The UCD3138064ARGCR is a digital power supply controller from Texas Instruments offering superior levels of integration and performance in a single-chip solution. The flexible nature of the UCD3138064ARGCR makes it suitable for a wide variety of power conversion applications. In addition, multiple peripherals inside the device have been specifically optimized to enhance the performance of AC-DC and isolated DC-DC applications and reduce the solution component count in the IT and network infrastructure space.
The UCD3138064ARGCR controller is a fully programmable solution offering customers complete control of their application, along with ample ability to differentiate their solution. At the same time, TI is committed to simplifying our customers’ development effort by offering best-in-class development tools, including application firmware, Code Composer Studio software development environment, and TI’s power development GUI which lets customers configure and monitor key system parameters.
At the core of the UCD3138064ARGCR controller are the digital control loop peripherals, also known as Digital Power Peripherals (DPPs). Each DPP implements a high-speed digital control loop consisting of a dedicated Error Analog-to-Digital Converter (EADC), a PID-based 2-pole/2-zero digital compensator and DPWM outputs with 250-ps pulse width resolution. The device also contains a 12-bit, 267-ksps general-purpose ADC with up to 14 channels, timers, interrupt control, PMBus, and UART communications ports. The device is based on a 32-bit ARM7TDMI-S RISC microcontroller that performs real-time monitoring, configures peripherals, and manages communications. The ARM microcontroller executes its program out of programmable flash memory as well as on-chip RAM and ROM.
In addition to the FDPP, specific power management peripherals have been added to enable high efficiency across the entire operating range, high integration for increased power density, reliability, and lowest overall system cost and high flexibility with support for the widest number of control schemes and topologies. Such peripherals include: light load burst mode, synchronous rectification, LLC and phase-shifted full bridge mode switching, input voltage feed forward, copper trace current sense, ideal diode emulation, constant current constant power control, synchronous rectification soft on and off, peak current mode control, flux balancing, secondary side input voltage sensing, high-resolution current sharing, hardware-configurable soft start with pre bias, as well as several other features. Topology support has been optimized for voltage mode and peak current mode controlled phase-shifted full bridge, single and dual phase PFC, bridgeless PFC, hard-switched full bridge and half bridge, and LLC half bridge and full bridge.
Digital Control of up to 3 Independent Feedback Loops
Dedicated PID-Based hardware
2-Pole/2-Zero Configurable
Nonlinear Control
Up to 16 MHz Error Analog-to-Digital Converter (EADC)
Configurable Resolution as Small as 1mV/LSB
Automatic Resolution Selection
Up to 8x Oversampling
Hardware-Based Averaging (up to 8x)
14-Bit Effective Digital-to-Analog Converter (DAC)
Adaptive Sample Trigger Positioning
Up to 8 High Resolution Digital Pulse Width Modulated (DPWM) Outputs
250-ps Pulse Width Resolution
4-ns Frequency Resolution
4-ns Phase Resolution
Adjustable Phase Shift Between Outputs
Adjustable Dead-band Between Pairs
Cycle-by-Cycle Duty Cycle Matching
Up to 2-MHz Switching Frequency
Configurable PWM Edge Movement
Trailing Modulation
Leading Modulation
Triangular Modulation
Configurable Feedback Control
Voltage Mode
Average Current Mode
Peak Current Mode Control
Constant Current
Constant Power
Configurable Modulation Methods
Frequency Modulation
Phase Shift Modulation
Pulse Width Modulation
Fast, Automatic, and Smooth Mode Switching
Frequency Modulation and PWM
Phase Shift Modulation and PWM
High Efficiency and Light Load Management
Burst Mode
Ideal Diode Emulation
Synchronous Rectifier Soft On/Off
Low IC Standby Power
Soft Start / Stop with and without Prebias
Fast Input Voltage Feed Forward Hardware
Primary Side Voltage Sensing
Copper Trace Current Sensing
Flux and Phase Current Balancing for Nonpeak Current Mode Control Applications
Current Share Bus Support
Analog Average
Master and Slave
Feature Rich Fault Protection Options
7 High-Speed Analog Comparators
Cycle-by-Cycle Current Limiting
Programmable Fault Counting
External Fault Inputs
10 Digital Comparators
Programmable Blanking Time
Synchronization of DPWM Waveforms Between Multiple UCD3138 devices
14-Channel, 12-Bit, 267-ksps General-Purpose ADC with Integrated
Programmable Averaging Filters
Dual Sample and Hold
Internal Temperature Sensor
Fully Programmable High-Performance 31.25 MHz, 32-Bit ARM7TDMI-S Processor
32KB of Program Flash
2KB of Data Flash with ECC
4KB of Data RAM
4KB of Boot ROM Enables Firmware Boot-Load in the Field via I2C or UART
Communication Peripherals
I2C/PMBus
2 UARTs on UCD3138RGC (64-Pin QFN)
1 UART on UCD3138RHA/UCD3138RMH (40-Pin QFN) and UCD3138RJA (40-Pin VQFN)
Timer Capture with Selectable Input Pins
Up to 5 Additional General Purpose Timers
Built In Watchdog: BOD and POR
64-Pin QFN and 40-Pin QFN Packages
Operating Temperature: –40°C to 125°C
Fusion_Digital_Power_Designer GUI Support
Applications
Digital Power Controller
Voltage Supply
3V ~ 3.6V
Current Supply
105mA
Operating Temperature
-40??C ~ 125??C
Mounting Type
Surface Mount
Package / Case
64-VFQFN Exposed Pad
Supplier Device Package
64-VQFN (9x9)