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USB5534B-5000JZXTR

USB5534B-5000JZXTR

  • 厂商:

    ACTEL(微芯科技)

  • 封装:

    64-VFQFN裸露焊盘

  • 描述:

    IC HUB CTLR USB 3.0 64QFN

  • 数据手册
  • 价格&库存
USB5534B-5000JZXTR 数据手册
USB5534B 4-Port SS/HS USB Hub Controller General Description The USB5534B hub is a 4-port SuperSpeed/Hi-Speed, low-power, configurable hub controller family fully compliant with the USB 3.0 Specification. The USB5534B supports 5 Gbps SuperSpeed (SS), 480 Mbps HiSpeed (HS), 12 Mbps Full-Speed (FS) and 1.5 Mbps Low-Speed (LS) USB signaling for complete coverage of all defined USB operating speeds. The USB5534B supports USB 2.0 speeds through its USB 2.0 hub controller. The new SuperSpeed hub controller operates in parallel with the USB 2.0 controller, so the 5 Gbps SuperSpeed data transfers are not affected by the slower USB 2.0 traffic. The USB5534B supports battery charging on a per port basis. On battery charging enabled ports, the devices provide automatic USB data line handshaking. The handshaking supports USB 1.2 Charging Downstream Port (CDP), Dedicated Charging Port (DCP) and nonUSB 1.2 devices. The USB5534B is configured for operation through internal default settings, where custom configurations are supported through an on-chip OTP ROM, an external SPI ROM, or SMBus. Product Features • USB 3.0 compliant 5 Gbps, 480 Mbps, 12 Mbps and 1.5 Mbps operation, USB pins are 5 V tolerant - Integrated termination and pull-up/pull-down resistors • Four downstream USB 3.0 ports • Supports battery charging of most popular battery powered devices - USB-IF Battery Charging rev. 1.2 support (DCP & CDP) - Apple Portable product charger emulation - Blackberry charger emulation - Chinese YD/T 1591-2006 charger emulation - Chinese YD/T 1591-2009 charger emulation - Supports additional portable devices  2012 - 2015 Microchip Technology Inc. • Emulates portable/handheld native wall chargers - Charging profiles emulate a handheld device’s wall charger to enable fast charging (minutes vs. hours) • Enables charging from a mobile platform that is off • Support tablets’ high current requirements • Optimized for low-power operation and low thermal dissipation • Vendor Specific Messaging (VSM) support for firmware upload over USB • Configuration via OTP ROM, SPI ROM, or SMBus • Intelligent charge management with UCS1002 control • On-chip 8051 µC manages VBUS, and other hub signals • 8 KB RAM, 32 KB ROM • One Time programmable (OTP) ROM: 8 kbit - Includes on-chip charge pump • Single 25 MHz XTAL or clock input for all on-chip PLL and clocking requirements • Supports JTAG boundary scan • PHYBoost (USB 2.0) - Selectable drive strength for improved signal integrity • VariSense (USB 2.0) - controls the receiver sensitivity enabling four programmable levels of USB signal receive sensitivity • IETF RFC 4122 compliant 128-bit UUID Software Features • Compatible with Microsoft Windows 7, Vista, XP, Mac OSX10.4+, and Linux Hub Drivers DS00001681C-page 1 USB5534B TO OUR VALUED CUSTOMERS It is our intention to provide our valued customers with the best documentation possible to ensure successful use of your Microchip products. To this end, we will continue to improve our publications to better suit your needs. Our publications will be refined and enhanced as new volumes and updates are introduced. If you have any questions or comments regarding this publication, please contact the Marketing Communications Department via E-mail at docerrors@microchip.com. We welcome your feedback. Most Current Data Sheet To obtain the most up-to-date version of this data sheet, please register at our Worldwide Web site at: http://www.microchip.com You can determine the version of a data sheet by examining its literature number found on the bottom outside corner of any page. The last character of the literature number is the version number, (e.g., DS30000000A is version A of document DS30000000). Errata An errata sheet, describing minor operational differences from the data sheet and recommended workarounds, may exist for current devices. As device/documentation issues become known to us, we will publish an errata sheet. The errata will specify the revision of silicon and revision of document to which it applies. To determine if an errata sheet exists for a particular device, please check with one of the following: • Microchip’s Worldwide Web site; http://www.microchip.com • Your local Microchip sales office (see last page) When contacting a sales office, please specify which device, revision of silicon and data sheet (include -literature number) you are using. Customer Notification System Register on our web site at www.microchip.com to receive the most current information on all of our products. DS00001681C-page 2  2012 - 2015 Microchip Technology Inc. USB5534B Table of Contents 1.0 Introduction ..................................................................................................................................................................................... 4 2.0 Block Diagram ................................................................................................................................................................................. 6 3.0 Pin Information ................................................................................................................................................................................ 7 4.0 Standard Interface Connections ................................................................................................................................................... 13 5.0 Functional Operation ..................................................................................................................................................................... 24 6.0 DC Parameters ............................................................................................................................................................................. 57 7.0 AC Specifications .......................................................................................................................................................................... 61 8.0 Package Drawing .......................................................................................................................................................................... 64 Appendix A: Data Sheet Revision History ........................................................................................................................................... 66 Appendix B: Acronyms ........................................................................................................................................................................ 68 Appendix C: References ..................................................................................................................................................................... 69 The Microchip Web Site ...................................................................................................................................................................... 70 Customer Change Notification Service ............................................................................................................................................... 70 Customer Support ............................................................................................................................................................................... 70 Product Identification System ............................................................................................................................................................. 71  2012 - 2015 Microchip Technology Inc. DS00001681C-page 3 USB5534B 1.0 INTRODUCTION 1.1 Conventions Within this manual, the following abbreviations and symbols are used to improve readability. Example BIT FIELD.BIT x…y BITS[m:n] PIN Name of a single bit within a field Name of a single bit (BIT) in FIELD Range from x to y, inclusive Groups of bits from m to n, inclusive Pin Name zzzzb Binary number (value zzzz) 0xzzz Hexadecimal number (value zzz) zzh Hexadecimal number (value zz) rsvd Reserved memory location. Must write 0, read value indeterminate code Instruction code, or API function or parameter Multi Word Name Used for multiple words that are considered a single unit, such as: Resource Allocate message, or Connection Label, or Decrement Stack Pointer instruction. Section Name Section or Document name. x 1.2 Description Don’t care indicate a Parameter is optional or is only used under some conditions {,Parameter} Braces indicate Parameter(s) that repeat one or more times. [Parameter] Brackets indicate a nested Parameter. This Parameter is not real and actually decodes into one or more real parameters. Overview The USB5534B hub is a 4-port, low-power, configurable Hub Controller fully compliant with the USB 3.0 Specification 2. The USB5534B supports 5 Gbps SuperSpeed (SS), 480 Mbps Hi-Speed (HS), 12 Mbps Full-Speed (FS) and 1.5 Mbps Low-Speed (LS) USB signaling for complete coverage of all defined USB operating speeds. All required resistors on the USB ports are integrated into the hub. This includes all series termination resistors 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. The USB5534B hub includes programmable features such as: • MultiTRAKTM Technology (USB 2.0): implements a dedicated Transaction Translator (TT) for each port. Dedicated TTs help maintain consistent full-speed data throughput regardless of the number of active downstream connections. • PortSwap (USB 2.0): allows direct alignment of USB signals (D+/D-) to connectors to avoid uneven trace length or crossing of the USB differential signals on the PCB. • PHYBoost (USB 2.0): enables 4 programmable levels of USB signal drive strength in downstream port transceivers. PHYBoost will also attempt to restore USB signal integrity. As shown on the Product Identification System page, two USB5534B firmware versions are available: “-5000” and “6080”. These options differ in the following ways: • The Dynamic Charging Port feature and related DYNCPDIS_N pin function are only available on the -6080 device. Refer to Section 5.1.3, "Dynamic Charging Port (6080 Only)" for additional details. • The TRST/DYNCPDIS_N/UCS_SMBALERT_N pin buffer type is “IPU” in the -6080 device and “I” in the -5000 device. Refer to Pin Information on page 7 for additional details. • The Global Suspend power consumption has been significantly lowered in the -6080 device. Refer to Section 6.3, "Power Consumption" for additional details. DS00001681C-page 4  2012 - 2015 Microchip Technology Inc. USB5534B 1.3 Configurable Features The USB5534B hub controller provides a default configuration that is sufficient for most applications. When initialized in the default configuration, the following features may be configured: • • • • • Downstream non-removable ports, where the hub will automatically report as a compound device Downstream disabled ports Downstream port power control and over-current detection on a ganged or individual basis USB signal drive strength USB differential pair pin location The USB5534B hub controllers can alternatively be configured by OTP or as an SMBus slave device. When configured by an OTP or over SMBus, the following configurable features are provided: • Support for compound devices on a port-by-port basis • Selectable over-current sensing and port power control on an individual or ganged basis to match the circuit board component selection • Customizable vendor ID, product ID, and device ID • Configurable delay time for filtering the over-current sense inputs • Indication of the maximum current that the hub consumes from the USB upstream port • Indication of the maximum current required for the hub controller • Custom string descriptors (up to 30 characters): Product, manufacturer, and serial number  2012 - 2015 Microchip Technology Inc. DS00001681C-page 5 DS00001681C-page 6 RX SS PHY TX SS PHY Buffer Buffer USB2.0 PHY Downstream USB Port 1 Buffer SS PHY SS PHY Registers & Hub I/O USB2.0 PHY SS PHY RX Buffer USB2.0 PHY SS PHY RX Buffer USB2.0 PHY Downstream USB Port 3 SS PHY TX Buffer Downstream RX SS bus Downstream TX SS bus Downstream USB Port 2 SS PHY TX Buffer Registers & Hub I/O APB Bus 2k OTP Reset & 8051 Boot Seq. XData to APB Bridge HS/FS/LS Routing Logic VBUS Control XData USB 2.0 Hub Controller 8k RAM 32k ROM Embedded 8051 µC SS PHY RX Buffer USB2.0 PHY Downstream USB Port 4 SS PHY TX Buffer Timer SPI Master SPI FIGURE 2-1: USB 3.0 Hub Controller RX TX 2.0 Buffer Common Block & PLL Upstream USB Port USB5534B BLOCK DIAGRAM USB5534B BLOCK DIAGRAM  2012 - 2015 Microchip Technology Inc. USB5534B 3.0 PIN INFORMATION This chapter outlines the pinning configurations for each chip. The detailed pin descriptions are listed by function in Section 3.2, "Pin Descriptions (Grouped by Function)," on page 8. Pin Configurations VBUS TMS/OCS2 TCK/OCS1 TRST/DYNCPDIS_N/ UCS_SMBALERT_N TDI/OCS3 TDO/OCS4 SPI_DI SPI_DO SPI_CLK SPI_CE_N SM_CLK SM_DAT PRT_PWR1/PRT_CTL1 PRT_PWR2/PRT_CTL2 VDD33 PRT_PWR3/PRT_CTL3 46 45 44 43 42 41 40 39 38 37 36 35 34 33 USB5534B 64-PIN QFN 47 FIGURE 3-1: 48 3.1 TEST 49 32 PRT_PWR4/PRT_CTL4 RESET_N 50 31 VDD12 VDD12 51 30 USB3DM_RXDN4 VDD33 52 29 USB3DP_RXDN4 USB2DP_UP 53 28 VDD12 USB2DM_UP 54 27 USB3DM_TXDN4 USB3DP_TXUP 55 26 USB3DP_TXDN4 USB3DM_TXUP 56 USB2DM_DN4 VDD12 57 USB5534B 25 24 USB3DP_RXUP 58 (Top View QFN-64) USB2DP_DN4 23 USB3DM_RXDN3 USB3DM_RXUP 59 22 USB3DP_RXDN3 ATEST 60 21 VDD12 XTALOUT 61 20 USB3DM_TXDN3 XTALIN/CLK_IN 62 19 USB3DP_TXDN3 VDD33 63 18 USB2DM_DN3 RBIAS 64 17 USB2DP_DN3 Ground Pad 5 6 7 8 9 10 11 12 13 14 15 16 USB3DP_RXDN1 USB3DM_RXDN1 VDD12 USB2DP_DN2 USB2DM_DN2 USB3DP_TXDN2 USB3DM_TXDN2 VDD12 USB3DP_RXDN2 USB3DM_RXDN2 VDD33 USB3DP_TXDN1 VDD12 3 USB2DM_DN1 4 2 USB3DM_TXDN1 1 USB2DP_DN1 (must be connected to VSS with a via field) Indicates pins on the bottom of the device.  2012 - 2015 Microchip Technology Inc. DS00001681C-page 7 USB5534B 3.2 Pin Descriptions (Grouped by Function) An N at the end of a signal name indicates that the active (asserted) state occurs when the signal is at a low voltage level. When the N is not present, the signal is asserted when it is at a high voltage level. The terms assertion and negation are used exclusively in order to avoid confusion when working with a mixture of active low and active high signals. The term assert, or assertion, indicates that a signal is active, independent of whether that level is represented by a high or low voltage. The term negate, or negation, indicates that a signal is inactive. TABLE 3-1: USB5534B PIN DESCRIPTIONS Symbol Buffer Type Description USB 3.0 INTERFACE USB3DP_TXUP IO-U USB 3 Upstream Upstream SuperSpeed transmit data plus USB3DM_TXUP IO-U USB 3 Upstream Upstream SuperSpeed transmit data minus USB3DP_RXUP IO-U USB 3 Upstream Upstream SuperSpeed receive data plus USB3DM_RXUP IO-U USB 3 Upstream Upstream SuperSpeed receive data minus USB3DP_TXDN[4:1] IO-U USB 3 Downstream Downstream SuperSpeed transmit data plus for ports 1 through 4. USB3DM_TXDN[4:1] IO-U USB 3 Downstream Downstream SuperSpeed transmit data minus for ports 1 through 4. USB3DP_RXDN[4:1] IO-U USB 3 Downstream Downstream SuperSpeed receive data plus for ports 1 through 4. USB3DM_RXDN[4:1] IO-U USB 3 Downstream Downstream SuperSpeed receive data minus for ports 1 through 4. USB 2.0 INTERFACE USB2DP_UP IO-U USB Bus Data These pins connect to the upstream USB bus data signals. USB2DM_UP IO-U USB Bus Data These pins connect to the upstream USB bus data signals. USB2DP_DN[4:1] USB2DM_DN[4:1] DS00001681C-page 8 IO-U IO-U USB Downstream Downstream Hi-Speed data plus for ports 1 through 4. USB Downstream Downstream Hi-Speed data minus for ports 1 through 4.  2012 - 2015 Microchip Technology Inc. USB5534B TABLE 3-1: USB5534B PIN DESCRIPTIONS (CONTINUED) Symbol Buffer Type Description USB PORT CONTROL PRT_PWR[4:1]/ PRT_CTL[4:1] O12 USB Power Enable Enables power to USB peripheral devices downstream. Note: VBUS I This pin also provides configuration strap functions. See Note 3-1. Upstream VBUS Power Detect This pin can be used to detect the state of the upstream bus power. The device monitors this pin to determine when to assert the internal D+ pullup resistor (signaling a connect event). When designing a detachable hub, this pin should be connected to VBUS on the upstream port via a 2:1 voltage divider. Two 100 k resistors are suggested. For self-powered applications with a permanently attached host, this pin must be connected to a dedicated host control output, or connected to the 3.3 V domain that powers the host (typically VDD33). SPI INTERFACE (4 PINS) SPI_CE_N O12 SPI_CLK O12 SPI Enable SPI Clock SPI Serial Data Out SPI_DO O12 The output for the SPI port. Note: SPI_DI I This pin also provides configuration strap functions. See . SPI Serial Data In The SPI data in to the controller from the ROM. This pin has a weak internal pull-down applied at all times to prevent floating. JTAG/OCS INTERFACE JTAG Asynchronous Reset TRST DYNCPDIS_N IPU (Note 3-4) Note: If using the SMBus interface, a pull-up on this signal will enable Legacy Mode, while leaving it unconnected or pulled-down will enable Advanced Mode. Note: Only available in test mode. Dynamic Charging Port Disable This active-low signal is used to globally disable Battery Charging support on all USB downstream ports configured as Charging Ports. Note: UCS_SMBALERT_N This signal available in -6080 versions only UCS1002 SMBus Alert When charging port is enabled and SMBus devices are used, this signal acts as an active-low SMBus alert.  2012 - 2015 Microchip Technology Inc. DS00001681C-page 9 USB5534B TABLE 3-1: USB5534B PIN DESCRIPTIONS (CONTINUED) Symbol Buffer Type Description JTAG Clock TCK This input is used for JTAG boundary scan and has a weak pull-down. It can be left floating or grounded when not used. If the JTAG is connected, then this signal will be detected high, and the software disables the pull up after reset. I Note: Only available in test mode. Over-Current Sense 1 OCS1 Input from external current monitor indicating an over-current condition. Note: This pin also provides configuration strap functions. See Note 3-3. JTAG TMS TMS Used for JTAG boundary scan. Note: OCS2 I Only available in test mode. Over-Current Sense 2 Input from external current monitor indicating an over-current condition. Note: This pin also provides configuration strap functions. See Note 3-3. JTAG TDI TDI Used for JTAG boundary scan. Note: OCS3 I Only available in test mode. Over-Current Sense 3 Input from external current monitor indicating an over-current condition. Note: This pin also provides configuration strap functions. See Note 3-3. JTAG TDO TDO Used for JTAG boundary scan. Note: OCS4 O12 Only available in test mode. Over-Current Sense 4 Input from external current monitor indicating an over-current condition. Note: This pin also provides configuration strap functions. See Note 3-3. MISC RESET_N IS Reset Input The system uses this active low signal to reset the chip. The active low pulse should be at least 1 s wide. Crystal Input: 25 MHz crystal. XTALIN CLK_IN ICLKx This pin connects to either one terminal of the crystal or to an external 25 MHz clock when a crystal is not used. External Clock Input This pin connects to either one terminal of the crystal or to an external 25 MHz clock when a crystal is not used. XTALOUT OCLKx Crystal Output The clock output, providing a crystal 25 MHz. When an external clock source is used to drive XTALIN/CLK_IN, this pin becomes a no connect. DS00001681C-page 10  2012 - 2015 Microchip Technology Inc. USB5534B TABLE 3-1: USB5534B PIN DESCRIPTIONS (CONTINUED) Symbol Buffer Type TEST IPD Description Test Pin Treat as a no connect pin or connect to ground. No trace or signal should be routed or attached to this pin. I-R RBIAS USB Transceiver Bias A12.0 k (+/- 1%) resistor is attached from ground to this pin to set the transceiver’s internal bias settings. A ATEST Analog Test Pin This signal is used for testing the chip and must always be connected to ground. SM_CLK I/O12 SMBus Clock SM_DAT I/O12 SMBus Data Pin DIGITAL AND POWER (4) VDD33 3.3 V Power (8) VDD12 1.25 V Power Ground Pad VSS This exposed pad is the device’s only connection to VSS and the primary thermal conduction path. Connect to an appropriate via field. Note 3-1 The PRT_PWR[4:1] pins can optionally provide additional configuration strap functions to enable/disable the associated port and configure its battery charging capabilities. Configuration strap values are latched on device reset. Table 3-2 details the functions associated with the various strap settings. Strapping features are enabled by default and can be optionally disabled via the Pro-Touch software programming tool. For additional information on the Pro-Touch programming tool, contact your local sales representative. Strapping functions are not supported for designs that support OCS but not power switching. TABLE 3-2: PRT_PWR[4:1] CONFIGURATION STRAP STATES PRT_PWR[4:1] Strap Setting Port State Battery Charging No Pull-Up or Pull-Down Enabled Disabled Pull-Down:
USB5534B-5000JZXTR 价格&库存

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