The FDC6323L is an integrated circuit (IC) manufactured by AMI Semiconductor / ON Semiconductor, categorized as a PMIC (Power Management Integrated Circuit) - Power Distribution Switch and Load Driver. This device is designed to address various design challenges, including power distribution and load control in a wide range of applications.
The FDC6323L features a high-side power switch configuration, with a P-channel output type and a general-purpose switch design. It operates within a supply voltage range of 1.5V to 8V and can handle load voltages from 3V to 8V, making it suitable for a variety of electronic systems.
Key specifications of the FDC6323L include an operating temperature range of -55°C to 150°C (TJ), a maximum output current of 1.5A, and a non-inverting input type with an On/Off interface. The device is RoHS compliant and has a Moisture Sensitivity Level (MSL) of 1, indicating unlimited shelf life.
The primary advantages of the FDC6323L include its ability to provide efficient power distribution and load control, its wide operating voltage range, and its robust temperature performance, making it suitable for use in a variety of applications. The device is compatible with various electronic systems and can be used in power management, load switching, and control applications.
Regarding equivalent or alternative models, the FDC6323L has the following comparable devices:
1. FDC6321LCT-ND: This is a similar device from the same manufacturer, with slightly different specifications, such as a lower maximum output current of 1A.
2. FDC6324LCT-ND: Another comparable model from the same manufacturer, with a higher maximum output current of 2A.
3. NCP379ST06T1G: A comparable device from ON Semiconductor, with similar specifications and functionality.
4. AP2303GV-7: A power distribution switch from Diodes Incorporated, with comparable features and performance.
These equivalent models may provide users with additional options to consider based on their specific power management requirements and application needs.
FDC6323L Key Technical Attributes
Manufacturer Part Number: FDC6323L
Manufacturer: AMI Semiconductor / ON Semiconductor
Main Category: Integrated Circuits (ICs)
FDC6323L Packing Size
Type: SuperSOT-6
Material: Metal, Silicon
Size: SOT23-6
Pin Configuration: 6 Pins
Thermal Characteristics: Operating Temperature -55°C ~ 150°C (TJ)
Electrical Properties: Voltage - Supply (Vcc/Vdd) 1.5 V ~ 8 V, Voltage - Load 3 V ~ 8 V
FDC6323L Application
Primarily used in PMIC - Power Distribution Switches, Load Drivers
FDC6323L Features
The FDC6323L is a Load Driver, specifically a high-side P-channel switch designed for general-purpose applications. It operates from a supply voltage ranging from 1.5V to 8V, supporting load voltages of 3V to 8V. This switch features a non-inverting On/Off interface with an output current capacity of up to 1.5A, which is substantial for various power distribution needs. It also has a max of one output and uses a non-inverting input type for simpler logical control.
FDC6323L Quality and Safety Features
The device is compliant with RoHS and is lead-free, indicating a high standard of material safety and environmental consideration. It also comes with a Moisture Sensitivity Level (MSL) of 1, suggesting that it has an unlimited shelf life under normal environmental conditions.
FDC6323L Compatibility
Structured to work universally with PMIC-driven applications that require load drivers for effective power distribution.
FDC6323L Datasheet PDF
For the most authoritative and detailed specification and application guide, please download the datasheet of FDC6323L available on our website. It provides in-depth information essential for proper utilization and application of the product.
Quality Distributor
IC-Components is a premium distributor of AMI Semiconductor / ON Semiconductor products and is proud to supply the FDC6323L model. For reliable, authentic components, and competitive pricing, get a quote directly through our website today. Take advantage of our excellent customer service and support throughout your buying process.
