
C7
C9
D1
C4
C7
D1
E module #1 relay A
E module #1 relay B
10/29/09
26
Prog. for TDA OHC COMMERCIAL Pair
*** Press BLUE UP BUTTON for 4 beeps before programming***
DIRCOM Codes
In / Output
Master
P,20,4,W,20
P,20,5,W,21
Safety approach side
Safety swing side
P,30,20,W,0
P,30,21,W,0
Active level (active when closed)
Active level (active when closed)
P,30,9,W,0 Active level (active when closed)
P,40,0,W,29 Operating – Open
P,40,1,W,25 Operating - Off
T,71,W,0 Fire mode off
T,70,W,0
T,80,W,455
T,87,W,0
Push and go off
Over reading of safety swing side
Internal Reversing – Off closing
C4
C7
C9
C4
C7
C9
E module #1 relay A
E module #1 relay B
T,100,W,2 5-Function
P,20,7,W,14
P,30,14,W,0 panel
Reset after panic (OHC breakout) D1
Reset after panic (active when closed) D1
Slave
P,20,4,W,20
P,20,5,W,21
P,20,6,W,4
P,20,7,W,6
P,30,20,W,0
P,30,21,W,0
P,30,9,W,0
P,40,0,W,37
P,40,1,W,16
Safety approach side
Safety swing side
Open impulse
Safety Both Sides
Active level (active when closed)
Active level (active when closed)
Active level (active when closed)
Door opening or open
Door closed (for interlocking)
T,110,W,1
T,70,W,0
T,80,W,455
T,87,W,0
Operation mode return
Push and go off
Over read of safety swing side
Internal Reversing – Off closing
P,20,2,W,32
P,30,32,W,1
Operation mode auto
Active level (active when open)
T,100,W,2 5-Function panel
C2
C4
C7
C9
D1
C4
C7
D1
E module #1 relay A
E module #1 relay B
B4
B4
P,20,8,W,14
P,30,14,W,0
T,71,W,0
Reset after panic (OHC breakout) F2
Reset after panic (active when closed) F2
Fire mode off
10-29-09
27
Prog. for TDA OHC COMMERCIAL Pair
Low Energy
*** Press BLUE UP BUTTON for 4 beeps before programming***
DIRCOM Codes
Master
P,20,4,W,20 Safety approach side
P,20,6,W,6
P,30,20,W,0
P,30,21,W,0
P,30,9,W,0
P,40,0,W,29
P,40,1,W,25
S,32,W,1
T,70,W,0
T,80,W,455
T,87,W,0
T,100,W,2
T,86,W,0
P,20,7,W,13
Slave
P,20,4,W20
P,20,6,W,4
P,30,20,W,0
P,30,21,W,0
P,30,9,W,0
P,40,0,W,37
P,40,1,W,16
S,32,W,1
T,110,W,1
T,70,W,0
T,80,W,455
T,87,W,0
P,20,2,W,32
P,30,32,W,1
T,100,W,2
P,20,8,W,13
P,30,13,W,0
T,86,W,0
Safety both sides
Active level (active when closed)
Active level (active when closed)
Active level (active when closed)
Operating Mode – Open
Operating Mode – Off
Reduced opening force (low energy)
Push and go
Over reading of safety swing side
Internal Reversing – Off closing
5-Function control panel
Internal reversing- Off opening
Inhibit switch (OHC breakout)
Safety approach side
Open impulse
Active level (active when closed)
Active level (active when closed)
Active level (active when closed)
Door opening or open
Door closed (for interlocking)
Reduced opening force (low energy)
Operation mode return
Push and go
Over read of safety swing side
Internal Reversing – Off closing
Operation mode auto
Active level (active when open)
5-Function control panel
Inhibit switch (OHC breakout)
Inhibit switch (active when closed)
Internal reversing – Off opening
In / Output
C4
C7
C9
C4
C7
C9
E module #1 relay A
E module #1 relay B
Off
D1
D1
C2
C4
C7
C9
D1
C4
C7
D1
E module #1 relay A
E module #1 relay B
Off
B4
B4
F2
F2
10/29/09
28
Programming for Double Egress
REQUIRES 2 OFF/AUTO/HO SWITCHES
MASTER
DIRCOM Codes
P,20,4,W,20 Safety approach side
P,20,5,W,21 Safety swing side
P,30,20,W,0
P,30,21,W,0
P,30,9,W,0
P,40,0,W,37
T,80,W,455
T,71,W,0
T,70,W,0
T,100,W,1
MASTER
DIRCOM Codes
P,20,4,W,20 Safety approach side
P,20,5,W,21 Safety swing side
P,30,20,W,0
P,30,21,W,0
P,30,9,W,0
P,40,0,W,37
T,80,W,455
T,71,W,0
T,70,W,0
T,100,W,1
Active level (active when closed)
Active level (active when closed)
Active level (active when closed)
Door opening or open
Over reading of safety swing side
Fire mode off
Push & Go off
3-position control panel
Active level (active when closed)
Active level (active when closed)
Active level (active when closed)
Door opening or open
Over reading of safety swing side
Fire mode off
Push & Go off
3-position control panel
In / Output
C4
C7
C9
C4
C7
C9
E-module #1 relay A
In / Output
C4
C7
C9
C4
C7
C9
E-module #1 relay A
10/29/09
29
Units
Motor-Driven Opening
Motion
7 Additional DirCom Programing
planations
7.1 List of the DirCom Codes
Explanations
ms = Milliseconds
SE = System units (abstract term) l/min = Revolutions per minute
EF = edge of encoder pulse
Applicable from software version A6299.
Delay time to open:
Code Input
T,50,W,VALUE,
Minimum Standard Maximum Unit
0 40 5000 ms
– Time that elapses from the activation of the E-opener to the start of the motor. This enables a reliable unlocking of the E-opener; high value = long delay time.
Opening acceleration:
Code Input
T,20,W,VALUE,
Minimum Standard Maximum Unit
2 8 25 SE
– Acceleration value; high value = high acceleration rate.
Opening speed:
Code Input
T,62,W,VALUE,
Minimum Standard Maximum Unit
200 800 1200 l/min
– Determines the max. speed of the motor and thus the max. opening velocity; high value = high speed.
Opening angle:
Code Input
T,60,W,VALUE,
Minimum Standard Maximum Unit
500 1000 5000 EF
– Determines the opening angle of the door in terms of encoder pulses; high value = large opening angle.
Reduced opening angle in stepping operation after input function 16
Code Input Minimum Standard Maximum Unit
T,600,W,VALUE, 200 300 5000 EF
– Special function: in connection with input function 16, a reduced opening width can
Opening damping:
Code Input
T,21,W,VALUE,
Minimum Standard Maximum Unit
2 8 25 SE damping.
Manual Opening Motion
Maintained Opening
Closing Motion
Homing-in speed:
Code Input
T,25,W,VALUE,
Minimum Standard Maximum Unit
50 100 300 l/min phase; high value = high speed.
Tolerance of programmed open position:
Code Input
T,26,W,VALUE,
Minimum Standard
20 30
Maximum
300
Unit
EF
= large admissible deviation.
Reduced opening force:
Code Input
S,32,W,VALUE,
Minimum Standard Maximum Unit
0 0 1 SE
– With this command, a reduced opening force can be set. This function is not suitable for the roller lever.
Beginning of damping:
Code Input
T,63,W,VALUE,
Minimum Standard Maximum Unit
50 250 2000 EF operating mode OFF. High value = earlier beginning of damping.
Retaining force in the open position:
Code Input
T,64,W,VALUE,
Minimum
13
Maximum Unit
20 SE high values = high retaining force. Note: high values entail an increased heating up of the control system.
Hold-open time settings:
Code Input Minimum Standard Maximum Unit
T,61,xx,W,VALUE, 1 20 1200 100 ms xx = 1: for key switches;
= 2: for activators inside IGI; xx = 3: for activators outside IGA; xx = 4: for “Push-and-Go”.
In “Teach-In” mode, all time settings are set to the same value.
x x
Closing speed:
Code Input
T,41,W,VALUE,
Minimum Standard Maximum Unit
5 14 25 SE
– Limits the max. motor speed and thereby determines the max. closing speed; high value = high speed.
Beginning of damping in closing direction:
Code Input
T,42,W,VALUE,
Minimum Standard
10 300
Maximum
2000
Unit
EF
Maintained Closing
Internal and External Safety
Devices
=
At the point of beginning of damping, the door is still wide open.
Closing damping:
Code Input
T,40,W,VALUE,
Minimum Standard Maximum Unit
10 118 200 SE high damping or low speed.
Motor supported closing action:
Code Input
T,90,W,VALUE,
Minimum Standard
0 0
Maximum
1
Unit
SE
Value 0: Spring-operated closing; Value 1: Motor supported closing action from value
T 88. (T88 < T86)
– Standard (value = 0): switched inactive, no effect;
If switched active (value = 1), the door at standstill is pressed into the end position action” and for closed position of door.
Note: This adjustment can create dangerous conditions. Therefore, appropriate safety precautions are required.
Beginning of the motor supported closing action:
Code Input
T,88,W,VALUE,
Minimum Standard
0 100
Maximum
2000
Unit
EF range.
Motor supported maintained closing:
Code Input
T,91,W,VALUE,
Minimum Standard
0 0
Maximum
1
Unit
SE
– Standard (value = 0) switched inactive, no effect.
If switched active (value = 1), the door in closed position is additionally kept closed by motor.
Deactivate external safety devices during opening:
Code Input
T,80,W,VALUE,
Minimum Standard
0 60
Maximum
3000
Unit
EF are switched inactive; high value = large inactive range, e.g. disabling the sensor strip when opening against a wall.
Deactivate external safety device during closing:
Code Input
T,81,W,VALUE,
Minimum Standard
0 60
Maximum
3000
Unit
EF devices are switched inactive; high value = large inactive range.
Internal reversing during opening:
Code Input
T,86,W,VALUE,
Minimum Standard
0 100
Maximum
500
Unit
EF
Special Impulses/Panel
Change of Operating Mode
internal reversing is not active in both directions; high value = large inactive range.
Reversing is switched off if value equal 0.
Internal reversing during closing:
Code Input
T,87,W,VALUE,
Minimum Standard
0 100
Maximum
500
Unit
EF
nal reversing is not active in either direction; high value = large inactive range.
Reversing is switched off if value equal 0.
Push-and-Go:
Code Input
T,70,W,VALUE,
Minimum Standard Maximum Unit
0 10 100 EF
– If switched active (value > 0) and with standard settings S,21,W,0, the motor takes over the manually initiated opening motion starting from the entered value only when a reduction of the manual opening speed occurs; high value = large manual range.
If switched active (value > 0) and with parameter S,21,W,4, the motor takes over the manually initiated opening motion immediately starting from the entered value; high value = large manual range
Note: In applications where the doors are opened manually with high dynamics, this setting is being felt as unpleasant. Therefore, it is recommended to apply this setting only in old age and nursing homes.
Function change key switch signal:
Code Input Minimum Standard Maximum Unit
P,190,4,W,VALUE, 0 1 1
– With standard setting (value = 1), the input command “close door” (P,20,n,W,37) is only carried out when the key switch is inactive. With the setting value = 0, the input command “close door” (P,20,n,W,37) is carried out even if the key switch is active.
Activation of 3-position or 5-position panel:
Code Input
T,100,W,VALUE,
Minimum Standard
1 1
Maximum
2
Unit
EF
(value 2) is used.
Operating mode after mains failure:
Code Input
S,31,W,VALUE,
Minimum Standard
0 0
Maximum
1
Unit by factory default (value =0), the operating mode prior to mains failure is maintained.
If the value is set to 1, operating mode OFF is selected after each supply disruption or reset.
Operating mode after input function 30 or mains failure:
Code Input
S,22,W,VALUE,
Minimum Standard
0 0
Maximum
2
Unit
Value 2: Operating mode AUTO.
Reset
Fault Interrogation
Interrogation of Drive
Information
Operating mode return:
Code Input
T,110,W,VALUE,
Minimum Standard
0 0
Maximum
1
Unit
EF a mode change. By factory default, the original operating mode is not restored (value
=0); if the value = 1 is programmed, the original operating mode is recalled.
Operating mode selection:
Code Input
S,30,W,VALUE,
Minimum Standard
1 1
Maximum
5
Unit
– Permits to set the desired operating mode via the interface. Value 1: OFF; Value 2:
AUTO; Value 3: cannot be selected; Value 4: EXIT (only 5-position panel); Value 5:
OPEN.
Factory reset through SERCOM:
Code Input
P,0,W,T,
Minimum Standard Maximum Unit
– Resets all parameters to the factory settings. All prior programming is deleted.
Factory reset by soft key:
– Press the grey key on the control system printed circuit board until 5 short tones can be heard.
Resets all parameters to the factory settings. All prior programming is deleted.
Software reset through SERCOM:
Code Input
S,
Minimum Standard Maximum Unit
Software reset from the panel,
Press panel key UP until 3 short tones can be heard
Software-Reset by input function:
– Program is restarted. All prior programming is maintained. See separate list “ programmable input functions”.
Reading the current fault:
Code Input
S,40,
Minimum Standard Maximum Unit
– Shows the current fault which is also displayed at the panel. Value 0: No fault; Value
29: Reversing during closing; Value 30: Reversing during opening.
Reading the last 32 faults:
Code Input
S,45,
Minimum Standard Maximum Unit
– Displays the last 32 faults. Values see S,40.
Error message during SERCOM/DirCOM programming:
– Indicates that the was not understood by the control system, input via SERCOM
Error 04: Command unknown or syntax error
Error 10: Function used more than once (only with older software versions).
Reading the software version:
Code Input
P,
Minimum Standard Maximum Unit
– Displays the current software version.
Input/Output Functions
Programmable Functions
Reading the hardware version:
Code Input
T,
Minimum Standard Maximum Unit
– Displays the hardware version.
Reading the operator type:
Code Input
P,1000,R,
Minimum Standard Maximum Unit
– Shows the programmed operator type:
8 stands for TDA, 9 stands for TDM.
Door opening command through SERCOM:
Code Input
S,20,
Minimum Standard Maximum Unit
– Permits to issue an opening command from SERCOM.
Reading the current motor position:
Code Input
S,70,
Minimum Standard Maximum Unit
– Displays in which position the motor is. This is useful for diagnosis.
Reading the current motor position and programmed opening angle:
Code Input
S,75,
Minimum Standard Maximum Unit
– Displays in which position the motor is and additionally the programmed opening angle in terms of encoder pulses for the full opening angle and the reduced opening angle.
Reading the number of door openings:
Code Input
S,10,
Minimum Standard Maximum Unit
– Allows to read the number of openings. The number to the left of the comma indicates hundredths of openings, the number to the right of the comma indicates single openings. Example: 455,67 means therefore: 455 x 100 + 67 = 45567 openings.
Note: On a software update and factory reset, the counter is reset to 0. On software reset, only the 0-100 part (67 in our example) is reset.
Activation limit of the output functions:
Code Input
T,120,W,VALUE,
Minimum Standard
0 60
Maximum
300
Unit
EF
back is disabled in order to avoid incorrect feedback due to vibrations of the door leaf; large values = large inactive range.
8 Check List
Y N N/A
Does the door / door panels swing freely w/o obstruction?
Are all wires clear from moving parts?
Are all adjustment bolts tight?
Does the break out switch function on a 100 series application?
Are there any error codes being displayed?
Are all safety devices / sensors operating correctley?
Has an ANSI A156.10 and / or ANSI A156.19 inspection been preformed?
Are the Door# decal, Service decal, Daily Safety Check decal all present and in proper location?
Has the Daily Safety Check been reviewed with the Manager?
Have all the functions been reviewed with the Manager?
Was the Owners manual given to the Manager?
Did the Manager sign the work order/service ticket?
I nstaller signature/date
Your First Choice for Automatic Doors.
TORMAX Sliding Doors
TORMAX Swing Doors
Sales, Installation and Service.
Automatic and Manual Doors.
Tormax Automatic
11803 Starcrest Drive
San Antonio, TX 78247
888-685-3707 www.tormaxusa.com
TORMAX is a Division and a registered trademark of Landert Motoren AG
37
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Key features
- Overhead, concealed installation
- Designed for commercial applications
- UL listed and cUL certified
- Programmable opening speed, angle and hold-open time
- Safety features include stall, safety and key switch
- DirCom programming for advanced control options
- Detailed installation and service instructions
- Compatible with safety sensors