Delta Electronics IPM24S0B0 manual Features Descriptions, Remote On/Off, Over-Current Protection

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DESIGN CONSIDERATIONS

Remote On/Off

The IPM series power modules have an On/Off control pin for output voltage remote On/Off operation. The On/Off pin is an open collector/drain logic input signal that is referenced to ground. When On/Off control pin is not used, leave the pin unconnected.

The remote on/off pin is internally connected to +5Vdc through an internal pull-up resistor. Figure 27 shows the circuit configuration for applying the remote on/off pin. The module will execute a soft start ON when the transistor Q1 is in the off state.

The typical rise for this remote on/off pin at the output voltage of 2.5V and 5.0V are shown in Figure 17 and 18.

Vin

Vo

IPM

 

On/Off

RL

 

Q1

 

GND

 

Figure 27: Remote on/off implementation

DS_IPM24S0B0_03202007

FEATURES DESCRIPTIONS

Over-Current Protection

To provide protection in an output over load fault condition, the unit is equipped with internal over-current protection. When the over-current protection is triggered, the unit enters hiccup mode. The units operate normally once the fault condition is removed.

Output Voltage Programming

The output voltage shall be externally adjustable by use of a Trim pin. The module output shall be adjusted by either a voltage source referenced to ground or an external resistor be connected between trim pin and Vo or ground. To trim-down using an external resistor, connect a resistor between the Trim and Vo pin of the module. To trim-up using an external resistor, connect a resistor between the Trim and ground pin of the module. The value of resistor is defined below. The module outputs shall not be adversely affected (regulation and operation) when the Trim pin is left open.

Trim up

(Vout-0.7)*1.43

 

Rtrim =

(KΩ)

Vadj-Vout

 

 

Trim Down

(Vadj-0.7)*5.36

 

Rtrim =

(KΩ)

Vout-Vadj

 

 

Rtrim is the external resistor in KΩ

Vout is the desired output voltage

IPM can also be programmed by applying a voltage between the TRIM and GND pins (Figure 30). The following equation can be used to determine the value of

Vtrim needed for a desired output voltage Vo:

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Contents 11V~36V input, 3.3~6.5V and 3A Output Technical Specifications Parameter IPM24S0B0R/S03FAElectrical Characteristics Curves Efficiency%Output ripple & noise at 12Vin, 4.0V/3A out Power off waveform 12vin,6.5V/3A out with application of Vin Turn on delay at 24vin, 3.3V/3A out with application of Vin Input Source Impedance Test ConfigurationsDesign Considerations Features Descriptions Remote On/OffOver-Current Protection Output Voltage ProgrammingFeatures Descriptions CON Voltage MarginingThermal Testing Setup Thermal ConsiderationsThermal Curves Pick and Place Location Lead Free Process Recommend TEMP. ProfileMechanical Drawing Part Numbering System Model List

IPM24S0B0 specifications

Delta Electronics has emerged as a key player in the field of power management and thermal solutions, and its IPM24S0B0 is an exemplary product demonstrating their commitment to innovation and efficiency. The IPM24S0B0 is an intelligent power module (IPM) that is designed for use in various applications, including motor drives, UPS systems, and renewable energy solutions.

One of the main features of the IPM24S0B0 is its compact size, which makes it suitable for space-constrained applications. The integrated design combines the main components needed for power conversion in a single package, significantly reducing the footprint required on the printed circuit board (PCB). This modular design not only simplifies the circuitry but also enhances the overall reliability by minimizing interconnections.

The IPM24S0B0 utilizes cutting-edge technology, such as IGBT (Insulated Gate Bipolar Transistor) switching devices and built-in gate drivers, offering improved performance and lower switching losses. This translates to higher efficiency in various applications, which is essential in modern energy-conscious designs. The module is designed to operate efficiently at high frequencies, making it suitable for high-performance applications where speed and reliability are paramount.

Another significant characteristic of the IPM24S0B0 is its robust thermal management capabilities. The module features advanced thermal dissipation technologies, allowing it to maintain optimal operating temperatures even under heavy loads. This aspect of the design ensures prolonged component life and enhances system reliability, reducing the need for frequent maintenance or replacement.

The IPM24S0B0 also showcases excellent protection features, including short-circuit protection, over-temperature protection, and fault signaling mechanisms. These safety features are crucial for preventing damage in demanding industrial applications, where unexpected conditions can lead to severe malfunctions.

In addition, the module is designed to be compatible with various control schemes, making it versatile for use in different applications, from industrial automation to renewable energy systems. The IPM24S0B0 is part of Delta's broader commitment to sustainable technology, as it promotes energy efficiency and reduces total system costs.

In conclusion, the Delta Electronics IPM24S0B0 stands out in the crowded market of power modules as a high-performance, reliable, and efficient solution for modern power management needs. Its compact design, advanced technologies, and robust performance characteristics make it an ideal choice for engineers and designers looking to deliver cutting-edge solutions in their respective fields.