The TLV713P-Q1 series of low-dropout (LDO) linear regulators are low quiescent current LDOs with excellent line and load transient performance and are designed for power-sensitive applications. These devices provide a typical accuracy of 1%.
The TLV713P-Q1 series of devices is designed to be stable without an output capacitor. The removal of the output capacitor allows for a very small solution size. However, the TLV713P-Q1 series is also stable with any output capacitor if an output capacitor is used.
The TLV713P-Q1 also provides inrush current control during device power-up and enabling. The TLV713P-Q1 limits the input current to the defined current limit to avoid large currents from flowing from the input power source. This functionality is especially important in battery-operated devices.
The TLV713P-Q1 series is available in a standard DBV package and provides an active pulldown circuit to quickly discharge output loads. The TLV713P-Q1 is suited for automotive applications because the device is qualified for AEC-Q100 grade 1.
PART NUMBER | PACKAGE | BODY SIZE (NOM) |
---|---|---|
TLV713P-Q1 | SOT-23 (5) | 2.90 mm × 1.60 mm |
DATE | REVISION | NOTES |
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May 2015 | * | Initial release. |
PIN | I/O | DESCRIPTION | |
---|---|---|---|
NAME | NO. | ||
SOT-23 | |||
EN | 3 | I | Enable pin. Driving EN over 0.9 V turns on the regulator. Driving EN below 0.4 V puts the regulator into shutdown mode. |
GND | 2 | — | Ground pin |
IN | 1 | I | Input pin. A small capacitor is recommended from this pin to ground. See the Input and Output Capacitor Considerations section in the Feature Description for more details. |
NC | 4 | — | No internal connection |
OUT | 5 | O | Regulated output voltage pin. For best transient response, a small 1-μF ceramic capacitor is recommended from this pin to ground. See the Input and Output Capacitor Considerations section in the Feature Description for more details. |
Thermal pad | — | The thermal pad is electrically connected to the GND node. Connect to the GND plane for improved thermal performance. |