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LMR51610XQDBVRQ1中文资料德州仪器数据手册PDF规格书
LMR51610XQDBVRQ1规格书详情
1 Features
• AEC-Q100 qualified
– Temperature grade 1: –40°C to 125°C ambient
operating temperature range
• Functional Safety-Capable
– Documentation available to aid functional safety
system design
• Configured for rugged industrial applications
– 4V to 65V input voltage range
– Input transient protection up to 70V
– 0.6A / 1A continuous output current
– 80ns minimum switching on time
– Fixed 400kHz switching frequency
– –40°C to 150°C junction temperature range
– 96% maximum duty cycle
– Monotonic start-up with prebiased output
– Short-circuit protection with hiccup mode
– Precision enable
• Small design size and ease of use
– Integrated synchronous rectification
– Internal compensation for ease of use
• Various options in pin-to-pin compatible package
– PFM and forced PWM (FPWM) options
• Pin-to-pin compatible with the LMR16006Y-Q1,
LM2842-Q1, LMR50410-Q1, and TPS560430-Q1
• Create a custom design using the LMR516xx-Q1
with the WEBENCH®Power Designer
2 Applications
• Body electronics and lighting
• Infotainment and cluster
• Advanced driver assistance systems (ADAS)
3 Description
The LMR516xx-Q1 is a wide-VIN, easy-to-use,
synchronous buck converter capable of driving up to
0.6A and 1A load current. With a wide input range of
4V to 65V, the device is designed for a wide range of
industrial applications for power conditioning from an
unregulated source.
The LMR516xx-Q1 operates at 400kHz switching
frequency to support use of relatively small inductors
for an optimized design size. The LMR516xx-Q1
has a PFM version to realize high efficiency at
light load and a FPWM version to achieve constant
frequency and small output voltage ripple over the full
load range. Soft-start and compensation circuits are
implemented internally, which allow the device to be
used with minimal external components.
The device has built-in protection features, such as
cycle-by-cycle current limit, hiccup mode short-circuit
protection, and thermal shutdown in case of excessive
power dissipation.
