SMSC Switch USB2524 User Manual
USB2524  
TM  
USB MultiSwitch Hub  
Datasheet  
PRODUCT FEATURES  
USB 2.0 Compatible 4-Port Hub with two upstream  
host port connections  
Enhanced configuration options available through  
either a Single Serial I C EEPROM, or SMBus Slave  
2
Provides electronic reconfiguration and re-assignment  
of any of its 4 downstream ports to either of two  
upstream host ports (“on-the-fly”).  
Allows multiple USB hosts to share peripherals and  
enables a user to dynamically assign host ownership.  
– Embedded Mode - 8 (predefined, OEM  
programmable) configurations for port  
assignment are selectable via three external  
control signals.  
– Peripheral Mode - Dedicated select pin for  
every downstream port (total of 4), selectable  
edge or level triggered in order to support a  
wide range of possible switch configurations  
and styles.  
Each host has a dedicated Single Transaction  
Translator (Single-TT) for supporting FS/LS devices, or  
can also operate in Multi-TT mode where each  
downstream port has a dedicated Transaction  
Translator.  
Port  
— VID/PID/DID  
— Port Configuration  
String Descriptors (each can support a maximum length  
of 31 characters)  
– Custom Manufacturer String  
– Custom Product String  
– Custom Serial String  
Assignment of downstream ports to upstream hosts  
Switching mechanism selection  
Hardware Strapping options allow for configuration  
without an external EEPROM or SMBus Host  
Default VID/PID/DID, allows functionality when  
configuration EEPROM is absent  
Complete USB Specification 2.0 Compatibility  
Includes USB 2.0 Hi-Speed Transceivers  
High-Speed (480Mbits/s), Full-Speed (12Mbits/s) and  
Low-Speed (1.5Mbits/s) compatible  
Full power management with choice of Individual or  
Ganged power control  
Downstream ports can be disabled or defined as non-  
removable  
On-Board 24MHz Crystal Driver Circuit or 24 MHz  
external clock driver  
Switching hub can be configured as compound  
device for support of ‘embedded’ USB peripherals  
Internal PLL for 480MHz USB 2.0 Sampling  
Internal 1.8V Linear Voltage Regulator  
Multiple LED modes for maximum implementation  
flexibility  
Integrated USB termination and Pull-up/Pull-down  
resistors  
USB Mode - 2 Single-color LEDs for each downstream  
port (total of 8 LEDs).  
Internal Short Circuit protection of USB differential  
signal pins  
Host Ownership Mode - 8 Single-Color LEDs indicate  
which upstream host each of the downstream ports are  
assigned to.  
Host Ownership & Port Speed Mode - 8 Dual-Color  
LEDs are used to indicate which upstream host each of  
the downstream ports are assigned to, while  
simultaneously indicating downstream port connection  
speed.  
1.8 Volt Low Power Core Operation  
3.3 Volt I/O with 5V Input Tolerance  
56-Pin QFN Lead-free RoHS Compliant Package  
SMSC USB2524  
DATASHEET  
Revision 1.91 (08-22-07)  
Download from Www.Somanuals.com. All Manuals Search And Download.  
USB MultiSwitchTM Hub  
Datasheet  
Table of Contents  
Chapter 1 General Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8  
1.1  
OEM Selectable Features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9  
Chapter 2 Pin Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
Chapter 3 Pin Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11  
Chapter 4 Switching Hub Pin Descriptions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12  
Chapter 5 Switching Hub Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17  
Chapter 6 Assigning Ports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18  
6.1  
Port Assign Interface (PRT_ASSIGN[3:0] pins) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18  
6.1.1  
6.1.2  
6.1.3  
Embedded Mode: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18  
Peripheral Mode: Level Triggered . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19  
Peripheral Mode: Edge Triggered . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19  
6.2  
SMBus Host Control of Port Assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19  
Chapter 7 Configuration Options. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20  
7.1  
Switching Hub Configuration Options. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20  
7.1.1  
7.1.2  
7.1.3  
7.1.4  
Power Switching Polarity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20  
VBus Detect. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20  
Port Assignment Configuration:. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20  
Internal Register Set (Common to EEPROM and SMBus) . . . . . . . . . . . . . . . . . . . . . . . 20  
7.1.4.1 Register 00h: Vendor ID (LSB) (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
7.1.4.2 Register 01h: Vendor ID (MSB) (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
7.1.4.3 Register 02h: Product ID (LSB) (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
7.1.4.4 Register 03h: Product ID (MSB) (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
7.1.4.5 Register 04h: Device ID (LSB) (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
7.1.4.6 Register 05h: Device ID (MSB) (Reset = 0x00). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
7.1.4.7 Register 06h: CONFIG_BYTE_1 (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23  
7.1.4.8 Register 07h: Configuration Data Byte 2 (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . 24  
7.1.4.9 Register 08h: Configuration Data Byte 3 (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . 24  
7.1.4.10 Register 09h: Non-Removable Device (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . 25  
7.1.4.11 Register 0Ah: Port Disable For Self Powered Operation (Reset = 0x00) . . . . . . . . . . . . 26  
7.1.4.12 Register 0Bh: Port Disable For Bus Powered Operation (Reset = 0x00) . . . . . . . . . . . . 26  
7.1.4.13 Register 0Ch: Max Power For Self Powered Operation (Reset = 0x00) . . . . . . . . . . . . . 26  
7.1.4.14 Register 0Dh: Max Power For Bus Powered Operation (Reset = 0x00) . . . . . . . . . . . . . 27  
7.1.4.15 Register 0Eh: Hub Controller Max Current For Self Powered Operation (Reset = 0x00) 27  
7.1.4.16 Register 0Fh: Hub Controller Max Current For Bus Powered Operation (Reset = 0x00) 27  
7.1.4.17 Register 10h: Power-On Time (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
7.1.4.18 Register 11h: Language ID High (Reset = 0x00). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
7.1.4.19 Register 12h: Language ID Low (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
7.1.4.20 Register 13h: Manufacturer String Length (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . 28  
7.1.4.21 Register 14h: Product String Length (Reset = 0x00). . . . . . . . . . . . . . . . . . . . . . . . . . . . 28  
7.1.4.22 Register 15h: Serial String Length (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28  
7.1.4.23 Register 16h-53h: Manufacturer String (Reset = 0x00). . . . . . . . . . . . . . . . . . . . . . . . . . 28  
7.1.4.24 Register 54h-91h: Product String (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28  
7.1.4.25 Register 92h-CFh: Serial String (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29  
7.1.4.26 Register D0h: Port Interface Delay Timer (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . 29  
7.1.4.27 Register D1h: Port Assign Interface Configuration 0A (Reset = 0x00) . . . . . . . . . . . . . . 29  
SMSC USB2524  
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DATASHEET  
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Datasheet  
7.1.4.28 Register D2h: Port Assign Interface Configuration 0B (Reset = 0x00) . . . . . . . . . . . . . . 30  
7.1.4.29 Register D3h: Port Assign Interface Configuration 0C (Reset = 0x00) . . . . . . . . . . . . . . 30  
7.1.4.30 Register D4h: Port Assign Interface Configuration 0D (Reset = 0x00) . . . . . . . . . . . . . . 30  
7.1.4.31 Register D5h: Port Assign Interface Configuration 1A (Reset = 0x00) . . . . . . . . . . . . . . 30  
7.1.4.32 Register D6h: Port Assign Interface Configuration 1B (Reset = 0x00) . . . . . . . . . . . . . . 31  
7.1.4.33 Register D7h: Port Assign Interface Configuration 1C (Reset = 0x00) . . . . . . . . . . . . . . 31  
7.1.4.34 Register D8h: Port Assign Interface Configuration 1D (Reset = 0x00) . . . . . . . . . . . . . . 31  
7.1.4.35 Register D9h: Port Assign Interface Configuration 2A (Reset = 0x00) . . . . . . . . . . . . . . 31  
7.1.4.36 Register DAh: Port Assign Interface Configuration 2B (Reset = 0x00) . . . . . . . . . . . . . . 32  
7.1.4.37 Register DBh: Port Assign Interface Configuration 2C (Reset = 0x00) . . . . . . . . . . . . . . 32  
7.1.4.38 Register DCh: Port Assign Interface Configuration 2D (Reset = 0x00). . . . . . . . . . . . . . 32  
7.1.4.39 Register DDh: Port Assign Interface Configuration 3A (Reset = 0x00) . . . . . . . . . . . . . . 32  
7.1.4.40 Register DEh: Port Assign Interface Configuration 3B (Reset = 0x00) . . . . . . . . . . . . . . 33  
7.1.4.41 Register DFh: Port Assign Interface Configuration 3C (Reset = 0x00) . . . . . . . . . . . . . . 33  
7.1.4.42 Register E0h: Port Assign Interface Configuration 3D (Reset = 0x00) . . . . . . . . . . . . . . 33  
7.1.4.43 Register E1h: Port Assign Interface Configuration 4A (Reset = 0x00) . . . . . . . . . . . . . . 33  
7.1.4.44 Register E2h: Port Assign Interface Configuration 4B (Reset = 0x00) . . . . . . . . . . . . . . 34  
7.1.4.45 Register E3h: Port Assign Interface Configuration 4C (Reset = 0x00) . . . . . . . . . . . . . . 34  
7.1.4.46 Register E4h: Port Assign Interface Configuration 4D (Reset = 0x00) . . . . . . . . . . . . . . 34  
7.1.4.47 Register E5h: Port Assign Interface Configuration 5A (Reset = 0x00) . . . . . . . . . . . . . . 34  
7.1.4.48 Register E6h: Port Assign Interface Configuration 5B (Reset = 0x00) . . . . . . . . . . . . . . 35  
7.1.4.49 Register E7h: Port Assign Interface Configuration 5C (Reset = 0x00) . . . . . . . . . . . . . . 35  
7.1.4.50 Register E8h: Port Assign Interface Configuration 5D (Reset = 0x00) . . . . . . . . . . . . . . 35  
7.1.4.51 Register E9h: Port Assign Interface Configuration 6A (Reset = 0x00) . . . . . . . . . . . . . . 35  
7.1.4.52 Register EAh: Port Assign Interface Configuration 6B (Reset = 0x00) . . . . . . . . . . . . . . 36  
7.1.4.53 Register EBh: Port Assign Interface Configuration 6C (Reset = 0x00) . . . . . . . . . . . . . . 36  
7.1.4.54 Register ECh: Port Assign Interface Configuration 6D (Reset = 0x00) . . . . . . . . . . . . . . 36  
7.1.4.55 Register EDh: Port Assign Interface Configuration 7A (Reset = 0x00) . . . . . . . . . . . . . . 36  
7.1.4.56 Register EEh: Port Assign Interface Configuration 7B (Reset = 0x00) . . . . . . . . . . . . . . 37  
7.1.4.57 Register EFh: Port Assign Interface Configuration 7C (Reset = 0x00) . . . . . . . . . . . . . . 37  
7.1.4.58 Register F0h: Port Assign Interface Configuration 7D (Reset = 0x00) . . . . . . . . . . . . . . 37  
7.1.4.59 Register F1h: Port Assignment 1 & 2 (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . 37  
7.1.4.60 Register F2h: Port Assignment 3 & 4 (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . 38  
7.1.4.61 Register F3h: Port Assignment 5 & 6 (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . 38  
7.1.4.62 Register F4h: Port Assignment 7 (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38  
7.1.4.63 Register F5h: Port Lockout (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38  
7.1.4.64 Register FFh: Status/Command (Reset = 0x00) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39  
EEPROM Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40  
7.2  
7.2.1  
I2C Master. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40  
7.2.1.1 Implementation Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40  
7.2.1.2 Pull-Up Resistor. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40  
7.2.1.3 I2C EEPROM Slave Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40  
7.2.2  
7.3 SMBus Slave Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41  
7.3.1 Bus Protocols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41  
7.3.1.1 Block Read/Write. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41  
In-Circuit EEPROM Programming . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40  
7.3.2  
7.3.3  
7.3.4  
7.3.5  
7.3.6  
7.3.7  
7.3.8  
Invalid Protocol Response Behavior . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42  
General Call Address Response . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42  
Slave Device Time-Out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42  
Stretching the SCLK Signal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42  
SMBus Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42  
Bus Reset Sequence. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43  
SMBus Alert Response Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43  
7.3.8.1 Undefined Registers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43  
7.3.8.2 Reserved Registers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43  
Revision 1.91 (08-22-07)  
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SMSC USB2524  
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USB MultiSwitchTM Hub  
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7.4  
7.5  
Default Strapping Option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43  
Default Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43  
Chapter 8 LED Interface Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44  
8.1  
8.2  
8.3  
USB Mode: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44  
Basic Host Owner LED Indication: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44  
Host Ownership and Port Speed LED Indication:. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45  
Chapter 9 Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47  
9.1  
Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47  
9.1.1 External Hardware RESET_N . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47  
9.1.1.1 RESET_N for Strapping Option Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48  
9.1.1.2 RESET_N for EEPROM Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49  
9.1.1.3 RESET_N for SMBus Slave Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50  
9.1.2  
USB Bus Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50  
Chapter 10 XNOR Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52  
Chapter 11 DC Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53  
11.1 Maximum Guaranteed Ratings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53  
11.1.1 DC Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53  
Chapter 12 AC Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56  
12.1 Oscillator/Clock. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56  
12.1.1 SMBus Interface: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56  
12.1.2 I2C EEPROM: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56  
12.1.3 USB 2.0 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56  
Chapter 13 Package Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57  
SMSC USB2524  
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DATASHEET  
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USB MultiSwitchTM Hub  
Datasheet  
List of Figures  
Figure 3.1 USB2524 QFN-56 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11  
Figure 5.1 USB2524 Switching Hub Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17  
Figure 7.1 SMBus Block Write . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41  
Figure 7.2 SMBus Block Read . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42  
Figure 7.3 LED Strapping Option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43  
Figure 8.1 Dual Color LED Implementation Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45  
Figure 9.1 Reset_N Timing for Default/Strap Option Mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48  
Figure 9.2 Reset_N Timing for EEPROM Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49  
Figure 9.3 Reset_N Timing for SMBus Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50  
Figure 13.1 USB2524 56-Pin QFN Package Outline and Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . 57  
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List of Tables  
Table 2.1 USB2524 56-Pin QFN Pin Configuration Table. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
Table 4.1 Switching Hub Pin Descriptions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12  
Table 4.2 SMBus or EEPROM Interface Behavior . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14  
Table 4.3 Miscellaneous Pins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15  
Table 4.4 Power, Ground, and No Connect. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15  
Table 4.5 Buffer Type Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16  
Table 6.1 USB2524 Port Assign Interface (Embedded Mode) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18  
Table 7.1 Internal EEPROM & SMBus Register Memory Map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20  
Table 9.1 Reset_N Timing for Default/Strap Option Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48  
Table 9.2 Reset_N Timing for EEPROM Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49  
Table 9.3 Reset_N Timing for SMBus Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50  
Table 11.1 DC Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53  
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Chapter 1 General Description  
The SMSC 4-Port USB 2.0 Switching Hub Controller acts as two independently controllable USB 2.0  
Hubs in a single package with the ability to electronically reassign and reconfigure any of its 4  
downstream ports to either of its two upstream USB ports. This allows two USB hosts to share  
peripherals and to dynamically reconfigure them.  
Any configuration of the downstream ports is possible except simultaneous connection to both  
upstream ports. Up to 8 different configurations can be selected by a dedicated 3-pin interface, or the  
4-pin interface can be used to directly assign each port to either of the upstream hosts. An external  
serial EEPROM (or SMBus Host) is used to store the 8 different configuration parameters. However,  
8 predefined configurations, as well as generic VID/PID/DID information, are provided as defaults if no  
external Serial EEPROM is detected at power up. The SMBus interface can be used to configure the  
hub as well as dynamically re-assigning downstream ports to upstream hosts. The SMBus interface  
can be “live” while the hub is operational, and allows an external SMBus host to have full access to  
re-assign ports on an as-needed basis.  
The SMSC 4-Port Switching Hub is fully compliant with the USB 2.0 Specification and will attach to  
either or both upstream USB hosts as a Full-Speed Hub or as a Full-/High-Speed Hub. The 4  
downstream Hub ports support Low-Speed, Full-Speed, and High-Speed (if operating as a High-Speed  
Hub) downstream devices on all of the enabled downstream ports.  
A USB peripheral or USB Hub that is attached to one of the downstream USB2524 ports will be  
available to one or the other of the upstream USB host controllers, but can never be simultaneously  
shared with both host controllers. The user can switch a peripheral from one host to the other (on-the-  
fly), and the peripheral will automatically detach from one host and attach to the other host. Each host  
will only configure and control the downstream ports that are assigned to it, including full USB power  
management and suspend/resume operations.  
The USB2524 works with an external USB power distribution switch device to control V  
to downstream ports, and to limit current and sense over-current conditions.  
switching  
BUS  
All required resistors on the USB ports are integrated into the Hub. This includes all series termination  
resistors on D+ and D– pins and all required pull-down and pull-up resistors on D+ and D– pins. The  
over-current sense inputs for the downstream facing ports have internal pull-up resistors.  
Throughout this document the upstream facing port of the hub will be referred to as the upstream port,  
and the downstream facing ports will be called the downstream ports.  
For performance reasons, the Hub provides 1 Transaction Translator (TT) per port (defined as Multi-  
TT configuration), and each TT has 1512 bytes of periodic buffer space and 272 Bytes of non- periodic  
buffer space (divided into 4 non-periodic buffers per TT), for a total of 1784 bytes of buffer space for  
each Transaction Translator.  
When configured as a Single-TT Hub (required by USB 2.0 Specification), the Single Transaction  
Translator will have 1512 bytes of periodic buffer space and 272 bytes of non-periodic buffer space  
(divided into 4 non-periodic buffers per TT), for a total of 1784 bytes of buffer space for the entire  
Transaction Translator.  
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1.1  
OEM Selectable Features  
A default configuration is available in the USB2524 following a reset. This configuration may be  
sufficient for some applications. Strapping option pins make it possible to modify a limited sub-set of  
the configuration options.  
The USB2524 may also be configured by an external EEPROM or a microcontroller. When using the  
microcontroller interface, the Hub appears as an SMBus slave device. If the Hub is pin-strapped for  
external EEPROM configuration but no external EEPROM is present, then a value of ‘0’ will be written  
to all configuration data bit fields (the hub will attach to the host with all ‘0’ values).  
The USB2524 supports several OEM selectable features:  
Optional OEM configuration via I2C EEPROM or via the industry standard SMBus interface from  
an external SMBus Host or Microcontroller.  
Compound device support (port is permanently hardwired to a downstream USB peripheral device).  
Hardware strapping options enable configuration of the following features (when not configured via  
an EEPROM or SMBus host).  
Non-Removable Ports  
Port Power Polarity (active high or active low logic)  
Selection of Single (STT) or Multi-Transaction Translator (MTT) capability.  
Selection of Over-Current sensing and Port power control on a individual (port-by-port) or ganged  
(all ports together) to match the OEM’s choice of circuit board component selection.  
Selection of end-user method of switching ports between hosts  
-Embedded Mode: 8 default configurations that are controlled by OEM programmable registers (or  
Internal default settings).  
-Peripheral Mode: Each wire directly controls one of the 4 downstream ports. The interface is  
selectable between edge triggered operation or level triggered operation for compatibility with many  
different mechanical switch configurations or direct control from an external Microcontroller’s GPIO  
pins.  
Enablement of String Descriptor Support, along with the capability to customize each of the 3  
different string descriptors (up to a maximum size of 31 characters each)  
Selection of LED Mode: USB Mode, Host Ownership Mode, or Host Ownership Mode with Speed  
Indication.  
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Chapter 2 Pin Layout  
Table 2.1 USB2524 56-Pin QFN Pin Configuration Table  
UPSTREAM USB 2.0 INTERFACES (6 PINS)  
USBUP_DP1  
VBUS_DET1  
USBUP_DM1  
VBUS_DET2  
USBUP_DP2  
USBUP_DM2  
DOWNSTREAM 4-PORT USB 2.0 INTERFACE (30 PINS)  
USBDN_DP1  
USBDN_DP3  
LED_A1_N/NON_REM0  
LED_B1_N  
USBDN_DM1  
USBDN_DM3  
LED_A2_N/NON_REM1  
LED_B2_N  
USBDN_DP2  
USBDN_DM2  
OCS1_N  
OCS2_N  
LED_A3_N/PRT_DIS0  
LED_B3_N  
OCS3_N  
PRT_ASSIGN0  
PRTPWR_POL  
LED_A4_N/PRT_DIS1  
PRT_ASSIGN3  
PRTPWR1  
PRTPWR2  
PRT_ASSIGN1  
PRT_ASSIGN2  
PRTPWR4  
PRTPWR3  
RBIAS  
USBDN_DM4  
LED_B4_N  
USBDN_DP4  
OCS4_N  
SERIAL PORT INTERFACE (4 PINS)  
SDA/SMBDATA  
SCL/SMBCLK/  
CFG_SEL0  
CFG_SEL1  
CFG_SEL2  
SELF_PWR  
MISC (5 PINS)  
XTAL1/CLKIN  
TEST  
XTAL2  
RESET_N  
ANALOG POWER & GROUND (5 PINS)  
VDDA33(4)  
VDDPLL18(1)  
VDD33(3)  
DIGITAL POWER, GROUND & NO CONNECT (6 PINS)  
VDDCR18(2)  
TOTAL (56 PINS)  
NC  
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Chapter 3 Pin Configuration  
LED_B4_N  
RESET_N  
VBUS_DET1  
VBUS_DET2  
VDDA33  
43  
44  
45  
46  
47  
48  
49  
50  
51  
52  
53  
54  
55  
56  
28  
27  
26  
25  
24  
23  
22  
21  
20  
19  
18  
17  
16  
15  
LED_A2_N/NON_REM1  
PRTPWR1  
OCS1_N  
OCS2_N  
PRTPWR2  
PRTPWR3  
OCS3_N  
USBUP_DP2  
USBUP_DM2  
VDDCR18  
XTAL2  
SMSC  
OCS4_N  
USB2524  
PRTPWR4  
PRTPWR_POL  
TEST  
(Top View QFN-56)  
XTAL1/CLKIN  
VDDPLL18  
VDD33  
VDD33  
NC  
VDDCR18  
LED_B3_N  
thermal slug connects to VSS  
Figure 3.1 USB2524 QFN-56  
DATA1S1HEET  
RBIAS  
SMSC USB2524  
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Chapter 4 Switching Hub Pin Descriptions  
Table 4.1 Switching Hub Pin Descriptions  
NAME  
SYMBOL  
TYPE  
FUNCTION  
UPSTREAM USB 2.0 INTERFACE  
USB Bus Data  
USBUP_DP[2:1]  
USBUP_DM[2:1]  
IO-U  
I/O  
These pins connect to the upstream USB bus data signals.  
Detect Upstream  
VBUS Power  
VBUS_DET[2:1]  
Detects state of Upstream VBUS power. The SMSC Hub  
monitors VBUS_DET to determine when to assert the  
internal D+ pull-up resistor (signalling a connect event).  
When designing a detachable hub, this pin must be  
connected to the VBUS power pin of the USB port that is  
upstream of the hub. (Use of a weak pull-down resistor is  
recommended.)  
For self-powered applications with a permanently attached  
host, this pin must be pulled-up to either 3.3V or 5.0V  
(typically VDD33).  
4-PORT USB 2.0 HUB INTERFACE  
High-Speed USB  
Data  
USBDN_DP[4:1]  
USBDN_DM[4:1]  
IO-U  
O
These pins connect to the downstream USB peripheral  
devices attached to the Hub’s ports.  
USB Power  
Enable  
PRTPWR[4:1]  
Enables power to USB peripheral devices (downstream).  
The active signal level of the PRTPWR[4] pin is determined  
by the Power Polarity Strapping function of the  
PRTPWR_POL pin.  
Port 4:3 Green  
LED  
LED_A[4:3]_N/  
PRT_DIS[1:0]  
I/O12  
I/O12  
Green indicator LED for ports 4 and 3. Will be active low  
when LED support is enabled via EEPROM or SMBus. See  
PRT_DIS1 function description if the hub is configured by  
the internal default configuration.  
&
Port Disable  
strapping option 0  
Port Disable  
strapping option 1  
PRT_DIS1  
If the hub is configured by the internal default configuration,  
PRT_DIS[1:0] will be sampled at RESET_N negation to  
determine if ports [4:2] will be permanently disabled. Also,  
the active state of LED_A3_N will be determined as follows:  
PRT_DIS[1:0] = '00', All ports are enabled,  
LED_A4_N is active high,  
LED_A3_N is active high.  
PRT_DIS[1:0] = '01', Port 4 is disabled,  
LED_A4_N is active high,  
LED_A3_N is active low.  
PRT_DIS[1:0] = '10', Ports 4 & 3 are disabled,  
LED_A4_N is active low,  
LED_A3_N is active high.  
PRT_DIS[1:0] = '11', Ports 4, 3 & 2 are disabled,  
LED_A4_N is active low,  
LED_A3_N is active low.  
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Table 4.1 Switching Hub Pin Descriptions (continued)  
NAME  
SYMBOL  
TYPE  
FUNCTION  
Port [2:1] Green  
LED  
LED_A[2:1]_N/  
NON_REM[1:0]  
I/O12  
Green indicator LED for ports 2 and 1. Will be active low  
when LED support is enabled via EEPROM or SMBus.  
&
If the hub is configured by the internal default configuration,  
these pins will be sampled at RESET_N negation to  
determine if ports [3:1] contain permanently attached (non-  
removable) devices. Also, the active state of the LED's will  
be determined as follows:  
Port Non-  
Removable  
strapping option  
NON_REM[1:0] = '00', All ports are removable,  
LED_A2_N is active high,  
LED_A1_N is active high.  
NON_REM[1:0] = '01', Port 1 is non-removable,  
LED_A2_N is active high,  
LED_A1_N is active low.  
NON_REM[1:0] = '10', Ports 1 & 2 are non-removable,  
LED_A2_N is active low,  
LED_A1_N is active high.  
NON_REM[1:0] = '11', Ports 1, 2, & 3 are non-removable,  
LED_A2_N is active low,  
LED_A1_N is active low.  
Enhanced Port  
LED Indicators  
LED_B[4:1]_N  
I/O12  
These 4 pins in conjunction with the LED_A[4:1]_N pins  
provides a total of 8 LED pins which are used to indicate  
upstream host ownership of the downstream ports.  
2 operational modes are available  
Single Color LED Mode: LED will light to show which host  
owns each of the downstream ports. If a port is  
“unassigned” then neither LED for that port will light up.  
Dual Color LED’s: (note; 4 possible states are displayed to  
the user, Green, Red, Orange and Off).  
Port Power  
Polarity strapping  
PRTPWR_POL  
I/O  
Port Power Polarity strapping determination for the active  
signal polarity of the PRTPWR[4:1] pins.  
While RESET_N is asserted, the logic state of this pin will  
(through the use of internal combinatorial logic) determine  
the active state of the PRTPWR[4:1] pins in order to ensure  
that downstream port power is not inadvertently enabled to  
inactive ports during a hardware reset.  
When RESET_N is negated, the logic value will be latched  
internally, and will retain the active signal polarity for the  
PRTPWR[4:1] pins.  
‘1’ = PRTPWR[4:1] pins have active ‘high’ polarity  
‘0’ = PRTPWR[4:1] pins have active ‘low’ polarity  
Warning: Active Low port power controllers may glitch  
the downstream port power when system power is first  
applied. Care should be taken when designing with  
active low components!  
Over Current  
Sense  
OCS[4:1]_N  
RBIAS  
IPU  
I-R  
Input from external current monitor indicating an over-  
current condition. {Note: Contains internal pull-up to 3.3V  
supply}  
USB Transceiver  
Bias  
A 12.0kΩ (+/− 1%) resistor is attached from ground to this  
pin to set the transceiver’s internal bias settings.  
SMSC USB2524  
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Table 4.1 Switching Hub Pin Descriptions (continued)  
NAME  
SYMBOL  
TYPE  
FUNCTION  
Assign  
Downstream  
Ports to Upstream  
Host Ports  
PRT_ASSIGN  
[3:0]  
I
Port Assign Interface: Operates in either Embedded mode,  
or Peripheral mode. See Chapter 6, Assigning Ports for  
additional details.  
SERIAL PORT INTERFACE  
Serial Data/SMB  
Data  
SDA/SMBDATA  
IOSD12  
IOSD12  
(Serial Data)/(SMB Data) signal.  
Serial Clock/SMB  
SCL/SMBCLK/  
CFG_SEL0  
(Serial Clock)/(SMB Clock) signal.  
Clock  
&
CFG_SEL0: The logic state of this multifunction pin is  
internally latched on the rising edge of RESET_N  
(RESET_N negation), and will determine the hub  
configuration method as described in Table 4.2.  
Configuration  
Programming  
Select  
Configuration  
Programming  
Select  
CFG_SEL1  
CFG_SEL2  
I
I
The logic state of this pin is internally latched on the rising  
edge of RESET_N (RESET_N negation), and will determine  
the hub configuration method as described in Table 4.2.  
Configuration  
Programming  
Select  
The logic state of this pin is internally latched on the rising  
edge of RESET_N (RESET_N negation), and will determine  
the hub configuration method as described in Table 4.2.  
Table 4.2 SMBus or EEPROM Interface Behavior  
NAME  
NAME  
NAME  
FUNCTION  
CFG_SEL2  
0
CFG_SEL1  
0
CFG_SEL0  
0
SMBus or EEPROM interface behavior.  
Internal Default Configuration  
PRT_ASSIGN[3:0] = Embedded Mode.  
Strap options on pins LED_A[4:1]_N are enabled.  
LED Mode = USB Mode  
0
0
0
1
1
0
Configured as an SMBus slave for external download of  
user-defined descriptors.  
SMBus slave address is :0101100  
Strap options on pins LED_A[4:1]_N are disabled  
LED Mode = See Chapter 8, LED Interface Description  
Internal Default Configuration  
PRT_ASSIGN[3:0] = Peripheral Mode (Level Triggered)  
Strap options on pins LED_A[4:1]_N are enabled.  
No support for unassigned Ports.  
LED Mode = USB Mode  
0
1
1
2-wire (I2C) EEPROMS are supported,  
LED Mode = See Chapter 8, LED Interface Description  
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Table 4.2 SMBus or EEPROM Interface Behavior (continued)  
NAME  
NAME  
NAME  
FUNCTION  
Internal Default Configuration  
1
0
0
PRT_ASSIGN[3:0] = Peripheral Mode (Edge Triggered)  
LED Mode = Host Ownership Mode  
Strap  
options on pins LED_A[4:1]_N are enabled.  
Supports unassigned Ports  
1
0
1
Internal Default Configuration  
PRT_ASSIGN[3:0] = Peripheral Mode (Edge Triggered)  
LED Mode = Host Ownership & Port Speed Mode  
Strap options on pins LED_A[4:1]_N are disabled  
Supports unassigned Ports.  
1
1
1
1
0
1
Reserved  
Reserved  
Table 4.3 Miscellaneous Pins  
TYPE  
NAME  
SYMBOL  
FUNCTION  
Crystal  
Input/External  
Clock Input  
XTAL1/  
CLKIN  
ICLKx  
24MHz crystal or external clock input.  
This pin connects to either one terminal of the crystal or  
to an external 24MHz clock when a crystal is not used.  
Note:  
See Table 11.1 for the required logic voltage  
levels of this pad if it will be driven by an  
external clock source.  
Crystal Output  
XTAL2  
OCLKx  
24MHz Crystal  
This is the other terminal of the crystal, or left  
unconnected when an external clock source is used to  
drive XTAL1/CLKIN. It must not be used to drive any  
external circuitry other than the crystal circuit.  
RESET Input  
RESET_N  
IS  
I
This active low signal is used by the system to reset the  
chip. The minimum active low pulse is 1us.  
Self-Power /  
Bus-Power  
Detect  
SELF_PWR  
Detects availability of local self-power source.  
Low = Self/local power source is NOT available (i.e., Hub  
gets all power from Upstream USB VBus).  
High = Self/local power source is available.  
TEST Pin  
TEST  
IPD  
Used for testing the chip. User must treat as a no-  
connect or connect to ground.  
Table 4.4 Power, Ground, and No Connect  
NAME  
SYMBOL  
TYPE  
FUNCTION  
VDD Core  
VDDCR18  
+1.8V core power.  
Pins 16 and 50 must have a 4.7μF (or greater) ±20%  
(ESR <0.1Ω) capacitor to VSS  
VDDIO 3.3V  
VDD33  
+3.3V Power Supply for the Digital I/O.  
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Table 4.4 Power, Ground, and No Connect (continued)  
SYMBOL TYPE FUNCTION  
+1.8V Filtered analog power for internal PLL.  
NAME  
VDD PLL  
VDDPLL18  
This pin must have a 4.7μF (or greater) ±20% (ESR  
<0.1Ω) capacitor to VSS  
VDD Analog  
I/O  
VDDA33  
+3.3V Filtered analog PHY power, shared between  
adjacent ports.  
VSS  
NC  
VSS  
NC  
Ground  
No Connect  
Table 4.5 Buffer Type Descriptions  
DESCRIPTION  
BUFFER  
I
IPD  
Input.  
Input, Weak Internal pull-down.  
Input, Weak Internal pull-up.  
Input with Schmitt trigger.  
IPU  
IS  
IOSD12  
Open drain….12mA sink with Schmitt trigger, and must meet I2C-Bus Specification Version 2.1  
requirements.  
ICLKx  
OCLKx  
I-R  
XTAL Clock Input  
XTAL Clock Output  
RBIAS  
IO-U  
Defined in USB Specification.  
Note:  
Meets USB 1.1 requirements when operating as a 1.1-compliant device and meets  
USB 2.0 requirements when operating as a 2.0-compliant device.  
AIO  
Analog Input/output. Per PHY test requirements.  
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Chapter 5 Switching Hub Block Diagram  
EEPRO M  
or SM Bus  
M aster  
24 M Hz  
Crystal  
Pin  
Strapping  
O ptions  
1.8V  
Cap  
Upstream  
USB Data  
3.3V  
Upstream  
USB Data  
Upstream  
VBUS  
SCL SD  
Internal  
Defaults  
Select  
1.8V  
Reg.  
VBUS Pow er  
Detect  
Serial  
Interface  
PLL  
SIE  
Upstream  
PHY  
Upstream  
PHY  
SIE  
Controller  
Controller  
Repeater  
Repeater  
TT  
#1  
TT  
#2  
TT  
#3  
TT  
#4  
Port  
Controller  
Port  
Controller  
TT  
#4  
TT  
#3  
TT  
#2  
TT  
#1  
Routing Logic  
Routing Logic  
Sw itching Logic  
Port  
Assign  
[3:0]  
Port #1  
Port #2  
Port #3  
Port #4  
Dow nstream  
PHY #1  
O C Sense  
Sw itch Driver  
LED Drivers  
Dow nstream  
PHY #2  
O C Sense  
Sw itch Driver  
LED Drivers  
Downstream  
PHY #3  
O C Sense  
Sw itch Driver  
LED Drivers  
Dow nstream  
PHY #4  
OC Sense  
Sw itch Driver  
LED Drivers  
Downstream  
USB Data  
O C  
Sense  
Switch/LEDDownstream  
Drivers USB Data  
O C Switch/LED Downstream  
Sense Drivers USB Data  
O C Switch/LED Downstream  
Sense Drivers USB Data  
O C Switch/LED  
Sense  
Drivers  
Figure 5.1 USB2524 Switching Hub Block Diagram  
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Datasheet  
Chapter 6 Assigning Ports  
There are two different (OEM selectable) methods of assigning downstream ports to upstream hosts.  
One method is with the PRT_ASSIGN[3:0] interface through the use of mechanical switches or by  
electrical control of the pins via an external Microcontroller’s GPIO interface. The second method is  
through the SMBus interface, where the SMBus interface is used to control the switching hub during  
operation and can switch downstream ports via SMBus commands.  
6.1  
Port Assign Interface (PRT_ASSIGN[3:0] pins)  
Assigning ports to either of the upstream host controllers can be accomplished through the 4-wire  
PRT_ASSIGN interface. The PRT_ASSIGN interface has three operating modes. One is called the  
Embedded Mode, and the other is Peripheral Mode (with two different electrical “sub” modes; (level  
triggered or edge triggered).  
Note: Any change in PRT_ASSIGN pins will be ignored until the USB2524 is out of reset.  
6.1.1  
Embedded Mode:  
The four-pin interface (PRT_ASSIGN[3:0]) operates with only three of the four available pins  
(PRT_ASSIGN3 is disabled in this mode), which enables a user to select one of 8 pre-determined port  
assignment configurations. There are 8 “default” configurations, or an OEM can customize the  
configurations through an EEPROM or SMBus code load.  
Note: There is a switching delay determined by the Register D0h: Port Interface Delay Timer.  
The configuration is determined by Table 6.1, "USB2524 Port Assign Interface (Embedded Mode)".  
Table 6.1 USB2524 Port Assign Interface (Embedded Mode)  
INTERNAL DEFAULT  
CONFIGURATION  
HOST OWNERSHIP OF  
DOWNSTREAM PORTS  
PORT ASSIGN INTERFACE ENCODING  
PRT_ASSIGN  
3
PRT_ASSIGN  
2
PRT_ASSIGN  
1
PRT_ASSIGN  
0
CONFIG  
#
PORT  
1
PORT  
2
PORT  
3
PORT  
4
X
X
X
X
X
X
X
X
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
0
1
2
3
4
5
6
7
H1  
H2  
H1  
H1  
H2  
H2  
H1  
H1  
H1  
H2  
H1  
H1  
H2  
H1  
H1  
H1  
H1  
H2  
H2  
H1  
H2  
H1  
H2  
H1  
H1  
H2  
H2  
H2  
H1  
H1  
UA  
UA  
Note 6.1 H1 = The USB host or hub that is connected to upstream port #1  
Note 6.2 H2 = The USB host or hub that is connected to upstream port #2  
Note 6.3 UA = Un-Assigned  
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Note 6.4 X = Don’t Care  
6.1.2  
Peripheral Mode: Level Triggered  
In Peripheral Mode (Level Triggered), each pin directly switches a downstream port between the two  
upstream host ports. Each pin on the PRT_ASSIGN interface is only capable of two electrical states  
(either logic low or logic high). The interface will control downstream port assignment as follows.  
Note: There is a switching delay determined by the Register D0h: Port Interface Delay Timer.  
PRT_ASSIGN0 = '0', then Port 1 assigned to host 1  
PRT_ASSIGN0 = '1', then Port 1 assigned to host 2  
PRT_ASSIGN1 = '0', then Port 2 assigned to host 1  
PRT_ASSIGN1 = '1', then Port 2 assigned to host 2  
PRT_ASSIGN2 = '0', then Port 3 assigned to host 1  
PRT_ASSIGN2 = '1', then Port 3 assigned to host 2  
PRT_ASSIGN3 = '0', then Port 4 assigned to host 1  
PRT_ASSIGN3 = '1', then Port 4 assigned to host 2  
6.1.3  
Peripheral Mode: Edge Triggered  
Each pin will respond to a positive edge transition that is part of a positive pulse that has a minimum  
pulse width of 100ns, and will not respond to another positive edge until after a negative pulse with  
minimum pulse width (that is determined by the Register D0h: Port Interface Delay Timer (Reset =  
0x00) on page 29) has been detected. The combination of a 100ns positive pulse width and a  
programmable length negative width requirement provides an effective glitch filter mechanism for a  
variety of mechanical switches.  
Each positive edge transition will change the upstream host ownership of downstream ports as follows  
(1st transition will increment ownership from Host 1 to Host 2, the 2nd transition will increment  
ownership from Host 2 to Unassigned (or Host 1, if not using the Unassigned state), and the 3rd  
transition will increment ownership from Unassigned to Host 1 (note: this “3rd” state will not occur if  
“unassigned” is not used). Each subsequent transition will continue to increment the port ownership  
and will cycle through in similar fashion.  
Note: Power-On default for edge triggered operation is: all ports assigned to Host 1.  
6.2  
SMBus Host Control of Port Assignment  
In this mode, the SMBus interface remains “live” during operation of the switching hub and is used to  
switch/assign ports “on-the-fly” through SMBus commands. This is accomplished through register  
direct writes to the Port Assignment registers (see the USB_ATTACH description under Register FFh:  
Status/Command (Reset = 0x00) on page 39).  
SMSC USB2524  
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Chapter 7 Configuration Options  
7.1  
Switching Hub Configuration Options  
The SMSC Hub supports a large number of features (some are mutually exclusive), and must be  
configured in order to correctly function when attached to a USB host controller. There are three  
principal ways to configure the hub: SMBus, EEPROM, or by internal default settings (with or without  
pin strapping option over-rides). In all cases, the configuration method will be determined by the  
CFG_SEL2, CFG_SEL1 and CFG_SEL0 pins immediately after RESET_N negation.  
7.1.1  
7.1.2  
Power Switching Polarity  
The selection of active state “polarity” for the PRTPWR pins is made by a strapping option only (the  
PRTPWR_POL pin).  
VBus Detect  
According to Section 7.2.1 of the USB 2.0 Specification, a downstream port can never provide power  
to its D+ or D- pull-up resistors unless the upstream port’s VBUS is in the asserted (powered) state.  
The VBUS_DET pin on the Hub monitors the state of the upstream VBUS signal and will not pull-up  
the D+ resistor if VBUS is not active. If VBUS goes from an active to an inactive state (Not Powered),  
Hub will remove power from the D+ pull-up resistor within 10 seconds.  
7.1.3  
Port Assignment Configuration:  
The order of precedence for control of ownership of each port is as follows:  
1. CFG_SEL0 and CFG_SEL1.  
2. PRT_ASSIGN_CFG register  
3. PRT_ASSIGN_MODE register  
4. PRT_LCK register  
5. The applicable PORT_ASSIGN_INTxx or PORT_ASSIGN_xx register (based on the settings  
above).  
Note: The PRT_LCK register will primarily be used when in SMBus mode, but is available for use in  
EEPROM Configuration, When the EEPROM port assignment values are loaded, the  
PRT_LCK will be temporarily suspended, then after the configuration is loaded, the PRT_LCK  
function will be enabled.  
7.1.4  
Internal Register Set (Common to EEPROM and SMBus)  
Table 7.1 Internal EEPROM & SMBus Register Memory Map  
DEFAULT  
REG ADDR  
R/W  
REGISTER NAME  
ABBR  
ROM  
00h  
01h  
02h  
03h  
04h  
05h  
06h  
07h  
08h  
09h  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
VID LSB  
VID MSB  
PID LSB  
PID MSB  
DID LSB  
VIDL  
VIDM  
PIDL  
PIDM  
DIDL  
DIDM  
CFG1  
CFG2  
CFG3  
NRD  
24h  
04h  
24h  
25h  
00h  
00h  
9Bh  
10h  
00h  
00h  
DID MSB  
Config Data Byte 1  
Config Data Byte 2  
Config Data Byte 3  
Non-Removable Devices  
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Table 7.1 Internal EEPROM & SMBus Register Memory Map (continued)  
DEFAULT  
ROM  
REG ADDR  
R/W  
REGISTER NAME  
ABBR  
0Ah  
0Bh  
0Ch  
0Dh  
0Eh  
0Fh  
10h  
11h  
12h  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
R/W  
Port Disable (Self)  
Port Disable (Bus)  
Max Power (Self)  
Max Power (Bus)  
Hub Controller Max Current (Self)  
Hub Controller Max Current (bus)  
Power-on Time  
PDS  
PDB  
00h  
00h  
01h  
64h  
01h  
64h  
32h  
00h  
00h  
00h  
00h  
00h  
00h  
00h  
00h  
2Fh  
11h  
11h  
00h  
00h  
22h  
22h  
00h  
00h  
11h  
22h  
00h  
00h  
11h  
21h  
00h  
00h  
22h  
12h  
00h  
00h  
12h  
11h  
00h  
00h  
11h  
02h  
00h  
00h  
11h  
01h  
00h  
00h  
00h  
00h  
00h  
00h  
00h  
00h  
00h  
MAXPS  
MAXPB  
HCMCS  
HCMCB  
PWRT  
LANGIDH  
LANGIDL  
MFRSL  
PRDSL  
SERSL  
MANSTR  
PRDSTR  
SERSTR  
PRTDT  
LANG_ID_H  
LANG_ID_L  
MFR_STR_LEN  
PRD_STR_LEN  
SER_STR_LEN  
MFR_STR  
13h  
14h  
15h  
16h-53h  
54h-91h  
92h-CFh  
D0h  
D1h  
D2h  
D3h  
D4h  
D5h  
D6h  
D7h  
D8h  
D9h  
DAh  
DBh  
DCh  
DDh  
DEh  
DFh  
E0h  
PROD_STR  
SER_STR  
PRT_DLY_TIME  
Port Assign Int0A  
Port Assign Int0B  
Port Assign Int0C  
Port Assign Int0D  
Port Assign Int1A  
Port Assign Int1B  
Port Assign Int1C  
Port Assign Int1D  
Port Assign Int2A  
Port Assign Int2B  
Port Assign Int2C  
Port Assign Int2D  
Port Assign Int3A  
Port Assign Int3B  
Port Assign Int3C  
Port Assign Int3D  
Port Assign Int4A  
Port Assign Int4B  
Port Assign Int4C  
Port Assign Int4D  
Port Assign Int5A  
Port Assign Int5B  
Port Assign Int5C  
Port Assign Int5D  
Port Assign Int6A  
Port Assign Int6B  
Port Assign Int6C  
Port Assign Int6D  
Port Assign Int7A  
Port Assign Int7B  
Port Assign Int7C  
Port Assign Int7D  
Port Assign 12  
PRTIF0A  
PRTIF0B  
PRTIF0C  
PRTIF0D  
PRTIF1A  
PRTIF1B  
PRTIF1C  
PRTIF1D  
PRTIF2A  
PRTIF2B  
PRTIF2C  
PRTIF2D  
PRTIF3A  
PRTIF3B  
PRTIF3C  
PRTIF3D  
PRTIF4A  
PRTIF4B  
PRTIF4C  
PRTIF4D  
PRTIF5A  
PRTIF5B  
PRTIF5C  
PRTIF5D  
PRTIF6A  
PRTIF6B  
PRTIF6C  
PRTIF6D  
PRTIF7A  
PRTIF7B  
PRTIF7C  
PRTIF7D  
PRTA12  
PRTA34  
PRTA56  
PRTA7  
E1h  
E2h  
E3h  
E4h  
E5h  
E6h  
E7h  
E8h  
E9h  
EAh  
EBh  
ECh  
EDh  
EEh  
EFh  
F0h  
F1h  
F2h  
F3h  
F4h  
Port Assign 34  
Port Assign 56  
Port Assign 7  
Port Lockout  
F5h  
F6h-FEh  
FFh  
PRT_LK  
N/A  
STCD  
Reserved  
Status/Command  
Note: SMBus register only!  
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7.1.4.1  
Register 00h: Vendor ID (LSB) (Reset = 0x00)  
BIT NAME  
BIT  
NUMBER  
DESCRIPTION  
7:0  
VID_LSB  
Least Significant Byte of the Vendor ID. This is a 16-bit value that uniquely  
identifies the Vendor of the user device (assigned by USB-Interface Forum).  
This field is set by the OEM using either the SMBus or EEPROM interface  
options.  
7.1.4.2  
Register 01h: Vendor ID (MSB) (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
VID_MSB  
Most Significant Byte of the Vendor ID. This is a 16-bit value that uniquely  
identifies the Vendor of the user device (assigned by USB-Interface Forum).  
This field is set by the OEM using either the SMBus or EEPROM interface  
options.  
7.1.4.3  
Register 02h: Product ID (LSB) (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PID_LSB  
Least Significant Byte of the Product ID. This is a 16-bit value that the Vendor  
can assign that uniquely identifies this particular product (assigned by OEM).  
This field is set by the OEM using either the SMBus or EEPROM interface  
options.  
7.1.4.4  
Register 03h: Product ID (MSB) (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PID_MSB  
Most Significant Byte of the Product ID. This is a 16-bit value that the Vendor  
can assign that uniquely identifies this particular product (assigned by OEM).  
This field is set by the OEM using either the SMBus or EEPROM interface  
options.  
7.1.4.5  
Register 04h: Device ID (LSB) (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
DID_LSB  
Least Significant Byte of the Device ID. This is a 16-bit device release number  
in BCD format (assigned by OEM). This field is set by the OEM using either  
the SMBus or EEPROM interface options.  
7.1.4.6  
Register 05h: Device ID (MSB) (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
DID_MSB  
Most Significant Byte of the Device ID. This is a 16-bit device release number  
in BCD format (assigned by OEM). This field is set by the OEM using either  
the SMBus or EEPROM interface options.  
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7.1.4.7  
Register 06h: CONFIG_BYTE_1 (Reset = 0x00)  
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 than 2mA of upstream bus power)  
or Bus-Powered (limited to a 100mA maximum of upstream power prior to  
being configured by the host controller).  
When configured as a Bus-Powered device, the SMSC Hub consumes less  
than 100mA of current prior to being configured. After configuration, the Bus-  
Powered SMSC Hub (along with all associated hub circuitry, any embedded  
devices if part of a compound device, and 100mA per externally available  
downstream port) must consume no more than 500mA of upstream VBUS  
current. The current consumption is system dependent, and the OEM must  
ensure that the USB 2.0 specifications are not violated.  
When configured as a Self-Powered device, <1mA of upstream VBUS current  
is consumed and all ports are available, with each port being capable of  
sourcing 500mA of current.  
This field is set by the OEM using either the SMBus or EEPROM interface  
options.  
Please see the description under Dynamic Power for the self/bus power  
functionality when dynamic power switching is enabled.  
0 = Bus-Powered operation.  
1 = Self-Powered operation.  
Note:  
If Dynamic Power Switching is enabled, this bit is ignored and the  
SELF_PWR pin is used to determine if the hub is operating from self  
or bus power.  
6
5
Reserved  
HS_DISABLE  
Reserved, always = ‘0’.  
High Speed Disable: Disables the capability to attach as either a High/Full-  
speed device, and forces attachment as Full-speed only i.e. (no High-Speed  
support).  
0 = High-/Full-Speed.  
1 = Full-Speed-Only (High-Speed disabled!)  
4
MTT_ENABLE  
Multi-TT enable: Enables one transaction translator per port operation.  
Selects between a mode where only one transaction translator is available for  
all ports (Single-TT), or each port gets a dedicated transaction translator (Multi-  
TT) {Note: The host may force Single-TT mode only}. When using the internal  
default option, the MTT_EN pin enables/disables MTT support.  
0 = single TT for all ports.  
1 = one TT per port (multiple TT’s supported)  
3
2:1  
0
EOP_DISABLE  
CURRENT_SNS  
PORT_PWR  
EOP Disable: Disables EOP generation of EOF1 when in Full-Speed mode.  
During FS operation only, this permits the Hub to send EOP if no downstream  
traffic is detected at EOF1. See Section 11.3.1 of the USB 2.0 Specification for  
additional details. Note: generation of an EOP at the EOF1 point may prevent  
a Host controller (operating in FS mode) from placing the USB bus in suspend.  
0 = An EOP is generated at the EOF1 point if no traffic is detected.  
1 = EOP generation at EOF1 is disabled (note: this is normal USB operation).  
Over Current Sense: Selects current sensing on a port-by-port basis, all ports  
ganged, or none (only for bus-powered hubs) The ability to support current  
sensing on a port or ganged basis is hardware implementation dependent.  
00 = Ganged sensing (all ports together).  
01 = Individual port-by-port.  
1x = Over current sensing not supported. (must only be used with Bus-  
Powered configurations!)  
Port Power Switching: Enables power switching on all ports simultaneously  
(ganged), or port power is individually switched on and off on a port- by-port  
basis (individual). The ability to support power enabling on a port or ganged  
basis is hardware implementation dependent.  
0 = Ganged switching (all ports together)  
1 = Individual port-by-port switching.  
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7.1.4.8  
Register 07h: Configuration Data Byte 2 (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
Dynamic Power Enable: Controls the ability of the Hub to automatically  
7
DYNAMIC  
change from Self-Powered operation to Bus- Powered operation if the local  
power source is removed or is unavailable (and from Bus-Powered to Self-  
Powered if the local power source is restored). {Note: If the local power source  
is available, the Hub will always switch to Self-Powered operation.}  
When Dynamic Power switching is enabled, the Hub detects the availability of  
a local power source by monitoring the external SELF_PWR pin. If the Hub  
detects a change in power source availability, the Hub immediately  
disconnects and removes power from all downstream devices and disconnects  
the upstream port. The Hub will then re-attach to the upstream port as either  
a Bus-Powered Hub (if local-power in unavailable) or a Self-Powered Hub (if  
local power is available).  
0 = No Dynamic auto-switching.  
1 = Dynamic Auto-switching capable.  
6
Reserved  
Reserved, always = ‘0’.  
5:4  
OC_TIMER  
OverCurrent Timer: Over Current Timer delay.  
00 = 0.1ms  
01 = 2ms  
10 = 4ms  
11 = 6ms  
3
COMPOUND  
Compound Device: Allows the OEM to indicate that the Hub is part of a  
compound (see the USB Specification for definition) device. 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 automatically causes the hub controller to report that it is part of a  
compound device.  
0 = No.  
1 = Yes, Hub is part of a compound device.  
2:1  
0
Reserved  
BOOST_IOUT  
Reserved, always = ‘0’.  
Upstream USB electrical signaling drive strength Boost Bit.  
Note:  
This is used for long-trace length designs where additional electrical  
signal boost may be required to support standard USB signal levels  
at the far end of a cable.  
‘0’ = Normal electrical drive strength.  
‘1’ = Elevated electrical drive strength.  
7.1.4.9  
Register 08h: Configuration Data Byte 3 (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:6  
PRT_ASSIGN_MODE Port Assignment Interface Mode:  
‘00’ = Port Assign Interface is configured for Programmable Mode (8  
configurations) (3-wire)  
‘01’ = Port Assign Interface is configured for Direct Port Control. (4-Wire), Level  
Sensitive.  
‘10’ = Port Assign Interface is configured for Direct Port Control. (4-Wire), edge  
Sensitive, and Unassigned state is not supported.  
‘11’ = Port Assign Interface is configured for Direct Port Control. (4-Wire), edge  
Sensitive, and the Unassigned state is supported.  
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BIT  
NUMBER  
BIT NAME  
PRT_ASSIGN_CFG Port Assignment Configuration:  
DESCRIPTION  
5
‘0’ = Port assignment is controlled by hardware interface pins  
‘1’ = Port assignment is controlled by:  
PORT_ASSIGN_12  
PORT_ASSIGN_34  
PORT_ASSIGN_56  
PORT_ASSIGN_7  
4:3  
2:1  
Reserved  
LED_MODE  
Reserved, always = ‘0’.  
LED Mode Selection: The LED_A[4:1]_N and LED_B[4:1]_N pins support  
several different modes of operation (depending upon OEM implementation of  
the LED circuit).  
‘00’ = USB Mode, (see USB Mode: on page 44 for description)  
‘01’ = Host Ownership and Port Speed LED indicator, (see Host Ownership and  
Port Speed LED Indication: on page 45 for description)  
‘10’ = Basic Host Ownership LED indicator, (see Basic Host Owner LED  
Indication: on page 44 for description)  
‘11’ = Same as "00", USB Mode  
Warning: Do not enable an LED mode that requires LED pins that are not  
available in the specific package being used in the implementation!  
0
STRING_EN  
Enables String Descriptor Support  
‘0’ = String Support Disabled  
‘1’ = String Support Enabled  
7.1.4.10  
Register 09h: Non-Removable Device (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
NR_DEVICE  
Non-Removable Device: Indicates which port(s) include non- removable  
devices. ‘0’ = port is removable, ‘1’ = port is non- removable.  
Informs the Host if one of the active ports has a permanent device that is un-  
detachable from the Hub. (Note: The device must provide its own descriptor  
data.)  
When using the internal default option, the NON_REM[1:0] pins will designate  
the appropriate ports as being non- removable.  
Bit 7= Reserved, always = ‘0’.  
Bit 6= Reserved, always = ‘0’.  
Bit 5= Reserved, always = ‘0’.  
Bit 4= 1; Port 4 is disabled.  
Bit 3= 1; Port 3 non-removable.  
Bit 2= 1; Port 2 non-removable.  
Bit 1= 1; Port 1 non-removable.  
Bit 0 is Reserved, always = ‘0’.  
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7.1.4.11  
Register 0Ah: Port Disable For Self Powered Operation (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_DIS_SP  
Port Disable Self-Powered: Disables 1 or more contiguous ports. ‘0’ = port is  
available, ‘1’ = port is disabled.  
During Self-Powered operation, this selects the ports which will be permanently  
disabled, and are not available to be enabled or enumerated by a Host  
Controller. The disabled ports must be contiguous, and must be in decreasing  
order starting with port 4.  
When using the internal default option, the PRT_DIS[1:0] pins will disable the  
appropriate ports.  
Bit 7= Reserved, always = ‘0’.  
Bit 6= Reserved, always = ‘0’.  
Bit 5= Reserved, always = ‘0’.  
Bit 4= 1; Port 4 is disabled.  
Bit 3= 1; Port 3 is disabled.  
Bit 2= 1; Port 2 is disabled.  
Bit 1= 1; Port 1 is disabled.  
Bit 0 is Reserved, always = ‘0’  
7.1.4.12  
Register 0Bh: Port Disable For Bus Powered Operation (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_DIS_BP  
Port Disable Bus-Powered: Disables 1 or more contiguous ports. ‘0’ = port is  
available, ‘1’ = port is disabled.  
During Bus-Powered operation, this selects the ports which will be permanently  
disabled, and are not available to be enabled or enumerated by a Host  
Controller. The disabled ports must be contiguous, and must be in decreasing  
order starting with port 4.  
When using the internal default option, the PRT_DIS[1:0] pins will disable the  
appropriate ports.  
Bit 7= Reserved, always = ‘0’.  
Bit 6= Reserved, always = ‘0’.  
Bit 5= Reserved, always = ‘0’.  
Bit 4= 1; Port 4 is disabled.  
Bit 3= 1; Port 3 is disabled.  
Bit 2= 1; Port 2 is disabled.  
Bit 1= 1; Port 1 is disabled.  
Bit 0 is Reserved, always = ‘0’  
7.1.4.13  
Register 0Ch: Max Power For Self Powered Operation (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
MAX_PWR_SP  
Max Power Self_Powered: Value in 2mA 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 the board. This value also includes  
the power consumption of a permanently attached peripheral if the hub is  
configured as a compound device, and the embedded peripheral reports 0mA  
in its descriptors.  
Note:  
The USB 2.0 Specification does not permit this value to exceed  
100mA  
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7.1.4.14  
Register 0Dh: Max Power For Bus Powered Operation (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
MAX_PWR_BP  
Max Power Bus_Powered: Value in 2mA 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 the board. This value also includes  
the power consumption of a permanently attached peripheral if the hub is  
configured as a compound device, and the embedded peripheral reports 0mA  
in its descriptors.  
7.1.4.15  
Register 0Eh: Hub Controller Max Current For Self Powered Operation (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
HC_MAX_C_SP  
Hub Controller Max Current Self-Powered: Value in 2mA 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 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  
100mA  
7.1.4.16  
Register 0Fh: Hub Controller Max Current For Bus Powered Operation (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
HC_MAX_C_BP  
Hub Controller Max Current Bus-Powered: Value in 2mA increments that the  
Hub consumes from an upstream port (VBUS) when operating as a bus-  
powered hub. This value will include the hub silicon along with the combined  
power consumption (from VBUS) of all associated circuitry on the board. This  
value will NOT include the power consumption of a permanently attached  
peripheral if the hub is configured as a compound device.  
7.1.4.17  
Register 10h: Power-On Time (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
POWER_ON_TIME Power On Time: The length of time that is takes (in 2 ms intervals) from the  
time the host initiated power-on sequence begins on a port until power is good  
on that port. System software uses this value to determine how long to wait  
before accessing a powered-on port.  
7.1.4.18  
Register 11h: Language ID High (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
LANG_ID_H  
USB LANGUAGE ID (Upper 8 bits of a 16 bit ID field)  
7.1.4.19  
Register 12h: Language ID Low (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
LANG_ID_L  
USB LANGUAGE ID (lower 8 bits of a 16 bit ID field)  
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7.1.4.20  
Register 13h: Manufacturer String Length (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
MFR_STR_LEN  
Manufacturer String Length  
Maximum string length is 31 characters.  
7.1.4.21  
Register 14h: Product String Length (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PRD_STR_LEN  
Product String Length  
Maximum string length is 31 characters  
7.1.4.22  
Register 15h: Serial String Length (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
SER_STR_LEN  
Serial String Length  
Maximum string length is 31 characters  
7.1.4.23  
Register 16h-53h: Manufacturer String (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
Manufacturer String, UNICODE UTF-16LE per USB 2.0 Specification  
7:0  
MFR_STR  
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). Some EEPROM  
programmers may transpose the MSB and LSB, thus reversing the  
Byte order. Please pay careful attention to the Byte ordering or your  
selected programming tools.  
7.1.4.24  
Register 54h-91h: Product String (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PRD_STR  
Product String, UNICODE UTF-16LE per USB 2.0 Specification  
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). Some EEPROM  
programmers may transpose the MSB and LSB, thus reversing the  
Byte order. Please pay careful attention to the Byte ordering or your  
selected programming tools.  
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7.1.4.25  
Register 92h-CFh: Serial String (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
SER_STR  
Serial String, UNICODE UTF-16LE per USB 2.0 Specification  
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). Some EEPROM  
programmers may transpose the MSB and LSB, thus reversing the  
Byte order. Please pay careful attention to the Byte ordering or your  
selected programming tools.  
7.1.4.26  
Register D0h: Port Interface Delay Timer (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PRTDT  
Port Delay Timer: A 0-255 bit value that represents a delay of 0-255ms from  
the time a state change is detected on the PRT_ASSIGN[3:0] pins until the  
internal logic begins the port switching process for the affected port (or ports)  
to a different upstream host.  
Note:  
This register effectively creates a programmable debounce circuit for  
mechanical switches that may be connected to the PRT_ASSIGN[3:0]  
interface pins.  
7.1.4.27  
Register D1h: Port Assign Interface Configuration 0A (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_0A  
Port Assign Interface 0A: Determines the configuration of the hardware  
interface configuration for the assignment of ports 1 & 2 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 2 is unassigned  
‘0001’ Port 2 owned by UP1  
‘0010’ Port 2 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 1 is unassigned  
‘0001’ Port 1 owned by UP1  
‘0010’ Port 1 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
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7.1.4.28  
Register D2h: Port Assign Interface Configuration 0B (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_0B  
Port Assign Interface 0B: Determines the configuration of the hardware  
interface configuration for the assignment of ports 3 & 4 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 4 is unassigned  
‘0001’ Port 4 owned by UP1  
‘0010’ Port 4 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 3 is unassigned  
‘0001’ Port 3 owned by UP1  
‘0010’ Port 3 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
7.1.4.29  
Register D3h: Port Assign Interface Configuration 0C (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_0C  
Reserved, always = ‘0’.  
7.1.4.30  
Register D4h: Port Assign Interface Configuration 0D (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_0D  
Reserved, always = ‘0’.  
7.1.4.31  
Register D5h: Port Assign Interface Configuration 1A (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_1A  
Port Assign Interface 1A: Determines the configuration of the hardware  
interface configuration for the assignment of ports 1 & 2 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 2 is unassigned  
‘0001’ Port 2 owned by UP1  
‘0010’ Port 2 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 1 is unassigned  
‘0001’ Port 1 owned by UP1  
‘0010’ Port 1 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
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7.1.4.32  
Register D6h: Port Assign Interface Configuration 1B (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_1B  
Port Assign Interface 1B: Determines the configuration of the hardware  
interface configuration for the assignment of ports 3 & 4 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 4 is unassigned  
‘0001’ Port 4 owned by UP1  
‘0010’ Port 4 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 3 is unassigned  
‘0001’ Port 3 owned by UP1  
‘0010’ Port 3 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
7.1.4.33  
Register D7h: Port Assign Interface Configuration 1C (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_1C  
Reserved, always = ‘0’.  
7.1.4.34  
Register D8h: Port Assign Interface Configuration 1D (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_1D  
Reserved, always = ‘0’.  
7.1.4.35  
Register D9h: Port Assign Interface Configuration 2A (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_2A  
Port Assign Interface 2A: Determines the configuration of the hardware  
interface configuration for the assignment of ports 1 & 2 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 2 is unassigned  
‘0001’ Port 2 owned by UP1  
‘0010’ Port 2 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 1 is unassigned  
‘0001’ Port 1 owned by UP1  
‘0010’ Port 1 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
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7.1.4.36  
Register DAh: Port Assign Interface Configuration 2B (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_2B  
Port Assign Interface 2B: Determines the configuration of the hardware  
interface configuration for the assignment of ports 3 & 4 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 4 is unassigned  
‘0001’ Port 4 owned by UP1  
‘0010’ Port 4 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 3 is unassigned  
‘0001’ Port 3 owned by UP1  
‘0010’ Port 3 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
7.1.4.37  
Register DBh: Port Assign Interface Configuration 2C (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_2C  
Reserved, always = ‘0’.  
7.1.4.38  
Register DCh: Port Assign Interface Configuration 2D (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_2D  
Reserved, always = ‘0’.  
7.1.4.39  
Register DDh: Port Assign Interface Configuration 3A (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_3A  
Port Assign Interface 3A: Determines the configuration of the hardware  
interface configuration for the assignment of ports 1 & 2 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 2 is unassigned  
‘0001’ Port 2 owned by UP1  
‘0010’ Port 2 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 1 is unassigned  
‘0001’ Port 1 owned by UP1  
‘0010’ Port 1 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
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7.1.4.40  
Register DEh: Port Assign Interface Configuration 3B (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_3B  
Port Assign Interface 3B: Determines the configuration of the hardware  
interface configuration for the assignment of ports 3 & 4 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 4 is unassigned  
‘0001’ Port 4 owned by UP1  
‘0010’ Port 4 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 3 is unassigned  
‘0001’ Port 3 owned by UP1  
‘0010’ Port 3 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
7.1.4.41  
Register DFh: Port Assign Interface Configuration 3C (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_3C  
Reserved, always = ‘0’.  
7.1.4.42  
Register E0h: Port Assign Interface Configuration 3D (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_3D  
Reserved, always = ‘0’.  
7.1.4.43  
Register E1h: Port Assign Interface Configuration 4A (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_4A  
Port Assign Interface 4A: Determines the configuration of the hardware  
interface configuration for the assignment of ports 1 & 2 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 2 is unassigned  
‘0001’ Port 2 owned by UP1  
‘0010’ Port 2 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 1 is unassigned  
‘0001’ Port 1 owned by UP1  
‘0010’ Port 1 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
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7.1.4.44  
Register E2h: Port Assign Interface Configuration 4B (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_4B  
Port Assign Interface 4B: Determines the configuration of the hardware  
interface configuration for the assignment of ports 3 & 4 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 4 is unassigned  
‘0001’ Port 4 owned by UP1  
‘0010’ Port 4 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 3 is unassigned  
‘0001’ Port 3 owned by UP1  
‘0010’ Port 3 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
7.1.4.45  
Register E3h: Port Assign Interface Configuration 4C (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_4C  
Reserved, always = ‘0’.  
7.1.4.46  
Register E4h: Port Assign Interface Configuration 4D (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_4D  
Reserved, always = ‘0’.  
7.1.4.47  
Register E5h: Port Assign Interface Configuration 5A (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_5A  
Port Assign Interface 5A: Determines the configuration of the hardware  
interface configuration for the assignment of ports 1 & 2 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 2 is unassigned  
‘0001’ Port 2 owned by UP1  
‘0010’ Port 2 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 1 is unassigned  
‘0001’ Port 1 owned by UP1  
‘0010’ Port 1 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
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7.1.4.48  
Register E6h: Port Assign Interface Configuration 5B (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_5B  
Port Assign Interface 5B: Determines the configuration of the hardware  
interface configuration for the assignment of ports 3 & 4 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 4 is unassigned  
‘0001’ Port 4 owned by UP1  
‘0010’ Port 4 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 3 is unassigned  
‘0001’ Port 3 owned by UP1  
‘0010’ Port 3 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
7.1.4.49  
Register E7h: Port Assign Interface Configuration 5C (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_5C  
Reserved, always = ‘0’.  
7.1.4.50  
Register E8h: Port Assign Interface Configuration 5D (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_5D  
Reserved, always = ‘0’.  
7.1.4.51  
Register E9h: Port Assign Interface Configuration 6A (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_6A  
Port Assign Interface 6A: Determines the configuration of the hardware  
interface configuration for the assignment of ports 1 & 2 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 2 is unassigned  
‘0001’ Port 2 owned by UP1  
‘0010’ Port 2 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 1 is unassigned  
‘0001’ Port 1 owned by UP1  
‘0010’ Port 1 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
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Datasheet  
7.1.4.52  
Register EAh: Port Assign Interface Configuration 6B (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_6B  
Port Assign Interface 6B: Determines the configuration of the hardware  
interface configuration for the assignment of ports 3 & 4 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 4 is unassigned  
‘0001’ Port 4 owned by UP1  
‘0010’ Port 4 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 3 is unassigned  
‘0001’ Port 3 owned by UP1  
‘0010’ Port 3 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
7.1.4.53  
Register EBh: Port Assign Interface Configuration 6C (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_6C  
Reserved, always = ‘0’.  
7.1.4.54  
Register ECh: Port Assign Interface Configuration 6D (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_6D  
Reserved, always = ‘0’.  
7.1.4.55  
Register EDh: Port Assign Interface Configuration 7A (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_7A  
Port Assign Interface 7A: Determines the configuration of the hardware  
interface configuration for the assignment of ports 1 & 2 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 2 is unassigned  
‘0001’ Port 2 owned by UP1  
‘0010’ Port 2 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 1 is unassigned  
‘0001’ Port 1 owned by UP1  
‘0010’ Port 1 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
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7.1.4.56  
Register EEh: Port Assign Interface Configuration 7B (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_7B  
Port Assign Interface 7B: Determines the configuration of the hardware  
interface configuration for the assignment of ports 3 & 4 to upstream hosts.  
Bit [7:4] = ‘0000’ Port 4 is unassigned  
‘0001’ Port 4 owned by UP1  
‘0010’ Port 4 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 3 is unassigned  
‘0001’ Port 3 owned by UP1  
‘0010’ Port 3 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
7.1.4.57  
Register EFh: Port Assign Interface Configuration 7C (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_7C  
Reserved, always = ‘0’.  
7.1.4.58  
Register F0h: Port Assign Interface Configuration 7D (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_INT_7D  
Reserved, always = ‘0’.  
7.1.4.59  
Register F1h: Port Assignment 1 & 2 (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_ASSIGN_12 Port 1 & 2 Assignment to upstream host port. Determines which upstream port  
“owns” each of the downstream ports  
Bit [7:4] = ‘0000’ Port 2 is unassigned  
‘0001’ Port 2 owned by UP1  
‘0010’ Port 2 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 1 is unassigned  
‘0001’ Port 1 owned by UP1  
‘0010’ Port 1 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
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7.1.4.60  
Register F2h: Port Assignment 3 & 4 (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_ASSIGN_34 Port 3 & 4 Assignment to upstream host port. Determines which upstream port  
“owns” each of the downstream ports  
Bit [7:4] = ‘0000’ Port 4 is unassigned  
‘0001’ Port 4 owned by UP1  
‘0010’ Port 4 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
Bit [3:0] = ‘0000’ Port 3 is unassigned  
‘0001’ Port 3 owned by UP1  
‘0010’ Port 3 owned by UP2  
‘0011’ Reserved, will default to ‘0001’ value  
to  
‘1111’  
7.1.4.61  
Register F3h: Port Assignment 5 & 6 (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_ASSIGN_56 Reserved, always = ‘0’.  
7.1.4.62  
Register F4h: Port Assignment 7 (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_ASSIGN_7 Reserved, always = ‘0’.  
7.1.4.63  
Register F5h: Port Lockout (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:0  
PORT_LOCKOUT Port Lockout: Locks a port to the currently assigned upstream port, and doesn’t  
allow the port to be re-assigned.  
‘0’ = port is available to be switched  
‘1’ = port is locked to the assigned port.  
Bit 7= Reserved, always = ‘0’.  
Bit 6= Reserved, always = ‘0’.  
Bit 5= Reserved, always = ‘0’.  
Bit 4= 1; Port 4 is locked.  
Bit 3= 1; Port 3 is locked.  
Bit 2= 1; Port 2 is locked.  
Bit 1= 1; Port 1 is locked.  
Bit 0 is Reserved, always = ‘0’  
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7.1.4.64  
Register FFh: Status/Command (Reset = 0x00)  
BIT  
NUMBER  
BIT NAME  
DESCRIPTION  
7:3  
2
Reserved  
INTF_PW_DN  
Reserved. {Note: Software must never write a ‘1’ to these bits}  
SMBus Interface Power Down  
0 = Interface is active  
1 = Interface power down after ACK has completed.  
{Note: This bit is write once and is only cleared by assertion of the external  
RESET_N pin.}  
1
0
RESET  
Reset the SMBus Interface and internal memory back to RESET_N assertion  
default settings. {Note: During this reset, this bit is automatically cleared to its  
default value of 0.}  
0 = Normal Run/Idle State.  
1 = Force a reset of the registers to their default state.  
If the USB_ATTCH bit is set, then this bit will only reset the non write-protected  
registers!  
USB Attach (and write protect).  
USB_ATTACH  
0 = SMBus slave interface is active.  
1 = Hub will signal a USB attach event to an upstream device, and the internal  
memory (address range 00h-F0h) is “write-protected” to prevent unintentional  
data corruption.}  
{Note 1: This bit is write once and is only cleared by assertion of the external  
RESET_N pin.}  
{Note 2: If the SMBus interface is kept active after this bit is set, the  
PORT_ASSIGN_12, PORT_ASSIGN_34 PORT_ASSIGN_56,  
PORT_ASSIGN_7 and PORT_LOCKOUT registers may be continuously  
written to reconfigure port ownership.  
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7.2  
EEPROM Interface  
2
The SMSC Hub can be configured via a 2-wire (I C) EEPROM (256x8). (please see Table 4.2, "SMBus  
2
or EEPROM Interface Behavior" for specific details on how to enable configuration via an I C  
EEPROM).  
The Internal state-machine will, (when configured for EEPROM support) read the external EEPROM  
for configuration data. The hub will then “attach” to the upstream USB port.  
Note: The Hub does not have the capability to write, or “Program”, an external EEPROM. The Hub  
only has the capability to read external EEPROMs. The external eeprom will be read (even if  
it is blank or non-populated), and the hub will be “configured” with the values that are read.  
Please see Internal Register Set (Common to EEPROM and SMBus) for a list of data fields available.  
2
7.2.1  
I C Master  
2
2
The I C EEPROM interface implements a subset of the I C Master Specification (Please refer to the  
2
2
2
Philips Semiconductor Standard I C-Bus Specification for details on I C bus protocols). The Hub’s I C  
EEPROM interface is designed to attach to a single “dedicated” I C EEPROM, and it conforms to the  
Standard-mode I C Specification (100kbit/s transfer rate and 7-bit addressing) for protocol and  
2
2
electrical compatibility.  
2
Note: Extensions to the I C Specification are not supported.  
The Hub acts as the master and generates the serial clock SCL, controls the bus access (determines  
which device acts as the transmitter and which device acts as the receiver), and generates the START  
and STOP conditions.  
7.2.1.1  
7.2.1.2  
Implementation Characteristics  
The Hub will only access an EEPROM using the Sequential Read Protocol.  
Pull-Up Resistor  
The Circuit board designer is required to place external pull-up resistors (10KΩ recommended) on the  
SDA/SMBDATA & SCL/SMBCLK/CFG_SELO lines (per SMBus 1.0 Specification, and EEPROM  
manufacturer guidelines) to Vcc in order to assure proper operation.  
2
7.2.1.3  
I C EEPROM Slave Address  
Slave address is 1010000.  
Note: 10-bit addressing is NOT supported.  
7.2.2  
In-Circuit EEPROM Programming  
The EEPROM can be programmed via ATE by pulling RESET_N low (which tri-states the Hub’s  
EEPROM interface and allows an external source to program the EEPROM).  
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7.3  
SMBus Slave Interface  
Instead of loading User-Defined Descriptor data from an external EEPROM, the SMSC Hub can be  
configured to receive a code load from an external processor via an SMBus interface. The SMBus  
interface shares the same pins as the EEPROM interface, if CFG_SEL2, CFG_SEL1 & CFG_SEL0  
activates the SMBus interface, external EEPROM support is no longer available (and the user-defined  
descriptor data must be downloaded via the SMBus). Due to system issues, the SMSC Hub waits  
indefinitely for the SMBus code load to complete and only “appears” as a newly connected device on  
USB after the code load is complete.  
The Hub’s SMBus implementation is a subset of the SMBus interface to the host. The device is a  
slave-only SMBus device. The implementation in the device is a subset of SMBus since it only supports  
two protocols. The Write Block and Read Block protocols are the only valid SMBus protocols for the  
Hub. The Hub responds to other protocols as described in Invalid Protocol Response Behavior on page  
42. Reference the System Management Bus Specification, Rev 1.0.  
The SMBus interface is used to read and write the registers in the device. The register set is shown  
in, Internal Register Set (Common to EEPROM and SMBus) on page 20.  
7.3.1  
Bus Protocols  
Typical Write Block and Read Block protocols are shown below. Register accesses are performed  
using 7-bit slave addressing, an 8-bit register address field, and an 8-bit data field. The shading  
indicates the Hub driving data on the SMBDATA line; otherwise, host data is on the SDA/SMBDATA  
line.  
The slave address is the unique SMBus Interface Address for the Hub that identifies it on SMBus. The  
register address field is the internal address of the register to be accessed. The register data field is  
the data that the host is attempting to write to the register or the contents of the register that the host  
is attempting to read.  
Data bytes are transferred MSB first (msb first).  
Block Read/Write  
7.3.1.1  
The Block Write begins with a slave address and a write condition. After the command code the host  
issues a byte count which describes how many more bytes will follow in the message. If a slave had  
20 bytes to send, the first byte would be the number 20 (14h), followed by the 20 bytes of data. The  
byte count may not be 0. A Block Read or Write is allowed to transfer a maximum of 32 data bytes.  
For the following SMBus tables:  
Denotes Master-to-Slave  
Denotes Slave-to-Master  
Figure 7.1 SMBus Block Write  
1
7
1
1
8
1
S
Slave Address  
Wr  
A
Register Address  
A
...  
8
1
8
1
8
1
8
1
1
Byte Count = N  
A
Data byte 1  
A
Data byte 2  
A
Data byte N  
A
P
Block Write  
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2
A Block Read differs from a block write in that the repeated start condition exists to satisfy the I C  
specification's requirement for a change in the transfer direction.  
Figure 7.2 SMBus Block Read  
1
7
1
1
8
1
1
7
1
1
S
Slave Address Wr  
A
Register Address  
A
S
Slave Address Rd  
A
...  
8
1
8
1
8
1
8
1
1
Byte Count = N  
A
Data byte 1  
A
Data byte 2  
A
Data byte N  
A
P
Block Read  
7.3.2  
Invalid Protocol Response Behavior  
Registers that are accessed with an invalid protocol are not updated. A register is only updated  
following a valid protocol. The only valid protocols are Write Block and Read Block, which are  
described above.  
The Hub only responds to the hardware selected Slave Address. Attempting to communicate with the  
Hub over SMBus with an invalid slave address or invalid protocol results in no response, and the  
SMBus Slave Interface returns to the idle state. The only valid registers that are accessible by the  
SMBus slave address are the registers defined in the Registers Section. See Undefined Registers for  
the response to undefined registers.  
7.3.3  
7.3.4  
General Call Address Response  
The Hub does not respond to a general call address of 0000_000b.  
Slave Device Time-Out  
According to the SMBus Specification, V1.0 devices in a transfer can abort the transfer in progress  
and release the bus when any single clock low interval exceeds 25ms (T  
). Devices that  
TIMEOUT, MIN  
have detected this condition must reset their communication and be able to receive a new START  
condition no later than 35ms (T ).  
TIMEOUT, MAX  
Note: Some simple devices do not contain a clock low drive circuit; this simple kind of device typically  
resets its communications port after a start or stop condition. The Slave Device Time-Out must  
be implemented.  
7.3.5  
7.3.6  
Stretching the SCLK Signal  
The Hub supports stretching of the SCLK by other devices on the SMBus. The Hub does not stretch  
the SCLK.  
SMBus Timing  
The SMBus Slave Interface complies with the SMBus AC Timing Specification. See the SMBus timing  
in the “Timing Diagram” section.  
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7.3.7  
Bus Reset Sequence  
The SMBus Slave Interface resets and returns to the idle state upon a START field followed  
immediately by a STOP field.  
7.3.8  
SMBus Alert Response Address  
The SMBALERT# signal is not supported by the Hub.  
7.3.8.1  
Undefined Registers  
Reads to undefined registers return 00h. Writes to undefined registers have no effect and do not return  
an error.  
7.3.8.2  
Reserved Registers  
Unless otherwise instructed, only a ‘0’ may be written to all reserved registers or bits.  
7.4  
Default Strapping Option  
The USB2524 can be configured via a combination of internal default values and pin strap options.  
The strapping option pins only cover a limited sub-set of the configuration options. The internal default  
values will be used for the bits & registers that are not controlled by a strapping option pin.  
The LED_A[4:1]_N pins are sampled after RESET_N negation, and the logic values are used to  
configure the hub if the internal default configuration mode is selected. The implementation shown in  
Figure 7.3, "LED Strapping Option" shows a recommended passive scheme. When a pin is configured  
with a “Strap High” configuration, the LED functions with active low signaling, and the PAD will “sink”  
the current from the external supply. When a pin is configured with a “Strap Low” configuration, the  
LED functions with active high signaling, and the PAD will source the current to the external LED.  
+V  
Strap High  
100K  
LED  
LED  
Pin  
HUB  
LED  
Pin  
Strap Low  
100K  
LED  
Figure 7.3 LED Strapping Option  
7.5  
Default Configuration  
When configured for Internal Defaults only, the Default ROM values in Table 7.1, "Internal EEPROM &  
SMBus Register Memory Map" lists the values which will be used to configure the various hub features.  
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Chapter 8 LED Interface Description  
The USB2524 supports 3 different (mutually exclusive) LED modes. USB Mode provides 8 LEDS,  
which conform to the USB 2.0 specification functional requirements for Green and Amber LED’s. Basic  
Host Owner LED Indication mode uses 8 Single color LED’s to provide user indication of upstream  
host ownership of the 4 downstream ports. Host Owner and Downstream Port Speed LED Indication  
mode uses 8 Dual Color LED’s to provide both a User indication of Downstream port ownership, while  
simultaneously displaying an indication of the speed of the downstream device which is attached to  
each of the downstream ports.  
8.1  
USB Mode:  
The LED_A[4:1]_N pins are used to provide Green LED, and LED_B[4:1]_N pins are used to provide  
Amber LED support as defined in the USB 2.0 specification. The USB Specification defines the LED’s  
as port and error status indicators for the downstream ports. Please note that no indication of  
upstream host ownership is possible in this mode. The pins are utilized as follows:  
LED_A1_N = Port 1 Green  
LED_B1_N = Port 1 Amber  
LED_A2_N = Port 2 Green  
LED_B2_N = Port 2 Amber  
LED_A3_N = Port 3 Green  
LED_B3_N = Port 3 Amber  
LED_A4_N = Port 4 Green  
LED_B4_N = Port 4 Amber  
8.2  
Basic Host Owner LED Indication:  
All 8 LED pins are used in this mode in conjunction with single-color LEDs to indicate which upstream  
Host owns each specific downstream Port. The usage and assignment is as follows:  
LED_A1_N = Port 1 Owned By Host A  
LED_B1_N = Port 1 Owned By Host B  
LED_A2_N = Port 2 Owned By Host A  
LED_B2_N = Port 2 Owned By Host B  
LED_A3_N = Port 3 Owned By Host A  
LED_B3_N = Port 3 Owned By Host B  
LED_A4_N = Port 4 Owned By Host A  
LED_B4_N = Port 4 Owned By Host B  
If a Port is disabled, or is Unassigned, then neither the “A” or “B” LED associated with that port will  
be asserted.  
Since these LED’s are provided to give an end-user a clear indication of Host Ownership of  
downstream ports, they will function when the hub is in suspend, and will indicate Host ownership even  
if the applicable assigned Host is disconnected, powered off, etc.  
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8.3  
Host Ownership and Port Speed LED Indication:  
All 8 LED pins are used in this mode in conjunction with 8 Dual-color LEDs (each LED pair in a single  
package) to indicate which upstream Host owns each specific downstream Port, as well as the speed  
that the downstream device is operating at.  
Each dual-color LED provides two separate colors (commonly Green and Red). If each of these  
separate colors are pulsed on and off at a rapid rate, a user will see a third color (in this example,  
Orange). By this means, 4 different “color” states are possible (Green, Red, Orange, and Off).  
3.3V  
General  
Purpose  
Diode  
Connect to other  
dual color diodes.  
Green LED  
LED pin  
Current limiting  
resistor  
Red LED  
Figure 8.1 Dual Color LED Implementation Example  
Figure 8.1 shows a simple example of how this LED circuit will be implemented. The Circuit will need  
to be replicated for each of the 8 LED pins on the USB2524. In this circuit, when the LED pin is driven  
to a logic low state, the Green LED will Light up. When the LED pin is driven to a Logic High state  
the Red LED will Light up. When a 1KHz square wave is driven out on the LED pin, the Green and  
Red LED’s will both alternately light up giving the effect of the color Orange. When nothing is driven  
out on the LED pin (i.e. the pin floats to a “tri-state” condition), neither the Green or Red LED will light  
up, this is the “Off” state.  
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The assignment is as follows:  
LED_A1_N = Port 1 Owned By Host A  
LED_B1_N = Port 1 Owned By Host B  
LED_A2_N = Port 2 Owned By Host A  
LED_B2_N = Port 2 Owned By Host B  
LED_A3_N = Port 3 Owned By Host A  
LED_B3_N = Port 3 Owned By Host B  
LED_A4_N = Port 4 Owned By Host A  
LED_B4_N = Port 4 Owned By Host B  
The Usage is as follows:  
LED_Ax_N Driven to Logic Low = Port Owned by Host “A” and is operating at USB LS/FS Speed  
LED_Ax_N Driven to Logic High = Port Owned by Host “A” and is operating at USB HS Speed  
LED_Ax_N Pulsed @ 1KHz= Port Owned by Host “A” and has nothing attached.  
LED_Ax_N is tri-state= LED “A” is off.  
LED_Bx_N Driven to Logic Low = Port Owned by Host “B” and is operating at USB LS/FS Speed  
LED_Bx_N Driven to Logic High = Port Owned by Host “B” and is operating at USB HS Speed  
LED_Bx_N Pulsed @ 1KHz= Port Owned by Host “B” and has nothing attached.  
LED_Bx_N is tri-state= LED “B” is off.  
If a Port is disabled, or is Unassigned, then neither the “A” or “B” LED associated with that port will  
be asserted (i.e. both LED's will be OFF/tri-stated).  
Since these LED’s are provided to give an end-user a clear indication of Host Ownership of  
downstream ports, they will function when the hub is in suspend, and will indicate Host ownership even  
if the applicable assigned Host is disconnected, powered off, etc.  
When a downstream device is in suspend (or the Hub is in suspend), connected devices will continue  
to reflect the proper LED color for the operational speed the device is enumerated at (i.e, HS will  
remain HS, and FS/LS will remain FS/LS) What will change is the 3rd color which represents an  
assigned port with no connection, when in suspend the corresponding LED will be off (giving the same  
indication as unassigned, while the hub is suspended). This disables the 1khz toggle while the hub  
is suspended.  
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Chapter 9 Reset  
9.1  
Reset  
There are two different resets that the Hub experiences. One is a hardware reset (via the RESET_N  
pin) and the second is a USB Bus Reset.  
9.1.1  
External Hardware RESET_N  
A valid hardware reset is defined as, assertion of RESET_N for a minimum of 1us after all power  
supplies are within operating range. While reset is asserted, the Hub (and its associated external  
circuitry) consumes less than 500μA of current from the upstream USB power source (300μA for the  
Hub and 200μA for the external circuitry).  
Assertion of RESET_N (external pin) causes the following:  
All downstream ports are disabled, and PRTPWR power to downstream devices is removed.  
The PHYs are disabled, and the differential pairs will be in a high-impedance state.  
All transactions immediately terminate; no states are saved.  
All internal registers return to the default state (in most cases, 00(h)).  
The external crystal oscillator is halted.  
The PLL is halted.  
LED indicators are disabled.  
The Hub is “operational” 500μs after RESET_N is negated.  
Once operational, the Hub immediately reads OEM-specific data from the external EEPROM (if the  
SMBus option is not disabled) or the internal ROM.  
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9.1.1.1  
RESET_N for Strapping Option Configuration  
Drive Strap  
Start  
completion  
request  
Hardware  
reset  
asserted  
Attach  
USB  
Upstream  
Read Strap  
Options  
Outputs to  
inactive  
levels  
USB Reset  
recovery  
Idle  
response  
t7  
t8  
t1  
t2  
t5  
t6  
t3  
RESET_N  
VSS  
t4  
Strap Pins  
VSS  
Don’t Care  
Valid  
Driven by Hub if strap is an output.  
Don’t Care  
Figure 9.1 Reset_N Timing for Default/Strap Option Mode  
Table 9.1 Reset_N Timing for Default/Strap Option Mode  
NAME  
DESCRIPTION  
MIN  
TYP  
MAX  
UNITS  
t1  
t2  
t3  
t4  
t5  
t6  
RESET_N Asserted.  
1
μsec  
nsec  
nsec  
μsec  
msec  
msec  
Strap Setup Time  
16.7  
16.7  
Strap Hold Time.  
1400  
2.0  
hub outputs driven to inactive logic states  
USB Attach (See Note 9.1)  
1.5  
100  
Host acknowledges attach and signals USB  
Reset.  
100  
t7  
t8  
USB Idle.  
undefined  
msec  
msec  
Completion time for requests (with or without data  
stage).  
5
Note 9.1 When in Bus-Powered mode, the Hub and its associated circuitry must not consume more  
than 100mA from the upstream USB power source during t1+t5.  
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9.1.1.2  
RESET_N for EEPROM Configuration  
Start  
completion  
request  
Hardware  
reset  
asserted  
Read EEPROM  
+
Set Options  
Attach  
USB  
Upstream  
Read Strap  
Options  
USB Reset  
recovery  
Idle  
response  
t4  
t1  
t5  
t6  
t7  
t2  
t3  
RESET_N  
VSS  
Figure 9.2 Reset_N Timing for EEPROM Mode  
Table 9.2 Reset_N Timing for EEPROM Mode  
NAME  
DESCRIPTION  
MIN  
TYP  
MAX  
UNITS  
t1  
t2  
t3  
t4  
t5  
RESET_N Asserted.  
1
μsec  
μsec  
msec  
msec  
msec  
Hub Recovery/Stabilization.  
EEPROM Read / Hub Config.  
USB Attach (See Note 9.2)  
500  
99.5  
100  
2.0  
Host acknowledges attach and signals USB  
Reset.  
100  
t6  
t7  
USB Idle.  
undefined  
msec  
msec  
Completion time for requests (with or without data  
stage).  
5
Note 9.2 When in Bus-Powered mode, the Hub and its associated circuitry must not consume more  
than 100mA from the upstream USB power source during t4+t5+t6+t7.  
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9.1.1.3  
RESET_N for SMBus Slave Configuration  
Start  
completion  
request  
Hardware  
reset  
asserted  
Attach  
USB  
Upstream  
Reset  
SMBus Code  
Load  
Hub PHY  
USB Reset  
recovery  
Idle  
Negation  
Stabilization  
response  
t6  
t7  
t1  
t5  
t2  
t3  
t4  
RESET_N  
VSS  
Figure 9.3 Reset_N Timing for SMBus Mode  
Table 9.3 Reset_N Timing for SMBus Mode  
NAME  
DESCRIPTION  
MIN  
TYP  
MAX  
UNITS  
t1  
t2  
t3  
t4  
t5  
RESET_N Asserted.  
1
μsec  
μsec  
msec  
msec  
msec  
Hub Recovery/Stabilization.  
SMBus Code Load (See Note 9.3)  
Hub Configuration and USB Attach.  
500  
300  
100  
250  
Host acknowledges attach and signals USB  
Reset.  
100  
t6  
t7  
USB Idle.  
Undefined  
msec  
msec  
Completion time for requests (with or without data  
stage).  
5
Note: For Bus-Powered configurations, the Hub and its associated circuitry will consume more than  
100mA from the upstream USB power source during t2+t3+t4+t5+t6+t7.  
Note 9.3 For Self-Powered configurations, t3 MAX is not applicable and the time to load the  
configuration is determined by the external SMBus host.  
9.1.2  
USB Bus Reset  
In response to the upstream port signaling a reset to the Hub, the Hub does the following:  
Note: The Hub does not propagate the upstream USB reset to downstream devices.  
Sets default address to 0.  
Sets configuration to: Unconfigured.  
Negates PRTPWR[4:1] to all downstream ports.  
Clears all TT buffers.  
Moves device from suspended to active (if suspended).  
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Complies with Section 11.10 of the USB 2.0 Specification for behavior after completion of the reset  
sequence.  
The Host then configures the Hub and the Hub’s downstream port devices in accordance with the USB  
Specification.  
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Chapter 10 XNOR Test  
Please contact your SMSC representative for a detailed description of how this test mode is enabled  
and utilized.  
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Chapter 11 DC Parameters  
11.1  
Maximum Guaranteed Ratings  
o
o
Operating Temperature Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 C to +70 C  
o
o
Storage Temperature Range. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-55 to +150 C  
o
Lead Temperature Range (soldering, 10 seconds) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . +325 C  
Positive Voltage on any I/O pin, with respect to Ground. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.5V  
Negative Voltage on any I/O pin, with respect to Ground . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-0.V  
Positive Voltage on XTAL1, with respect to Ground . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.0V  
Positive Voltage on XTAL2, with respect to Ground . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.6V  
Negative Voltage on XTAL1 and XTAL2, with respect to Ground . . . . . . . . . . . . . . . . . . . . . . . . . . .-0.V  
Maximum V  
&V  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . +4.0V  
DDA33  
DD33  
*Stresses above the specified parameters could cause permanent damage to the device. This is a  
stress rating only and functional operation of the device at any other condition above those indicated  
in the operation sections of this specification is not implied.  
Note: When powering this device from laboratory or system power supplies, it is important that the  
Absolute Maximum Ratings not be exceeded or device failure can result. Some power supplies  
exhibit voltage spikes on their outputs when the AC power is switched on or off. In addition,  
voltage transients on the AC power line may appear on the DC output. When this possibility  
exists, it is suggested that a clamp circuit be used.  
11.1.1  
DC Electrical Characteristics  
(T = 0°C - 70°C, V  
, V  
, = +3.3 V tolerance -5% to ±10%)  
A
DD33  
DDA33  
Table 11.1 DC Electrical Characteristics  
PARAMETER  
SYMBOL  
MIN  
TYP  
MAX  
UNITS  
COMMENTS  
I, IS Type Input Buffer  
Low Input Level  
V
0.8  
V
V
TTL Levels  
ILI  
IHI  
IL  
High Input Level  
V
I
2.0  
-10  
250  
Input Leakage  
+10  
350  
uA  
mV  
V
= 0 to V  
IN DD33  
Hysteresis (‘IS’ Only)  
V
300  
HYSI  
Input Buffer with Pull-Up  
(IPU)  
Low Input Level  
V
0.8  
V
V
TTL Levels  
ILI  
High Input Level  
Low Input Leakage  
High Input Leakage  
V
2.0  
IHI  
I
10  
30  
uA  
uA  
V
V
= 0  
= V  
ILL  
IHL  
IN  
I
IN  
DD33  
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Table 11.1 DC Electrical Characteristics (continued)  
PARAMETER  
SYMBOL  
MIN  
TYP  
MAX  
UNITS  
COMMENTS  
Input Buffer with Pull-  
Down (IPD )  
Low Input Level  
V
0.8  
V
V
TTL Levels  
ILI  
High Input Level  
Low Input Leakage  
High Input Leakage  
V
2.0  
IHI  
I
30  
10  
uA  
uA  
V
V
= 0  
= V  
ILL  
IHL  
IN  
I
IN  
DD33  
ICLK Input Buffer  
Low Input Level  
High Input Level  
Input Leakage  
V
0.5  
V
V
TTL Levels  
ILCK  
V
1.4  
-10  
IHCK  
I
+10  
uA  
V
= 0 to V  
DD33  
IL  
IN  
I/OSD12 Type Buffer  
Low Output Level  
Output Leakage  
Hysteresis  
V
0.4  
+10  
350  
V
I
= 12 mA @ V  
= 3.3V  
OL  
OL  
DD33  
I
-10  
µA  
mV  
V
= 0 to V  
OL  
IN DD33  
(Note 11.1)  
V
250  
300  
HYSI  
IO-U  
(Note 11.2)  
I-R  
(Note 11.3)  
Supply Current  
Unconfigured  
Note:  
1 Upstream port is in  
suspend, and the  
other Upstream Port is  
in the process of being  
enumerated by an  
external Host  
1High-Speed Hosts  
1Full-Speed Hosts  
I
I
119  
117  
mA  
mA  
CCINIT  
CCINIT  
controller (all  
downstream ports  
assigned to the  
Upstream port under  
enumeration).  
Supply Current  
Unconfigured  
Note:  
Both Upstream Ports  
are in the process of  
being enumerated by  
external Host  
2 High-Speed Hosts  
2 Full-Speed Hosts  
I
I
199  
174  
mA  
mA  
CCINIT  
CCINIT  
controllers.  
Supply Current  
Configured  
(2 upstream High-Speed  
Hosts)  
Total from all supplies  
2 Ports @ FS/LS  
2 Ports @ HS  
I
I
198  
260  
240  
310  
340  
mA  
mA  
mA  
mA  
mA  
HCC2  
HCH2  
1 Port HS, 1 Port FS/LS  
3 Ports HS  
I
HCH1C1  
I
I
HCH3  
HCH4  
4 Ports HS  
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Table 11.1 DC Electrical Characteristics (continued)  
PARAMETER  
SYMBOL  
MIN  
TYP  
MAX  
UNITS  
COMMENTS  
Supply Current  
Configured  
(2 upstream Full-Speed  
Hosts)  
Total from all supplies  
1 Port  
I
I
I
I
182  
182  
182  
182  
mA  
mA  
mA  
mA  
FCC1  
FCC2  
FCC3  
FCC4  
2 Ports  
3 Ports  
4 Ports  
Supply Current  
Suspend  
I
272  
μA  
Total from all supplies.  
Total from all supplies.  
CSBY  
CRST  
Supply Current  
Reset  
I
73  
μA  
Note 11.1 Output leakage is measured with the current pins in high impedance.  
Note 11.2 See USB 2.0 Specification for USB DC electrical characteristics.  
Note 11.3 RBIAS is a 3.3V tolerant analog pin.  
CAPACITANCE T = 25°C; fc = 1MHz; V  
= 3.3V  
DDIO  
A
LIMITS  
PARAMETER  
SYMBOL  
MIN  
TYP MAX UNIT  
TEST CONDITION  
Clock Input  
C
2
pF  
All pins except USB pins (and pins under  
test tied to AC ground)  
IN  
IN  
Capacitance  
Input Capacitance  
Output Capacitance  
C
8
pF  
pF  
C
12  
OUT  
Power Sequencing  
There are no power supply sequence restrictions for the Hub. The order in which power supplies  
power-up and power-down is implementation dependent.  
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Chapter 12 AC Specifications  
12.1  
Oscillator/Clock  
Crystal: Parallel Resonant, Fundamental Mode, 24 MHz ±100ppm.  
External Clock: 50% Duty cycle ± 10%, 24 MHz ± 100ppm, Jitter < 100ps rms.  
12.1.1  
SMBus Interface:  
The SMSC Switching Hub conforms to all voltage, power, and timing characteristics and specifications  
as set forth in the SMBus 1.0 Specification for Slave-Only devices (except as noted in Section 7.3,  
"SMBus Slave Interface").  
12.1.2  
12.1.3  
I2C EEPROM:  
Frequency is fixed at 58.6 KHz ± 20%.  
USB 2.0  
The Hub conforms to all voltage, power, and timing characteristics and specifications as set forth in  
the USB 2.0 Specification which is available at the www.usb.org web site. Please refer to the USB  
Specification for more information.  
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Chapter 13 Package Outline  
Figure 13.1 USB2524 56-Pin QFN Package Outline and Parameters  
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