Información de empaque
Encapsulado | Pines HTSSOP (PWP) | 14 |
Rango de temperatura de funcionamiento (℃) -40 to 150 |
Cant. de paquetes | Transportador 2,000 | LARGE T&R |
Características para LM51561H-Q1
- AEC-Q100 Qualified for automotive applications
- Temperature grade 1: –40°C to +125°C TA
- Maximum operating temperature 150°C TJ
-
Functional Safety-Capable
- Documentation available to aid functional safety system design
- Suited for wide input operating range car
battery applications
- 3.5-V to 60-V Operating range (65-V abs max)
- 2.97-V to 16-V when BIAS = VCC
- Minimum boost supply voltage 1.5 V when BIAS ≥ 3.5 V
- Input transient protection up to 65 V
- Minimized battery drain
- Low shutdown current ( IQ ≤ 2.6 µA )
- Low operating current ( IQ ≤ 490 µA )
- Small solution size and low cost
- Maximum switching frequency of 2.2 MHz
- Integrated error amplifier allows primary-side regulation without optocoupler (flyback)
- Minimized undershoot during cranking (start-stop application)
- EMI mitigation
- Selectable dual random spread spectrum
- Higher efficiency with low-power dissipation
- 100-mV ±7% accurate current limit threshold
- Strong 1.5-A peak standard MOSFET driver
- Supports external VCC supply
- Avoid AM band interference and crosstalk
- Optional clock synchronization
- Dynamically programmable switching frequency from 100 kHz to 2.2 MHz
- Integrated protection features
- Constant peak current limiting over input voltage
- Optional hiccup mode overload protection (see the Device Comparison Table)
- Programmable line UVLO
- OVP protection
- Thermal shutdown
- Accurate ±1% accuracy feedback reference
- Programmable extra slope compensation
- Adjustable soft start
- PGOOD indicator
- 14-Pin HTSSOP package (5.0 mm × 4.4 mm)
- Create a custom design using the LM5156xH-Q1 with the WEBENCH power designer
Descripción de LM51561H-Q1
The LM5156xH-Q1 (LM5156H-Q1 and LM51561H-Q1) device is a wide input range, non-synchronous boost controller that uses peak current mode control. The device can be used in boost, SEPIC, and flyback topologies.
The device can start up from a 1-cell battery with a minimum of 2.97 V if the BIAS pin is connected to the VCC pin. It can operate with the input supply voltage as low as 1.5 V if the BIAS pin is greater than 3.5 V.