Bürstenlose Gleichstrommotoren Baureihe BG - Dunkermotoren
Bürstenlose Gleichstrommotoren Baureihe BG - Dunkermotoren
Bürstenlose Gleichstrommotoren Baureihe BG - Dunkermotoren
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<strong>BG</strong> 75 CI/PB/EC, 220 - 450 W<br />
current/Strom I (A)<br />
Pin assignment <strong>BG</strong> 75 CI / Pinbelegung <strong>BG</strong> 75 CI<br />
12-Pin Signal+E/A 5-Pin CAN<br />
A IN0 G AI+ 1 n.c.<br />
B IN1 M OUT3 2 n.c.<br />
C IN2 H AI- 3 n.c.<br />
D IN3 J U Logic<br />
4 CAN-H<br />
E OUT1 K GND 5 CAN-L<br />
F OUT2 L IN4<br />
Pin assignment <strong>BG</strong> 75 PB / Pinbelegung <strong>BG</strong> 75 PB<br />
12-Pin Signal+E/A 5-Pin Profibus<br />
A IN0 G AI+ 1 VP<br />
B IN1 M OUT3 2 RxD/TxD-N<br />
C IN2 H AI- 3 GND<br />
D IN3 J U Logic<br />
4 RxD/TxD-P<br />
E OUT1 K GND 5 n.c.<br />
F OUT2 L IN4<br />
Pin assignment <strong>BG</strong> 75 EC / Pinbelegung <strong>BG</strong> 75 EC<br />
12-Pin Signal+E/A 5-Pin Ethercat/ Port A<br />
A IN0 G AI+ 1 TxD+<br />
B IN1 M OUT3 2 RxD+<br />
C IN2 H AI- 3 TxD-<br />
D IN3 J U Logic<br />
4 RxD-<br />
E OUT1 K GND 5 n.c.<br />
F OUT2 L IN4<br />
35<br />
7000<br />
ϑ R =20°C<br />
ϑ R =20°C<br />
30<br />
6000<br />
Δϑ El = 80K<br />
30<br />
6000<br />
Δϑ El = 80K<br />
N = f (M)<br />
25 100 5000<br />
η<br />
25 100 5000<br />
J = f (M)<br />
N = f (M)<br />
η J = f (M)<br />
20 80 4000<br />
20 80 4000<br />
15 60 3000<br />
15 60 3000<br />
10 40 2000<br />
10 40 2000<br />
5 20 1000<br />
I<br />
5 20 1000<br />
Limit =30A I Limit =50A I Limit =35A I Limit =50A<br />
M<br />
0<br />
N M max<br />
M<br />
0 0<br />
0 0<br />
N<br />
M max<br />
0<br />
0 20 40 60 80 100 120 140 160 180 200<br />
0 In 40 accordance 80 120 with 160 EN 200 60034 240 280 320 360 400<br />
Characteristic diagram / Belastungskennlinien Ncm<br />
Belastungskennlinien gezeichnet nach EN 60034 Ncm<br />
35 35 7000 7000<br />
35<br />
35<br />
7000<br />
7000<br />
35<br />
ϑ R ϑ=20°C<br />
R =20°C<br />
R =20°C<br />
ϑ 30 30 6000 6000<br />
Δϑ Δϑ El = El<br />
80K<br />
30<br />
6000<br />
Δϑ R =20°C<br />
= 80K 30<br />
6000<br />
W = 100K<br />
Δϑ El 30<br />
N = f (M)<br />
J = f (M)<br />
El = 80K<br />
25 25 100 100 5000 5000 N = f (M)<br />
η η<br />
25<br />
100<br />
5000<br />
N = f N (M)<br />
J = f (M)<br />
25 100 5000 = f (M)<br />
N = f (M)<br />
J = f (M)<br />
η η J = f (M)<br />
25 100<br />
J = f (M)<br />
20 20 80 80 4000 4000<br />
20<br />
20<br />
80<br />
80<br />
4000<br />
4000<br />
20 80<br />
15 15 60 60 3000 3000<br />
15<br />
15<br />
60<br />
60<br />
3000<br />
3000<br />
15 60<br />
10 10 40 40 2000 2000<br />
10<br />
10<br />
40<br />
40<br />
2000<br />
2000<br />
10 40<br />
5 5 20 20 1000 1000<br />
I I Limit =35A Limit =30A I Limit =50A<br />
5<br />
I Limit =50A 5<br />
20<br />
20<br />
1000<br />
1000<br />
I Limit =35A I Limit =50A<br />
5 20<br />
Limit =30A I Limit =50A<br />
M M<br />
0<br />
N M max<br />
M<br />
0 0<br />
N<br />
M<br />
0 0 0<br />
N M max<br />
M M max<br />
max<br />
0 0 5020 10040 15060 20080 250100 300120 350140 400160 450180 500200<br />
0<br />
N M max<br />
0 0<br />
25 40 50 80 75 120 100 160 125 200 150 240 175 280 200 320 225 360 250 400 0 0<br />
0 20 40 60 80 100 120 140 160 180 200<br />
Ncm Ncm<br />
Ncm<br />
5<br />
20<br />
20<br />
1000<br />
1000<br />
I Limit =35A I Limit =50A<br />
5 20 1000<br />
mit =50A I Limit =35A I Limit =50A<br />
5 20 1000<br />
I Limit =35A I Limit =50A<br />
5 20<br />
M M max<br />
M<br />
0 0 0<br />
N<br />
M max<br />
M max<br />
0<br />
N<br />
M max<br />
M<br />
0 0<br />
180 200<br />
0 50 40 100 80 150 120 200 160 250 200 300 240 350 280 400 320 450 360 500<br />
0 0 0<br />
N M max<br />
400<br />
0 25 50 75 100 125 150 175 200 225 250<br />
0 0<br />
0 50 100 150 200 250 300 350 400 450 500<br />
Ncm<br />
Ncm<br />
Ncm Ncm<br />
<strong>BG</strong> 75x25 CI/PB/EC, 24V<br />
<strong>BG</strong> 75x50 CI/PB/EC, 24 V<br />
35<br />
35<br />
7000<br />
7000<br />
35 35 7000 7000<br />
35<br />
=20°C<br />
ϑ R =20°C<br />
ϑ R =20°C<br />
ϑ<br />
30<br />
30<br />
6000<br />
R =20°C<br />
ϑ R =20°C<br />
6000<br />
Δϑ El 80K 30 30 6000 6000<br />
Δϑ W = 100K<br />
Δϑ El = 80K<br />
Δϑ<br />
J = f (M)<br />
El = 80K<br />
Δϑ El = 80K<br />
30<br />
25<br />
25<br />
100<br />
100<br />
5000<br />
5000 N = f (M)<br />
25 25 100 100 5000 5000<br />
f (M)<br />
J = f (M)<br />
J = f (M)<br />
N = f (M)<br />
η J = f (M)<br />
N = f (M) η η<br />
25 100<br />
20<br />
20<br />
80<br />
80<br />
4000<br />
4000<br />
20 20 80 80 4000 4000<br />
20 80<br />
15<br />
15<br />
60<br />
60<br />
3000<br />
3000<br />
15 15 60 60 3000 3000<br />
15 60<br />
10<br />
10<br />
40<br />
40<br />
2000<br />
2000<br />
10 10 40 40 2000 2000<br />
10 40<br />
<strong>BG</strong> 75x50 CI/PB/EC, 40 V<br />
<strong>BG</strong> 75x75 CI/PB/EC, 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 I (A) I (A)<br />
efficiency/Wirkungsgrad η (%)<br />
efficiency/Wirkungsgrad η (%)<br />
rated speed/Drehzahl n (rpm)<br />
rated speed/Drehzahl n n (rpm)<br />
current/Strom I (A)<br />
35<br />
current/Strom I (A) I (A)<br />
efficiency/Wirkungsgrad η (%)<br />
efficiency/Wirkungsgrad η (%)<br />
(%)<br />
rated speed/Drehzahl n (rpm)<br />
7000<br />
rated speed/Drehzahl n n (rpm)<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 I (A)<br />
efficiency/Wirkungsgrad η (%)<br />
efficiency/Wirkungsgrad η (%)<br />
ϑ R =20°C<br />
Δϑ El = 80K<br />
35<br />
30<br />
7000<br />
6000<br />
ϑ R =20°C<br />
Δϑ W = 100K<br />
65<br />
25 100 5000 N = f (M) J = f (M)
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