Технически документи
Спецификации
Brand
VishayDirection Type
Bi-Directional
Diode Configuration
Single
Maximum Clamping Voltage
9.2V
Minimum Breakdown Voltage
6.4V
Mounting Type
Surface Mount
Package Type
DO-214AA (SMB)
Maximum Reverse Stand-off Voltage
5V
Pin Count
2
Peak Pulse Power Dissipation
600W
Maximum Peak Pulse Current
65.2A
Number of Elements per Chip
1
Minimum Operating Temperature
-55 °C
Dimensions
4.57 x 3.94 x 2.24mm
Maximum Operating Temperature
+150 °C
Maximum Reverse Leakage Current
1.6mA
Height
2.24mm
Test Current
10mA
Length
4.57mm
Width
3.94mm
Детайли за продукта
TRANSZORB® Transient Voltage Suppressors SMT Bidirectional 600W, Vishay Semiconductor
Low profile DO-214AA (SMBJ) package
Excellent clamping capability
Very fast response time
Low resistance with incremental surge
Transient Voltage Suppressors, Vishay Semiconductor
Информацията за складовите наличности временно не е налична.
Моля, проверете отново по-късно.
€ 0,379
Each (In a Pack of 5) (ex VAT)
5
€ 0,379
Each (In a Pack of 5) (ex VAT)
5
Купете в насипно състояние
количество | Единична цена | Per Опаковка |
---|---|---|
5 - 45 | € 0,379 | € 1,90 |
50 - 245 | € 0,299 | € 1,50 |
250 - 495 | € 0,246 | € 1,23 |
500 - 1245 | € 0,189 | € 0,95 |
1250+ | € 0,171 | € 0,85 |
Технически документи
Спецификации
Brand
VishayDirection Type
Bi-Directional
Diode Configuration
Single
Maximum Clamping Voltage
9.2V
Minimum Breakdown Voltage
6.4V
Mounting Type
Surface Mount
Package Type
DO-214AA (SMB)
Maximum Reverse Stand-off Voltage
5V
Pin Count
2
Peak Pulse Power Dissipation
600W
Maximum Peak Pulse Current
65.2A
Number of Elements per Chip
1
Minimum Operating Temperature
-55 °C
Dimensions
4.57 x 3.94 x 2.24mm
Maximum Operating Temperature
+150 °C
Maximum Reverse Leakage Current
1.6mA
Height
2.24mm
Test Current
10mA
Length
4.57mm
Width
3.94mm
Детайли за продукта
TRANSZORB® Transient Voltage Suppressors SMT Bidirectional 600W, Vishay Semiconductor
Low profile DO-214AA (SMBJ) package
Excellent clamping capability
Very fast response time
Low resistance with incremental surge