Technical Document
Specifications
Brand
PanasonicCapacitance
2200µF
Voltage
50V dc
Mounting Type
Radial, Through Hole
Technology
Aluminium Electrolytic
Dimensions
16 (Dia.) x 31.5mm
Height
31.5mm
Minimum Operating Temperature
-40°C
Diameter
16mm
Maximum Operating Temperature
+85°C
Lead Pitch
7.5mm
Lifetime
2000h
Tolerance
±20%
Series
M-A
Ripple Current
1.3A
Leakage Current
3 μA
Polarised
Polar
Product details
M Series
Panasonic M Series Type A electrolytic capacitors feature excellent endurance of 2000 hours at +85°C.
Smaller than SU series
High reliability
High ripple current
Low impedance
Long life
Fully sleeved
Applications
Panasonic M Series Type A electrolytic capacitors are suitable for use in general purpose applications and in industrial instruments due to their high reliability.
€ 74.75
€ 2.99 Each (Supplied in a Bag) (Exc. VAT)
€ 88.21
€ 3.528 Each (Supplied in a Bag) (inc. VAT)
Production pack (Bag)
25
€ 74.75
€ 2.99 Each (Supplied in a Bag) (Exc. VAT)
€ 88.21
€ 3.528 Each (Supplied in a Bag) (inc. VAT)
Production pack (Bag)
25
Stock information temporarily unavailable.
Please check again later.
Quantity | Unit price | Per Bag |
---|---|---|
25 - 45 | € 2.99 | € 14.95 |
50 - 95 | € 2.84 | € 14.20 |
100 - 245 | € 2.68 | € 13.40 |
250+ | € 2.46 | € 12.30 |
Technical Document
Specifications
Brand
PanasonicCapacitance
2200µF
Voltage
50V dc
Mounting Type
Radial, Through Hole
Technology
Aluminium Electrolytic
Dimensions
16 (Dia.) x 31.5mm
Height
31.5mm
Minimum Operating Temperature
-40°C
Diameter
16mm
Maximum Operating Temperature
+85°C
Lead Pitch
7.5mm
Lifetime
2000h
Tolerance
±20%
Series
M-A
Ripple Current
1.3A
Leakage Current
3 μA
Polarised
Polar
Product details
M Series
Panasonic M Series Type A electrolytic capacitors feature excellent endurance of 2000 hours at +85°C.
Smaller than SU series
High reliability
High ripple current
Low impedance
Long life
Fully sleeved
Applications
Panasonic M Series Type A electrolytic capacitors are suitable for use in general purpose applications and in industrial instruments due to their high reliability.