Tehniskie dokumenti
Specifikācija
Brand
Phoenix ContactPluggable Terminal Block Type
Plug
Number Of Contacts
9
Pitch
3.5mm
Series
MC 1.5/9-ST-3.5
Number Of Rows
1
Body Orientation
Straight
Mounting Type
Cable Mount
Termination Method
Screw
Current Rating
8A
Voltage Rating
320 V
Colour
Green
Material
Polyamide
Produkta apraksts
Phoenix Contact MINI COMBICON MC 3.5mm Terminal Block Plug Connectors
The 1840379 from Phoenix Contact is a brilliant and well-known PCB terminal block. It comes from Phoenix's brilliant range of 'MINI COMBICON MC' connectors and has a 3.5mm pitch, 0.14 – 1.5mm2 screw connection and horizontal wire entry. This PCB terminal block is massively versatile and allows connection of many products due to is worldwide known connection method and features a minimal temperature rise thank to its maximum contact force.
Phoenix Contact MINI COMBICON 3.5mm Two Part Terminal Blocks
€ 11,00
€ 11,00 Katrs (bez PVN)
€ 13,31
€ 13,31 Katrs (Ieskaitot PVN)
1
€ 11,00
€ 11,00 Katrs (bez PVN)
€ 13,31
€ 13,31 Katrs (Ieskaitot PVN)
1
Noliktavas stāvoklis patreiz nav pieejams
Lūdzu pārbaudiet vēlreiz vēlāk
Daudzums | Vienības cena |
---|---|
1 - 9 | € 11,00 |
10 - 24 | € 9,90 |
25 - 49 | € 8,90 |
50 - 99 | € 8,00 |
100+ | € 7,20 |
Tehniskie dokumenti
Specifikācija
Brand
Phoenix ContactPluggable Terminal Block Type
Plug
Number Of Contacts
9
Pitch
3.5mm
Series
MC 1.5/9-ST-3.5
Number Of Rows
1
Body Orientation
Straight
Mounting Type
Cable Mount
Termination Method
Screw
Current Rating
8A
Voltage Rating
320 V
Colour
Green
Material
Polyamide
Produkta apraksts
Phoenix Contact MINI COMBICON MC 3.5mm Terminal Block Plug Connectors
The 1840379 from Phoenix Contact is a brilliant and well-known PCB terminal block. It comes from Phoenix's brilliant range of 'MINI COMBICON MC' connectors and has a 3.5mm pitch, 0.14 – 1.5mm2 screw connection and horizontal wire entry. This PCB terminal block is massively versatile and allows connection of many products due to is worldwide known connection method and features a minimal temperature rise thank to its maximum contact force.