Tehnička dokumentacija
Tehnički podaci
Brand
LittelfusePeak On-State Voltage
4V
Maximum Holding Current
50mA
Surge Current Rating
0.8A
Repetitive Peak Reverse Voltage
6V
Repetitive Peak Forward Blocking Voltage
6V
Mounting Type
Surface Mount
Package Type
DO-214AA (SMB)
Pin Count
2
Repetitive Peak Off-State Current
0.005mA
Dimensions
4.6 x 3.95 x 2.45mm
Length
4.6mm
Width
3.95mm
Minimum Operating Temperature
-40 °C
Maximum Operating Temperature
+150 °C
Height
2.45mm
Detalji o proizvodu
SIDACtor® Protection Thyristors MC Series
The MC Series DO-214 are low capacitance SIDACtor® devices designed to protect broadband equipment such as VOIP, DSL modems and DSLAMs from damaging overvoltage transients.
Transient Voltage Suppressors, Littelfuse
RSD 2.129
RSD 212,935 komadno (u pakovanju od 10) (bez PDV-a)
RSD 2.555
RSD 255,522 komadno (u pakovanju od 10) (s PDV-om)
Standard
10
RSD 2.129
RSD 212,935 komadno (u pakovanju od 10) (bez PDV-a)
RSD 2.555
RSD 255,522 komadno (u pakovanju od 10) (s PDV-om)
Informacije o stanju skladišta trenutno nisu dostupne.
Standard
10
Informacije o stanju skladišta trenutno nisu dostupne.
količina | Jedinična cena | Po pakovanje |
---|---|---|
10 - 90 | RSD 212,935 | RSD 2.129 |
100 - 490 | RSD 164,60 | RSD 1.646 |
500 - 990 | RSD 152,843 | RSD 1.528 |
1000 - 9990 | RSD 120,184 | RSD 1.202 |
10000+ | RSD 109,733 | RSD 1.097 |
Tehnička dokumentacija
Tehnički podaci
Brand
LittelfusePeak On-State Voltage
4V
Maximum Holding Current
50mA
Surge Current Rating
0.8A
Repetitive Peak Reverse Voltage
6V
Repetitive Peak Forward Blocking Voltage
6V
Mounting Type
Surface Mount
Package Type
DO-214AA (SMB)
Pin Count
2
Repetitive Peak Off-State Current
0.005mA
Dimensions
4.6 x 3.95 x 2.45mm
Length
4.6mm
Width
3.95mm
Minimum Operating Temperature
-40 °C
Maximum Operating Temperature
+150 °C
Height
2.45mm
Detalji o proizvodu
SIDACtor® Protection Thyristors MC Series
The MC Series DO-214 are low capacitance SIDACtor® devices designed to protect broadband equipment such as VOIP, DSL modems and DSLAMs from damaging overvoltage transients.