USB4604I-1080HN

USB4604 USB 2.0 HSIC Hi-Speed 4-Port Hub Controller Highlights Additional Features • Hub Controller IC with 4 downstream ports • High-Speed Inter-Chip (HSIC) support - Upstream port selectable between HSIC or USB 2.0 • USB-IF Battery Charger revision 1.2 support on up & downstream ports (DCP, CDP, SDP)  • Battery charging support for Apple devices • FlexConnect: Downstream port 1 able to swap with upstream port, allowing master capable devices to control other devices on the hub • USB to I2C/SPI bridge endpoint support • USB Link Power Management (LPM) support • SUSPEND pin for remote wakeup indication to host • Start Of Frame (SOF) synchronized clock output pin • Vendor Specific Messaging (VSM) support • Enhanced OEM configuration options available through OTP or SMBus Slave Port • Flexible power rail support - VBUS or VBAT only operation - 3.3V only operation - VBAT + 1.8V operation - 3.3V + 1.8V operation • 48-pin (7x7mm) SQFN, RoHS compliant package • MultiTRAK™ - Dedicated Transaction Translator per port • PortMap - Configurable port mapping and disable sequencing • PortSwap - Configurable differential intra-pair signal swapping • PHYBoost™ - Programmable USB transceiver drive strength for recovering signal integrity • VariSense™ - Programmable USB receiver sensitivity • Low power operation • Full Power Management with individual or ganged power control of each downstream port • Built-in Self-Powered or Bus-Powered internal default settings provide flexibility in the quantity of USB expansion ports utilized without redesign • Supports “Quad Page” configuration OTP flash - Four consecutive 200 byte configuration pages • Fully integrated USB termination and Pull-up/Pulldown resistors • On-chip Power On Reset (POR) • Internal 3.3V and 1.2V voltage regulators • On Board 24MHz Crystal Driver, Resonator, or External 24MHz clock input • USB host/device speed indicator. Per-port 3-color LED drivers indicate the speed of USB host and device connection - hi-speed (480 Mbps), fullspeed (12 Mbps), low-speed (1.5 Mbps) • Environmental - Commercial temperature range support (0ºC to 70ºC) - Industrial temperature range support (-40ºC to 85ºC) Target Applications • • • • • • • • • LCD monitors and TVs Multi-function USB peripherals PC mother boards Set-top boxes, DVD players, DVR/PVR Printers and scanners PC media drive bay Portable hub boxes Mobile PC docking Embedded systems  2012 - 2019 Microchip Technology Inc. DS00001716C-page 1 USB4604 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. 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DS00001716C-page 2  2012 - 2019 Microchip Technology Inc. USB4604 Table of Contents 1.0 Introduction ..................................................................................................................................................................................... 4 2.0 Acronyms and Definitions ............................................................................................................................................................... 6 3.0 Pin Descriptions .............................................................................................................................................................................. 7 4.0 Power Connections ....................................................................................................................................................................... 17 5.0 Modes of Operation ...................................................................................................................................................................... 19 6.0 Device Configuration ..................................................................................................................................................................... 23 7.0 Device Interfaces .......................................................................................................................................................................... 27 8.0 Functional Descriptions ................................................................................................................................................................. 34 9.0 Operational Characteristics ........................................................................................................................................................... 39 10.0 Package Outline ................................................................................................................................................................................................... 49 Appendix A: Data sheet Revision History ........................................................................................................................................... 50 The Microchip Web Site ...................................................................................................................................................................... 51 Customer Change Notification Service ............................................................................................................................................... 51 Customer Support ............................................................................................................................................................................... 51 Product Identification System ............................................................................................................................................................. 52  2012 - 2019 Microchip Technology Inc. DS00001716C-page 3 USB4604 1.0 INTRODUCTION The USB4604 is a low-power, OEM configurable, MTT (Multi-Transaction Translator) USB 2.0 hub controller with 4 downstream ports and advanced features for embedded USB applications. The USB4604 is fully compliant with the USB 2.0 Specification, USB 2.0 Link Power Management Addendum, High-Speed Inter-Chip (HSIC) USB Electrical Specification Revision 1.0, and will attach to an upstream port as a Full-Speed hub or as a Full-/Hi-Speed hub. The 4port hub supports Low-Speed, Full-Speed, and Hi-Speed (if operating as a Hi-Speed hub) downstream devices on all of the enabled downstream (non-HSIC) ports. HSIC ports support only Hi-Speed operation. The USB4604 has been specifically optimized for embedded systems where high performance, and minimal BOM costs are critical design requirements. Standby mode power has been minimized and reference clock inputs can be aligned to the customer’s specific application. Flexible power rail options ease integration into energy efficient designs by allowing the USB4604 to be powered in a single-source (VBUS, VBAT, 3.3V) or a dual-source (VBAT + 1.8, 3.3V + 1.8) configuration. Additionally, all required resistors on the USB ports are integrated into the hub, including all series termination and pull-up/pull-down resistors on the D+ and D– pins. The USB4604 supports both upstream battery charger detection and downstream battery charging. The USB4604 integrated battery charger detection circuitry supports the USB-IF Battery Charging (BC1.2) detection method and most Apple devices. These circuits are used to detect the attachment and type of a USB charger and provide an interrupt output to indicate charger information is available to be read from the device’s status registers via the serial interface. The USB4604 provides the battery charging handshake and supports the following USB-IF BC1.2 charging profiles: • • • • DCP: Dedicated Charging Port (Power brick with no data) CDP: Charging Downstream Port (1.5A with data) SDP: Standard Downstream Port (0.5A with data) Custom profiles loaded via SMBus or OTP The USB4604 provides an additional USB endpoint dedicated for use as a USB to I2C/SPI interface, allowing external circuits or devices to be monitored, controlled, or configured via the USB interface. Additionally, the USB4604 includes many powerful and unique features such as: FlexConnect, which provides flexible connectivity options. The USB4604’s downstream port 1 can be swapped with the upstream port, allowing master capable devices to control other devices on the hub. MultiTRAK™ Technology, which utilizes a dedicated Transaction Translator (TT) per port to maintain consistent fullspeed data throughput regardless of the number of active downstream connections. MultiTRAKTM outperforms conventional USB 2.0 hubs with a single TT in USB full-speed data transfers. PortMap, which provides flexible port mapping and disable sequences. The downstream ports of a USB4604 hub can be reordered or disabled in any sequence to support multiple platform designs with minimum effort. For any port that is disabled, the USB4604 hub controllers automatically reorder the remaining ports to match the USB host controller’s port numbering scheme. PortSwap, which adds per-port programmability to USB differential-pair pin locations. PortSwap allows direct alignment of USB signals (D+/D-) to connectors to avoid uneven trace length or crossing of the USB differential signals on the PCB. PHYBoost, which provides programmable levels of Hi-Speed USB signal drive strength in the downstream port transceivers. PHYBoost attempts to restore USB signal integrity in a compromised system environment. The graphic on the right shows an example of Hi-Speed USB eye diagrams before and after PHYBoost signal integrity restoration. VariSense, which controls the USB receiver sensitivity enabling programmable levels of USB signal receive sensitivity. This capability allows operation in a sub-optimal system environment, such as when a captive USB cable is used. The USB4604 is available in commercial (0°C to +70°C) and industrial (-40°C to +85°C) temperature range versions. As shown in the ordering code matrix, two USB4604 firmware revisions are available: “-1080” and “-1070”. The -1080 version enables the internal Hub Controller, while the -1070 version disables it. There are no additional differences between these two versions. DS00001716C-page 4  2012 - 2019 Microchip Technology Inc. USB4604 The Hub Controller adds advanced functionality to the USB4604 by enabling the host to send commands directly to it via the upstream USB connection. Commands to the Hub Controller must be sent to the virtual 5th port in the hub. The following functions can be controlled via commands through the Hub Controller: • USB to SMBus Bridging: The host can send commands through USB to any device connected to the hub through the SMBus. • USB to UART Bridging: The host can send commands through SUB to any device connected to the hub through the UART. • GPIO Control: The GPIOs on the hub can be dynamically configured and controlled by the host. • OTP Programming: Permanent customer configurations can be loaded to the One Time Programmable memory. 1.1 Block Diagram Figure 1-1 details the internal block diagram of the USB4604. FIGURE 1-1: SYSTEM BLOCK DIAGRAM Up or Downstream HSIC/USB RESET_N VDDCOREREG VBAT VDDA33 VDD33 SDA SCL VDDCR12 Serial Interface 1.2V Reg 3.3V Reg Flex HSIC Flex PHY To I2C Master/Slave Controller SIE Repeater TT #1 TT #2 TT #3 TT #4 TT #5 Routing & Port Re-Ordering Logic Bridge UDC 20 2KB DP SRAM 256B IRAM Swap PHY PHY PHY USB USB USB Port Power OCS 8051 Controller GPIO SPI GPIO SPI/I2C PHY 2KB OTP Down or Upstream Port Controller 4KB SRAM 32KB ROM USB Downstream Downstream Downstream  2012 - 2019 Microchip Technology Inc. DS00001716C-page 5 USB4604 2.0 ACRONYMS AND DEFINITIONS 2.1 Acronyms EOP: End of Packet EP: Endpoint FS: Full-Speed GPIO: General Purpose I/O (that is input/output to/from the device) HS: Hi-Speed HSOS: High Speed Over Sampling HSIC: 2 High-Speed Inter-Chip I C: Inter-Integrated Circuit LS: Low-Speed OTP: One Time Programmable PCB: Printed Circuit Board PCS: Physical Coding Sublayer PHY: Physical Layer SMBus: System Management Bus UUID: Universally Unique IDentification 2.2 Reference Documents 1. 2. 3. 4. 5. 6. UNICODE UTF-16LE For String Descriptors USB Engineering Change Notice, December 29th, 2004, http:// www.usb.org Universal Serial Bus Specification, Revision 2.0, April 27th, 2000, http://www.usb.org Battery Charging Specification, Revision 1.2, Dec. 07, 2010, http://www.usb.org High-Speed Inter-Chip USB Electrical Specification, Version 1.0, Sept. 23, 2007, http://www.usb.org I2C-Bus Specification, Version 1.1, http://www.nxp.com System Management Bus Specification, Version 1.0, http://smbus.org/specs DS00001716C-page 6  2012 - 2019 Microchip Technology Inc. USB4604 PIN DESCRIPTIONS RESET_N NC SCL/SMBCLK VDD33 SDA/SMBDATA UART_TX/OCS4_N PRTPWR4/PRTCTL4 UART_RX/OCS3_N SPI_CLK SPI_DO/SPI_SPD_SEL SPI_CE_N 35 34 33 32 31 30 29 28 27 26 25 48-SQFN PIN ASSIGNMENTS VBUS_DET FIGURE 3-1: 36 3.0 VDDA33 37 24 SPI_DI VDD12 38 23 NC FLEX_HSIC_UP_STROBE 39 22 NC FLEX_USBUP_DM/PRT_DIS_M0 40 21 PRTPWR3/PRTCTL3 FLEX_USBUP_DP/PRT_DIS_P0 41 20 OCS2_N FLEX_HSIC_UP_DATA 42 19 PRTPWR2/PRTCTL2 XTAL2 43 18 VDD33 XTAL1/REFCLK 44 17 VDDCR12 NC 45 16 OCS1_N RBIAS 46 15 PRTPWR1/PRTCTL1 14 SUSPEND 13 SOF 4 5 6 7 8 9 10 11 SWAP_USBDN1_DP/PRT_DIS_P1 USBDN2_DM/PRT_DIS_M2 USBDN2_DP/PRT_DIS_P2 NC USBDN3_DM/PRT_DIS_M3 USBDN3_DP/PRT_DIS_P3 USBDN4_DM/PRT_DIS_M4 USBDN4_DP/PRT_DIS_P4 12 3 SWAP_USBDN1_DM/PRT_DIS_M1 VDDA33 2 NC 48 1 47 VDDA33 Ground Pad (must be connected to VSS) VBAT VDDCOREREG USB4604 (Top View) Indicates pins on the bottom of the device.  2012 - 2019 Microchip Technology Inc. DS00001716C-page 7 USB4604 3.1 Pin Descriptions This section provides a detailed description of each pin. The signals are arranged in functional groups according to their associated interface. The “_N” symbol in the signal name indicates that the active, or asserted, state occurs when the signal is at a low voltage level. For example, RESET_N indicates that the reset signal is active low. When “_N” is not present after the signal name, the signal is asserted when at the high voltage level. The terms assertion and negation are used exclusively. This is done 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. Note: The buffer type for each signal is indicated in the BUFFER TYPE column of Table 3-1. A description of the buffer types is provided in Section 3.3. Note: Compatibility with the UCS100x family of USB port power controllers requires the UCS100x be connected on Port 1 of the USB4604. Additionally, both PRTPWR1 and OCS1_N must be pulled high at Power-On Reset (POR). TABLE 3-1: PIN DESCRIPTIONS Num Pins Buffer Type Name Symbol Upstream USB D+ (Flex Port 0) FLEX_USBUP_DP AIO Port 0 D+ Disable Configuration Strap PRT_DIS_P0 IS Description USB/HSIC INTERFACES 1 Upstream USB Port 0 D+ data signal. See Note 3-1. Note: The upstream Port 0 signals can be optionally swapped with the downstream Port 1 signals. This strap is used in conjunction with PRT_DIS_M0 to disable USB Port 0. 0 = Port 0 D+ Enabled 1 = Port 0 D+ Disabled Note: Both PRT_DIS_P0 and PRT_DIS_M0 must be tied to VDD33 at reset to place Port 0 into HSIC mode. See Note 3-2 for more information on configuration straps. 1 Upstream USB D(Flex Port 0) FLEX_USBUP_DM AIO Upstream USB Port 0 D- data signal. See Note 3-1. Note: The upstream Port 0 signals can be optionally swapped with the downstream Port 1 signals. Port 0 DDisable Configuration Strap PRT_DIS_M0 IS This strap is used in conjunction with PRT_DIS_P0 to disable USB Port 0. 0 = Port 0 D- Enabled 1 = Port 0 D- Disabled Note: Both PRT_DIS_P0 and PRT_DIS_M0 must be tied to VDD33 at reset to place Port 0 into HSIC mode. See Note 3-2 for more information on configuration straps. DS00001716C-page 8  2012 - 2019 Microchip Technology Inc. USB4604 TABLE 3-1: PIN DESCRIPTIONS (CONTINUED) Num Pins Name Symbol Buffer Type FLEX_HSIC_UP_ DATA HSIC 1 Upstream HSIC Data (Flex Port 0) Upstream HSIC Port 0 DATA signal. See Note 3-1. Note: The upstream Port 0 signals can be optionally swapped with the downstream Port 1 signals. FLEX_HSIC_UP_ STROBE HSIC 1 Upstream HSIC Strobe (Flex Port 0) Upstream HSIC Port 0 STROBE signal. See Note 3-1. Note: The upstream Port 0 signals can be optionally swapped with the downstream Port 1 signals. Downstream USB D+ (Swap Port 1) SWAP_USBDN1_DP AIO Downstream USB Port 1 D+ data signal. Note: The downstream Port 1 signals can be optionally swapped with the upstream Port 0 signals. Port 1 D+ Disable Configuration Strap PRT_DIS_P1 IS 1 Description This strap is used in conjunction with PRT_DIS_M1 to disable USB Port 1. 0 = Port 1 D+ Enabled 1 = Port 1 D+ Disabled Note: Both PRT_DIS_P1 and PRT_DIS_M1 must be tied to VDD33 at reset to disable the associated port. See Note 3-2 for more information on configuration straps. 1 Downstream USB D(Swap Port 1) SWAP_USBDN1_DM AIO Downstream USB Port 1 D- data signal. Note: The downstream Port 1 signals can be optionally swapped with the upstream Port 0 signals. Port 1 DDisable Configuration Strap PRT_DIS_M1 IS This strap is used in conjunction with PRT_DIS_P1 to disable USB Port 1. 0 = Port 1 D- Enabled 1 = Port 1 D- Disabled Note: Both PRT_DIS_P1 and PRT_DIS_M1 must be tied to VDD33 at reset to disable the associated port. See Note 3-2 for more information on configuration straps. 1 Downstream USB D+ (Port 2) USBDN2_DP AIO Port 2 D+ Disable Configuration Strap PRT_DIS_P2 IS Downstream USB Port 2 D+ data signal. This strap is used in conjunction with PRT_DIS_M2 to disable USB Port 2. 0 = Port 2 D+ Enabled 1 = Port 2 D+ Disabled Note: Both PRT_DIS_P2 and PRT_DIS_M2 must be tied to VDD33 at reset to disable the associated port. See Note 3-2 for more information on configuration straps.  2012 - 2019 Microchip Technology Inc. DS00001716C-page 9 USB4604 TABLE 3-1: Num Pins 1 PIN DESCRIPTIONS (CONTINUED) Name Symbol Buffer Type Downstream USB D(Port 2) USBDN2_DM AIO Port 2 DDisable Configuration Strap PRT_DIS_M2 IS Description Downstream USB Port 2 D- data signal. This strap is used in conjunction with PRT_DIS_P2 to disable USB Port 2. 0 = Port 2 D- Enabled 1 = Port 2 D- Disabled Note: Both PRT_DIS_P2 and PRT_DIS_M2 must be tied to VDD33 at reset to disable the associated port. See Note 3-2 for more information on configuration straps. 1 Downstream USB D+ (Port 3) USBDN3_DP AIO Port 3 D+ Disable Configuration Strap PRT_DIS_P3 IS Downstream USB Port 3 D+ data signal. This strap is used in conjunction with PRT_DIS_M3 to disable USB Port 3. 0 = Port 3 D+ Enabled 1 = Port 3 D+ Disabled Note: Both PRT_DIS_P3 and PRT_DIS_M3 must be tied to VDD33 at reset to disable the associated port. See Note 3-2 for more information on configuration straps. 1 Downstream USB D(Port 3) USBDN3_DM AIO Port 3 DDisable Configuration Strap PRT_DIS_M3 IS Downstream USB Port 3 D- data signal. This strap is used in conjunction with PRT_DIS_P3 to disable USB Port 3. 0 = Port 3 D- Enabled 1 = Port 3 D- Disabled Note: Both PRT_DIS_P3 and PRT_DIS_M3 must be tied to VDD33 at reset to disable the associated port. See Note 3-2 for more information on configuration straps. 1 Downstream USB D+ (Port 4) USBDN4_DP AIO Port 4 D+ Disable Configuration Strap PRT_DIS_P4 IS Downstream USB Port 4 D+ data signal. This strap is used in conjunction with PRT_DIS_M4 to disable USB Port 4. 0 = Port 4 D+ Enabled 1 = Port 4 D+ Disabled Note: Both PRT_DIS_P4 and PRT_DIS_M4 must be tied to VDD33 at reset to disable the associated port. See Note 3-2 for more information on configuration straps. DS00001716C-page 10  2012 - 2019 Microchip Technology Inc. USB4604 TABLE 3-1: PIN DESCRIPTIONS (CONTINUED) Name Symbol Buffer Type Downstream USB D(Port 4) USBDN4_DM AIO Port 4 DDisable Configuration Strap PRT_DIS_M4 IS Num Pins 1 Description Downstream USB Port 4 D- data signal. This strap is used in conjunction with PRT_DIS_P4 to disable USB Port 4. 0 = Port 4 D- Enabled 1 = Port 4 D- Disabled Note: Both PRT_DIS_P4 and PRT_DIS_M4 must be tied to VDD33 at reset to disable the associated port. See Note 3-2 for more information on configuration straps. 1 I2C/SMBUS INTERFACE 2C Serial I Clock Input SCL I_SMB I2C serial clock input SMBus Clock SMBCLK I_SMB SMBus serial clock input I C Serial Data SDA IS/OD8 I2C bidirectional serial data SMBus Serial Data SMBDATA IS/OD8 SMBus bidirectional serial data 2 1 SPI MASTER INTERFACE 1 1 1 SPI Chip Enable Output SPI_CE_N O12 Active-low SPI chip enable output. Note: If the SPI is enabled, this pin will be driven high in powerdown states. SPI Clock Output SPI_CLK O12 SPI clock output SPI Data Output SPI_DO O12 SPI data output SPI Speed Select Configuration Strap SPI_SPD_SEL IS (PD) This strap is used to select the speed of the SPI. 0 = 30MHz (default) 1 = 60MHz Note: If the latched value on reset is 1, this pin is tri-stated when the chip is in the suspend state. If the latched value on reset is 0, this pin is driven low during a suspend state. See Note 3-2 for more information on configuration straps. SPI Data Input SPI_DI 1 Port 1 OverCurrent Sense Input OCS1_N IS (PU) This active-low signal is input from an external current monitor to indicate an over-current condition on USB Port 1. 1 Port 2 OverCurrent Sense Input OCS2_N IS (PU) This active-low signal is input from an external current monitor to indicate an over-current condition on USB Port 2. 1 IS (PD) SPI data input MISC.  2012 - 2019 Microchip Technology Inc. DS00001716C-page 11 USB4604 TABLE 3-1: PIN DESCRIPTIONS (CONTINUED) Name Symbol Buffer Type UART Receive Input UART_RX IS Port 3 OverCurrent Sense Input OCS3_N IS (PU) UART Transmit Output UART_TX O8 Port 4 OverCurrent Sense Input OCS4_N IS (PU) System Reset Input RESET_N I_RST Crystal Input XTAL1 ICLK External 24 MHz crystal input 1 Reference Clock Input REFCLK ICLK Reference clock input. The device may be alternatively driven by a single-ended clock oscillator. When this method is used, XTAL2 should be left unconnected. 1 Crystal Output XTAL2 OCLK 1 External USB Transceiver Bias Resistor RBIAS AI A 12.0k (+/- 1%) resistor is attached from ground to this pin to set the transceiver’s internal bias settings. Suspend Output SUSPEND PU This signal is used to indicate that the entire hub has entered the USB suspend state and that VBUS current consumption should be reduced in accordance with the USB specification. Refer to Section 8.6, "Suspend (SUSPEND)," on page 38 for additional information. Note: SUSPEND must be enabled via the Protouch configuration tool. SOF Synchronized 8KHz Clock Output SOF O8 This signal outputs an 8KHz clock synchronized with the USB Host SOF. Note: SOF output is controlled via the SOF_ENABLE bit in the UTIL_CONFIG1 register Detect Upstream VBUS Power VBUS_DET IS Detects state of upstream bus power. Num Pins 1 1 1 1 1 1 Description Internal UART receive input Note: This is a 3.3V signal. For RS232 operation, an external 12V translator is required. This active-low signal is input from an external current monitor to indicate an over-current condition on USB Port 3. Internal UART transmit output Note: This is a 3.3V signal. For RS232 operation, an external 12V driver is required. This active-low signal is input from an external current monitor to indicate an over-current condition on USB Port 4. This active-low signal allows external hardware to reset the device. Note: The active-low pulse must be at least 5us wide. Refer to Section 8.4.2, "External Chip Reset (RESET_N)," on page 37 for additional information. External 24 MHz crystal output When designing a detachable hub, this pin must be connected to the VBUS power pin of the upstream USB port through a resistor divider (50k by 100k) to provide 3.3V. For self-powered applications with a permanently attached host, this pin must be connected to either 3.3V or 5.0V through a resistor divider to provide 3.3V. In embedded applications, VBUS_DET may be controlled (toggled) when the host desires to renegotiate a connection without requiring a full reset of the device. DS00001716C-page 12  2012 - 2019 Microchip Technology Inc. USB4604 TABLE 3-1: Num Pins 1 1 1 1 6 PIN DESCRIPTIONS (CONTINUED) Name Symbol Buffer Type Port 1 Power Output PRTPWR1 O8 Description Enables power to a downstream USB device attached to Port 1. 0 = Power disabled on downstream Port 1 1 = Power enabled on downstream Port 1 Port 1 Control PRTCTL1 OD8/IS (PU) Port 2 Power Output PRTPWR2 O8 When configured as PRTCTL1, this pin functions as both the Port 1 power enable output (PRTPWR1) and the Port 1 over-current sense input (OCS1_N). Refer to the PRTPWR1 and OCS1_N descriptions for additional information. Enables power to a downstream USB device attached to Port 2. 0 = Power disabled on downstream Port 2 1 = Power enabled on downstream Port 2 Port 2 Control PRTCTL2 OD8/IS (PU) Port 3 Power Output PRTPWR3 O8 When configured as PRTCTL2, this pin functions as both the Port 2 power enable output (PRTPWR2) and the Port 2 over-current sense input (OCS2_N). Refer to the PRTPWR2 and OCS2_N descriptions for additional information. Enables power to a downstream USB device attached to Port 3. 0 = Power disabled on downstream Port 3 1 = Power enabled on downstream Port 3 Port 3 Control PRTCTL3 OD8/IS (PU) Port 4 Power Output PRTPWR4 O8 When configured as PRTCTL3, this pin functions as both the Port 3 power enable output (PRTPWR3) and the Port 3 over-current sense input (OCS3_N). Refer to the PRTPWR3 and OCS3_N descriptions for additional information. Enables power to a downstream USB device attached to Port 4. 0 = Power disabled on downstream Port 4 1 = Power enabled on downstream Port 4 Port 4 Control PRTCTL4 OD8/IS (PU) When configured as PRTCTL4, this pin functions as both the Port 4 power enable output (PRTPWR4) and the Port 4 over-current sense input (OCS4_N). Refer to the PRTPWR4 and OCS4_N descriptions for additional information. No Connect NC - These pins must be left floating for normal device operation. Battery Power Supply Input VBAT P Battery power supply input. When VBAT is connected directly to a +3.3V supply from the system, the internal +3.3V regulator runs in dropout and regulator power consumption is eliminated. A 4.7 F (