MODEL C-320
1- Specifications and Features------2
1.1 Electrical and Mechanical Specifications------2
1.2 General Features------2
2- System Allocation------3
2.1 System Minimum Allocation------3
2.1.1 Control Box Minimum Allocation------3
2.1.2 Operating System Minimum Allocation------3
2.2 Alternative System Allocation------3
2.2.1 Control Box’s Alternative Allocation------3
2.2.2 Operating System’s Alternative Allocation------3
3- Wire Connection------4
3.1 Two Installation Methods of the Gate------4
3.2 Wire Connection------4
3.2.1 Wire Connection Diagram------4
3.2.2 Wire Connection Description------6
4- System Set-up------7
4.1 Description of the Transmitter Buttons------7
4.1.1 Dip Switch Type Transmitter1------7
4.1.2 Rolling Code Type Transmitter 2------7
4.1.3 Rolling Code Type Transmitter 3------7
4.2 Operation of the Transmitter------8
4.2.1 Set-up of the Transmitter------8
4.2.2 Clearance of the Transmitter Memory------8
4.3 System Learning------9
4.3.1 Clearance of the System Memory------9
4.3.2 Learning Set-up of Dual Gate Memory------9
4.3.3 Learning Set-up of Single Gate Memory------10
5- System Control------11
6- Maintenance------12
Warning
Before installing or using this system, please read and follow these instructions carefully!1-Specifications and Features
1.1Electrical and Mechanical Specifications
Input AC:210~240VAC,50/60HZ
Back-up Battery:12V/4AH
Maximum Total Output:160W
Stand-by Output:5W
Motor Consumption:100W
Warning Light Consumption:25W
Electric Latch Consumption:20W
Photo Sensor Consumption:5W
Working Temperature:-20~55℃
Dimensions and Weight:300×245×90mm,4.5kg
1.2General Features
Single or dual gate application
With emergency drive capacity when there is a outage
Two kinds of time difference set-up for master and slave gates close
31 kinds of time set-up modules of auto-close (0~155 seconds)
Single or Dual gates operation individually
Two operation methods: by hand and by the transmitter
Compatible with several remote operation modes
Remote antenna for receiving is applicable
Users do no need to reprogram the system even if there is no power supply
With system recovery function
Compatible with other infrared safety devices
Programmable with other infrared safety devices
The control box judges the limit position of the system by the over-current protection reaction
Auto-reverse safety protection function when hitting something
The warning light is flashing when it is powered
Intellectualized Latch Control
We provide 2m and 7m motor cables, and users do not need to connect other cables
2- System Allocation
2.1 System Minimum Allocation
2.1.1 Control Box Minimum Allocation
C-320 PCB:1pcs
Transformer:1pcs
Wire connection terminal of the transformer:1pcs
Control box case kit:1pcs
Recoveryswitch module:1pcs
Allocation Function:without remote function /without emergency drive function when there is a outage.
2.1.2 Operating System Minimum Allocation
Motor for Single Gate :1pcs
Keystroke Control Box:1pcs
Allocation Function:Minimum control system for single gate, without electric latch / without flashing warning light / without infrared sensor safety protection function.
2.2 Alternative System Allocation
2.2.1 Control Box’s Alternative Allocation
12V/4AH Lead-Acid Storage Battery:1pcs
Function:for emergency usage when the system is in a outage.
Dip Switch type Transmitter×1~15pcs and non-decoded receiver module×1pcs
Function:Providing system stability with safer remote operation.
Rolling Code type Transmitter×1~15pcs and non-decoded receiver module×1pcs
Function:Providing system stability with safest and most economical remoteoperation.
Rolling code type transmitter with receiving and emitting components, transmitter×1~15pcs and decoded receiver module×1pcs
Function:The safest and the most expensive remote operation, providing the best system stability.
2.2.2 Operating System’s Alternative Allocation
Motors for dual gates, with 7m cable 1pcs and 2m cable 1pcs
Function:install dual motors, and you can operate either single gate or dual gate.
Electric Latch:1pcs
Function:Intellectual Electric Latch.
Warning Light kit:1pcs
Function:indicating working status of the motors and providing early warning function.
Photo Beam Sensor (receive and emit):1set
Function: Infrared detecting function provides the system with safety and protection.
Key Selector:1pcs
Function:you can use the key to open and close the gate.
Antenna set:1pcs
Function:For receiving remote signal from far distance.
3- Wire Connection
3.1 Two Installation Methods of the Gate
(1). Pull to Open A: as Diagram 3.1
Diagram 3.1 Pull to Open
(2). Push to Open B: as Diagram 3.2
Diagram 3.2 Push to open
3.2 Wire Connection
3.2.1 Wire Connection Diagram
Please follow Diagram 3.3 for wire connection.
Table 3.1 the function of DIP-SW
SW No. / Status / Function1 / ON/OFF / The gate stops then rebounds/stops without rebound,when the Photo sensor is blocked and its function is enable during the gate’s running;
the1st switch of SW3 must be used associating with 2nd3rd switch of SW3 below.
2
3 / 2 / 3
OFF / OFF / The function of Photo sensor is disabled
ON / OFF / The function of Photo sensor is disabled when the gate is closing
OFF / ON / The function of Photo sensor is disabled when the gate is opening
ON / ON / The function of Photo sensor is enabled when the gate is closing and opening
4 / ON/OFF / 80 seconds effective/ineffective
5 / ON/OFF / 40 seconds effective/ineffective
6 / ON/OFF / 20 seconds effective/ineffective
7 / ON/OFF / 10 seconds effective/ineffective
8 / ON/OFF / 5 seconds effective/ineffective
The time of gate auto-closing is the Sum of the time of the Dip Switch which is effective, the auto-closing function is ineffective when all of 5 Dip Switch is "OFF"
9 / ON / The delayed start-up time between the master and slave gate is 4 seconds
OFF / The delayed start-up time between the master and slave gate is 2 seconds
If the trip of the slave gate is farther than the master gate, during the dual gates’ closing phase, it is possible that the master gate arrives to the end first to block the slave gate even if the slave gate starts to close ahead for 4 seconds. This moment the system will adjust the delayed seconds automatically, and the delayed seconds are not the same as the above-mentioned set-up seconds.
10 / Turn the Bit to "ON" position for over 5 seconds(T1and T2) or 10 seconds(T3)then turn it to "OFF" position to clear the memory of the transmitter;
Turn the Bit to "ON" position less than 5 seconds then turn it to "OFF" position to set up the memory of the transmitter, Turn it to "OFF" position in normal use.
3.2.2 Wire Connection Description
(1). Connect the cable of the master gate to M1, connect the white wire with“+ ”, connect the black wire with“ - ”, the latch should be installed on this gate;
(2). Connect the cable of the slave gate to M2, connect the white wire with“ +”,connect the black wire with“- ”, you don’t need to connect M2 in single gate installation;
(3). Connect the wire of the electric latch and the warning light to the PCB of the control box (despite the positive or negative electrode).
(4). Make sure to connect the infrared photo sensor +12V output in the right position;
(5). The control box will not be worked if the output connection of the infrared photo sensor is wrong, please exchange the “NO” with the “NC” terminal of the infrared photo sensor;
(6). The antenna with remote function is attached to the control box, if you need farther remote operation, please exchange the concealed antenna with outside-plugged antenna set;
(7). This connection diagram A is for pull-to- open installation; Push-to-open installation is the same as this diagram B, exchange the white wire with the black wire of the motor.
Attention:please connect the back-up battery and the transformer to the PCB in the final step.
4-System Set-up
4.1 Description of the Transmitter Buttons
Press the button of the transmitter for about 0.2~0.5 second each time to make the transmitter work;
If the transmitter is out of order, please change a new battery and try it again.
4.1.1 Dip Switch Type Transmitter1
If you get the dip switch type transmitter (Transmitter1)
The same as Diagram4.1, then
(1). Press the red button to operate dual gates.
(2). Press the yellow button to operate single gate.
4.1.2 Rolling Code Type Transmitter2
If you get the rolling code type transmitter without decoded module (Transmitter2) the same as Diagram4.2, then
(1). Button A =Button B, for dual gates operation;
(2). Button C=Button D, for single gate operation;
Diagram 4.2 Rolling Code Type Transmitter2
4.1.3 Rolling Code Type Transmitter3
If you get the rolling code type transmitter with decoded module (Transmitter 3) the same as Diagram4.3, then
(1). Press the black button to operate dual gates.
(2). Press the green button to operate single gate.
Diagram 4.3Rolling Code Type Transmitter3
4.2 Operation of the Transmitter
4.2.1 Set-up of the Transmitter
The transmitter has to be followed the learning process first then operates the compatible control box.
(1) The Learning of Transmitter1 and Transmitter2
Press SW1 (LED1 is on) no longer than 5 seconds or turn the tenth switch of SW3 (marked “10 ”) from OFF to On position no longer than 5 seconds and turn to OFF position again, and this time LED1will flash for 10 times, during LED1 flashing period, press any key of the transmitter 1 or transmitter 2, LED1 is off for one second, then flash for 3 times, that means this transmitter is successfully learned and can be compatible with the control box; otherwise the transmitter is not successfully learned, you can try it again. One control box can be compatible with 15 transmitters, if this transmitter is set up successfully, you want to set upothertransmitters, LED1 will not flash for three times after it is off.
(2) The Learning of Transmitter3
Press SW1 (LED1 is on) no more than 10 seconds or turn the tenth switch of SW3 (marked“10”)from OFF to ON no more than 10 seconds, then LED1 is on (for 30 seconds), when LED1 is on, press any button of the transmitter3 for over 0.5 second, then LED1 will be off right away, that means a successful learning, LED1 is not off results in a learning failure. Please try again if there is a learning failure. One control box can be compatible with 15transmitters.
4.2.2 Clearance of the Transmitter Memory
All the transmitters can’t operate the control box after the following operation.
(1) The Clearance of Transmitter1 and Transmitter2
Press SW1 for over 5 seconds or turn the tenth switch (marked“10”) of SW3 from OFF to ON(LED1 is on) for over 5 seconds and turn it to OFF position again, LED1will be off for 1 second and flash for 3 times means a successful clearance of the transmitter memory.
Attention: If you press SW1 less than 5 seconds and release the button, or turn the tenth switch (marked“10”) of SW3 from OFF to ON(LED1 is on) less than 5 seconds and turn it to OFF position again, this moment LED1will flash for 10 times and go out automatically, this moment the transmitter memory is not cleared, please execute the above-mentioned procedures again to clear the transmitter memory after LED1 is off.
(2) The Clearance of Transmitter3
Press SW1 (LED1 is on) for over 10 seconds or turn the tenth switch of SW3 (Marked“10”) from OFF to ON over 10 seconds that will make the clearance of transmitter.
Special attention:Be sure to turn the tenth switch of SW3 to OFF position after the system is learned or cleared.
4.3 System Learning
4.3.1 Clearance of the System Memory
The following procedure is necessary especially in your first installation and in the system learning progress.
Press SW4(SYS Clear)for over 5 seconds, the stored learning memory will be cleared.
4.3.2 Learning Set-up of Dual Gate Memory
If you install dual gates, please execute dual gates set-up progress; the warning light will flash quickly during the system learning progress.
Step1:Clearance of the system memory(Turn all the switches of SW3 to OFF position );
Step2:Press the dual gate operation button of the control box or press the dual gate operation button of the transmitter;
Step3:The slave gate will be closed first this moment, if the slave gate is in close position the system will execute the following step, otherwise press the dual gate button to stop the system operation right away;
If the system executes to open the slave gate, please exchange the wire connection of M2 and execute Step2;
If the slave gate is in an open position and the system executes to close the master gate, please exchange the cables of M1 with M2 with the same wire connection and execute Step2 again;
If the slave gate is in an open position and the system executes to open the master gate, please exchange the cables of M1 with M2 and exchange the black wire with the white wire connection then execute Step2 again;
Step4:The system executes to close the master gate, if the master gate is in the closed position then the system will execute the following step, otherwise please press the dual gate button to stop the system operation right away;
If the master gate is in an open position and the system executes to open the master gate, please exchange the cables of M1 with M2 with the same wire connection and execute Step2 again;
Step5:The gate will be closed first and the latch pin will be pulled up;
Step6:The master gate will be opened to the end at full speed;
Step7:The slave gate will be opened to the end at full speed;
Step8:The slave gate will be closed to the end at full speed;
Step9:The master gate will be closed to the end at full speed; the warning light stops quick-flashing, dual gates set-up is finished successfully; the system will not memorize this learning trip until the trip memory is cleared coercively.
Attention:
During the learning progress, the gate will be stopped if you press any button (not included SW1) and result in a learning failure, please execute Step2 for repeating the learning progress; if the gate hits against something in the middle of the moving process, that will result in an erroneous learning process, please do the dual gates set-up progress again and omit Step1 process;
Be sure to cut off all the power supply (included the back-up battery) if you want to exchange the wire connection, please execute the wire connection after one minute of the power supply cut-off;
After dual gates set-up is finished, press the dual gates’ button to operate dual gates,press the single gate button to operate single gate, see the following “System Control” description.
4.3.3 Learning Set-up of Single Gate Memory
If you only install one gate, you have to connect this gate to the master motor’s wire terminal, please operate by the following descriptions of single gate set-up; the warning light will flash quickly during the set-up progress.
Step1:Clear the trip memory (Turn all SW3 switches to OFF position);
Step2:Press the single gate operation button of the control box or press the single gate operation button of the transmitter;
Step3:The gate will be closed first this moment, if the gate is in close position the system will execute the following steps, if the system executes to open the gate, press the single gate button to stop the system operation right away; cut off all the power supply (included the back-up battery), exchange the black wire with the white wire of the motor after one minute; execute Step2;
Step4:The gate will be closed first and the latch pin will be pulled up;
Step5:The gate will be opened to the end at full speed;
Step6:The gate will be closed to the end at full speed; the warning light stops quick-flashing, the single gate set-up is finished successfully; the system will not memorize this learning trip until the trip memory is cleared coercively.
Users can execute the single gate learning progress even they install dual gates, the slave gate will not be operated during the single gate learning progress.
Attention:
If users only install single gate and press dual gate button for setting up the learning progress that will result in a learning failure, this moment the warning light will keep flashing. At this moment press any button of the transmitter to stop and restart to proceed the system learning progress by the above-mentioned instruction, users don’t need to follow the procedure of Step1 again when they restart to proceed the system learning progress.
If the single date learning progress is finished, users can operate the gates by all the buttons of the transmitter, see the following description of the system control.
5- System Control
1) If the gate stops, press the button and the gate will start to go again; If the gate is moving, press the button and the gate will stop; In dual gates’ operation, the single gate button works when the slave gate is in the final position, then you can operate the master gate by the single gate button; In single gate operation, the function of single gate button and dual gates’ button is the same;
2) If the gate is in fast-moving progress and hitting against something, the gate will stop and reverse for one second; the gate is defined in the middle position;
If the gate is in slow-moving progress and hitting against something, the gate will stop and will not reverse; the gate is defined in the final position;
3) If the photo sensor is activated during the gate’s moving progress, the gate is possible to stop or reverse, see the description of SW3 set-up; the gate is defined in the middle position when the photo sensor stops the gate’s moving progress;