SNVAA32 july 2023 LMQ64480-Q1 , LMQ644A0-Q1 , LMQ644A2-Q1
- 1
- LMQ644A2-Q1 6-Phase Buck Regulator Design for Automotive ADAS Applications
- Trademarks
- 1 Introduction
- 2Design Specifications
- 3Application Circuit Diagram and Operating Configuration Table
- 4Top and Bottom Board Views
- 5Test Data and Performance Curves
- 6EVM Documentation
- 74-Phase Configuration
- 8Device and Documentation Support
3 Application Circuit Diagram and Operating Configuration Table
Figure 3-1 shows the typical diagram of 6-phase synchronous buck regulator using LMQ644A2-Q1. SS, COMP and MODE/SYNC of each devices are connected together to share the same information. The SYNC_OUT of primary device is connected to the SYNC of secondary device, and the SYNC_OUT of secondary device is connected to the SYNC of tertiary device to synchronize three devices with phase interleaving.
Figure 3-1 LMQ644A2-Q1 6-Phase Synchronous Buck Regulator DiagramTable 3-1 describes the jumper and input terminal configurations of the LMQ644A2-Q1
6-phase reference design
Table 3-1 Operating
Configuration Table
| Operating Condition | Configuration |
|---|---|
| 3.3 V output | J1 #1-#2 short, J7 open |
| 5.0 V output | J1 #2-#3 short, J7 open |
| 2.5 V output | J1 open, J7 short |
| Dither Enable | J4 #2-#3 short |
| Dither Disable | J4 #1-#2 short |
| AUTO Mode | J2 #1-#2 short |
| FPWM Mode | J2 #2-#3 short |
| Global Enable | J8 #2-#3 short |
| Global Disable | J8 #1-#2 short |
| EMI Bypass | Positive supply input to T3, Negative supply input to T4 |
| EMI Input | Disconnect T3 and T4, Connect LISN(+) to VIN_EMI pad on the bottom, Connect LISN(-) to GND pad on the bottom |