Overview of MM5Z5V1ST1G by onsemi
MM5Z5V1ST1G is a 500 mW tight tolerance Zener Diode voltage regulator with a nominal voltage of 5.1 V, housed in a SOD-523 package. This component is designed for surface mount applications and features a compact 0.047 x 0.032 inch footprint with a height of only 0.028 inches. The diode offers a maximum operating temperature of 150°C and demonstrates compliance with RoHS standards, ensuring it meets contemporary environmental requirements. In terms of performance, the diode has a dynamic impedance maximum of 500 Ω, a knee impedance maximum of 60 Ω, and a maximum forward voltage of 0.9 V.
The MM5Z5V1ST1G operates with a maximum reverse current of 2 µA and a typical reverse test voltage of 2 V. Its power dissipation capability reaches up to 0.2 W, with a nominal reference voltage of 5.1 V. Moisture Sensitivity Level 1 indicates its robustness for various environmental conditions, minimizing the risk of moisture-induced damage during assembly with a peak reflow temperature tolerance of 260°C. This part more specifically reflects attributes suitable for precision voltage regulation tasks where stable and reliable performance is crucial.
Industry Applications for MM5Z5V1ST1G
Given its specifications, the MM5Z5V1ST1G could potentially serve a variety of industry applications where precise voltage regulation is required. The compact size and power capabilities of this Zener diode make it an ideal candidate for multiple fields:
- Consumer Electronics: This diode might be utilized in mobile devices or personal computers as part of power management systems to regulate voltage and protect sensitive components. Given its small profile and power dissipation characteristics, it could potentially be integrated into space-constrained designs.
- Electronic Manufacturing: In manufacturing settings, the MM5Z5V1ST1G might be applied in testing equipment or in the production of consumer electronics where stable operational parameters are crucial. Its ability to operate under extreme temperatures and compliance with moisture sensitivity standards makes it suitable for robust applications.
- Energy and Power Systems: For applications demanding high tolerance and efficiency, such as power supply units or renewable energy inverters, this diode could play a critical role in stabilizing the output and ensuring consistent performance under variable load conditions.
- Automotive: While specific automotive industry standards like AEC-Q100 are not mentioned, general applications within non-critical automotive electronics might still be conceivable. Its high temperature operational limit makes it a possible candidate for use in environments exposed to temperature fluctuations.
Note that these potential industry applications are only conceptual/illustrative and require analysis and verification by engineering and design teams for adherence to industry standards and specific application requirements.
About onsemi
onsemi is a prominent manufacturer of semiconductor solutions, including a wide range of diode technologies with a particular emphasis on application-specific standard products. Within the realm of diodes, onsemi offers a variety of Zener Diodes, among which MM5Z5V1ST1G is a specialized example. These parts are designed to meet diverse needs ranging from voltage regulation to signal modulation, showcasing onsemi’s commitment to providing robust components suitable for challenging electronic environments. The production standards and rigorous testing back the reliability and performance of their semiconductors, aligning with global environmental and operational specifications.
Where to Find MM5Z5V1ST1G by onsemi
To locate MM5Z5V1ST1G or explore alternative Zener Diodes, visiting findchips.com provides a comprehensive platform. This part has historically been available at several distributors including but not limited to Win Source Electronics, Master Electronics, and DigiKey. However, for current stock levels, pricing, and potential alternatives, using findchips.com will offer the most up-to-date and detailed information.