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PC724V0NIPXF
Sharp Microelectronics
OPTOISOLATR 5KV TRANSISTOR 6-SMD
2245 Pcs New Original In Stock
Optoisolator Transistor Output 5000Vrms 1 Channel 6-SMD
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*Quantity
Minimum 1
Minimum 1
5.0 / 5.0
- (448 Ratings)
PC724V0NIPXF
Product Overview
7923770
DiGi Electronics Part Number
PC724V0NIPXF-DGManufacturer
Sharp Microelectronics
PC724V0NIPXF
Description
OPTOISOLATR 5KV TRANSISTOR 6-SMDInventory
2245 Pcs New Original In Stock
Optoisolator Transistor Output 5000Vrms 1 Channel 6-SMD
Quantity
Minimum 1
Minimum 1
Purchase and inquiry
Warranty & Returns
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PC724V0NIPXF Technical Specifications
Category
Optoisolators, Transistor, Photovoltaic Output Optoisolators
Packaging
-
Series
-
Product Status
Obsolete
Number of Channels
1
Voltage - Isolation
5000Vrms
Current Transfer Ratio (Min)
20% @ 100mA
Current Transfer Ratio (Max)
80% @ 100mA
Turn On / Turn Off Time (Typ)
-
Rise / Fall Time (Typ)
4µs, 3µs
Input Type
DC
Output Type
Transistor
Voltage - Output (Max)
35V
Current - Output / Channel
80mA
Voltage - Forward (Vf) (Typ)
1.4V
Current - DC Forward (If) (Max)
150 mA
Vce Saturation (Max)
200mV
Operating Temperature
-25°C ~ 100°C
Mounting Type
Surface Mount
Package / Case
6-SMD, Gull Wing
Supplier Device Package
6-SMD
Datasheet & Documents
HTML Datasheet
PC724V0NIPXF-DG
Environmental & Export Classification
Moisture Sensitivity Level (MSL)
1 (Unlimited)
ECCN
EAR99
HTSUS
8541.49.8000
Additional Information
Other Names
425-2158-2
425-2158-1
425-2158-6
Standard Package
1,000
Alternative Parts
PART NUMBER
MANUFACTURER
QUANTITY AVAILABLE
DiGi PART NUMBER
UNIT PRICE
SUBSTITUTE TYPE
Reviews
5.0/5.0-(Show up to 5 Ratings)
December 02, 2025
검색 기능이 강력해서 필요할 때 바로 찾을 수 있었고, 필터도 편리했어요.
December 02, 2025
믿고 구매할 수 있는 브랜드입니다. 품질과 서비스 모두 최고입니다.
December 02, 2025
梱包が丁寧で、商品が安全に届く点がとても気に入っています。
December 02, 2025
The overall quality of DiGi Electronics' products sets them apart.
December 02, 2025
Their products are budget-friendly, and their sustainable packaging is a big plus.
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Frequently Asked Questions (FAQ)
Is the PC724V0NIPXF still a viable choice for new designs given its obsolete status, and what are the key risks of using it in a production design-in?
The PC724V0NIPXF is marked as obsolete by Sharp Microelectronics, meaning it is no longer recommended for new designs and may face future supply discontinuation. While 2,185 pieces are currently in stock, relying on this inventory for long-term production poses significant supply chain risks, including sudden stockouts and lack of manufacturer support. For new designs, it's strongly advised to transition to one of its active substitutes like the CNY17F-2SMT&R or MOC8104SM, which offer similar 5kV isolation and SMD packaging with ongoing availability and full technical support. If you must use the PC724V0NIPXF for legacy compatibility, secure a lifetime buy and validate second-source compatibility early to mitigate obsolescence risk.
How does the PC724V0NIPXF compare to the MOC8104SM in terms of real-world reliability and performance in industrial control applications?
While both the PC724V0NIPXF and MOC8104SM provide 5kVrms isolation and transistor outputs in 6-SMD packages, the MOC8104SM is an active, modern alternative with better-characterized long-term reliability data and improved CTR stability over temperature and lifetime. The PC724V0NIPXF has a wider CTR range (20–80% @ 100mA), which can lead to inconsistent switching behavior in high-reliability systems if not accounted for in design margins. In contrast, the MOC8104SM offers tighter parametric control and is qualified for industrial temperature ranges with better moisture resistance. For new industrial designs, the MOC8104SM is a more robust choice due to its active status, predictable aging characteristics, and broader manufacturer support.
Can the PC724V0NIPXF safely replace a CNY17F-3X007T in an existing surface-mount PCB layout without redesigning the footprint?
The PC724V0NIPXF and CNY17F-3X007T both use a 6-SMD gull-wing package with similar pinouts (pin 1: anode, pin 2: cathode, pin 4: collector, pin 5: emitter), making them mechanically compatible in many cases. However, you must verify pad spacing and thermal profile compatibility—especially since the PC724V0NIPXF has a higher maximum forward current (150mA vs. 60mA for the CNY17F-3X007T). Additionally, the PC724V0NIPXF’s CTR is specified at 100mA, whereas the CNY17F-3X007T is rated at 5mA, so input drive circuitry may need adjustment to ensure adequate output saturation. Always perform a drop-in test under full load conditions and validate signal integrity before committing to the substitution.
What are the thermal and layout considerations when using the PC724V0NIPXF in a high-density SMD board with limited airflow?
The PC724V0NIPXF operates from -25°C to 100°C, but its performance degrades at elevated temperatures—CTR can drop significantly near the upper limit, risking failure to switch under load. In high-density layouts, ensure adequate clearance around the device to avoid thermal coupling from adjacent components. Although it has an MSL 1 rating (unlimited floor life), prolonged exposure to high ambient temperatures can accelerate LED degradation inside the optocoupler. Use thermal vias under the package if board temperatures exceed 70°C, and avoid placing heat-generating components (e.g., regulators, power MOSFETs) within 5mm. Always derate the forward current by at least 20% in enclosed or high-temperature environments to extend operational life.
How should I handle input drive circuit design for the PC724V0NIPXF to ensure reliable switching while minimizing power consumption in battery-powered systems?
The PC724V0NIPXF has a typical forward voltage of 1.4V and can handle up to 150mA, but operating near maximum current reduces LED lifespan and increases power draw. For battery-powered applications, use a series resistor to limit If to 5–10mA—this is sufficient to achieve reliable switching given the 20% minimum CTR (yielding 1–2mA output at 100mA load). Implement a current-limiting driver or PWM-controlled input to further reduce average power. Avoid overdriving the LED; excessive current accelerates degradation and offers diminishing returns in CTR. Always validate turn-on/off timing (4µs rise, 3µs fall) under your actual load conditions, as capacitive loads or long traces can distort switching behavior despite the fast response specs.
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.
PC724V0NIPXF CAD Models
Sharp Microelectronics PC724V0NIPXF PCB symbols & footprints
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