USB2514BI-AEZG-TR - MICROCHIP TECHNOLOGY

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 1

General Description

The Microchip USB251xB/xBi hub is a family of low-

power, configurable, MTT (multi transaction transl ator)

hub controller IC products for embedded USB solu-

tions. The x in the part number indicates the number of

downstream ports available, while the B indicate s bat-

tery charging support. The Microchip hub supports low-

speed, full-speed, and hi-speed (if operating as a hi-

speed hub) down stream devices on all of the enabled

downstream ports.

Highlights

• High performance, low-power, small footprint hub

controller IC with 2, 3, or 4 downstream ports

• Fully compliant with the USB 2.0 Specification [1]

• Enhanced OEM configuration options available

through either a single serial I2C EEPROM, or

SMBus slave port

•MultiTRAKTM

- High-performance multiple transaction trans-

lator which provides one transaction transla-

tor per port

•PortMap

- Flexi ble port mapping and disable seque nc-

ing

•PortSwap

- Programmable USB differential-pair pin loca-

tions ease PCB design by ali g ni n g USB sig-

nal lines directly to connectors

•PHYBoost

- Programmable USB signal drive strength for

recovering signal integrity using 4-level driv-

ing strength resolution

Features

• USB251xB/xBi products are fully footprint com-

patible with USB251x/xi/xA/xAi products as direct

drop-in replacements

— Cost savings include using the same PCB

components and application of USB-IF Compliance

by Similarity

• Full power management with individual or ganged

power control of each downstream port

• Fully integrated USB termination and pull-up/pull-

down resistors

• Supports a single external 3.3 V supply source;

internal regulators provide 1.2 V internal core volt-

age

• Onboard 24 MHz crystal driver or external

24 MHz clock input

• Customizable vendor ID, product ID, and device

• 4 kilovolts of HBM JESD22-A1 14F ESD protection

(powered and unpower ed)

• Supports self- or bus-powered operation

• Supports the USB Battery Charging specification

Rev. 1.1 for Charging Down stream Ports (CDP)

• The USB251xB/xBi offers the following packages:

- 36-pin SQFN (6x6 mm) (Preferred)

- 36-pin QFN (6x6 mm) (Legacy)

• USB251xBi products support the industrial tem-

perature range of -40ºC to +85ºC

• USB251xB products support the extended com-

mercial temperature range of 0ºC to +85ºC

Applications

• LCD monitors and TVs

• Multi-function USB peripherals

• PC motherboards

• Set-top boxes, DVD players, DVR/PVR

• Printers and scanners

• PC media drive bay

• Portable hub boxes

• Mobile PC docking

• Embedded systems

USB251xB/xBi

USB 2.0 Hi-Speed Hub Controller

USB251xB/xBi

DS00001692C-page 2  2010 - 2015 Microchip Technology Inc.

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To determine if an errata sheet exists for a particular device, please check with one of the following:

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When contacting a sales office, please specify which device, revision of silicon and data sheet (include -literature number) you are

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Customer Notific at ion Syst em

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 3

USB251xB/xBi

Table of Contents

1.0 Introduction ..................................................................................................................................................................................... 4

2.0 Block Diagram ................................................................................................................................................................................. 6

3.0 Pin Information ................................................................................................................................................................................ 7

4.0 Battery Charging Support ............................................................................................................................................................. 17

5.0 Initial Interface/Configuration Options ........................................................................................................................................... 19

6.0 DC Parameters ............................................................................................................................................................................. 39

7.0 AC Specifications .......................................................................................................................................................................... 44

8.0 Package Marking Information ....................................................................................................................................................... 46

9.0 Package Information ..................................................................................................................................................................... 48

Appendix A: Acronyms .......................... ............................................................................................................................. ................. 50

Appendix B: References ..................................................................................................................................................................... 51

Appendix C: Data Sheet Revision History .......................................................................................................................................... 52

The Microchip Web Site ...................................................................................................................................................................... 54

Customer Change Notification Service ............................................................................................................................................... 54

Customer Support ............................................................................................................................................................................... 54

Product Identification System ............................................................................................................................................................. 55

USB251xB/xBi

DS00001692C-page 4  2010 - 2015 Microchip Technology Inc.

1.0 INTRODUCTION

The Microchip USB251xB/xBi hub family is a g roup of low- power, configurable, MTT (multi transaction transla tor) hub

controller ICs. The hub provides downstream ports for embedded USB solutions and is fully compliant with the USB 2.0

Specification [1]. Each of the hub controllers can attach to an upstream port as a full-spe ed or full-/hi-speed hub. The

hub can support low-speed, full-speed, and hi-speed downstream devices when operating as a hi-speed hub.

All required resistors on the USB ports are integrated into the hub. This includes all series termination resistors and all

required pull-down and pul l-up resistors on D+ and D- pins. The over-curren t sense inputs for the downstream facing

ports have internal pull-up resistors.

The USB251xB/xBi hub family includes programmable features, such as:

•MultiTRAKTM Technology: implements a dedicated T ransaction Translator (TT) for each port. Dedicated TTs help

maintain consistent full-speed data throughput regardless of the number of active downstream connections.

•PortMap: provides flexible port mapping and disable sequences. The downstream ports of a USB251xB/xBi hub

can be reordered or disabled in any sequence to support multiple platform designs with minimum effort. For any

port that is disabled, the USB251xB/xBi hub controller automa tically reorders the remaining ports to match the

USB host controller’s port numbering scheme.

•PortSwap: allows direct alignment of USB signals (D+/D-) to connectors to avoid uneven trace length or crossing

of the USB differential signals on the PCB.

•PHYBoost: enables 4 programmable levels of USB signal dr ive strength in downstream port transceivers. PHY-

Boost will also attempt to restore USB signal integrity.

1.1 Configurable Features

The USB251xB/xBi hub controller provides a default configuration that may be sufficient for most applications. Strapping

option pins (see Section 3.3.1 on page 14) provide additional features to enhance th e default configuration. When the

hub is initialized in the default configuration, the following features may be configured usin g the strapping options:

• Downstream non-removable ports, where the hub will automatically report as a compound device

• Downstream disable d ports

• Enabling of battery charging option on individual ports

• The USB251xB/xBi hub controllers can alternatively be configured by an external I2C EEPROM or a microcontrol-

ler as an SMBus slave device. When the hub is configured by an I2C EEPROM or over SMBus, the following con-

figurable features are provided:

• Support for compound devices on a port-by-po rt basis

• Selectable over-current sensing and port power control on an individual or ganged basis to match the circuit board

component selection

• Customizable vendor ID, product ID, and device ID

• Configurable USB signal drive strength

• Configurable USB differential pair pin location

• Configurable delay time for filtering the over-current sense in puts

• Configurable downstream port power-on time reported to the host

• Indication of the maximum current that the hub consumes from the USB upstream port

• Indication of the maximum current required for the hub controller

• Custom string descriptors (up to 31 characters):

- Product

- Manufacturer

- Serial number

• Battery charging USB251xB/xBi products are fully footprint compatible with USB251x/xi/xA/xAi products:

-Pin-compatible

- Direct drop-in replacement

- Use the same PCB components

- USB-IF Compliance by Similarity for ease of use and a complete cost reduction solution

- Product IDs, device IDs, and other register defaults may differ. See Section 5.1 on page 19 for details.

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 5

USB251xB/xBi

Conventions

Within this manual, the follow ing abbreviations and symbols are used to improve readability.

TABLE 1-1: SUMMARY OF COMPATIBILITIES BETWEEN USB251XB/XBI AND

USB251X/XI/XA/XAI PRODUCTS

Part

Number Drop-in Replacement

USB2512 USB2512B

USB2512i USB2512Bi

USB2512A USB2512B

USB2512Ai USB2512Bi

USB2513 USB2513B

USB2513i USB2513Bi

USB2514 USB2514B

USB2514i USB2514Bi

Example Description

BIT Name of a single bit within a field

FIELD.BIT Name of a single bit (BIT) in FIELD

x…y Range from x to y, inclusive

BITS[m:n] Groups of bits from m to n, inclusive

PIN Pin Name

zzzzb Binary number (value zzzz)

0xzzz Hexadecimal number (value zzz)

zzh Hexadecimal number (value zz)

rsvd Reserved memory location. Must write 0, read value indeterminate

code Instruction code , or API fu nction or parameter

Section Name Section or Document name

x Don’t care

<Parameter> <> indicate a Parameter is optional or is only used under some conditions

{,Parameter} Braces indicate Parameter(s) that repeat one or more times

[Parameter] Brackets indicate a nested Parameter. This Parameter is not real and actually

decodes into one or more real parameters.

USB251xB/xBi

DS00001692C-page 6  2010 - 2015 Microchip Technology Inc.

2.0 BLOCK DIAGRAM

FIGURE 2-1: USB251XB/XBI HUB FAMILY BLOCK DIAGRAM

3.3 V

Upstream

PHY

Repeater Controller

SCK

SDA

PHY#1

3.3 V

PLL

VDDA

VDDCR

Serial

interface

engine

Serial

interface

Port

controller

Port

power

USB data

downstream

Port

power

sense

switch/

LED

drivers

USB data

downstream

Routing and port re-ordering logic

1.2 V reg

Bus-

power

detect/

Vbus pulse

1.2 V reg

24 MHz

crystal

Upstream

USB data

To upstream

VBUS

To I2C EEPROM or

SMBus master

PHY#xPort #x

OC sense

switch driver/

LED drivers

...

Port #1

OC sense

switch driver/

LED drivers

sense

switch/

LED

drivers

...

x indicates the number of available downstream ports: 2, 3, or 4

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 7

USB251xB/xBi

3.0 PIN INFORMATION

This chapter outlines the pinning configurations for each package type available, followed by a correspondi ng pin list

organized alphabetically. The detailed pin descriptions are liste d then outlined by function in Sectio n 3.3, "Pin Descrip-

tions (Grouped by Function)," on page 12.

3.1 Pin Configurations

The following figures detail the pinouts of the various USB251xB/xBi versions.

FIGURE 3-1: USB2512B PIN DIAGRAM

Ground Pad

(must be connected to VSS)

USB2512B/12Bi

(Top View)

18 NC

VDD33

CRFILT

11 TEST

10 VDDA33

OCS_N2

PRTPWR2/BC_EN2

OCS_N1

PRTPWR1/BC_EN1

VDDA33 29

USBDP_UP 31

XTALOUT 32

RBIAS

VDDA33

PLLFILT 34

USBDM_UP 30

XTALIN/CLKIN

SUSP_IND/LOCAL_PWR/NON_REM0

Indicates pins on the bo ttom of the de vice .

USB251xB/xBi

DS00001692C-page 8  2010 - 2015 Microchip Technology Inc.

FIGURE 3-2: USB2513B PIN DIAGRAM

Ground Pad

(must be connected to VSS)

USB2513B/13Bi

(Top View)

10 VDDA33

TEST

PRTPWR1/BC_EN1

OCS_N1

CRFILT

VDD33

PRTPWR2/BC_EN2

OCS_N2

PRTPWR3/BC_EN3

VDDA33

RBIAS

PLLFILT

XTALIN/CLKIN

XTALOUT

USBDP_UP

USBDM_UP

VDDA33

SUSP_IND/LOCAL_PWR/NON_REM0

Indicates pins on the bottom of the device.

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 9

USB251xB/xBi

FIGURE 3-3: USB2514B PIN DIAGRAM

Ground Pad

(must be connected to VSS)

USB2514B/14Bi

(Top View)

10 VDDA33

TEST

PRTPWR1/BC_EN1

OCS_N1

CRFILT

VDD33

PRTPWR2/BC_EN2

OCS_N2

PRTPWR3/BC_EN3

VDDA33

RBIAS

PLLFILT

XTALIN/CLKIN

XTALOUT

USBDP_UP

USBDM_UP

VDDA33

SUSP_IND/LOCAL_PWR/NON_REM0

Indicates pins on th e bottom of the device.

USB251xB/xBi

DS00001692C-page 10  2010 - 2015 Microchip Technology Inc.

3.2 Pin List (Alphabetical)

TABLE 3-1: USB251XB/XBI PIN LIST (ALPHABETICAL)

Symbol Name

Pin Numbers

USB2512B

USB2512Bi

USB2513B

USB2513Bi

USB2514B

USB2514Bi

BC_EN1 Battery Charging

Strap Option 12

BC_EN2 16

BC_EN3 -18

BC_EN4 -20

CFG_SEL0 Configuration

Programming

Selection

CFG_SEL1 25

CLKIN External Clock Input 33

CRFILT Core Regulator Filter

Capacitor 14

Ground Pad

(VSS) Exposed Pad Tied to

Ground (VSS) ePad

HS_IND Hi-Speed Upstream

Port Indicator 25

LOCAL_PWR Local Power

Detection 28

NC No Connect 6 -

NC 7-

NC 18 -

NC 19 -

NC 8-

NC 9-

NC 20 -

NC 21 -

NON_REM0 Non-Removable

Port Strap Option 28

NON_REM1 22

OCS_N1 Over-Current Sense 13

OCS_N2 17

OCS_N3 -19

OCS_N4 -21

PLLFILT PLL Regulator Filter

Capacitor 34

PRT_DIS_M1 Downstream Port

Disable Strap Option 1

PRT_DIS_M2 3

PRT_DIS_M3 -6

PRT_DIS_M4 -8

PRT_DIS_P1 Port Disable 2

PRT_DIS_P2 4

PRT_DIS_P3 -7

PRT_DIS_P4 -9

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 11

USB251xB/xBi

PRTPWR1 USB Port Power

Enable 12

PRTPWR2 16

PRTPWR3 -18

PRTPWR4 -20

RBIAS USB Transceiver

Bias 35

RESET_N Reset Input 26

SCL Serial Clock 24

SDA Serial Data Signal 22

SMBCLK System

Management Bus

Clock

SMBDATA System

Management Bus

Data Signal

SUSP_IND Active/Suspend

Status Indicator 28

TEST Test Pin 11

USBDM_UP USB Bus Data 30

USBDP_UP 31

USBDM_DN1 Hi-Speed USB Data 1

USBDM_DN2 3

USBDM_DN3 -6

USBDM_DN4 -8

USBDP_DN1 2

USBDP_DN2 4

USBDP_DN3 -7

USBDP_DN4 -9

VBUS_DET Upstream VBUS

Power Detection 27

VDD33 3.3 V Digital Power 15

VDD33 23

VDDA33 3.3 V Analog Power 5

VDDA33 10

VDDA33 29

VDDA33 36

XTALIN Crystal Input 33

XTALOUT Crystal Output 32

TABLE 3-1: USB251XB/XBI PIN LIST (ALPHABETICAL) (CONTINUED)

Symbol Name

Pin Numbers

USB2512B

USB2512Bi

USB2513B

USB2513Bi

USB2514B

USB2514Bi

USB251xB/xBi

DS00001692C-page 12  2010 - 2015 Microchip Technology Inc.

3.3 Pin Descriptions (Grouped by Function)

An N at th e end of a signal na me indicates that the active (asserted) state occurs when the signal is at a low voltage

level. When the N is not present, the signal is asserted when it is at a high voltage level. The terms assertion and nega-

tion are used exclusively in order to avoid confusion when working with a mixtur e of active low and active high sign a ls .

The term assert, or assertion, indicates that a signal is active, independent of whether that level is represented by a high

or low voltage. The term negate, or negation, indicates that a signal is inactive.

TABLE 3-2: USB251XB/XBI PIN DESCRIPTIONS

Symbol Buffer

Type Description

UPSTREAM USB 2.0 INTERFACES

USBDM_UP

USBDP_UP IO-U USB Data: connect to the upstream USB bus data signals (host, port, or upstream

hub).

VBUS_DET I Detect Upstream VBUS Power: detects the state of the upstream VBUS power.

The hub monitors VBUS_DET to determine whe n to assert the internal D+ pull-u p

resistor: (signaling a connect event).

When designing a detachabl e hub, this pin should be connected to VBUS on the

upstream port via a 2:1 voltage divider. Two 100 k resistors are suggested.

For self-powered appli cations with a permanently attached host, this pi n must be

connected to a dedicated host control output, or connected to the 3.3 V domain

that powers the host (typically VDD33).

DOWNSTREAM USB 2.0 INTERFACES

USBDP_DN[x:1]/P

RT_DIS_P[x:1] IO-U Hi-Speed USB Data: connect to the downstream USB p eripheral devices attached

to the hub’s port. To disable, use a 10 k pull-up resistor to 3.3 V.

USBDM_DN[x:1]/P

RT_DIS_M[x:1] Downstream Port Disable Strap Option: when enabled by package and

configuration settings (see Table 5-1 on page 19), this pin is sampled at RESET_N

negation to determine if the port is disabled.

To disable a port, pull u p both PRT_DIS_M[x:1] and PRT_DIS_P[x:1] pins for the

corresponding port number(s). See Section 3.3.1, on page 14 for pull up details.

PRTPWR[x:1]/ O12 USB Power Enable: enables power to USB peripheral devices downstream.

BC_EN[x:1] IPD Battery Charging Strap Option: when enabled by package and configuration

settings (see Table 5-1), the pin will be sampled at RESET_N negation to

determine if ports [x:1] support the battery charging protocol. When supporting the

battery charging protocol, the hub also supports external port power controllers.

The battery charging protocol enables a device to draw the currents per the USB

battery charging specification. See Secti on 3.3.1, on page 14 for strap pin details.

1 : Battery charging feature is supported for port x

0 : Battery charging feature is not supported for port x

OCS_N[x:1] IPU Over-Current Sense: input from external current monitor indicating an over-current

condition.

RBIAS I-R USB Transceiver Bias: a 12.0 k (+/- 1%) resistor is attached from ground to this

pin to set the transceiver’s internal bias settings.

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 13

USB251xB/xBi

SERIAL PORT INTERFACES

SDA/ I/OSD12 Serial Data Signal

SMBDATA/ System Management Bus Signal

NON_REM1 Non-Removable Port 1 Strap Option: when enabled by package and configuration

options (see Table 5-1 on page 19), this pin will be sampled (in conjunction with

LOCAL_PWR/SUSP_IND/NON_REM0) at RESET_N negation to determine if

ports [x:1] contain permanently attached (non-removable) devices:

NON_REM[1:0] = 00 : all ports are removable

NON_REM[1:0] = 01 : port 1 is non-removable

NON_REM[1:0] = 10 : ports 1 and 2 are non-removable

NON_REM[1:0] = 11 : when available, ports 1, 2, and 3 are non-removable

When NON_REM[1:0] is chosen such that there is a non-removable device, the

hub will automatically report itself as a compound device (using the proper

descriptors).

RESET_N IS RESET Input: the system can reset the chip by driving this input low. The

minimum active low pulse is 1 s.

SCL/ I/OSD12 Serial Clock (SCL)

SMBCLK/ System Management Bus Clock

CFG_SEL0 Configuration Select: the logic state of this multifunction pin is internally latched

on the rising edge of RESET_N (RESET_N negati on), and will determine the hub

configuration method as described in Table 5-1.

HS_IND/ I/O12 Hi-Speed Upstream Port Indicator: upstream port connection speed.

Asserted = the hub is connected at HS

Negated = the hub is connected at FS

Note: When implementing an external LED on this pin, the active state is

indicated above and outlined in Section 3.3.1.3, on page 15.

CFG_SEL1 Configuration Programming Select 1: the l ogic state of this pin is internally latche d

on the rising edge of RESET_N (RESET_N negati on), and will determine the hub

configuration method as described in Table 5-1.

MISC

XTALIN ICLKx Crystal Input: 24 MHz crystal.

This pin connects to either one terminal of the crystal or to an external 24 MHz

clock when a crystal is not used.

CLKIN External Clock Input: this pin connects to either one terminal of the crystal or to

an external 24 MHz clock when a crystal is not used.

XTALOUT OCLKx Crystal Output: this is the other terminal of the crystal circuit with 1.2 V p-p output

and a weak (< 1mA) driving strength. When an external clock source is used to

drive XTALIN/CLKIN, leave this pin unconnected, or use with appropriate

caution.

TABLE 3-2: USB251XB/XBI PIN DESCRIPTIONS (CONTINUED)

Symbol Buffer

Type Description

USB251xB/xBi

DS00001692C-page 14  2010 - 2015 Microchip Technology Inc.

3.3.1 CONFIGURING THE STRAP PINS

If a pin's strap function is enabled thru the hub configuration selection, (Table 5-1, “Initial Interface/Configuration

Options,” on page 19) the strap pins must be pulled either high or low using the values provided in Table 3-3. Each strap

option is dependent on the pin’s buf fer type, as outlined in the sections that follow .

SUSP_IND/ I/O Active/Suspend Status LED: indicates USB state of the hub.

Negated = unconfigured; or configured and in USB suspend

Asserted = hub is configured and is active (i.e., not in suspend)

LOCAL_PWR/ Local Power: detects availability of local self-power source.

Low = self/local power source is NOT available (i.e., the hub gets all power from

the upstream USB VBus)

High = self/local power source is available

NON_REM0 Non-Removable 0 Strap Option: when enabled by package and configuration

settings (see Table 5-1 on page 19), this pin will be sampled (in conjunction with

NON_REM[1]) at RESET_N negation to determine if ports [x:1] contain

permanently attached (non-removable) devices:

Note: When implementing an external LED on this pin, the active state is

outlined below and detailed in Section 3.3.1.3, on page 15.

NON_REM[1:0] = 00 : all ports are removable; LED is active high

NON_REM[1:0] = 01 : port 1 is non-removable; LED is active low

NON_REM[1:0] = 10 : ports 1 and 2 are non-removable; LED is active high

NON_REM[1:0] = 11 : (when available) ports 1, 2, and 3 are non-removable; LED

is active low

TEST IPD Test Pin: treat as a no connect pin or con nect to ground . No trace or signal should

be routed or attached to this pin.

POWER, GROUND, and NO CONNECTS

CRFILT VDD Core Regulator Filter Capacitor: this pin can have up to a 0.1 F low-ESR

capacitor to VSS, or be left unconnected.

VDD33 3.3 V Power

VDDA33 3.3 V Analog Power

PLLFILT PLL Regulator Filter Capacitor: this pin can have up to a 0.1 F low-ESR capacitor

to VSS, or be left unconnected.

VSS Ground Pad/ePad: the package slug is the only VSS for the device and must be

tied to ground with multiple vias.

NC No Connect: no signal or trace should be routed or attached to all NC pins.

TABLE 3-3: STRAP OPTION SUMMARY

Strap Option Resistor Value Buffer Ty pe Notes

Non-Removable 47 - 100 kI/O

Internal Pull-Down 10 kIPD • Only applicable to port power pins

• Contains a built-in resistor

LED 47 - 100 kI/O

TABLE 3-2: USB251XB/XBI PIN DESCRIPTIONS (CONTINUED)

Symbol Buffer

Type Description

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 15

USB251xB/xBi

3.3.1.1 Non-Removable

If a strap pin’s buffer type is I/O, an external pull-up or pull-down must be implemented as shown in Figure 3-4. Use

Strap High to set the strap option to 1 and Stap Low to set the strap option to 0. When implementing the Strap Low

option, no additional components are needed (i.e., the internal pull-down provide s the resistor).

3.3.1.2 Internal Pull-Down (IPD)

If a strap pin’s buffer type is IPD (pins BC_EN[x:1]), one of the two hardware configurations outlined below must be

implemented. Use the Strap High configuration to set the st rap opti on value to 1 and Strap Low to set the strap option

value to 0.

3.3.1.3 LED

If a strap pin’s buffer type is I/O and shares functionality with an LED, the hardwa re configuration outlined be low must

be implemented. The internal logic will drive the LED appropriately (active high or low) depending on the sampled strap

option. Use the Strap High configuration to set the strap option value to 1 and Strap Low to set the strap option to 0.

FIGURE 3-4: NON-REMOVABLE PIN STRAP EXAMPLE

FIGURE 3-5: PIN STRAP OPTION WITH IPD PIN EXAMPLE

FIGURE 3-6: LED PIN STRAP EXAMPLE

HUBHUB

I/O Strap Pin Strap High

I/O Strap Pin Strap Low

GND

R k

HUBHUB

IPD Strap Pin Strap High

R k

VSS

IPD Strap Pin Strap Low

VSS

HUBHUB

Strap Pin

LED/

Strap High

Strap Pin

LED/

Strap Low

k

USB251xB/xBi

DS00001692C-page 16  2010 - 2015 Microchip Technology Inc.

3.4 Buffer Type Descriptions

TA BLE 3-4: BUFFER TYPE DESCRIPTIONS

Buffer Type Description

I Input

I/O Input/output

IPD Input with internal weak pull-down resistor

IPU Input with internal weak pull-up resistor

IS Input with Schmitt trigger

O12 Output 12 mA

I/O12 Input/output buffer with 12 mA sink and 12 mA source

I/OSD12 Open drain with Schmitt trigger and 12 mA sink. Meets the I2C-Bus

Specification [2] requirements.

ICLKx XTAL clock input

OCLKx XTAL clock output

I-R RBIAS

I/O-U Analog input/output defined in USB specification

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 17

USB251xB/xBi

4.0 BATTERY CHARGING SUPPORT

The USB251xB/xBi hub p rovides suppo rt fo r battery chargi ng devices on a per port basis in compli ance with the USB

Battery Charging Specificati on, Revision 1.1. The hub can be configured to i ndividua lly enable each downstream po rt

for battery charging support either via pin strapping as il lustra ted in Figure 4-1 or by setting the corresponding configu-

ration bits via I2C EEPROM or SMBus (Section 5.1 on page 19).

4.1 USB Battery Charging

A downstream port enabled for battery charging turns on port power as soon as the power on reset and hardware con-

figuration process has completed. The hub does not need to be enumerated nor does VBUS_DET need to be asserted

for the port power to be enabled. These conditions allow battery charging in S3, S4, and S5 system power states as well

as in the fully operational state. The USB Battery Charging Specification does not interfere with standard USB operation,

which allows a device to perform battery charging at any time.

A port that supports battery charging must be able to support 1.5 amps of current on VBUS. Standard USB port power

controllers typically only a llow for 0.8 amps of curre nt before detecting a n over-current co ndition. Therefore, th e 5 volt

power supply, port power controller, or over-current protection devices must be chosen to handle the larger current

demand compared to standard USB hub designs.

4.1.1 SPECIAL BEHAVIOR OF PRTPWR PINS

The USB251xB/xBi enables VBUS by asserting the port power (PRTPWR) as soon as the hardware configuration pro-

cess has completed. If the port detects an over-current condition, PRTPWR will be turned off to protect the circuitry from

overloading. If an over-current condition is detected when the hub is not enumerated, PRTPWR can only be turned on

from the host or if RESET_N is toggled. These behaviors provide battery charging even when the hub is not enumerated

and protect the hub from sustained short circuit conditions. If the short circuit condition persists when the hub is plugged

into a host system the user is notified that a port has an over-current condition. Otherwise PRTPWR turned on by the

host system and the ports operate normally.

FIGURE 4-1: BATTERY CHARGING VIA EXTERNAL POWER SUPPLY

Note: RSTRAP enables battery charging.

USB251xB/xBi

USB Port Power

Controller

FLAG

VBUS

5.0 V3.3 V

RSTRAP

PRTPWR[x:1]

OCS_N[x]

USB251xB/xBi

DS00001692C-page 18  2010 - 2015 Microchip Technology Inc.

4.2 Battery Charging Configuration

The battery charging option can be configured in one of two ways:

• When the hub is brought up in the default configuration with strapping options enabled, with the PRT-

PWR[x:1]/BC_EN[x:1] pins configured. See the following sections for details:

-Section 3.3, "Pin Descriptions (Grouped by Function)," on page 12

-Section 3.3.1.2, "Internal Pull-Down (IPD)," on page 15

• When the hub is initialized for configuration over I2C EEPROM or SMBus. Either of these interfaces can be used

to configure the battery charging option.

4.2.1 BATTERY CHARGING ENABLED VIA I2C EEPROM OR SMBUS

Register mem ory map lo cation 0xD0 is allocated for b attery charging support. The Battery Charging register at location

0xD0 starting from bit 1 enables battery charg ing f or each do wnst re am port when assert ed. Bit 1 represents port 1, bit

2 represents port 2, etc. Each port with battery charging enabled asserts the corresponding PRTPWR[x:1] pin.

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 19

USB251xB/xBi

5.0 INITIAL INTERFACE/CONFIGURATION OPTIONS

The hub must be configured in order to correctly function when attached to a USB host controller. The hub can be con-

figured either int ernally or externally by set ting the CFG_SEL[1:0] pi ns (immediately after RESET_N negat ion) as out-

lined in the table below.

To configure the hub externally, there are two principal ways to interface to the hub: over SMBus or I2C EEPROM. The

hub can be configured internally, where several default configurations are available as described in the table below.

When configured internally, additional configuration is available using the strap options (listed in Section 3.3.1 on page

14).

5.1 Internal Register Set (Common to I2C EEPROM and SMBus)

The register set available when configuring the hub to interface over I2C or SMBus is outlined in the table below. Each

otherwise specified. Contents read from unavailable registers should be ignored.

Note: See Chapter 11 (Hub Specification) of the USB specification for general details regarding hub operation

and functionality.

Note: Strap options are not available when configuring the hub over I2C or SMBus.

TABLE 5-1: INITIAL INTERFACE/CONFIGURATION OPTIONS

CFG_SEL[1] CFG_SEL[0] Description

0 0 Default configuration:

• Strap options enabled

• Self-powered operation enabled

• Individual power switching

• Individual over-current sensing

0 1 The hub is configured externally over SMBus (as an SMBus slave

device):

• Strap options disabled

• All registers configu re d over SM Bu s

1 0 Default configuration with the following overrides:

• Bus-powered operation

1 1 The hub is configured over 2-wire I2C EEPROM:

• Strap options disabled

• All registers configured by I2C EEPROM

Address Register Name

Default ROM Values

(Hexidecimal)

USB2512B/12Bi

USB2513B/13Bi

USB2514B/14Bi

00h Vendor ID LSB 24

01h Vendor ID MSB 04

02h Product ID LSB 12 13 14

03h Product ID MSB 25

04h Device ID LSB B3

05h Device ID MSB 0B

USB251xB/xBi

DS00001692C-page 20  2010 - 2015 Microchip Technology Inc.

06h Configuration Data Byte 1 9B

07h Configuration Data Byte 2 20

08h Configuration Data Byte 3 02

09h Non-Removable Devices 00

0Ah Port Disable (Self) 00

0Bh Port Disable (Bus) 00

0Ch Max Power (Self) 01

0Dh Max Power (Bus) 32

0Eh Hub Controller Max Current (Self) 01

0Fh Hub Controller Max Current (Bus) 32

10h Power-on Time 32

11h Language ID High 00

12h Language ID Low 00

13h Manufacturer String Length 00

14h Product String Length 00

15h Serial String Length 00

16h-53h Manufacturer String 00

54h-91h Product String 00

92h-CFh Serial String 00

D0h Battery Charging Enable 00

E0h rsvd 00

F5h rsvd 00

F6h Boost_Up 00

F7h rsvd 00

F8h Boost_x:0 00

F9h rsvd 00

FAh Port Swap 00

FBh Port Map 12 00

FCh Port Map 34 - 00

FD-FEh rsvd 00

FFh Status/Command

Note: SMBus register only 00

Address Register Name

Default ROM Values

(Hexidecimal)

USB2512B/12Bi

USB2513B/13Bi

USB2514B/14Bi

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 21

USB251xB/xBi

5.1.1 REGISTE R 00H: VENDOR ID (LSB)

5.1.2 REGISTE R 01H: VENDOR ID (MSB)

5.1.3 REGISTE R 02H: PRODUCT ID (LSB)

5.1.4 REGISTE R 03H: PRODUCT ID (MSB)

5.1.5 REGISTE R 04H: DEVICE ID (LSB)

5.1.6 REGISTE R 05H: DEVICE ID (MSB)

Bit Number Bit Name Description

7:0 VID_LSB Least Significant Byte of the Vendor I D: a 16-bit value that uniquel y identifies

the Vendor of the user device (assigned by USB-Interface Forum). Set this

field using either the SMBus or I2C EEPROM interface options.

Bit Number Bit Name Description

7:0 VID_MSB Most Significant Byte of the Vendor ID: a 16-bit value that uniquely identifies

the Vendor of the user device (assigned by USB-Interface Forum). Set this field

using either the SMBus or I2C EEPROM interface options.

Bit Number Bit Name Description

7:0 PID_LSB Least Significant Byte of the Product ID: a 16-bit valu e that uniquely identifies

the Product ID of t he user device. Set thi s field using either the SMBus o r I2C

EEPROM interface options.

Bit Number Bit Name Description

7:0 PID_MSB Most Significant Byte of the Product ID: a 16-bit value that uniq uely identifies

the Product I D of the user de vice. Set this fiel d us ing ei ther t he SMBus or I 2C

EEPROM interface options.

Bit Number Bit Name Description

7:0 DID_LSB Least Significant Byte of the Device ID: a 16-bit device release number in

BCD format (assigned by OEM). Set this field using either the SMBus or I2C

EEPROM interface options.

Bit Number Bit Name Description

7:0 D ID_MSB Most Significant Byte of the Device ID: a 16-bit device release number in BCD

format (assigned by OEM). Set this field using either the SMBus or I2C

EEPROM interface options.

USB251xB/xBi

DS00001692C-page 22  2010 - 2015 Microchip Technology Inc.

5.1.7 REGISTE R 06H: CONFIG_BYTE_1

Bit Number Bit Name Description

7 SELF_BUS_PWR Self or Bus Power: selects between self- and bus-powered operation.

The hub is either self-powered (draws less tha n 2 mA of upstream bus power)

or bus-powered (limited to a 100 mA maximum of upstream power prior to

being configured by the host controller).

When configured as a bus-powered device, the hub consumes less than

100 mA of current prior to being configured. After configuration, the bus-

powered hub, along with all associated hub circuitry, any embedded devices

(if part of a compound device), and all externally available downstream ports

(max 100 mA) must consume no more than 500 mA of upstream VBUS

current. The current consumption is system dependent and must not violate

the USB 2.0 Specification [1].

When configured as a self-powered device, < 1 mA of upstream VBUS current

is consumed and all ports are available. Each port is capable of sourcing

500 mA of current.

This field is set over either the SMBus or I2C EEPROM interface options.

0 : bus-powered operation

1 : self-powered operation

If dynamic power switching is enabled (Section 5.1.8), this bit is ignored and

LOCAL_PWR is used to determine if the hub is operating from self or bus

power.

6 rsvd

5 HS_DISABLE Hi-Speed Disable: disables the capability to attach as either a hi- or full-speed

device, forcing full-speed attachment only (i.e., no hi-speed support).

0 : hi-/full-speed

1 : full-speed only (hi-speed disabled)

4 MTT_ENABLE Multi-TT Enable: enables one transaction translator per port operation.

Selects between a mode where only one tr ansactio n translator is a vailable f or

all ports (single-TT), or each port gets a dedicated transaction translator

(multi-TT).

0 : single TT for all ports

1 : multi-TT (one TT per port)

3 EOP_DISABLE EOP Disable: disables End Of Packet (EOP) generation at End Of Frame

Time #1 (EOF1) when in full-speed mode.

During full-speed operation only, the hub can send EOP when no downstream

traffic is detected at EOF1. See the USB 2.0 Specification, Section 11.3.1 for

details.

0 : EOP generation is normal

1 : EOP generation is disabled

2:1 CURRENT_SNS Over-Current Sense: selects current sensing on all ports (ganged); a port-by-

port basis (individual); or none (for bus-powered hubs only). The ability to

support current sensing on a ganged or port-by-port basis is hardware

implementation dependent.

00 : ganged sensing

01 : individual sensing

1x : over-current sensing not supported (use with bus-powered configurations)

0 PORT_PWR Port Power Switching: enables power switching on all ports (ganged) or a port-

by-port basis (individual). The ability to support power enabling on a ganged

or port-by-port basis is hardware implementation dependent.

0 : ganged switching

1 : individual switching

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 23

USB251xB/xBi

5.1.8 REGISTE R 07 H: CONFIGURATION DATA BYTE 2

5.1.9 REGISTE R 08 H: CONFIGURATION DATA BYTE 3

Bit Number Bit Name Description

7 DYNAMIC Dynamic Power Enable: controls the ability of the hub to automatically change

from self-powered to bus-powered operation if the local power source is

removed or unavailable. It can also go from bus-powered to self-powered

operation if the local power source is restored.

When dynamic power switching is ena bled, the hub detects the availabilit y of

a local power source by monitoring LOCAL_PWR. If the hub detects a change

in power source availability, the hub immediately disconnects and removes

power from all downstream devices. It also disconnects the upstream port.

The hub will then re-attach to the upstream port as either a bus-powered hub

(if local power is unavailable) or a self-powered hub (if local power is

available).

0 : no dynamic auto-switching

1 : dynamic auto-switching capable

6 rsvd

5:4 OC_TIMER Over Current Timer Delay:

00 : 0.1 ms

01 : 4.0 ms

10 : 8.0 ms

11 : 16.0 ms

3 COMPOUND Compound Device: indicates the hub is part of a compound device (see the

USB Specification for definition). The applicable port(s) must also be defined

as having a non-removable device.

Note: When configured via strapping options, declaring a port as non-

removable automaticall y causes the hub con troller to report that it is

part of a compound device.

0 : no

1 : yes, the hub is part of a compound device

2:0 rsvd

Bit Number Bit Name Description

7:4 rsvd

3 PRTMAP_EN Port Mapping Enable: selects the method used by the hub to assign port

numbers and disable ports.

0 : standard mode

1 : port mapping mode

2:1 rsvd

0 STRING_EN Enables String Descriptor Support

0 : string support disabled

1 : string support enabled

USB251xB/xBi

DS00001692C-page 24  2010 - 2015 Microchip Technology Inc.

5.1.10 REGISTER 09H: NON-REMOVABLE DEVIC E

5.1.11 REGISTER 0AH: PORT DISABLE FOR SELF-POWERED OPERATION

Bit Number Bit Name Description

7:0 NR_DEVICE Non-Removable Device: indicates which port has a non-removable device.

0 : port is removable

1 : port is non-removable

Bit 7 : rsvd

Bit 6 : rsvd

Bit 5 : rsvd

Bit 4 : controls port 4

Bit 3 : controls port 3

Bit 2 : controls port 2

Bit 1 : controls port 1

Bit 0 : rsvd

Note: The device must provide its own descriptor data.

When using the default configuration, th e NON_REM[1:0] pins will designate

the appropriate ports as being non-removable.

Bit Number Bit Name Description

7:0 PORT_DIS_SP Port Disable Self-Powered: disables one or more ports.

0 = port is available

1 = port is disabled

Bit 7 : rsvd

Bit 6 : rsvd

Bit 5 : rsvd

Bit 4 : controls port 4

Bit 3 : controls port 3

Bit 2 : controls port 2

Bit 1 : controls port 1

Bit 0 : rsvd

During self-powered operation when mapping mode is disabled (PRTMAP_EN

= 0), this register selects the ports that will be permanently disabled. These

ports are then unavailable and cannot be enabled or enumerated by a host

controller. The po rts can be disabled in any order, whe re the int ernal logic will

automatically report the correct number of enabled ports to the USB host. The

active ports will be reordered in order to ensure proper function.

When using the default configuration, PRT_DIS_P[x:1] and PRT_DIS_M[x:1]

pins disable the appropriate ports.

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 25

USB251xB/xBi

5.1.12 REGISTER 0BH: PORT DISABLE FOR BUS-POWERED OPERATION

5.1.13 REGISTER 0CH: MAX POWER FOR SELF-POWERED OPERATION

5.1.14 REGISTER 0DH: MAX POWER FOR BUS-POWERED OPERATION

Bit Number Bit Name Description

7:0 PORT_DIS_BP Port Disable Bus-Powered: disables one or more ports.

0 = port is available

1 = port is disabled

Bit 7 : rsvd

Bit 6 : rsvd

Bit 5 : rsvd

Bit 4 : controls port 4

Bit 3 : controls port 3

Bit 2 : controls port 2

Bit 1 : controls port 1

Bit 0 : rsvd

During self-powered operation when mapping mode is disabled (PRTMAP_EN

= 0), this selects the ports which will be permanently disabled.These ports are

then unavailable and cannot be enabled or enumerated by a host controller.

The ports can be disabled in any order, where the internal logic will

automatically report the correct number of enabled ports to the USB host. The

active ports will be reordered in order to ensure proper function.

When using the internal default option, the PRT_DIS_P[x:1] and

PRT_DIS_M[x:1] pins disable the appropriate ports.

Bit Number Bit Name Description

7:0 MAX_PWR_SP Max Power Self-Powered: the value in 2 mA increments that the hub

consumes from an upstream port (VBUS) when operating as a self-powered

hub. This value includes the hub silicon along with the combined power

consumption (from VBUS) of all associated circuitry on t he board. This value

also includes the power consumption of a permanently attached peripheral if

the hub is configured as a compound device. The embedded peripheral

reports 0 mA in its descriptors.

Note: The USB 2.0 Specification does not permit this value to exceed

100 mA

Bit Number Bit Name Description

7:0 MAX_PWR_BP Max Power Bus-Powered: the value in 2 mA increments that the hub

consumes from an upstream port (VBUS) when operating as a bus-powered

hub. This value includes the hub silicon along with the combined power

consumption (from VBUS) of all associated circuitry on t he board. This value

also includes the power consumption of a permanently attached peripheral if

the hub is configured as a compound device. The embedded peripheral

reports 0 mA in its descriptors.

USB251xB/xBi

DS00001692C-page 26  2010 - 2015 Microchip Technology Inc.

5.1.15 REGISTER 0EH: HUB CONTROLLER MAX CURRENT FOR SELF-POWERED OPERATION

5.1.16 REGISTER 0FH: HUB CONTROLLER MAX CURRENT FOR BUS-POWERED OPERATION

5.1.17 REGISTER 10H: POWER-ON TIME

5.1.18 REGISTER 11H: LANGUAGE ID HIGH

5.1.19 REGISTER 12H: LANGUAGE ID LOW

5.1.20 REGISTER 13H: MANUFACTURER STRING LENGTH

Bit Number Bit Name Description

7:0 HC_MAX_C_SP Hub Controller Max Current Self-Powered: the value in 2 mA increments that

the hub consumes from an upstream port (VBUS) when operating as a self-

powered hub. This value includes the hub silicon along with the combined

power consumption (from VBUS) of all as sociated circui try on the board . This

value does NOT include the power consumption of a permanently attached

peripheral if the hub is configured as a compound device.

Note: The USB 2.0 Specification does not permit this value to exceed

100 mA

A value of 50 (decimal) indicates 100 mA, which is the default value.

Bit Number Bit Name Description

7:0 HC_MAX_C_BP Hub Controller Ma x Current Bus-Powered: the value in 2 mA incre ments that

the hub consumes from an upstream port (VBUS) when operating as a bus-

powered hub. This value wi ll include the hub silicon a long with the combined

power consumption (from VBUS) of all associated circuitry on the board.

Note: This value will not incl ude the power consumption of a permanently

attached peripheral if the hub is configured as a compound device.

A value of 50 (decimal) would indicate 100 mA, which is the default value.

Bit Number Bit Name Description

7:0 POWER_ON_TIME Power-On Time: the length of time that it takes (in 2 ms intervals) from the

time the host initiated the power-on sequence on a port until the port has

adequate power.

Bit Number Bit Name Description

7:0 LANG_ID_H USB Language ID: upper 8 bits of a 16-bit ID field

Bit Number Bit Name Description

7:0 LANG_ID_L USB Language ID: lower 8 bits of a 16-bit ID field

Bit Number Bit Name Description

7:0 MFR_STR_LEN Manufacturer String Length: with a maximum string length of 31 characters

(when supported).

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 27

USB251xB/xBi

5.1.21 REGISTER 14H: PRODUCT STRING LENGTH

5.1.22 REGISTER 15H: SERIAL STRING LENGTH

5.1.23 REGISTER 16H-53H: MANUFACTURER STRING

5.1.24 REGISTER 54H-91H: PRODUCT STRING

5.1.25 REGISTER 92H-CFH: SERIAL STRING

Bit Number Bit Name Description

7:0 PRD_STR_LEN Product String Length: with a maximum string length of 31 characters (when

supported).

Bit Number Bit Name Description

7:0 SER_STR_LEN Serial String Length: with a maximum string length of 31 characters (when

supported).

Bit Number Bit Name Description

7:0 MFR_STR Manufacturer String: UNICODE UTF-16LE per USB 2.0 Specification: with a

maximum string length of 31 characters (when supported).

Note: The string consists of individual 16-bit UNICODE UTF-16LE

characters. The characters will be stored starting with the LSB at the

least significant address and the MSB at the next 8-bit location.

(Subsequent characters must be stored in sequential contiguous

addresses in the same LSB, MSB manner.)

Warning: Close at tention to the byte order of the selected programming tool

should be monitored.

Bit Number Bit Name Description

7:0 PRD_STR Product String: UNICODE UTF-16LE per USB 2.0 Specification

When supported, the maximum string length is 31 characters (62 bytes).

Note: The string consists of individual 16-bit UNICODE UTF-16LE

characters. The characters will be stored starting with the LSB at the

least significant address and the MSB at the next 8-bit location.

(Subsequent characters must be stored in sequential contiguous

address in the same LSB, MSB manner.)

Warning: Close at tention to the byte order of the selected programming tool

should be monitored.

Bit Number Bit Name Description

7:0 SER_STR Serial String: UNICODE UTF-16LE per USB 2.0 specification

When supported, the maximum string length is 31 characters (62 bytes).

Note: The string consists of individual 16-bit UNICODE UTF-16LE

characters. The characters will be stored starting with the LSB at the

least significant address and the MSB at the next 8-bit location.

(Subsequent characters must be stored in sequential contiguous

address in the same LSB, MSB manner.)

Warning: Close at tention to the byte order of the selected programming tool

should be monitored.

USB251xB/xBi

DS00001692C-page 28  2010 - 2015 Microchip Technology Inc.

5.1.26 REGISTER D0H: BATTERY CHARGING ENABLE

5.1.27 REGISTER F6H: BOOST_UP

Bit Number Bit Name Description

7:0 BC_EN Battery Charging Enable: enables the battery charging feature for the

corresponding port.

0 : battery charging support is not enabled

1 : battery charging support is enabled

Bit 7 : rsvd

Bit 6 : rsvd

Bit 5 : rsvd

Bit 4 : controls port 4

Bit 3 : controls port 3

Bit 2 : controls port 2

Bit 1 : controls port 1

Bit 0 : rsvd

Bit Number Bit Name Description

7:2 rsvd

1:0 BOOST_IOUT USB electrical signaling drive strength boost bit for the upstream port.

00 : normal electrical drive strength - no boost

01 : elevated electrical drive strength - low (~ 4% boost)

10 : elevated electrical drive strength - medium (~ 8% boost)

11 : elevated electrical drive strength - high (~12% boost)

Note: Boost could result in non-USB compliant parameters. Therefore, a

value of 00 should be implemented unless specific implementation

issues require additional signal boosting to correct for degraded USB

signalling levels.

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 29

USB251xB/xBi

5.1.28 REGISTER F8H: BOOST_4:0

5.1.29 REGISTER FAH: PORT SWAP

Bit Number Bit Name Description

7:6 BOOST_IOUT_4 USB electrical signaling drive strength boost bit for downstream port 4.

00 : normal electrical drive strength - no boost

01 : elevated electrical drive strength - low (~4% boost)

10 : elevated electrical drive strength - medium (~ 8% boost)

11 : elevated electrical drive strength - high (~12% boost)

5:4 BOOST_IOUT_3 USB electrical signaling drive strength boost bit for downstream port 3.

00 : normal electrical drive strength - no boost

01 : elevated electrical drive strength - low (~4% boost)

10 : elevated electrical drive strength - medium (~ 8% boost)

11 : elevated electrical drive strength - high (~12% boost)

3:2 BOOST_IOUT_2 USB electrical signaling drive strength boost bit for downstream port 2.

00 : normal electrical drive strength - no boost

01 : elevated electrical drive strength - low (~4% boost)

10 : elevated electrical drive strength - medium (~ 8% boost)

11 : elevated electrical drive strength - high (~12% boost)

1:0 BOOST_IOUT_1 USB electrical signaling drive strength boost bit for downstream port 1.

00 : normal electrical drive strength - no boost

01 : elevated electrical drive strength - low (~4% boost)

10 : elevated electrical drive strength - medium (~ 8% boost)

11 : elevated electrical drive strength - high (~12% boost)

Note: Boost could result in non-USB compliant parameters. Therefore, a value of 00 should be implemented

unless specific implementation issues require addit ional signal boost ing t o correct for degrad ed USB sig -

naling levels.

Bit Number Bit Name Description

7:0 PRTSP Port Swap: swaps the upstream USBDP/USBDM pins (USBDP_UP and

USBDM_UP) and the downstream USBDP/USBDM pins (USBDP_DN[x:1] and

USBDP_DN[x:1]) for ease of board routing to devices and connectors.

0 : USB D+ functiona lity is associated with the DP p in and D- functionality is

associated with the DM pin.

1 : USB D+ f unctionality is associ ated with the DM pin and D- function ality is

associated with the DP pin.

Bit 7 : rsvd

Bit 6 : rsvd

Bit 5 : rsvd

Bit 4 : controls port 4

Bit 3 : controls port 3

Bit 2 : controls port 2

Bit 1 : controls port 1

Bit 0 : when set to 1, the upstream port DP/DM is swapped.

USB251xB/xBi

DS00001692C-page 30  2010 - 2015 Microchip Technology Inc.

5.1.30 REGISTER FBH: PORTMAP 12

Bit Number Bit Name Description

7:0 PRTR12 PortMap Register for Ports 1 and 2: When a hub is enumerated by a USB

host controller, the hub is only permitted to report how many ports it has; the

hub is not permitted to select a numerical range or assignment. The host

controller will number the downstream ports of the hub starting with the

number 1, up to the number of ports that the hub reports having.

The host's port number is called the Logical Port Number and the physical

port on the hub is the Physical Port Number. When mappi ng mode is enabled

(see PRTMAP_EN, Section 5.1.9 on page 23) the hub's downstream port

numbers can be mapped to different logical port numbers (assigned by the

host).

Note: Contiguous logical port numbers must be implemented, starting from

number 1 up to the maximum number of enabled ports. This ensures

that the hub's ports are numbered in accordance with the way a host

will communicate with the ports.

Bit [7:4] 0000 Physical port 2 is disabled

0001 Physical port 2 is mapped to logical port 1

0010 Physical port 2 is mapped to logical port 2

0011 Physical port 2 is mapped to logical port 3

0100 Physical port 2 is mapped to logical port 4

1000

1111

rsvd, will default to 0000 value

Bit [3:0] 0000 Physical port 1 is disabled

0001 Physical port 1 is mapped to logical port 1

0010 Physical port 1 is mapped to logical port 2

0011 Physical port 1 is mapped to logical port 3

0100 Physical port 1 is mapped to logical port 4

1000

1111

rsvd, will default to 0000 value

 2010 - 2015 Microchip Technology Inc. DS00001692C-page 31

USB251xB/xBi

5.1.31 REGISTER FCH: PORTMAP 34

Bit Number Bit Name Description

7:0 PRTR34 PortMap Register for Ports 3 and 4: When a hub is enumerated by a USB