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Table of Contents
User’s Guide
LM2651 Step-Down Converter Evaluation Module User's
Guide
Table of Contents
1 Introduction.............................................................................................................................................................................2
2 Evaluation Board Design....................................................................................................................................................... 3
3 Operating the Evaluation Board............................................................................................................................................4
3.1 Setup..................................................................................................................................................................................4
3.2 Operating Conditions......................................................................................................................................................... 4
4 Revision History......................................................................................................................................................................4
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SNVA015D – FEBRUARY 2000 – REVISED JANUARY 2022
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1
Introduction
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1 Introduction
The LM2651 switching regulator provides high efficiency power conversion over a 100:1 load range (1.5 A to 15
mA). This feature makes the LM2651 an ideal fit in battery powered applications.
Synchronous rectification and 75-mΩ internal switches provide up to 97% efficiency. At light loads, the LM2651
enters a low power hysteretic or sleep mode to keep the efficiency high. In many applications, the efficiency still
exceeds 80% at 15-mA load.
A shutdown pin is available to disable the LM2651 and reduce the supply current to 7 µA. The IC contains
patented current sensing circuitry for current mode control. This feature eliminates the external current sensing
required by other current mode DC to DC converters. The IC has a 300-kHz fixed frequency internal oscillator.
The high oscillator frequency allows the use of extremely small, low profile components.
The evaluation board can be obtained by ordering part number LM2651_3.3V_EVAL from your local TI sales
office, or TI's website at www.ti.com.
2
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Evaluation Board Design
2 Evaluation Board Design
The evaluation board is designed to supply 3.3 V at 15 mA up to 1.5 A. The input voltage range is 4 V to 14
V. Components were selected based on the design procedure in the LM2651 1.5A High Efficiency Synchronous
Switching Regulator data sheet. PCB layout is critical to reduce noise and ensure specified performance for
any power supply design. To minimize the parasitic inductance in the loop of input capacitors and the internal
MOSFETs, connect the capacitors to VIN and PGND pins with short and wide traces. This is important because
the rapidly switching current, together with wiring inductance, can generate large voltage spikes that can cause
noise problems. The feedback trace from the output to the feedback pin should be wide, short and kept away
from the flux field of the inductor. The artwork for the evaluation board is shown at the end of this application
report and the schematic shown in Figure 2-1. The parts list is given in Table 2-1. The pictorial representations of
the top, bottom, and silkscreen layers are shown at the end of this document.
When an undervoltage situation occurs, the output voltage can be pulled below ground as the inductor current
is reversed through the synchronous FET. For applications that need to be protected from a negative voltage,
a clamping diode D2 is recommended. When used, D2 should be connected cathode to VOUT and anode to
ground. A diode rated for a minimum of 2 A is recommended.
Figure 2-1. LM2651_EVAL Schematic for Adjustable Voltage
Table 2-1. Bill of Materials
Ref Designator
Part Description
Part Number
U1
IC LM2651MTC-3.3
LM2651MTC-3.3
L1
Inductor
Coilcraft DO3316P-223
CIN
Tan Cap 100 µF 16 V 10% Size = D
Vishay 594D107X0016D2T
CSS
Cer Cap 4.7 nF 50 V X7R 10% 1206
Vishay VJ1206Y472KXAMB
CC2
Cer Cap 100 pF 50 V NPO 1206
Vishay VJ1206A101JXAMB
CC1
Cer Cap 2.2 nF 50 V X7R 10% 1206
Vishay VJ1206Y222KXAMB
COUT
Tant Cap 120 µF 6.3 V 10% Size = D
Vishay 594D127X06R3C2T
CIN2
Cer Cap 0.1 µF 50 V X7R 10% 0805
Vishay VJ0805Y104KXAMB
CB
Cer Cap 0.1 µF 50 V X7R 10% 0805
Vishay VJ0805Y104KXAMB
R1
Res 0.1 Ω ⅛W 5% LR series 0805
Vishay CRCW0805R100JTGLR
R2
Open
RC
Res 30.0 kΩ ⅛W 5% 0805
Vishay CRCW0805303J
D1
Schottky Diode 1-A SMA
Motorola MBRA130LT3
SNVA015D – FEBRUARY 2000 – REVISED JANUARY 2022
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3
Operating the Evaluation Board
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3 Operating the Evaluation Board
3.1 Setup
The LM2651_3.3V_EVAL evaluation board comes ready to be tested. The only setup needed is connecting the
input voltage to the VIN and GND posts. The load and output are connected to the VOUT post.
3.2 Operating Conditions
The input voltage to the LM2651-3.3 regulator must be within the range of 4 V to 14 V DC for proper operation.
The device will not function properly with voltages below 4 V and damage may occur if any voltage greater than
16 V is applied.
Figure 3-1. Layout Top Layer
Figure 3-2. Layout Bottom Layer
Figure 3-3. Layout Silkscreen
4 Revision History
NOTE: Page numbers for previous revisions may differ from page numbers in the current version.
Changes from Revision C (April 2013) to Revision D (January 2022)
Page
• Updated the numbering format for tables, figures, and cross-references throughout the document. ................2
• Updated the user's guide title............................................................................................................................. 2
4
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