Cable cross-sections and connections . Обзор. Подробное описание, цены на оборудование Siemens. Большой выбор, низкие цены на Cable cross-sections and connections

Type rating	Converter SINAMICS G180	Converter type	Line connection (standard)			Line connection with main switch or circuit breaker (Options: S01, S02, S03, S04, S06, S08, S09, S11, S12, S21, S22, S23, S24, S41)			Motor connection
			Cable cross-section solid/stranded		Fixing	Cable cross-section solid/stranded		Fixing	Cable cross-section solid/stranded		Fixing
			min.	max.		min.	max.		min.	max.
kW			IEC mm²	IEC mm²		IEC mm²	IEC mm²		IEC mm²	IEC mm²
SINAMICS G180 compact unit 400 V 6-pulse (230 to 500 V 3 AC TN/TT system, 50 to 60 Hz)
2.2	6SE0100вЂ‘1AC15вЂ‘5 . A7	2T2AвЂ‘07400вЂ‘002	0.2	6	Terminal	1	16	Terminal	0.2	6	Terminal
3	6SE0100вЂ‘1AC17вЂ‘0 . A7	2T2AвЂ‘07400вЂ‘003	0.2	6	Terminal	1	16	Terminal	0.2	6	Terminal
4	6SE0100вЂ‘1AC21вЂ‘0 . A7	2T2AвЂ‘07400вЂ‘004	0.2	6	Terminal	1	16	Terminal	0.2	6	Terminal
5.5	6SE0100вЂ‘1AC21вЂ‘3 . A7	2T2AвЂ‘07400вЂ‘005	0.2	6	Terminal	1	16	Terminal	0.2	6	Terminal
7.5	6SE0100вЂ‘1AC21вЂ‘8 . A7	2T2AвЂ‘07400вЂ‘007	4	16	Terminal	1	16	Terminal	4	16	Terminal
11	6SE0100вЂ‘1AC22вЂ‘5 . A7	2T2AвЂ‘07400вЂ‘011	4	16	Terminal	1	16	Terminal	4	16	Terminal
15	6SE0100вЂ‘1AC23вЂ‘7 . A7	2T2AвЂ‘07400вЂ‘015	0.75	35	Terminal	2.5	35	Terminal	0.75	35	Terminal
22	6SE0100вЂ‘1AC24вЂ‘8 . A7	2T2AвЂ‘07400вЂ‘022	0.75	35	Terminal	2.5	35	Terminal	0.75	35	Terminal
30	6SE0100вЂ‘1AC25вЂ‘8 . A7	2T2AвЂ‘07400вЂ‘030	0.75	35	Terminal	2.5	35	Terminal	0.75	35	Terminal
37	6SE0100вЂ‘1AC27вЂ‘8 . A7	2T2AвЂ‘07400вЂ‘037	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
45	6SE0100вЂ‘1AC28вЂ‘8 . A7	2T2AвЂ‘07400вЂ‘045	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
55	6SE0100вЂ‘1AC31вЂ‘1 . A7	2T2AвЂ‘07400вЂ‘055	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
75	6SE0100вЂ‘1AC31вЂ‘5 . A7	2T2AвЂ‘07400вЂ‘075	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
90	6SE0100вЂ‘1AC31вЂ‘8 . A7	2T2AвЂ‘07400вЂ‘090	2.5	120	1 x M8	2.5	150	Terminal	2.5	120	1 x M8
110	6SE0100вЂ‘1AC32вЂ‘1 . A7	2T2AвЂ‘07400вЂ‘110	2.5	120	1 x M8	2.5	150	Terminal	2.5	120	1 x M8
132	6SE0100вЂ‘1AC32вЂ‘5 . A7	2T2AвЂ‘07400вЂ‘132	2 Г— 6	2 Г— 240	1 Г— M10				2 Г— 6	2 Г— 240	1 Г— M10
160	6SE0100вЂ‘1AC33вЂ‘0 . A7	2T2AвЂ‘07400вЂ‘160	2 Г— 6	2 Г— 240	1 Г— M10				2 Г— 6	2 Г— 240	1 Г— M10
SINAMICS G180 compact unit 500 V 6-pulse (230 to 500 V 3 AC IT system, 50 to 60 Hz)
2.2	6SE0100вЂ‘1AD14вЂ‘5 . A7	2T2AвЂ‘07500вЂ‘002	0.2	6	Terminal	1	16	Terminal	0.2	6	Terminal
3	6SE0100вЂ‘1AD15вЂ‘5 . A7	2T2AвЂ‘07500вЂ‘003	0.2	6	Terminal	1	16	Terminal	0.2	6	Terminal
4	6SE0100вЂ‘1AD17вЂ‘0 . A7	2T2AвЂ‘07500вЂ‘004	0.2	6	Terminal	1	16	Terminal	0.2	6	Terminal
5.5	6SE0100вЂ‘1AD21вЂ‘0 . A7	2T2AвЂ‘07500вЂ‘005	0.2	6	Terminal	1	16	Terminal	0.2	6	Terminal
7.5	6SE0100вЂ‘1AD21вЂ‘3 . A7	2T2AвЂ‘07500вЂ‘007	0.2	6	Terminal	1	16	Terminal	0.2	6	Terminal
11	6SE0100вЂ‘1AD21вЂ‘8 . A7	2T2AвЂ‘07500вЂ‘011	4	16	Terminal	1	16	Terminal	4	16	Terminal
15	6SE0100вЂ‘1AD22вЂ‘5 . A7	2T2AвЂ‘07500вЂ‘015	4	16	Terminal	1	16	Terminal	4	16	Terminal
22	6SE0100вЂ‘1AD23вЂ‘7 . A7	2T2AвЂ‘07500вЂ‘022	0.75	35	Terminal	2.5	35	Terminal	0.75	35	Terminal
30	6SE0100вЂ‘1AD24вЂ‘8 . A7	2T2AвЂ‘07500вЂ‘030	0.75	35	Terminal	2.5	35	Terminal	0.75	35	Terminal
37	6SE0100вЂ‘1AD25вЂ‘8 . A7	2T2AвЂ‘07500вЂ‘037	0.75	35	Terminal	2.5	35	Terminal	0.75	35	Terminal
45	6SE0100вЂ‘1AD27вЂ‘8 . A7	2T2AвЂ‘07500вЂ‘045	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
55	6SE0100вЂ‘1AD28вЂ‘8 . A7	2T2AвЂ‘07500вЂ‘055	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
75	6SE0100вЂ‘1AD31вЂ‘1 . A7	2T2AвЂ‘07500вЂ‘075	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
90	6SE0100вЂ‘1AD31вЂ‘5 . A7	2T2AвЂ‘07500вЂ‘090	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
110	6SE0100вЂ‘1AD31вЂ‘8 . A7	2T2AвЂ‘07500вЂ‘110	2.5	120	1 x M8	2.5	150	Terminal	2.5	120	1 x M8
132	6SE0100вЂ‘1AD32вЂ‘1 . A7	2T2AвЂ‘07500вЂ‘132	2.5	120	1 x M8	2.5	150	Terminal	2.5	120	1 x M8
160	6SE0100вЂ‘1AD32вЂ‘5 . A7	2T2AвЂ‘07500вЂ‘160	2 Г— 6	2 Г— 240	1 Г— M10				2 Г— 6	2 Г— 240	1 Г— M10
200	6SE0100вЂ‘1AD33вЂ‘0 . A7	2T2AвЂ‘07500вЂ‘200	2 Г— 6	2 Г— 240	1 Г— M10				2 Г— 6	2 Г— 240	1 Г— M10
SINAMICS G180 compact unit 690 V 6-pulse (230 to 600¹⁾/690 V 3 AC TN/TT or IT system, 50 to 60 Hz)
7.5	6SE0100вЂ‘1A . 21вЂ‘0 . A7	2T2AвЂ‘07600вЂ‘007	4	16	Terminal	1	16	Terminal	4	16	Terminal
11	6SE0100вЂ‘1A . 21вЂ‘3 . A7	2T2AвЂ‘07600вЂ‘011	4	16	Terminal	1	16	Terminal	4	16	Terminal
15	6SE0100вЂ‘1A . 21вЂ‘8 . A7	2T2AвЂ‘07600вЂ‘015	4	16	Terminal	1	16	Terminal	4	16	Terminal
22	6SE0100вЂ‘1A . 22вЂ‘5 . A7	2T2AвЂ‘07600вЂ‘022	4	16	Terminal	1	16	Terminal	4	16	Terminal
30	6SE0100вЂ‘1A . 23вЂ‘4 . A7	2T2AвЂ‘07600вЂ‘030	2.5	120	1 x M8	2.5	35	Terminal	2.5	120	1 x M8
37	6SE0100вЂ‘1A . 24вЂ‘2 . A7	2T2AвЂ‘07600вЂ‘037	2.5	120	1 x M8	2.5	35	Terminal	2.5	120	1 x M8
45	6SE0100вЂ‘1A . 25вЂ‘0 . A7	2T2AвЂ‘07600вЂ‘045	2.5	120	1 x M8	2.5	35	Terminal	2.5	120	1 x M8
55	6SE0100вЂ‘1A . 25вЂ‘8 . A7	2T2AвЂ‘07600вЂ‘055	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
75	6SE0100вЂ‘1A . 28вЂ‘0 . A7	2T2AвЂ‘07600вЂ‘075	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
90	6SE0100вЂ‘1A . 31вЂ‘0 . A7	2T2AвЂ‘07600вЂ‘090	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
110	6SE0100вЂ‘1A . 31вЂ‘2 . A7	2T2AвЂ‘07600вЂ‘110	2.5	120	1 x M8	2.5	95	Terminal	2.5	120	1 x M8
132	6SE0100вЂ‘1A . 31вЂ‘4 . A7	2T2AвЂ‘07600вЂ‘132	2.5	120	1 x M8	2.5	150	Terminal	2.5	120	1 x M8
160	6SE0100вЂ‘1A . 31вЂ‘7 . A7	2T2AвЂ‘07600вЂ‘160	2 Г— 6	2 Г— 240	1 Г— M10				2 Г— 6	2 Г— 240	1 Г— M10
200	6SE0100вЂ‘1A . 32вЂ‘1 . A7	2T2AвЂ‘07600вЂ‘200	2 Г— 6	2 Г— 240	1 Г— M10				2 Г— 6	2 Г— 240	1 Г— M10
SINAMICS G180 cabinet system 400 V 6-pulse (230 to 500 V 3 AC TN/TT system, 50 to 60 Hz)
2.2	6SE0140вЂ‘1 . C15вЂ‘5 . A7	2X . AвЂ‘8740 . вЂ‘002	0.5	10	Terminal	0.5	10	Terminal	0.5	10	Terminal
3	6SE0140вЂ‘1 . C17вЂ‘0 . A7	2X . AвЂ‘8740 . вЂ‘003	0.5	10	Terminal	0.5	10	Terminal	0.5	10	Terminal
4	6SE0140вЂ‘1 . C21вЂ‘0 . A7	2X . AвЂ‘8740 . вЂ‘004	0.5	10	Terminal	0.5	10	Terminal	0.5	10	Terminal
5.5	6SE0140вЂ‘1 . C21вЂ‘3 . A7	2X . AвЂ‘8740 . вЂ‘005	0.5	10	Terminal	0.5	10	Terminal	0.5	10	Terminal
7.5	6SE0140вЂ‘1 . C21вЂ‘8 . A7	2X . AвЂ‘8740 . вЂ‘007	4	16	Terminal	4	16	Terminal	4	16	Terminal
11	6SE0140вЂ‘1 . C22вЂ‘5 . A7	2X . AвЂ‘8740 . вЂ‘011	4	16	Terminal	4	16	Terminal	4	16	Terminal
15	6SE0140вЂ‘1 . C23вЂ‘7 . A7	2X . AвЂ‘8740 . вЂ‘015	0.75	35	Terminal	0.75	35	Terminal	0.75	35	Terminal
22	6SE0140вЂ‘1 . C24вЂ‘8 . A7	2X . AвЂ‘8740 . вЂ‘022	0.75	35	Terminal	0.75	35	Terminal	0.75	35	Terminal
30	6SE0140вЂ‘1 . C25вЂ‘8 . A7	2X . AвЂ‘8740 . вЂ‘030	0.75	35	Terminal	0.75	35	Terminal	0.75	35	Terminal
37	6SE0140вЂ‘1 . C27вЂ‘8 . A7	2X . AвЂ‘8740 . вЂ‘037	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
45	6SE0140вЂ‘1 . C28вЂ‘8 . A7	2X . AвЂ‘8740 . вЂ‘045	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
55	6SE0140вЂ‘1 . C31вЂ‘1 . A7	2X . AвЂ‘8740 . вЂ‘055	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
75	6SE0140вЂ‘1 . C31вЂ‘5 . A7	2X . AвЂ‘8740 . вЂ‘075	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 2.5	2 Г— 150	1 Г— M6	2 Г— 6	2 Г— 300	1 Г— M10
90	6SE0140вЂ‘1 . C31вЂ‘8 . A7	2X . AвЂ‘8740 . вЂ‘090	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 185	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
110	6SE0140вЂ‘1 . C32вЂ‘1 . A7	2X . AвЂ‘8740 . вЂ‘110	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 185	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
132	6SE0140вЂ‘1 . C32вЂ‘5 . A7	2X . AвЂ‘8740 . вЂ‘132	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 185	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
160	6SE0140вЂ‘1 . C33вЂ‘0 . A7	2X . AвЂ‘8740 . вЂ‘160	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
SINAMICS G180 cabinet systems 500 V 6-pulse (230 to 500 V 3 AC IT system, 50 to 60 Hz)
2.2	6SE0140вЂ‘1 . D14вЂ‘5 . A7	2X . AвЂ‘8750 . вЂ‘002	0.5	10	Terminal	0.5	10	Terminal	0.5	10	Terminal
3	6SE0140вЂ‘1 . D15вЂ‘5 . A7	2X . AвЂ‘8750 . вЂ‘003	0.5	10	Terminal	0.5	10	Terminal	0.5	10	Terminal
4	6SE0140вЂ‘1 . D17вЂ‘0 . A7	2X . AвЂ‘8750 . вЂ‘004	0.5	10	Terminal	0.5	10	Terminal	0.5	10	Terminal
5.5	6SE0140вЂ‘1 . D21вЂ‘0 . A7	2X . AвЂ‘8750 . вЂ‘005	0.5	10	Terminal	0.5	10	Terminal	0.5	10	Terminal
7.5	6SE0140вЂ‘1 . D21вЂ‘3 . A7	2X . AвЂ‘8750 . вЂ‘007	0.5	10	Terminal	0.5	10	Terminal	0.5	10	Terminal
11	6SE0140вЂ‘1 . D21вЂ‘8 . A7	2X . AвЂ‘8750 . вЂ‘011	4	16	Terminal	4	16	Terminal	4	16	Terminal
15	6SE0140вЂ‘1 . D22вЂ‘5 . A7	2X . AвЂ‘8750 . вЂ‘015	4	16	Terminal	4	16	Terminal	4	16	Terminal
22	6SE0140вЂ‘1 . D23вЂ‘7 . A7	2X . AвЂ‘8750 . вЂ‘022	0.75	35	Terminal	0.75	35	Terminal	0.75	35	Terminal
30	6SE0140вЂ‘1 . D24вЂ‘8 . A7	2X . AвЂ‘8750 . вЂ‘030	0.75	35	Terminal	0.75	35	Terminal	0.75	35	Terminal
37	6SE0140вЂ‘1 . D25вЂ‘8 . A7	2X . AвЂ‘8750 . вЂ‘037	0.75	35	Terminal	0.75	35	Terminal	0.75	35	Terminal
45	6SE0140вЂ‘1 . D27вЂ‘8 . A7	2X . AвЂ‘8750 . вЂ‘045	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
55	6SE0140вЂ‘1 . D28вЂ‘8 . A7	2X . AвЂ‘8750 . вЂ‘055	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
75	6SE0140вЂ‘1 . D31вЂ‘1 . A7	2X . AвЂ‘8750 . вЂ‘075	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
90	6SE0140вЂ‘1 . D31вЂ‘5 . A7	2X . AвЂ‘8750 . вЂ‘090	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 2.5	2 Г— 150	1 Г— M6	2 Г— 6	2 Г— 300	1 Г— M10
110	6SE0140вЂ‘1 . D31вЂ‘8 . A7	2X . AвЂ‘8750 . вЂ‘110	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 185	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
132	6SE0140вЂ‘1 . D32вЂ‘1 . A7	2X . AвЂ‘8750 . вЂ‘132	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 185	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
160	6SE0140вЂ‘1 . D32вЂ‘5 . A7	2X . AвЂ‘8750 . вЂ‘160	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 185	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
200	6SE0140вЂ‘1 . D33вЂ‘0 . A7	2X . AвЂ‘8750 . вЂ‘200	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
SINAMICS G180 cabinet systems 690 V 6-pulse (230 to 600¹⁾/690 V 3 AC TN/TT or IT system, 50 to 60 Hz)
7.5	6SE0140вЂ‘1 . . 21вЂ‘0 . A7	2X . AвЂ‘8769 . вЂ‘007	4	16	Terminal	4	16	Terminal	4	16	Terminal
11	6SE0140вЂ‘1 . . 21вЂ‘3 . A7	2X . AвЂ‘8769 . вЂ‘011	4	16	Terminal	4	16	Terminal	4	16	Terminal
15	6SE0140вЂ‘1 . . 21вЂ‘8 . A7	2X . AвЂ‘8769 . вЂ‘015	4	16	Terminal	4	16	Terminal	4	16	Terminal
22	6SE0140вЂ‘1 . . 22вЂ‘5 . A7	2X . AвЂ‘8769 . вЂ‘022	4	16	Terminal	4	16	Terminal	4	16	Terminal
30	6SE0140вЂ‘1 . . 23вЂ‘4 . A7	2X . AвЂ‘8769 . вЂ‘030	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
37	6SE0140вЂ‘1 . . 24вЂ‘2 . A7	2X . AвЂ‘8769 . вЂ‘037	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
45	6SE0140вЂ‘1 . . 25вЂ‘0 . A7	2X . AвЂ‘8769 . вЂ‘045	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
55	6SE0140вЂ‘1 . . 25вЂ‘8 . A7	2X . AвЂ‘8769 . вЂ‘055	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
75	6SE0140вЂ‘1 . . 28вЂ‘0 . A7	2X . AвЂ‘8769 . вЂ‘075	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10	2 Г— 6	2 Г— 240	1 Г— M10
90	6SE0140вЂ‘1 . . 31вЂ‘0 . A7	2X . AвЂ‘8769 . вЂ‘090	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 2.5	2 Г— 150	1 Г— M6	2 Г— 6	2 Г— 300	1 Г— M10
110	6SE0140вЂ‘1 . . 31вЂ‘2 . A7	2X . AвЂ‘8769 . вЂ‘110	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 2.5	2 Г— 150	1 Г— M6	2 Г— 6	2 Г— 300	1 Г— M10
132	6SE0140вЂ‘1 . . 31вЂ‘4 . A7	2X . AвЂ‘8769 . вЂ‘132	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 185	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
160	6SE0140вЂ‘1 . . 31вЂ‘7 . A7	2X . AвЂ‘8769 . вЂ‘160	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 185	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
200	6SE0140вЂ‘1 . . 32вЂ‘1 . A7	2X . AвЂ‘8769 . вЂ‘200	2 Г— 6	2 Г— 300	1 Г— M10	2 Г— 6	2 Г— 185	1 Г— M10	2 Г— 6	2 Г— 300	1 Г— M10
SINAMICS G180 cabinet units 400 V 6-pulse, air-cooled and liquid-cooled (230 to 415 V 3 AC TN/TT system, 50 to 60 Hz)
200	6SE01 . 0вЂ‘1BA33вЂ‘7 . A7	2T . AвЂ‘ . 7401вЂ‘200	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12	1 Г— 2.5 2 Г— 95	1 Г— 150 2 Г— 150	1 x M8	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
250	6SE01 . 0вЂ‘1BA34вЂ‘6 . A7	2T . AвЂ‘ . 7401вЂ‘250	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12	2 Г— 10	2 Г— 300	1 Г— M12	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
315	6SE01 . 0вЂ‘1BA36вЂ‘3 . A7	2T . AвЂ‘ . 7401вЂ‘315	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12	2 Г— 10	2 Г— 300	1 Г— M12	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
400	6SE01 . 0вЂ‘1BA37вЂ‘3 . A7	2T . AвЂ‘ . 7401вЂ‘400	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	3 Г— 10 6 Г— 150	3 Г— 300 6 Г— 300	3 Г— M12
500	6SE01 . 0вЂ‘1BA38вЂ‘8 . A7	2T . AвЂ‘ . 7401вЂ‘500	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
560	6SE01 . 0вЂ‘1BA41вЂ‘0 . A7	2T . AвЂ‘ . 7401вЂ‘560	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
630	6SE01 . 0вЂ‘1BA41вЂ‘1 . A7	2T . AвЂ‘ . 7401вЂ‘630	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
SINAMICS G180 cabinet units 400 V 12-pulse, air-cooled and liquid-cooled (230 to 415 V 3 AC TN/TT system, 50 to 60 Hz)
200	6SE01 . 0вЂ‘2BA33вЂ‘7 . A7	2T . FвЂ‘ . 7401вЂ‘200	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12	1 Г— 2.5 2 Г— 95	1 Г— 150 2 Г— 150	1 x M8	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
250	6SE01 . 0вЂ‘2BA34вЂ‘6 . A7	2T . FвЂ‘ . 7401вЂ‘250	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12	2 Г— 10	2 Г— 300	1 Г— M12	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
315	6SE01 . 0вЂ‘2BA36вЂ‘3 . A7	2T . FвЂ‘ . 7401вЂ‘315	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12	2 Г— 10	2 Г— 300	1 Г— M12	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
400	6SE01 . 0вЂ‘2BA37вЂ‘3вЂ… . A7	2T . FвЂ‘ . 7401вЂ‘400	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	3 Г— 10 6 Г— 150	3 Г— 300 6 Г— 300	3 Г— M12
500	6SE01 . 0вЂ‘2BA38вЂ‘8 . A7	2T . FвЂ‘ . 7401вЂ‘500	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
560	6SE01 . 0вЂ‘2BA41вЂ‘0 . A7	2T . FвЂ‘ . 7401вЂ‘560	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
630	6SE01 . 0вЂ‘2BA41вЂ‘1 . A7	2T . FвЂ‘ . 7401вЂ‘630	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
SINAMICS G180 cabinet units 500 V 6-pulse, air-cooled and liquid-cooled (230 to 500 V 3 AC IT system, 50 to 60 Hz)
250	6SE01 . 0вЂ‘1BD33вЂ‘7 . A7	2T . AвЂ‘ . 7501вЂ‘250	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12	1 Г— 2.5 2 Г— 95	1 Г— 150 2 Г— 150	1 x M8	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
315	6SE01 . 0вЂ‘1BD34вЂ‘6 . A7	2T . AвЂ‘ . 7501вЂ‘315	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12	2 Г— 10	2 Г— 300	1 Г— M12	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
400	6SE01 . 0вЂ‘1BD36вЂ‘3 . A7	2T . AвЂ‘ . 7501вЂ‘400	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12	2 Г— 10	2 Г— 300	1 Г— M12	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
500	6SE01 . 0вЂ‘1BD37вЂ‘3 . A7	2T . AвЂ‘ . 7501вЂ‘500	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	3 Г— 10 6 Г— 150	3 Г— 300 6 Г— 300	3 Г— M12
560	6SE01 . 0вЂ‘1BD38вЂ‘2 . A7	2T . AвЂ‘ . 7501вЂ‘560	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
630	6SE01 . 0вЂ‘1BD38вЂ‘8 . A7	2T . AвЂ‘ . 7501вЂ‘630	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
710	6SE01 . 0вЂ‘1BD41вЂ‘0 . A7	2T . AвЂ‘ . 7501вЂ‘710	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
800	6SE01 . 0вЂ‘1BD41вЂ‘1 . A7	2T . AвЂ‘ . 7501вЂ‘800	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
SINAMICS G180 cabinet units 500 V 12-pulse, air-cooled and liquid-cooled (2 Г— 230 to 500 V 3 AC IT system, 50 to 60 Hz)
250	6SE01 . 0вЂ‘2BD33вЂ‘7 . A7	2T . FвЂ‘ . 7501вЂ‘250				2 Г— 6	2 Г— 185	1 Г— M10	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
315	6SE01 . 0вЂ‘2BD34вЂ‘6 . A7	2T . FвЂ‘ . 7501вЂ‘315				2 Г— 6	2 Г— 185	1 Г— M10	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
400	6SE01 . 0вЂ‘2BD36вЂ‘3 . A7	2T . FвЂ‘ . 7501вЂ‘400				2 Г— 6	2 Г— 300	1 Г— M10	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
500	6SE01 . 0вЂ‘2BD37вЂ‘3 . A7	2T . FвЂ‘ . 7501вЂ‘500				2 Г— 6	2 Г— 300	1 Г— M10	3 Г— 10 6 Г— 150	3 Г— 300 6 Г— 300	3 Г— M12
560	6SE01 . 0вЂ‘2BD38вЂ‘2 . A7	2T . FвЂ‘ . 7501вЂ‘560				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
630	6SE01 . 0вЂ‘2BD38вЂ‘8 . A7	2T . FвЂ‘ . 7501вЂ‘630				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
710	6SE01 . 0вЂ‘2BD41вЂ‘0 . A7	2T . FвЂ‘ . 7501вЂ‘710				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
800	6SE01 . 0вЂ‘2BD41вЂ‘1 . A7	2T . FвЂ‘ . 7501вЂ‘800				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
SINAMICS G180 cabinet units 690 V 6-pulse, air-cooled and liquid-cooled (230 to 600¹⁾/690 V 3 AC TN/TT or IT system, 50 to 60 Hz)
250	6SE01 . 0вЂ‘1B . 33вЂ‘2 . A7	2T . AвЂ‘ . 7601вЂ‘250	2 Г— 10	2 Г— 300	1 Г— M12	1 Г— 2.5 2 Г— 95	1 Г— 150 2 Г— 150	1 x M8	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
315	6SE01 . 0вЂ‘1B . 33вЂ‘6 . A7	2T . AвЂ‘ . 7601вЂ‘315	2 Г— 10	2 Г— 300	1 Г— M12	1 Г— 2.5 2 Г— 95	1 Г— 150 2 Г— 150	1 x M8	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
400	6SE01 . 0вЂ‘1B . 34вЂ‘2 . A7	2T . AвЂ‘ . 7601вЂ‘400	2 Г— 10	2 Г— 300	1 Г— M12	2 Г— 10	2 Г— 300	1 Г— M12	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
500	6SE01 . 0вЂ‘1B . 35вЂ‘2 . A7	2T . AвЂ‘ . 7601вЂ‘500	2 Г— 10	2 Г— 300	1 Г— M12	2 Г— 6	2 Г— 300	1 Г— M10	3 Г— 10 6 Г— 150	3 Г— 300 6 Г— 300	3 Г— M12
560	6SE01 . 0вЂ‘1B . 35вЂ‘7 . A7	2T . AвЂ‘ . 7601вЂ‘560	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
630	6SE01 . 0вЂ‘1B . 36вЂ‘4 . A7	2T . AвЂ‘ . 7601вЂ‘630	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
710	6SE01 . 0вЂ‘1B . 37вЂ‘1 . A7	2T . AвЂ‘ . 7601вЂ‘710	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
800	6SE01 . 0вЂ‘1B . 37вЂ‘7 . A7	2T . AвЂ‘ . 7601вЂ‘800	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
900	6SE01 . 0вЂ‘1B . 41вЂ‘0 . A7	2T . AвЂ‘ . 7601вЂ‘909	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
1000	6SE01 . 0вЂ‘1B . 41вЂ‘1 . A7	2T . AвЂ‘ . 7601вЂ‘910	4 Г— 10	4 Г— 300	2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
1200	6SE01 . 0вЂ‘1C . 41вЂ‘2 . A7	2T . AвЂ‘ . 7602вЂ‘912	8 Г— 10	8 Г— 300	2 Г— 2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1300	6SE01 . 0вЂ‘1C . 41вЂ‘3 . A7	2T . AвЂ‘ . 7602вЂ‘913	8 Г— 10	8 Г— 300	2 Г— 2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1500	6SE01 . 0вЂ‘1C . 41вЂ‘5 . A7	2T . AвЂ‘ . 7602вЂ‘915	8 Г— 10	8 Г— 300	2 Г— 2 Г— M12	2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1100	6SE01 . 0вЂ‘1C . 41вЂ‘7 . A7	2T . AвЂ‘ . 7602вЂ‘917	8 Г— 10	8 Г— 300	2 Г— 2 Г— M12	²⁾	²⁾	²⁾	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1900	6SE01 . 0вЂ‘1C . 42вЂ‘0 . A7	2T . AвЂ‘ . 7602вЂ‘919	8 Г— 10	8 Г— 300	2 Г— 2 Г— M12	²⁾	²⁾	²⁾	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
SINAMICS G180 cabinet units 690 V 12-pulse, air-cooled and liquid-cooled (2 Г— 400 to 600¹⁾/690 V 3 AC IT system, 50 to 60 Hz)
250	6SE01 . 0вЂ‘2BH33вЂ‘2 . A7	2T . FвЂ‘ . 7601вЂ‘250				2 Г— 2.5	2 Г— 150	1 Г— M6	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
315	6SE01 . 0вЂ‘2BH33вЂ‘6 . A7	2T . FвЂ‘ . 7601вЂ‘315				2 Г— 6	2 Г— 185	1 Г— M10	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
400	6SE01 . 0вЂ‘2BH34вЂ‘2 . A7	2T . FвЂ‘ . 7601вЂ‘400				2 Г— 6	2 Г— 185	1 Г— M10	1 Г— 10 2 Г— 150	1 Г— 300 2 Г— 300	1 Г— M12
500	6SE01 . 0вЂ‘2BH35вЂ‘2 . A7	2T . FвЂ‘ . 7601вЂ‘500				2 Г— 6	2 Г— 300	1 Г— M10	3 Г— 10 6 Г— 150	3 Г— 300 6 Г— 300	3 Г— M12
560	6SE01 . 0вЂ‘2BH35вЂ‘7 . A7	2T . FвЂ‘ . 7601вЂ‘560				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
630	6SE01 . 0вЂ‘2BH36вЂ‘4 . A7	2T . FвЂ‘ . 7601вЂ‘630				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
710	6SE01 . 0вЂ‘2BH37вЂ‘1 . A7	2T . FвЂ‘ . 7601вЂ‘710				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
800	6SE01 . 0вЂ‘2BH37вЂ‘7 . A7	2T . FвЂ‘ . 7601вЂ‘800				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
900	6SE01 . 0вЂ‘2BH41вЂ‘0 . A7	2T . FвЂ‘ . 7601вЂ‘909				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
1000	6SE01 . 0вЂ‘2BH41вЂ‘1 . A7	2T . FвЂ‘ . 7601вЂ‘910				2 Г— 6	2 Г— 300	1 Г— M10	4 Г— 10 8 Г— 150	4 Г— 300 8 Г— 300	4 Г— M12
1200	6SE01 . 0вЂ‘2CH41вЂ‘2 . A7	2T . FвЂ‘ . 7602вЂ‘912				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1300	6SE01 . 0вЂ‘2CH41вЂ‘3 . A7	2T . FвЂ‘ . 7602вЂ‘913				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1500	6SE01 . 0вЂ‘2CH41вЂ‘5 . A7	2T . FвЂ‘ . 7602вЂ‘915				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1100	6SE01 . 0вЂ‘2CH41вЂ‘7 . A7	2T . FвЂ‘ . 7602вЂ‘917				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1900	6SE01 . 0вЂ‘2CH42вЂ‘0 . A7	2T . FвЂ‘ . 7602вЂ‘919				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
2000	6SE01 . 0вЂ‘2DH42вЂ‘2 . A7	2T . FвЂ‘ . 7603вЂ‘920				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	12 Г— 10 24 Г— 150	12 Г— 120 24 Г— 300	3 Г— 4 Г— M12
2300	6SE01 . 0вЂ‘2DH42вЂ‘4 . A7	2T . FвЂ‘ . 7603вЂ‘923				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	12 Г— 10 24 Г— 150	12 Г— 120 24 Г— 300	3 Г— 4 Г— M12
2600	6SE01 . 0вЂ‘2DH42вЂ‘7 . A7	2T . FвЂ‘ . 7603вЂ‘926				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	12 Г— 10 24 Г— 150	12 Г— 120 24 Г— 300	3 Г— 4 Г— M12
2900	6SE01 . 0вЂ‘2DH43вЂ‘0 . A7	2T . FвЂ‘ . 7603вЂ‘929				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	12 Г— 10 24 Г— 150	12 Г— 120 24 Г— 300	3 Г— 4 Г— M12
3100	6SE01 . 0вЂ‘2EH43вЂ‘2 . A7	2T . FвЂ‘ . 7604вЂ‘931				²⁾	²⁾	²⁾	16 Г— 10 32 Г— 150	16 Г— 120 32 Г— 300	4 Г— 4 Г— M12
3500	6SE01 . 0вЂ‘2EH43вЂ‘6 . A7	2T . FвЂ‘ . 7604вЂ‘935				²⁾	²⁾	²⁾	16 Г— 10 32 Г— 150	16 Г— 120 32 Г— 300	4 Г— 4 Г— M12
3900	6SE01 . 0вЂ‘2EH44вЂ‘0 . A7	2T . FвЂ‘ . 7604вЂ‘939				²⁾	²⁾	²⁾	16 Г— 10 32 Г— 150	16 Г— 120 32 Г— 300	4 Г— 4 Г— M12
SINAMICS G180 cabinet units 690 V 18-pulse, air-cooled and liquid-cooled (3 Г— 400 to 600¹⁾/690 V 3 AC IT system, 50 to 60 Hz)
2000	6SE01 . 0вЂ‘3DH42вЂ‘2 . A7	2T . KвЂ‘ . 7603вЂ‘920				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	12 Г— 10 24 Г— 150	12 Г— 120 24 Г— 300	3 Г— 4 Г— M12
2300	6SE01 . 0вЂ‘3DH42вЂ‘4 . A7	2T . KвЂ‘ . 7603вЂ‘923				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	12 Г— 10 24 Г— 150	12 Г— 120 24 Г— 300	3 Г— 4 Г— M12
2600	6SE01 . 0вЂ‘3DH42вЂ‘7 . A7	2T . KвЂ‘ . 7603вЂ‘926				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	12 Г— 10 24 Г— 150	12 Г— 120 24 Г— 300	3 Г— 4 Г— M12
2900	6SE01 . 0вЂ‘3DH43вЂ‘0 . A7	2T . KвЂ‘ . 7603вЂ‘929				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	12 Г— 10 24 Г— 150	12 Г— 120 24 Г— 300	3 Г— 4 Г— M12
4100	6SE01 . 0вЂ‘3HH44вЂ‘3 . A7	2T . KвЂ‘ . 7606вЂ‘941				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	24 Г— 10 48 Г— 150	24 Г— 300 48 Г— 300	6 Г— 4 Г— M12
4100	6SE01 . 0вЂ‘3HH44вЂ‘8 . A7	2T . KвЂ‘ . 7606вЂ‘947				²⁾	²⁾	²⁾	24 Г— 10 48 Г— 150	24 Г— 300 48 Г— 300	6 Г— 4 Г— M12
5300	6SE01 . 0вЂ‘3HH45вЂ‘4 . A7	2T . KвЂ‘ . 7606вЂ‘953				²⁾	²⁾	²⁾	24 Г— 10 48 Г— 150	24 Г— 300 48 Г— 300	6 Г— 4 Г— M12
5800	6SE01 . 0вЂ‘3HH46вЂ‘0 . A7	2T . KвЂ‘ . 7606вЂ‘958				²⁾	²⁾	²⁾	24 Г— 10 48 Г— 150	24 Г— 300 48 Г— 300	6 Г— 4 Г— M12
SINAMICS G180 cabinet units 690 V 24-pulse, air-cooled and liquid-cooled (4 Г— 400 to 600¹⁾/690 V 3 AC IT system, 50 to 60 Hz)
1200	6SE01 . 0вЂ‘4CH41вЂ‘2 . A7	2T . LвЂ‘ . 7602вЂ‘912				2 Г— 6	2 Г— 300	1 Г— M10	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1300	6SE01 . 0вЂ‘4CH41вЂ‘3 . A7	2T . LвЂ‘ . 7602вЂ‘913				2 Г— 6	2 Г— 300	1 Г— M10	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1500	6SE01 . 0вЂ‘4CH41вЂ‘5 . A7	2T . LвЂ‘ . 7602вЂ‘915				2 Г— 6	2 Г— 300	1 Г— M10	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1100	6SE01 . 0вЂ‘4CH41вЂ‘7 . A7	2T . LвЂ‘ . 7602вЂ‘917				2 Г— 6	2 Г— 300	1 Г— M10	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
1900	6SE01 . 0вЂ‘4CH42вЂ‘0 . A7	2T . LвЂ‘ . 7602вЂ‘919				2 Г— 6	2 Г— 300	1 Г— M10	8 Г— 10 16 Г— 150	8 Г— 300 16 Г— 300	2 Г— 4 Г— M12
3100	6SE01 . 0вЂ‘4EH43вЂ‘2 . A7	2T . LвЂ‘87604вЂ‘931				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	16 Г— 10 32 Г— 150	16 Г— 120 32 Г— 300	4 Г— 4 Г— M12
3500	6SE01 . 0вЂ‘4EH43вЂ‘6 . A7	2T . LвЂ‘87604вЂ‘935				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	16 Г— 10 32 Г— 150	16 Г— 120 32 Г— 300	4 Г— 4 Г— M12
3900	6SE01 . 0вЂ‘4EH44вЂ‘0 . A7	2T . LвЂ‘87604вЂ‘939				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	16 Г— 10 32 Г— 150	16 Г— 120 32 Г— 300	4 Г— 4 Г— M12
4100	6SE01 . 0вЂ‘4HH44вЂ‘3 . A7	2T . LвЂ‘87606вЂ‘941				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	24 Г— 10 48 Г— 150	24 Г— 300 48 Г— 300	6 Г— 4 Г— M12
4100	6SE01 . 0вЂ‘4HH44вЂ‘8 . A7	2T . LвЂ‘87606вЂ‘947				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	24 Г— 10 48 Г— 150	24 Г— 300 48 Г— 300	6 Г— 4 Г— M12
5300	6SE01 . 0вЂ‘4HH45вЂ‘4 . A7	2T . LвЂ‘87606вЂ‘953				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	24 Г— 10 48 Г— 150	24 Г— 300 48 Г— 300	6 Г— 4 Г— M12
5800	6SE01 . 0вЂ‘4HH46вЂ‘0 . A7	2T . LвЂ‘87606вЂ‘958				2 Г— 10 4 Г— 120	2 Г— 300 4 Г— 300	2 Г— M12	24 Г— 10 48 Г— 150	24 Г— 300 48 Г— 300	6 Г— 4 Г— M12

¹⁾ With an NRTL unit ("U" in 14th position of article number), the voltage range ends at max. 600 V, otherwise at 690 V.

²⁾ On request.

Note:
Device cable lugs must be used to connect cables to the main switch or circuit breaker. These cable lugs are narrower, for example, than DIN cable lugs. The lugs are not normally supplied with the converter since they are generally provided by the cable installer.
It is generally possible to request a customized line connection or motor connection, see "Engineer To Order – ETO" under "Option descriptions". Please ask your Siemens contact person for further details.

Converter connection for different pulse numbers

Pulse number	Line connection on converter
6	Three phases
12	Two transformer secondary systems, each with three phases, i.e. six phases in total. Both systems must be phase offset by 30° in each case, e.g. using the transformer vector group Dy5d6. Important: Does not apply to 400 V units owing to the shift transformer solution - the line connection for these units is made with three phases.
18	Three transformer secondary systems, each with three phases, i.e. nine phases in total. The three systems must be phase offset by 20° in each case, e.g. using the transformer vector group Dy0y+20y-20.
24	Four transformer secondary systems, each with three phases, i.e. twelve phases in total. The four systems must be phase offset by 15° in each case, e.g. by two transformers with vector groups Dy5,25d6,25 and Dy4,75d5,75.

Required cable cross-sections for line and motor connections

In order to ensure compliance with the EMC Directive, it is generally recommended that shielded cables or cables with a concentric PE conductor of type NYCWY are used to make the cable connections from the mains supply to the converter and from the converter to the motor.

Where possible, symmetrical 3-wire three-phase power cables should be installed between the converter and the motor on drives in the higher power range. It may be necessary to connect several of these cables in parallel. There are basically two reasons for this recommendation:

This is the only way in which the high IP55 degree of protection can be achieved for the motor terminal box without problems, because the cables enter the terminal box via glands and the number of possible glands is limited by the geometry of the terminal box. Therefore single cables are less suitable.
With symmetrical 3-wire three-phase cables, the summed ampere-turns over the cable outer diameter are equal to zero. They can be routed in conductive, metal cable ducts or racks without any significant currents (ground currents or leakage currents) being induced in these conductive metal connections. The danger of induced leakage currents and thus of increased cable sheath losses is significantly higher with single-wire cables.

Dimensioning of connecting cable between mains supply and converter:

The voltage load on the cable should equal at least V₀/V = 0.6/1 kV.
Current load:
- The cable cross-section must be dimensioned in accordance with the valid standards, e.g. IEC 60364вЂ‘5вЂ‘52.
- The mains cable is dimensioned according to the converter input current (specified on the type plate).
Precaution against injury due to indirect contact:
- An overcurrent protective device with additional equipotential bonding at the motor protects against injury caused by indirect contact.
A neutral conductor is not required.

Dimensioning of connecting cable between converter and motor:

The voltage load on the cable should equal at least V₀/V = 0.6/1 kV.
Current load:
- The cable cross-section must be dimensioned in accordance with the valid standards, e.g. IEC 60364вЂ‘5вЂ‘52.
- The motor cable is dimensioned according to the converter output current (specified on the type plate).

The required cable cross-section depends on the amperage which flows through the cable. The permissible current loading of cables is defined, for example, in IEC 60364вЂ‘5вЂ‘52. It depends on ambient conditions, such as temperature, but also on the routing method. An important factor to consider is whether cables are routed singly and are therefore relatively well ventilated, or whether groups of cables are routed together. In the latter instance, the cables are not ventilated so well and might therefore heat one another to a greater degree. For the relevant correction factors applicable to these boundary conditions, please refer to IEC 60364вЂ‘5вЂ‘52. The table below provides a guide to the recommended cross-sections (based on IEC 60364вЂ‘5вЂ‘52) for PVC-insulated, 3-wire copper and aluminum cables, a permissible conductor temperature of 70 °C (e.g. Protodur NYY or NYCWY) and an ambient temperature of 40 °C.

Current-carrying capacity according to IEC 60364вЂ‘5вЂ‘52 at 40 °C

Cross-section 3-wire cable	3-wire copper cable		3-wire aluminum cable
	Single routing	Groups of cables routed in parallel¹⁾	Single routing	Groups of cables routed in parallel¹⁾
mmІ	A	A	A	A
3 Г— 2.5	22	17	17	13
3 Г— 4.0	30	23	23	18
3 Г— 6.0	37	29	29	22
3 Г— 10	52	41	40	31
3 Г— 16	70	54	53	41
3 Г— 25	88	69	68	53
3 Г— 35	110	86	84	65
3 Г— 50	133	104	102	79
3 Г— 70	171	133	131	102
3 Г— 95	207	162	159	124
3 Г— 120	240	187	184	144
3 Г— 150	278	216	213	166
3 Г— 185	317	247	244	190
3 Г— 240	374	292	287	224
3 Г— 300	432	337	331	259

¹⁾ Maximum 9 cables may be routed horizontally in direct contact with one another on a cable rack (reduction factor 0.68).

With higher amperages, cables must be connected in parallel.

Note:
The recommendations for the North American market in AWG or MCM must be taken from the appropriate NEC (National Electrical Code) and/or CEC (Canadian Electrical Code) standards.

Grounding and PE conductor cross-section

The PE conductor must be dimensioned to meet the following requirements:

In the case of a ground fault, no impermissibly high contact voltages resulting from voltage drops on the PE conductor caused by the ground fault current may occur (< 50 V AC or < 120 V DC, IEC 61800вЂ‘5вЂ‘1, IEC 60364, IEC 60543).
The PE conductor should not be excessively loaded by any ground fault current it carries.
If it is possible for continuous currents to flow through the PE conductor when a fault occurs, the PE conductor cross-section must be dimensioned for this continuous current.
The PE conductor cross-section should be selected according to IEC 60204вЂ‘1, IEC 60439вЂ‘1, IEC 60364.

Cross-section of the phase conductor	Minimum cross-section of external PE conductor
mm²	mm²
в‰¤ 16	Minimum phase conductor cross-section
16 ... 35	16
в‰Ґ 35	Minimum half the phase conductor cross-section

Note:
The recommendations for the North American market in AWG or MCM must be taken from the appropriate NEC (National Electrical Code) and/or CEC (Canadian Electrical Code) standards.

Switchgear and motors are usually grounded separately via separate local ground connections. When this grounding arrangement is used, the current caused by a ground fault flows through the parallel ground connections and is divided. Despite the use of the relatively small PE conductor cross-sections specified in the table above, no impermissible contact voltages can develop with this grounding system. Based on experience with different grounding configurations, however, we recommend that the ground wire from the motor should be routed directly back to the converter. For EMC reasons and to prevent bearing currents, symmetrical 3-wire, three-phase cables should be used where possible instead of 4-wire cables, especially on drives in the higher power range. The protective or PE conductor must be routed separately when 3-wire cables are used or must be arranged symmetrically in the motor cable. The symmetry of the PE conductor is achieved using a conductor surrounding all phase conductors or using a cable with a symmetrical arrangement of the three phase conductors and three ground conductors.
Through their high-speed controllers, the converters limit the load current (motor and ground fault currents) to an rms value corresponding to the rated current. We therefore recommend the use of a PE conductor cross-section analogous to the phase conductor cross-section for grounding the control cabinet.

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Бесконтактные выключатели Конечные выключатели Оптические датчики Энкодеры

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SKW-FS - Установка умягчения

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SKW-FK - Установка обезжелезивания