INSTALLATION MANUAL
1) FOREWORD
The control panel HYDRA N can be used to control 1 or 2 PHEBE N series actuators,
which are designed to automate overhead doors of various kinds.
The panel can be:
- Built into the PHEBE N series Fig. A Ref.1.
- Fitted in wall-mounted panel to be used for the series with no built-in control
panel (PHEBE N SQ series) Fig. A Ref.2.
When wanting to automate an overhead door with two motors, there are 2 con-
figuration options:
- 1 PHEBE N/HYDRA N + 1 PHEBE N SQ Fig.H Ref.1
- 2 PHEBE N SQ + 1 HYDRA N QSG with panel, wall mounted Fig.H Ref.3.
It comes from the factory with standard operating settings. Any change must
be made using the programmer with built-in display or universal handheld
programmer. The control panel fully supports EELINK protocol.
Features of the HYDRA N panel:
- manages one or two 24V
slow-down settable in distance and
speed.
- transmitter management
- provision for operation with commands via local and central hardwired con-
trollers.
2) TECHNICAL SPECIFICATIONS
Power supply
230V~ ±10% 50Hz*
Low voltage/mains insulation
> 2MOhm 500V
Operating temperature range
-10 / +55°C
Dielectric rigidity
rete/bt 3750V~ for 1 minute
Motor output current
7.5A+7.5A max
Motor relay switching current
10A
Maximum motor power
168W per motor
Accessories power supply
24V~ (demand max. 180mA)
gate open light
NO contact (24V~/1A max)
Flashing light
24V~ 25W max
Dimensions
see Fig. A
N° of combinations
4 billion
Max. n° of transmitters that can be
memorized
63
(* other voltages to order)
Usable transmitter versions:
All ROLLING CODE transmitters compatible with:
3) TUBE ARRANGEMENT FIG.B
Install the electrical system referring to the standards in force for electrical
systems CEI 64-8, IEC 364, harmonization document HD 384 and other national
standards.
4) TERMINAL BOARD WIRING Fig. C
WARNING! For connection to the mains power supply, use a multicore cable
with a cross-section of at least 3x1.5mm
2
of the kind provided for by the
regulations in force.
To connect the motors, use a cable with a cross-section of at least 1.5mm
2
of
the kind provided for by the regulations in force. By way of example, if the
cable is run outside (unprotected), it must be at least type H07RN-F, while if
it is run inside (in a raceway), it must be at least type H05 VV-F.
TERMINAL DESCRIPTION
L N
Single-phase mains power 230V
~
±10%
1-2
Connection of motor 2 (where applicable):
1 BRAWN (+)
2 BLEU (-)
3-4
Flashing light 24V max. 25W.
5-6
5-6 Solenoid lock 24V or intermittent flashing light max. 24V 3W
(LG2 logic)
7-8
Accessories power supply (demand max. 180mA):
24 V~ operation with mains power on.
24 V
(7+,8-) operation with no mains power and optional
buffer battery kit.
9-10
Safety device power supply output (photocell transmitter and
safety edge transmitter, demand max. 180mA).
N.B.: output active only during operating cycle.
24 V~ Vsafe operation with mains power on.
24 V
(9+,10-) Vsafe operation with no mains power and op-
tional buffer battery kit.
11-12
Free contact (NO).
Gate Open Light SCA (24V ~max. 3W) or 2nd radio channel
output.
This option can be set via the “logic menu”.
13-14
START control button and key-operated selector (NO).
13-15
STOP control button (NC). If not used, leave jumpered.
13-16
PHOT input. Input photocells, if not used leave jumpered.
17
FAULT input (N.O.) Input for photocells equipped with N.O. test
contact Fig. J Ref. 2-3-4-5.
13-18
Motor 2 opening limit switch (SWO2)
19-20
Output for light control PHEBE N SQ Fig. H
21-22
Antenna (21 braiding -22 signal).
Use an antenna tuned to 433MHz.
Use RG58 coax cable to connect the Antenna and Receiver.
Metal bodies close to the antenna can interfere with radio recep-
tion. If the transmitter’s range is limited, move the antenna to a
more suitable position.
For QSg panel version only:
TERMINAL
DESCRIPTION
23-25
Motor 1 opening limit switch (NC)
23-24
Motor 1 closing limit switch (NC)
26-27
Connection motor 1:
26 BROWN (+)
27 BLEU (-)
28-29
Transformer secondary wiring / 24V input from buffer battery
(28-,29+).
5) CONNECTION OF 1 PAIR OF NON-TESTED PHOTOCELLS Fig. D
6) MEMORIZING REMOTE CONTROLS Fig. E
7) ADJUSTING SLOW-DOWN SPEED Fig. F
8) TERMINAL BOARD WIRING PHEBE N SQ - HYDRA N Fig. H
Ref.1) Connection of 2 motors (PHEBE N/HYDRA N + 1 PHEBE N SQ)
PHEBE N SQ terminals 9 and 10 are connected or not depending on ”
1 mot.
on
” logic (see table B)
Rif.2) Connection of 1 motor with HYDRA N in QSG
panel “
1 mot.on
” logic must be ON (see table B)
Ref.3) Connection of 2 motors (HYDRA N in QSG panel + 2 PHEBE N SQ)
PHEBE N SQ (MOT.2) terminals 9 and 10 are connected or not depending
on “
1 mot.on
” logic (see table B).
9) CONNECTION WITH EXPANSION BOARDS AND UNIVERSAL HANDHELD
PROGRAMMER (Fig. I)
Refer to specific manual.
9.1) Interface with WIEGAND systems via SCS-WIE module.
Refer to the SCS-WIE module’s instructions.
10) TESTED PHOTOCELLS INPUT Fig. J
11) CALLING UP MENUS: FIG. 1
11.1) PARAMETERS MENU (
PARA
) (Table “A” PARAMETERS)
11.2) LOGIC MENU (
LOGIC
) (TABLE “B” LOGIC)
11.3) RADIO MENU (
radio
) (TABLE “C” RADIO)
- IMPORTANT NOTE: THE FIRST TRANSMITTER MEMORIZED MUST BE
IDENTIFIED BY ATTACHING THE KEY LABEL (MASTER).
In the event of manual programming, the first transmitter assigns the RECEIVER’S
KEY CODE: this code is required to subsequently clone the radio transmitters.
The Clonix built-in on-board receiver also has a number of important advanced
features:
• Cloning of master transmitter (rolling code or fixed code)
• Cloning to replace transmitters already entered in receiver
• Transmitter database management
• Receiver community management
To use these advanced features, refer to the universal handheld programmer’s
instructions and to the CLONIX Programming guide, which come with the uni-
versal handheld programmer device.
11.4) LANGUAGE MENU (
lingua
)
Used to set the programmer’s language on the display.
14 -
HYDRA N
D811675 00100_02
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