Erone SEL2641R433-IP Bedienungsanleitung

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La garanzia è di 24 mesi dalla data di fabbricazione apposta all'interno. Durante tale periodo, se
l'apparecchiatura non funziona correttamente, a causa di un componente difettoso, essa verrà riparata o sostituita
a discrezione del fabbricante. La garanzia non copre l'integrità del contenitore plastico.
La garanzia viene prestata presso la sede del fabbricante.
n più
1A - Introduction
The receiver Erone type SEL2641 R433-IP ( Fig. 1) is a superheterodyne single conversion receiver with integrated
rolling-code decoding. The demodulation is AM/ASK.
zato
A special algorithm allows to keep synchronyzed transmitter and receiver.
The receiver which makes the activation, once received the transmitter code, has to be connected during the
installation to the device to control ( gate, garage door, rolling shutters, awnings, anti-burglar appliances, lighting,
etc.). The transmitter memorization can be carried out either with 2 push-buttons of the receiver or far from the
sec.
receiver with the keys of the transmitter.
All the receivers of the range Erone 433 can store into the EEPROM a serial number, a manufacturer key and a
synchronism algorithm of more transmitters.
e dei
The product fully complies with the European Directives 73/23/CEE, 89/336/CEE and with the
Regulation EN 60065.
con 4
moria
1B - Usable transmitters
l relè
! Erone 024A type S2TR 2641 E2-E4-E2M : Transmitter 2/4 buttons/ Master
! Erone 433 type SETR 2641 AM2:
! Erone 433 type SETR 2641 TM:
1C - Technical specifications
Receiver type:
Demodulation:
Operating frequency:
Local oscillator frequency:
Intermediate frequency:
Sensitivity (for good signal):
Input impedance:
1C - Technical specifications
Supply voltage :
Receiver type:
Current consumption: at rest:
Demodulation:
with relay excited:
Operating frequency:
Number of relays:
Local oscillator frequency:
Commutable max power:
Intermediate frequency:
Max codes number:
Sensitivity (for good signal):
Operating temperature:
Input impedance:
Dimensions ( Fig. 1 ):
Supply voltage :
Weight:
Current consumption:
1D - Main features
Number of relays:
!
Memory for 85 transmitter keys;
Commutable max power:
! Self-learning and erasing of the transmitter code simply using the transmitter keys, without accessing to the
Max codes number:
receiver board;
Operating temperature:
! Display of the transmitter key number;
Dimensions ( Fig. 1 ):
! Display of the memory position for the last memorized transmitter;
Weight:
! Overwrite of a transmitter code;
! Programmable operation of the relays: pulsing, latching and timed;
1D - Main features
! Programmable delay of release for the relays from 1 sec. to 10 hours;
!
Memory for 85 transmitter keys;
! Full memory cancellation.
! Self-learning and erasing of the transmitter code simply using the transmitter keys, without accessing to the
receiver board;
1E - Receiver detail ( Fig. 2)
! Display of the transmitter key number;
LR: Red led LV: Green led
! Display of the memory position for the last memorized transmitter;
PR: Red push-button PV: Green button
RR: Red relay ! Overwrite of a transmitter code; RV: Green relay
! Programmable operation of the relays: pulsing, latching and timed;
1F - Connections (Fig. 2)
! Programmable delay of release for the relays from 1 sec. to 10 hours;
Power-supply : terminals 1 , 2 : 12 Vac/dc
! Full memory cancellation.
terminals 1 , 3 : 24 Vac/dc
1E - Receiver detail ( Fig. 2)
Relay Outputs: terminals 4,5 : NO contact (red relay)
LR: Red led
terminals 6,7: NO contact green relay)
PR: Red push-button PV: Green button
terminals 6,8: NC contact green relay)
RR: Red relay
2A - Transmitter memorizing
The code of each transmitter key can be memorized into the receiver in 2 different ways: 1F - Connections (Fig. 2)
Power-supply : terminals 1 , 2 : 12 Vac/dc
A - Directly on the receiver, by using the receiver push-buttons PR or PV .
terminals 1 , 3 : 24 Vac/dc
B - Far from the receiver, by using the transmitter keys.
Relay Outputs: terminals 4,5 : NO contact (red relay)
terminals 6,7: NO contact green relay)
A) Direct memorization - To program a transmitter at the receiver .
terminals 6,8: NC contact green relay)
1 - Select the relay to be programmed Green (PV) or Red (PR)
2 - Push desired relay key for 2 seconds or until LED comes on
2A - Transmitter memorizing
3 - Within 2 seconds press desired transmitter key to store in receiver memory.
The code of each transmitter key can be memorized into the receiver in 2 different ways:
LED light should blink and relay should cycle.
A - Directly on the receiver, by using the receiver push-buttons PR or PV .
B - Far from the receiver, by using the transmitter keys.
B) Remote programming mode : To program transmitters thru the use of a transmitter .
Note: To utilize this mode the receiver must first have at least one transmitter programmed into the receiver.
A) Direct memorization - To program a transmitter at the receiver .
1 - Programming request - Push both keys of the transmitter that is already stored in the receiver until the receiver
1 - Select the relay to be programmed Green (PV) or Red (PR)
"beeps";
2 - Push desired relay key for 2 seconds or until LED comes on
2 - Programming entry - Release both keys and immediatlely press A or B key to select the corresponding relay to be
3 - Within 2 seconds press desired transmitter key to store in receiver memory.
programmed and hold key for 4 seconds;
LED light should blink and relay should cycle.
The LED light of corresponding relay will turn on and "beep" will be continuous;
3 - Memorization - Within 2 seconds press new transmitter button to be memorized.
B) Remote programming mode : To program transmitters thru the use of a transmitter .
Note: To utilize this mode the receiver must first have at least one transmitter programmed into the receiver.
Example: Memorization of a second transmitter ( TX2) with key A on relay red RR and key B on relay green RV into
1 - Programming request - Push both keys of the transmitter that is already stored in the receiver until the receiver
a receiver with a transmitter (TX1) already stored:
"beeps";
Push keys A+B of TX1(bip); Push key A of TX1 for 4 sec.(Biiiiiiiip); push key A of TX2 within 2
2 - Programming entry - Release both keys and immediatlely press A or B key to select the corresponding relay to be
sec.
programmed and hold key for 4 seconds;
Push keys A+B of TX1(bip); Push key B of TX1 for 4 sec.(Bip, Bip, ...Bip); push key B of TX2
The LED light of corresponding relay will turn on and "beep" will be continuous;
within 2 sec.
3 - Memorization - Within 2 seconds press new transmitter button to be memorized.
NOTE : The memory capacity is of 85 transmitter keys. That means that a 4 keys transmitter needs 4 memory
Example: Memorization of a second transmitter ( TX2) with key A on relay red RR and key B on relay green RV into
positions. It is possible to display the memory position by following the procedure 2B.
a receiver with a transmitter (TX1) already stored:
A transmitter key can be memorized on each relay RR or RV but not on both.
Push keys A+B of TX1(bip); Push key A of TX1 for 4 sec.(Biiiiiiiip); push key A of TX2 within 2
sec.
2B - Display of the transmitter memory position
Push keys A+B of TX1(bip); Push key B of TX1 for 4 sec.(Bip, Bip, ...Bip); push key B of TX2
By following the present procedure it is possible to display the position occupied by a given transmitter key.
within 2 sec.
1) Push the transmitter key for which it is necessary to know the memory position and verify the activation of the
relay and the led.
NOTE : The memory capacity is of 85 transmitter keys. That means that a 4 keys transmitter needs 4 memory
2) Push the button PR of the receiver for 1 second.
positions. It is possible to display the memory position by following the procedure 2B.
At this point begins a sequence of 7 total blinks of the two led lights LR and LV: by taking a note of what color light
A transmitter key can be memorized on each relay RR or RV but not on both.
blinks, it is possible to obtain the memory position, according to the table 4:
2B - Display of the transmitter memory position
Led blinks 1°
By following the present procedure it is possible to display the position occupied by a given transmitter key.
GARANZIA
RECEIVER SEL2641R433-IP
ENGLISH
: Transmitter mini 2 buttons
: Wall Transmitter
Superheterodyne.
AM/ASK.
433,92 MHz.
6,6128 MHz.
10,7 MHz.
-115 dBm.
50 Ohm.
12 or 24 V ac/dc.
Superheterodyne.
25 mA
AM/ASK.
55 mA
433,92 MHz.
2 (1NO, 1NO or NC).
6,6128 MHz.
24W or 24VA .
10,7 MHz.
85.
-115 dBm.
from -20 to + 70 °C.
50 Ohm.
105 x 45 x 28 mm.
12 or 24 V ac/dc.
65 gr.
at rest: 25 mA
with relay excited: 55 mA
2 (1NO, 1NO or NC).
24W or 24VA .
85.
from -20 to + 70 °C.
105 x 45 x 28 mm.
65 gr.
Antenna : terminal 9 : shield
terminal 10 : core. ( RG 58)
LV: Green led
RV: Green relay
Antenna : terminal 9 : shield
terminal 10 : core. ( RG 58)
2° 3° 4° 5° 6° 7°
2B - Display of the transmitter memory position
By following the present procedure it is possible to display the position occupied by a given transmitter key.
1) Push the transmitter key for which it is necessary to know the memory position and verify the activation of the
relay and the led.
2) Push the button PR of the receiver for 1 second.
At this point begins a sequence of 7 total blinks of the two led lights LR and LV: by taking a note of what color light
blinks, it is possible to obtain the memory position, according to the table 4:
Led blinks
Green LED
Red LED
Example: Transmitter blinks the following seven times after pushing the red relay (PR) key:
RED - RED - GREEN - GREEN - RED - RED - RED
This corresponds to the 12th position.
2C - Overwrite of an already stored Transmitter code
1 - Determine transmitter key memory position ( see section 2B)
2 - Press corresponding relay programming key on transmitter for 4 seconds.
3 - Within 2 seconds press (PV)
4 - Within 2 seconds enter the transmitter memory position of existing transmitter by using ( PR red ) and (
PV green) accordingly. There must be a total combination of seven button pushed ( PV or PR) to match the
memory position of existing transmitter.
5 - Within 1 second press the new transmitter key to be programmed.
The previous transmitter key will be removed and replaced by the key pressed in step 5.
3B - Memory full
3A - Memory capacity display
When the receiver memory is full and a memorization procedure is started, both the leds LV and LR blink 3 times.
This procedure allows to display the number of occupied memory positions.
1) Push the button PV of the receiver for 1 second.
3C - Full memory erase
At this point the receiver begins a sequence of 7 lightings of the leds LR and LV .
This operation is possible both with the transmitter keys (1) and with the receiver push buttons (2).
Referring to that it is possible to obtain the number of the occupied memory positions, according to tab.4.
1): Keep on pushed simultaneously the keys A and B of a TX whose codes are presents in the memory of the RX;
the buzzer emits a bip and the leds turns on for a while; within 2 sec. keep on pushed the key A of the same TX for 4
sec.: the led LR is turned on and the buzzer sounds a long bip ( "biiiiiiip").
3B - Memory full
Within 4 sec.( before the end of the long bip) push again simultaneously A and B for other 4 sec.; at this point will
When the receiver memory is full and a memorization procedure is started, both the leds LV and LR blink 3 times.
occur 3 blinks of LR and LV and 3 long bips of the buzzer ( biiiip - biiiip - biiiip").
At the end of this operation all the codes TX present in the memory are erased.
3C - Full memory erase
2): Keep on pushed PR of the receiver until the red led LR is turned on.
This operation is possible both with the transmitter keys (1) and with the receiver push buttons (2).
Afterwards, keep on pushed simultaneously PV and PR for 4 sec. The receiver will give the operation
1): Keep on pushed simultaneously the keys A and B of a TX whose codes are presents in the memory of the RX;
confirmation with 3 blinks of the leds and 3 long bips of the buzzer ( "Biiiiip - Biiiiip - Biiiiip").
the buzzer emits a bip and the leds turns on for a while; within 2 sec. keep on pushed the key A of the same TX for 4
sec.: the led LR is turned on and the buzzer sounds a long bip ( "biiiiiiip").
4A - Relay configuration display
Within 4 sec.( before the end of the long bip) push again simultaneously A and B for other 4 sec.; at this point will
Keep on pushed PR (or PV) of the receiver for 4 sec. The configuration of the relay is displayed by the
occur 3 blinks of LR and LV and 3 long bips of the buzzer ( biiiip - biiiip - biiiip").
corresponding led according the following table :
At the end of this operation all the codes TX present in the memory are erased.
Relay operating mode ( RR or RV )
2): Keep on pushed PR of the receiver until the red led LR is turned on.
Pulse relay
Afterwards, keep on pushed simultaneously PV and PR for 4 sec. The receiver will give the operation
Latching relay
confirmation with 3 blinks of the leds and 3 long bips of the buzzer ( "Biiiiip - Biiiiip - Biiiiip").
Timed relay
4A - Relay configuration display
4B - Relay programming
Keep on pushed PR (or PV) of the receiver for 4 sec. The configuration of the relay is displayed by the
The receivers are factory set to Pulse mode.To change the mode follow these steps ( Fig. 4) :
corresponding led according the following table :
1. Press desired relay button on receiver to be programmed ( PV or PR ) for 4 seconds. LED will illuminate
Relay operating mode ( RR or RV )
displaying relay status. Use Table 5 to determine the status.
Pulse relay
2. Within 1 second press PR to change the relay mode.
Latching relay
The relay mode will change according to the diagram of Fig. 4
Timed relay
Red relay RR
4B - Relay programming
Not allowed configurations latching
The receivers are factory set to Pulse mode.To change the mode follow these steps ( Fig. 4) :
timed
1. Press desired relay button on receiver to be programmed ( PV or PR ) for 4 seconds. LED will illuminate
displaying relay status. Use Table 5 to determine the status.
4C - Relay RR (RV) configuration - Fig. 4
2. Within 1 second press PR to change the relay mode.
The operating mode of the relay is cyclic, with the possibility to change the mode according the following rules:
The relay mode will change according to the diagram of Fig. 4
-If the relay is set as pulse: it becomes latching and after timed;
-If the relay is set as latching: it becomes pulse;
-If the relay is set as timed: it becomes pulse.
Not allowed configurations
4E - Relay RR ( RV) timing settings - Fig. 5
The modification for the relay settings, with the timing, can be done only if the relay has been set as pulse.
4C - Relay RR (RV) configuration - Fig. 4
Push the button PR (PV) of the receiver for 4 sec.;the led LR (LV) will turn on and will display the operating mode set
The operating mode of the relay is cyclic, with the possibility to change the mode according the following rules:
for the relay RR (RV). If the led blinks slow or fast push again PR for 1 second and the relay will be set as pulse. Then
-If the relay is set as pulse:
push PR for 1 second and the led LR (LV) switches off. Afterwards, within 2 seconds, begin to insert the selected relay
-If the relay is set as latching:
time, by pushing on the buttons PR and PV according to Table 12 and considering that PR has weight of "0" while PV
-If the relay is set as timed:
has weight "1".
4E - Relay RR ( RV) timing settings - Fig. 5
NOTE: The last pressures on PR of the sequence are not necessaries.
The modification for the relay settings, with the timing, can be done only if the relay has been set as pulse.
Example 1: 8 sec. delay : input the sequence : PR - PR - PR - PV - PR - PR - PR.
Push the button PR (PV) of the receiver for 4 sec.;the led LR (LV) will turn on and will display the operating mode set
Example 2: 2 min delay.: Input the sequence : PV - PR - PR - PR - PR - PR - PV .
for the relay RR (RV). If the led blinks slow or fast push again PR for 1 second and the relay will be set as pulse. Then
..................................................................................................................................................
push PR for 1 second and the led LR (LV) switches off. Afterwards, within 2 seconds, begin to insert the selected relay
time, by pushing on the buttons PR and PV according to Table 12 and considering that PR has weight of "0" while PV
The guarantee period of the product is 24 months, beginning from the manufacturer date. During this period, if the
has weight "1".
product does not work correctly, due to a defective component, the product will be repaired or substituted at the
discretion of the producer. The guarantee does not cover the plastic container integrity. After-sale service is supplied
NOTE: The last pressures on PR of the sequence are not necessaries.
at the producer's factory.
Example 1: 8 sec. delay : input the sequence : PR - PR - PR - PV - PR - PR - PR.
Example 2: 2 min delay.: Input the sequence : PV - PR - PR - PR - PR - PR - PV .
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1 - Allgemein
Der Empfänger SEL 2641 R433-IP (Abb. 1) ist eine Komponente unseres Funksystems 433, um Automationen und
The guarantee period of the product is 24 months, beginning from the manufacturer date. During this period, if the
elektrische sowie elektronische Systeme fern zu steuern. Dank der hochsicheren Codierung, „Rolling Code",
product does not work correctly, due to a defective component, the product will be repaired or substituted at the
können wir einen manipulationssicheren Betrieb gewährleisten. Der vom Handsender gesendete Code ändert
discretion of the producer. The guarantee does not cover the plastic container integrity. After-sale service is supplied
sich bei jeder Aktivierung und der Mikrocontroller im Empfänger syncronisiert alle eingelesenen Sender im System.
at the producer's factory.
Die Programmierung erfolgt selbstlernend durch 2 Tasten.
Die Empfänger entspricht den eropäischen Normen 73/23/CEE, 89/336/CEE, EN 60065.
1 - Allgemein
2 - Handsender
Der Empfänger SEL 2641 R433-IP (Abb. 1) ist eine Komponente unseres Funksystems 433, um Automationen und
! Erone 024A Mod. S2TR 2641 E2/E4/E2M:
elektrische sowie elektronische Systeme fern zu steuern. Dank der hochsicheren Codierung, „Rolling Code",
! Erone 433 Mod. SETR 2641 AM2:
können wir einen manipulationssicheren Betrieb gewährleisten. Der vom Handsender gesendete Code ändert
! Erone 433 Mod. SETR 2641 TM:
sich bei jeder Aktivierung und der Mikrocontroller im Empfänger syncronisiert alle eingelesenen Sender im System.
Die Programmierung erfolgt selbstlernend durch 2 Tasten.
3 - Technische daten
Die Empfänger entspricht den eropäischen Normen 73/23/CEE, 89/336/CEE, EN 60065.
For more information:
Empfängertyp:
Modulation:
2 - Handsender
www.devancocanada.com
Frequenz:
! Erone 024A Mod. S2TR 2641 E2/E4/E2M:
Frequenz des lokalen Oszillators:
! Erone 433 Mod. SETR 2641 AM2:
Zwischenfrequenz: or call toll free at 855-931-3334
! Erone 433 Mod. SETR 2641 TM:
Empfindlichkeit(für erfolgreiches Signal):
Eingangsimpedanz:
3 - Technische daten
Spannungsversorgung:
Empfängertyp:
Ruhestrom:
1° 2° 3° 4° 5°
1 2 4 8 16
0 0 0 0 0
Led light type (LR or LV)
Continuous light
Slow blinking
Fast blinking
Led light type (LR or LV)
Continuous light
Slow blinking
Fast blinking
Green relay RV
timed
timed (with different delay times)
Red relay RR Green relay RV
latching timed
timed timed (with different delay times)
it becomes latching and after timed;
it becomes pulse;
it becomes pulse.
GUARANTEE
DEUTSCH
GUARANTEE
DEUTSCH
Handsender 2,4 Tasten, 2 T asten Master;
Mini Handsender 2 Tasten;
Wand Handsender 4 Tasten;
Superheterodyne
AM/ASK
433,92 MHz
Handsender 2,4 Tasten, 2 T asten Master;
6,6128 MHz
Mini Handsender 2 Tasten;
10,7 MHz
Wand Handsender 4 Tasten;
-115 dBm
50 Ohm
12/24 VAC/DC
Superheterodyne
25 mA
3 -
Em
Mo
Fre
Fre
Zwi
Em
Ein
Spa
6° 7°
Ruh
32 64 Tab. 4
Las
0 0
Rel
Leis
Bet
Abm
4 -
!
!
!
!
!
!
!
5 -
LR:
PR:
RR:
LV:
PV:
RV:
Tab. 5
Tab. 5
Tab. 6
Tab. 6