TPS2513A [TI]

双路、USB 专用充电端口控制器;


型号：	TPS2513A
厂家：	TEXAS INSTRUMENTS
描述：	双路、USB 专用充电端口控制器控制器
文件：	总24页 (文件大小：1404K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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TPS2513, TPS2513A, TPS2514, TPS2514A

SLVSBY8D –MAY 2013–REVISED JUNE 2020

TPS251xx USB Dedicated Charging Port Controller

1 Features

3 Description

The TPS251xx devices are USB dedicated charging

port (DCP) controllers. An auto-detect feature

monitors USB data line voltage, and automatically

provides the correct electrical signatures on the data

lines to charge compliant devices among the

following dedicated charging schemes:

•

Supports USB DCP shorting D+ line to

D– line per USB battery charging specification,

revision 1.2 (BC1.2)

Supports shorted mode (shorting D+ line to D–

line) per Chinese Telecommunication Industry

Standard YD/T 1591-2009

1. Divider 1 DCP, required to apply 2 V and 2.7 V

on the D+ and D– Lines respectively (TPS2513,

TPS2514)

Supports USB DCP applying 2.7 V on D+ Line

and 2 V on D- line (or USB DCP applying

2 V on D+ line and 2.7 V on D– line) (TPS2513,

TPS2514)

2. Divider 2 DCP, required to apply 2.7 V and 2 V

on the D+ and D– Lines respectively (TPS2513,

TPS2514)

•

Supports USB DCP applying 2.7 V on D+ line and

2.7 V on D- line (TPS2513A, TPS2514A)

3. Divider 3 DCP, required to apply 2.7 V and 2.7 V

on the D+ and D– Lines respectively (TPS2513A,

TPS2514A)

Supports USB DCP applying 1.2 V on

D+ and D– Lines

4. BC1.2 DCP, required to short the D+ Line to the

D– Line

Automatically Switch D+ and D– Lines

Connections for an Attached Device

5. Chinese Telecom Standard YD/T 1591-2009

Shorted Mode, required to short the D+ Line to

the D– Line

Dual USB Port Controller

(TPS2513, TPS2513A)

Single USB port controller

(TPS2514, TPS2514A)

6. 1.2 V on both D+ and D– Lines

Device Information⁽¹⁾

•

Operating range: 4.5 V to 5.5 V

Available in SOT23-6 package

PART NUMBER

PACKAGE

BODY SIZE (NOM)

TPS2513, TPS2514 SOT-23 (6)

2.90 mm x 1.60 mm

2 Applications

(1) For all available packages, see the orderable addendum at

the end of the datasheet.

•

Vehicle USB power chargers

AC-DC adapters with USB ports

Other USB chargers

Simplified Schematic

VBUS

TPS2561A

VBUS

D-

D+

DM1

DP1

GND

0.1µF

5 V

Power

TPS2513

DM2

VBUS

DP2

GND

D-

D+

GND

An IMPORTANT NOTICE at the end of this data sheet addresses availability, warranty, changes, use in safety-critical applications,

intellectual property matters and other important disclaimers. PRODUCTION DATA.

TPS2513, TPS2513A, TPS2514, TPS2514A

SLVSBY8D –MAY 2013–REVISED JUNE 2020

www.ti.com

Table of Contents

8.4 Device Functional Modes........................................ 12

Applications and Implementation ...................... 13

9.1 Application Information............................................ 13

9.2 Typical Applications ................................................ 13

Features.................................................................. 1

Applications ........................................................... 1

Description ............................................................. 1

Revision History..................................................... 2

Device Options....................................................... 3

Pin Configuration and Functions......................... 4

Specifications......................................................... 5

7.1 Absolute Maximum Ratings ...................................... 5

7.2 ESD Ratings.............................................................. 5

7.3 Recommended Operating Conditions....................... 5

7.4 Thermal Information.................................................. 5

7.5 Electrical Characteristics........................................... 6

7.6 Typical Characteristics.............................................. 7

Detailed Description .............................................. 9

8.1 Overview ................................................................... 9

8.2 Functional Block Diagrams ..................................... 10

8.3 Feature Description................................................. 11

10 Power Supply Recommendations ..................... 15

11 Layout................................................................... 15

11.1 Layout Guidelines ................................................. 15

11.2 Layout Example .................................................... 15

12 Device and Documentation Support ................. 16

12.1 Related Links ........................................................ 16

12.2 Receiving Notification of Documentation Updates 16

12.3 Support Resources ............................................... 16

12.4 Trademarks........................................................... 16

12.5 Electrostatic Discharge Caution............................ 16

12.6 Glossary................................................................ 16

13 Mechanical, Packaging, and Orderable

Information ........................................................... 16

4 Revision History

NOTE: Page numbers for previous revisions may differ from page numbers in the current version.

Changes from Revision C (December 2016) to Revision D

Page

•

Changed DIVIDER 2 From: (D+/D– = 2 V/2.7 V) To: (D+/D– = 2.7V / 2V) in the Device Options table ............................... 3

Changed DIVIDER 3 From: (D+/D– = 2 V/2.7 V) To: (D+/D– = 2.7 V/2.7 V) in the Device Options table ............................ 3

Added title to Device Options table ........................................................................................................................................ 3

Changes from Revision B (September 2013) to Revision C

Page

•

Added ESD Rating table, Feature Description section, Device Functional Modes, Application and Implementation

section, Power Supply Recommendations section, Layout section, Device and Documentation Support section, and

Mechanical, Packaging, and Orderable Information section .................................................................................................. 1

Changed DM1 output voltage parameter symbol in Electrical Characteristics From: V_{DM1_2V}To: V_{DM1_2.7V}.......................... 6

Changed DM2 output voltage parameter symbol in Electrical Characteristics From: V_{DM2_2V}To: V_{DM2_2.7V}.......................... 6

•

Changes from Revision A (May 2013) to Revision B

Page

•

Added TPS2513A and TPS2514A devices throughout data sheet........................................................................................ 1

Changed Feature list to specify TPS251, TPS2513A, TPS2514, and TPS2514A devices ................................................... 1

Changed list of charging scheme items in Description........................................................................................................... 1

Changed Divider Mode section of the ELECTRICAL CHARACTERISTICS table to show values for the different devices . 6

Changed Functional Block Diagram for TPS2513, TPS2513A ............................................................................................ 10

Changed Functional Block Diagram for TPS2514, TPS2514A ............................................................................................ 10

Changed section title From: Divider 1 (DCP Applying 2 V on D+ Line and 2.7 V on D– Line) or Divider 2 (DCP

Applying 2.7 V on D+ Line and 2 V on D– Line) To: Divider DCP....................................................................................... 11

•

Changed text in the Divider DCP paragraph........................................................................................................................ 11

Added Divider 3 DCP image................................................................................................................................................. 11

Changed the DCP Auto-Detect section................................................................................................................................ 12

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SLVSBY8D –MAY 2013–REVISED JUNE 2020

5 Device Options

Table 1. Device Options

CHARGING SCHEMES (DCP_AUTO)

1.2-V MODE

(D+/D– SHORTED AND

BIAS TO 1.2 V)

BC1.2 AND YD/T

1591-2009 MODE

(D+/D– SHORTED)

NUMBER OF

DEVICE

DIVIDER 1

DIVIDER 2

DIVIDER 3

CONTROLLER

(D+/D– = 2 V/2.7 V)

(D+/D– = 2.7V / 2V)

(D+/D– = 2.7 V/2.7 V)

TPS2513

TPS2514

Dual

Single

Dual

Yes⁽¹⁾

Yes

TPS2513A

TPS2514A

Yes

Single

(1) See Figure 16

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6 Pin Configuration and Functions

TPS2513x DBV Package

6-Pin SOT-23

Top View

DP1

GND

DP2

DM1

DM2

Not to scale

Pin Functions: TPS2513x

TYPE⁽¹⁾

DESCRIPTION

NO.

NAME

DP1

Connected to the D+ or D– line of USB connector, provide the correct voltage with attached portable equipment for DCP

detection.

I/O

GND

DP2

Ground connection

Connected to the D+ or D– line of USB connector, provide the correct voltage with attached portable equipment for DCP

detection.

I/O

Connected to the D+ or D– line of USB connector, provide the correct voltage with attached portable equipment for DCP

detection.

DM2

I/O

Power supply. Connect a ceramic capacitor with a value of 0.1-µF or greater from the IN pin to GND as close to the device

as possible.

Connected to the D+ or D– line of USB connector, provide the correct voltage with attached portable equipment for DCP

detection.

DM1

I/O

(1) G = Ground, I = Input, O = Output, P = Power

TPS2514x DBV Package

6-Pin SOT-23

Top View

DP1

GND

N/C

DM1

N/C

Not to scale

Pin Functions: TPS2514x

TYPE⁽¹⁾

DESCRIPTION

NO.

NAME

Connected to the D+ or D– line of USB connector, provide the correct voltage with attached portable equipment for

DCP detection.

DP1

I/O

GND

N/C

—

Ground connection

No connect pin. Can be grounded or left floating.

Power supply. Connect a ceramic capacitor with a value of 0.1-µF or greater from the IN pin to GND as close to the

device as possible.

Connected to the D+ or D– line of USB connector, provide the correct voltage with attached portable equipment for

DCP detection.

DM1

I/O

(1) G = Ground, I = Input, O = Output, P = Power

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SLVSBY8D –MAY 2013–REVISED JUNE 2020

7 Specifications

7.1 Absolute Maximum Ratings

over operating free-air temperature range (unless otherwise noted)⁽¹⁾

MIN

–0.3

MAX

UNIT

Voltage

DP1, DP2 output voltage, DM1, DM2 output voltage

DP1, DP2 input voltage, DM1, DM2 input voltage

5.8

Continuous output sink current (DP1, DP2 input current, DM1, DM2 input current)

Continuous output source current ( DP1, DP2 output current, DM1, DM2 output current)

Operating junction temperature, T_J

°C

–40

–65

125

150

Storage temperature, T_stg

°C

(1) Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings

only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under Recommended

Operating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.

7.2 ESD Ratings

VALUE

±2000

±6000

±500

UNIT

Pin 5

Human-body model (HBM), per ANSI/ESDA/JEDEC JS-001⁽¹⁾

Electrostatic

discharge

V_(ESD)

Pins 1, 3, 4, 6

Charged-device model (CDM), per JEDEC specification JESD22-C101⁽²⁾

(1) JEDEC document JEP155 states that 500-V HBM allows safe manufacturing with a standard ESD control process.

(2) JEDEC document JEP157 states that 250-V CDM allows safe manufacturing with a standard ESD control process.

7.3 Recommended Operating Conditions

Voltages are referenced to GND (unless otherwise noted), positive current are into pins.

MIN

MAX

5.5

UNIT

V_IN

Input voltage of IN

4.5

V_DP1

V_DM1

I_DP1

I_DM1

V_DP2

V_DM2

I_DP2

I_DM2

T_J

DP1 data line input voltage

DM1 data line input voltage

Continuous sink or source current

DP2 data line input voltage

DM2 data line input voltage

Continuous sink or source current

Operating junction temperature

5.5

±10

5.5

±10

125

°C

–40

7.4 Thermal Information

TPS2513x, TPS2514x

THERMAL METRIC⁽¹⁾

DBV (SOT-23)

6 PINS

179.9

117.5

41.9

UNIT

R_θJA

Junction-to-ambient thermal resistance

Junction-to-case (top) thermal resistance

Junction-to-board thermal resistance

°C/W

R_θJC(top)

R_θJB

ψ_JT

Junction-to-top characterization parameter

Junction-to-board characterization parameter

Junction-to-case (bottom) thermal resistance

17.2

ψ_JB

41.5

R_θJC(bot)

—

(1) For more information about traditional and new thermal metrics, see the IC Package Thermal Metrics application report.

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7.5 Electrical Characteristics

Conditions are –40°C ≤ (T_J= T_A) ≤ 125°C and 4.5 V ≤ V_IN≤ 5.5 V. Positive current are into pins. Typical values are at 25°C.

All voltages are with respect to GND (unless otherwise noted).

PARAMETER

UNDERVOLTAGE LOCKOUT

TEST CONDITIONS

MIN

TYP

MAX UNIT

V_UVLO

IN rising UVLO threshold voltage

Hysteresis⁽¹⁾

3.9

4.1

4.3

100

SUPPLY CURRENT

I_IN

IN supply current

4.5 V ≤ V _IN≤ 5.5 V

155

200

µA

BC 1.2 DCP MODE (SHORT MODE)

R_{DPM_SHORT1}DP1 and DM1 shorting resistance

R_{DCHG_SHORT1}

V_DP1= 0.8 V, I_DM1= 1 mA

V_DP1= 0.8 V

157

656

200

Resistance between DP1/DM1 and GND

350

310

1150

kΩ

Voltage threshold on DP1 (under which the

device goes back to divider mode)

V_{DPL_TH_DETACH1}

330

350

V_{DPL_TH_DETACH_HYS1}

R_{DPM_SHORT2}

Hysteresis⁽¹⁾

157

656

DP2 and DM2 shorting resistance

Resistance between DP2/DM2 and GND

V_DP2= 0.8V, I_DM2= 1 mA

V_DP2= 0.8 V

200

R_{DCHG_SHORT2}

350

310

1150

kΩ

Voltage threshold on DP2 (under which the

device goes back to divider mode)

Hysteresis⁽¹⁾

V_{DPL_TH_DETACH2}

330

350

V_{DPL_TH_DETACH_HYS2}

DIVIDER MODE (TPS2513, TPS2514)

V_{DP1_2.7V}DP1 output voltage

V_{DM1_2V}

V_IN= 5 V

2.57

1.9

2.7

2.84

2.1

DM1 output voltage

V_IN= 5 V

R_{DP1_PAD1}

R_{DM1_PAD1}

V_{DP2_2.7V}

V_{DM2_2V}

DP1 output impedance

DM1 output impedance

DP2 output voltage

I_DP1= –5 µA

I_DM1= –5 µA

V_IN= 5 V

2.7

kΩ

2.57

1.9

2.84

2.1

DM2 output voltage

V_IN= 5 V

R_{DP2_PAD1}

R_{DM2_PAD1}

DP2 output impedance

DM2 output impedance

I_DP2= –5 µA

I_DM2= –5 µA

kΩ

DIVIDER MODE (TPS2513A, TPS2514A)

V_{DP1_2.7V}

DP1 output voltage

V_IN= 5 V

2.57

2.7

2.84

V_{DM1_2.7V}

DM1 output voltage

DP1 output impedance

DM1 output impedance

DP2 output voltage

V_IN= 5 V

R_{DP1_PAD1}

R_{DM1_PAD1}

V_{DP2_2.7V}

I_DP1= –5 µA

I_DM1= –5 µA

V_IN= 5 V

kΩ

2.57

2.7

2.84

V_{DM2_2.7V}

DM2 output voltage

DP2 output impedance

DM2 output impedance

V_IN= 5 V

R_{DP2_PAD1}

R_{DM2_PAD1}

1.2 V / 1.2 V MODE

V_{DP1_1.2V}

I_DP2= –5 µA

I_DM2= –5 µA

kΩ

DP1 output voltage

V_IN= 5 V

1.12

1.2

1.28

130

1.28

130

V_{DM1_1.2V}

DM1 output voltage

DP1 output impedance

DM1 output impedance

DP2 output voltage

V_IN= 5 V

R_{DM1_PAD2}

R_{DP1_PAD2}

V_{DP2_1.2V}

I_DP1= –5 µA

I_DM1= –5 µA

V_IN= 5 V

102

1.2

kΩ

1.12

V_{DM2_1.2V}

DM2 output voltage

DP2 output impedance

DM2 output impedance

V_IN= 5 V

1.2

R_{DP2_PAD2}

R_{DM2_PAD2}

I_DP2= –5 µA

I_DM2= –5 µA

102

kΩ

(1) Parameters provided for reference only, and do not constitute part of TI's published device specifications for purposes of TI's product

warranty.

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SLVSBY8D –MAY 2013–REVISED JUNE 2020

7.6 Typical Characteristics

VDVIN

DM1

DP1

œ1

œ0.008 œ0.006 œ0.004 œ0.002

0.000

0.002

0.004

-0.04

-0.02

0.02

0.04

0.06

0.08

0.1

C001

C002

Time (s)

Figure 1. Power On (DM1 and DP1)

Figure 2. Power Off (DM1 and DP1)

VDVIN

DM2

DM1

DP2

œ1

œ0.008 œ0.006 œ0.004 œ0.002

0.000

0.002

0.004

-0.04

-0.02

0.02

0.04

0.06

0.08

0.1

C003

C004

Time (s)

Figure 3. Power On (DM2 and DP2)

Figure 4. Power Off (DM2 and DP2)

3.2

2.8

2.4

3.2

2.8

2.4

V_IN= 5 V

VD_DP_P1₁

VD_DP_P1₂

D_DM_M1₁

D_DM_M1₂

1.6

œ40 œ20

100 120 140

œ40 œ20

100 120 140

C005

C006

T_JJunction Temperature (°C)

Figure 5. DP1 and DM1 Output Voltage vs Temperature

Figure 6. DP2 and DM2 Output Voltage vs Temperature

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Typical Characteristics (continued)

180

V_IN= 5 V

170

160

150

140

130

œ40 œ20

100 120 140

C007

T_JJunction Temperature (°C)

Figure 7. Supply Current vs Temperature

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SLVSBY8D –MAY 2013–REVISED JUNE 2020

8 Detailed Description

8.1 Overview

The following overview references various industry standards. TI always recommends consulting the latest

standard to ensure the most recent and accurate information.

Rechargeable portable equipment requires an external power source to charge its batteries. USB ports are

convenient locations for charging because of an available 5-V power source. Universally accepted standards are

required to ensure host and client-side devices meet the power management requirements. Traditionally, USB

host ports following the USB 2.0 Specification must provide at least 500 mA to downstream client-side devices.

Because multiple USB devices can be attached to a single USB port through a bus-powered hub, it is the

responsibility of the client-side device to negotiate the power allotment from the host to ensure the total current

draw does not exceed 500 mA. In general, each USB device can subsequently request more current which is

granted in steps of 100 mA, up 500 mA total. The host may grant or deny the request based on the available

current.

Additionally, the success of the USB technology makes the micro-USB connector a popular choice for wall

adapter cables. This allows a portable device to charge from both a wall adapter and USB port with only one

connector.

One common difficulty has resulted from this. As USB charging has gained popularity, the 500-mA minimum

defined by the USB 2.0 Specification or 900 mA defined in the USB 3.0 Specification, has become insufficient for

many handsets, tablets and personal media players (PMP) which have a higher rated charging current. Wall

adapters and car chargers can provide much more current than 500 mA or 900 mA to fast charge portable

devices. Several new standards have been introduced defining protocol handshaking methods that allow host

and client devices to acknowledge and draw additional current beyond the 500 mA (defined in the USB 2.0

Specification) or 900 mA (defined in the USB 3.0 Specification) minimum while using a single micro-USB input

connector.

The devices support four of the most common protocols:

•

USB Battery Charging Specification, Revision 1.2 (BC1.2)

Chinese Telecommunications Industry Standard YD/T 1591-2009

Divider mode

1.2 V on both D+ and D– lines

YD/T 1591-2009 is a subset of the BC1.2 specification supported by the vast majority of devices that implement

USB charging. Divider and 1.2-V charging schemes are supported in devices from specific yet popular device

makers. BC1.2 has three different port types, listed as follows.

•

Standard downstream port (SDP)

Charging downstream port (CDP)

Dedicated charging port (DCP)

The BC1.2 Specification defines a charging port as a downstream facing USB port that provides power for

charging portable equipment.

Table 2 shows different port operating modes according to the BC1.2 Specification.

Table 2. Operating Modes

SUPPORTS USB 2.0

COMMUNICATION

MAXIMUM ALLOWABLE CURRENT

DRAWN BY PORTABLE EQUIPMENT (A)

PORT TYPE

SDP (USB 2.0)

SDP (USB 3.0)

CDP

Yes

0.5

0.9

1.5

DCP

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The BC1.2 Specification defines the protocol necessary to allow portable equipment to determine what type of

port it is connected to so that it can allot its maximum allowable current drawn. The hand-shaking process is two

steps. During step one, the primary detection, the portable equipment outputs a nominal 0.6-V output on its D+

line and reads the voltage input on its D– line. The portable device concludes it is connected to a SDP if the

voltage is less than the nominal data detect voltage of 0.3 V. The portable device concludes that it is connected

to a Charging Port if the D– voltage is greater than the nominal data detect voltage of 0.3 V and less than 0.8 V.

The second step, the secondary detection, is necessary for portable equipment to determine between a CDP and

a DCP. The portable device outputs a nominal 0.6-V output on its D– line and reads the voltage input on its D+

line. The portable device concludes it is connected to a CDP if the data line being remains is less than the

nominal data detect voltage of 0.3 V. The portable device concludes it is connected to a DCP if the data line

being read is greater than the nominal data detect voltage of 0.3 V and less than 0.8 V.

8.2 Functional Block Diagrams

DM1

Auto-detect

DP1

2.7V

V_DM1

1.2V

UVLO

DM2

DRIVER

Auto-detect

GND

DP2

2.7V

V_DM2

1.2V

TPS2513: V_DM1/ V_DM2= 2 V

TPS2513A: V_DM1/ V_DM2= 2.7 V

Figure 8. Functional Block Diagram, TPS2513, TPS2513A

DM1

Auto-detect

UVLO

DP1

2.7V

V_DM1

1.2V

DRIVER

N/C

TPS2514: V_DM1= 2 V

TPS2514A: V_DM1= 2.7 V

GND

Figure 9. Functional Block Diagram, TPS2514, TPS2514A

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8.3 Feature Description

8.3.1 Dedicated Charging Port (DCP)

A dedicated charging port (DCP) is a downstream port on a device that outputs power through a USB connector

but is not capable of enumerating a downstream device, which generally allows portable devices to fast charge at

their maximum rated current. A USB charger is a device with a DCP, such as a wall adapter or car power

adapter. A DCP is identified by the electrical characteristics of its data lines. The following DCP identification

circuits are usually used to meet the handshaking detections of different portable devices.

8.3.2 Short the D+ Line to the D– Line

The USB BC1.2 Specification and the Chinese Telecommunications Industry Standard YD/T 1591-2009 define

that the D+ and D– data lines must be shorted together with a maximum series impedance of 200 Ω. This is

shown in Figure 10.

V_BUS

5.0 V

D-

^{200 Ω (max)}D+

GND

Figure 10. DCP Short Mode

8.3.3 Divider DCP

There are three charging schemes for divider DCP. They are named after Divider 1, Divider 2, and Divider 3

DCPs that are shown in Figure 11, Figure 12, and Figure 13. The Divider 1 charging scheme is used for 5-W

adapters, and applies 2 V to the D+ line and 2.7 V to the D– data line. The Divider 2 charging scheme is used for

10-W adapters, and applies 2.7 V on the D+ line and 2 V is applied on the D– line. The Divider 3 charging

scheme is used for 12-W adapters, and applies 2.7 V on D+ and D– lines.

V_BUS

5.0 V

D-

D+

2.7 V

2.0 V

2.7 V

2.0 V

2.7 V

GND

Figure 11. Divider 1 DCP

Figure 12. Divider 2 DCP

Figure 13. Divider 3 DCP

8.3.4 Applying 1.2 V to the D+ Line and 1.2 V to the D– Line

As shown in Figure 14, some tablet USB chargers require 1.2 V on the shorted data lines of the USB connector.

The maximum resistance between the D+ line and the D– line is 200 Ω.

V_BUS

5.0 V

D-

^{200 Ω (max)}D+

1.2 V

GND

Figure 14. DCP Applying 1.2 V to the D+ Line and 1.2 V to the D– Line

The devices are USB dedicated charging port (DCP) controllers. Applications include vehicle power charger, wall

adapters with USB DCP and other USB chargers. The device DCP controllers have the auto-detect feature that

monitors the D+ and D– line voltages of the USB connector, providing the correct electrical signatures on the DP

and DM pins for the correct detections of compliant portable devices to fast charge. These portable devices

include smart phones, 5-V tablets and personal media players.

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TPS2513, TPS2513A, TPS2514, TPS2514A

SLVSBY8D –MAY 2013–REVISED JUNE 2020

www.ti.com

Feature Description (continued)

8.3.5 DCP Auto-Detect

The devices integrate an auto-detect feature to support divider mode, short mode and 1.2 V / 1.2 V modes. If a

divider device is attached, 2.7 V is applied to the DP pin and 2 V is applied to the DM pin. If a BC1.2-compliant

device is attached, the TPS2513 and TPS2514 automatically switches into short mode. If a device compliant with

the 1.2 V / 1.2 V charging scheme is attached, 1.2 V is applied on both the DP pin and the DM pin. The

functional diagram of DCP auto-detect feature (DM1 and DP1) is shown in Figure 15. DCP auto-detect feature

(DM2 and DP2 of TPS2513) has the same functional configuration. For TPS2513A and TPS2514A, the devices

also have DCP auto-detect feature and the auto-detect have the same functional configuration expect for the

default mode is Divider 3 (D+/D– = 2.7 V / 2.7 V).

5 V

V_BUS

Divider 2

S1, S2: ON

D-

DM1

DP1

S3, S4: OFF

Short Mode

S4 ON

D+

S1, S2, S3: OFF

GND

1.2V on DP1 and DM1

S3, S4: ON

2.0V 2.7V

1.2 V

GND

S1, S2: OFF

TPS2513, TPS2514

Figure 15. TPS2513 and TPS2514 DCP Auto-Detect Functional Diagram

8.3.6 Undervoltage Lockout (UVLO)

The undervoltage lockout (UVLO) circuit disables DP1, DM1, DP2 and DM2 output voltage until the input voltage

reaches the UVLO turnon threshold. Built-in hysteresis prevents unwanted oscillations due to input voltage drop

from large current surges.

8.4 Device Functional Modes

The devices operate in DCP mode and automatically monitor the voltage of the USB data lines, and provide the

correct electronic signatures on the data lines to charge compliant devices.

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Product Folder Links: TPS2513 TPS2513A TPS2514 TPS2514A

TPS2513, TPS2513A, TPS2514, TPS2514A

www.ti.com

SLVSBY8D –MAY 2013–REVISED JUNE 2020

9 Applications and Implementation

NOTE

Information in the following applications sections is not part of the TI component

specification, and TI does not warrant its accuracy or completeness. TI’s customers are

responsible for determining suitability of components for their purposes. Customers should

validate and test their design implementation to confirm system functionality.

9.1 Application Information

The TPS251xx devices are USB dedicated charging port. The devices only provide the correct electrical

signatures on the data lines of USB charger port and do not provide any power for the VBUS. Below is typical

applications for USB charging ports.

9.2 Typical Applications

5.0 V

V_BUS

D-

V_BUS

D-

DM1

TPS2513, TPS2514

DP1

DM1

TPS2513, TPS2514

DP1

D+

GND

Figure 16. 5-W USB Charger Application

Figure 17. 10-W USB Charger Application

9.2.1 Design Requirements

Table 3 lists the design parameters for this example.

Table 3. Design Parameters

PARAMETER

Input voltage, V_(IN)

VALUE

5 V

Output voltage, V_(DC)

5 V

Maximum continuous output current, I_(OUT)

2.5 A

9.2.2 Detailed Design Procedure

9.2.2.1 Divide Mode Selection of 5-W and 10-W USB Chargers

The TPS2513 and TPS2514 provide two types of connections between the DP pin and the DM pin and between

the D+ data line and the D– data line of the USB connector for a 5-W USB charger and a 10-W USB charger

with a single USB port. For 5-W USB charger, the DP1 pin is connected to the D– line and the DM1 pin is

connected to the D+ line. This is shown in Figure 16. For 10-W USB charger, the DP1 pin is connected to the D+

line and the DM1 pin is connected to the D– line. This is shown in Figure 17. Table 4 shows different charging

schemes for both 5-W and 10-W USB charger solutions. DP2 and DM2 of TPS2513 also provides this two types

of connections.

Table 4. Charging Schemes for 5-W And 10-W USB Chargers

USB CHARGER TYPE

CONTAINING CHARGING SCHEMES

1.2 V on both D+ and D– Lines

5-W

Divider 1

Divider 2

BC1.2 DCP

10-W

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TPS2513, TPS2513A, TPS2514, TPS2514A

SLVSBY8D –MAY 2013–REVISED JUNE 2020

www.ti.com

9.2.3 Application Curves

Figure 18. POWER ON (DM1 and DP1)

Figure 19. POWER OFF (DM1 and DP1)

Figure 20. POWER ON (DM2 and DP2)

Figure 21. POWER OFF (DM2 and DP2)

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TPS2513, TPS2513A, TPS2514, TPS2514A

www.ti.com

SLVSBY8D –MAY 2013–REVISED JUNE 2020

10 Power Supply Recommendations

The devices are designed for a supply-voltage range of 4.5 V ≤ V_IN≤ 5.5 V. If the input supply is placed more

than a few inches from the device, an input ceramic bypass capacitor higher than 0.1 µF is recommended. The

undervoltage lockout (UVLO) circuit disables DP1, DM1, DP2, and DM2 output voltage until the input voltage

reaches the UVLO turnon threshold.

11 Layout

11.1 Layout Guidelines

Place the devices near the USB output connector and place the 0.1-µF bypass capacitor near the IN pin.

11.2 Layout Example

Figure 22. Layout Recommendation

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Product Folder Links: TPS2513 TPS2513A TPS2514 TPS2514A

TPS2513, TPS2513A, TPS2514, TPS2514A

SLVSBY8D –MAY 2013–REVISED JUNE 2020

www.ti.com

12 Device and Documentation Support

12.1 Related Links

The table below lists quick access links. Categories include technical documents, support and community

resources, tools and software, and quick access to sample or buy.

Table 5. Related Links

TECHNICAL

DOCUMENTS

TOOLS &

SOFTWARE

SUPPORT &

COMMUNITY

PARTS

PRODUCT FOLDER

SAMPLE & BUY

TPS2513

TPS2513A

TPS2514

Click here

TPS2514A

12.2 Receiving Notification of Documentation Updates

To receive notification of documentation updates, navigate to the device product folder on ti.com. In the upper

right corner, click on Alert me to register and receive a weekly digest of any product information that has

changed. For change details, review the revision history included in any revised document.

12.3 Support Resources

TI E2E™ support forums are an engineer's go-to source for fast, verified answers and design help — straight

from the experts. Search existing answers or ask your own question to get the quick design help you need.

Linked content is provided "AS IS" by the respective contributors. They do not constitute TI specifications and do

not necessarily reflect TI's views; see TI's Terms of Use.

12.4 Trademarks

E2E is a trademark of Texas Instruments.

All other trademarks are the property of their respective owners.

12.5 Electrostatic Discharge Caution

These devices have limited built-in ESD protection. The leads should be shorted together or the device placed in conductive foam

during storage or handling to prevent electrostatic damage to the MOS gates.

12.6 Glossary

SLYZ022 — TI Glossary.

This glossary lists and explains terms, acronyms, and definitions.

13 Mechanical, Packaging, and Orderable Information

The following pages include mechanical, packaging, and orderable information. This information is the most

current data available for the designated devices. This data is subject to change without notice and revision of

this document. For browser-based versions of this data sheet, refer to the left-hand navigation.

Submit Documentation Feedback

Product Folder Links: TPS2513 TPS2513A TPS2514 TPS2514A

PACKAGE OPTION ADDENDUM

www.ti.com

10-Dec-2020

PACKAGING INFORMATION

Orderable Device

Status Package Type Package Pins Package

Eco Plan

Lead finish/

Ball material

MSL Peak Temp

Op Temp (°C)

Device Marking

Samples

Drawing

Qty

(1)

(2)

(3)

(4/5)

(6)

TPS2513ADBVR

TPS2513ADBVT

TPS2513DBVR

TPS2513DBVT

TPS2514ADBVR

TPS2514ADBVT

TPS2514DBVR

TPS2514DBVT

ACTIVE

SOT-23

DBV

3000 RoHS & Green

250 RoHS & Green

3000 RoHS & Green

250 RoHS & Green

3000 RoHS & Green

250 RoHS & Green

3000 RoHS & Green

250 RoHS & Green

NIPDAU

Level-1-260C-UNLIM

-40 to 125

PB2Q

2513

PB3Q

2514

NIPDAU

⁽¹⁾The marketing status values are defined as follows:

ACTIVE: Product device recommended for new designs.

LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.

NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.

PREVIEW: Device has been announced but is not in production. Samples may or may not be available.

OBSOLETE: TI has discontinued the production of the device.

⁽²⁾RoHS: TI defines "RoHS" to mean semiconductor products that are compliant with the current EU RoHS requirements for all 10 RoHS substances, including the requirement that RoHS substance

do not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, "RoHS" products are suitable for use in specified lead-free processes. TI may

reference these types of products as "Pb-Free".

RoHS Exempt: TI defines "RoHS Exempt" to mean products that contain lead but are compliant with EU RoHS pursuant to a specific EU RoHS exemption.

Green: TI defines "Green" to mean the content of Chlorine (Cl) and Bromine (Br) based flame retardants meet JS709B low halogen requirements of <=1000ppm threshold. Antimony trioxide based

flame retardants must also meet the <=1000ppm threshold requirement.

⁽³⁾MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.

⁽⁴⁾There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device.

⁽⁵⁾Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation

of the previous line and the two combined represent the entire Device Marking for that device.

Addendum-Page 1

PACKAGE OPTION ADDENDUM

www.ti.com

10-Dec-2020

(6)

Lead finish/Ball material - Orderable Devices may have multiple material finish options. Finish options are separated by a vertical ruled line. Lead finish/Ball material values may wrap to two

lines if the finish value exceeds the maximum column width.

Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information

provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and

continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.

TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.

In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.

OTHER QUALIFIED VERSIONS OF TPS2513A, TPS2514A :

Automotive: TPS2513A-Q1, TPS2514A-Q1

•

NOTE: Qualified Version Definitions:

Automotive - Q100 devices qualified for high-reliability automotive applications targeting zero defects

•

Addendum-Page 2

PACKAGE MATERIALS INFORMATION

www.ti.com

13-Feb-2023

TAPE AND REEL INFORMATION

REEL DIMENSIONS

TAPE DIMENSIONS

Reel

Diameter

Cavity

A0 Dimension designed to accommodate the component width

B0 Dimension designed to accommodate the component length

K0 Dimension designed to accommodate the component thickness

Overall width of the carrier tape

P1 Pitch between successive cavity centers

Reel Width (W1)

QUADRANT ASSIGNMENTS FOR PIN 1 ORIENTATION IN TAPE

Sprocket Holes

Q1 Q2

Q3 Q4

Q1 Q2

Q3 Q4

User Direction of Feed

Pocket Quadrants

*All dimensions are nominal

Device

Package Package Pins

Type Drawing

SPQ

Reel

Pin1

Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant

(mm) W1 (mm)

TPS2513ADBVR

TPS2513ADBVT

TPS2513DBVR

TPS2513DBVT

TPS2514ADBVR

TPS2514ADBVT

TPS2514DBVR

TPS2514DBVT

SOT-23

DBV

3000

250

178.0

180.0

9.0

8.4

3.23

3.2

3.17

3.2

1.37

1.4

4.0

8.0

3000

250

3000

250

3000

250

3.2

1.4

Pack Materials-Page 1

PACKAGE MATERIALS INFORMATION

www.ti.com

13-Feb-2023

TAPE AND REEL BOX DIMENSIONS

Width (mm)

*All dimensions are nominal

Device

Package Type Package Drawing Pins

SPQ

Length (mm) Width (mm) Height (mm)

TPS2513ADBVR

TPS2513ADBVT

TPS2513DBVR

TPS2513DBVT

TPS2514ADBVR

TPS2514ADBVT

TPS2514DBVR

TPS2514DBVT

SOT-23

DBV

3000

250

180.0

210.0

180.0

185.0

18.0

35.0

3000

250

3000

250

3000

250

Pack Materials-Page 2

PACKAGE OUTLINE

DBV0006A

SOT-23 - 1.45 mm max height

SMALL OUTLINE TRANSISTOR

3.0

2.6

0.1 C

1.75

1.45

1.45 MAX

PIN 1

INDEX AREA

2X 0.95

1.9

3.05

2.75

0.50

0.25

C A B

0.15

0.00

0.2

(1.1)

TYP

0.25

GAGE PLANE

0.22

0.08

TYP

0.6

0.3

TYP

SEATING PLANE

4214840/C 06/2021

NOTES:

1. All linear dimensions are in millimeters. Any dimensions in parenthesis are for reference only. Dimensioning and tolerancing

per ASME Y14.5M.

2. This drawing is subject to change without notice.

3. Body dimensions do not include mold flash or protrusion. Mold flash and protrusion shall not exceed 0.25 per side.

4. Leads 1,2,3 may be wider than leads 4,5,6 for package orientation.

5. Refernce JEDEC MO-178.

www.ti.com

EXAMPLE BOARD LAYOUT

DBV0006A

SOT-23 - 1.45 mm max height

SMALL OUTLINE TRANSISTOR

PKG

6X (1.1)

6X (0.6)

SYMM

2X (0.95)

(R0.05) TYP

(2.6)

LAND PATTERN EXAMPLE

EXPOSED METAL SHOWN

SCALE:15X

SOLDER MASK

OPENING

SOLDER MASK

OPENING

METAL UNDER

SOLDER MASK

METAL

EXPOSED METAL

0.07 MIN

ARROUND

0.07 MAX

ARROUND

NON SOLDER MASK

DEFINED

SOLDER MASK

DEFINED

(PREFERRED)

SOLDER MASK DETAILS

4214840/C 06/2021

NOTES: (continued)

6. Publication IPC-7351 may have alternate designs.

7. Solder mask tolerances between and around signal pads can vary based on board fabrication site.

www.ti.com

EXAMPLE STENCIL DESIGN

DBV0006A

SOT-23 - 1.45 mm max height

SMALL OUTLINE TRANSISTOR

PKG

6X (1.1)

6X (0.6)

SYMM

2X(0.95)

(R0.05) TYP

(2.6)

SOLDER PASTE EXAMPLE

BASED ON 0.125 mm THICK STENCIL

SCALE:15X

4214840/C 06/2021

NOTES: (continued)

8. Laser cutting apertures with trapezoidal walls and rounded corners may offer better paste release. IPC-7525 may have alternate

design recommendations.

9. Board assembly site may have different recommendations for stencil design.

www.ti.com

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TI PROVIDES TECHNICAL AND RELIABILITY DATA (INCLUDING DATA SHEETS), DESIGN RESOURCES (INCLUDING REFERENCE

DESIGNS), APPLICATION OR OTHER DESIGN ADVICE, WEB TOOLS, SAFETY INFORMATION, AND OTHER RESOURCES “AS IS”

AND WITH ALL FAULTS, AND DISCLAIMS ALL WARRANTIES, EXPRESS AND IMPLIED, INCLUDING WITHOUT LIMITATION ANY

IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT OF THIRD

PARTY INTELLECTUAL PROPERTY RIGHTS.

These resources are intended for skilled developers designing with TI products. You are solely responsible for (1) selecting the appropriate

TI products for your application, (2) designing, validating and testing your application, and (3) ensuring your application meets applicable

standards, and any other safety, security, regulatory or other requirements.

These resources are subject to change without notice. TI grants you permission to use these resources only for development of an

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is granted to any other TI intellectual property right or to any third party intellectual property right. TI disclaims responsibility for, and you

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TI’s products are provided subject to TI’s Terms of Sale or other applicable terms available either on ti.com or provided in conjunction with

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TI objects to and rejects any additional or different terms you may have proposed. IMPORTANT NOTICE

Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265

TPS2513A [TI]

相关型号：

TPS2513A-Q1

TPS2513ADBVR

TPS2513ADBVT

TPS2513AQDBVRQ1

TPS2513AQDBVTQ1

TPS2513DBVR

TPS2513DBVT

TPS2514

TPS2514

TPS2514A

TPS2514A

TPS2514A-Q1