Overview
The PEMH11,315 is a 50 V, 100 mA NPN/NPN resistor-equipped double transistor produced by Nexperia USA Inc. This component is designed to simplify circuit design and reduce the overall component count in electronic systems. It features built-in bias resistors, which are typically 10 kΩ each, making it a versatile and efficient solution for various applications.
Key Specifications
| Parameter | Conditions | Min | Max | Unit |
|---|---|---|---|---|
| VCBO (Collector-Base Voltage) | Open Emitter | - | 50 | V |
| VCEO (Collector-Emitter Voltage) | Open Base | - | 50 | V |
| VEBO (Emitter-Base Voltage) | Open Collector | - | 10 | V |
| VI (Input Voltage) | Positive | - | 40 | V |
| IO (Output Current) | - | - | 100 | mA |
| Ptot (Total Power Dissipation) per transistor | Tamb ≤ 25 °C | - | 200 | mW |
| Ptot (Total Power Dissipation) per device | Tamb = 25 °C | - | 300 | mW |
| Tj (Junction Temperature) | - | - | 150 | °C |
| Tamb (Ambient Temperature) | - | -65 | 150 | °C |
| Tstg (Storage Temperature) | - | -65 | 150 | °C |
| Rth(j-a) (Thermal Resistance from Junction to Ambient) per transistor | - | - | 625 | K/W |
| Rth(j-a) (Thermal Resistance from Junction to Ambient) per device | - | - | 417 | K/W |
Key Features
- 100 mA Output Current Capability: The PEMH11 can handle up to 100 mA of output current, making it suitable for a variety of applications.
- Built-in Bias Resistors: The component includes built-in bias resistors (typically 10 kΩ each), which simplifies circuit design and reduces the need for external components.
- Simplified Circuit Design: The integration of bias resistors within the transistor reduces the complexity of the circuit and the number of components required.
- Reduced Component Count and Pick-and-Place Operations: By combining multiple functions into a single package, the PEMH11 reduces the overall component count and the time spent on pick-and-place operations during manufacturing.
- Compliance with Environmental Regulations: The PEMH11 is compliant with EU RoHS, CN RoHS, and ELV directives, ensuring it meets environmental standards.
Applications
- Automotive Systems: The PEMH11 can be used in various automotive applications due to its robust specifications and compliance with automotive standards.
- Consumer Electronics: It is suitable for use in consumer electronics such as audio equipment, home appliances, and other electronic devices.
- Industrial Control Systems: The component can be used in industrial control systems, sensors, and other industrial applications where reliability and efficiency are crucial.
- Power Management: The PEMH11 can be utilized in power management circuits to control and regulate power flow efficiently.
Q & A
- What is the maximum collector-base voltage of the PEMH11?
The maximum collector-base voltage (VCBO) is 50 V.
- What is the output current capability of the PEMH11?
The PEMH11 can handle up to 100 mA of output current.
- What are the built-in bias resistors values in the PEMH11?
The built-in bias resistors are typically 10 kΩ each.
- What is the recommended soldering method for the PEMH11?
Reflow soldering is the only recommended soldering method.
- Is the PEMH11 compliant with environmental regulations?
Yes, it is compliant with EU RoHS, CN RoHS, and ELV directives.
- What is the maximum junction temperature of the PEMH11?
The maximum junction temperature (Tj) is 150 °C.
- What is the thermal resistance from junction to ambient for the PEMH11?
The thermal resistance from junction to ambient (Rth(j-a)) is up to 625 K/W per transistor and up to 417 K/W per device.
- Can the PEMH11 be used in automotive applications?
Yes, it is suitable for use in various automotive applications due to its robust specifications and compliance with automotive standards.
- What is the storage temperature range for the PEMH11?
The storage temperature range (Tstg) is from -65 °C to 150 °C.
- What package type does the PEMH11 come in?
The PEMH11 comes in the SOT666 package.
