Brushless DC-Motors Bürstenlose Gleichstrommotoren
Brushless DC-Motors Bürstenlose ... - Tamker
Brushless DC-Motors Bürstenlose ... - Tamker
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BG 75, 220 - 530 Watt<br />
BG 75, 220 - 530 W<br />
Dimensions<br />
Dimensions in<br />
in<br />
mm/<br />
mm<br />
Maßzeichnung<br />
/ Maßzeichnung<br />
in mm<br />
in mm<br />
rotatable/<br />
drehbar<br />
Woodruff key/<br />
Passfeder<br />
A 5x5x22<br />
Connector/<br />
Stecker<br />
M17, 4-pin (Power)<br />
Connector/Stecker<br />
M16, 8-pin<br />
45°<br />
4x Ø 5.2<br />
65 ±0.2<br />
+0.012<br />
Ø 14 k6 +0.001<br />
A<br />
Ø 32 -0.05<br />
3<br />
L<br />
3<br />
30 ±1<br />
Centring/<br />
Zentrierung<br />
DM4 DIN332<br />
B<br />
45 Ø (M5, 9+2tief)<br />
Ø 32 -0.05<br />
56 Ø (M6, 9+2tief)<br />
F Ø 45 (Ø 4.66, 13 tief)<br />
R [N]<br />
Permissible shaft-load/<br />
600<br />
60 Ø (M6, 9+2tief)<br />
Ø 56 (Ø 5.61, 13 tief)<br />
Zulässige Permissible Wellenbelastung shaft-load/<br />
F R [N]<br />
500<br />
600<br />
75 ±0.5<br />
Zulässige Wellenbelastung<br />
Radial-/ axialloads on the end of the shaft<br />
Ø 60 (Ø 5.61, 13 tief)<br />
400<br />
500<br />
300<br />
F A<br />
Radial-/ =Fr/3 for axialloads L h10<br />
= 20.000 on the hend of the shaft<br />
400<br />
200<br />
300<br />
F A<br />
=Fr/3 for L h10<br />
= 20.000 h<br />
Motor L<br />
100<br />
Radial-/ Axialkräfte am Wellenende<br />
200<br />
Motor BG 75x25 L115±0.5<br />
F A<br />
Radial-/ =Fr/3 für Axialkräfte L h10<br />
= 20.000 am Wellenende h<br />
BG 75x25 75x50 115±0.5 140±0.5<br />
0<br />
1000 1000 2000 3000 4000 5000 6000<br />
F A<br />
=Fr/3 für L h10<br />
= 20.000 h<br />
BG 75x50 75x75 140±0.5 165±0.5<br />
[rpm]<br />
0<br />
0 1000 2000 3000 4000 5000 6000<br />
[rpm]<br />
70<br />
7000<br />
70<br />
7000<br />
BG 75x75 165±0.5<br />
J = f (M)<br />
ϑ R =20°C<br />
ϑ R =20°C<br />
60<br />
70<br />
6000<br />
7000<br />
Δϑ W = 100K 60<br />
70<br />
6000<br />
7000<br />
Pin assignment / Pinbelegung<br />
J = f (M)<br />
ϑ J = f (M)<br />
Δϑ W = 100K<br />
R =20°C<br />
ϑ R =20°C<br />
Pin assignment/ Pinbelegung<br />
8-Pin 50<br />
60<br />
100 Signal 5000<br />
6000<br />
4-Pin ∆ϑ Power N = f (M)<br />
W = 100K / Signal<br />
N = f (M)<br />
50<br />
60<br />
100 5000<br />
6000<br />
η J = f (M)<br />
∆ϑ W = 100K<br />
18-Pin n.c. Signal 5<br />
η<br />
HS1 8-Pin1 A (motor) Signal N = f (M) 4-Pin Power<br />
40<br />
50<br />
80<br />
100<br />
4000<br />
5000<br />
2 n.c. 6 N = f (M)<br />
40<br />
50<br />
80<br />
100<br />
4000<br />
5000<br />
HS2 2 B (motor)<br />
η<br />
1 n.c. ηred 5 HALL 1 green 1 (motor) A (motor)<br />
3<br />
30<br />
40 n.c.<br />
60<br />
80<br />
3000<br />
4000 7 HS3 3 C (motor)<br />
30<br />
40<br />
60<br />
80<br />
3000<br />
4000<br />
2 n.c. blue 6 HALL 2 yellow 2 (motor) B (motor) black<br />
4 GND Hall 8 U Hall 4 Earth<br />
3<br />
20<br />
30<br />
40<br />
60<br />
2000<br />
3000 n.c. white 7 HALL<br />
20<br />
303 40<br />
60 grey<br />
2000<br />
3000<br />
3 (motor) C (motor)<br />
4 GND Hall<br />
brown 8 U Hall<br />
magenta 4 Earth yellow-green<br />
10<br />
20<br />
20<br />
40<br />
1000<br />
2000<br />
10<br />
20<br />
20<br />
40<br />
1000<br />
2000<br />
In accordance with EN 60034<br />
Characteristic 0<br />
10<br />
0<br />
20 1000<br />
M<br />
0 diagram N<br />
M<br />
/ Belastungskennlinien<br />
max<br />
0<br />
10<br />
0<br />
20 1000<br />
M N<br />
M max<br />
0<br />
0 40 80 120 160 200 240 280 320 360 400<br />
0 Belastungskennlinien 100 200 300 400 500 gezeichnet 600 700 800 nach 900 EN 1000 60034<br />
Characteristic diagram/ M N Belastungskennlinien M max<br />
Ncm In accordance with/ Belastungskennlinien M N<br />
M max gezeichnet nach EN Ncm60034<br />
0 0 0<br />
0 0 0<br />
0 40 80 120 160 200 240 280 320 360 400<br />
0 100 200 300 400 500 600 700 800 900 1000<br />
Ncm<br />
Ncm<br />
70 70<br />
70 70<br />
7000<br />
7000 7000<br />
J f (M)<br />
70<br />
70 70 7000<br />
7000 7000<br />
70<br />
7000<br />
J = f J (M)<br />
= f (M)<br />
ϑ 70<br />
7000<br />
J = f (M)<br />
R R =20°C<br />
ϑ R =20°C<br />
ϑ R =20°C<br />
ϑ R =20°C<br />
ϑ R =20°C<br />
ϑ R =20°C<br />
60 60<br />
60 7060<br />
6000<br />
6000 7000 6000<br />
Δϑ ∆ϑ Δϑ 100K 60<br />
6000<br />
J f (M)<br />
Δϑ 100K<br />
W = 100K<br />
60<br />
6000<br />
J = f (M)<br />
∆ϑ W = 100K<br />
60<br />
6000<br />
Δϑ<br />
ϑ<br />
∆ϑ R =20°C W = 100K 60<br />
6000<br />
J = f (M)<br />
∆ϑ W = 100K<br />
W = 100K 60<br />
6000<br />
J = f (M)<br />
Δϑ W = 100K<br />
50<br />
50<br />
100<br />
5000<br />
J = f (M)<br />
N = f (M)<br />
50 100 5000N = f (M)<br />
f (M)<br />
50 100 5000<br />
f (M)<br />
50<br />
60 100<br />
5000<br />
6000<br />
∆ϑ N = f (M)<br />
N = f (M)<br />
W = 100K<br />
N = f (M)<br />
50 100 5000<br />
N = f (M)<br />
50<br />
50100<br />
100 5000<br />
5000 η<br />
η<br />
N = f (M)<br />
50 100 5000<br />
η<br />
η J = f (M)<br />
η<br />
40 40<br />
40 5040<br />
80 80<br />
100 80 80<br />
4000<br />
4000 5000 4000N = f (M) η<br />
40<br />
40 40 80<br />
80 80 4000<br />
4000 4000<br />
40 80 4000<br />
η<br />
40 80 4000<br />
30 30<br />
30 4030<br />
60 60<br />
60 8060<br />
3000<br />
3000 4000 3000<br />
30<br />
30 30 60<br />
60 60 3000<br />
3000 3000<br />
30 60 3000<br />
30 60 3000<br />
20 20<br />
20 3020<br />
40 40<br />
40 6040<br />
2000<br />
2000 3000 2000<br />
20<br />
20 20 40<br />
40 40 2000<br />
2000 2000<br />
20 40 2000<br />
20 40 2000<br />
10 10<br />
10 2010<br />
20 20<br />
20 4020<br />
1000<br />
1000 2000 1000<br />
10<br />
10 10 20<br />
20 20 1000<br />
1000 1000<br />
10 20 1000<br />
10 20 1000<br />
0<br />
0<br />
0<br />
M M N<br />
M max<br />
N<br />
max<br />
M max<br />
N<br />
M 010<br />
020<br />
1000<br />
M<br />
0<br />
N<br />
M max M max<br />
M N M 40 80 120 160 200 240 max<br />
280 320 360 400 0<br />
0<br />
0<br />
N<br />
M max M max<br />
0 0 0<br />
0 0<br />
0<br />
100M N<br />
200 300 400 500 M max<br />
600 700 800 900 1000<br />
0 0 0 00 0120 40 40 240 80 80 360 120 120 480 160 160 600 200 200 720 240 240 840 280 280 960 320 320 1080 360 360 1200 400<br />
400<br />
0 0 0<br />
0 0100 100200 200300 300400 400500 500600 600700 700800 800900 900 1000<br />
1000<br />
0 40 M80 120 160 200 240 280 320 360 400 Ncm Ncm<br />
Ncm<br />
0 100 200 300 400 500 600 700 800 900 1000 Ncm<br />
Ncm<br />
0 0 0<br />
N<br />
M max<br />
Ncm<br />
Ncm<br />
BG 75x25, 0 120 240 24VV<br />
360 480 600 720 840 960 1080 1200 Ncm<br />
Ncm<br />
BG BG 75x50, 75x50, 40 40V V<br />
Ncm<br />
70<br />
70 70 7000<br />
7000 7000<br />
70<br />
7000<br />
ϑ R =20°C<br />
ϑ R =20°C<br />
60<br />
60<br />
6000<br />
ϑ Δϑ R =20°C<br />
60 6000<br />
6000<br />
∆ϑ 100K W ∆ϑ = 100K<br />
W = 100K<br />
60<br />
6000<br />
J f (M)<br />
Δϑ W = 100K<br />
50<br />
100<br />
5000<br />
J = f J (M)<br />
= f (M)<br />
50 50100<br />
100 5000 5000<br />
N f (M)<br />
J = f (M)<br />
50 100 5000<br />
= f N (M)<br />
= f (M)<br />
N = f (M) η<br />
η<br />
40<br />
40 40 80<br />
80 80 4000<br />
4000 4000<br />
η<br />
40 80 4000<br />
30<br />
30 30 60<br />
60 60 3000<br />
3000 3000<br />
30 60 3000<br />
20<br />
20 20 40<br />
40 40 2000<br />
2000 2000<br />
20 40 2000<br />
10<br />
10 10 20<br />
20 20 1000<br />
1000 1000<br />
10 20 1000<br />
M max<br />
0 0 0<br />
N M M<br />
0 0 0<br />
N<br />
max<br />
M max<br />
120 M 240 360 480 600 M 720 840 960 1080 1200<br />
0 0 0 0 0 0<br />
120 120<br />
120240 N<br />
240<br />
240360 360<br />
360480 480<br />
480600 600<br />
600720 max<br />
720<br />
720840 840<br />
840960 960<br />
960 1080 1080<br />
1080<br />
1200<br />
1200<br />
1200 Ncm<br />
Ncm Ncm<br />
Ncm<br />
current/Strom I (A)<br />
current/Strom I (A)<br />
efficiency/Wirkungsgrad η (%)<br />
efficiency/Wirkungsgrad η (%)<br />
rated speed/Drehzahl n (rpm)<br />
rated speed/Drehzahl n (rpm)<br />
current/Strom I (A)<br />
current/Strom current/Strom I (A)<br />
I (A)<br />
current/Strom I (A) I (A)<br />
current/Strom I (A)<br />
efficiency/Wirkungsgrad (%)<br />
efficiency/Wirkungsgrad efficiency/Wirkungsgrad η (%)<br />
η (%)<br />
efficiency/Wirkungsgrad η (%) (%)<br />
efficiency/Wirkungsgrad η (%)<br />
rated speed/Drehzahl n (rpm)<br />
rated rated rated speed/Drehzahl speed/Drehzahl n (rpm)<br />
n n (rpm)<br />
rated speed/Drehzahl n (rpm) (rpm)<br />
rated speed/Drehzahl n (rpm)<br />
current/Strom current/Strom I (A)<br />
I (A)<br />
I (A)<br />
current/Strom I (A)<br />
efficiency/Wirkungsgrad efficiency/Wirkungsgrad η (%)<br />
η (%)<br />
(%)<br />
efficiency/Wirkungsgrad η (%)<br />
rated rated rated speed/Drehzahl speed/Drehzahl n (rpm)<br />
n n (rpm)<br />
(rpm)<br />
rated speed/Drehzahl n (rpm)<br />
BG 75x75, 40V<br />
BG 75x75, 40 V<br />
current/Strom I (A)<br />
current/Strom I (A)<br />
efficiency/Wirkungsgrad η (%)<br />
efficiency/Wirkungsgrad η (%)<br />
rated speed/Drehzahl n (rpm)<br />
rated speed/Drehzahl n (rpm)<br />
current/Strom current/Strom I (A)<br />
I (A)<br />
I (A)<br />
current/Strom I (A)<br />
efficiency/Wirkungsgrad efficiency/Wirkungsgrad η (%)<br />
η (%)<br />
(%)<br />
efficiency/Wirkungsgrad η (%)<br />
rated rated rated speed/Drehzahl speed/Drehzahl n (rpm)<br />
n n (rpm)<br />
(rpm)<br />
rated speed/Drehzahl n (rpm)<br />
Visit www.dunkermotoren.com for further product information/ Besuchen Sie www.dunkermotoren.de für weitere Produktinformationen | 67<br />
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