Overview
The NTJD4105CT1G is a small signal, complementary MOSFET array produced by onsemi. This component is designed for use in various electronic devices that require efficient switching and low power consumption. The MOSFET array is packaged in an SC-88 (SOT-363) package, making it suitable for space-constrained applications.
Key Specifications
Parameter | Value |
---|---|
VDS (Drain-Source Voltage) | 20 V / -8.0 V |
ID (Drain Current) | +0.63 A / -0.775 A |
RθJL (Junction-to-Lead Thermal Resistance) | 194 °C/W (Typical) |
Package | SC-88 (SOT-363) |
Operating Temperature Range | -55°C to 150°C |
Key Features
- Complementary MOSFET array for balanced performance.
- Low on-resistance for efficient switching.
- Compact SC-88 package suitable for space-constrained designs.
- High junction-to-lead thermal resistance for reliable operation.
- Wide operating temperature range from -55°C to 150°C.
Applications
- DC-DC conversion circuits.
- Load and power switching applications.
- Single or dual cell Li-Ion battery-supplied devices.
- Cell phones, MP3 players, digital cameras, and PDAs.
Q & A
- What is the maximum drain-source voltage of the NTJD4105CT1G?
The maximum drain-source voltage is 20 V / -8.0 V. - What is the typical drain current for this MOSFET array?
The typical drain current is +0.63 A / -0.775 A. - What package type is used for the NTJD4105CT1G?
The package type is SC-88 (SOT-363). - What are the typical applications of the NTJD4105CT1G?
Typical applications include DC-DC conversion, load and power switching, and devices powered by single or dual cell Li-Ion batteries such as cell phones, MP3 players, and digital cameras. - What is the operating temperature range of the NTJD4105CT1G?
The operating temperature range is from -55°C to 150°C. - What is the junction-to-lead thermal resistance of the NTJD4105CT1G?
The junction-to-lead thermal resistance is typically 194 °C/W. - Is the NTJD4105CT1G suitable for high-power applications?
No, it is designed for small signal and low power applications. - Where can I find detailed specifications for the NTJD4105CT1G?
Detailed specifications can be found in the datasheet available on the onsemi website or through distributors like Mouser and Avnet. - What are the benefits of using a complementary MOSFET array like the NTJD4105CT1G?
The benefits include balanced performance, low on-resistance, and compact packaging, making it ideal for space-constrained designs. - Can the NTJD4105CT1G be used in automotive applications?
While it can operate over a wide temperature range, it is generally not recommended for automotive applications due to its small signal and low power design.