GL850G-MNGXX

Genesys Logic, Inc. GL850G USB 2.0 HUB Controller Datasheet Revision 1.04 Aug. 08, 2007 GL850G USB 2.0 Low-Power HUB Controller Copyright: Copyright © 2007 Genesys Logic Incorporated. All rights reserved. No part of the materials may be reproduced in any form or by any means without prior written consent of Genesys Logic, Inc. Disclaimer: ALL MATERIALS ARE PROVIDED “AS IS” WITHOUT EXPRESS OR IMPLIED WARRANTY OF ANY KIND. NO LICENSE OR RIGHT IS GRANTED UNDER ANY PATENT OR TRADEMARK OF GENESYS LOGIC INC.. GENESYS LOGIC HEREBY DISCLAIMS ALL WARRANTIES AND CONDITIONS IN REGARD TO MATERIALS, INCLUDING ALL WARRANTIES, IMPLIED OR EXPRESS, OF MERCHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE, AND NON-INFRINGEMENT OF INTELLECTUAL PROPERTY. IN NO EVENT SHALL GENESYS LOGIC BE LIABLE FOR ANY DAMAGES INCLUDING, WITHOUT LIMITATION, DAMAGES RESULTING FROM LOSS OF INFORMATION OR PROFITS. PLEASE BE ADVISED THAT THE MATERIALS MAY CONTAIN ERRORS OR OMMISIONS. GENESYS LOGIC MAY MAKE CHANGES TO THE MATERIALS OR TO THE PRODUCTS DESCRIBED THEREIN AT ANY TIME WITHOUT NOTICE. Trademarks: is a registered trademark of Genesys Logic, Inc. All trademarks are the properties of their respective owners. Office: Genesys Logic, Inc. 12F, No. 205, Sec. 3, Beishin Rd., Shindian City, Taipei, Taiwan Tel: (886-2) 8913-1888 Fax: (886-2) 6629-6168 http://www.genesyslogic.com ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 2 GL850G USB 2.0 Low-Power HUB Controller Revision History Revision 1.00 1.01 1.02 1.03 1.04 Date 05/10/2006 08/30/2006 11/03/2006 01/17/2007 08/08/2007 First formal release Updated DC Supply Current, Table6.6, P.23 Modify 93C46 Configuration, Table 5.1, P.19 Modify Table 6.1-Maximum Ratings, P.21 Modify Table 6.6-DC Supply Current, P.23 Description ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 3 GL850G USB 2.0 Low-Power HUB Controller TABLE OF CONTENTS CHAPTER 1 GENERAL DESCRIPTION................................................... 7 CHAPTER 2 FEATURES .............................................................................. 8 CHAPTER 3 PIN ASSIGNMENT ................................................................ 9 3.1 PINOUTS...................................................................................................... 9 3.2 PIN LIST.................................................................................................... 10 3.3 PIN DESCRIPTIONS ................................................................................... 10 CHAPTER 4 BLOCK DIAGRAM.............................................................. 13 CHAPTER 5 FUNCTION DESCRIPTION ............................................... 14 5.1 GENERAL .................................................................................................. 14 5.2 CONFIGURATION AND I/O SETTINGS ....................................................... 16 CHAPTER 6 ELECTRICAL CHARACTERISTICS............................... 21 6.1 MAXIMUM RATINGS................................................................................. 21 6.2 OPERATING RANGES ................................................................................ 21 6.3 DC CHARACTERISTICS ............................................................................ 21 6.4 POWER CONSUMPTION ............................................................................ 23 CHAPTER 7 PACKAGE DIMENSION..................................................... 24 CHAPTER 8 ORDERING INFORMATION ............................................ 25 ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 4 GL850G USB 2.0 Low-Power HUB Controller LIST OF FIGURES FIGURE 3.1－GL850G 48 PIN LQFP PINOUT DIAGRAM ................................................... 9 FIGURE 4.1 – GL850G BLOCK DIAGRAM (SINGLE TT) ................................................... 13 FIGURE 5.1 – OPERATING IN USB 1.1 SCHEME ................................................................. 15 FIGURE 5.2 – OPERATING IN USB 2.0 SCHEME ................................................................. 16 FIGURE 5.3 – POWER ON SEQUENCE OF GL850G............................................................. 17 FIGURE 5.4 – TIMING OF PGANG/SUSPEND STRAPPING .............................................. 17 FIGURE 5.5 – INDIVIDUAL/GANG MODE SETTING .......................................................... 18 FIGURE 5.6 – SELF/BUS POWER SETTING ...................................................................... 18 FIGURE 5.7 – LED CONNECTION ...................................................................................... 19 FIGURE 5.8 – SCHEMATICS BETWEEN GL850G AND 93C46............................................ 20 FIGURE 7.1 – GL850G 48 PIN LQFP PACKAGE ............................................................... 24 ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 5 GL850G USB 2.0 Low-Power HUB Controller LIST OF TABLES TABLE 3.1－GL850G 48 PIN LIST .................................................................................... 10 TABLE 3.3 - PIN DESCRIPTIONS ......................................................................................... 10 TABLE 5.1 – 93C46 CONFIGURATION ............................................................................... 19 TABLE 6.1 – MAXIMUM RATINGS ...................................................................................... 21 TABLE 6.2 – OPERATING RANGES ..................................................................................... 21 TABLE 6.3 – DC CHARACTERISTICS EXCEPT USB SIGNALS............................................ 21 TABLE 6.4 – DC CHARACTERISTICS OF USB SIGNALS UNDER FS/LS MODE ................. 22 TABLE 6.5 – DC CHARACTERISTICS OF USB SIGNALS UNDER HS MODE ...................... 22 TABLE 6.6 – DC SUPPLY CURRENT ................................................................................... 23 TABLE 8.1 – ORDERING INFORMATION ............................................................................. 25 ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 6 GL850G USB 2.0 Low-Power HUB Controller CHAPTER 1 GENERAL DESCRIPTION GL850G is Genesys Logic’s advanced version Hub solutions which fully comply with Universal Serial Bus Specification Revision 2.0. GL850G embeds an 8-bit RISC processor to manipulate the control/status registers and respond to the requests from USB host. Firmware of GL850G will control its general purpose I/O (GPIO) to access the external EEPROM and then respond to the host the customized PID and VID configured in the external EEPROM. Default settings in the internal mask ROM is responded to the host without having external EEROM. GL850G is designed for customers with much flexibility. The more complicated settings such as PID, VID, and number of downstream ports settings are easily achieved by programming the external EEPROM (Ref. to Chapter 5). Each downstream port of GL850G supports two-color (green/amber) status LEDs to indicate normal/abnormal status. GL850G also support both Individual and Gang modes (4 ports as a group) for power management. The GL850G is a full function solution which supports both Individual/Gang power management modes and the two-color (green/amber) status LEDs. Please refer the table in the end of this chapter for more detail. To fully meet the cost/performance requirement, GL850G is a single TT hub solution for the cost requirement. Genesys Logic also provides GL852 for multiple TT hub solution to target on systems which require higher performance for full/low-speed devices, like docking station, embedded system … etc.. Please refer to GL852 datasheet for more detailed information. *TT (transaction translator) is the main traffic control engine in an USB 2.0 hub to handle the unbalanced traffic speed between the upstream port and the downstream ports. ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 7 GL850G USB 2.0 Low-Power HUB Controller CHAPTER 2 FEATURES • Compliant to USB specification Revision 2.0 − Support 4/3/2 downstream ports by I/O pin configuration − Upstream port supports both high-speed (HS) and full-speed (FS) traffic − Downstream ports support HS, FS, and low-speed (LS) traffic − 1 control pipe (endpoint 0, 64-byte data payload) and 1 interrupt pipe (endpoint 1, 1-byte data payload) − Backward compatible to USB specification Revision 1.1 On-chip 8-bit micro-processor − RISC-like architecture − USB optimized instruction set − Performance: 6 MIPS @ 12MHz − With 64-byte RAM and 2K mask ROM − Support customized PID, VID by reading external EEPROM − Support downstream port configuration by reading external EEPROM Single Transaction Translator (STT) − Single TT shares the same TT control logics for all downstream port devices. This is the most cost effective solution for TT. Multiple TT provides individual TT control logics for each downstream port. This is a performance better choice for USB 2.0 hub. Please refer to GL852 datasheet for more detailed information. Integrate USB 2.0 transceiver Each downstream port supports two-color status indicator, with automatic and manual modes compliant to USB specification Revision 2.0 Built-in upstream 1.5K pull-up and downstream 15K pull-down • • • • • • • • • • • • • • • • • • Embed serial resister for USB signals Support both individual and gang modes of power management and over-current detection for downstream ports Conform to bus power requirements Automatic switching between self-powered and bus-powered modes Support compound-device (non-removable in downstream ports) by I/O pin configuration Configurable non-removable device support PLL embedded with external 12 MHz crystal Embeds 5V to 3.3V regulator Low power consumption Improve output drivers with slew-rate control for EMI reduction Internal power-fail detection for ESD recovery Full function in 48-pin LQFP package Applications: − Stand-alone USB hub − PC motherboard USB hub, Docking of notebook − LCD monitor hub − Any compound device to support USB HUB function ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 8 GL850G USB 2.0 Low-Power HUB Controller CHAPTER 3 PIN ASSIGNMENT 3.1 Pinouts PAMBER3 PWREN3# PWREN4# OVCUR3# PAMBER2 OVCUR4# PGREEN2 PGREEN3 RESET# 26 DVDD 36 35 34 33 32 31 30 29 28 27 PSELF DVDD PGANG OVCUR2# PWREN2# OVCUR1# PWREN1# DVDD PGREEN1 PAMBER1 37 38 39 40 41 42 43 44 45 46 47 48 25 DVDD TEST 24 23 22 21 20 19 PAMBER4 PGREEN4 DP4 DM4 AGND AVDD DP3 DM3 AVDD X2 X1 AGND GL850G LQFP - 48 18 17 16 15 14 13 V5 V33 10 11 RREF DP0 DP1 DM0 DM1 AVDD AGND AVDD AGND DM2 DP2 Figure 3.1 GL850G 48 Pin LQFP Pinout Diagram ©2000-2007 Genesys Logic Inc. - All rights reserved. AVDD 12 1 2 3 4 5 6 7 8 9 － － － － Page 9 GL850G USB 2.0 Low-Power HUB Controller 3.2 Pin List Table 3.1 Pin# 1 2 3 4 5 6 7 8 9 Pin Name AVDD AGND DM0 DP0 DM1 DP1 AVDD AGND DM2 Type Pin# P P B B B B P P B B B P Pin Name 13 AGND 1 4 X1 1 5 X2 16 AVDD 17 DM3 18 DP3 19 AVDD 20 AGND 21 DM4 22 DP4 23 PGREEN4 24 PAMBER4 10 DP2 11 RREF 12 AVDD 3.3 Pin Descriptions Table 3.3 - Pin Descriptions USB Interface Pin Name DM0,DP0 DM1,DP1 DM2,DP2 DM3,DP3 DM4,DP4 RREF GL850G 48Pin# 3,4 5,6 9,10 17,18 21,22 11 B B B B B B USB signals for USPORT USB signals for DSPORT1 USB signals for DSPORT2 USB signals for DSPORT3 USB signals for DSPORT4 A 680 resister must be connected between RREF and analog ground (AGND). I/O Type Description Note: USB signals must be carefully handled in PCB routing. For detailed information, please refer to GL850G Design Guideline. ©2000-2007 Genesys Logic Inc. - All rights reserved. － － － － GL850G 48 Pin List Type Pin# P I O P B B P P B B O O Pin Name Type Pin# P Pin Name Type I_5V P B I_5V O I_5V O P O O P P 25 DVDD 26 RESET# 27 TEST 28 OVCUR4# 29 PWREN4# 30 OVCUR3# 31 PWREN3# 32 PGREEN3 33 PAMBER3 34 DVDD 35 PGREEN2 36 PAMBER2 37 PSELF I_5V 38 DVDD I 39 PGANG I_5V 40 OVCUR2# O 41 PWREN2# I_5V 42 OVCUR1# O O O P B O 43 PWREN1# 44 DVDD 45 PGREEN1 46 PAMBER1 4 7 V5 48 V33 Page 10 GL850G USB 2.0 Low-Power HUB Controller HUB Interface Pin Name OVCUR1~4# PWREN1~4# GL850G 48Pin# 42,40, 30,28 43,41, 31,29 45,35, 32,23 46,36, 33,24 37 I/O Type I_5V (pu) Description PGREEN1~4 PAMBER1~4 PSELF PGANG 39 Active low. Over current indicator for DSPORT1~4 OVCUR1# is the only over current flag for GANG mode. Active low. Power enable output for DSPORT1~4 O PWREN1# is the only power-enable output for GANG mode. 1,3,4:O Green LED indicator for DSPORT1~4 2:B *GREEN[1~2] are also used to access the external EEPROM (pd) For detailed information, please refer to Chapter 5. Amber LED indicator for DSPORT1~4 O *Amber[1~2] are also used to access the external EEPROM (pd) For detailed information, please refer to Chapter 5. 0: GL850G is bus-powered. I_5V 1: GL850G is self-powered. This pin is default put in input mode after power-on reset. Individual/gang mode is strapped during this period. After the strapping period, this pin will be set to output mode, and then output high for normal mode. B When GL850G is suspended, this pin will output low. *For detailed explanation, please see Chapter 5 Gang input:1, output: 0@normal, 1@suspend Individual input:0, output: 1@normal, 0@suspend Clock and Reset Interface Pin Name X1 X2 RESET# GL850G 48Pin# 14 15 26 I/O Type I O I_5V Description 12MHz crystal clock input. 12MHz crystal clock output. Active low. External reset input, default pull high 10K . When RESET# = low, whole chip is reset to the initial state. System Interface Pin Name TEST GL850G 48Pin# 27 I (pd) 0: Normal operation. 1: Chip will be put in test mode. Power / Ground Pin Name AVDD AGND GL850G 48Pin# 1,7,12, 16,19 2,8,13, 20 I/O Type Description I/O Type P P Description 3.3V analog power input for analog circuits. Analog ground input for analog circuits. ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 11 GL850G USB 2.0 Low-Power HUB Controller 25,34, 38,44 47 48 DVDD V5 V33 P P P 3.3V digital power input for digital circuits 5V-to-3.3V regulator Vin 5V-to-3.3V regulator Vout Note: Analog circuits are quite sensitive to power and ground noise. PCB layout must take care the power routing and the ground plane. For detailed information, please refer to GL850G Design Guideline. Notation: Type O I I_5V B B/I B/O P A SO pu pd odpu Output Input 5V tolerant input Bi-directional Bi-directional, default input Bi-directional, default output Power / Ground Analog Automatic output low when suspend Internal pull up Internal pull down Open drain with internal pull up ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 12 GL850G USB 2.0 Low-Power HUB Controller CHAPTER 4 BLOCK DIAGRAM 12MHz D+ D- USPORT FRTIMER Transceiver PLL x40, x10 RAM ROM GPIO CPU USPORT UTMI Logic SIE Control/Status Register REPEATER TT (Transaction Translator) REPEATER / TT Routing Logic DSPORT1 Logic DSPORT2 Logic DSPORT3 Logic DSPORT4 Logic DSPORT Transceiver DSPORT Transceiver DSPORT Transceiver DSPORT Transceiver D+ D- LED/ OVCUR/ PWRENB D+ D- LED/ OVCUR/ PWRENB D+ D- LED/ OVCUR/ PWRENB D+ D- LED/ OVCUR/ PWRENB Figure 4.1 – GL850G Block Diagram (single TT) ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 13 GL850G USB 2.0 Low-Power HUB Controller CHAPTER 5 FUNCTION DESCRIPTION 5.1 General 5.1.1 USPORT Transceiver USPORT (upstream port) transceiver is the analog circuit that supports both full-speed and high-speed electrical characteristics defined in chapter 7 of USB specification Revision 2.0. USPORT transceiver will operate in full-speed electrical signaling when GL850G is plugged into a 1.1 host/hub. USPORT transceiver will operate in high-speed electrical signaling when GL850G is plugged into a 2.0 host/hub. 5.1.2 PLL (Phase Lock Loop) GL850G contains a 40x PLL. PLL generates the clock sources for the whole chip. The generated clocks are proven quite accurate that help in generating high speed signal without jitter. 5.1.3 FRTIMER This module implements hub (micro)frame timer. The (micro)frame timer is derived from the hub’s local clock and is synchronized to the host (micro)frame period by the host generated Start of (micro)frame (SOF). FRTIMER keeps tracking the host’s SOF such that GL850G is always safely synchronized to the host. The functionality of FRTIMER is described in section 11.2 of USB Specification Revision 2.0. 5.1.4 µC µC is the micro-processor unit of GL850G. It is an 8-bit RISC processor with 2K ROM and 64 bytes RAM. It operates at 6MIPS of 12Mhz clock to decode the USB command issued from host and then prepares the data to respond to the host. In addition, µC can handle GPIO (general purpose I/O) settings and reading content of EEPROM to support high flexibility for customers of different configurations of hub. These configurations include self/bus power mode setting, individual/gang mode setting, downstream port number setting, device removable/non-removable setting, and PID/VID setting. 5.1.5 UTMI (USB 2.0 Transceiver Macrocell Interface) UTMI handles the low level USB protocol and signaling. It’s designed based on the Intel’s UTMI specification 1.01. The major functions of UTMI logic are to handle the data and clock recovery, NRZI encoding/decoding, Bit stuffing /de-stuffing, supporting USB 2.0 test modes, and serial/parallel conversion. 5.1.6 USPORT logic USPORT implements the upstream port logic defined in section 11.6 of USB specification Revision 2.0. It mainly manipulates traffics in the upstream direction. The main functions include the state machines of Receiver and Transmitter, interfaces between UTMI and SIE, and traffic control to/from the REPEATER and TT. 5.1.7 SIE (Serial Interface Engine) SIE handles the USB protocol defined in chapter 8 of USB specification Revision 2.0. It co-works with c to play the role of the hub kernel. The main functions of SIE include the state machine of USB protocol flow, CRC check, PID error check, and timeout check. Unlike USB 1.1, bit stuffing/de-stuffing is implemented in UTMI, not in SIE. 5.1.8 Control/Status register Control/Status register is the interface register between hardware and firmware. This register contains the information necessary to control endpoint0 and endpoint1 pipelines. Through the firmware based architecture, GL850G possesses higher flexibility to control the USB protocol easily and correctly. 5.1.9 REPEATER Repeater logic implements the control logic defined in section 11.4 and section 11.7 of USB specification Revision 2.0. REPEATER controls the traffic flow when upstream port and downstream port are signaling in the same speed. In addition, REPEATER will generate internal resume signal whenever a wakeup event is issued under the situation that hub is globally suspended. ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 14 Μ GL850G USB 2.0 Low-Power HUB Controller 5.1.10. TT (Transaction Translator) TT implements the control logic defined in section 11.14 ~ 11.22 of USB specification Revision 2.0. TT basically handles the unbalanced traffic speed between the USPORT (operating in HS) and DSPORTS (operating in FS/LS) of hub. GL850G adopts the single TT architecture to provide the most cost effective solution. Single TT shares the same buffer control module for each downstream port. GL852 adopts multiple TT architecture to provide the most performance effective solution. Multiple TT provides control logics for each downstream port respectively. Please refer to GL852 datasheet for more detailed information. 5.1.11 REPEATER/TT routing logic REPEATER and TT are the major traffic control machines in the USB 2.0 hub. Under situation that USPORT and DSPORT are signaling in the same speed, REPEATER/TT routing logic switches the traffic channel to the REPEATER. Under situation that USPORT is in the high speed signaling and DSPORT is in the full/low speed signaling, REPEATER/TT routing logic switches the traffic channel to the TT. 5.1.11.1 Connected to 1.1 Host/Hub If an USB 2.0 hub is connected to the downstream port of an USB 1.1 host/hub, it will operate in USB 1.1 mode. For an USB 1.1 hub, both upstream direction traffic and downstream direction traffic are passing through REPEATER. That is, the REPEATER/TT routing logic will route the traffic channel to the REPEATER. USB1.1 HOST/HUB USPORToperating in FS signaling Traffic channel is routed to REPEATER REPEATER TT DSPORT operating in FS/LS signaling Figure 5.1 – Operating in USB 1.1 scheme 5.1.11.2 Connected to USB 2.0 Host/Hub If an USB 2.0 hub is connected to an USB 2.0 host/hub, it will operate in USB 2.0 mode. The upstream port signaling is in high speed with bandwidth of 480 Mbps under this environment. The traffic channel will then be routed to the REPEATER when the device connected to the downstream port is signaling also in high speed. On the other hand, the traffic channel will then be routed to TT when the device connected to the downstream port is signaling in full/low speed. ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 15 GL850G USB 2.0 Low-Power HUB Controller USB2.0 HOST/HUB USPORToperating in HS signaling HS vs. HS: Traffic channel is routed to REPEATER REPEATER TT HS vs. FS/LS: Traffic channel is routed to TT DSPORT operating in HS signaling DSPORT operating in FS/LS signaling Figure 5.2 – Operating in USB 2.0 scheme 5.12 DSPORT logic DSPORT (downstream port) logic implements the control logic defined in section 11.5 of USB specification Revision 2.0. It mainly manipulates the state machine, the connection/disconnection detection, over current detection and power enable control, and the status LED control of the downstream port. Besides, it also output the control signals to the DSPORT transceiver. 5.13 DSPORT Transceiver DSPORT transceiver is the analog circuit that supports high-speed, full-speed, and low-speed electrical characteristics defined in chapter 7 of USB specification Revision 2.0. In addition, each DSPORT transceiver accurately controls its own squelch level to detect the detachment and attachment of devices. 5.2 Configuration and I/O Settings 5.2.1 RESET# Setting GL850G integrates in the pull-up 15K resister of the upstream port. When RESET# is enabled, the internal 15K pull-up resister will be disconnected to the 3.3V power. To meet the requirement (p.141) of the USB 2.0 specification, pull-up resister should be disconnected while lacking of USB cable power (Vbus). ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 16 GL850G USB 2.0 Low-Power HUB Controller GL850G internally contains a power on reset circuit. The power on sequence is depicted in the next picture. To fully control the reset process of GL850G, we suggest the reset time applied in the external reset circuit should longer than that of the internal reset circuit. DVDD Power good voltage, 2.5~2.8V Internal reset External reset Figure 5.3 – Power on sequence of GL850G 5.2.2 PGANG/SUSPND Setting To save pin count, GL850G uses the same pin to decide individual/gang mode as well as to output the suspend flag. The individual/gang mode is decided within 20us after power on reset. Then, about 50ms later, this pin is changed to output mode. GL850G outputs the suspend flag once it is globally suspended. For individual mode, a pull low resister greater than 100K should be placed. For gang mode, a pull high resister greater than 100K should be placed. In figure 5.5, we also depict the suspend LED indicator schematics. It should be noticed that the polarity of LED must be followed, otherwise the suspend current will be over spec limitation (2.5mA). RESET# 50 ms GANG_CTL Input mode, strapping to decide individual or gang mode Output mode, Indicating GL850G Is In normal mode or suspend mode Figure 5.4 – Timing of PGANG/SUSPEND strapping ©2000-2007 Genesys Logic Inc. - All rights reserved. μ≒ 2.7 s Page 17 GL850G USB 2.0 Low-Power HUB Controller GANG Mode DVDD(3.3V) DVDD(3.3V) "0": Individual Mode "1": GANG Mode 100K ohm Suspend LED Indicator PGANG SUSPNDO GANG_CTL 100K ohm Suspend LED Indicator Inside GL850G On PCB Individual Mode Figure 5.5 – Individual/GANG Mode Setting 5.2.3 SELF/BUS Power Setting GL850G can operate under bus power and conform to the power consumption limitation completely (suspend current < 2.5 mA, normal operation current < 100 mA). By setting PSELF, GL850G can be configured as a bus-power or a self-power hub. 1: Power Self PSELF 0: Power Bus Inside GL850G On PCB Figure 5.6 – SELF/BUS Power Setting ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 18 GL850G USB 2.0 Low-Power HUB Controller 5.2.4 LED Connections GL850G controls the LED lighting according to the flow defined in section 11.5.3 of Universal Serial Bus Specification Revision2.0. Both manual mode and Automatic mode are supported in GL850G. When GL850G is globally suspended, GL850G will turn off the LED to save power. AMBER/GREEN LED DGND Inside GL850G On PCB Figure 5.7 – LED Connection 5.2.5 EEPROM Setting GL850G replies to host commands by the default settings in the internal ROM. GL850G also offers the ability to reply to the host according to the settings in the external EEPROM(93C46). The following table shows the configuration of 93C46. Table 5.1 – 93C46 Configuration Unit: Byte 00 00h 10h 20h 30h 40h 50h 60h 70h SERIAL NUMBER LENGTH PRODUCT LENGTH 01 02 03 04 05 06 07 08 MaxPower 09 FF 0A FF 0B 0C 0D 0E 0F FF FF FF FF FF VID_L VENDOR LENGTH VID_H PID_L PID_H CHKSUM FF PORT DEVICE REMOVABLE NUMBER start Vendor string (ASC II code) end start Product String(ASC II code) end start end Serial Number String(ASC II code) ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 19 GL850G USB 2.0 Low-Power HUB Controller Note: 1. VID_H/VID_L: high/low byte of VID value 2. PID_H/PID_L: high/low byte of PID value 3. CHKSUM: CHKSUM must equal to VID_H + VID_L + PID_H + PID_L + 1,otherwise firmware will ignore the EEPROM settings. 4. PORT_NO: port number, value must be 1~4. 5. MaxPower : Describe the maximum power consumption, range=0Ma~500Ma . Value -> 00H~FAH (unit = 2Ma) 6. DEVICE REMOVALBE: PORT4 PORT3 PORT2 PORT1 REMOVABLE REMOVABLE REMOVABLE REMOVABLE 0: Device attached to this port is removable. 1: Device attached to this port is non-removable. - 7. VENDOR LENGTH: offset 10h contains the length of the vendor string. Values of vendor string is contained from 11h~3Fh. 8. PRODUCT LENGTH: offset 40h contains the length of product string. Values of product string is contained from 41h~6Fh. 9. SERIAL NUMBER LENGTH: offset 70h contains the value of serial number string. Values of serial number string is contained after offset 71h. The schematics between GL850G and 93C46 is depicted in the following figures: DVDD EE_CS EE_SK EE_DI EE_DO CS SK DI DO VCC NC NC GND 93C46 Figure 5.8 – Schematics Between GL850G and 93C46 GL850G firstly verifies the check sum after power on reset. If the check sum is correct, GL850G will take the configuration of 93C46 as part of the descriptor contents. To prevent the content of 93C46 from being over-written, amber LED will be disabled when 93C46 exists. ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 20 GL850G USB 2.0 Low-Power HUB Controller CHAPTER 6 ELECTRICAL CHARACTERISTICS 6.1 Maximum Ratings Table 6.1 – Maximum Ratings Symbol V5 VDD VIN VINOD VINUSB TS FOSC 5V Power Supply 3.3V Power Supply Input Voltage for digital I/O pins Open-drain input pins(Ovcur1~4#,Pself,Reset) Input Voltage for USB signal (DP, DM) pins Storage Temperature under bias Frequency Parameter Min. -0.5 -0.5 -0.5 -0.5 -0.5 -55 Max. +6.0 +3.6 +3.6 +5.5 +3.6 +100 12 MHz ± 0.05% Unit V V V V V o C 6.2 Operating Ranges Table 6.2 – Operating Ranges Symbol V5 VDD VIND VINOD VINUSB TA 5V Power Supply 3.3V Power Supply Input Voltage for digital I/O pins Open-drain input pins(Ovcur1~4#,Pself,Reset) Input Voltage for USB signal (DP, DM) pins Ambient Temperature Parameter Min. 4.5 3.15 -0.5 -0.5 0.5 0 Typ. 5.0 3.3 Max. 5.5 3.45 3.6 5.0 3.6 70 Unit V V V V V o C 6.3 DC Characteristics Table 6.3 – DC Characteristics Except USB Signals Symbol PD V33 VIL VIH VTLH VTHL VOL VOH RDN RUP Power Dissipation 5V to 3.3V regulator output with 200mA load LOW level input voltage HIGH level input voltage LOW to HIGH threshold voltage HIGH to LOW threshold voltage LOW level output voltage when IOL=8mA HIGH level output voltage when IOH=8mA Pad internal pull down resister Pad internal pull up resister Parameter Min. 70 2.9 2.0 1.4 0.87 2.4 29 80 Typ. 3.3 1.5 0.94 59 108 Max. 180 3.52 0.8 1.6 0.99 0.4 135 140 Unit mA V V V V V V V K K ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 21 GL850G USB 2.0 Low-Power HUB Controller Table 6.4 – DC Characteristics of USB Signals Under FS/LS Mode Symbol VOL VOH VDI VCM VSE CIN ILO ZDRV Parameter DP/DM FS static output LOW(RL of 1.5K to 3.6V ) DP/DM FS static output HIGH (RL of 15K to GND ) Differential input sensitivity Differential common mode range Single-ended receiver threshold Transceiver capacitance Hi-Z state data line leakage Driver output resistance Min. 0 2.8 0.2 0.8 0.2 -10 42 Typ. 45 Max. 0.1 3.6 2.5 20 +10 48 Unit V V V V V Pf µA Table 6.5 – DC Characteristics of USB Signals Under HS Mode Symbol VOL CIN ILO ZDRV Parameter DP/DM HS static output LOW(RL of 1.5K to 3.6V ) Transceiver capacitance Hi-Z state data line leakage Driver output resistance for USB 2.0 HS Min. 4 -5 42 Typ. 4.5 0 45 Max. 0.1 5 +5 48 Unit V Pf µA ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 22 GL850G USB 2.0 Low-Power HUB Controller 6.4 Power Consumption Table 6.6 – DC Supply Current Symbol Active ports ISUSP Condition Host Suspend F*1 4 H *1 Typ. Device 1.1 F H F F H F F H F F H F 94 178 114 91 160 110 87 141 106 84 120 102 80 97 Unit mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA H F 3 H H ICC 2 F H H F 1 H H F No Active H *1: F: Full-Speed, H: High-Speed ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 23 GL850G USB 2.0 Low-Power HUB Controller CHAPTER 7 PACKAGE DIMENSION D D1 D2 D A A2 0.05 S A1 36 37 25 24 Internal No. A E1 E2 E N : Normal package G : Green package GL850G B AAAAAAAGAA YWWXXXXXXXX Date Code Lot Code 48 1 e b Version No. 4X bbb H A B D L1 13 12 4X aaa C A B D c 01 0 ddd M C A B s D s C ccc C SEATING PLANE 02 R1 H R2 0.25mm GAGE PLANE S L 03 - NOTES : 1. DIMENSIONS D1 AND E1 DO NOT INCLUDE MOLD PROTRUSION. ALLOWABLE PROTRUSION IS 0.25 mm PER SIDE. D1 AND E1 ARE MAXIMUM PLASTIC BODY SIZE DIMENSIONS INCLUDING MOLD MISMATCH. 2. DIMENSION b DOES NOT INCLUDE DAMBAR PROTRUSION. ALLOWABLE DAMBAR PROTRUSION SHALL NOT CAUSE THE LEAD WIDTH TO EXCEED THE MAXIMUM b DIMENSION BY MORE THAN 0.08mm. DAMBAR CAN NOT BE LOCATED ON THE LOWER RADIUS OR THE FOOT. MINIMUM SPACE BETWEEN PROTRUSION AND AN ADJACENT LEAD IS 0.07mm. CONTROL DIMENSIONS ARE IN MILLIMETERS. MILLIMETER INCH SYMBOL MIN. NOM. MAX. MIN. NOM. MAX. 1.60 0.063 A 0.006 A1 0.05 0.15 0.002 1.35 A2 1.40 1.45 0.053 0.055 0.057 0.354 BASIC D 9.00 BASIC E 9.00 BASIC 0.354 BASIC 7.00 BASIC 0.276 BASIC D1 7.00 BASIC 0.276 BASIC E1 5.50 BASIC 0.217 BASIC D2 E2 5.50 BASIC 0.217 BASIC 0.08 0.003 R1 0.08 0.20 0.003 0.008 R2 0 3.5° 7° 0° 3.5° 7° 0° 0° 0° 01 02 11° 12° 13° 11° 12° 13° 03 11° 12° 13° 11° 12° 13° 0.09 0.20 0.004 0.008 c 0.45 0.60 0.75 0.018 0.024 0.030 L 1.00 REF 0.039 REF L1 0.20 0.008 S 0.17 0.20 0.27 0.007 0.008 0.011 b 0.50 BASIC 0.020 BASIC e TOLERANCES OF FORM AND POSITION 0.008 aaa 0.20 0.20 0.008 bbb 0.08 0.003 ccc ddd 0.08 0.003 Figure 7.1 – GL850G 48 Pin LQFP Package ©2000-2007 Genesys Logic Inc. - All rights reserved. Page 24 GL850G USB 2.0 Low-Power HUB Controller CHAPTER 8 ORDERING INFORMATION Table 8.1 – Ordering Information Part Number GL850G-MNNXX GL850G-MNGXX Package 48-pin LQFP 48-pin LQFP Normal/Green Normal Package Green Package Version XX XX Status ©2000-2007 Genesys Logic Inc. - All rights reserved. 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