TMT AUTOMATION CB19 Control Box For Hermit User Manual
- July 27, 2024
- TMT AUTOMATION
Table of Contents
- TMT AUTOMATION CB19 Control Box For Hermit
- Control Box Installation
- Wiring Connection
- Motor Connection
- Back-up Batteries
- Accessories
- Specification
- INSTALLATION
- Get Started
- Gate Operation Logic
- LED Indication
- Parameter Modification
- Photocell Logic
- Troubleshooting
- Technical Specification
- FCC
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
TMT AUTOMATION CB19 Control Box For Hermit
Control Box Installation
- Decide the installation position of the control box first, it is suggested to be installed near the gate and should be protected from possible damage. Be aware of the motor cable length before deciding the installation position.
- Remove the cover by unscrewing the four screws on the cover. See Figure A.
- Use a screwdriver to puncture the holes beneath the bottom of the control box. See Figure B.
- Secure it on the wall Figure C.
Wiring Connection
Motor Connection
- a. Motor Only ****
- b. Motor With Limit Switch + LED indicator
- c. Motor With Hall Sensor
Wifi Device
- Functions of Buttons and Terminals
- LED Description:
- Blue: LED will be flashing during WIFI pairing, and be ON when completed.
- Green: LED will be flashing if WB-001 receives a signal from the APP. If your home WIFI disconnects, the green light will continuously flash, and it will be off until WIFI is connected again.
- Red: System failure or wrong PIN.
Back-up Batteries
Battery Power:
- The battery white connector must be fitted the correct way round (positive red to +positive) or you will short circuit the control board. There are 2 x 12v batteries fitted under the control board.
- They are connected in series to make 24vDC via a black cable with a yellow fuse with the positive of one battery to the negative of the second battery.
- The remaining positive and negative terminals go to the control board as per the photo above.
Accessories
- a. Photocells
- The safety photocells are security devices for controlling automatic gates. Consists of one transmitter and one receiver based on waterproof covers; it is triggered while breaking the path of the beams.
Specification
Specification:
Detection Method| Through Beam
Sensing Range| MAX~15m
Input Voltage| AC/DC 12~24V
Contact Current| TX: 30mA Max , RX: 25 mA Max
Response Time| <100mS
Emitting Element| Infrared LED/ Wave Length: 940nm
Operation Indicator| RX: Red LED On (beam broken) / Off (beam aligned)
TX: Red LED On
Dimensions| 636330 mm
Output Method| Relay Output
Current Consumption| Beam aligned: RX<25ma\TX<30ma
Beam broken: RX <10ma\TX <30ma
Connection Method| Terminal Block
Housing Material| ABS / PC
Water Proof| IP44
Safety Standard| CE
INSTALLATION
- Open the cover and connect the wires.
- Mounted the receiver and transmitter in the proper position.
- Ensure there are no obstacles between the receiver and the transmitter.
- For optimal efficiency, the receiver and transmitter should be properly aligned.
- Power up the photocells and make sure the LED light on the receiver and transmitter are ON.
Get Started
Note:
- A. Transmitter memorizing must be done first before system learning.
- B. CHECKING THE Gate MOVEMENTS
- Release the gearmotor with the release key and move the gate to the middle so that it is free to move in both opening and closing directions; then lock the Gearmotor.
- Perform the gate opening and closing several times and make sure the gates touch the limit switch at least 2~3 cm before the mechanical stop.
- Step 1: Remote Memorizing
- a. Memorizing
- Press the button RF-Learn on the control board (Figure 1) as many times as the number corresponding to the desired command, according to the following table, Within 10s, press the desired button on the remote that you want it to be memorized (Figure 1)
Times for pressing RF-Learn| Command| Message code
---|---|---
1 time| Open-Stop-Close circle| OLED display “OSC”
2 times| Pedestrian mode| OLED display “PED” - Make sure that the LED display shows the “OSC” or “PED” three times quickly. The code is corresponding to the selected command. (Figure 2)
- Repeat steps 1 & 2 within 10, if there are other remotes to be memorized for the same type of command. If no action is within 10s, the memorization stage will terminate automatically.
- b. Remote learning without a Control board
- Press the button on the NEW radio transmitter and hold it down for at least 5s, then release it.
- Press the button on the OLD radio transmitter 3 times. (Tip: Don’t press too fast; make sure you see the blue flash when pressing the button each time.)
- Press the button on the NEW radio transmitter once.
- Done, at this point, the NEW radio transmitter will copy the same command as the OLD one.
- c. Deleting memory of a single command
- A single deletion stage is needed for each memorized button.
- Press and hold down the RF-LEARN button (Figure 3) on the control board for 5 seconds.
- Wait until the LED display shows “DKY”, then, within three seconds:
- Press the button on the remote to be deleted. If the remote has been deleted, the LED display will flash quickly five times.
- Repeat the above steps if more buttons to be deleted.
- d. Deleting all memory of all remotes
- With this operation, all the memorized transmitters will be deleted.
- Press and hold down RF-LEARN button (Figure 4) on the control board for 10 seconds.
- Wait until the LED display shows “DAL”. (When you see DKY, keep pressing the RF-Learn till it shows DAL). All memory is deleted.
- Step 2: System Learning
- Step1: Press and Hold the Press SET button for 3s, When the LED shows “LEA” then release SET, then the motor runs the system learning procedure automatically, once learning completed shows “D-G” or “S-G” (No remote required)
- Note: Please check the parameter setting of “FI”(Dual/Single) before going into system learning.
- Restore the system default setting
- Press and Hold the UP + SET + DOWN button for 5s and the panel restores to default setting
- Note:
- LED Shows “D-G” tells the system learning has been completed for Dual Gate installation
- LED Shows “S-G” tells the system learning has been completed for Single Gate installation
- A. Dual Gate:
- (1) Slave Gate Close » (2) Master Gate Close » (3) Master Gate Open
- (4) Slave Gate Open » (5) Slave Gate Close » (6) Master Gate Close
- B. Single Mode:
- Master Gate Close » (2) Master Gate Open » (3) Master Gate Close
- For Single Gate installation, please make sure the motor cable connects to M1+/M1-, and the parameter to set function Fl-0 to the single gate, and also set FB-0 pedestrian mode to be function off, and once the system learning is completed, the LED will show S-G
Gate Operation Logic
- A. In the gateopening phase: The gates stop if the transmitter/push button/key selector is activated, and close when the transmitter/push button/key selector is reactivated.
- B. In the gateclosing phase: The gates stop if the transmitter/push button/key selector is activated, and open when the transmitter/push button/key selector is reactivated.
Safety For Gate Operation
- In the gate-opening phase: For safety purposes, the gates stop if encountering obstacles.
- In the gate-closing phase: For safety purposes, the gates reverse for 2 sec if encountering obstacles.
LED Indication
- LED Lighting
- Blue LED System Learning: The Blue LED in the receiver board blinks two times when learning is completed.
- LED2 RF: The key selector or the push button is activated, and LED2 will be on.
- LED4 Ph1: LED4 will be on when Ph1 is triggered.
- LED3 Ph2: LED3 will be on when Ph2 is triggered.
- The function of the LED display
Parameter Modification
Parameter Learning
- Press “UP+SET” for 3 seconds to get into the program setting display from F1.
- Press “UP” or “DOWN” to change setting item from F1 to FJ.
- Press “SET” button again to get into the sub-settings.
- Press “UP” or “DOWN” to change Push from F1-0 to F1-2.
- Press “SET” button again to confirm.
Parameter
Setting | Definition | Parameters | Table | Description |
---|---|---|---|---|
F1 | Motor Type | F1-0 F1-1 F1-2 | Overcurrent Limit Switch Hall Sensor |
1. The factory setting is “F1-0”.
F2| Overcurrent for Gate Opening| F2-0 F2-1 F2-2 F2-3 F2-4 F2-5 F2-6
F2-7 F2-8| 2A
3A
4A
5A
6A
7A
8A
9A
10A
| 1. The factory setting is “F2-1”.
F3| Overcurrent for Gate Closing| F3-0 F3-1 F3-2 F3-3 F3-4 F3-5 F3-6
F3-7 F3-8| 2A
3A
4A
5A
6A
7A
8A
9A
10A
| 1. The factory setting is “F3-1”.
F4| Motor Speed for Opening| F4-0 F4-1 F4-2 F4-3| 40%
50%
75%
100%
| 1. The factory setting is “F4-2”.
F5| Motor Speed for Closing| F5-0 F5-1 F5-2 F5-3| 40%
50%
75%
100%
| 1. The factory setting is “F5-2”
F6| Deceleration Speed| F6-0 F6-1 F6-2 F6-3| 40%
50%
60%
70%
| 1. The factory setting is “F6-1”.
F7| Time Gap b/w Two Gates (Opening)| F7-0 F7-1 F7-2 F7-3 F7-4 F7-5 F7-6
F7-7 F7-8 F7-9| 0 sec
2 sec
5 sec
10 sec
15 sec
20 sec
25 sec
35 sec
45 sec
55 sec
| 1. The factory setting is “F7-1”.
Setting| Definition| Paramters| Table| Description
---|---|---|---|---
F8
| ****
Time Gap b/w Two Gates (Closing)
| F8-0 F8-1 F8-2 F8-3 F8-4 F8-5 F8-6 F8-7 F8-8 F8-9| 0 sec
2 sec
5 sec
10 sec
15 sec
20 sec
25 sec
35 sec
45 sec
55 sec
| ****
1. The factory setting is “F8-1”.
F9
| ****
Auto-closing
| F9-0 F9-1 F9-2 F9-3 F9-4 F9-5 F9-6 F9-7 F9-8| Function OFF 3 sec
10 sec
20 sec
40 sec
60 sec
120 sec
180 sec
300 sec
| 1. Auto-close mode activates when the gates move to the end position or stopped manually. If thetransmitter,
push button, or the key selector is activated before the auto- close counting, the gate will close immediately.
2. The factory setting is “F9-0”.
FA
| ****
Safety Device Function Mode
| FA-0
FA-1
FA-2
FA-3
| Mode 1
Mode 2
Mode 3
Mode 4
| 1. Please see 7.3 photocell adjustment for photocell logic
2. The factory setting is “FA-0”.
FB| Pedestrian Mode| FB-0 FB-1| Function OFF Function ON| 1. The factory setting is “FB-1”.
FC
| ****
Flashing Light
| ****
FC-0 FC-1
| ****
Function OFF Function ON
| 1. When function FC-1, the light will flash for 3 seconds before the gate operates. If set OFF, the flash light will operate with motor at the same time.
2. The factory setting is “FC-0”.
FD| Photocell Activation| FD-0 FD-1| Function OFF Function ON| 1. The
factory setting is “FD-0”.
FE| Photocell 2 Activation| FE-0 FE-1| Function OFF Function ON| 1. The
factory setting is “FE-0”.
FF| Alarm Buzzer| FF-0 FF-1| Function OFF Function ON| 1. The factory
setting is “FF-0”.
FG
| ****
Electric Latch Mode
| ****
FG-0 FG-1
| Standard Gate Opening Release Gate Tension before
Opening (Gate Reversing for 0.25s)
| 1. If the function is FG-1, the motor will be reversed for
0.25 sec. to release the tension.
2.The factory setting is “FG-1”.
FH
| ****
LED Direction
| ****
FH-0 FH-1
| ****
When Terminal Block is at Top When Terminal Block is at Bottom
| 1. The factory setting is “FH-1”. The UP( ) and Down( )
buttons will switch according to
the parameter setting.
When FH-0, button SW3 stands for (UP), and button
SW5 stands for (DOWN).
When FH-1, button SW5 stands for (UP), and button SW3
stands for (DOWN)
FI| Dual / Single Gate| FI-0 Fl-1| Single Gate Dual Gate| 1. The factory setting is “FI-1”.
FJ
| ****
Over Current Reverses Time when Close
| FJ-0
FJ-1
FJ-2
FJ-3
FJ-4
FJ-5
FJ-6
| Function OFF
0.1 sec
0.2 sec
0.3 sec
0.4 sec
0.5 sec
0.6 sec
| ****
1. The factory setting is “FJ-0”
Note (F1-2 over-current setting in Hall sensor mode):
- Only in “F1-2” Hall sensor mode, the PCB will record all the current values in learning mode. Please adjust over current value by setting the F3 function after learning mode.
- The recorded current values will increase according to the value shown on the LED display over the current value.
- The value can be adjusted by pressing the button UP and DOWN. The maximum value is 50(5.0A) and the minimum value is 05(0.5A). LED display example:
- Indicate 1.0 ampere: all of the recorded values will increase by 1 ampere over the current value.
- Indicate 0.6 amperes: all of the recorded values will increase by 0.6 amperes over the current value.
- Indicate 2.8 amperes: all of the recorded values will increase by 2.8 amperes over the current value.
Photocell Logic
FA-0 Photocell OPEN/CLOSE (Standard set up)
Position of Gate | When safety devices are activated |
---|---|
Type of Safety Device | PH1 |
Photocell-CLOSE
| PH2
Photocell-OPEN
Fully Closed| No effect| Open not allowed
Fully Opened| Reload automatic closing time| No effect
Stop During Moving| Reload automatic closing time| Open not allowed
Closing| Open| No effect
Opening| No effect| Close
FA-1 Safety Edge
Position of Gate | When safety devices are activated |
---|---|
Type of Safety Device | PH1 |
Photocell-CLOSE
| PH2
Safety Edge
Fully Closed| No effect| Open not allowed
Fully Opened| Reload automatic closing time
Stop During Moving| Reload automatic closing time| Open/Close not allowed
Closing| Open| Reverse to open for 2 seconds
Opening| No effect| Reverse to close for 2 seconds
FA-2 Open Only Device (Vehicle detector)
Position of Gate | When safety devices are activated |
---|---|
Type of Safety Device | PH1 |
Photocell-CLOSE
| PH2
Photocell-CLOSE
Fully Closed| No effect| Open
Fully Opened| Reload automatic closing time
Stop During Moving| Reload automatic closing time| Open
Closing| Open| Open
Opening| No effect| No effect
FA-3 Double photocell set up
Position of Gate | When safety devices are activated |
---|---|
Type of Safety Device | PH1 |
Photocell-CLOSE
| PH2
Photocell-OPEN/CLOSE
Fully Closed| No effect| Open not allowed
Fully Opened| Open for 2 seconds, when auto-closing is ON| No effect
Stop During Moving| Close not allowed| Open not allowed
Closing| Open| No effect
Opening| No effect| Stop
Troubleshooting
Issue: | Solution: | Parts to look at: |
---|
No power on the board.
| • Power to the transformer is on and the connector block from the AC power leads to the transformer and the control board is wired correctly.
• At the control board check the transformer white connector blocks are correctly plugged into the board and that the battery connector is equipped.
• Check fuses are both working. * 15amp for stand-alone transformer.
• Check there is 24vac into and out of the Control box fuse.
• The batteries are connected to the control board and read higher than 24vdc if equipped.
• Try removing optional extras such as beams and probes to see if
they are draining the power. And reset the control panel to default and test the motor operation.
| • Fuse
• Transformer power
• Loose wires
• Incorrect wire contact at connector blocks
• Short circuit in wiring between transformer and board
• Battery
A single-arm activation isn’t working.
| • Check function setting is set correctly for a single arm. Fl-1 single gate mode. FB-1 Pedestrian mode to be ON. Using button B on the remote to operate the single gate.
• Make sure the arm is connected to motor 1 and not motor 2.
• Your remote is programmed in.
• You have done a systems learning.
• There is adequate power going to the board.
| ****
• Motor connection
• Function setting for single mode
Remotes or wireless keypad not working.
| Re-program remotes by pressing the RF-Learn button on the control board.
• You can program in several remotes or devices at a time however all signals need to be sent before the blue light goes off again.
• Push the button fairly solid and hold it in for a whole second. The blue light should flicker.
• If the blue light is on continuously without pressing the RF learn button it means the receiver is faulty and needs to be replaced.
• The blue light will still flash when a remote that has not been programmed in is used. It will however not activate.
• Reset the keypad. Do this by flicking off the front cover with a small screwdriver. Undo the 2 nuts, turn over, and repeat until left with the control board on the casing. Undo the 3 screws in the comer. Turn over the circuit board and there is a button there.
Hold it until you hear a beep. Try the keypad again and reassemble.
| ****
• RF Learn button on the control board
Lights on the board but arm(s) not moving.
| • Check the LED3 and LED4 on the board are off, which is located on the button right of the board if it is on check the photocell connection and function.
• Check that the battery is 24V+.
• Make sure your connections aren’t loose.
• The power input is feeding in 24V+.
• The gate is free from any obstructions.
• The arm is locked into place (A good way to test this is if you can move the gate freely, then it won’t work via the motors).
• Try depowering and repowering the board.
• If it still keeps glowing please call or email us. The receiver may need replacement.
| ****
• The gate
• Power sources
• Arm wires
Gates remain open after systems learn/one arm stays open and the other one closed.
| • Ensure you have matched the + and – of each ram to the equivalent + and – motor symbols on the board.
• Change the polarity connection of the positive(+) with the negative(-) of the motor if the gate both stay open instead of closed after the system learning.
• Clear any obstructions to the gates.
• Make sure that the arms are going no further than 100 degrees.
• The function setting should be set for a double swing and not a single.
• Check the LED display during the system learning showing the motor current, once the reading is too high check the installation or the gate condition.
• Ensure the motors are locked in.
• Increase the power amp settings by function setting F2 for open and F3 for close direction (mentioned above).
|
Gates not fully opening or closing
| • Ensure nothing is obstructing the gate or the arms.
• If the gate is a bigger or heavier gate change the power settings using the F2 for open and F3 for close direction. You should not have to use the maximum power setting. This is intended for a 500kg double swing gate (or 250kg single).
• Re-do the systems learn.
|
---|---|---
One gate opens part of the way/not at all| • Make sure you are
pressing the top left-hand button. The other buttons do have their functions.
• Check the FB function for pedestrian mode, set to FB-0 if you require the single gate to be fully open instead of partially open.
• Both arms are wired onto the control board correctly. They should
identical. I.E. black, red. Black, red.
|
Remote/ keypad range is less than 20M| • Make sure the antenna
is attached and screwed in on the control board.
• Make sure nothing is obstructing the antenna such as the
power cable or motor cables.
|
Technical Specification
Main power supply | 230Vac/110Vac, 50Hz/60Hz |
---|---|
Back-up battery | 2pcs of batteries for emergency operation, 2.2A |
each
Receiver board| 433.92MHz; 200 transmitters memory
Installation| Wall mounted vertically
Operating Temperature| -20°C~+50°C
Dimension| 275mm 195mm 102mm
FCC
FCC Warning
This device complies with part 15 of the FCC Rules.
Operation is subject to the following two conditions:
- This device may not cause harmful interference, and
- This device must accept any interference received, including interference that may cause undesired operation.
Note: This equipment has been tested and found to comply with the limits for a Class B digital device, according to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used under the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and the receiver.
- Connect the equipment to an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
Note: The Grantee is not responsible for any changes or modifications not expressly approved by the party responsible for compliance. such modifications could void the user’s authority to operate the equipment. The device has been evaluated to meet general RF exposure requirements.
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