SNVSCH2A September 2024 – May 2025 LM65625-Q1 , LM65635-Q1 , LM65645-Q1
PRODUCTION DATA
- 1
- 1 Features
- 2 Applications
- 3 Description
- 4 Device Comparison Table
- 5 Pin Configuration and Functions
- 6 Specifications
-
7 Detailed Description
- 7.1 Overview
- 7.2 Functional Block Diagram
- 7.3
Feature Description
- 7.3.1 Output Voltage Selection
- 7.3.2 EN Pin and Use as VIN UVLO
- 7.3.3 Mode Selection
- 7.3.4 Adjustable Switching Frequency
- 7.3.5 Dual Random Spread Spectrum (DRSS)
- 7.3.6 Internal LDO, VCC UVLO, and BIAS Input
- 7.3.7 Bootstrap Voltage (BST Pin)
- 7.3.8 Soft Start and Recovery From Dropout
- 7.3.9 Safety Features
- 7.4 Device Functional Modes
-
8 Application and Implementation
- 8.1 Application Information
- 8.2
Typical Application
- 8.2.1 Design Requirements
- 8.2.2
Detailed Design Procedure
- 8.2.2.1 Custom Design With WEBENCH® Tools
- 8.2.2.2 Choosing the Switching Frequency
- 8.2.2.3 FB for Adjustable or Fixed Output Voltage Mode
- 8.2.2.4 Inductor Selection
- 8.2.2.5 Output Capacitor Selection
- 8.2.2.6 Input Capacitor Selection
- 8.2.2.7 CBOOT
- 8.2.2.8 External UVLO
- 8.2.2.9 Maximum Ambient Temperature
- 8.2.3 Application Curves
- 8.3 Best Design Practices
- 8.4 Power Supply Recommendations
- 8.5 Layout
- 9 Device and Documentation Support
- 10Revision History
- 11Mechanical, Packaging, and Orderable Information
Package Options
Mechanical Data (Package|Pins)
- RZT|20
Thermal pad, mechanical data (Package|Pins)
Orderable Information
8.2.3 Application Curves
Unless otherwise specified the following conditions apply: VIN = 24V, Fixed output voltage mode, BIAS connected to VOUT, TA = 25°C. All data taken on standard EVM. See Table 8-6 for BOM. See Figure 8-75 and Figure 8-76 for typical EMI filters. Typical system specifications can be found in Table 8-7
| LM6x625 | VOUT = 5V | 400kHz |
| LM6x625 | VOUT = 5V | 2200kHz |
| LM6x635 | VOUT = 5V | 400kHz |
| LM6x635 | VOUT = 5V | 2200kHz |
| LM6x645 | VOUT = 5V | 400kHz |
| LM6x645 | VOUT = 5V | 2200kHz |
| LM6x625 | VOUT = 5V | 400kHz |
| LM6x625 | VOUT = 5V | 2200kHz |
| LM6x635 | VOUT = 5V | 400kHz |
| LM6x635 | VOUT = 5V | 2200kHz |
| LM6x645 | VOUT = 5V | 400kHz |
| LM6x645 | VOUT = 5V | 2200kHz |
| LM6x625 | VIN = 24V | 2200kHz | Auto |
| LM6x645 | VIN = 24V | 400kHz | Auto |
| LM6x625 | VOUT = 5V | 2200kHz | FPWM |
| LM6x635 | VOUT = 5V | 2200kHz | FPWM |
| LM6x645 | VOUT = 3.3V | 400kHz | FPWM |
| VOUT = 2V | FPWM | 400kHz |
| LM6x625 | VOUT = 5V | L = 2.2μH | VIN = 24V |
| LM6x635 | VOUT = 5V | L = 2.2μH | VIN = 24V |
| LM6x645 | VOUT = 5V | L = 8.2μH | VIN = 24V |
| LM6x635 | IOUT = 0A | L = 2.2μH |
| LM6x645 | VOUT = 12V | 400kHz |
| VIN = 24V | VOUT = 5V | IOUT = 3.5A | 2200kHz |
| VIN = 24V | VOUT = 5V | IOUT = 3.5A | 2200kHz |
| VIN = 24V | VOUT = 5V | IOUT = 4.5A | 400kHz |
| VIN = 24V | VOUT = 5V | IOUT = 4.5A | 400kHz |
| VIN = 24V | VOUT = 5V | IOUT = 2.5A | 2200kHz |
| VIN = 24V | VOUT = 5V | IOUT = 0A to 3.5A (1μs) | 2200kHz |
| VIN = 24V | VOUT = 5V | IOUT = 0A to 4.5A (1μs) | 400kHz |
| VIN = 24V | VOUT = 5V | IOUT =1mA | 2200kHz |
| VIN = 24V | VOUT = 5V | IOUT = 0A | 2200kHz |
| VIN = 24V | VOUT = 5V | IOUT = 1mA | 2200kHz |
| LM6x635 | VOUT = 5V | IOUT = 3.5A | 2200kHz |
| LM6x625 | VOUT = 3.3V | 400kHz |
| LM6x625 | VOUT = 3.3V | 2200kHz |
| LM6x635 | VOUT = 3.3V | 400kHz |
| LM6x635 | VOUT = 3.3V | 2200kHz |
| LM6x645 | VOUT = 3.3V | 400kHz |
| LM6x645 | VOUT = 3.3V | 2200kHz |
| LM6x625 | VOUT = 3.3V | 400kHz |
| LM6x625 | VOUT = 3.3V | 2200kHz |
| LM6x635 | VOUT = 3.3V | 400kHz |
| LM6x635 | VOUT = 3.3V | 2200kHz |
| LM6x645 | VOUT = 3.3V | 400kHz |
| LM6x645 | VOUT = 3.3V | 2200kHz |
| LM6x635 | VIN = 24V | 2200kHz | Auto |
| LM6x625 | VOUT = 3.3V | 2200kHz | FPWM |
| LM6x635 | VOUT = 3.3V | 2200kHz | FPWM |
| LM6x645 | VOUT = 5V | 400kHz | FPWM |
| LM6x645 | FPWM | 400kHz |
| LM6x625 | VOUT = 3.3V | L = 2.2μH | VIN = 24V |
| LM6x635 | VOUT = 3.3V | L = 2.2μH | VIN = 24V |
| LM6x645 | VOUT = 3.3V | L = 8.2μH | VIN = 24V |
| LM6x625 | IOUT = 0A | L = 2.2μH |
| LM6x645 | IOUT = 0A | L = 8.2μH |
| LM6x645 | VOUT = 12V | 400kHz |
| VIN = 24V | VOUT = 5V | IOUT = 3.5A | 2200kHz |
| VIN = 24V | VOUT = 5V | IOUT = 3.5A | 2200kHz |
| VIN = 24V | VOUT = 5V | IOUT = 4.5A | 400kHz |
| VIN = 24V | VOUT = 5V | IOUT = 4.5A | 400kHz |
| VIN = 24V | VOUT = 5V | IOUT = 0.1A | 2200kHz |
| VIN = 24V | VOUT = 3.3V | IOUT = 0A to 3.5A (1μs) | 2200kHz |
| VIN = 24V | VOUT = 3.3V | IOUT = 0A to 4.5A (1μs) | 400kHz |
| VIN = 24V | VOUT = 5V | IOUT = 3.5A | 2200kHz |
| VIN = 24V | VOUT = 5V | Auto | 2200kHz |
| VIN = 24V | VOUT = 5V | IOUT = 1A | 2200kHz |
| LM6x635 | VOUT = 5V | IOUT = 3.5A | 2200kHz |
Table 8-6 BOM for Application Curve Data
| DEVICE | OUTPUT VOLTAGE | SWITCHING FREQUENCY | INDUCTOR | INDUCTOR D.C.R. | COUT AT VOUT (FOR TRANSIENT TESTS) |
|---|---|---|---|---|---|
| LM6x625 | 5V | 400kHz | 10μH | 0.03Ω | |
| LM6x625 | 5V | 2200kHz | 2.2μH | 0.02Ω | |
| LM6x625 | 3.3V | 400kHz | 10μH | 0.03Ω | |
| LM6x625 | 3.3V | 2200kHz | 2.2μH | 0.02Ω | |
| LM6x635 | 5V | 400kHz | 8.2μH | 0.016Ω | |
| LM6x635 | 5V | 2200kHz | 2.2μH | 0.018Ω | 23μF |
| LM6x635 | 3.3V | 400kHz | 8.2μH | 0.016Ω | |
| LM6x635 | 3.3V | 2200kHz | 2.2μH | 0.018Ω | 27μF |
| LM6x645 | 5V | 400kHz | 8.2μH | 0.016Ω | 91μF |
| LM6x645 | 5V | 2200kHz | 2.2μH | 0.018Ω | |
| LM6x645 | 3.3V | 400kHz | 8.2μH | 0.016Ω | 120μF |
| LM6x645 | 3.3V | 2200kHz | 2.2μH | 0.018Ω | |
| LM6x645 | 5V | 1000kHz | 3.3μH | 0.012Ω | |
| LM6x645 | 3.3V | 1000kHz | 3.3μH | 0.012Ω | |
| LM6x635 | 5V | 1000kHz | 4.7μH | 0.014Ω | |
| LM6x635 | 3.3V | 1000kHz | 4.7μH | 0.014Ω | |
| LM6x625 | 5V | 1000kHz | 6.8μH | 0.021Ω | |
| LM6x625 | 3.3V | 1000kHz | 6.8μH | 0.021Ω | |
| LM6x645 | 12V | 400kHz | 15μH | 0.043Ω |
Figure 8-75 EMI Input Filter for 2200kHz
Figure 8-76 EMI Input Filter for 400kHzThe data in the Table 8-7 table apply only to the typical applications circuit, with nominal component values. Specifications in the typical (TYP) column apply to TJ= 25°C only. Specifications in the minimum (MIN) and maximum (MAX) columns apply to the case of typical components over the temperature range of TJ = –40°C to 150°C. These specifications are not specified by production testing.
Table 8-7 Typical System Specifications
| PARAMETRS | TEST CONDITIONS | MIN | TYP | MAX | UNITS | |
|---|---|---|---|---|---|---|
| Isupply | Input supply current | Vin = 24V, Vout = 3.3V, Iout = 0A, LM65635, 2.2MHz | 2.4 | μA | ||
| Vout | Vout = 5V | Vin = 7V to 65V, Iout = 0A to full load, FPWM | –1.5% | +1.5% | ||
| Vout = 5V | Vin = 7V to 65V, Iout = 0A to full load, AUTO | –1.5% | +2.5% | |||
| Vout | Vout = 3.3V | Vin = 5V to 65V, Iout = 0A to full load, FPWM | –1.5% | +1.5% | ||
| Vout = 3.3V | Vin = 5V to 65V, Iout = 0A to full load, AUTO | –1.5% | +2.5% | |||
| η | Peak efficiency | Vin = 12V, Vout = 5V, Iout = 1.5A, LM65645, 400kHz | 95% | |||
| Vin = 24V, Vout = 5V, Iout = 1.5A, LM65645, 400kHz | 93.6% | |||||