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Combine the Speed of an Analog Controller with the Flexibility of a Digital Microcontroller


Digitally Enhanced Power Analog (DEPA) controllers contain analog control loops with digital oversight using analog references, amplifiers and Pulse-Width Modulation (PWM) generators to regulate an output, while configuring, monitoring, measuring and dynamically adjusting that performance with an embedded microcontroller (MCU). This allows the system to report telemetry, make operating adjustments on the fly and respond to faults with customized, application-specific code. Without this added integration, flexible robust designs could require separate chips to regulate the output, adjust the regulator operation, measure the results, and communicate the information outside the system. DEPA controllers make it easy to create compact, efficient and flexible power supplies.

Power designers get the elegance and performance of an analog PWM controller with the customizability of a digital microcontroller (MCU). DEPA products maintain the fast, efficient analog feedback loop and incorporate an 8-bit PIC® microcontroller. This offers configurability, including the ability to measure and respond to the environment with tailored algorithms, as well as a communication interface for control or diagnostic functions. DEPA products offer more flexibility than any other analog control architecture on the market today. The single-chip solution accepts a high-voltage input (up to 42V) and regulates a wide output current or voltage range (0.3V to 16V without any external components or drivers, for the MCP19123). They offer the tight regulation levels, fast transient responses, high gain and phase margins required in server or telecommunications operation with the robustness and operating ranges required for automotive applications. They add dynamic operational changes, measurements, and diagnostic reporting capabilities to any application.

DEPA Technology Lets You Easily:


  • Measure the environment: Including input voltage, output voltage, current, temperature, external reference or control signals
  • Respond to the environment: Dynamically adjust output voltages, currents, limit conditions; or signaling other devices
  • Intelligently handle problems: Customize fault, brownout, over- and under-voltage responses to create predictable system behavior
  • Manage system power: Sequence start and shutdown throughout a board for robust operation across all operating conditions
  • Communicate: Using dedicated output pins or digital interfaces, with standard or proprietary messaging schemes
Digitally-Enhanced-Power-Analog-(DEPA)-Hybrid-Controllers

Key Applications


  • AC-DC converters
  • Automotive
  • Battery management
  • Consumer and portable electronics
  • DC-AC inverters
  • Embedded and Point-of-Load Conversion
  • Energy storage
  • Lighting
  • Merchant power supplies

MCP19116/7

Industry-leading current regulation accuracy for LED or similar system needs

MC19124/5

Able to dynamically switch between constant-voltage and constant-current regulation

MCP19122/3

Emulated-average current mode control, perfect for buck topology control

MCP19214/5

Dual control loops, for bidirectional or independent outputs

Design Resources


MPLAB® Analog Designer

Provides design suggestions for common circuit needs, estimates performance for common modifications, and can export to MPLAB® Mindi™ Analog Simulator for verification.

 

MPLAB® Mindi™ Analog Simulator

Uses a SIMetrix/SIMPLIS environment to model circuit behavior, reducing design time with software debugging for initial design verification.

Power Check Design Service

Provides advice on your exact physical circuit layout, sharing best practices from an experienced power supply designer so that physical hardware will match simulations.

Hybrid Controllers


View All Parametrics
Product Status Automotive Recommended 5K Pricing Topology Min. Operation Voltage (V) Max. Operation Voltage (V) Drive Strength (A) Program Memory Type Program Memory Size (KWords) RAM (bytes) Package Size (mm) No of Outputs Switching Frequency Min (khz) Switching Frequency Max (khz) Number of I/O GPIO Max A/D Resolution (bits) Temp. Range Min. Temp. Range Max. Packages
MCP19122 In Production $2.98 Buck 4.5 40 2 Flash 4.0 256 4x4 1 100 1600 12 10 -40 125 24/QFN
MCP19214 In Production $3.43 Boost,Flyback,Cuk,SEPIC 4.5 42 1 Flash 8.0 336 5x5 2 31 2000 8 10 -40 125 28/QFN
MCP19110 In Production Yes $2.64 Buck 4.5 32 4 Flash 4.0 256 4x4 1 100 1600 11 10 -40 125 24/QFN
MCP19111 In Production Yes $2.81 Buck 4.5 32 4 Flash 4.0 256 5x5 1 100 1600 15 10 -40 125 28/QFN
MCP19114 In Production Yes $2.78 Boost,Flyback,Cuk,SEPIC 4.5 42 1 Flash 4.0 256 4x4 1 31 2000 8 10 -40 125 24/QFN, 28/QFN
MCP19115 In Production Yes $2.81 Boost,Flyback,Cuk,SEPIC 4.5 42 1 Flash 4.0 256 5x5 1 31 2000 12 10 -40 125 28/QFN
MCP19116 In Production Yes $2.87 Boost,Flyback,Cuk,SEPIC 4.5 42 1 Flash 8.0 336 4x4 1 31 2000 8 10 -40 125 24/QFN
MCP19117 In Production Yes $3.03 Boost,Flyback,Cuk,SEPIC 4.5 42 1 Flash 8.0 336 5x5 1 31 2000 12 10 -40 125 28/QFN
MCP19118 In Production Yes $2.92 Buck 4.5 40 4 Flash 4.0 256 4x4 1 100 1600 11 10 -40 125 24/QFN
MCP19119 In Production Yes $3.15 Buck 4.5 40 4 Flash 4.0 256 5x5 1 100 1600 14 10 -40 125 28/QFN
MCP19123 In Production Yes $3.20 Buck 4.5 40 2 Flash 4.0 256 5x5 1 100 1600 16 10 -40 125 28/QFN
MCP19124 In Production Yes $2.87 Boost,Flyback,Cuk,SEPIC 4.5 42 1 Flash 4.0 256 4x4 1 31 2000 8 10 -40 125 24/QFN
MCP19125 In Production Yes $3.03 Boost,Flyback,Cuk,SEPIC 4.5 42 1 Flash 4.0 256 5x5 1 31 2000 12 10 -40 125 28/QFN
MCP19215 In Production Yes $3.48 Boost,Flyback,Cuk,SEPIC 4.5 42 1 Flash 8.0 336 5x5 2 31 2000 12 10 -40 125 32/QFN