Low RDS(on), Low Gate Charge, and Fast Switching Performance for Space-Constrained Power Designs
Micro Commercial Components (MCC) introduces the SIL085N10YL-TP, a high-performance 100V N-Channel Small Signal MOSFET designed for efficient switching and compact power management applications. As modern electronic systems continue to shrink while demanding higher efficiency and improved switching performance, designers require MOSFET solutions that deliver low conduction losses, fast switching, and reliable operation within a compact footprint.
The SIL085N10YL-TP addresses these requirements by combining a low maximum RDS(on) of 85mΩ with a continuous drain current capability of up to 3.5A in a compact SOT23-6L package. Built on advanced Split Gate Trench (SGT) MOSFET technology, the device features a low gate charge of only 4nC and a low gate threshold voltage of 1.8V (typ), enabling efficient switching with reduced driver power requirements. These characteristics make it well suited for portable electronics, DC-DC converters, power management units, load switches, relay drivers, solenoid drivers, and compact motor control applications.
100V N-Channel Small Signal MOSFET
Features & Benefits:
- Low RDS(on): 85mΩ (max) at VGS = 10V minimizes conduction losses and improves overall power efficiency.
- Split Gate Trench (SGT) Technology: Enables low gate charge and reduced switching losses for high-efficiency operation.
- Low Gate Charge: 4nC gate charge reduces switching losses and lowers gate driver power consumption.
- Low Gate Threshold Voltage: Typical VGS(th) of 1.8V enables direct interfacing with low-voltage microcontrollers and logic circuits.
- High Junction Temperature: Supports operation up to 175°C for enhanced reliability in harsh environments.
- High Voltage Rating: 100V VDS provides sufficient design margin for inductive switching and transient protection.
- Compact Package: SOT23-6L package enables space-saving PCB layouts for compact electronic products.
- Continuous Drain Current: Supports up to 3.5A for low-to-mid power switching applications.
- RoHS Compliant: Meets environmental standards for green electronic product design.
Product Highlights
100V N-Channel Small Signal MOSFET
1
High-Voltage Switching in a Compact Package
The SIL085N10YL-TP combines a 100V drain-source voltage rating with a compact SOT23-6L package, making it ideal for space-constrained applications requiring higher voltage capability, such as industrial controls, telecom equipment, and portable power systems.
100V N-Channel Small Signal MOSFET
2
Low RDS(on) for Improved Efficiency
With a maximum RDS(on) of only 85mΩ, the device minimizes conduction losses during switching operation, improving overall system efficiency while reducing heat generation in low-to-medium power applications.
Low Gate Charge for Faster Switching
3
Fast Switching for High-Frequency Designs
Featuring a low total gate charge of just 4nC, the SIL085N10YL-TP reduces switching losses and gate driver power consumption, enabling efficient high-frequency operation in DC-DC converters and power management circuits.
100V N-Channel Small Signal MOSFET
4
Split Gate Trench Technology for Reliable Performance
Advanced Split Gate Trench (SGT) MOSFET technology optimizes both conduction and switching performance by lowering gate charge while maintaining low on-resistance. This enables improved efficiency, faster switching, and simplified drive requirements for modern power electronics.
Applications
|
|
|
|
|
Data Center and Networking Infrastructure
|
Energy & Power Management
|
Industrial Systems
|
|
|
|
|
|
|
|
|
Power Conversion
|
Consumer Electronics
|
Motor Control
|
|
|
|
Product Attributes, Parametrics & Datasheet
|
Product |
Type |
Package | Drain-Source Voltage VDS (V) |
Gate Threshold Voltage (typ) VGS(th) (V) | Continuous Drain Current ID @25°C (A) | Drain-Source On-Resistance RDS(ON) (Max) @VGS=10V (Ω) |
Datasheet |
| SIL085N10YL-TP | SOT23-6L |
100 |
1.8 |
3.5 |
0.085 |
Now available, purchase directly from MCC or through our authorized distributors.
For technical inquiries or sample requests, contact MCC for support.








