Home > Catalogue > Power Management > Power Management ICs (PMICs)> SANKEN ELECTRIC

Power Management ICs (PMICs)

Results:
Power Management ICs (PMICs) Results:
Filter Results: -1/5
Comprehensive
Price Priority
Stock Priority
Image
Part Number
Manufacturer
Description
Availability
Unit Price
Quantity
Operation
STR-Y6765
SANKEN ELECTRIC
Off-Line Quasi-Resonant Switching Regulator
Quantity: 171
Ship Date: 7-12 working days
1+ $2.613
10+ $1.6038
50+ $1.3241
100+ $1.256
- +
x $2.613
Ext. Price: $2.61
MOQ: 1
Mult: 1
SPQ: 1
SSC2101S-TL
SANKEN ELECTRIC
IC PFC CTRLR DCM 8SOP
Quantity: 288
Ship Date: 7-12 working days
1+ $2.431
10+ $1.4839
25+ $1.3004
100+ $1.1592
250+ $1.0919
- +
x $2.431
Ext. Price: $2.43
MOQ: 1
Mult: 1
SPQ: 1
SSC2005SC
SANKEN ELECTRIC
10.5V 13.5V SOIC-8 SMD mount,glue mount
Quantity: 2068
Ship Date: 7-12 working days
1+ $1.612
10+ $1.1726
25+ $0.8817
100+ $0.7512
250+ $0.7045
500+ $0.6764
1000+ $0.6532
- +
x $1.612
Ext. Price: $1.61
MOQ: 1
Mult: 1
SPQ: 1
SSC2001S-TL
SANKEN ELECTRIC
15V SOP-8 SMD mount,glue mount
Quantity: 420
Ship Date: 7-12 working days
1+ $2.145
10+ $1.3025
25+ $1.1394
100+ $1.0133
250+ $0.9532
- +
x $2.145
Ext. Price: $2.14
MOQ: 1
Mult: 1
SPQ: 1
STR-Y6766A
SANKEN ELECTRIC
IC OFFLINE SW FLYBACK TO220F-7
Quantity: 0
Ship Date: 7-12 working days
300+ $2.4775
- +
x $2.4775
Ext. Price: $743.25
MOQ: 300
Mult: 300
SPQ: 1

Power Management ICs (PMICs)

Power Management Integrated Circuits (PMICs) are specialized semiconductor devices designed to regulate and manage the power supply within electronic systems. They ensure that the various components receive the correct voltage and current levels required for their operation, thereby enhancing efficiency, reliability, and longevity.

Definition:
A Power Management IC (PMIC) is an integrated circuit that controls the power supply to different parts of an electronic device. It includes features like voltage regulation, current limiting, and power sequencing.

Functions:
1. Voltage Regulation: Converts and stabilizes input voltage to the required levels for different components.
2. Current Limiting: Protects circuits from damage by limiting the current flow.
3. Power Sequencing: Ensures that components are powered on and off in the correct order.
4. Battery Management: Monitors and controls battery charging, discharging, and health.
5. Energy Efficiency: Implements power-saving modes to reduce energy consumption.

Applications:
PMICs are used in a wide range of devices, including:
1. Mobile Phones: Manage battery charging and power distribution to various components.
2. Laptops and Tablets: Control power to the CPU, display, and peripherals.
3. Automotive Systems: Manage power for engine control units, infotainment systems, and lighting.
4. IoT Devices: Power management for sensors, microcontrollers, and communication modules.

Selection Criteria:
When choosing a PMIC, consider the following:
1. Input Voltage Range: Must match the power source.
2. Output Voltage and Current Requirements: Must meet the specifications of the device components.
3. Efficiency: High efficiency reduces power loss and heat generation.
4. Integration Level: More integrated PMICs can reduce the number of external components.
5. Protection Features: Over-voltage, over-current, and short-circuit protection are essential.
6. Size and Form Factor: Should fit within the device's physical constraints.
7. Cost: Balancing performance with budgetary constraints.

In summary, PMICs are crucial for maintaining the stability and efficiency of electronic devices, and their selection should be based on a thorough understanding of the device's power requirements and constraints.
Please refer to the product rule book for details.