Details
BUY L6207D https://www.utsource.net/itm/p/908105.html
DMOS DUAL FULL BRIDGE DRIVER WITH PWM CURRENT CONTROLLER
| Parameter | Symbol | Conditions | Min | Typical | Max | Unit |
|---|---|---|---|---|---|---|
| Supply Voltage | VCC | Continuous Operation | 4.5 | - | 30 | V |
| Supply Current | ICC | No Load, VCC = 12V | - | 10 | - | mA |
| Maximum Output Current | IOUT | Continuous, TA = 25°C | - | - | 3 | A |
| Peak Output Current | IOUT(PK) | TA = 25°C | - | - | 5 | A |
| Thermal Shutdown Temperature | TSD | - | 150 | - | 170 | °C |
| Operating Temperature Range | TA | - | -40 | - | 125 | °C |
| Storage Temperature Range | TSTG | - | -65 | - | 150 | °C |
| Junction-to-Ambient Thermal Resistance | RθJA | - | - | 40 | - | °C/W |
Instructions for Using L6207D
Supply Voltage:
- Ensure the supply voltage (VCC) is within the range of 4.5V to 30V. Operating outside this range can damage the device.
Supply Current:
- The typical supply current (ICC) is 10mA when no load is present and VCC is 12V. This value can vary depending on the load and supply voltage.
Output Current:
- The maximum continuous output current (IOUT) is 3A at an ambient temperature (TA) of 25°C. The peak output current (IOUT(PK)) can reach up to 5A under the same conditions.
- Ensure adequate heat dissipation to avoid exceeding these limits, especially at higher temperatures.
Thermal Shutdown:
- The device will automatically shut down if the junction temperature exceeds 150°C and will resume operation once the temperature drops below 170°C. This feature protects the device from overheating.
Operating Temperature:
- The operating temperature range (TA) is from -40°C to 125°C. Ensure the device operates within this range to maintain reliable performance.
Storage Temperature:
- Store the device in an environment where the temperature ranges from -65°C to 150°C to prevent damage during storage.
Thermal Resistance:
- The junction-to-ambient thermal resistance (RθJA) is typically 40°C/W. Use a heatsink or other cooling methods to manage heat dissipation effectively, especially when operating at high currents or in high-temperature environments.
Circuit Design:
- Ensure proper decoupling capacitors are placed close to the power supply pins to filter out noise and stabilize the supply voltage.
- Use appropriate PCB layout techniques to minimize inductance and ensure good thermal management.
Safety Precautions:
- Always follow standard safety guidelines when handling electronic components to avoid electrical shock and damage to the device.
- Use protective equipment such as gloves and safety glasses when soldering or handling the device.
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