Overview
The L6377D is a monolithic intelligent power switch designed by STMicroelectronics using multipower BCD technology. This device is capable of driving inductive, capacitive, or resistive loads, making it versatile for various applications. It features diagnostic capabilities for CPU feedback and extensive electrical protections, ensuring robust performance in general-purpose industrial settings.
Key Specifications
| Parameter | Value |
|---|---|
| Output Current | 0.5 A |
| Supply Voltage Range | 8 to 35 V |
| Current Limit | Externally Programmable |
| Over-Current Protection | Non-Dissipative |
| Thermal Shutdown | Yes |
| Package Type | SMD, SO14 |
| Operating Temperature Range | -25°C to 85°C |
Key Features
- High-side driver with 0.5 A output current
- Externally programmable current limit
- Non-dissipative over-current protection
- Thermal shutdown for overheating protection
- Diagnostic capabilities for CPU feedback
- Extensive electrical protections for robust performance
Applications
The L6377D is suitable for a variety of industrial applications, including but not limited to:
- Driving inductive, capacitive, or resistive loads
- General-purpose industrial control systems
- Motor control and PWM applications
- Power management in automotive and industrial systems
Q & A
- What is the output current of the L6377D?
The output current of the L6377D is 0.5 A. - What is the supply voltage range of the L6377D?
The supply voltage range is from 8 to 35 V. - Is the current limit of the L6377D programmable?
Yes, the current limit is externally programmable. - What type of over-current protection does the L6377D have?
The L6377D features non-dissipative over-current protection. - Does the L6377D have thermal shutdown protection?
Yes, it does have thermal shutdown protection. - What is the package type of the L6377D?
The package type is SMD, SO14. - What is the operating temperature range of the L6377D?
The operating temperature range is from -25°C to 85°C. - What are some common applications of the L6377D?
Common applications include driving inductive, capacitive, or resistive loads, general-purpose industrial control systems, motor control, and PWM applications. - What technology is used in the design of the L6377D?
The L6377D is designed using multipower BCD technology. - Does the L6377D have diagnostic capabilities?
Yes, it has diagnostic capabilities for CPU feedback.
