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PVN012PBF
Infineon Technologies
SSR RELAY SPST-NO 2.5A 0-20V
3406 Pcs New Original In Stock
Solid State SPST-NO (1 Form A) 6-DIP (0.300", 7.62mm)
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5.0 / 5.0
- (431 Ratings)
PVN012PBF
Product Overview
6969190
DiGi Electronics Part Number
PVN012PBF-DGManufacturer
Infineon Technologies
PVN012PBF
Description
SSR RELAY SPST-NO 2.5A 0-20VInventory
3406 Pcs New Original In Stock
Solid State SPST-NO (1 Form A) 6-DIP (0.300", 7.62mm)
Quantity
Minimum 1
Minimum 1
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PVN012PBF Technical Specifications
Category
Solid State Relays
Packaging
Tube
Series
PVN, HEXFET®
Product Status
Obsolete
Mounting Type
Through Hole
Circuit
SPST-NO (1 Form A)
Output Type
AC, DC
Voltage - Input
1.2VDC
Voltage - Load
0 V ~ 20 V
Load Current
2.5 A
On-State Resistance (Max)
100 mOhms
Termination Style
PC Pin
Package / Case
6-DIP (0.300", 7.62mm)
Supplier Device Package
6-DIP
Base Product Number
PVN012
Datasheet & Documents
HTML Datasheet
PVN012PBF-DG
Environmental & Export Classification
RoHS Status
ROHS3 Compliant
Moisture Sensitivity Level (MSL)
1 (Unlimited)
REACH Status
REACH Unaffected
ECCN
EAR99
HTSUS
8536.41.0030
Additional Information
Other Names
SP001546728
2166-PVN012PBF-448
Standard Package
50
Alternative Parts
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MANUFACTURER
QUANTITY AVAILABLE
DiGi PART NUMBER
UNIT PRICE
SUBSTITUTE TYPE
Reviews
5.0/5.0-(Show up to 5 Ratings)
Dec 02, 2025
디지의 제품은 품질이 뛰어나고 가격도 훌륭해서 계속 이용하고 있습니다.
Dec 02, 2025
Their after-sales team is friendly, knowledgeable, and always ready to help.
Dec 02, 2025
The platform's value proposition is impressive, offering quality electronics at competitive prices.
Dec 02, 2025
The online help section includes detailed troubleshooting steps, reducing the need for direct support.
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Frequently Asked Questions (FAQ)
Can the PVN012PBF be safely used as a drop-in replacement for the PVN012S-TPBF in a legacy through-hole PCB design, and what layout or thermal considerations should I account for given its obsolete status?
The PVN012PBF is electrically compatible with the PVN012S-TPBF and shares the same 6-DIP through-hole footprint, making it a viable mechanical and electrical drop-in replacement. However, because the PVN012PBF is now obsolete, long-term supply risk is high—consider qualifying the PVN012S-TPBF (the recommended active alternative) instead. Ensure your PCB layout provides adequate copper pour under the device for heat dissipation, especially if operating near the 2.5A load current, as the 100 mΩ on-state resistance can generate up to 0.625W of heat. Avoid placing thermally sensitive components nearby and verify junction temperature stays within limits under worst-case ambient conditions.
What are the key reliability risks when using the PVN012PBF in DC load switching applications above 12V, and how can I mitigate premature failure due to inductive kickback or arcing?
Although the PVN012PBF supports DC loads up to 20V, switching inductive DC loads (e.g., relays, motors) near this upper limit significantly increases stress on the internal HEXFET® output stage due to voltage spikes during turn-off. Without proper snubbing, repeated inductive kickback can degrade or rupture the MOSFET over time. To mitigate this, always include a flyback diode (e.g., 1N4007) across the load for unidirectional currents, or an RC snubber network for bidirectional protection. Also, derate the load current by at least 20% when operating above 12V DC to improve long-term reliability, especially in industrial environments.
How does the input drive requirement of the PVN012PBF (1.2VDC) impact microcontroller interfacing, and what happens if I drive it with a 3.3V GPIO without a current-limiting resistor?
The PVN012PBF’s input is designed for a low-voltage forward drive of 1.2VDC, typically drawing around 10–15mA. Driving it directly from a 3.3V microcontroller GPIO without a series resistor will expose the internal LED to overcurrent, potentially shortening its lifespan or causing immediate failure. Always use a current-limiting resistor—calculate it using R = (V_GPIO – V_F) / I_F; for 3.3V and 12mA, a 180Ω resistor is appropriate. This ensures reliable triggering while protecting both the MCU and the SSR input stage, especially in high-cycle applications.
Is the PVN012PBF suitable for switching AC loads at 20Vrms, and what zero-crossing behavior should I expect compared to opto-triac-based SSRs?
Yes, the PVN012PBF can switch AC loads up to 20Vrms, but it does not feature zero-crossing detection—unlike opto-triac SSRs such as the Crydom D2425. This means it can turn on at any point in the AC waveform, leading to higher inrush currents and electromagnetic interference (EMI) when switching inductive or capacitive loads. If your application involves sensitive electronics or requires low-noise switching (e.g., audio equipment, precision sensors), consider adding external snubbers or migrating to a zero-crossing SSR. For resistive AC loads under 20V, the PVN012PBF performs adequately but demands careful EMI management.
Given that the PVN012PBF is obsolete and RoHS3 compliant, what are the long-term sourcing and compliance risks for new product designs, and which active Infineon alternatives should I evaluate for future-proofing?
Using the obsolete PVN012PBF in new designs introduces significant supply chain risk—Infineon has discontinued it, and remaining stock may be counterfeit or degraded. Although it is RoHS3 compliant and REACH unaffected, future redesigns will require requalification. For new designs, evaluate the active PVN012S-TPBF (surface-mount equivalent) or consider modern alternatives like the Infineon TLE4241E (for low-side switching) or opt for digital power switches with integrated protection. Migrating early reduces lifecycle risk, simplifies procurement, and often improves performance with lower RDS(on) and better thermal characteristics.
Quality Assurance (QC)
DiGi ensures the quality and authenticity of every electronic component through professional inspections and batch sampling, guaranteeing reliable sourcing, stable performance, and compliance with technical specifications, helping customers reduce supply chain risks and confidently use components in production.
PVN012PBF CAD Models
Infineon Technologies PVN012PBF PCB symbols & footprints
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