Features: 0.9 V Operation Very Low Quiescent Current Internal Bandgap Reference High Efficiency Low Output Ripple Microprocessor Reset Output Laser-Trimmed Output Voltage Undervoltage Lockout Regulation by Pulse Burst Modulation (PBM)ApplicationBattery Powered Systems Cellular Telephones Pagers Pe...
TK65015: Features: 0.9 V Operation Very Low Quiescent Current Internal Bandgap Reference High Efficiency Low Output Ripple Microprocessor Reset Output Laser-Trimmed Output Voltage Undervoltage Lockout Regula...
SeekIC Buyer Protection PLUS - newly updated for 2013!
268 Transactions
All payment methods are secure and covered by SeekIC Buyer Protection PLUS.
The TK65015 Low Power Step-Up DC-DC converter is designed for portable battery powered systems, capable of operating from a single battery cell down to 0.9 V.
The output voltage is laser-trimmed to 3.0 V. An internal detector monitors the output voltage and provides an active-low microprocessor reset signal whenever the output voltage falls below an internally preset limit. An internal undervoltage lockout circuit is utilized to prevent the inductor switch from remaining in the "ON" mode when the battery voltage is too low to permit normal operation.
Special care has been taken to achieve high reliability through the use of Oxide, Nitride passivation and an additional polyimide coating. The TK65015 is available in a very small plastic surface mount package. (SOT-23L) Pulse burst modulation (PBM) is used to regulate the voltage at the VOUT pin at the IC. PBM is the process in which an oscillator signal is gated or not gated to the switch drive each period. The decision is made just before the start of each cycle and is based on comparing the output voltage to an internally-generated bandgap reference. The decision is latched, so the duty ratio is not modulated within a cycle. The average duty ratio is effectively modulated by the "bursting" and skipping of pulses which can be seen at the IND pin of the IC.
The TK65015 provides the power switch and the control circuit for a boost converter. The converter takes a DC input (typically a single battery cell) and boosts it up to 3 volts. This regulated 3 volt output is typically used to supply power to a microprocessor-controlled system.