Τεχνικό φυλλάδιο
Προδιαγραφές
Brand
VishayCapacitance
330nF
Voltage
310V ac
Mounting Type
Through Hole
Tolerance
±20%
Series
MKP 339
Lead Pitch
15mm
Length
17.5mm
Depth
8.5mm
Height
15mm
Dimensions
17.5 x 8.5 x 15mm
Dielectric
Polypropylene
Terminal Type
Through Hole
Lead Diameter
0.8mm
Maximum Operating Temperature
+110°C
Minimum Operating Temperature
-55°C
Λεπτομέρειες Προϊόντος
Class X2 310V AC - MKP339 Series
From Vishay, the MKT339 series of film capacitors are constructed with metallised polypropylene film. Housed with a plastic case, these film capacitors are sealed with epoxy resin and are flame retardant.
Warning
Capacitors are designed for connecting directly across a mains supply but should NOT be used in positions where failure of a capacitor would expose anybody to electric shock.
Ημερομηνία αποθέματος προσωρινά μη διαθέσιμη
Παρακαλούμε ελέγξτε ξανά αργότερα.
€ 1,61
Μονάδας (Σε ένα πακέτο των 10) (Exc. Vat)Χωρίς Φ.Π.Α
€ 1,996
Μονάδας (Σε ένα πακέτο των 10) Με Φ.Π.Α
Standard
10
€ 1,61
Μονάδας (Σε ένα πακέτο των 10) (Exc. Vat)Χωρίς Φ.Π.Α
€ 1,996
Μονάδας (Σε ένα πακέτο των 10) Με Φ.Π.Α
Standard
10
Αγοράστε μαζικά
Quantity Ποσότητα | Τιμή μονάδας | Per Πακέτο |
---|---|---|
10 - 40 | € 1,61 | € 16,10 |
50 - 90 | € 1,39 | € 13,90 |
100 - 240 | € 1,26 | € 12,60 |
250 - 490 | € 0,96 | € 9,60 |
500+ | € 0,86 | € 8,60 |
Τεχνικό φυλλάδιο
Προδιαγραφές
Brand
VishayCapacitance
330nF
Voltage
310V ac
Mounting Type
Through Hole
Tolerance
±20%
Series
MKP 339
Lead Pitch
15mm
Length
17.5mm
Depth
8.5mm
Height
15mm
Dimensions
17.5 x 8.5 x 15mm
Dielectric
Polypropylene
Terminal Type
Through Hole
Lead Diameter
0.8mm
Maximum Operating Temperature
+110°C
Minimum Operating Temperature
-55°C
Λεπτομέρειες Προϊόντος
Class X2 310V AC - MKP339 Series
From Vishay, the MKT339 series of film capacitors are constructed with metallised polypropylene film. Housed with a plastic case, these film capacitors are sealed with epoxy resin and are flame retardant.
Warning
Capacitors are designed for connecting directly across a mains supply but should NOT be used in positions where failure of a capacitor would expose anybody to electric shock.