onsemi PCB Module with LV8702V Motor Driver for LV8702V for LV8702V-TLM-H
- RS Stock No.:
- 185-8017
- Mfr. Part No.:
- LV8702VSLDGEVB
- Brand:
- onsemi
Unavailable
RS will no longer stock this product.
- RS Stock No.:
- 185-8017
- Mfr. Part No.:
- LV8702VSLDGEVB
- Brand:
- onsemi
Specifications
Technical Reference
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | onsemi | |
| Power Management Function | Motor Driver | |
| For Use With | LV8702V-TLM-H | |
| Kit Classification | Evaluation Board | |
| Featured Device | LV8702V | |
| Kit Name | PCB Module with LV8702V | |
| Select all | ||
|---|---|---|
Brand onsemi | ||
Power Management Function Motor Driver | ||
For Use With LV8702V-TLM-H | ||
Kit Classification Evaluation Board | ||
Featured Device LV8702V | ||
Kit Name PCB Module with LV8702V | ||
The LV8702VSLDGEVB is an ON Semiconductor motor driver module featuring the LV8702V. This module is capable of easily driving a stepper motor Motor driving is made easy with Arduino Micro1) compatibility. The LV8702VSLDGEVB comes with a Baseboard for facilitated plug-and-play connectivity with an Arduino Micro. GUI and Open-source API Functions are available for custom, user-specific motor driving programs.
VCCmax = 36 V, IOmax = 2.5 A2) (between OUT_A and B, between OUT_C and D)
24 V Applications Recommended (VCC = 9∼32 V Max)
Rotation of the Motor is Controlled by a Single Pulse Signal, which is Advantageous for Smooth Driving (Micro−step) and Rotating at High Speed Rotation
4 Patterns can be Set for Full, Half (2 Patterns) and Quarter Step
High−efficiency Drive that Adjusts the Current to the Optimum Current according to the Motor Load and Rotational Speed (in Half, Quarter Step Setting)
The Reduction of Power Consumption, Heat Generation, Vibration and Noise is Achieved
User−friendly GUI Allows Operation Check and Sample Program
24 V Applications Recommended (VCC = 9∼32 V Max)
Rotation of the Motor is Controlled by a Single Pulse Signal, which is Advantageous for Smooth Driving (Micro−step) and Rotating at High Speed Rotation
4 Patterns can be Set for Full, Half (2 Patterns) and Quarter Step
High−efficiency Drive that Adjusts the Current to the Optimum Current according to the Motor Load and Rotational Speed (in Half, Quarter Step Setting)
The Reduction of Power Consumption, Heat Generation, Vibration and Noise is Achieved
User−friendly GUI Allows Operation Check and Sample Program