Nice Hansa SWING GTE CTROLLER SINGLE & DOUBLE 3009
Single & Double Swing Gate Controller Introduction: The controller board was designed to cate r for most of the basic requirements of sing le and double swing gates. It requires very little intervention on the part of the installers as a set of predefined pa rameters may b e selected at installation time. The installer can choose bet ween 6 different type os installation. The different options and defaul t value s are sh own in the tables below. Installation, alignment and self learning cycle The installation is very simple! n initial learning cycle automatically checks limit switches position, measures open / close timing and maximum current overload. ll the installer has to do is to follow thesimple instructions on page 2. Furthermore during normal it is possible to supervise different functions / levels by changing the display mode. ll information is be displayed using a 7 Segment digit and an 8 Led rray The factory default values (before a learning cycle ) are: The factory default input options are as follows NORML CYCLE PRMETERS VLUES INPUTS CTIVTI OPEN / CLOSE RUN TIME STYOPEN TIME OUT (time before closing) LIP TIME (delay between first and second motor) MXIMUM CURRENT LLOWED MOTOR MXIMUM CURRENT LLOWED MOTOR 2 20 SEC 5 SEC 2 SEC 0 0 OPEN LIMIT SWITCH GTE CLOSED LIMIT SWITCH GTE OPEN LIMIT SWITCH GTE 2 CLOSED LIMIT SWITCH GTE 2 CLOSING CLOSING CLOSING CLOSING COURTESY LIGHT DURTI 4 MINUTES INFRRED SFETY BEM CLOSING TRIGGER 3 (ESTRIN) CLOSING ESTRIN CYCLE PRMETERS OPEN / CLOSE RUN TIME FOR ESTRIN CYCLE STYOPEN TIME OUT FOR ESTRIN CYCLE VLUES 5 SEC 2 SEC TRIGGER2 (CDOMINIUM) TRIGGER TO OPEN GTE /UTOOVERRIDE TRIGGER TO CLOSE GTE CLOSING OPENING CLOSING COURTESY LIGHT TIME (IF SELECTED DIPSW 3) 30 SEC COURTESY LIGHT / LOCK OPERTI general purpose relay provides the facility for controlling either a courtesy light or a lock. Furthermore the installer may chose between a striker lock or a magnetic lock operation. The relay contacts are voltage free and are rated at : 0 / 22 C or 0 / 28V DC OPERTI The controller has also the facility of warning the user before any opening or closing cycle by means of a buzzer mounted on board. The buzzer also indicates different error conditions with a differentnumber of beeps. N/C N/O COM () 2V light/lock relay NICEHNS 386Bxx P X36mami
IMPORTNT!!: WHEN PPLYING POWER FOR THE FIRST TIME THE UNIT WILL FLSH THE LEDS (4 T THE TIME) TO INDICTE THT THE SYSTEM HS TO LERN THE OPEN ND CLOSE CYCLE ND STORE IT IN MEMORY. CREFULLY FOLLOW THE 3 STEPS DESCRIBED BELOW FOR CORRECT INITIL SETUP STEP SELECTING THE INSTLLTI TYPE Ensure Power is OFF 2 Select the installation Type using dipswitches,2 and 3 (see Table) 3 Hold button while.. 4 pplying power 5 Wait for LED s to flash 6 Remove power NOTE: fter this operation new learn cycle is required!! 3 2 (Table) OPTIS / PRESET NO. Maximum CURRENT Detection Clutch SENSOR Detection dip switch settings (only,2 and 3 shown) 2 3 2 3 These are the different options for the different presets TWO MOTORS E MOTOR 0 2 3 4 5 X X X X X X X X 2 3 2 3 2 3 2 3 8 2 5 30 &4 STEP 2 INITIL UTOMTIC SETUP USING LERNING CYCLE LOOSEN THE CNECTING RM SCREWS THE SHFT OF THE 2 MOTORS pply Power and wait for the 0 to appear on the display (see page 3) 2 Move dipswitch 2 to (all other switches= off) 3 Hold button until leds flash and PRG is displayed Note: if a b appears on the display the battery voltage is too low!! 4 Using Trigger close gate until the close limit sw is activated 5 Using Trigger 2 close gate 2 until the close limit sw is activated Note that releasing the button will invert the direction 6 ENSURE THE GTES RE CLOSED THEN TIGHTEN THE TWO SCREWS THE SHFT 7 Wait for the number of the motor you want to start first to appear on the display and press the button. 8 The motors will individually open and close at Low speed (to test the limit switches) 9 The motors will individually open and close at Full speed ( to measure the time and the overload) 0 the display will show RDY and!!! move dip sw 2 back to OFF!!! 2 You are now ready to operate the gate normally & 6 ( ) 7 5 4 8 TRIGGER TRIGGER 2 3 & 7 NICEHNS386B2 2 & STEP 3 SETTING THE STYOPEN TIME Move dipswitch 3 to (all other switches= off) 2 Hold button until leds flash and PRG2 is displayed 3 count the seconds you would like the gate to stay open (the least significant digit in seconds is shown on the display 4 Hold button until leds flash and RDY is displayed followed by the time is stored in memory 5!!! move dip sw 3 back to OFF!!! P2 3 8 2 & 4 X36mami
Power up sequence WHEN POWER IS PPLIED THE GTE, IF OPEN, WILL UTOMTICLLY CLOSE T LOW SPEED. NORML OPERTI: t power up the system will automatically step through : = LED TEST (all led s lit up simultaneously and in sequence) ll On In sequence 2= DISPLY DEFULT NO (FLSHING 5TIMES) 3= SHOW UTILITY LEDS Utilities LED S LRM CDITI BTTERY LOW MXIMUM CURRENT MXIMUM CURRENT CLUTCH SENSOR CLUTCH SENSOR IMPORTNT NOTE: when the battery voltage reaches 23.6 Volts the control board will automatically shut down and turn the batterylow LED on Display modes SWING GTE While in CLOSED POSITI it is possible to select different type of data to be displayed on the 8 led array Pressing button "" will cycle the display through: = NO DISPLY = DISPLY CURRENT OF MOTOR 2 = DISPLY CURRENT OF MOTOR 2 U = DISPLY CURRENT UTILITIES LEDS STTUS (EMERGENCY STOPS) b = DISPLY BTTERY LEVEL O = SHOW DIP SWITCH REDING BY CPU i = SHOW INPUTS REDING BY CPU No display display current consumption display current consumption Utilities LED S 24v Battery voltage level Dipswitch reading Inputs reading low high low high SYSTEM LOCKED OUT BTTERY LOW TRIGGER 2 JMMED TRIGGER JMMED MX CURRENT MX CURRENT CLUTCH SENSOR CLUTCH SENSOR low ok L.S. open L.S. close L.S. open L.S. close Beam Pedestrian Trig. 2 Trig. DipSwitch option selection Different options can be changed using the 8 slide switches (8 way DIP SWITCH) mounted on board. NOTE: most options become selectable only when the gate is in the closed position. For security reason during the pedestrian cycle the safety beam is INCTIVE!!! ( only the overload is active) SWITCH NO. 8 7 FUNCTI MGNETIC/STRIKE LOCK SELECT FORCE STYOPEN DESCRIPTI OF FUNCTI ( DIPSWITCH 4 MUST BE ) When the LOCK will operate for the duration of the cycle When OFF the strike lock will operate for Sec before opening When, if TRIGGER is held in for longer then 3 seconds the gate will open and stay open even if the UTOCLOSURE SWITCH 6 is 6 5 4 ENBLE UTOCLOSURE.S..P. UTOCLOSURE LOCK SELECT / COURTESY LIGHT When, the gates will UTOMTICLLY close after the preprogrammed STYOPEN time has elapsed When, the gates will UTOMTICLLY close after the SFETY BEM has been interrupted ( will open while beam is broken but will reclose immediately if beam is clear If beam is not broken will close after 5 sec. When the relay will activate a lock for sec before the gate opens When OFF the relay will activate the courtesy light for 4 minutes Magnetic Lock Select llow OVERRIDE of utoclosure Enable UTOCLOSURE Enable.S..P. Enable LOCK Operation Set Stayopen Time Enter Initial Settings Enable GTE LIP 3 PROGRM STYOPEN TIME If while pressing button program the duration the gates will stay open before closing automatically (if autoclose is selected) 2 ENTER INITIL MOTOR SETUP LIP FUNCTI If while pressing button test and learn opening and closing time measure current overload for each motor When, one of the two gates will open and close 2 seconds earlier then the other the FIRST motor is selected during the initial setup (pag...) P3 X36mami
what is what... Optional on board remote control Receiver Unswitched 2V Power to RX Resettable fuse for auxiliary 2V (max) NT NT(GND) RX 2V RX serial data RX 2V uxiliary 2V Power 500 m maximum Voltage free contacts for either 220v ac courtesy light or Electric lock N/C COM N/O 6 7 8 9 20 2 22 23 24 25 26 27 28 29 POWER IN 30 main Fuse 30 MOSFET 0 2 3 Overload adjust 0 2 3 Overload adjust light/lock relay MOSFET B T R INPUT STTUS LEDS PCB version number Current Overload adjust 0 2 3 CLOSE 20 Fuse 20 ( Motors and 2) 0 2 3 0 2 3 0 2 3 OPEN CLOSE connections to motors 20 OPEN 20 Fuse Connections for extended status indication 9 0 2 3 LS 2 OP LS 2 CL LS OP LS CL Inputs description Earth BEM TRIG 2 TRIG NICEHNS 386B?? LS 2 OP LS 2 CL Magnetic limit switches connections LS OP LS CL BEM TRIG 2 TRIG LIGHTENING PROTECTI BORD (OPTIL) DISBLE maximum current overload detection minimum current overload detection. FCTORY DEFULT medium current overload detection high current overload detection EXTENDED STTUS INDICTIS: with Gate moving: Steady on = GTE OPEN One pulse per second = GTE OPENING LIGHTNING PROTECTI BORD This board provides extra lightning protection on each of the 8 inputs for areas where lightning strikes are common. The board is fitted over the existing input connector. gas arrestors Two pulses per second = GTE CLOSING with Gate closed: Five pulses per second = safety beam interrupted Permanently OFF = battery fully charged/ all normal Slight flickering = battery low new connections Earth STTUS INDICTIS: BEEP = Maximum current 3 BEEPS = Clutch Sensor 2 BEEPS = Maximum current 4 BEEPS = Clutch Sensor P4 X36mami
N/O N/C COM 2V RX RX 2V RX serial data NT(GND) NT 6 7 8 9 20 2 22 23 24 25 26 27 28 29 B T light/lock relay R MOSFET 0 2 3 Overload adjust 2V GENERIC RDIO RECEIVER NICEHNS 386B?? OPEN CLOSE Loop detector 9 0 2 3 20 Earth TRIGG TRIGG TRIGG2 BEM LS CL LS OP TRIGG2 LS OP LS CL CLUTCH Remote led BEMCELL POWER IN 30 Connectin a Single Swing gate controller P5 X36mami
N/O N/C COM 2V RX RX 2V RX serial data NT(GND) NT 6 7 8 9 20 2 22 23 24 25 26 27 28 29 B GENERIC RDIO RECEIVER 2V Loop detector T light/lock relay R MOSFET 0 2 3 0 2 3 30 Overload adjust Overload adjust MOSFET NICEHNS 386B?? OPEN CLOSE OPEN CLOSE 9 0 2 3 20 20 Earth TRIGG TRIGG TRIGG2 BEM LS CL LS OP TRIGG2 LS OP LS CL SENSOR LS OP LS CL SENSOR Remote led BEMCELL Connecting a Double Swing gate controller P6 X36mami
PROGRMMING THE RDIO REMOTE CTROL CODES The controller has the capability of storing the codes of up to 00 remote cotrols STORING THE REMOTE CTROLS IS VERY ESY ensure that the gate is in the closed condition. 2 set dipswitches 3 and 4 to 3 hold button until P r g r c is displayed 4 using trigger (UP) and trigger 2(DOWN) select the location in memory where you want to store the new remote control code or hold trigger for longer then 2 seconds to access to the next free location in memory (the new location will be displayed) 5 press and hold button while transmitting with the new remote control. Once stored the display will show 6 if you require to store more then transmitter repeat sequence from point 4 4 8 3 & 5 2 & 7 7 to exit programming simply switch dipswitches 3 and 4 to OFF REMOTE CTROLL BUTTS: button will activate TRIGGER button 2 will activate the ESTRIN trigger button 3 will lock the Gate ( disable all activations except radio) buttons and 3 will unlock the gate (enable all triggers) button 4 will activate the courtesy light 4 TRIGGER 2 TRIGGER NICEHNS386B2 THINGS TO REMEMBER: BEFORE THE LERN CYCLE: When applying power for the first time the unit will flash the leds (4 at the time) this indicates that the system has to learn the open and close cycle and store it in memory. During the learn cycle triggers and 2 buttons will CLOSE the gate. ECH TIME THE BUTTS RE Released the direction of the motors is inverted If at power up a b appears on the display the battery voltage is too low to do the learn cycle. The learn cycle must be performed with FULLY CHRGED BTTERY for a correct current measurement DURING THE LERN CYCLE: During the full speed procedure of the learning cycle it is possible to change the slowdown points of the gate while opening and while closing. To do this: Press Trigger one to start the full speed cycle 2 as the gate approaches the open position press button FTER THE LERN CYCLE: when power is applied or FTER MINS FILURE the gate, if open, will close automatically at low speed. When the battery voltage reaches 23.6 volts the control board will automatically shut down and turn the batterylow led on. No operation is possible under this condition During the pedestrian cycle the safety beam is not implemented and only the overload safety is active
NOTES: Nice Hansa