Manufacturer Part Number
TPS65132SYFFR
Manufacturer
Texas Instruments
Introduction
The TPS65132SYFFR is a dual output power supply designed for powering OLED displays that require a positive and negative output voltage.
Product Features and Performance
Dual output for positive and negative supply
Wide input voltage range of 2.5V to 5.5V
Adjustable output voltage from ±4V to ±6V
5A peak inductor current limit
High efficiency due to integrated switches
Low noise operation with constant frequency PWM mode
Power-save mode for improved efficiency at light load
Over-temperature protection
Under-voltage lockout
Built-in soft start
Product Advantages
Optimized for OLED display applications
Compact 15-UFBGA, DSBGA package
High integration reduces component count
Thermal shutdown feature enhances safety
Incorporates all power switches internally
Excellent transient response
Key Technical Parameters
Input Voltage Range: 2.5V to 5.5V
Number of Outputs: 2 (positive and negative)
Output Voltage Range: ±4V to ±6V
Operating Temperature Range: -40°C to +85°C
Mounting Type: Surface Mount
Package / Case: 15-UFBGA, DSBGA
Quality and Safety Features
Thermal shutdown protection
Under-voltage lockout
Soft start minimizes inrush current
Compatibility
Compatible with a broad range of OLED displays
Can be used in systems with a supply voltage of 2.5V to 5.5V
Application Areas
Powering OLED displays
Convertible notebook and tablet PC displays
Smartphone displays
Portable media players
Product Lifecycle
Product Status: Active
No current indication of discontinuation
Manufacturer support for design and implementation
Several Key Reasons to Choose This Product
Optimized specifically for OLED display power requirements
Texas Instruments' reputation for reliable and durable components
Possible to minimize external components due to high integration
Flexible output voltage tuning to accommodate various display types
Robust operation in a wide temperature range
Eases power design complexities for handheld devices
Compact package suitable for space-constrained applications