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SMBJ10A - 10V 600W ESD Suppressor TVS Diode 2Pin SMB DO-214AA

JD

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SKU:
273-SMBJ10A
MPN:
SMBJ10A
Quantity
Unit Price (ex. GST)
1 - 9
₹ 4.48
10 - 99
₹ 3.81
100 or above
₹ 3.14
  • 100% Original Products
  • GST Invoice
  • Earn 3% Cashback
₹5.29 inc. GST
₹4.48 ex. GST
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Technical Specifications

Brand:
JD
Case/Package:
SMB
Mount:
Surface Mount
Number of Pins:
2
Breakdown Voltage:
11.1 V
Clamping Voltage:
17 V
Composition:
Zener
ESD Protection:
Yes
Max Breakdown Voltage:
12.3 V
Max Operating Temperature:
150 C
Max Power Dissipation:
600 W
Max Reverse Leakage Current:
5 uA
Max Surge Current:
35.3 A
Min Breakdown Voltage:
11.1 V
Min Operating Temperature:
-65 C
Number of Channels:
1
Number of Elements:
1
Operating Supply Voltage:
10 V
Peak Pulse Current:
35.3 A
Peak Pulse Power:
600 W
Polarity:
Unidirectional
Reverse Breakdown Voltage:
11.1 V
Reverse Standoff Voltage:
10 V
Termination:
SMD/SMT
Voltage Rating (DC):
10 V

Warranty Information

All the products supplied by Evelta are genuine and original. We offer 14 days replacement warranty in case of manufacturing defects. For more details, please visit our cancellation and returns page.

Description

The SMBJ series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events.

Use in sensitive electronics protection against voltage transients induced by inductive load switching and lighting on ICs, MOSFET, signal lines of sensor units for consumer, computer, industrial, and telecommunication. TVS components are ideal for the protection of I/O interfaces, VCC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications.

Key Features
  • Low profile package
  • Ideal for automated placement
  • Glass passivated chip junction
  • Excellent clamping capability
  • Very fast response time
  • Low incremental surge resistance
  • Low incremental surge resistance
  • Typical failure mode is short from over-specified voltage or current
  • Low inductance
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