Rochester Electronics, LLC 的 LB1930MC Brief 规格书

ON Semiconductor” Energy Efficient Innovations
Product Overview
LB1930MC: Motor Driver, Bidirectional, Low Voltage, Low Saturation
For complete documentation, see the data sheet.
The LB1930MC is single-channel forward/reverse DC brush motor driver. This device is optimal for CD, DVD and Blue Ray Disk
player loading motors. And it is possible to use it for others as a general-purpose product.
Features Benefits
The LB1930MC features the wide operating voltage range of
2.2 to 10.8V and the low standby current drain of 0.1A, and
therefore can easily be used in battery operated systems.
Low input voltage devices available 2V
To minimize through currents, the LB1930MC internal logic
passes through an internal standby state when switched by
the input signals between forward/reverse and brake, or
between forward and reverse.
Rugged operation
If the IC chip exceeds 180C due to an output short causing a
large current flow, the built-in thermal protection circuit
suppresses the drive current to prevent fires or destruction of
the IC.
Thermal protection
Zero power consumption in standby mode Low Consumption
The low saturation voltage reduces IC internal heating and
allows a high voltage to be applied to the motor. Thus this
device can be used even in environments with a high
operating ambient temperature.
There are no constraints on the relationship between the
input voltage and the supply voltage. For example, the
LB1930MC can be used with VCC = 3V, and VIN = 5V
Applications End Products
Industrial Digital Still Camera
Consumer CD, DVD and Blue Ray Disk player loading motors.
Portable & Wireless Thermal printers, portable printers, scanner
Toy, Battery operate devices
Part Electrical Specifications
Product Compliance Status VM Min (V) VM Max
(V)
VCC Min
(V)
VCC Max
(V)
IO Min (A) IO Peak
Max (A)
Control
Type
Current
Sense
Package
Type
LB1930MC-AH Pb-free
Halide free
Active 2.2 10.8 2.2 10.8 1 Parallel None SOIC-10
NB
For more information please contact your local sales support at www.onsemi.com.
Created on: 9/3/2019