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LED technology
THE ART OF LIGHTING
Accessoiries20INDOOR RATED
A9990370 RF wireless hand-remote controll:
Working with wireless RF Receiver A9910020 and A9910025(4x4A constant voltage PWM-dimmer)
• Synchronously control with wall mounted touch controller A9990365• Synchronously control with installed software on iphone, ipad, android.
• Control up to 6 zones with 6 scenes at each zone• Preset 10 changing modes, with pause function• Synchronization function of pattern changes ensure consistent change forever.• Enable to dim or mix colour of each R, G, B, W Channel
Dimension L x W x H (mm): 140 x 48 x 19 mmWeight: 0.09 Kg Excl. batteries
Working with a RF receiver.Short press learning key on receivers, then immediately slide touch the color wheelthe led light will flash, means remote and receiver well paired. You can pair with multiple receivers with one remote to control in sync.
5 6
2 31
R G B
4
Indicator: indicate the state of remote control
White channel: the 4th channel
Touch color wheel
Pause/Run button: 10 modes
R/G/B channels
ON/OFF of all zones
Speed down under dynamic mode
Return previous status button
Save button: save up to 6 colors or modes into 6 positions
(6-zone buttons)
6 zones: each zone can save 6 color or modes
Speed up under dynamic mode
Brightness: dim up
Brightness: dim down
Note 1: To choose a master from slaves by jumper for each zone.Short circuit for master.Open circuit for slave.Each zone only can set one master controller. After a period of time, the master will do synchronization operation to keep the same color or mode of all slaves in one zone.
Note 2: Each remote control 6 zones (areas) receivers, each area can be learned as many receivers as we can.Each receiver maximally can be controlled by 8 different remote controllers.
Touch button is to switch on/off of each corresponding color.
Hold your finger on button to dim brightness of each corresponding color. There are total 8 levels
of brightness.
Note: If you press R, then press G, then it is mix color of R and G. If you want to get G color directly, please
press R to switch off of R first. Then press G.
Running&Pause Button
a. Press pause&run button ,mode will run. Press it once, it runs one mode. Press button again, it stops,
then press one more time, it will enter next mode. There are total 10 build-in modes.
b. Pause&run button can work with S button , it can save modes into different zone.
c. Touch button one by one, such as press button 1,2,3,4,5,6, then
Press button. Zone 1,2,3,4,5,6 will run synchronized mode, after long press, LED lighting will flash twice,
they will switch to chasing running mode, long press again to switch back.
Return button
Touch button to return previous color or running mode.
Speed up and Speed down Button
Touch button to speed down when mode is running, touch button to speed up when mode is running.
Brightness down or up button
Short/long press button to dim down brightness of RGB channels, Short/ long press button to dim up RGB
channels.
“ W” channel is separated from RGB channels, so we can only long press button to dimming“W” channel.
Save Button
a. How to save color into different position per zone?
R G B
R G B
4 5 6
2 31
RGBW button
4 5 6
2 31
ZONETouch color wheel for select an ideal color
Select R/G/B/W color by press R G B
or
Long press button(the blue indicator will be on) for savingChoose position( ) to save colorany button
4 5 6
2 31
POSITION
Press any zone button you want
For example, press zone button 1, then touch color wheel for orange color, then press S button (the blue indicator will be on),then choose position button 3. That’s to say, we save orange color from zone 1 into position 3. So each zone can save 6 colors. 6 zones can save 36 colors.
A9990370 Remote Wallmount
How to learn &d elete ID process? 1. Wake up the remote by any button except touch color wheel. 2. Press at learning button on receiver. 3. Press any zone button(which you desire to control) on remote. 4. Then touch color wheel. 5. Connected LED light will blink to confirm zone designation. 6. Press learning button on receiver for over 5 seconds until connected LED light flash off, then delete the learned ID. If you want to learn receiver into another zone, please follow learning ID process operation 2.
+ +R+
--
INP
UT
12-3
6V
DC
OU
TP
UT +
G
+B
+W
S C
A9910025
PRI:Uin= 12-36VDCLin = 20.5A
SECUout=4x(12-36)VDCLout =4x(60-180)W
ResetSwitch
LearningSwitch
MASTER SLAVE
Constant Voltage RGB(W) LED-dimmerRF/WiFi controlled
Temp Range: -20°C/+50°C
Powersupply100-240VAC 12-24VDC
R
G
B
+
RGB-LED Strip constant voltageMax.load: 5mtr 96WKeep the DC connection cable short as possible
RGB-LED Strip constant voltageMax.load: 5mtr 96WKeep the DC connection cable short as possible
+
-
White-LED Strip constant voltageMax.load: 5mtr 96WKeep the DC connection cable short as possible
White-LED Strip constant voltageMax.load: 5mtr 96WKeep the DC connection cable short as possible
+ +R+
--
INP
UT
12-3
6V
DC
OU
TP
UT +
G
+B
+W
S C
A9910025
PRI:Uin= 12-36VDCLin = 20.5A
SECUout=4x(12-36)VDCLout =4x(60-180)W
ResetSwitch
LearningSwitch
MASTER SLAVE
Constant Voltage RGB(W) LED-dimmerRF/WiFi controlled
Temp Range: -20°C/+50°C
Powersupply100-240VAC 12-24VDC
White-LED Fixture(s) constant voltageMax.load: 96W (see notes)
White-LED Fixture(s) constant voltageMax.load: 96W (see notes)
+ +R+
--
INP
UT
12-3
6V
DC
OU
TP
UT +
G
+B
+W
S C
A9910025
PRI:Uin= 12-36VDCLin = 20.5A
SECUout=4x(12-36)VDCLout =4x(60-180)W
ResetSwitch
LearningSwitch
MASTER SLAVE
Constant Voltage RGB(W) LED-dimmerRF/WiFi controlled
Temp Range: -20°C/+50°C
Powersupply100-240VAC 12-24VDC
R
G
B
+
+ +R+
--
INP
UT
12-3
6V
DC
OU
TP
UT +
G
+B
+W
S C
A9910025
PRI:Uin= 12-36VDCLin = 20.5A
SECUout=4x(12-36)VDCLout =4x(60-180)W
ResetSwitch
LearningSwitch
MASTER SLAVE
Constant Voltage RGB(W) LED-dimmerRF/WiFi controlled
Temp Range: -20°C/+50°C
Powersupply100-240VAC 12-24VDC
RGB-LEDFixture(s) constant voltageMax. total load: 96W (see notes)
RGB-LED Fixture(s) constant voltageMax. total load: 96W (see notes)
+
-
DDer Durchmesser des 24V DC-Kabels hängt von der Gesamtlänge des Kabels und der gesamten Leistungsaufnahme aller angeschlossenen Geräte ab.(Siehe Seite 5)
FRLe diamètre du câble d'alimentation 24V DC dépend de la longueur totale du câble et la consommation électrique totale de tous les périphériques connectés. (voir page 6)
ESLa sección del cable de 24V DC depende de la longitud total del cable y el consumo de energía total de todaslas luminarias (véase la página 7)
ITIl diametro del cavo 24V DC dipende dalla lunghezza totale del cavo e il consumo di energia totale di tutti apparecchi collegati
UKThe thickness of the 24V DC cable depends on the total cable length and total power consumption of all connected fixtures. (See page 3)
NLDe diameter van de 24V DC-kabel is afhankelijk van de totale lengte van de kabel en het totale stroomverbruik van alle verbonden toestellen.(zie tabel op pagina 4)
Notes:
Wireless-1
Wireless-2
Wireless-3
Wireless-4
Recommended cable conductor surface (mm²) with cable lengths of 1-50 meters.for parallel connected 24 volt LED fixtures.Note; This table is an obligation and not a binding opinion. If necessary, make a electrical resistancecalculation (Pouillet A x R = p x l )
Watt
Cable inner conductor 1.5mm°
Cable inner conductor 2.5mm°
Cable inner conductor 4mm°
Kabel-lengte (m)
1
1
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
2 3 4 5 6 7 8 9 10 11 12 13 14 15
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
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24
25
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31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
Ampere
24 Volt
As much as possible shortest path for the 24V cables
Branching cables without interrupting the main cable
Transformer must be placed in centre of the connected fixtures
Polarity: positive (+) = red or brown, minus (-) = black or blue
Transformer-capacity 25% greater than the sum of conected fixtures
short range, low power
cable section calculation to the sum of the connected fixtures
fixtures evenly connected
calculate each line separately
fixtures evenly connected
calculate each line separately
longe range, low power
longe range, high power
short range, high power
230VAC
Transformer 24VDC
230VAC
Transformer 24VDC
230VAC
Transformer 24VDC
230VAC
Transformer 24VDC
230VAC
Transformer 24VDC
Watt
Kabel-lengte (m)
1
1
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
2 3 4 5 6 7 8 9 10 11 12 13 14 15
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
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29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
Ampere
Vermogen (Watt)
Kabelgeleider 1.5mm²
Kabelgeleider 2.5mm²
Kabelgeleider4mm²
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
24 Volt
Geadviseerd kabelgeleider-oppervlak (mm²) bij kabellengtes van 1-50 mtr. voor 24 Volt parallel aangesloten LED armaturen.Note; Deze tabel is een vrijblijvend en geen dwingend advies. Maak indien nodig een berekening van elektrische weerstand en geleidbaarheid met de wet van Pouillet (A x R = p x l )
230VAC
Trafo 24VDC
230VAC
Trafo 24VDC
230VAC
Trafo 24VDC
230VAC
Trafo 24VDC
230VAC
Trafo 24VDC
Zoveel mogelijk kortste weg voor de 24V kabels
Kabels aftakken zonder de hoofdkabel te onderbreken
Trafo mogelijk in het midden plaatsen
Polariteit: plus(+) = rood of bruin, min(-) = zwart of blauw
Trafo-capaciteit 25% hoger kiezen dan de som der belastingen
korte afstanden, laag vermogen
kabel sectie berekenenop de som der belastingen
korte afstanden, hoog vermogen
belastingen zoveel mogelijkgelijkmatig verdelen
sectie van elke lijnafzonderlijk berekenen
lange afstanden, laag vermogen
sectie van elke lijnafzonderlijk berekenen
lange afstanden, hoog vermogen
belastingen zoveel mogelijkgelijkmatig verdelen
Watt
Kabel-lengte (m)
1
1
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
2 3 4 5 6 7 8 9 10 11 12 13 14 15
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
Ampere
Watt
Kabel-lengte (m)
1
1
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
2 3 4 5 6 7 8 9 10 11 12 13 14 15
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
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30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
Ampere
Kabelinnenleiter 1.5mm²
Kabelinnenleiter 2.5mm²
Kabelinnenleiter4mm²
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
24 Volt
So viel wie möglich dem kürzesten Weg für die 24V-Leitungen
Kabel abzweigen ohne Unterbrechung der Hauptleitung
Trafo wenn möglich in der Mitte montieren
Polarität: positiv(+) = rot oder braun, minus(-) = schwarz oder blau
Trafo-Kapazität immer 25% größer wählen als die Summe der Last
230VAC
Trafo 24VDC
230VAC
Trafo 24VDC
230VAC
Trafo 24VDC
230VAC
Trafo 24VDC
230VAC
Trafo 24VDC
kurze Leitungen, niedriger Stromverbrauch
Kabelquerschnitt berechnennach der Summe der Last
kurze Leitungen, hoher Stromverbrauch
Last möglichst gleichmäßigverteilen
jeder Abschnittseparat berechnen
lange Leitungen, niedriger Stromverbrauch
jeder Abschnittseparat berechnen
lange Leitungen, hoher Stromverbrauch
Last möglichst gleichmäßigverteilen
Empfohlener Querschnitt vom Kabelinnenleiter in mm² bei Kabellängenvon 1-50 Meter für parallel geschaltete 24-Volt-LED-Leuchten.Bitte beachten: Diese Tabelle ist eine unverbindliche Beratung. Falls erforderlich, eine Berechnung vom elektrischen Widerstand und Leitfähigkeit mit der Formel von Pouillet machen
Leistung (Watt)
Watt
Kabel-lengte (m)
1
1
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
2 3 4 5 6 7 8 9 10 11 12 13 14 15
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
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18
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22
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24
25
26
27
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29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
Ampere
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
24 Volts
Surface recommandée conducteur de câble (mm²) 1-50 m longueurs de câble.connectés en parallèle pour 24 volts luminaires à LED.Remarque, Ce tableau est un des conseils informels et non contraignants. Si nécessaire, un calcul de résistance électrique et la conductivité avec la loi de Pouillet (A x R = p x l )
230VAC
230VAC
230VAC
230VAC
230VAC
Transfor-mateur 24VDC
Transfor-mateur 24VDC
Transfor-mateur 24VDC
Transfor-mateur 24VDC
Transfor-mateur 24VDC
Choisir le chemin le plus court pour les câbles 24V
Éclaircie câbles sans interrompre le câble principal
Transformer peut être centrée
Polarité: positive (+) = rouge ou brun, moins (-) = noir ou bleu
Transformateur-capacité de 25% de plus que de choisir la charge
LED-lampes Parallèlement interrupteur
courte portée, de faible puissance
Calcul de la section de câble la somme des luminaires connectés
courtes distances, de forte puissance
luminaires raccordés possible uniformément
section de chaque ligne calculer séparément
Les longues distances, de faible puissance
section de chaque ligne calculer séparément
Les longues distances, de forte puissance
luminaires raccordés possible uniformément
Conducteur de
câble 1.5mm²Conducteur de
câble 2.5mm²Conducteur de
câble 4mm²
Puissance (Watt)
Watt
Kabel-lengte (m)
1
1
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
2 3 4 5 6 7 8 9 10 11 12 13 14 15
2
3
4
5
6
7
8
9
10
11
12
13
14
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17
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20
21
22
23
24
25
26
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28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
Ampere
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
24 Voltios
Sección de cable recomendada en mm² con longitudes de cable 1-50 metros.para conectar en paralelo de 24 voltios LED fixtures.Note; Este cuadro es un consejo informal y no vinculante. Si es necesario, un cálculo de resistencia eléctrica y la conductividad con la ley de Pouillet (A x R = p x l )
230VAC
230VAC
230VAC
230VAC
230VAC
24VDC fuente de alimentación
24VDC fuente de alimentación
24VDC fuente de alimentación
24VDC fuente de alimentación
24VDC fuente de alimentación
Intente utilizar la mínima distacia de cable en lineas de 24V.
Intente utilizar una linea pricipal sin cortarlo y sacar de el derivaciones individuales
Si es posible coloque la fuente de alimentación en el centro de la linea [pricipal de distribución
Polaridad: positivo (+) = rojo o marrón, negativo (-) = negro o azul
La fuente de alimentación debe ser 25% mayor que la suma de las luiminarias a conectar
distancias cortas, de baja potencia
cable de cálculo de la sección que la suma de las luiminarias a conectar
distancias cortas, de alta potencia
la suma de las luiminariasposibles uniformemente
sección de cable calcular por separado
distancias largas, de baja potencia
sección de cable calcular por separado
distancias largas, de alta potencia
cable de cálculo de la sección que la suma de las luiminarias a conectar
Watt
Sección de cable
1.5mm²Sección de cable
2.5mm²Sección de cable
4mm²
Sezione (mm²) raccomandata dei cavi con lunghezza da 1m a 50m per apparecchiature LED a 24V collegate in parallelo.Nota: questa tabella indica valori tassativi, non solo suggerimenti. Se necessario, sviluppare un calcolo di resistenza elettrica (Pouillet A x R = p x l)
Watt
Condutore interno del cavo 1.5mm°
Condutore interno del cavo
2.5mm°Condutore interno del cavo
4mm°
Lunghezzadel cavo
1
1
24 48 72 96 120 144 168 192 216 240 264 288 312 336 360
2 3 4 5 6 7 8 9 10 11 12 13 14 15
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
Ampere
24 Volt
Lunghezza piú breve possibile per cavi 24V
Derivare i cavi senza interrompere il cavo principale
Collocare il trasformatore al centro delle apparecchiature collegate
Polaritá: positivo (+) = rosso o marrone, negativo (-) = nero o blu
Trasformatore di potenza almeno superiore al 25% della somma delle potenze delle apparecchiature colleegate
distanza breve, potenza bassa
sezione del cavo calcolata sulla somma delle apparecchiature collegate
separare le apparecchiature
calcolare ciascuna linea separatamente
separare le apparecchiature
calcolare ciascuna linea separatamente
distanza lunga, potenza bassa
distanza lunga, potenza elevata
distanza breve, potenza elevata
230VAC
Transformatore 24VDC
230VAC
Transformatore 24VDC
230VAC
Transformatore 24VDC
230VAC
Transformatore 24VDC
230VAC
Transformatore 24VDC