Overview
The Z0103NN0,135 is a thyristor (SCR) module produced by WeEn Semiconductors. This component is designed for various industrial and electronic applications, offering enhanced performance and reliability. It is packaged in a SOT-223-3 format, making it suitable for a wide range of circuit designs.
Key Specifications
| Parameter | Value |
|---|---|
| Package Type | SOT-223-3 |
| Vdrm (V) | 600 |
| It(rms) (A) | 10 |
| Igt (mA) | 10 |
| Vgt (V) | 1.5 |
| dV/dt (V/μs) | 100 |
| Operating Temperature Range (°C) | -40 to 125 |
| RoHS Compliance | Yes |
Key Features
- Direct interfacing to logic level ICs
- Enhanced current surge capability
- Enhanced noise immunity
- Compact SOT-223-3 package for efficient space usage
- High reliability and durability
Applications
The Z0103NN0,135 thyristor module is suitable for a variety of applications including power control, motor control, lighting systems, and industrial automation. It can be used in circuits requiring high current handling and noise immunity.
Q & A
- What is the package type of the Z0103NN0,135? The package type is SOT-223-3.
- What is the maximum Vdrm for the Z0103NN0,135? The maximum Vdrm is 600 V.
- What is the RMS current rating for the Z0103NN0,135? The RMS current rating is 10 A.
- What is the gate trigger current (Igt) for the Z0103NN0,135? The gate trigger current is 10 mA.
- What is the gate trigger voltage (Vgt) for the Z0103NN0,135? The gate trigger voltage is 1.5 V.
- Is the Z0103NN0,135 RoHS compliant? Yes, it is RoHS compliant.
- What is the operating temperature range for the Z0103NN0,135? The operating temperature range is -40°C to 125°C.
- What are some key features of the Z0103NN0,135? Key features include direct interfacing to logic level ICs, enhanced current surge capability, and enhanced noise immunity.
- Where can the Z0103NN0,135 be used? It can be used in power control, motor control, lighting systems, and industrial automation.
- Why is the SOT-223-3 package beneficial? The SOT-223-3 package is beneficial due to its compact size, which allows for efficient space usage in circuit designs.
