PESD5V0S1BA 5.5V SOD-323 TVS original authentic

RohsLead free / RoHS Compliant

Standard package 3,000

Voltage - Reverse Isolation (typ) 5V

- Breakdown voltage 5.5V

Power (Watts) 130W

Polarization Bidirectional

Mounting Type Surface Mount

Bag/Box SC-76, SOD-323

Supplier Device Package SOD-323

Packaging Tape & Reel (TR)

Type TVS

Number of pins 2

Direction Type Bi-Directional

Number of components per chip 1

ESD protection voltage 30@Contact Disc/10@HBM kV

Maximum working voltage 5 V

Maximum leakage current 0.1 uA

Capacitance value 45 pF

Minimum operating temperature -65 °C

Maximum operating temperature 150 °C

Install the Surface Mount

Package Tape & Reel (TR)

Voltage - Clamp (Max) @ IPP14V

Mounting Type Surface Mount

Number of bidirectional channels 1

Supplier Equipment Package SOD-323

Voltage - Breakdown (min) 5.5V

Voltage - reverse isolation (standard value) 5V (Max)

Application ScopeGeneral Purpose

Operating temperature -65°C ~ 150°C

Capacitance @ Frequency 35pF @ 1MHz

Standard package 3,000

Power cord protectionNo

Power - Peak Pulse 130W

Current - Peak Pulse (10/1000µs) 12A (8/20µs)

Package/Enclosure SC-76, SOD-323

RoHS Directive Lead free / RoHS Compliant

Other name568-4053-1

Polarity Bidirectional

Clamping voltage 10 V

Product CategoryTVS Diodes - Transient Voltage Suppressors

Dimensions 1.35 (Max) mm W x 1.8 (Max) mm L

Factory packing quantity 3000

Series PESD5V0S1BA

Termination Type SMD/SMT

Channel 1 Channel

Working voltage 5 V

Capacitance 35 pF

Breakdown voltage 9.5 V

RoHSRoHS Compliant

Package/Enclosure SOD-323

Peak surge current 12 A

Part Number Alias PESD5V0S1BA T/R

Peak pulse power dissipation 130 W

Arc hardeningNo

Mounting style Surface Mount

The maximum operating temperature is Celsius. 150C

Operating temperature sensitivity. -65C

Product length (mm) 1.8 mm

Product thickness (mm) 1.35 mm

Product height (mm) 1.05 mm

Suppressor Type TVS

Configure Single

Leakage current 0.1uA

Working voltage 5V

Leakage current (max) 0.1uA

Operating temperature range -65C to 150C

Number of components 1

Operating temperature classification Military

Reverse breakdown voltage 5.5 V

Peak pulse current 12 A

Reverse off-state voltage 5 V

Test current (It) 1 mA

Working voltage (max) 5V

Diode Type: Bidirectional TVS

Clamping Voltage Vc Max:14V

Diode Case Style: SOD-323

No. of Pins: 2

SVHC: No SVHC (20-Jun-2013)

Alternate Case Style: SC-76

Breakdown Voltage Max:9.5V

Breakdown Voltage Min: 5.5V

Breakdown Voltage Range:5.5V to 9.5V

Breakover Voltage Min: 5.5V

Capacitance Cd @ Vr Max: 45pF

Capacitance Cd @ Vr Typ: 35pF

Clamping Voltage @ 8/20μs Max:14V

Diode Configuration: Bidirectional

After Apple chose to settle with Qualcomm and paid at least $4.5 billion in damages, the patent lawsuit between Qualcomm and the FTC International Trade Commission ushered in a dramatic change. Judge Lucy Koh ruled that Qualcomm abused its market monopoly position and needed to re-open with customers. Negotiations, 5G authorization should also be opened to the outside world.

MediaTek laughed: Qualcomm was convicted of abusing the monopoly of 5G to be authorized externally

The decision by Judge Lucy Koh is an important benefit for companies other than Qualcomm. Once the result is officially established, who will be the biggest beneficiary? Apple is unlikely to renegotiate with Qualcomm, and the two sides did not wait until April. Announcing a worldwide settlement.

Foreign media reported that Qualcomm's loss in this patent battle will not affect manufacturers, including chip manufacturers and other manufacturers will not have any changes due to this judgment, while terminal product manufacturers, such as smartphone manufacturers, can renegotiate, less Pay royalties.

The one that benefits the most is MediaTek, because Lucy Koh also requires Qualcomm to license SEPs to rivals at fair, reasonable and non-discriminatory prices, which means that MediaTek can get Qualcomm's vital 5G technology, which is a big plus for them .

Of course, the above analysis is still on paper, because Judge Lucy Koh's judgment is not the final ruling of the FTC and Qualcomm lawsuits. After the judgment is issued, some analysts believe that it is unfair to Qualcomm, and there is a possibility of a comeback.