Texas Instruments Switch TPS2151 User Manual

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User’s Guide  
March 2002  
PMP Portable Power  
SLVU067  
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EVM IMPORTANT NOTICE  
Texas Instruments (TI) provides the enclosed product(s) under the following conditions:  
This evaluation kit being sold by TI is intended for use for ENGINEERING DEVELOPMENT OR EVALUATION  
PURPOSES ONLY and is not considered by TI to be fit for commercial use. As such, the goods being provided  
may not be complete in terms of required design-, marketing-, and/or manufacturing-related protective  
considerations, including product safety measures typically found in the end product incorporating the goods.  
As a prototype, this product does not fall within the scope of the European Union directive on electromagnetic  
compatibility and therefore may not meet the technical requirements of the directive.  
Should this evaluation kit not meet the specifications indicated in the EVM Users Guide, the kit may be returned  
within 30 days from the date of delivery for a full refund. THE FOREGOING WARRANTY IS THE EXCLUSIVE  
WARRANTY MADE BY SELLER TO BUYER AND IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED,  
IMPLIED, OR STATUTORY, INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY  
PARTICULAR PURPOSE.  
The user assumes all responsibility and liability for proper and safe handling of the goods. Further, the user  
indemnifies TI from all claims arising from the handling or use of the goods. Please be aware that the products  
received may not be regulatory compliant or agency certified (FCC, UL, CE, etc.). Due to the open construction  
of the product, it is the users responsibility to take any and all appropriate precautions with regard to electrostatic  
discharge.  
EXCEPT TO THE EXTENT OF THE INDEMNITY SET FORTH ABOVE, NEITHER PARTY SHALL BE LIABLE  
TO THE OTHER FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES.  
TI currently deals with a variety of customers for products, and therefore our arrangement with the user is not  
exclusive.  
TI assumes no liability for applications assistance, customer product design, software performance, or  
infringement of patents or services described herein.  
Please read the EVM Users Guide and, specifically, the EVM Warnings and Restrictions notice in the EVM  
Users Guide prior to handling the product. This notice contains important safety information about temperatures  
and voltages. For further safety concerns, please contact the TI application engineer.  
Persons handling the product must have electronics training and observe good laboratory practice standards.  
No license is granted under any patent right or other intellectual property right of TI covering or relating to any  
machine, process, or combination in which such TI products or services might be or are used.  
Mailing Address:  
Texas Instruments  
Post Office Box 655303  
Dallas, Texas 75265  
Copyright 2002, Texas Instruments Incorporated  
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EVM WARNINGS AND RESTRICTIONS  
It is important to operate this EVM within the specified input and output ranges described in  
the EVM Users Guide.  
Exceeding the specified input range may cause unexpected operation and/or irreversible  
damage to the EVM. If there are questions concerning the input range, please contact a TI  
field representative prior to connecting the input power.  
Applying loads outside of the specified output range may result in unintended operation and/or  
possible permanent damage to the EVM. Please consult the EVM Users Guide prior to  
connecting any load to the EVM output. If there is uncertainty as to the load specification,  
please contact a TI field representative.  
During normal operation, some circuit components may have case temperatures greater than  
60°C. The EVM is designed to operate properly with certain components above 60°C as long  
as the input and output ranges are maintained. These components include but are not limited  
to linear regulators, switching transistors, pass transistors, and current sense resistors. These  
types of devices can be identified using the EVM schematic located in the EVM Users Guide.  
When placing measurement probes near these devices during operation, please be aware  
that these devices may be very warm to the touch.  
Mailing Address:  
Texas Instruments  
Post Office Box 655303  
Dallas, Texas 75265  
Copyright 2002, Texas Instruments Incorporated  
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Preface  
Read This First  
About This Manual  
The TPS2151 is one of the four devices in the USB peripheral power  
management family TPS2140/41/50/51, which integrates both an adjustable  
linear low-drop voltage regulator (LDO) and a dual-current-limited power  
switch. The dual-current-limit power switch is designed to eliminate inrush  
current during power on.  
The evaluation module (EVM) can help designers to evaluate the device with  
several different configurations by manipulating only a couple of onboard  
mechanical slide switches and a few jumpers.  
Users need at least one dc voltage supply and a multimeter or oscilloscope to  
evaluate the operation of the EVM.  
How to Use This Manual  
This document contains the following chapters:  
- Chapter 1Introduction  
- Chapter 2Schematic, Bill of Materials, Layout, and Setup  
- Chapter 3Changeable Components and Test Points  
v
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Information About Cautions and Warnings  
Information About Cautions and Warnings  
This book may contain cautions and warnings.  
This is an example of a caution statement.  
A caution statement describes a situation that could potentially  
damage your software or equipment.  
This is an example of a warning statement.  
A warning statement describes a situation that could potentially  
cause harm to you.  
The information in a caution or a warning is provided for your protection.  
Please read each caution and warning carefully.  
vi  
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Contents  
1
2
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1  
Schematic, Bill of Materials, Layout, and Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1  
2.1  
2.2  
2.3  
2.4  
Schematic of the EVM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2  
Bill of Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4  
Layout of the EVM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5  
Setup of the EVM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6  
3
Changeable Components and Test Points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1  
Figures  
21  
22  
Schematic of the TPS2151 Evaluation Module (EVM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2  
Top Layer of the EVM and Placement of the Components . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5  
Tables  
21  
31  
Bill of Materials of the TPS2151 EVM (SLVP202) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4  
Test Points and Test Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1  
vii  
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viii  
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Chapter 1  
Introduction  
Each device in TPS2140/41/50/51 family integrates a dual-current-limiting  
power switch and an adjustable low dropout regulator (LDO). Both the switch  
and LDO limit inrush current by controlling the turnon slew rate and are  
compatible with USB 1.0 and 2.0 Specifications.  
The power switch has a unique dual-current-limiting function that limits the  
current delivered to its load to less than 100 mA during power on. This feature  
allows the load to utilize high-value capacitance at the output of the switch,  
while keeping the inrush current low. When the output voltage from the switch  
reaches about 93% of the input voltage, the switch power good output goes  
high, and the switch current limit increases to 800 mA (minimum), at which  
point higher current loads can be turned on. Therefore the load, other than  
capacitance, on the switch output must not exceed the lower current limit (50  
mA minimum) before the power good output rises to high.  
Designers may activate the load by using either the power good signal or  
another logic signal. The higher current limit provides short circuit protection  
while allowing the load to draw maximum current from the source.  
The switch and LDO function independently provides flexibility in many  
applications requiring separate core and I/O voltages.  
TPS2151 has a 5-V switch and an active high /SW_EN that distinguishes itself  
from the other three parts (TPS2140, TPS2141, and TPS2150). For a detailed  
description of functions and characteristics of the TPS2140/41/50/51, refer to  
the data sheet (literature number SLVS399). You may check the data sheet  
and ordering information on the Web site:  
TPS2151  
To assist designers in the evaluation of the device, an evaluation module  
(SLVP202) is offered based on TPS2151. The EVM requires 5-V supplies for  
both the power switch and the LDO. The LDO output voltage is set to 3.3 V by  
an external resistor divider. Two slide switches and few jumpers on the EVM  
are provided to change the connections between the LDO and the power  
switch, so several different application configurations can be evaluated.  
The required external parts for the EVM are two input capacitors (on SW_IN  
and LDO_IN), three output capacitors (on SW_OUT and LDO_OUT), and a  
resistor divider (two resistors). All of these components are placed inside a  
white-rectangle box on the EVM.  
1-1  
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1-2  
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Chapter 2  
Schematic, Bill of Materials, Layout, and Setup  
This chapter contains schematics, bill of materials, board layout, and setup of  
EVM.  
Topic  
Page  
2.1 Schematic of the EVM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2  
2.2 Bill of Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4  
2.3 Layout of the EVM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5  
2.4 Setup of the EVM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6  
2-1  
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Schematic of the EVM  
2.1 Schematic of the EVM  
Figure 21 shows the schematic of the EVM.  
Figure 21. Schematic of the TPS2151 Evaluation Module (EVM)  
2-2  
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Schematic of the EVM  
Only C2, C4, C5, C6, C8, R2, and R3 are essential for the TPS2151 to function  
properly. The rest of the components on the EVM are used for different  
evaluations of the device. To evaluate the power switch inrush current, a large  
capacitor C9 can be added on the EVM.  
In order to discharge SW_OUT and LDO_OUT quickly, JP4 and JP5 are  
shorted through jumpers on this EVM. Designers may unplug the jumpers and  
find the difference. Based on the schematic, the following configurations can  
be set by switches (S1 and S2), and jumpers on JP1, JP2, and JP3:  
1) Independent operation between the switch and LDO: JP1, JP2, and JP3  
are floating (no jumpers). In this configuration, header J1 inputs control the  
switch and the LDO, and the device outputs are connected to header J2.  
External loads for the switch and the LDO are connected to J2. SW_IN and  
LDO_IN are powered by a single supply through J1 or by separate  
supplies.  
2) Another independent operation: only JP1 is floating (no jumper). A jumper  
shorts JP2 from LDO_EN pin to S1 pin, and JP3 is shorted from SW_EN  
to S2. In this configuration, slide switches S1 and S2 control the switch and  
the LDO. No external control signals are connected to SW_EN and  
LDO_EN on header J1. This configuration makes the evaluation easier by  
sliding the switches S1 and S2 to control the TPS2151 on and off. SW_IN  
and LDO_IN are powered by a single supply through J1, or by separate  
supplies.  
3) LDO power good to control the power switch: JP1 is still floating, but JP3  
is shorted from SW_EN to LDO_PG (no external input SW_EN allowed on  
J1) JP2 can be configured the same as either case 1) or case 2). The  
power switch of TPS2151 is controlled by the LDO power good output  
LDO_PG. The power switch cannot be turned on until the LDO is fully on.  
SW_IN and LDO_IN are powered by a single supply through J1 or by  
separate supplies.  
4) Switch power good to control the LDO: JP1 is still floating, but JP2 is  
shorted from LDO_EN to SW_PG (no external input LDO_EN allowed on  
J1). JP3 can be configured the same as either case 1) or case 2). Then  
the LDO of TPS2151 is controlled by the switch power good output  
SW_PG. So the LDO cannot be turned on until the power switch is fully  
on. SW_IN and LDO_IN are powered by a single supply through J1 or by  
separate supplies.  
5) Switch feeding power to the LDO: JP1 is shorted, and JP2 is shorted from  
LDO_EN to SW_PG (no external input LDO_EN allowed on J1). JP3 can  
be configured the same as either case 1) or case 2). Then the LDO is  
connected to the power switch output and controlled by the switch power  
good SW_PG. Only one supply is needed for SW_IN through J1, and no  
external supply is allowed on LDO_IN at J1.  
6) Other configurations can be constructed by further manipulating the  
jumpers, slide switches and the input and output headers (J1 and J2).  
Schematic, Bill of Materials, Layout, and Setup  
2-3  
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Bill of Materials  
Warning  
Users must not activate the load on SW_OUT before the SW_PG  
rises to high, if the load current is higher than 50 mA. Otherwise,  
the power switch output could not be charged up to SW_IN rail.  
2.2 Bill of Materials  
The bill of materials (BOM) for the EVM is shown in Table 21.  
Table 21.Bill of Materials of the TPS2151 EVM (SLVP202)  
Count RefDes  
Description  
Size  
MFR  
Panasonic 29D475X0010B2T  
Kemet C0805C104KRAC7800  
Part Number  
3
4
C1, C3, C6  
Capacitor, Tantalum, 4 µF, 10 V, 20%  
B Case  
805  
C2, C4, C5, C8 Capacitor, ceramic 0.1 µF, 50 V, X7R  
10%  
0
C7  
Note: Needed only if the LDO voltage  
is set to be below 3 V, refer to the data  
sheet  
0
2
C9  
Note: Extra high-value capacitor on  
SW_OUT  
J1, J2  
Header, 8 pin, 100 mil spacing, (36-pin 0.100 x 8”  
Sullins  
PTC36SAAN  
strip)  
0
3
2
2
1
2
J3  
Connector, USB downstream (Type A)  
Header, 2 pin, 100 mil spacing  
0.52 x 0.57”  
0.100 x 2”  
0.100 x 3”  
805  
Molex  
Sullins  
Sullins  
Std  
87531001  
PTC36SAAN  
PTC36SAAN  
Std  
JP1, JP4, JP5  
JP2, JP3  
R1, R3  
R2  
Header, 3 pin, 100 mil spacing  
Resistor, chip, 200 K, 1/10 W, 5%  
Resistor, chip, 625 k, 1/10 W, 5%  
805  
Std  
Std  
S1, S2  
Switch, 1P2T, slide, PC-mount,  
200 mA  
0.46 x 0.16”  
E_Switch  
EG1218  
5
0
TP1, TP2,  
TP3, TP4, TP9  
Test point, black, 1 mm  
0.038”  
Farnell  
240333  
TP16, TP17,  
TP18, TP19,  
TP20, TP21  
Post, wire wrap, 0.043 press-fit  
Note: A/A  
0.0150.025Mill-Max  
pins  
1045317153014–  
020  
11  
TP5, TP6,  
TP7, TP8,  
TP10, TP11,  
TP12, TP13,  
TP14, TP15,  
TP22  
Test point, red, 1 mm  
0.038,  
Farnell  
240345  
0
1
TR1  
Note: Paralleling with R2 to set LDO  
output voltage lower than 3.3 V  
U1  
IC, USB high powered, with LDO  
PWP14  
TI  
TPS2151PWP  
2-4  
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Layout of the EVM  
2.3 Layout of the EVM  
Figure 22 illustrates the placement of the components on the top-layer of the  
TPS2151 EVM. All the components are placed on the top layer only. The  
bottom layer is mainly a ground plane except for a few short traces. The center  
rectangle box includes all the essential parts for the EVM.  
Figure 22. Top Layer of the EVM and Placement of the Components  
Schematic, Bill of Materials, Layout, and Setup  
2-5  
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Layout of the EVM  
2.4 Setup of the EVM  
For proper operation of the EVM, please follow these steps for any evaluation:  
1) Verify that the power supply voltages are in the required ranges: less than  
5.5 V but higher than 4.1 V. Make sure the supplies have the capability to  
supply the current that the loads need. Turn off the supplies.  
2) In order to discharge SW_OUT and LDO_OUT quickly, JP4 and JP5 are  
shorted through jumpers on this EVM. Designers may unplug the jumpers  
and find out the difference. Set one of the six configurations as explained  
in section 2.1. Then connect one or two supplies to the EVM through J1.  
3) Connect loads to the outputs (between SW_OUT and GND, and between  
LDO_OUT and GND) through J2 if required. However, users can test a  
number of characteristics of the controller without external loads.  
If users need to evaluate the dual-current limit for large output capacitance, a  
surface-mount D-size cap footprint is provided (C9) for that purpose. Or, you  
may connect the cap from SW_OUT to GND at J1.  
The LDO output on the EVM is preset to 3.3V by resistor R2 and R3. If a lower  
output is required, either R2 can be replaced with a lower resistance resistor,  
or add an appropriate resistor on TR1 footprint. Refer to the data sheet to get  
the correct resistance value.  
4) Turn on and turn off the power switch and LDO based on the configuration  
you choose.  
5) Test points are provided for oscilloscope probes and/or multimeters.  
2-6  
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Chapter 3  
Changeable Components and Test Points  
C1, C2, C3, C4input capacitors, at least 0.047µF total on each input.  
C5, C6, C8, C9load capacitors, vary according to loads, but C5 plus C6 must  
be at least 4.7 µF.  
R2top resistor of the resistor divider, refer to data sheet for its resistance  
value.  
R1LDO_PG pullup resistor, must be at least 1k.  
A total of 16 test points are provided. Besides four black test points on the four  
corners of the EVM, there are 12 more test points (11 red and 1 black) residing  
on two sides of the white rectangle box at the center of the EVM. Their  
respective testing signals are listed in the following table, when looking at the  
EVM from top down. The test-point orders are listed from top to bottom on both  
sides.  
Table 31.Test Points and Test Signals  
Left-side  
Right-side  
Test-Point Order  
Color  
Red  
Signal  
Test-Point Order  
Color  
Red  
Red  
Red  
Red  
Red  
Red  
Signal  
1
2
3
4
5
6
SW_PG  
SW_IN  
LDO_IN  
SW_EN  
LDO_EN  
GND  
1
2
3
4
5
6
SW_PLDN  
SW_OUT  
LDO_OUT  
LDO_PLDN  
ADJ  
Red  
Red  
Red  
Red  
Black  
LDO_PG  
3-1  
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3-2  
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