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NBM7100B-Q100中文资料安世数据手册PDF规格书
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NBM7100B-Q100规格书详情
1. General description
The NBM7100A/B-Q100 is a battery energy
management device designed to maximize usable
capacity from non-rechargeable, primary batteries
when used in low-voltage, low-power applications
requiring burst current loads. The devices overcome
voltage drop and battery life limitations associated
with extracting high pulse currents (Fig. 1) from lithium
primary batteries such as 3 V lithium manganese
dioxide (LiMnO2) coin cells. which are commonly used
in wireless, low-power IoT sensor applications.
The NBM7100A/B-Q100 contains two stages of high
efficiency DC-DC conversion and an intelligent learning
algorithm. The first stage DC-DC conversion transfers
energy from the lithium battery at a low constant
current to a capacitive storage element. Once charged,
a second DC-DC conversion cycle utilizes this stored
energy to supply a regulated voltage with high pulse
load current capability on the VDH output pin. The
battery is never directly subjected to large load pulse
currents, resulting in a longer, more predictable battery
lifetime.
The proprietary learning algorithm monitors the energy
used during repetitive load pulse cycles and optimizes
first stage DC-DC conversion to minimize the residual
charge in the storage capacitor.
A serial interface allows a microcontroller to change
default configuration settings and read-back system
information.
2. Features and benefits
• Automotive product qualification in accordance with
AEC-Q100 (Grade 3)
• Specified from -40 °C to +85 °C
• Programmable constant battery load current: 2 mA
to 16 mA
• Protection against battery voltage dips (Brown-out)
• Pulse output current: > 200 mA
• Low ripple regulated programmable output voltage,
VDH: 1.8 V to 3.6 V
• Ultra-low standby current: 20 nA (typ)
• Peak conversion efficiency up to 93% with adaptive
optimization
• Integrated fuel gauge
• Small 16 pin lead-free package
(SOT763-1/DHVQFN16;
2.5 mm × 3.5 mm × 0.85 mm) with side wettable
flanks
3. Applications
• Battery powered wireless microcontroller
applications (IoT): Bluetooth®, LoRaWAN®,
Sigfox™, LTE-M, NB-IoT, Zigbee, etc.
• Industrial: temperature, occupancy, e-metering,
electronic shelf label, asset tracking, irrigation
monitoring
• Automotive: tire pressure monitors (TPMS), key
fobs
