Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Future Technology Devices International Ltd. FT313H (USB2.0 HS Embedded Host Controller) The FT313H is a Hi-Speed Universal Serial Bus (USB) Host Controller compatible with Universal Serial Bus Specification Rev 2.0 and supports data transfer speeds of up to 480M bit/s. The FT313H has the following advanced features: Low power application. Supports bus interface I/O voltage from 1.62V to 3.63V. Supports hybrid power mode; VCC(3V3) is not present, VCC(I/O) is powered. Internal voltage regulator supplies 1.2v to the digital core. Single chip USB2.0 Hi-Speed compatible. Compatible to Enhanced Host Interface Specification Rev 1.0. Supports Battery Charging Specification Rev 1.2. The USB1.1 host is integrated into the USB2.0 EHCI compatible host controller. The downstream port can be configured as SDP, CDP or DCP. Single USB host port. Supports VBUS power current control. Supports data transfer at high-speed (480M bit/s), full-speed (12M bit/s), and low-speed (1.5M bit/s). -40C to 85C extended operating temperature range. Supports the Isochronous, Interrupt, Control, and Bulk transfers. Available in compact Pb-free 64 Pin QFN, LQFP and TQFP packages (all RoHS compliant). Supports the split transaction for high-speed Hub and the preamble transaction for fullspeed Hub. Supports multiple processor interfaces with 8bit or 16-bit bus: SRAM, NOR Flash, and General multiplex. Single configurable interrupt (INT) line for host controller. Integrated 24kB high speed RAM memory. Supports DMA operation. Integrated Phase-Locked Loop (PLL) supports external 12MHz, 19.2MHz, and 24MHz crystal, and direct external clock source input. Controller consumption for switching portable and over Neither the whole nor any part of the information contained in, or the product described in this manual, may be adapted or reproduced in any material or electronic form without the prior written consent of the copyright holder. This product and its documentation are supplied on an as-is basis and no warranty as to their suitability for any particular purpose is either made or implied. Future Technology Devices International Ltd will not accept any claim for damages howsoever arising as a result of use or failure of this product. Your statutory rights are not affected. This product or any variant of it is not intended for use in any medical appliance, device or system in which the failure of the product might reasonably be expected to result in personal injury. This document provides preliminary information that may be subject to change without notice. No freedom to use patents or other intellectual property rights is implied by the publication of this document. Future Technology Devices International Ltd, Unit 1, 2 Seaward Place, Centurion Business Park, Glasgow G41 1HH United Kingdom. Scotland Registered Company Number: SC136640 Copyright (c) 2013 Future Technology Devices International Limited 1 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 1 Typical Applications TV/TV box Media player Printer Tablet Instrumentation Set-top box 1.1 Part Numbers Part Number Package FT313HQ-x 64 Pin QFN FT313HL-x 64 Pin LQFP FT313HP-x 64 Pin TQFP Table 1-1 FT313H Numbers Note: Packaging codes for x is: -R: Taped and Reel, (QFN is 3000pcs, LQFP is 1000 pcs, TQFP is 2500pcs per reel) -T: Tray packing, (QFN is 2600pcs, LQFP is 1600 pcs, TQFP is 2500pcs per tray) For example: FT313HQ-R is 3000 QFN pcs in taped and reel packaging 1.2 USB Compliant At the time of writing this datasheet, the FT313H was still to complete USB compliance testing. Copyright (c) 2013 Future Technology Devices International Limited 2 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 2 FT313H Block Diagram DMA Controller AD[15:0] VCC(I/O) RAM 24KB A[7:0] X1/CLKIN ALE/ADV_N X2 MEMORY ARBITER CLE CS_N/CE_N RD_N/RE_N/ OE_N FT313H Interface Control Logic PLL FREQSEL2 AGND EHCI Compatible Host Controller WR_N/WE_N POR RESET_N INT GND DREQ ATX DACK REGULATOR VBUS CPE0 CPE1 FREQSEL1 VCC(1V2) VOUT(1V2) TESTEN BCD VCC(3V3) OC_N RREF DP DM AGND PSW_N Figure 2-1 FT313H Block Diagram For a description of each function please refer to Section 4. Copyright (c) 2013 Future Technology Devices International Limited 3 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Table of Contents 1 Typical Applications ...................................................................... 2 1.1 Part Numbers...................................................................................... 2 1.2 USB Compliant .................................................................................... 2 2 FT313H Block Diagram ................................................................. 3 3 Device Pin Out and Signal Description .......................................... 7 3.1 Pin Out - 64pin QFN ........................................................................... 7 3.2 Pin Out - 64pin LQFP .......................................................................... 8 3.3 Pin Out - 64pin TQFP .......................................................................... 9 3.4 Pin Description ................................................................................. 10 4 Function Description................................................................... 14 4.1 Microcontroller Bus Interface ........................................................... 14 4.2 SRAM bus interface mode ................................................................. 15 4.3 NOR bus interface mode ................................................................... 16 4.4 General multiplex bus interface mode .............................................. 16 4.5 Interface mode lock .......................................................................... 16 4.6 DMA controller .................................................................................. 16 4.7 EHCI host controller ......................................................................... 17 4.8 System clock ..................................................................................... 17 4.8.1 4.9 Phase Locked Loop (PLL) clock multiplier ...................................................................... 17 Power management .......................................................................... 18 4.9.1 Power up and reset sequence ...................................................................................... 18 4.9.2 Power supply............................................................................................................. 18 4.9.3 ATX reference voltage ................................................................................................ 18 4.9.4 Power modes ............................................................................................................ 18 4.10 5 BCD mode ...................................................................................... 19 Host controller specific registers ................................................ 20 5.1 Overview of registers ....................................................................... 20 5.2 EHCI operational registers ................................................................ 21 5.2.1 HCCAPLENGTH register (address = 00h) ....................................................................... 21 5.2.2 HCSPARAMS register (address = 04h) .......................................................................... 21 5.2.3 HCCPARAMS register (address = 08h) .......................................................................... 22 5.2.4 USBCMD register (address = 10h) ............................................................................... 22 5.2.5 USBSTS register (address = 14h) ................................................................................ 24 5.2.6 USBINTR register (address = 18h) ............................................................................... 25 5.2.7 FRINDEX register (address = 1Ch) ............................................................................... 26 5.2.8 PERIODICLISTADDR register (address = 24h) ............................................................... 26 5.2.9 ASYNCLISTADDR register (address = 28h).................................................................... 26 Copyright (c) 2013 Future Technology Devices International Limited 4 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 5.2.10 5.3 POSTSC register (address = 30h) ............................................................................. 27 Configuration registers ..................................................................... 29 5.3.1 EOTTIME register (address = 34h) ............................................................................... 29 5.3.2 CHIPID register (address = 80h) ................................................................................. 30 5.3.3 HWMODE register (address = 84h) .............................................................................. 30 5.3.4 EDGEINTC register (address = 88h) ............................................................................. 31 5.3.5 SWRESET register (address = 8Ch) .............................................................................. 31 5.3.6 MEMADDR register (address = 90h) ............................................................................. 33 5.3.7 DATAPORT register (address = 92h) ............................................................................ 33 5.3.8 DATASESSION register (address = 94h) ....................................................................... 33 5.3.9 CONFIG register (address = 96h) ................................................................................ 33 5.3.10 AUX_MEMADDR register (address = 98h) .................................................................. 35 5.3.11 AUX_DATAPORT register (address = 9Ah) ................................................................. 35 5.3.12 SLEEPTIMER register (address = 9Ch) ...................................................................... 35 5.4 Interrupt registers ............................................................................ 35 5.4.1 HCINTSTS register (address = A0h) ............................................................................. 35 5.4.2 HCINTEN register (address = A4h)............................................................................... 37 5.5 USB testing registers ........................................................................ 38 5.5.1 TESTMODE register (address = 50h) ............................................................................ 38 5.5.2 TESTPMSET1 register (address = 70h) ......................................................................... 39 5.5.3 TESTPMSET2 register (address = 74h) ......................................................................... 39 6 Devices Characteristics and Ratings ........................................... 40 6.1 Absolute Maximum Ratings............................................................... 40 6.2 DC Characteristics............................................................................. 41 6.3 AC Characteristics ............................................................................. 44 6.4 Timing .............................................................................................. 46 6.4.1 PIO timing ................................................................................................................ 46 6.4.2 DMA timing ............................................................................................................... 52 7 Application Examples ................................................................. 53 7.1 Examples of Bus Interface connection .............................................. 54 7.1.1 16-Bit SRAM asynchronous bus interface ...................................................................... 54 7.1.2 8-Bit SRAM asynchronous bus interface ........................................................................ 54 7.1.3 16-Bit NOR asynchronous bus interface ........................................................................ 55 7.1.4 8-Bit NOR asynchronous bus interface .......................................................................... 55 7.1.5 16-Bit General Multiplex asynchronous bus interface ...................................................... 55 7.1.6 8-Bit General Multiplex asynchronous bus interface ........................................................ 56 8 Package Parameters ................................................................... 57 8.1 FT313H Package Markings ................................................................ 57 8.1.1 QFN-64 .................................................................................................................... 57 8.1.2 LQFP-64 ................................................................................................................... 58 Copyright (c) 2013 Future Technology Devices International Limited 5 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 8.1.3 9 TQFP-64 ................................................................................................................... 59 8.2 QFN-64 Package Dimensions ............................................................ 60 8.3 LQFP-64 Package Dimensions ........................................................... 61 8.4 TQFP-64 Package Dimensions ........................................................... 62 8.5 Solder Reflow Profile ........................................................................ 63 FTDI Chip Contact Information ................................................... 64 Appendix A - References ........................................................................... 65 Appendix B - List of Figures and Tables ..................................................... 65 Appendix C - Revision History .................................................................... 67 Copyright (c) 2013 Future Technology Devices International Limited 6 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 3 Device Pin Out and Signal Description NC DP NC DM NC RREF OC_N 55 54 53 52 51 50 49 57 AGND VCC(3V3) 58 56 NC 59 VBUS 61 NC CPE0 62 AGND TESTEN 63 60 CPE1 64 3.1 Pin Out - 64pin QFN AGND 1 48 PSW_N AD0 2 47 AGND AD1 3 46 VOUT(1V2) AD2 4 AD3 5 VCC(I/O) 6 AD4 7 AD5 8 AD6 9 AD7 10 AD8 11 AD9 12 AD10 13 FTDI XXXXXXXXXX FT313HQ YYWW-B 45 X2 44 X1/CLKIN 43 AGND 42 FREQSEL2 41 FREQSEL1 40 RESET_N 39 CLE 38 ALE/ADV_N 37 DACK 36 DREQ 35 VCC(I/O) 19 20 21 22 23 24 25 26 27 28 29 30 31 32 VCC(1V2) CS_N/CE_N RD_N/RE_N/OE_N WR_N/WE_N INT VCC(I/O) A0 A1 A2 A3 A4 A5 VCC(1V2) A6 AD15 A7 33 18 34 16 AD14 15 AD12 17 14 AD13 AD11 VCC(I/O) Figure 3-1 Pin Configuration QFN64 (top-down view) Copyright (c) 2013 Future Technology Devices International Limited 7 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 NC RREF OC_N 50 49 52 51 NC DM 53 AGND DP 54 NC 56 55 NC VCC(3V3) 59 57 AGND 60 58 VBUS NC 61 TESTEN CPE0 62 CPE1 63 64 3.2 Pin Out - 64pin LQFP AGND 1 48 PSW_N AD0 2 47 AGND AD1 3 46 VOUT(1V2) AD2 4 45 X2 AD3 5 44 X1/CLKIN VCC(I/O) 6 43 AGND AD4 7 42 FREQSEL2 AD5 8 41 FREQSEL1 AD6 9 40 RESET_N AD7 10 39 CLE AD8 11 38 ALE/ADV_N AD9 12 37 DACK AD10 13 36 DREQ AD11 14 35 VCC(I/O) VCC(I/O) 15 34 A7 AD12 16 33 A6 FTDI 28 29 30 31 32 A3 A4 A5 VCC(1V2) 24 INT A2 23 WR_N/WE_N 27 22 RD_N/RE_N/OE_N A1 21 25 20 VCC(1V2) CS_N/CE_N 26 19 AD15 A0 18 AD14 VCC(I/O) 17 AD13 XXXXXXXXXX FT313HL YYWW-B Figure 3-2 Pin Configuration LQFP64 (top-down view) Copyright (c) 2013 Future Technology Devices International Limited 8 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 NC RREF OC_N 50 49 52 51 NC DM 53 AGND DP 54 NC 56 55 NC VCC(3V3) 59 57 AGND 60 58 VBUS NC 61 TESTEN CPE0 62 CPE1 63 64 3.3 Pin Out - 64pin TQFP AGND 1 48 PSW_N AD0 2 47 AGND AD1 3 46 VOUT(1V2) AD2 4 45 X2 AD3 5 44 X1/CLKIN VCC(I/O) 6 43 AGND AD4 7 42 FREQSEL2 AD5 8 41 FREQSEL1 AD6 9 40 RESET_N AD7 10 39 CLE AD8 11 38 ALE/ADV_N AD9 12 37 DACK AD10 13 36 DREQ AD11 14 35 VCC(I/O) VCC(I/O) 15 34 A7 AD12 16 33 A6 FTDI 28 29 30 31 32 A3 A4 A5 VCC(1V2) 24 INT A2 23 WR_N/WE_N 27 22 RD_N/RE_N/OE_N A1 21 25 20 VCC(1V2) CS_N/CE_N 26 19 AD15 A0 18 AD14 VCC(I/O) 17 AD13 XXXXXXXXXX FT313HP YYWW-B Figure 3-3 Pin Configuration TQFP64 (top-down view) Copyright (c) 2013 Future Technology Devices International Limited 9 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 3.4 Pin Description Pin No. Name Type 1 AGND P Description Analog Ground Bit 0 of the address and data bus 2 AD0 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 1 of the address and data bus 3 AD1 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 2 of the address and data bus 4 AD2 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 3 of the address and data bus 5 6 AD3 VCC(I/O) I/O P Bidirectional pad; push-pull, three-state output. 3.3V tolerant I/O supply voltage; connect a 0.1uF decoupling capacitor 1.8V, 2.5V or 3.3V Bit 4 of the address and data bus 7 AD4 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 5 of the address and data bus 8 AD5 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 6 of the address and data bus 9 AD6 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 7 of the address and data bus 10 AD7 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 8 of the address and data bus 11 AD8 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 9 of the address and data bus 12 AD9 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 10 of the address and data bus 13 AD10 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 11 of the address and data bus 14 AD11 I/O 15 VCC(I/O) P Bidirectional pad; push-pull, three-state output. 3.3V tolerant I/O supply voltage; connect a 0.1uF decoupling capacitor Copyright (c) 2013 Future Technology Devices International Limited 10 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Pin No. Name Type Description 1.8V, 2.5V or 3.3V Bit 12 of the address and data bus 16 AD12 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 13 of the address and data bus 17 AD13 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 14 of the address and data bus 18 AD14 I/O Bidirectional pad; push-pull, three-state output. 3.3V tolerant Bit 15 of the address and data bus 19 AD15 I/O 20 VCC(1V2) P 21 CS_N/CE_N I 22 23 24 25 RD_N /RE_N/OE_N WR_N /WE_N INT VCC(I/O) I Bidirectional pad; push-pull, three-state output. 3.3V tolerant Core power 1.2V input; for normal operation, this pin must be connected to pin 46. Connect a 0.1uF decoupling capacitor Chip select; Input ; 3.3V tolerant Read enable, or read latch; when not in use, connect to VCC(I/O) Input; 3.3V tolerant I O P Write enable; when not in use, connect to VCC(I/O) Input; 3.3V tolerant Interrupt output Push-pull output; 3.3V tolerant I/O supply voltage; connect a 0.1uF decoupling capacitor 1.8V, 2.5V or 3.3V 26 A0 I Bit 0 of the address bus; when not in use, connect to GND Input; 3.3V tolerant 27 A1 I Bit 1 of the address bus; when not in use, connect to GND Input; 3.3V tolerant 28 A2 I Bit 2 of the address bus; when not in use, connect to GND Input; 3.3V tolerant 29 A3 I Bit 3 of the address bus; when not in use, connect to GND Input; 3.3V tolerant Copyright (c) 2013 Future Technology Devices International Limited 11 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Pin No. 30 Name A4 Type Description I Bit 4 of the address bus; when not in use, connect to GND Input; 3.3V tolerant 31 A5 I Bit 5 of the address bus; when not in use, connect to GND Input; 3.3V tolerant 32 VCC (1V2) P 33 A6 I Core power 1.2V input; for normal operation, this pin must be connected to pin 46. Connect a 0.1uF decoupling capacitor. Bit 6 of the address bus; when not in use, connect to GND Input; 3.3V tolerant 34 A7 I Bit 7 of the address bus; when not in use, connect to GND Input; 3.3V tolerant 35 VCC(I/O) P I/O supply voltage; connect a 0.1uF decoupling capacitor 1.8V, 2.5V or 3.3V DMA request; 36 DREQ O 37 DACK I 38 ALE/ADV_N I 39 CLE I 40 RESET_N I 41 FREQSEL1 I 42 FREQSEL2 I 43 AGND P Analog Ground 44 X1/CLKIN AI Crystal oscillator or clock input; 3.3V peak input allowed 45 X2 AO Crystal oscillator output; leave open if an external clock is applied on pin X1/CLKIN 46 VOUT(1V2) AO Internal 1.2V regulator output; connect 4.7uF and Push-pull output; 3.3V tolerant DMA acknowledge; Internal pull-down. Input; 3.3V tolerant Address latch enable Input; 3.3V tolerant Command latch enable Input; 3.3V tolerant Chip reset; Internal pull-up. Input; 3.3V tolerant Input clock frequency selection pin1 Input; 3.3V tolerant Input clock frequency selection pin2 Input; 3.3V tolerant Copyright (c) 2013 Future Technology Devices International Limited 12 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Pin No. Name Type Description 0.1uF decoupling capacitors to this pin. 47 AGND P 48 PSW_N OD Analog Ground Port power switch; when not in use, connect to VCC(3V3) through a 10k resistor Open drain output; 5V tolerant 49 OC_N I Over current input; when not in use, connect to VCC(3V3) through a 10K resistor Input; 5V tolerant 50 RREF AI 51 NC 52 DM 53 NC 54 DP AI/O 55 AGND P 56 NC 57 VCC(3V3) 58 NC 59 AGND 60 NC 61 VBUS OD 62 CPE0 I 63 TESTEN I 64 CPE1 I Port reference resistor connection Connect 12 k1% resistor between RREF and GND No connect AI/O Port DM; connect to the D- pin of the USB connector No connect Port DP; connect to the D+ pin of the USB connector Analog Ground No connect P Supply 3.3V voltage; Connect 10uF and 0.1uF decoupling capacitors No connect P Analog Ground No connect VBUS discharge. 5V tolerant Bit 0 to select charging port emulation type Enable test mode. Internal pull-down. For normal operation leave floating. Bit 1 to select charging port emulation type Table 3-1 FT313H pin description Notes: P : Power or ground I/O : Bi-direction Input and Output I : Input AI : Analog Input O : Output AO : Analog Output OD : Open drain output AI/O : Analog Input / Output Copyright (c) 2013 Future Technology Devices International Limited 13 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 4 Function Description The FT313H is a USB2.0 compatible EHCI single port host controller which is mainly composed of the following: Microcontroller bus interface SRAM bus interface mode NOR bus interface mode General multiplex bus interface mode Interface mode lock DMA controller EHCI host controller System clock Power management BCD mode The functions for each block are briefly described in the following subsections. 4.1 Microcontroller Bus Interface The FT313H has a fast advance general purpose interface to communicate with most types of microcontrollers and microprocessors. This microcontroller interface is configured using pins ALE/ADV_N and CLE to accommodate most types of interfaces. The bus interface supports 8bit and 16-bit, which can be configured using bit DATA_BUS_WIDTH. Three bus interface types are selected using inputs ALE/ADV_N and CLE during power up, the RD_N /RE_N/OE_N and CS_N/CE_N pins, or the RESET_N pin. Table 4.1 provides detail of bus configuration for each mode. Table 4.2 shows pinout information of each bus interface. Bus Mode ALE/ADV_N CLE DATA_BUS Signal Description _WIDTH SRAM 8-bit SRAM 16-bit HIGH HIGH HIGH HIGH 1 0 NOR 8-bit HIGH LOW 1 NOR 16-bit HIGH LOW 0 General Multiplex 8-bit LOW HIGH 1 A[7:0]: 8-bit address bus AD[7:0]: 8-bit data bus Write (WR_N), read (RD_N), chip select (CS_N): control signals for normal SRAM mode DACK: DMA acknowledge input DREQ: DMA request output A[7:0]: 8-bit address bus AD[15:0]: 16-bit data bus Write (WR_N), read (RD_N), chip select (CS_N): control signals for normal SRAM mode DACK: DMA acknowledge input DREQ: DMA request output AD[7:0]: 8-bit data bus ADV_N, write enable, output enable, chip select: control signals AD[15:0]: 16-bit data bus ADV_N, write enable, output enable, chip select: control signals AD[7:0]: 8-bit data bus ALE, write(WR_N), read(RD_N), chip Copyright (c) 2013 Future Technology Devices International Limited 14 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bus Mode ALE/ADV_N CLE DATA_BUS Signal Description _WIDTH General Multiplex 16-bit LOW HIGH 0 select: control signals DACK: DMA acknowledge input DREQ: DMA request output AD[15:0]: 16-bit data bus ALE, write(WR_N), read(RD_N), chip select: control signals DACK: DMA acknowledge input DREQ: DMA request output Table 4-1 Bus Configuration modes SRAM mode NOR mode General Multiplex mode Type Description AD[15:0] AD[15:0] AD[15:0] I/O Data or address bus A[7:0] - - I Address bus - ADV_N ALE I Address or command valid CS_N CS_N CS_N I Chip select RD_N/RE_N OE_N RD_N/RE_N I Read control WR_N/WE_N WE_N WR_N/WE_N I Write control INT INT INT O Interrupt request DREQ - DREQ O DMA request DACK - DACK I DMA acknowledge Table 4-2 Pin information of the bus interface 4.2 SRAM bus interface mode The bus interface will be in SRAM 16-bit mode if pins ALE/ADV_N and CLE are HIGH, when: * The CS_N/CE_N pin goes LOW, and the RD_N /RE_N/OE_N pin goes LOW. Then, if the DATA_BUS_WIDTH bit is set, the bus interface will be in SRAM 8-bit mode. In SRAM mode, A[7:0] is the 8-bit address bus and AD[15:0] is the separate 16-bit data bus. The FT313H pins RD_N /RE_N/OE_N and WR_N/WE_N are the read and write strobes. The SRAM bus interface supports both 8-bit and 16-bit bus width that can be configured by setting or clearing bit DATA_BUS_WIDTH. The DMA transfer is also applicable to this interface. Copyright (c) 2013 Future Technology Devices International Limited 15 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 4.3 NOR bus interface mode The bus interface will be in NOR 16-bit mode, if pin ALE/ADV_N is HIGH and pin CLE is LOW, when: * The CS_N/CE_N pin goes LOW, and the RD_N /RE_N/OE_N pin goes LOW. Then, if the DATA_BUS_WIDTH bit is set, the bus interface will be in NOR 8-bit mode. The NOR Flash interface access consists of two phases: address and data. The address is valid when CS_N/CE_N and ADV_N are LOW, and the address is latched at the rising edge of ADV_N. For a read operation, WE_N must be HIGH. OE_N is the data output control. When active, the addressed register or the buffer data is driven to the I/O bus. The read operation is completed when CS_N/CE_N is de-asserted. For a write operation, OE_N must be HIGH. The WE_N assertion can start when ADV_N is de-asserted. WE_N is the data input strobe signal. When de-asserted, data will be written to the addressed register or the buffer. The write operation is completed when CS_N/CE_N is de-asserted. 4.4 General multiplex bus interface mode The bus interface will be in general multiplex 16-bit mode, if pin ALE/ADV_N is LOW and pin CLE is HIGH, when: * The CS_N/CE_N pin goes LOW, and the RD_N /RE_N/OE_N pin goes LOW. Then, if the DATA_BUS_WIDTH bit is set, the bus interface will be in general multiplex 8-bit mode. The general multiplex bus interface supports most advance application processors. The general multiplex interface access consists of two phases: address and data. The address is valid when ALE/ADV_N goes HIGH, and the address is latched at the falling edge of ALE/ADV_N. For a read operation, WR_N/WE_N must be HIGH. RD_N /RE_N/OE_N is the data output control. When active, the addressed register or the buffer data is driven to the I/O bus. The read operation is completed when CS_N/CE_N is de-asserted. For a write operation, RD_N /RE_N/OE_N must be HIGH. The WR_N/WE_N assertion can start when ALE/ADV_N is de-asserted. WR_N/WE_N is the data input strobe signal. When de-asserted, data will be written to the addressed register or the buffer. The write operation is completed when CS_N/CE_N is de-asserted. The DMA transfer is also applicable to this interface. 4.5 Interface mode lock The bus interface can be locked in any of the modes, SRAM, NOR, or general multiplex, using bit 3 of the HW Mode Control register. To lock the interface in a particular mode: 1. Read bits 7 and 6 of the SW Reset register. 2. Set bit 3 of the HW Mode Control register to logic 1. 3. Read bits 7 and 6 of the SW Reset register to ensure that the interface is locked in the desired mode. Note: the default is 16-bit SRAM mode. 4.6 DMA controller The DMA controller of the FT313H is used to transfer data between the system memory and local buffers. It shares data bus AD[15:0] and control signals WR_N/WE_N, RD_N /RE_N/OE_N, and CS_N/CE_N. The logic is dependent on the bus interface mode setting. DREQ signal is from the FT313H to indicate the start of DMA transfer. DACK signal is used to differentiate if data transferred is for the DMA or PIO access. When DACK is asserted, it indicates that it is still in DMA mode. When DACK is de-asserted, it indicates that PIO is to be accessed. ALE/ADV_N and CLE are ignored in a DMA access cycle. Correct data will be captured only on the rising edge of WR_N/WE_N and RD_N /RE_N/OE_N. Copyright (c) 2013 Future Technology Devices International Limited 16 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 The DMA controller of the FT313H has only one DMA channel. Therefore, only one DMA read or DMA write may take place at a time. Assign the DMA transfer length in the Data Session Length register for each DMA transfer. If the transfer length is larger than the burst counter, the DREQ signal will de-assert at the end of each burst transfer. DREQ will re-assert at the beginning of the each burst. When DMA is transferring data from/to local buffer, if it wants to access local buffer content by PIO mode, can use auxiliary memory access registers AUX_MEMADDR and AUX_DATAPORT to read/write data from/to local buffer with single cycle. For a 16-bit DMA transfer, the minimum burst length is 2 bytes. This means that the burst length is only one DMA cycle. Therefore, DREQ and DACK will assert and de-assert at each DMA cycle. The FT313H will be asserted DMA EOT interrupt to indicate that the DMA transfer has either successfully completed or terminated. 4.7 EHCI host controller The FT313H is a one-port EHCI-compatible host controller which supports all the USB 2.0 compliant Low-speed, Full-speed, and High-speed devices and split/preamble transactions for the HS/FS hub. The EHCI host controller supports two categories of the transfer types, the periodic and asynchronous transfer types. The periodic transfer type includes the isochronous and interrupt transfers, while the asynchronous transfer type includes the control and bulk transfers. The EHCI host controller has schedule interface that provides to the separate schedules for each category of the transfer type. The periodic schedule is based on a time-oriented frame list that represents a slide window of time of the host controller work items. All the ISO and INT transfers are serviced via the periodic schedule. The asynchronous schedule is a simple circular list of the schedule work items that provides a round robin service opportunity for all the asynchronous transfers. The EHCI host controller contains the Isochronous Transfer Descriptor (iTD), Queue Head (qH) and Queue Element Transfer Descriptor (qTD), and Split Transaction Isochronous Transfer Descriptor (siTD) data structure interface to support the isochronous/interrupt/control/bulk transfers and split transaction. The EHCI host controller internal buffer memory is 24KB. START_ADDR_MEM register is allocated from 0x0000 to 0x5FFF. 4.8 System clock 4.8.1 Phase Locked Loop (PLL) clock multiplier The internal PLL supports 12MHz, 19.2MHz, or 24MHz input, which can be crystal or a clock already existing in system. The frequency selection can be done using the FREQSEL1 and FREQSEL2 pins. Table 4.3 provides clock frequency selection. FREQSEL1 FREQSEL2 Clock Frequency 0 0 12MHz 1 0 19.2MHz 0 1 24MHz Table 4-3 Clock frequency select Copyright (c) 2013 Future Technology Devices International Limited 17 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 4.9 Power management 4.9.1 Power up and reset sequence When VCC(I/O) and VCC(3V3) are on, an internal regulator will power on with VCC(3V3) on. An internal POR pulse will be generated during the regulator power on, so that internal circuits are in reset state until the regulator power is stable. 4.9.2 Power supply Power supplies are defined in Table 4.4. Symbol Typical VCC(I/O) 1.8V, or 2.5V, or 3.3V VCC(3V3) 3.3V Description Supply for digital I/O pad Supply for chip Table 4-4 Power supply 4.9.3 ATX reference voltage The ATX circuit provides a stable internal voltage reference (+1.2V) to bias the analog circuitry. This circuit requires an accurate external reference resistor. Connect 12k1% resistor between pins RREF and GND. 4.9.4 Power modes Power management configuration defined in Table 4.5. For each bit description, see CONFIG register. OSC_EN PLL_EN HC_CLK_EN Description 1 1 1 Operation mode 0 0 0 Suspend mode Table 4-5 power management configuration 4.9.4.1 Operation mode All power supplies are present. Host controller is active. 4.9.4.2 Suspend mode All power supplies are present. Host controller goes to USB suspend. The steps for the host suspend are as follows: 1. Clear the RS bit of the USBCMD register to stop the host controller from executing schedule. 2. Set the PO_SUSP bit of the PORTSC register to force the host controller to go into suspend. 3. Disable OSC_EN, PLL_EN and HC_CLK_EN bits of the CONFIG register to save power. 4. Clear the U_SUSP_U bit of the EOTTIME register to put the chip into suspend mode. Copyright (c) 2013 Future Technology Devices International Limited 18 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 4.9.4.3 Wake up The regulator will be in normal operating mode and the clock/oscillator/PLL will be enabled when either of these conditions is triggered: 1. 2. 3. 4. Dummy read access with a LOW pulse on pins CS_N/CE_N and RD_N /RE_N/OE_N. USB device connects or disconnects. Remote wake up from external USB device. Over current condition is triggered on OC_N if enabled by register. After wake up automatically set corresponding bit of the CONFIG register, must set the U_SUSP_U bit of the EOTTIME register to wake up the chip. 4.10 BCD mode The FT313H is an EHCI-compatible host controller with BCD block function, which follows the Battery Charging Specification Revision 1.2(BC1.2) by USB-IF. The block function that emulates USB host port as either Charging Downstream Port (CDP) or Dedicated Charging Port (DCP) which provides higher current source than Standard Downstream Port (SDP). The BCD logic block will decode the mode of operation and choose by following setting: 1. BCD function is default enable by CONFIG register bit[5] setting. 2. BCD mode selection is default controlled by external pins configuration. Set CONFIG register bit[15] to take over BCD mode setting by software. 3. Same configuration by CONFIG register bit[14:13] to set BCD mode if software takes over control. CPE1 CPE0 Mode BCD_EN Description 0 0 SDP 1 Standard downstream port, VBUS current limit 500mA 0 1 DCP 1 Dedicated charging port, USB host no functional on this port, VBUS current limit 1.5A 1 1 CDP 1 Charging downstream port alternative configuration, VBUS current limit 1.5A X X X 0 BCD function disable Table 4-6 BCD mode configuration Copyright (c) 2013 Future Technology Devices International Limited 19 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 5 Host controller specific registers 5.1 Overview of registers Table 5.1 shows the definitions of the FT313H host controller specific registers. Address Register Reset value Description EHCI operational register 00h HCCAPLENGTH 0100 0010h Capability register 04h HCSPARAMS 0000 0001h Structural parameter register 08h HCCPARAMS 0000 0006h Capability parameter register 10h USBCMD 0008 0B00h USB command register 14h USBSTS 0000 1000h USB status register 18h USBINTR 0000 0000h USB interrupt enable register 1Ch FRINDEX 0000 0000h Frame index register 24h PERIODICLISTADDR 0000 0000h Periodic frame list base address register 28h ASYNCLISTADDR 0000 0000h Current asynchronous list address register 30h POSTSC 0000 0000h Port status and control register Configuration register 34h EOFTIME 0000 0041h EOF time and asynchronous schedule sleep timer register 80h CHIPID 0313 0001h Chip ID register 84h HWMODE 0000 0000h HW mode control register 88h EDGEINTC 0000 001Fh Edge interrupt control register 8Ch SWRESET 0000 0000h SW reset register 90h MEMADDR 0000h Memory address register 92h DATAPORT 0000h Data port register 94h DATASESSION 0000h Data session length register 96h CONFIG 1FA0h Configuration register 98h AUX_MEMADDR 0000h Auxiliary memory address register 9Ah AUX_DATAPORT 0000h Auxiliary data port register 9Ch SLEEPTIMER 0400h Sleep timer register 0000h Host controller interrupt status register Interrupt register A0h HCINTSTS Copyright (c) 2013 Future Technology Devices International Limited 20 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Address Register Reset value Description A4h HCINTEN 0000h Host controller interrupt enable register USB testing register 50h TESTMODE 0000 0000h Test mode register 70h TESTPMSET1 0000 0000h Test parameter setting 1 register 74h TESTPMSET2 0000 0000h Test parameter setting 2 register Table 5-1 Overview of host controller specific registers 5.2 EHCI operational registers 5.2.1 HCCAPLENGTH register (address = 00h) This register is used as an offset to add to register base to find the beginning of the operational register space. The high two bytes contain a BCD encoding of the EHCI revision number supported by this host controller. The most signification byte of this register represents a major revision and the least signification byte is the minor revision. Bit Name Type Default value [31:16] HCIVERSION RO 16'h0100 Description Host Controller Interface Version Number This register is a 2-byte register containing a BCD encoding of the EHCI revision number supported by the host controller. [15:8] Reserved RO 8'h0 [7:0] CAPLENGTH RO 8'h10 Capability Register Length This register is used as an offset added to register base to find out the beginning of the Operational Register Space. Table 5-2 Capability register 5.2.2 HCSPARAMS register (address = 04h) This is a set of fields that are structural parameter: number of downstream ports, etc. Bit Name Type Default value Description [31:4] Reserved RO 28'h0 - [3:0] N_PORTS RO 4'h1 Number of Ports This field specifies the number of the physical downstream ports implemented on the host controller. Table 5-3 Structural parameter register Copyright (c) 2013 Future Technology Devices International Limited 21 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 5.2.3 HCCPARAMS register (address = 08h) This is multiple mode control (time base bit functionality) and addressing capability. Bit Name Type Default value Description [31:3] Reserved RO 29'h0 - 2 ASPC RO 1'b1 1 PFLF RO 1'b1 Asynchronous Schedule Park Capability The host controller supports the park feature for high-speed queue heads in the Asynchronous Schedule. This feature can be disabled or enabled and set to a specific level by using the Asynchronous Schedule Park Mode Enable and Asynchronous Schedule Park Mode Count fields in the USBCMD register. Programmable Frame List Flag When this bit is set to 1b, the system software can specify and use a smaller frame list and configure the host controller via Frame List Size field of the USBCMD register. This requirement ensures that the frame list is always physically contiguous. 0 Reserved RO 1'b0 - Table 5-4 Capability parameter register 5.2.4 USBCMD register (address = 10h) The command register indicates the command to be executed by the serial bus host controller. Writing to the register causes a command to be executed. Bit Name Type Default value Description [31:24] Reserved RO 8'h0 - [23:16] INT_THRC R/W 8'h08 Interrupt Threshold Control This field is used by the system software to select the maximum rate at which the host controller will issue the interrupts. The only valid values are described as below: Value Max Interrupt Interval for the high-speed 00h Reserved 01h No limited interval 02h 2 micro-frames 04h 4 micro-frames 08h 8 micro-frames (Default, equals to 1 ms) 10h 16 micro-frames (2 ms) 20h 32 micro-frames (4 ms) 40h 64 micro-frames (8 ms) Copyright (c) 2013 Future Technology Devices International Limited 22 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value Description Note1: This is further gated by MIN_WIDTH bits of EDGEINTC register if edge trigger interrupt is used. Note2: In the full-speed mode, these registers are reserved. [15:12] Reserved RO 4'b0 11 ASYN_PK_EN R/W 1'b1 Asynchronous Schedule Park Mode Enable Software uses this register to enable or disable the Park mode. When this register is set to `1', the Park mode is enabled. 10 Reserved RO 1'b0 [9:8] ASYN_PK_CNT R/W 2'b11 Asynchronous Schedule Park Mode Count This field contains a count for the number of successive transactions that the host controller is allowed to execute from a high-speed queue head on the asynchronous schedule. 7 Reserved RO 1'b0 - 6 INT_OAAD R/W 1'b0 Interrupt on Asynchronous Advance Doorbell 5 ASCH_EN R/W 1'b0 This bit is used as a doorbell by software to ring the host controller to issue an interrupt at the next advance of the asynchronous schedule. Asynchronous Schedule Enable This bit controls whether the host controller skips the processing of asynchronous schedule. 0: Do not process the asynchronous schedule 4 PSCH_EN R/W 1'b0 1: Use the ASYNCLISTADDR register to access the asynchronous schedule Periodic Schedule Enable This bit controls whether the host controller skips the processing of the periodic schedule. 0: Do not process the periodic schedule [3:2] FRL_SIZE R/W 2'b00 1: Use the PERIODICKISTBASE register to access the periodic schedule Frame List Size This field specifies the size of the frame list. 1 HC_RESET R/W 1'b0 00: 1024 elements (4096 bytes; default value) 01: 512 elements (2048 bytes) 10: 256 elements (1024 bytes) 11: Reserved Host Controller Reset This control bit is used by the software to reset the host controller. Copyright (c) 2013 Future Technology Devices International Limited 23 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value 0 RS R/W 1'b0 Description Run/Stop When this bit is set to 1b, the host controller proceeds with the execution of schedule. 0: Stop 1: Run Table 5-5 USB command register 5.2.5 USBSTS register (address = 14h) This register indicates pending interrupts and various states of the Host Controller. The status resulting from a transaction on the serial bus is not indicated in this register. Software sets a bit to 0 in this register by writing a 1 to it. Bit Name Type Default value Description [31:16] Reserved RO 16'h0 - 15 ASCH_STS RO 1'b0 14 PSCH_STS RO 1'b0 Asynchronous Schedule Status This bit reports the actual status of the asynchronous schedule. Periodic Schedule Status This bit reports the actual status of the periodic schedule. 13 12 Reclamation HCHalted RO RO 1'b0 1'b1 Reclamation This is a read-only status bit, and used to detect an empty of the asynchronous schedule. Host Controller Halted This bit is a zero whenever the Run/Stop bit is set to `1.' The host controller sets this bit to `1' after it has stopped the executing as a result of the Run/Stop bit being set to 0b. [11:6] Reserved RO 6'b0 5 INT_OAA R/WC 1'b0 4 3 2 H_SYSERR FRL_ROL PO_CHG_DET R/WC R/WC R/WC 1'b0 1'b0 1'b0 Interrupt on Asynchronous Advance This status bit indicates the assertion of interrupt on Async Advance Doorbell. Host System Error The Host Controller sets this bit to `1' when a serious error occurred during a host system access involving the host controller module. Frame List Rollover The host controller sets this bit to '1' when the Frame List Index rolls over from its maximum value to zero. Port Change Detect The host controller sets this bit to '1' when any port has a change bit transition from `0' to `1.' In addition, this bit is loaded with the OR of all of Copyright (c) 2013 Future Technology Devices International Limited 24 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit 1 0 Name Type USBERR_INT USB_INT R/WC R/WC Default value 1'b0 1'b0 Description the PORTSC change bits. USB Error Interrupt The host controller sets this bit to `1' when the completion of a USB transaction results in an error condition. USB Interrupt The host controller sets this bit to `1' upon the completion of a USB transaction. Table 5-6 USB status register 5.2.6 USBINTR register (address = 18h) This register enables and disables reporting of the corresponding interrupt to the software. When a bit is set and the corresponding interrupt is active, an interrupt is generated to the host. Interrupt sources that are disabled in this register still appear in the USBSTS to allow the software to poll for events. Bit Name Type Default value Description [31:6] Reserved RO 26'h0 - 5 INT_OAA_EN R/W 1'b0 4 3 2 1 0 H_SYSERR_EN FRL_ROL_EN PO_CHG_DET_EN USBERR_INT_EN USB_INT_EN R/W R/W R/W R/W R/W 1'b0 1'b0 1'b0 1'b0 1'b0 Interrupt on Async Advance Enable When this bit is set to `1,' and the Interrupt on Async Advance bit in the USBSTS register is set to `1' also, the host controller will issue an interrupt at the next interrupt threshold. Host System Error Enable When this bit is set to `1,' and the Host System Error Status bit in the USBSTS register is set to `1' also, the host controller will issue an interrupt. Frame List Rollover Enable When this bit is set to `1,' and the Frame List Rollover bit in the USBSTS register is set to `1' also, the host controller will issue an interrupt. Port Change Interrupt Enable When this bit is set to `1,' and the Port Change Detect bit in the USBSTS register is set to `1' also, the host controller will issue an interrupt. USB Error Interrupt Enable When this bit is set to `1,' and the USBERRINT bit in the USBSTS register is set to `1' also, the host controller will issue an interrupt at the next interrupt threshold. USB Interrupt Enable When this bit is set to `1,' and the USBINT bit in the USBSTS register is a set to `1' also, the host controller will issue an interrupt at the next interrupt threshold. If set interrupt threshold to 01h, means that when interrupt event occurred, the INT signal will be toggled at once. Table 5-7 USB interrupt enable register Copyright (c) 2013 Future Technology Devices International Limited 25 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 5.2.7 FRINDEX register (address = 1Ch) This register is used by the host controller to index into the periodic frame. The register updates very 125 microseconds (one each micro-frame). Bit Name Type Default value Description [31:14] Reserved RO 28'h0 - [13:0] FRINDEX R/W 14'b0 Frame Index This register is used by the host controller to index the frame into the Periodic Frame List. It updates every 125 microseconds. This register cannot be written unless the host controller is at the halted state. Bits[N:3] are used for Frame List current index. This means that each location of the frame list is accessed 8 times before moving to the next index. USBCMD[Frame List Size] Number Elements N 00b (1024) 12 01b (512) 11 10b (256) 10 11b Reserved Table 5-8 Frame index register 5.2.8 PERIODICLISTADDR register (address = 24h) This 32-bit register contains the beginning address of the periodic frame list in the system memory. Bit Name Type Default value [31:12] PERI_BASEADR R/W 20'h0 Description Periodic Frame List Base Address This 32-bit register contains the beginning address of the Periodic Frame List in the system memory. These bits correspond to the memory address signals[31:12]. [11:0] Reserved RO 12'b0 - Table 5-9 Periodic frame list base address register 5.2.9 ASYNCLISTADDR register (address = 28h) This 32-bit register contains the address of the next asynchronous queue head to be executed. Bit Name Type Default value [31:5] ASYNC_LADR R/W 27'h0 Description Current Asynchronous List Address This 32-bit register contains the address of the next asynchronous queue head to be executed. These bits correspond to the memory address signals [31:5]. [4:0] Reserved RO 5'b0 - Table 5-10 Current asynchronous list address register Copyright (c) 2013 Future Technology Devices International Limited 26 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 5.2.10 POSTSC register (address = 30h) The port status and control register is in the power well. It is only reset by hardware when the power is initially applied or in response to a host controller reset. The initial conditions of a port are: No peripheral connected Port disable The software must not attempt to change the state of the port until the power is stable on the port. The host is required to have power stable to the port within 20 milliseconds of the zero to one transition. When a peripheral device is attached, the port state transitions to the connected state and system software will process this as with any status change notification. Bit Name Type Default value Description [31:17] Reserved RO 15'h0 - 16 TST_FORCEEN R/W 1'b0 Test Force Enable When this signal is written as `1,' the downstream facing port will be enabled in the high-speed mode. Then the Run/Stop bit must be transitioned to one in order to enable the transmission of the SOFs out of the port under test. This enables testing of the disconnect detection. [15:12] Reserved RO 4'b0 [11:10] LINE_STS RO 2'b00 Line Status These bits reflect the current logical levels of the D+ and D- signal lines. Bits[11:10] USB state 00b SE0 10b J-state 01b K-state 11b Undefined 9 Reserved RO 1'b0 8 PO_RESET R/W 1'b0 Port Reset 1 = Port is in the reset state. 0 = Port is not in the reset state. 7 PO_SUSP R/W 1'b0 When the software writes a `1' to this bit, the bus reset sequence as defined in the USB specification will start. Software writes a `0' to this bit to terminate the bus reset sequence. Software must keep this bit at a `1' long enough to ensure the reset sequence. Note: Reset signal which shall be followed by the USB2.0 chapter 7.1.7.5 Reset Signal requirement. If detected HS device, the software shall wait more than 200us for port reset clearing. Before setting this bit, RUN/STOP bit should be set to `0.' Port Suspend 1 = Port is in the suspend state 0 = Port is not in the suspend state. Copyright (c) 2013 Future Technology Devices International Limited 27 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value Description The Port Enable Bit and Suspend Bit of this register define the port state as follows: Bits[Port Enable, Suspend] 0X 10 11 6 F_PO_RESM R/W 1'b0 Port State Disable Enable Suspend At the suspend state, the downstream propagation of the data is blocked on this port, except for the port reset. While at the suspend state, the port is sensitive to resume detection. Writing a `0' to this bit is ignored by the host controller. The host controller will unconditionally set this bit to a `0' when: The software sets Force Port Resume bit to a `0' (From a one) The software sets Port Reset bit to a `1' (From a `0') Note: Before setting this bit, RUN/STOP bit should be set to 0. Force Port Resume 1 = Resume detected/driven on port. 0 = No resume detected/driven on port. Software sets this bit to a `1' to resume signal. The host controller sets this bit to a `1' if a J-to-K transition is detected while the port is in the suspend state. When this bit transits to a `1' for the detection of a J-to-K transition, the Port Change Detect bit in USBSTS register is also set to a `1'. [5:4] Reserved RO 2'b00 3 PO_EN_CHG R/WC 1'b0 2 PO_EN R/W 1'b0 Port Enable/Disable Change 1 = Port enable/disable status has changed. 0 = No change Port Enable/Disable 1 = Enable 0 = Disable 1 CONN_CHG R/WC 1'b0 Ports can only be enabled by the host controller as a part of the reset and enable. Software cannot enable a port by writing a one to this field. Connect Status Change 1 = Change current connect status 0 = No change. 0 CONN_STS RO 1'b0 This bit indicates a change has occurred in the current connect status of the port. Current Connect Status 1 = Device is presented on the port. 0 = No device is presented. Copyright (c) 2013 Future Technology Devices International Limited 28 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value Description This value reflects the current state of the port, and may not correspond directly to cause the Connect Status Change bit to be set. Table 5-11 Port status and control register 5.3 Configuration registers 5.3.1 EOTTIME register (address = 34h) Bit Name Type Default value Description [31:7] Reserved RO 25'h0 - 6 U_SUSP_N R/W 1'b1 Transceiver Suspend Mode Active low [5:4] EOF2_TIME R/W 2'b00 Places the transceiver in the suspend mode that draws the minimal power from the power supplies. This is part of the power management. EOF 2 Timing Points Control EOF2 timing point before next SOF. High-Speed EOF2 Time 00b 2 clocks (30 MHz) = 66 ns 01b 4 clocks (30 MHz) = 133 ns 10b 8 clocks (30 MHz) = 266 ns 11b 16 clocks (30 MHz) = 533 ns Full-Speed EOF2 Time 00b 20 clocks (30 MHz)=8 clocks (12 MHz) = 666 ns 01b 40 clocks (30 MHz)=16 clocks (12 MHz) = 1.333 s 10b 80 clocks (30 MHz) = 32 clocks (12 MHz) = 2.66 s 11b 160 clocks (30 MHz) = 64 clocks (12 MHz) = 5.3 s [3:2] EOF1_TIME R/W 2'b00 Low-Speed EOF2 Time 00b 40 clocks (30 MHz) = 16 clocks (12 MHz) = 1.33 s 01b 80 clocks (30 MHz) = 32 clocks (12 MHz) = 2.66 s 10b 160 clocks (30 MHz) = 64 clocks (12 MHz) = 5.33 s 11b 320 clocks (30 MHz) = 128 clocks (12 MHz) = 10.66 s EOF 1 Timing Points Controls the EOF1 timing point before next SOF. This value should be adjusted according to the maximum packet size. High-Speed EOF1 Time 00b 540 clocks (30 MHz) 01b 360 clocks (30 MHz) 10b 180 clocks (30 MHz) 11b 720 clocks (30 MHz) = = = = 18 s 12 s 6 s 24 s Full-Speed EOF1 Time 00b 1600 clocks (30 MHz) = 640 clocks (12 MHz) = 53.3 s 01b 1400 clocks (30 MHz) = 560 clocks (12 MHz) = 46.6 s 10b 1200 clocks (30 MHz) = 480 clocks (12 MHz) = 40 s 11b 21000 clocks (30 MHz) = 8400 clocks (12 MHz)=700 s Low-Speed EOF1 Time Copyright (c) 2013 Future Technology Devices International Limited 29 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name [1:0] Type ASYN_SCH_SLPT R/W Default value 2'b01 Description 00b 3750 clocks (30 MHz) = 1500 clocks (12 MHz) = 125 s 01b 3500 clocks (30 MHz) = 1400 clocks (12 MHz) = 116 s 10b 3250 clocks (30 MHz) = 1300 clocks (12 MHz) = 108 s 11b 4000 clocks (30 MHz) = 1600 clocks (12 MHz) = 133 s Asynchronous Schedule Sleep Timer Controls the Asynchronous Schedule sleep timer. 00b 5 s 01b 10 s 10b 15 s 11b 20 s Table 5-12 EOF time and asynchronous schedule sleep timer register 5.3.2 CHIPID register (address = 80h) This chip ID register contains the chip identification and hardware version numbers. Bit Name Type Default value Description [31:0] CHIP_ID RO 32'h03130001 Chip ID Table 5-13 Chip ID register 5.3.3 HWMODE register (address = 84h) Bit Name Type Default value Description [15: 8] Reserved RO 8'b0 Host Speed Type [7: 6] HOST_SPD_TYP RO 2'b00 Indicate the speed type of attached device 2'b10: HS 2'b00: FS 2'b01: LS 2'b11: 5 DACK_POL R/W 1'b0 Reserved DACK Polarity 0: active LOW 1: active HIGH 4 DREQ_POL R/W 1'b0 DREQ Polarity 0: active LOW 1: active HIGH 3 INTF_LOCK R/W 1'b0 Interface Lock 0: Unlock the bus interface 1: Lock the bus interface Copyright (c) 2013 Future Technology Devices International Limited 30 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name 2 Type INTR_POL R/W Default value 1'b0 Description Interrupt Polarity 0: active LOW 1: active HIGH 1 INTR_LEVEL R/W 1'b0 Interrupt Level 0: level trigger 1: Edge trigged. The pulse width depends on the NO_OF_CLK bits in the EDGEINTC register. 0 GLOBAL_INTR_EN R/W 1'b0 Globe interrupt enable 0: INT assertion disabled. INT will never be asserted, regardless of other settings or INT events. 1: INT assertion enabled. INT will be asserted according to the HCINTEN register, and event setting and occurrence. Table 5-14 HW mode register 5.3.4 EDGEINTC register (address = 88h) Bit Name Type Default value Description [31:24] MIN_WIDTH R/W 8'b0 Minimum Interval Indicates the minimum interval between two edge interrupts in uSOFs (1 uSOF = 125us). This is not valid for level interrupts. A count of zero means that an interrupt occurs as when an event occurs. [23:16] Reserved RO 8'b0 - [15: 0] NO_OF_CLK R/W 16'b1F Number of clocks Number of clocks that an Edge Interrupt must be kept asserted on the interface. The default INT pulse width is approximately 500ns. (N+1)*60MHz system clock. Table 5-15 Edge interrupt control register 5.3.5 SWRESET register (address = 8Ch) Bit Name Type Default value Description [15: 8] Reserved RO 8'b0 - [7: 6] INTF_MODE RO 2'b00 Interface mode 00b: Reserved 01b: Generic Multiplex mode Copyright (c) 2013 Future Technology Devices International Limited 31 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value Description 10b: NOR mode 11b: SRAM mode Write to these bits have no effect. 5 Reserved RO 1'b0 - 4 DATA_BUS_WIDTH R/W 1'b0 Data bus width 0: Defines a 16bit data bus width. 1: Sets a 8-bit data bus width. 3 Reserved RO 1'b0 - 2 RESET_ATX R/W 1'b0 Reset USB transceiver 0: No reset 1: Enable reset When the software writes a `1' to this bit, the USB PHY reset sequence will start. Automatic clear zero. 1 RESET_HC R/W 1'b0 Reset host controller 0: No reset 1: Enable reset When the software writes a `1' to this bit, the Host Controller reset sequence will start. Automatic clear zero. 0 RESET_ALL R/W 1'b0 Reset all system 0: No reset 1: Enable reset When the software writes a `1' to this bit, the whole system reset sequence will start. Automatic clear zero. Table 5-16 SW reset register Copyright (c) 2013 Future Technology Devices International Limited 32 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 5.3.6 MEMADDR register (address = 90h) Bit Name Type Default value Description [15: 0] START_ADDR_MEM R/W 16'b0 Start address for memory read / write Internal 24K RAM memory address from 0x0000 to 0x5FFF. Used by PIO and DMA. Table 5-17 Memory address register 5.3.7 DATAPORT register (address = 92h) Bit Name Type Default value Description [15: 0] DATA_PORT R/W 16'b0 Data port Read / write data from / to memory must go through this port. Used by PIO and DMA. Table 5-18 Data port register 5.3.8 DATASESSION register (address = 94h) Bit Name Type Default value Description 15 MEM_RW R/W 1'b0 Memory read or write 0: Write data into memory 1: Read data from memory Used by PIO and DMA [14: 0] DATA_LEN R/W 15'b0 Data length for memory read or write Preset the data length for memory read/write. The max data length is 24K. Used by PIO and DMA Table 5-19 Data session length register 5.3.9 CONFIG register (address = 96h) Bit Name Type Default value Description 15 BCD_MODE_CTRL R/W 1'b0 BCD Mode override control 0: External CPE0 and CPE1 pins configuration take effect. 1: BCD_MODE [1:0] register bits take effect [14:13] BCD_MODE[1:0] R/W 2'b00 BCD Mode setting 00: SDP Standard downstream port, VBUS current limit 500mA. 01: DCP Copyright (c) 2013 Future Technology Devices International Limited 33 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value Description Dedicated charging port. USB host not functional on this port, VBUS current limit 1.5A. 10: Reserved 11: CDP Charging downstream port, VBUS current limit 1.5A. 12 Reserved - 1'b1 - 11 OSC_EN R/W 1'b1 Oscillator enable 0: Oscillator is not active 1: Oscillator is active 10 PLL_EN R/W 1'b1 Internal PLL enable 0: PLL is disable 1: PLL is enable 9 Reserved - 1'b1 - 8 HC_CLK_EN R/W 1'b1 Host controller clock enable 0: clocks are disabled 1: clocks are enabled 7 VBUS_OFF R/W 1'b1 VBUS power switch This bit controls the voltage on the VBUS on/off (default is "1") by switch external power switcher. 0: VBUS on, PSW_N signal is active LOW. 1: VBUS off, PSW_N signal is not active. 6 PORT_OC_EN R/W 1'b0 Port overcurrent enable 0: disable over current detection 1: enable over current detection 5 BCD_EN R/W 1'b1 BCD module enable 0: disable BCD module 1: enable BCD module 4 Reserved RO 1'b0 - [3: 2] BURST_LEN R/W 2'b00 DMA burst length 00: Single DMA burst 01: 4-cycle DMA burst 10: 8-cycle DMA burst 11: 16-cycle DMA burst 1 ENABLE_DMA R/W 1'b0 Enable DMA 0: terminate DMA Copyright (c) 2013 Future Technology Devices International Limited 34 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value Description 1: enable DMA 0 DMA_ABORT R/W 1'b0 DMA abort 0: DMA continuous running 1: DMA abort implement Table 5-20 DMA configuration register 5.3.10 AUX_MEMADDR register (address = 98h) Bit Name Type Default value Description [15: 0] AUX_START_ADDR_MEM R/W 16'b0 Auxiliary start address of memory read / write When memory is occurred by DMA, use auxiliary start address for PIO memory access. Table 5-21 AUX Memory address register 5.3.11 AUX_DATAPORT register (address = 9Ah) Bit Name Type Default value Description [15: 0] AUX_DATA_PORT R/W 16'b0 Auxiliary data port When memory is occurred by DMA, use auxiliary data port for PIO memory access. Table 5-22 AUX data port register 5.3.12 SLEEPTIMER register (address = 9Ch) Bit Name Type Default value Description [15: 0] SLEEP_TIMER R/W 16'b0400 Sleep timer When host controller detected USB bus has no activity, the sleep timer will be started. When timer reduce to zero, the BUSINACTIVE interrupt will be generated, if the respective enable bit in the HCINTEN register is set. Default sleep timer is approximately 10ms. Table 5-23 Sleep timer register 5.4 Interrupt registers 5.4.1 HCINTSTS register (address = A0h) Bit Name Type Default value Description [15: 8] Reserved RO 10'b0 - 7 WAKEUPINT R/WC 1'b0 Wake up interrupt on device connect or Copyright (c) 2013 Future Technology Devices International Limited 35 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value Description disconnect Indicates that wake up event is triggered. The INT line will be asserted if the respective enable bit in the HCINTEN register is set. 0: No wake up event has occurred on the port when device connects or disconnects. 1: Wake up event has occurred on the port when device connects or disconnects. 6 OCINT R/WC 1'b0 Overcurrent interrupt Indicates that overcurrent event is triggered. The INT line will be asserted if the respective enable bit in the HCINTEN register is set. 0: No overcurrent event has occurred. 1: Overcurrent event has occurred. 5 CLKREADY R/WC 1'b0 Clock ready Indicates that internal clock signals are running stable. The INT line will be asserted if the respective enable bit in the HCINTEN register is set. 0: No clock ready event has occurred. 1: Clock ready event has occurred. 4 BUSINACTIVE R/WC 1'b0 USB Bus inactive interrupt Indicates that USB bus is inactive. The INT line will be asserted if the respective enable bit in the HCINTEN register is set. 0: USB bus is active. 1: USB bus is inactive. 3 REMOTEWKINT R/WC 1'b0 Remote Wake up interrupt Indicates INT was generated when the host controller remote wakeup. The INT line will be asserted if the respective enable bit in the HCINTEN register is set. 0: No remote wake up. 1: Remote wake up event occurred. 2 DMAEOTINT R/WC 1'b0 DMA EOT interrupt Indicates the DMA transfer completion. The INT line will be asserted if the respective enable bit in the HCINTEN register is set. 0: No DMA transfer is completed. 1: DMA transfer is completed. 1 SOFINT R/WC 1'b0 SOF interrupt The INT line will be asserted if the respective bit enable is set. Copyright (c) 2013 Future Technology Devices International Limited 36 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value Description 0: No SOF event has occurred. 1: SOF event has occurred. 0 MSOFINT R/WC 1'b0 uSOF interrupt The INT line will be asserted if the respective enable bit in the HCINTEN register is set. 0: No uSOF event has occurred. 1: uSOF event has occurred. Table 5-24 HC interrupt status register 5.4.2 HCINTEN register (address = A4h) Bit Name Type Default value Description [15: 8] Reserved RO 10'b0 - 7 WAKEUPINT_EN R/W 1'b0 Wake up interrupt enable on device connect or disconnect Control the INT generation when the device connects or disconnects as wake up events. 0: No INT will be generated when device connects or disconnects as wake up events. 1: INT will be asserted when device connects or disconnects as wake up events. 6 OCINT_EN R/W 1'b0 Overcurrent interrupt enable Control the INT generation when the overcurrent event triggers 0: No INT will be generated after overcurrent event is triggered. 1: INT will be asserted after overcurrent event is triggered. 5 CLKREADY_EN R/W 1'b0 Clock ready enable Control the INT generation when the internal clock signals are running stable 0: No INT will be generated after clock runs stable. 1: INT will be asserted after clock runs stable. 4 R/W 1'b0 BUSINACTIVE_EN USB Bus inactive enable Control the INT generation when the USB bus is inactive 0: No INT will be generated when the USB bus is inactive. 1: INT will be asserted when the USB bus is inactive. 3 R/W 1'b0 Remote wake up interrupt enable Copyright (c) 2013 Future Technology Devices International Limited 37 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value REMOTEWKINT _EN Description Control the INT generation when the host controller supports remote wake up 0: No INT will be generated when remote wake up occurred. 1: INT will be asserted when remote wake up occurred. 2 DMAEOTINT_EN R/W 1'b0 DMA EOT interrupt enable Control assertion of INT on the DMA transfer completion 0: No INT will be generated when a DMA transfer is completed. 1: INT will be asserted when a DMA transfer is completed. 1 SOFINT_EN R/W 1'b0 SOF interrupt enable Control the INT generation at every SOF occurrence 0: No INT will be generated on SOF. 1: INT will be asserted at every SOF. 0 MSOFINT_EN R/W 1'b0 uSOF interrupt enable Control the INT generation at every uSOF occurrence 0: No INT will be generated on uSOF. 1: INT will be asserted at every uSOF. Table 5-25 HC interrupt status register 5.5 USB testing registers 5.5.1 TESTMODE register (address = 50h) This register allows the firmware to set the DP and DM pins to predetermined states for testing purposes. Once force one test mode on host, must use test device on port connection. Note: Only one bit can be set to logic 1 at a time. After writing to this register, need add 150ns delay before writing this register again. The registers 70h and 74h both have same operation. Bit Name Type Default value Description [31:5] Reserved RO 27'b0 - 4 TST_LOOPBK R/W 1'b0 Turn on the loop back mode. When this bit is set to `1', the host controller will enter the loop back mode. 3 Reserved RO 1'b0 - 2 TST_PKT R/W 1'b0 TEST_PACKET After entering the high speed and writing 1'b1 to this bit, users should command the DMA by the test parameter setting registers (0x70h and 0x74h) to move the packet data defined Copyright (c) 2013 Future Technology Devices International Limited 38 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Bit Name Type Default value Description in the USB2.0 specification from the memory to FIFO. Then, send the packet to the transceiver. 1 0 TST_KSTA TST_JSTA R/W R/W 1'b0 1'b0 TEST_K Upon writing a `1,' the D+/D- are set to the high-speed K state. TEST_J Upon writing a `1,' the D+/D- are set to the high-speed J state. Table 5-26 Test mode register 5.5.2 TESTPMSET1 register (address = 70h) This parameter setting register is only used by test packet mode. Bit Name Type Default value Description [31:25] Reserved RO 7'b0 - [24: 8] DMA_LEN R/W 11'h000 DMA Length The total bytes of the DMA controller will move. The maximum length is 1024 - 1 Bytes. [7: 2] Reserved RO 6'b0 1 DMA_TYPE R/W 1'b0 0 DMA_START R/W 1'b0 DMA Type The transfer type of data moving 0: FIFO to Memory 1: Memory to FIFO DMA Start This bit informs the DMA controller to initiate the DMA transfer. Table 5-27 Test mode parameter setting 1 register 5.5.3 TESTPMSET2 register (address = 74h) This parameter setting register is only used by test packet mode. Bit Name Type Default value Description [31:0] DMA_MADDR R/W 32'b0 DMA Memory Address The starting address of memory to request the DMA transfer. Table 5-28 Test parameter setting 2 register Copyright (c) 2013 Future Technology Devices International Limited 39 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 6 Devices Characteristics and Ratings 6.1 Absolute Maximum Ratings The absolute maximum ratings for the FT313H device are as follows. These are in accordance with the Absolute Maximum Rating System (IEC 60134). Exceeding these may cause permanent damage to the device. Parameter Value Unit Storage Temperature -65C to 150C Degrees C Floor Life (Out of Bag) At Factory Ambient 168 Hours (30C / 60% Relative Humidity) (IPC/JEDEC J-STD-033A MSL Level 3 Compliant)* Hours Ambient Temperature (Power Applied) -40C to 85C Degrees C VCC Supply Voltage 0 to +5 V VCC(I/O) Supply Voltage 0 to +5 V DC Input Voltage - USBDP and USBDM -0.5 to +5 V DC Input Voltage - OC_N (5V tolerant) -0.5 to +5.5 V DC Input Voltage - All Other Inputs -0.5 to +5 V Table 6-1 Absolute Maximum Ratings * If devices are stored out of the packaging beyond this time limit the devices should be baked before use. The devices should be ramped up to a temperature of +125C and baked for up to 17 hours. Copyright (c) 2013 Future Technology Devices International Limited 40 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 6.2 DC Characteristics DC Characteristics (Ambient Temperature = -40C to +85C) Parameter VCC(I/O) Description Minimum Typical Maximum Units 1.62 1.8 1.98 V 2.25 2.5 2.75 V 2.97 3.3 3.63 V VCCIO operating supply voltage Conditions Normal Operation VCC(3V3) VCC operating supply voltage 2.97 3.3 3.63 V Normal Operation Icc1 Idle current - 20 - mA Idle Normal Operation Icc2 Operating current - 35 - mA High speed data transfer Icc3 USB suspend - 200 - uA USB suspend VCC(1V2) Core supply voltage 1.08 1.2 1.32 V Normal Operation VOUT(1V2) Internal 1.2V regulator voltage - 1.2 - V Normal Operation Table 6-2 Operating Voltage and Current Parameter Description Minimum Typical Maximum Units Conditions Voh Output Voltage High 2.4 3.3 - V Ioh=8mA Vol Output Voltage Low - - 0.4 V Iol=8mA Vih Input High Voltage 2.0 - - V - Vil Input Low Voltage - - 0.8 V - Vth Schmitt Hysteresis Voltage 0.3 0.45 0.5 V - Ipu Input pull-up current 25 42 60 uA Vin = 0V 120K 78K 60K ohm Vin = 0V 25 42 60 uA Vin = VCC(I/O) 120K 78K 60K ohm Vin = VCC(I/O) Rpu Ipd Rpd Input pull-up resistance equivalent Input pull-down current Input pull-down resistance equivalent Iin Input leakage current -10 1 10 uA Vin = VCC(I/O) or 0 Ioz Tri-state output leakage current -10 1 10 uA - Table 6-3 Digital I/O Pin Characteristics (VCC(I/O) = +3.3V, Standard Drive Level) Copyright (c) 2013 Future Technology Devices International Limited 41 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Parameter Description Minimum Typical Maximum Units Conditions Voh Output Voltage High VCC(I/O) -0.4 2.5 - V Ioh=6mA Vol Output Voltage Low - - 0.4 V Iol=6mA Vih Input High Voltage 0.7VCC(I/O) - - V - Vil Input Low Voltage - - 0.3VCC(I/O) V - Vth Schmitt Hysteresis Voltage 0.28 0.39 0.5 V - Ipu Input pull-up current 14 23 35 uA Vin = 0 160K 108K 78K ohm Vin = 0 14 23 35 uA Vin = VCC(I/O) 160K 108K 78K ohm Vin = VCC(I/O) Rpu Ipd Rpd Input pull-up resistance equivalent Input pull-down current Input pull-down resistance equivalent Iin Input leakage current -10 1 10 uA Vin = VCC(I/O) or 0 Ioz Tri-state output leakage current -10 1 10 uA - Table 6-4 Digital I/O Pin Characteristics (VCC(I/O) = +2.5V, Standard Drive Level) Parameter Description Minimum Typical Maximum Units Conditions Voh Output Voltage High VCC(I/O) -0.4 1.8 - V Ioh=3.6mA Vol Output Voltage Low - - 0.4 V Iol=3.6mA Vih Input High Voltage 0.7VCC(I/O) - - V - Vil Input Low Voltage - - 0.3VCC(I/O) V - Vth Schmitt Hysteresis Voltage 0.25 0.35 0.5 V - Ipu Input pull-up current 6 10 15 uA Vin = 0 270K 180K 130K ohm Vin = 0 6 10 15 uA Vin = VCC(I/O) 270K 180K 130K ohm Vin = VCC(I/O) Rpu Ipd Rpd Input pull-up resistance equivalent Input pull-down current Input pull-down resistance equivalent Iin Input leakage current -10 1 10 uA Vin = VCC(I/O) or 0 Ioz Tri-state output leakage current -10 1 10 uA - Table 6-5 Digital I/O Pin Characteristics (VCC(I/O) = +1.8V, Standard Drive Level) Copyright (c) 2013 Future Technology Devices International Limited 42 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Parameter Description Minimum Typical Maximum Units Conditions Input level for high speed Vhscm Vhssq Vhsdsc Voltage of high speed data signal in the common mode -50 - 500 mV - - - 100 mV Squelch is detected 150 - - mV Squelch is not detected 625 - - mV Disconnection is detected - - 525 mV Disconnection is not detected High speed squelch detection threshold High speed disconnection detection threshold Output level for high speed Vhsoi High speed idle output voltage (Differential) -10 - 10 mV - Vhsol High speed low level output voltage (Differential) -10 - 10 mV - Vhsoh High speed high level output voltage (Differential) -360 - 400 mV - Vchirpj Chirp-J output voltage (Differential) 700 - 1100 mV - Vchirpk Chirp-K output voltage (Differential) -900 - -500 mV - Input level for full speed and low speed Vdi Differential input voltage sensitivity 0.2 - - V |Vdp-Vdm| Vcm Differential common mode voltage 0.8 - 2.5 V - Vse Single ended receiver threshold 0.8 - 2.0 V - Output level for full speed and low speed Vol Low level output voltage 0 - 0.3 V - Voh High level output voltage 2.8 - 3.6 V - Resistance Copyright (c) 2013 Future Technology Devices International Limited 43 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Parameter Description Minimum Typical Maximum Units Conditions Rdrv Driver output impedance 40.5 45 49.5 ohm Equivalent resistance used as an internal chip Table 6-6 USB I/O Pin (USBDP, USBDM) Characteristics Parameter Description Minimum Typical Maximum Units Conditions Voh Output Voltage High 2.4 - - V Ioh=2mA~16mA Vol Output Voltage Low - - 0.4 V Iol=2mA~16mA Vih Input High Voltage 2.0 - - V LVTTL Vil Input Low Voltage - - 0.8 V LVTTL Vopu* Output pull up voltage for 5V tolerant I/Os VCC(3V3)0.9 - - V Ipu = 1uA - 1 - uA Vin = VCC(3V3) or 0 - 1 - uA Vin = 5V or 0 - 2.3 - pF VCC(3V3) with 5V tolerant I/O Iin Input leakage current Cin Input capacitor Table 6-7 5V Tolerant Pin (PSW_N, OC_N, VBUS) Characteristics Note*: This parameter is to indicate that the pull up resistor for the 5V tolerant I/Os cannot reach VCC(3V3) DC level even without DC loading current. 6.3 AC Characteristics AC Characteristics (Ambient Temperature = -40C to +85C) System clock dynamic characteristics: Parameter Value Unit Minimum Typical Maximum - 12.00 - - 19.20 - - 24.00 - external clock jitter - - 500 ps clock duty cycle 45 50 55 % Crystal oscillator Clock frequency MHz External clock input Copyright (c) 2013 Future Technology Devices International Limited 44 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Input voltage on pin X1/CLKIN - 3.3 - V Recommended accuracy of the clock frequency is 50ppm for the crystal. Table 6-8 System clock characteristics Analog I/O pins (DP/DM) dynamic characteristics: Parameter Description Minimum Typical Maximum Units Conditions Driver characteristic for high speed Thsr High speed differential rise time 500 - - ps - Thsf High speed differential fall time 500 - - ps - Driver characteristic for full speed Tfr Rise time of DP/DM 4 - 20 ns Tff Fall time of DP/DM 4 - 20 ns Tfrma Differential rise/fall time matching 90 - 110 % Cl=50pF 10%~90% of |Voh-Vol| Cl=50pF 10%~90% of |Voh-Vol| The first transition exclude from the idle mode Driver characteristic for low speed Tlr Rise time of DP/DM 75 - 300 ns Tlf Fall time of DP/DM 75 - 300 ns Tlrma Differential rise/fall time matching 80 - 125 % Cl=200pF~600pF 10%~90% of |Voh-Vol| Cl=200pF~600pF 10%~90% of |Voh-Vol| The first transition exclude from the idle mode Table 6-9 Analog I/O pins characteristics Copyright (c) 2013 Future Technology Devices International Limited 45 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 6.4 Timing 6.4.1 PIO timing SRAM PIO timing characteristics (Ambient Temperature = -40C to +85C) VCC(I/O)=1.8V Parameter VCC(I/O)=2.5V VCC(I/O)=3.3V Description Unit Min Max Min Max Min Max Tcs CS_N setup time before WR_N / RD_N low 0 - 0 - 0 - Tch CS_N hold time after WR_N / RD_N high 0 - 0 - 0 - Tcp CS_N pulse width for read 40 - 40 - 40 - CS_N pulse width for write 40 - 40 - 40 - Tasrw address setup time before WR_N / RD_N low 0 - 0 - 0 - Tahrw Address Hold Time after WR_N/RD_N LOW 0 - 0 - 0 - Tap Address Latch Pulse Width Twc Write Cycle Time 80 - 79 - 78.5 - ns Twp WR_N Pulse Width 40 - 40 - 40 - ns Tdh RD_N High to Output Hi-Z 4 9 4 7 4 6 WR_N High to Input Hi-Z 0 - 0 - 0 - Tdadvh DATA Setup Time before DATA Latch 6 - 6 - 6 - Toe RD_N Low to DATA Output Enable 8 - 7 - 6 - Trp RD_N Pulse Width 40 - 40 - 40 - ns Trc Read Cycle Time 80 - 79.5 - 79 - ns ns ns ns ns ns ns ns ns ns ns ns Table 6-10 SRAM PIO timing Copyright (c) 2013 Future Technology Devices International Limited 46 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Toe Tdadvh AD[15:0] Tdh Data Tasrw Tahrw A[7:0] Address ALE/ADV_N CLE Trp RD_N/RE_N/ OE_N Tch Tcs CS_N/CE_N Tcp WR_N/WE_N Trc Figure 6-1 Read in SRAM mode Tdadvh AD[15:0] Tdh Data Tasrw Tahrw A[7:0] Address ALE/ADV_N CLE Twp WR_N/WE_N Tch Tcs CS_N/CE_N RD_N/RE_N/ OE_N Tcp Twc Figure 6-2 Write in SRAM mode Copyright (c) 2013 Future Technology Devices International Limited 47 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 NOR PIO timing characteristics (Ambient Temperature = -40C to +85C) VCC(I/O)=1.8V Parameter VCC(I/O)=2.5V VCC(I/O)=3.3V Description Unit Min Max Min Max Min Max Tch CS_N hold time after WR_N / RD_N high 0 - 0 - 0 - ns Tcsadval CS_N setup time before Address Latch 6.5 - 6.5 - 6 - Tah Address Hold Time after Address Latch 0 - 0 - 0 - Tas Address Setup Time before Address Latch 6 - 6 - 5 - Tap Address Latch Pulse Width 10 - 10 - 10 - Twc Write Cycle Time 80 - 78.5 - 78.5 - ns Twp WR_N Pulse Width 40 - 40 - 40 - ns Tdh RD_N High to Output Hi-Z 4 8 4 7 4 7 WR_N High to Input Hi-Z 0 - 0 - 0 - Tdadvh DATA Setup Time before DATA Latch 6 - 5 - 5 - Toe RD_N Low to DATA Output Enable 8 - 6 - 5 - Tbds Ready to WR_N/RD_N Low 5 - 5 - 5 - Trp RD_N Pulse Width 40 - 40 - 40 - ns Trc Read Cycle Time 80 - 79 - 79 - ns ns ns ns ns ns ns ns ns ns Table 6-11 NOR PIO timing Copyright (c) 2013 Future Technology Devices International Limited 48 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Tas AD[15:0] Tah Toe Tdh Address Data Tbds Tap ALE/ADV_N CLE RD_N/RE_N/ OE_N Trp Tcsadval Tch CS_N/CE_N Trc WR_N/WE_N Figure 6-3 Read in NOR mode Tas AD[15:0] Tah Tdadvh Address Tdh Data Tbds Tap ALE/ADV_N CLE RD_N/DS_N/ RE_N/OE_N Tcsadval Tch CS_N/CE_N Twc WR_N/RW_N/ WE_N Twp Figure 6-4 Write in NOR mode Copyright (c) 2013 Future Technology Devices International Limited 49 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 General Multiplex PIO timing characteristics (Ambient Temperature = -40C to +85C) VCC(I/O)=1.8V Parameter VCC(I/O)=2.5V VCC(I/O)=3.3V Description Unit Min Max Min Max Min Max Tch CS_N hold time after WR_N / RD_N high 0 - 0 - 0 - ns Tcsadval CS_N setup time before Address Latch 7.5 - 6.5 - 6.5 - Tah Address Hold Time after Address Latch 0 - 0 - 0 - Tas Address Setup Time before Address Latch 7 - 6 - 6 - Tap Address Latch Pulse Width 10 - 10 - 10 - Twc Write Cycle Time 80 - 78.5 - 78.5 - ns Twp WR_N Pulse Width 40 - 40 - 40 - ns Tdh RD_N High to Output Hi-Z 4 9 4 6.5 3.5 6 WR_N High to Input Hi-Z 0 - 0 - 0 - Tdadvh DATA Setup Time before DATA Latch 6.5 - 5 - 5 - Toe RD_N Low to DATA Output Enable 8 - 6 - 5 - Tbds Ready to WR_N/RD_N Low 5 - 5 - 5 - Trp RD_N Pulse Width 40 - 40 - 40 - ns Trc Read Cycle Time 80 - 79 - 79 - ns ns ns ns ns ns ns ns ns ns Table 6-12 General Multiplex PIO timing Copyright (c) 2013 Future Technology Devices International Limited 50 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Tas AD[15:0] Tah Toe Tdh Address Data Tbds Tap ALE/ADV_N CLE RD_N/RE_N/ OE_N Trp Tcsadval Tch CS_N/CE_N Trc WR_N/WE_N Figure 6-5 Read in General Multiplex mode Tas AD[15:0] Tah Tdadvh Address Tdh Data Tbds Tap ALE/ADV_N CLE RD_N/RE_N/ OE_N Tcsadval Tch CS_N/CE_N WR_N/WE_N Twp Twc Figure 6-6 Write in General Multiplex mode Copyright (c) 2013 Future Technology Devices International Limited 51 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 6.4.2 DMA timing DMA timing characteristics (Ambient Temperature = -40C to +85C) Parameter Description Min Max Tsudreqdack DREQ Set-up Time before DACK Assertion 0 Tddackdreq DACK De-assertion to Next DREQ Assertion Time 18 - ns Thdreqdack DREQ Hold Time after Last Strobe Assertion - 35 ns Trwp RD_N/WR_N Pulse Width 40 - ns Toe Data Valid Time after RD_N Assertion 8 - ns Trdh Read Data Hold Time after RD_N Deasserts 4 9 ns Twdh Write Data Hold Time after WR_N Deassertion 0 - ns Tdadvh Write Data Set-up Time before WR_N De-assertion 6 - ns Tsudackrw DACK Set-up Time before RD_N/WR_N Assertion 0 - ns Trwdack DACK De-assertion after RD_N/WR_N De-assertion 0 - ns Tcyc DMA Read/Write Cycle Time 80 - ns - Unit ns Table 6-13 DMA timing DREQ Tsudreqdack DACK Thdreqdack Trwp Tcyc Tsudackrw Tddackdreq RD_N/ WR_N Toe Trwdack Trdh DATA[15:0] (read) Tdadvh DATA[15:0] (write) Twdh DATA1 DATA2 DATAn Figure 6-7 DMA read and write Copyright (c) 2013 Future Technology Devices International Limited 52 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 7 Application Examples FT313H can be configured to communicate with a microcontroller uses 16-bit/8-bit SRAM asynchronous bus interface, NOR interface, and General Multiplex interface. An example schematic is show in Figure 7.1. Copyright (c) 2013 Future Technology Devices International Limited 53 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Figure 7-1 FT313H Chip Schematic 7.1 Examples of Bus Interface connection 7.1.1 16-Bit SRAM asynchronous bus interface FT313H Microcontroller CS_E/CS_N CS_N OE_N/RE_N/RD_N RD_N WE_N/WR_N AD<15:0> A<7:0> INT WR_N AD<15:0> A<7:0> INT DACK DACK DREQ DREQ If DMA transfers are not used the DACK and DREQ signals may be left floating or the DACK signal may be terminated with external 10k ohm pull-down resistor. If the microcontroller has no AD<0> pin for 16-bit wide devices, the unused AD<0> signal with must be terminated with an external 10k ohm pull-down resistor. 7.1.2 8-Bit SRAM asynchronous bus interface FT313H CS_E/CS_N Microcontroller CS_N OE_N/RE_N/RD_N RD_N WE_N/WR_N WR_N AD<7:0> A<7:0> INT AD<7:0> A<7:0> INT DACK DACK DREQ DREQ 8-Bit SRAM bus interface doesn't use high AD<15:8> data bus, must terminate AD<15:8> signals with external 10k ohm pull-down resistors. If DMA transfers are not used the DACK and DREQ signals may be left floating or the DACK signal may be terminated with external 10k ohm pull-down resistor. Copyright (c) 2013 Future Technology Devices International Limited 54 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 7.1.3 16-Bit NOR asynchronous bus interface FT313H Microcontroller CS_E/CS_N CS_N OE_N/RE_N/RD_N OE_N WE_N/WR_N WE_N AD<15:0> AD<15:0> A<7:0> INT INT ADV_N/ALE ADV_N 16-Bit NOR uses AD<15:0> signals as address and data bus. Unused A<7:0> address must be terminated with external 10k ohm pull-down resistor. If the microcontroller has no AD<0> pin for 16-bit wide devices, the unused AD<0> signal with must be terminated with an external 10k ohm pull-down resistor. 7.1.4 8-Bit NOR asynchronous bus interface FT313H Microcontroller CS_E/CS_N CS_N OE_N/RE_N/RD_N OE_N WE_N/WR_N WE_N AD<7:0> AD<7:0> A<7:0> INT INT ADV_N/ALE ADV_N 8-Bit NOR uses AD<7:0> signals as address and data bus. The unused high data bus AD<15:8> and A<7:0> address bus must be terminated with external 10k ohm pull-down resistors. 7.1.5 16-Bit General Multiplex asynchronous bus interface FT313H Microcontroller CS_E/CS_N CS_N OE_N/RE_N/RD_N RE_N WE_N/WR_N WE_N AD<15:0> AD<15:0> A<7:0> INT ADV_N/ALE INT DACK ALE DACK DREQ DREQ 16-Bit General Multiplex uses AD<15:0> signals as address and data bus. Unused A<7:0> address must be terminated with external 10k ohm pull-down resistor. Copyright (c) 2013 Future Technology Devices International Limited 55 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 If the microcontroller has no AD<0> pin for 16-bit wide devices, the unused AD<0> signal with must be terminated with an external 10k ohm pull-down resistor. If DMA transfers are not used the DACK and DREQ signals may be left floating or the DACK signal may be terminated with external 10k ohm pull-down resistor. 7.1.6 8-Bit General Multiplex asynchronous bus interface FT313H Microcontroller CS_E/CS_N CS_N OE_N/RE_N/RD_N RE_N WE_N/WR_N WE_N AD<7:0> AD<7:0> A<7:0> INT ADV_N/ALE INT DACK ALE DACK DREQ DREQ 8-Bit General Multiplex uses AD<7:0> signals as address and data bus. The unused high data bus AD<15:8> and A<7:0> address bus must be terminated with external 10k ohm pull-down resistors. If DMA transfers are not used the DACK and DREQ signals may be left floating or the DACK signal may be terminated with external 10k ohm pull-down resistor. Copyright (c) 2013 Future Technology Devices International Limited 56 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 8 Package Parameters The FT313H is available in three different packages. The FT313HQ is the QFN-64 package, the FT313HL is the LQFP-64 package and the FT313HP is the TQFP-64 package. The solder reflow profile for all packages is described in following sections. 8.1 FT313H Package Markings 8.1.1 QFN-64 An example of the markings on the QFN package are shown in Figure 8-1. The FTDI part number is too long for the 64 QFN package so in this case the last two digits are wrapped down onto the date code line. 64 1 FTDI XXXXXXXXXX FT313HQ YYWW-B Line 1 - FTDI Logo Line 2 - Wafer Lot Number Line 3 - FTDI Part Number Line 4 - Date Code, Revision Figure 8-1 QFN Package Markings Notes: 1. YYWW = Date Code, where YY is year and WW is week number 2. Marking alignment should be centre justified 3. Laser Marking should be used Copyright (c) 2013 Future Technology Devices International Limited 57 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 8.1.2 LQFP-64 An example of the markings on the LQFP package are shown in Figure 8-2. 64 1 FTDI XXXXXXXXXX FT313HL YYWW-B Line 1 - FTDI Logo Line 2 - Wafer Lot Number Line 3 - FTDI Part Number Line 4 - Date Code, Revision Figure 8-2 LQFP Package Markings Notes: 1. YYWW = Date Code, where YY is year and WW is week number 2. Marking alignment should be centre justified 3. Laser Marking should be used Copyright (c) 2013 Future Technology Devices International Limited 58 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 8.1.3 TQFP-64 An example of the markings on the TQFP package are shown in Error! Reference source not found.. 64 1 FTDI XXXXXXXXXX FT313HP YYWW-B Line 1 - FTDI Logo Line 2 - Wafer Lot Number Line 3 - FTDI Part Number Line 4 - Date Code, Revision Figure 8-3 TQFP Package Markings Notes: 1. YYWW = Date Code, where YY is year and WW is week number 2. Marking alignment should be centre justified 3. Laser Marking should be used Copyright (c) 2013 Future Technology Devices International Limited 59 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 8.2 QFN-64 Package Dimensions Figure 8-4 QFN-64 Package Markings Copyright (c) 2013 Future Technology Devices International Limited 60 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 8.3 LQFP-64 Package Dimensions Figure 8-5 LQFP-64 Package Markings Copyright (c) 2013 Future Technology Devices International Limited 61 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 8.4 TQFP-64 Package Dimensions Figure 8-6 TQFP-64 Package Markings Copyright (c) 2013 Future Technology Devices International Limited 62 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 8.5 Solder Reflow Profile The FT313H is supplied in Pb free QFN-64, LQFP-64 and TQFP-64 packages. The recommended solder reflow profile for all package options is shown in . Temperature, T (Degrees C) tp Tp Critical Zone: when T is in the range TL to Tp Ramp Up TL tL TS Max Ramp Down TS Min tS Preheat 25 T = 25 C to TP Time, t (seconds) Figure 8-7 FT313H Solder Reflow Profile The recommended values for the solder reflow profile are detailed in Table 8-1. Values are shown for both a completely Pb free solder process (i.e. the FT313H is used with Pb free solder), and for a non-Pb free solder process (i.e. the FT313H is used with non-Pb free solder). Profile Feature Pb Free Solder Process Non-Pb Free Solder Process Average Ramp Up Rate (Ts to Tp) 3C / second Max. 3C / Second Max. - Temperature Min (Ts Min.) 150C 100C - Temperature Max (Ts Max.) 200C 150C - Time (ts Min to ts Max) 60 to 120 seconds 60 to 120 seconds 217C 183C 60 to 150 seconds 60 to 150 seconds 260C 240C 20 to 40 seconds 20 to 40 seconds Ramp Down Rate 6C / second Max. 6C / second Max. Time for T= 25C to Peak Temperature, Tp 8 minutes Max. 6 minutes Max. Preheat Time Maintained Above Critical Temperature TL: - Temperature (TL) - Time (tL) Peak Temperature (Tp) Time within 5C of actual Peak Temperature (tp) Table 8-1 Reflow Profile Parameter Values Copyright (c) 2013 Future Technology Devices International Limited 63 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 9 FTDI Chip Contact Information Head Office - Glasgow, UK Unit 1, 2 Seaward Place, Centurion Business Park Glasgow G41 1HH United Kingdom Tel: +44 (0) 141 429 2777 Fax: +44 (0) 141 429 2758 E-mail (Sales) E-mail (Support) E-mail (General Enquiries) sales1@ftdichip.com support1@ftdichip.com admin1@ftdichip.com Branch Office - Tigard, Oregon, USA 7130 SW Fir Loop Tigard, OR 97223 USA Tel: +1 (503) 547 0988 Fax: +1 (503) 547 0987 E-Mail (Sales) E-Mail (Support) E-Mail (General Enquiries) us.sales@ftdichip.com us.support@ftdichip.com us.admin@ftdichip.com Branch Office - Shanghai, China Branch Office - Taipei, Taiwan 2F, No. 516, Sec. 1, NeiHu Road Taipei 114 Taiwan, R.O.C. Tel: +886 (0) 2 8797 1330 Fax: +886 (0) 2 8751 9737 E-mail (Sales) E-mail (Support) E-mail (General Enquiries) tw.sales1@ftdichip.com tw.support1@ftdichip.com tw.admin1@ftdichip.com Room 1103, No. 666 West Huaihai Road, Changning District Shanghai, 200052 China Tel: +86 21 62351596 Fax: +86 21 62351595 E-mail (Sales) E-mail (Support) E-mail (General Enquiries) cn.sales@ftdichip.com cn.support@ftdichip.com cn.admin@ftdichip.com Web Site http://ftdichip.com System and equipment manufacturers and designers are responsible to ensure that their systems, and any Future Technology Devices International Ltd (FTDI) devices incorporated in their systems, meet all applicable safety, regulatory and system-level performance requirements. All application-related information in this document (including application descriptions, suggested FTDI devices and other materials) is provided for reference only. While FTDI has taken care to assure it is accurate, this information is subject to customer confirmation, and FTDI disclaims all liability for system designs and for any applications assistance provided by FTDI. Use of FTDI devices in life support and/or safety applications is entirely at the user's risk, and the user agrees to defend, indemnify and hold harmless FTDI from any and all damages, claims, suits or expense resulting from such use. This document is subject to change without notice. No freedom to use patents or other intellectual property rights is implied by the publication of this document. Neither the whole nor any part of the information contained in, or the product described in this document, may be adapted or reproduced in any material or electronic form without the prior written consent of the copyright holder. Future Technology Devices International Ltd, Unit 1, 2 Seaward Place, Centurion Business Park, Glasgow G41 1HH, United Kingdom. Scotland Registered Company Number: SC136640 Copyright (c) 2013 Future Technology Devices International Limited 64 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Appendix A - References Useful Application Notes Appendix B - List of Figures and Tables List of Figures Figure 2-1 FT313H Block Diagram ................................................................................................... 3 Figure 3-1 Pin Configuration QFN64 (top-down view) ........................................................................ 7 Figure 3-2 Pin Configuration LQFP64 (top-down view) ....................................................................... 8 Figure 3-3 Pin Configuration TQFP64 (top-down view) ....................................................................... 9 Figure 6-1 Read in SRAM mode .................................................................................................... 47 Figure 6-2 Write in SRAM mode .................................................................................................... 47 Figure 6-3 Read in NOR mode ...................................................................................................... 49 Figure 6-6 Write in General Multiplex mode .................................................................................... 51 Figure 6-7 DMA read and write ..................................................................................................... 52 Figure 7-1 FT313H Chip Schematic ............................................................................................... 54 Figure 8-1 QFN Package Markings ................................................................................................. 57 Figure 8-2 LQFP Package Markings ................................................................................................ 58 Figure 8-3 TQFP Package Markings ............................................................................................... 59 Figure 8-4 QFN-64 Package Markings ............................................................................................ 60 Figure 8-5 LQFP-64 Package Markings ........................................................................................... 61 Figure 8-6 TQFP-64 Package Markings ........................................................................................... 62 Figure 8-7 FT313H Solder Reflow Profile ........................................................................................ 63 List of Tables Table 1-1 FT313H Numbers............................................................................................................ 2 Table 3-1 FT313H pin description .................................................................................................. 13 Table 4-1 Bus Configuration modes ............................................................................................... 15 Table 4-2 Pin information of the bus interface ................................................................................ 15 Table 4-3 Clock frequency select .................................................................................................. 17 Table 4-5 power management configuration ................................................................................... 18 Table 5-1 Overview of host controller specific registers .................................................................... 21 Table 5-2 Capability register ........................................................................................................ 21 Table 5-3 Structural parameter register ......................................................................................... 21 Table 5-5 USB command register.................................................................................................. 24 Table 5-6 USB status register ....................................................................................................... 25 Table 5-9 Periodic frame list base address register .......................................................................... 26 Table 5-10 Current asynchronous list address register ..................................................................... 26 Table 5-11 Port status and control register .................................................................................... 29 Table 5-12 EOF time and asynchronous schedule sleep timer register ............................................... 30 Table 5-14 HW mode register ....................................................................................................... 31 Table 5-15 Edge interrupt control register ...................................................................................... 31 Copyright (c) 2013 Future Technology Devices International Limited 65 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Table 5-16 SW reset register ........................................................................................................ 32 Table 5-17 Memory address register ............................................................................................. 33 Table 5-18 Data port register ....................................................................................................... 33 Table 5-19 Data session length register ......................................................................................... 33 Table 5-20 DMA configuration register ........................................................................................... 35 Table 5-21 AUX Memory address register ...................................................................................... 35 Table 5-22 AUX data port register ................................................................................................. 35 Table 5-23 Sleep timer register .................................................................................................... 35 Table 5-24 HC interrupt status register.......................................................................................... 37 Table 5-25 HC interrupt status register.......................................................................................... 38 Table 5-26 Test mode register ...................................................................................................... 39 Table 5-28 Test parameter setting 2 register.................................................................................. 39 Table 6-1 Absolute Maximum Ratings ........................................................................................... 40 Table 6-2 Operating Voltage and Current ....................................................................................... 41 Table 6-3 Digital I/O Pin Characteristics (VCC(I/O) = +3.3V, Standard Drive Level) ............................ 41 Table 6-4 Digital I/O Pin Characteristics (VCC(I/O) = +2.5V, Standard Drive Level) ............................ 42 Table 6-5 Digital I/O Pin Characteristics (VCC(I/O) = +1.8V, Standard Drive Level) ............................ 42 Table 6-6 USB I/O Pin (USBDP, USBDM) Characteristics .................................................................. 44 Table 6-7 5V Tolerant Pin (PSW_N, OC_N, VBUS) Characteristics...................................................... 44 Table 6-8 System clock characteristics .......................................................................................... 45 Table 6-9 Analog I/O pins characteristics ....................................................................................... 45 Table 6-11 NOR PIO timing .......................................................................................................... 48 Table 6-12 General Multiplex PIO timing ........................................................................................ 50 Copyright (c) 2013 Future Technology Devices International Limited 66 Document No.: FT_000589 FT313H USB2.0 HS Host Controller Datasheet Version 1.2 Clearance No.: FTDI# 318 Appendix C - Revision History Document Title: USB Host IC FT313H Document Reference No.: FT_000589 Clearance No.: FTDI# 318 Product Page: http://www.ftdichip.com/FTProducts.htm Document Feedback: DS_FT313H Version 1.0 Initial Release OCT 2012 Version 1.1 Formatting tidy up NOV 2012 Version 1.2 Add package markings SEP 2013 Copyright (c) 2013 Future Technology Devices International Limited 67 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: FTDI: FT313HP-R UMFT313EV FT313HL-R FT313HQ-R FT313HL-T FT313HQ-T FT313HP-T