16SVPG270M Panasonic Capacitor Polarised (Other) In Stock
Panasonic 16SVPG270M is a 270 µF 16 V aluminum solid polymer electrolytic capacitor with an ultra-low 8 mΩ ESR (measured at 100 kHz–300 kHz) in a surface-mount chip package. Its conductive polymer dielectric provides long life and stable capacitance for DC-DC converter output filtering and power rail decoupling. RoHS and REACH compliant with worldwide availability.
- Manufacturer
- Panasonic
- Package
- Other
- Pin Count
- 2
- Lifecycle
- ACTIVE
- Datasheet
- 16SVPG270M Datasheet PDF
- Category
- Capacitor Polarised
- Temp Range
- -55.0°C to 105.0°C
- RoHS
- Compliant
- Lead Time
- 3–7 business days
- Shipping
- DHL Express · Worldwide
Key Features
- Ultra-low 8 mΩ ESR at 100 kHz–300 kHz for superior high-frequency ripple current filtering
- 270 µF solid aluminum polymer capacitor rated at 16 V for robust power rail decoupling
- Conductive solid polymer dielectric eliminating electrolyte dry-out for extended service life
- Compact chip SMT package (9.9 mm height) enabling low-profile power converter designs
- RoHS and REACH compliant solid polymer construction for global environmental compliance
Applications
The Panasonic 16SVPG270M is ideal for output capacitor banks in DC-DC buck converters, voltage regulator modules (VRMs), and point-of-load (POL) power supplies where ultra-low ESR minimizes output voltage ripple. Its 270 µF capacitance stabilizes power rails for FPGAs, processors, and DSPs operating from 12 V bus architectures stepped down to 1 V to 3.3 V core voltages. The solid polymer construction suits high-reliability server, networking, and industrial power management applications that demand long operational life.
Specifications
| Reach Compliance Code | Compliant |
| Factory Lead Time | 26Weeks |
| YTEOL | 7.45 |
| Additional Feature | ESR IS MEASURED AT 100KHZ-300KHZ |
| Capacitance | 270 µF |
| Capacitor Type | ALUMINUM ELECTROLYTIC CAPACITOR |
| Dielectric Material | ALUMINUM (SOLID POLYMER) |
| ESR | 8mΩ |
| Height | 9.9mm |
| Leakage Current | 0.864mA |
| Mounting Feature | SURFACE MOUNT |
| Negative Tolerance | 20% |
| Package Style | SMT |
| Packing Method | TR, EMBOSSED, 15 INCH |
| Polarity | POLARIZED |
| Positive Tolerance | 20% |
| Rated (DC) Voltage (URdc) | 16V |
| Ripple Current | 290mA |
| Surface Mount | YES |
| Tan Delta | 0.12 |
| Terminal Shape | FLAT |
| Package | Other |
Compliance & Regulatory
| RoHS Status | Compliant |
| Lead-Free | Yes (Pb-Free) |
| ECCN | EAR99 |
| Country of Origin | Japan |
Alternate & Equivalent Parts
Compatible alternatives and drop-in replacements for 16SVPG270M:
suggested
Frequently Asked Questions
How does the 8 mΩ ESR of the 16SVPG270M benefit DC-DC converter output filter designs?
With an ESR of only 8 mΩ measured at 100 kHz–300 kHz, the 16SVPG270M produces minimal resistive voltage drop under high ripple currents. A switching converter delivering 5 A of ripple current generates only 40 mV of ESR-induced output voltage noise, far below the 1% regulation tolerance of most processor core rails and enabling stable 270 µF output filtering with fewer parallel capacitors.
What reliability advantage does the solid polymer dielectric provide over standard liquid electrolytic capacitors in this 16 V 270 µF range?
Standard aluminum electrolytic capacitors use a liquid electrolyte that evaporates over time, causing ESR to rise and capacitance to drop particularly at elevated temperatures above 85°C. The 16SVPG270M uses a conductive solid polymer electrolyte that does not evaporate, maintaining ESR below 10 mΩ and capacitance within 80% of rated 270 µF for more than 2000 hours at 105°C, significantly extending service life in high-temperature power conversion applications.
What is the leakage current specification of the 16SVPG270M and how does it affect standby power budgets?
The 16SVPG270M specifies a maximum leakage current of 0.864 mA at 16 V rated voltage. In a 16 V standby rail this represents approximately 13.8 mW of static power consumption per capacitor, which must be budgeted in always-on power planes for server baseboard management controllers and industrial equipment where multiple capacitors appear in parallel on the same rail.
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