Catalog(1 parts)
| Part | Main Purpose | Utilized IC / Part | Board Type | Regulator Topology | Voltage - Output▲▼ | Supplied Contents | Outputs and Type | Outputs and Type▲▼ | Voltage - Input▲▼ | Voltage - Input▲▼ | Current - Output▲▼ |
|---|---|---|---|---|---|---|---|---|---|---|---|
DC/DC, Step Up | TPS61291 | Fully Populated | Boost | 2.5 V, 3 V, 3.299999952316284 V | Board(s) | Non-Isolated | 1 ul | 0.8999999761581421 V | 5 V | 0.20000000298023224 A |
Key Features
• Input Voltage Range 0.9V to 5VStartup Voltage 1.5V at 20mA LoadPin Selectable Output Voltages:3.3V, 3V, 2.5V15nA typical Quiescent Current inBypass Mode5.7µA typical Quiescent Current inBoost ModeBypass Switch from VIN to VOUTIOUT> 200mA at 3.3V VOUT,VIN= 1.8VInternal Feedback Divider Disconnect(Bypass Mode)Controlled Bypass Transition PreventsReverse Current into BatteryPower-Save Mode at Light LoadsOvertemperature ProtectionRedundant Overvoltage ProtectionSmall 2mm × 2mm SON 6-pin packageInput Voltage Range 0.9V to 5VStartup Voltage 1.5V at 20mA LoadPin Selectable Output Voltages:3.3V, 3V, 2.5V15nA typical Quiescent Current inBypass Mode5.7µA typical Quiescent Current inBoost ModeBypass Switch from VIN to VOUTIOUT> 200mA at 3.3V VOUT,VIN= 1.8VInternal Feedback Divider Disconnect(Bypass Mode)Controlled Bypass Transition PreventsReverse Current into BatteryPower-Save Mode at Light LoadsOvertemperature ProtectionRedundant Overvoltage ProtectionSmall 2mm × 2mm SON 6-pin package
Description
AI
The TPS61291 is a boost converter with pin selectable output voltages and an integrated bypass mode. In bypass operation, the device provides a direct path from the input to the system and allows a low power micro controller (MCU) such as the MSP430 to operate directly from a single 3V Li-MnO2 battery or dual alkaline battery cells.
In bypass mode the integrated feedback divider network for boost mode operation is disconnected from the output and the quiescent current consumption drops down to only 15nA (typical).
In boost mode the device provides a minimum output current of 200mA at 3.3V VOUTfrom 1.8V VIN. The boost mode is used for system components which require a regulated supply voltage and cannot directly operate from the input source. The boost converter is based on a current-mode controller using synchronous rectification to obtain maximum efficiency and consumes typically 5.7µA from the output. During startup of the boost converter, the VSEL pin is read out and the integrated feedback network sets the output voltage to 2.5V, 3V or 3.3V.
Bypass mode or boost mode operation is controlled by the system via the EN/BYP pin.
The device integrates an enhanced bypass mode control to prevent charge, stored in the output capacitor during boost mode operation, from flowing back to the input and charging the battery.
The device is packaged in a small 6-pin SON package (DRV) measuring 2.0mm × 2.0mm × 0.75mm.
The TPS61291 is a boost converter with pin selectable output voltages and an integrated bypass mode. In bypass operation, the device provides a direct path from the input to the system and allows a low power micro controller (MCU) such as the MSP430 to operate directly from a single 3V Li-MnO2 battery or dual alkaline battery cells.
In bypass mode the integrated feedback divider network for boost mode operation is disconnected from the output and the quiescent current consumption drops down to only 15nA (typical).
In boost mode the device provides a minimum output current of 200mA at 3.3V VOUTfrom 1.8V VIN. The boost mode is used for system components which require a regulated supply voltage and cannot directly operate from the input source. The boost converter is based on a current-mode controller using synchronous rectification to obtain maximum efficiency and consumes typically 5.7µA from the output. During startup of the boost converter, the VSEL pin is read out and the integrated feedback network sets the output voltage to 2.5V, 3V or 3.3V.
Bypass mode or boost mode operation is controlled by the system via the EN/BYP pin.
The device integrates an enhanced bypass mode control to prevent charge, stored in the output capacitor during boost mode operation, from flowing back to the input and charging the battery.
The device is packaged in a small 6-pin SON package (DRV) measuring 2.0mm × 2.0mm × 0.75mm.