Allicdata Part #: | 497-5575-5-ND |
Manufacturer Part#: |
VIPER12ADIP-E |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | STMicroelectronics |
Short Description: | IC OFFLINE SWIT PWM SMPS CM 8DIP |
More Detail: | Converter Offline 60kHz 8-DIP |
DataSheet: | VIPER12ADIP-E Datasheet/PDF |
Quantity: | 20 |
Series: | VIPER™ |
Packaging: | Tube |
Part Status: | Active |
Output Isolation: | Non-Isolated |
Internal Switch(s): | Yes |
Voltage - Breakdown: | 730V |
Topology: | -- |
Voltage - Start Up: | 14.5V |
Voltage - Supply (Vcc/Vdd): | 9 V ~ 38 V |
Duty Cycle: | -- |
Frequency - Switching: | 60kHz |
Power (Watts): | 13W |
Fault Protection: | Current Limiting, Over Temperature, Over Voltage |
Control Features: | -- |
Operating Temperature: | -40°C ~ 150°C (TC) |
Package / Case: | 8-DIP (0.300", 7.62mm) |
Supplier Device Package: | 8-DIP |
Mounting Type: | Through Hole |
Base Part Number: | VIPER12 |
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PMIC - AC DC converters, offline switchers, encapsulated VIPER12ADIP-E represents integrated power conversion systems that are designed to provide a wide range of applications. They have been designed to transform the energy from an AC (alternating current) source into a direct current (DC) and vice versa. The IP core of the VIPER12ADIP-E is based on an advanced non-orthogonal transformer topology for converting DC/DC, AC/DC, and AC/AC power.
This type of power conversion system has a high efficiency, high speed response system, and a low start-up current. Its high efficiency is achieved by using power MOSFETs in the primary winding for optimized current transfers and by using a unique non-decoupling / orthogonal transformer geometry that eliminates losses from circulation and offsets the capacitive coupling.
The VIPER12ADIP-E power conversion system has an improved design to declare high efficiency, a low start-up current, and a wide range of application. It can be used in various applications such as motor drives, industrial digital control, DC/DC converters, and lighting controls. The main features of the VIPER12ADIP-E are its integrated transformer design, power MOSFETs on the primary winding, and non-orthogonal topology in its core.
The working principle of the VIPER12ADIP-E power conversion system is based on the switching of the primary MOSFETs. The working principle of this system involves the transformation of the alternating current from the input to a stable direct current at the output. The switching of the primary MOSFETs has the effect of driving the non-decoupling transformer. This is done by the application of a voltage in the DC part of the secondary winding. Consequently, an AC voltage is induced in the AC part of the secondary winding which undergoes rectification and filtering to produce a stable, regulated output DC voltage at the output.
The DC/DC conversion mode of the VIPER12ADIP-E is based on the non-containment transformer switched topology. This topology is based on three main stages: a transformer, a rectifier, and an inverter. The transformer is responsible for the transformation of the AC voltage from the input to a direct current at the output. The rectifier is used to convert the direct current to a pulsed multilayer output, while the inverter has the function of switching the multilayer output to a stable DC voltage at the output.
The VIPER12ADIP-E consists of an advanced non-orthogonal transformer structure that is capable of providing an excellent dynamic response, fast transient response, low start-up current, and low noise operation. The unique and advanced non-orthogonal transformer topology makes this power conversion system ideal for applications that require high performance, high efficiency, and small size. Its design is based on the switching of the primary MOSFETs and this has the effect of driving the non-decoupling transformer. The DC/DC conversion mode of the VIPER12ADIP-E is based on a non-containment transformer switched topology.
The VIPER12ADIP-E power conversion system is designed to provide both efficiency and a wide range of applications. It is designed with a non-orthogonal transformer topology that eliminates losses from circulation and offsets capacitive coupling. It is also integrated with MOSFETs in the primary winding for optimized current transfers that result in higher efficiency. Additionally, its integrated transformer design also results in a high speed response system, a low start-up current, and a wide range of application.
The specific data is subject to PDF, and the above content is for reference
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