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IEEE1394 to ATA/ATAPI Native Bridge FEATURES * * * * * * * * * * S400 (50 Mbytes/s) compliant 1394-1995 Link and Transaction layers Compatible with 1394-1995 and 1394A Phys. Microsoft Win98-Second Edition, Win2000 and Apple MacOS generic driver support SBP-2 Target Revision 4 compliant interface Fully ATA-5 compliant (see T13-1321D) Support for UDMA5 (ATA100) Sustained data transfer of 35 MB/s Supports PIO modes 0 to 4, DMA modes 0 to 2 and Ultra DMA modes 0 to 5 ORB co-processor to accelerate translation of ORBs to ATAPI commands Supports ORB chaining for increased performance * * * * * * * * * OXFW911 Data Sheet High performance ATA command translation in firmware using Reduced Block Command (RBC) set Integrated 32-bit RISC processor (ARM7TDMI) with on-chip scratch RAM Optional External Serial ROM interface for configuration data, user serial number, etc. Integrated 512kb Flash memory Blank Flash memory programming feature via 1394 bus Firmware and Flash Programming Utilities supplied by Oxford Semiconductor 3.3 Volts operation Low Power CMOS Ultra-thin 128-TQFP package (14 x 14 x 1 mm) DESCRIPTION The OXFW911 is a high-performance 1394 to ATA/ATAPI (IDE) native bridge with an integrated target Serial Bus Protocol (SBP-2 ) controller. By supporting the SBP-2 protocol, the device can use generic SBP-2 drivers available in the Microsoft Windows 98SE, Microsoft Windows 2000, Microsoft Millennium and Apple MacOS (8.4 to 9.04) operating systems. MacOS support also includes booting from Firewire disk. The device is ideally suited for smart-cable or tailgate interface applications for removable-media drives, compact flash card readers, CD-ROM, CD-R, CD-RW, DVD-ROM, DVD-RAM and hard disk drives, allowing IDE drives to be connected to a 1394 serial bus in a plug-and-play fashion. Both ATA and ATAPI devices are supported using the same firmware. This highly integrated device offers a two-chip solution to native bridge applications using an external 1394 PHY. The device is compatible with both 1394-1995 and 1394A PHYs. The LINK controller complies with 1394-1995 and 1394A specifications. The 1394 transaction layer and SBP-2 protocol is implemented using a combination of the ARM7TDMI (low-power 32-bit RISC processor), an ORB (Operational Request Block) hardware co-processor and a high performance buffer manager. The buffer manager has a RAM bandwidth of 800Mbps. It provides storage for 1394 and ATA/ATAPI packets, Oxford Semiconductor Ltd. 25 Milton Park, Abingdon, Oxon, OX14 4SH, UK Tel: +44 (0)1235 824900 Fax: +44(0)1235 821141 automatically storing them and passing them to the appropriate destinations, without any intervention from the processor. It also provides storage and manages the sequencing of ORB fetching to reduce latency and improve data throughput. The configuration data including the IEEE OUI (Organisational Unique Identifier) and device serial number is stored in the Flash ROM which may be uploaded from the 1394 bus, even when blank. The device also facilitates firmware uploads from the 1394 bus. The ORB co-processor translates ORBs as defined in the SBP-2 protocol into ATA/ATAPI commands, and automatically stores error/status messages at an address specified by the host. Concurrent operation of the ATA/ATAPI and 1394 interfaces are facilitated using the high throughput buffer manager where LINK, ATAPI manager and ARM7TDMI can perform interleaved accesses to the on-chip RAM buffer. The high performance processor ensures that no significant latency is incurred. The ATA command translation is performed in firmware to meet RBC (Reduced Block Commands) standard, T10-1228D. The ATA/ATAPI Manager supports PIO modes 0 to 4, DMA modes 0 to 2 and Ultra DMA mode 0 to 5 and provides the interface to the IDE bus. It is compliant with T13-1321D, ATA-5 specification, as well as support for ATA100. (c) Oxford Semiconductor 2001 OXFW911 Data Sheet Revision 1.1 - Mar 2001 Part No. OXFW911-TQ-A OXFORD SEMICONDUCTOR LTD. OXFW911 CONTENTS FEATURES ........................................................................................................................................1 DESCRIPTION ...................................................................................................................................1 CONTENTS........................................................................................................................................2 1 2 3 4 5 6 6.1 6.2 6.3 5.1 BLOCK DIAGRAM .......................................................................................................................3 PIN INFORMATION .....................................................................................................................4 PIN DESCRIPTIONS ....................................................................................................................5 OPERATING CONDITIONS ..........................................................................................................7 DC ELECTRICAL CHARACTERISTICS ........................................................................................7 I/O BUFFERS ........................................................................................................................................................................ 7 IDE INTERFACE ................................................................................................................................................................... 8 1394 LINK-PHY INTERFACE ............................................................................................................................................. 11 EXTERNAL PROCESSOR INTERFACE............................................................................................................................ 13 AC ELECTRICAL CHARACTERISTICS ........................................................................................8 7 8 9 TIMING WAVEFORMS...............................................................................................................14 PACKAGE INFORMATION ........................................................................................................29 ORDERING INFORMATION .......................................................................................................29 NOTES ............................................................................................................................................31 CONTACT DETAILS.........................................................................................................................32 DISCLAIMER ...................................................................................................................................32 Data Sheet Rev 1.1 Page 2 OXFORD SEMICONDUCTOR LTD. OXFW911 1 BLOCK DIAGRAM Buffer RAM PD[7:0] CTL[1:0] PHY_CLK LINK_ON LPS LREQ ATA/ ATAPI manager Internal ARM7TDMI bus Link-Phy interface IDE_OE# RAM Manager ID[15:0] DMARQ DIOW# DIOR# IORDY DMACK# INTRQ# IA[2:0] ORB Coprocessor ICS#[1:0] D[15:0] A[16:0] CS#[3:0] OE# WE# INT# External Device interface ARM7TDMI Internal FLASH EE_DO EE_DI EE_CK EE_CS GPIO / EEPROM interface SCRATCH RAM Figure 1: OXFW911 Block Diagram Data Sheet Rev 1.1 Page 3 OXFORD SEMICONDUCTOR LTD. OXFW911 2 PIN INFORMATION IA1 IA0 IA2 ICS0# ICS1# LINKON LPS PD7 PD6 GND VDD PD5 PD4 PD3 PD2 GND VDD PD1 PD0 CTL1 CTL0 GND PHYCLK VDD LREQ NC CS3# CS2# GPO1 GPO2 GPO3 CKOUT 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 GND DMACK# VDD GND IORDY DIOR# DIOW# DMARQ VDD GND ID15 ID0 VDD GND ID14 ID1 ID13 ID2 ID12 ID3 VDD GND ID11 ID4 ID10 ID5 ID9 ID6 VDD GND ID8 ID7 OXFW911-TQ-A 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 IRESET IDE_OE# INTRQ INT# A0 VDD GPI UIF RESET# GND A1 A2 A3 A4 A5 A6 VDD GND A7 A8 A9 A10 A11 A12 VDD GND A13 A14 A15 A16 WE# CS0# Data Sheet Rev 1.1 NC D15 D14 D13 D12 D11 GND VDD D10 D9 D8 D7 D6 GND VDD D5 D4 D3 D2 D1 VDD TEST_SEL VDD D0 GND GND CS1# OE# GND VDD TEST0 TEST1 Figure 2: Pinout (package = 128 TQFP) Page 4 OXFORD SEMICONDUCTOR LTD. OXFW911 3 PIN DESCRIPTIONS Dir 1 I/O I/O I O IU O T_I/O T_O T_O T_O T_O T_IU T_I/O T_O T_O T_O T_O T_I T_O T_O T_O T_O T_I O O O T_IU IU T_O I IU VDD VDD Name PD[7:0] CTL[1:0] PHYCLK LREQ LINKON LPS D[15:0] A[16:0] CS#[3:0] OE# WE# INT# ID[15:0] IA[2:0] ICS#[1:0] IDE_OE# IRESET DMARQ DIOW# DIOR# IORDY DMACK# INTRQ GPO1 GPO2 GPO3 GPI RESET# CKOUT TEST_SEL, TEST[1:0] UIF AC VDD DC VDD Description Phy-Link Data Bus Phy-Link Control Bus 49.152 MHz clock sourced by PHY Link Request Requests link to power up when in a low power mode Indicates to phy that link is powered and ready ARM external data bus ARM external address bus ARM external chip selects. CS0# is always used for program ROM. ARM external output enable. Active when reading data from external devices including program ROM Write Enable. Active when writing to external devices External ARM interrupt IDE data bus IDE address bus IDE chip select. Used to select the Command Block or Control Block registers. IDE output enable. Only used when external buffering is required to drive IDE data bus IDE interface reset IDE interface write strobe IDE interface read strobe 1394 PHY-LINK interface 104, 105, 108, 109, 110, 111, 114, 115 116,117 119 121 102 103 ARM external interface 2, 3, 4, 5, 6, 9, 10, 11, 12, 13, 16, 17, 18, 19, 20, 24 35, 36, 37, 38, 41, 42, 43, 44, 45, 46, 49, 50, 51, 52, 53, 54, 60 123, 124, 27, 33 28 34 61 IDE interface 86, 82, 80, 78, 74, 72, 70, 66, 65, 69, 71, 73, 77, 79, 81, 85 99, 97, 98 101, 100 63 64 89 90 91 92 95 62 EEPROM interface 125 126 127 58 Miscellaneous Pins 56 128 22, 32, 31 57 Power and ground2 15, 8, 40, 48, 59, 76, 94, 107, 113 30, 21, 23, 68, 84, 88, 120 Data Sheet Rev 1.1 General Purpose Output 1 General Purpose Output 2 General Purpose Output 3 General Purpose Input Global reset for the OXFW911. Active Low. Clock output. 49.152 MHz clock output. `100' = NORMAL OPERATION. Other settings are for foundry test purposes only. Leave unconnected to use internal Flash, tie low to use only external device Supplies power to output buffers in switching (AC) state Power supply. Supplies power to core logic, input buffers and output buffers in steady state Page 5 OXFORD SEMICONDUCTOR LTD. 14, 7, 39, 47, 55, 67, 75, 93, 96, 106, 112, 29, 25, 26, 83, 87, 118 Other 1, 122 GND GND NC AC GND DC GND OXFW911 Supplies GND to output buffers in switching (AC) state Ground (0 volts). Supplies GND to core logic, input buffers and output buffers in steady state No Connect Table 1: Pin Descriptions Note 1: Direction key: I IU ID O I/O T_I Input Input with internal pull-up Input with external pull-down Output Bi-directional 5V tolerant input T_O T_I/O GND VDD NC 5V tolerant output 5V tolerant bi-directional Ground 3.3V power No Connect Note 2: Power & Ground There are two GND and two VDD rails internally. One set of rails supply power and ground to output buffers while in switching state (called AC power) and another rail supply the core logic, input buffers and output buffers in steady-state (called DC rail). The rails are not connected internally. This precaution reduces the effects of simultaneous switching outputs and undesirable RF radiation from the chip. Data Sheet Rev 1.1 Page 6 OXFORD SEMICONDUCTOR LTD. Configuration & Operation OXFW911 4 OPERATING CONDITIONS Symbol VDD VIN VIN IIN T STG Parameter DC supply voltage DC input voltage (3.3V IO) DC input voltage (5V tolerant IO) DC input current Storage temperature Table 2: Absolute maximum ratings Symbol VDD TC Parameter DC supply voltage Temperature Min 3.15 0 Table 3: Recommended operating conditions Max 3.6 70 Units V C Min -0.3 -0.3 -0.3 -40 Max 3.8 VDD + 0.3 5.5 +/- 10 125 Units V V V mA C 5 5.1 DC ELECTRICAL CHARACTERISTICS I/O Buffers Symbol VDD VIH VIL CIL COL IIH IIL VOH VOH VOL VOL IOZ Symbol Parameter Supply voltage Input high voltage Input low voltage Cap of input buffers Cap of output buffers Input high leakage current Input low leakage current Output high voltage Output high voltage Output low voltage Output low voltage 3-state output leakage current Parameter Operating supply current in normal mode Operating supply current in Power-down mode Condition Commercial CMOS Interface CMOS Schmitt trig CMOS Interface 1 CMOS Schmitt trig Min 3.0 2.0 2.0 Max 3.6 0.8 0.8 4.0 4.0 10 10 Units V V V pF pF A A V V V V A Units Vin = VDD Vin = VSS IOH = -1 A IOH = -1mA to -24mA IOL = 1 A IOL = 1mA to 24mA VDD - 0.05 -10 -10 2.4 -10 Condition VDD = 3.3V T=25C Typical 85 0.05 0.4 10 Max TBD ICC mA Table 4: Characteristics of OXFW911 I/O buffers Data Sheet Rev 1.1 Page 7 OXFORD SEMICONDUCTOR LTD. OXFW911 6 6.1 AC ELECTRICAL CHARACTERISTICS IDE interface Symbol t0 t1 t2 t2i t3 t4 t5 t6 t6z t9 tRD tA tB tA Parameter Cycle Time Address Valid to DIOR# / DIOW# setup DIOR# / DIOW# pulse width DIOR# / DIOW# recovery time DIOW# data setup (min ) DIOW# data hold DIOR# data setup ( min ) DIOR# data hold ( min ) DIOR# data tristate (max ) DIOR# / DIOW# to address valid hold Read Data Valid to IORDY active if IORDY initially low after tA IORDY Setup time IORDY Pulse Width ( max ) IORDY assertion to release Mode 0 600 80 320 60 40 50 5 30 40 0 35 1250 5 Mode 1 400 80 320 45 40 35 5 30 40 0 35 1250 5 Mode 2 360 40 320 30 40 20 5 30 40 0 35 1250 5 Mode 3 200 40 80 80 30 40 20 5 30 40 0 35 1250 5 Mode 4 120 40 80 40 20 40 20 5 30 40 0 35 1250 5 Units ns ns ns ns ns ns ns ns ns ns ns ns ns ns Table 5: OXFW911 IDE PIO / Register Transfers Data Sheet Rev 1.1 Page 8 OXFORD SEMICONDUCTOR LTD. OXFW911 Symbol t0 tD tE tF tG tH tI tJ tKr tKw tLr tLw tM tN tZ Parameter Cycle time DIOR# / DIOW# DIOR# data access ( max ) DIOR# data hold ( min ) DIOR# / DIOW# data setup DIOW# data hold DMACK to DIOR# / DIOW# setup ( min ) DIOR# / DIOW# to DMACK hold ( min ) DIOR# negated pulse width DIOW# negated pulse width DIOR# to DMARQ delay ( max ) DIOW# to DMARQ delay ( max ) IDCS[1:0] valid to DIOR# / DIOW# IDCS[1:0] hold DMACK to tristate ( max ) Mode 0 480 240 150 5 100 20 0 20 80 240 120 40 80 40 20 Mode 1 160 80 60 5 30 15 0 5 80 80 40 40 40 40 25 Mode 2 120 80 50 5 20 10 0 5 40 40 35 35 40 40 25 Units ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns Table 6: OXFW911 Multiword DMA timings Data Sheet Rev 1.1 Page 9 OXFORD SEMICONDUCTOR LTD. OXFW911 Symbol t2cyc tcyc t2cyc tds tdh tdvs tdvh tfs tli tmli tui taz tzah tzad tenv tsr trfs Parameter Typical sustained average two cycle time Cycle time allowing for clock variations ( refer to ATA spec) Two cycle time allowing for clock variations ( refer to ATA spec ) Data setup time at recipient Data hold time at recipient Data valid setup time at sender (from data bus being valid until STROBE edge ) Data valid hold time at sender (from STROBE edge until data may become invalid First STROBE time (for device to first negate DSTROBE from STOP during a data-in burst) Limited interlock time Interlock time with minimum Unlimited interlock time Maximum time allowed for output drivers to release (from being asserted or negated) Minimum delay time required for output drivers to assert or negate (from released state) Envelope time ( from DMACK# to STOP and HDMARDY# during data-out burst initiation STROBE to DMARDY time ( refer to ATA spec Ready-to-final-STROBE time ( no STROBE edges shall be sent this long after the negation of DDMARDY# Ready-to-pause time ( time that recipient shall wait to initiate pause after negating DMARDY# ) Pull-up time before allowing IORDY to be released Minimum time a device shall wait before driving IORDY Setup and hold times for DMACK# (before assertion or negation ) Time from STROBE edge to negation of DMARQ or assertion of STOP (when sender terminates a burst ) Mode 0 min 240 112 230 15 5 70 6 0 0 20 0 Mode 0 max Mode 1 min 160 75 156 10 5 48 6 Mode1 max Mode 2 min 120 55 117 7 5 34 6 Mode 2 max Units ns ns ns ns ns ns ns 230 150 0 0 20 0 200 150 0 0 20 0 170 150 ns ns ns ns ns ns 10 20 0 20 70 50 75 20 0 20 10 20 0 70 30 70 20 10 70 20 60 ns ns ns trp tiordyz tziordy tack tss 160 20 0 20 50 125 20 0 20 50 100 20 0 20 50 ns ns ns ns ns Table 7: OXFW911 Ultra DMA timings Data Sheet Rev 1.1 Page 10 OXFORD SEMICONDUCTOR LTD. OXFW911 Symbol t2cyctyp tcyc t2cyc tds tdh tdvs tdvh tfs tli tmli tui taz tzah tzad tenv trfs Parameter Typical sustained average two cycle time Cycle time allowing for clock variations ( refer to ATA spec) Two cycle time allowing for clock variations ( refer to ATA spec ) Data setup time at recipient Data hold time at recipient Data valid setup time at sender (from data bus being valid until STROBE edge ) Data valid hold time at sender (from STROBE edge until data may become invalid First STROBE time (for device to first negate DSTROBE from STOP during a data-in burst) Limited interlock time Interlock time with minimum Unlimited interlock time Maximum time allowed for output drivers to release (from being asserted or negated) Minimum delay time required for output drivers to assert or negate (from released state) Envelope time ( from DMACK# to STOP and HDMARDY# during data-out burst initiation Ready-to-final-STROBE time ( no STROBE edges shall be sent this long after the negation of DDMARDY# Ready-to-pause time ( time that recipient shall wait to initiate pause after negating DMARDY# ) Pull-up time before allowing IORDY to be released Minimum time a device shall wait before driving IORDY Setup and hold times for DMACK# (before assertion or negation ) Time from STROBE edge to negation of DMARQ or assertion of STOP (when sender terminates a burst ) Mode 3 min 100 39 86 7 5 20 6 0 0 20 0 Mode 3 max Mode 4 min 60 25 57 5 5 6 6 Mode4 max Mode5 min 40 20 40 4.0 4.6 4.8 4.8 Mode5 max Unit s ns ns ns ns ns ns ns 130 100 0 0 20 0 120 100 0 0 90 75 20 0 10 20 0 ns ns ns ns ns ns ns ns 10 20 0 20 55 60 20 0 20 10 55 60 20 50 50 trp tiordyz tziordy tack tss 100 20 0 20 50 100 20 0 20 50 0 20 50 85 20 ns ns ns ns ns Table 7a: OXFW911 Ultra DMA timings (cont) Data Sheet Rev 1.1 Page 11 OXFORD SEMICONDUCTOR LTD. OXFW911 6.2 1394 Link-Phy interface The timings for 1394 Link - Phy are shown below : Symbol tlsu tlh Tld1 Tld2 Tld3 tcyc Parameter Setup Time, PD[7:0] and CTL[1:0] before PhyClk Hold Time, PD[7:0] and CTL[1:0] after PhyClk Delay Time, PhyClk input high to initial instance of PD[7:0], CTL[1:0] and Lreq outputs valid Delay Time, PhyClk input high to subsequent instance(s) of PD[7:0], CTL[1:0] and Lreq outputs valid Delay Time, PhyClk input high to PD[7:0], CTL[1:0] and Lreq outputs invalid (high impedance) Duty Cycle Table 8: OXFW911 Link-Phy interface timings Min 8 0 2 2 2 45 Max Units ns ns ns ns ns % 10 10 10 55 Data Sheet Rev 1.1 Page 12 OXFORD SEMICONDUCTOR LTD. OXFW911 6.3 Name tas tws taddr tah tdsa tdha twds twdh tcsw tadw twe External Processor Interface Description Common Timings CSx# and OE# falling to valid Address Wait State Additional Delay (number of wait states (WS) * 20 ns) Address Valid Common Read Timings Address hold after CSx# or OE# rising Data setup to CSx# and OE# rising Data hold after CSx# and OE# rising Common Write Timings Data valid to WE# rising Data hold after WE# rising CS# setup before WE# valid Address setup before WE# valid WE# valid Table 9: External Processor Interface timings min (ns) 0 20 60 0 44 0 17 4 7 5 20 max (ns) 2 300 40+tws 17+(tws-20) 7 9 7 20+tws Data Sheet Rev 1.1 Page 13 OXFORD SEMICONDUCTOR LTD. OXFW911 7 TIMING WAVEFORMS t0 ADDR valid DIOR# / DIOW# t1 t2 t9 t2i t3 t4 ID[7:0] (WRITE) t5 ID[7:0] (READ) IORDY (Note1) IORDY (Note2) IORDY (Note3) tB tRD tC t6z t6 tA tC Figure 3: PIO / Register Transfer to / from IDE device Notes : Negation of IORDY by the drive is used to extend the PIO cycle. The determination of whether the cycle is o be t extended is made by the host after tA from the Assertion of DIOR# or DIOW#. The assertion and negation of IORDY are described in the following three cases : 1) 2) 3) Device never negates IORDY and no wait is generated. Device negates IORDY before tA, but causes IORDY to be asserted before tA. IORDY is released prior to negation and may be asserted for no more than 5ns before release : no wait generated. Device negated IORDY before tA. IORDY is released prior to negation and may be asserted for no more than 5ns before release : wait generated. The cycle completes after IORDY is reasserted. For cycles where a wait is generated and DIOR# is asserted, the device shall place read data on DD[7:0] for tRD before asserting IORDY Data Sheet Rev 1.1 Page 14 OXFORD SEMICONDUCTOR LTD. OXFW911 TIMING WAVEFORMS CS0# / CS1# tM DMARQ DMACK# t0 tL tI tD tK tJ tN DIOR# / DIOW# tE READ ID[15:0] tG WRITE ID[15:0] tG tH tF tZ Figure 4: MultiWord DMA transfer to / from IDE device Data Sheet Rev 1.1 Page 15 OXFORD SEMICONDUCTOR LTD. OXFW911 DMARQ (device) tui tack DMACK(host) STOP(host) (DIOW#) HDMARDY(host) (DIOR#) tziordy DSTROBE(device) (IORDY) taz ID[15:0] IA[2:0], ICS#[1:0] tack tdvs tdvh tzad tenv tfs Figure 5: Initiating an Ultra DMA data-in burst Data Sheet Rev 1.1 Page 16 OXFORD SEMICONDUCTOR LTD. OXFW911 t2cyc tcyc DSTROBE(device) (IORDY) tdvh ID[15:0] (device) DSTROBE(host) IORDY tds tdh ID[15:0] (host) tdh tds tdh tdvs tdvh tdvs tdvh tcyc Figure 6: Sustained Ultra DMA data-in burst Data Sheet Rev 1.1 Page 17 OXFORD SEMICONDUCTOR LTD. OXFW911 DMARQ(device) DMACK(host) STOP(host) DIOW# DSTROBE(device) IORDY trfs DSTROBE(device) IORDY trp tsr ID[15:0] (host) Figure 7: Host pausing an Ultra DMA data-in burst Data Sheet Rev 1.1 Page 18 OXFORD SEMICONDUCTOR LTD. OXFW911 DMARQ(device) DMACK(host) tli STOP(host) DIOW# HDMARDY(host) DIOR# tss DSTROBE(device) IORDY taz ID[15:0] (host) tzah tiordyz tli tmli tack CRC tack IA[2:0], ICS[1:0] Figure 8: Device terminating an Ultra DMA data-in burst Data Sheet Rev 1.1 Page 19 OXFORD SEMICONDUCTOR LTD. OXFW911 DMARQ(device) DMACK(host) trp STOP(host) DIOW# HDMARDY(host) DIOR# trfs DSTROBE(device) IORDY tdvs ID[15:0] (host) tli tmli tiordyz taz tack tzah tdvh CRC tack IA[2:0], ICS[1:0] Figure 9: Host terminating an Ultra DMA data-in burst Data Sheet Rev 1.1 Page 20 OXFORD SEMICONDUCTOR LTD. OXFW911 DMARQ (device) tui tack tenv DMACK(host) STOP(host) (DIOW#) HSTROBE(host) (DIOR#) tziordy DDMARDY(device) (IORDY) tli tui tdvs ID[15:0] IA[2:0], ICS#[1:0] tack tdvh Figure 10: Initiating an Ultra DMA data-out burst Data Sheet Rev 1.1 Page 21 OXFORD SEMICONDUCTOR LTD. OXFW911 t2cyc tcyc HSTROBE(host) tdvh ID[15:0] (host) tdvs tdvh tdvs tdvh tcyc HSTROBE(device) tds tdh ID[15:0] (device) tdh tds tdh Figure 11: Sustained Ultra DMA data-out burst Data Sheet Rev 1.1 Page 22 OXFORD SEMICONDUCTOR LTD. OXFW911 DMARQ(device) trp DMACK(host) STOP(host) DIOW# DDMARDY(device) IORDY# trfs HSTROBE(host) DIOR# tsr ID[15:0] (host) Figure 12: Device pausing an Ultra DMA data-in burst Data Sheet Rev 1.1 Page 23 OXFORD SEMICONDUCTOR LTD. OXFW911 DMARQ(device) DMACK(host) tli STOP(host) DIOW# DDMARDY(device) IORDY# tss HSTROBE(host) DIOR# tdvs ID[15:0] (host) tdvh tiordyz tli tmli tack CRC tack IA[2:0], ICS[1:0] Figure 13: Host Terminating an Ultra DMA data-out burst Data Sheet Rev 1.1 Page 24 OXFORD SEMICONDUCTOR LTD. OXFW911 tli DMARQ(device) DMACK(host) trp STOP(host) DIOW# DDMARDY(device) IORDY# trfs HSTROBE(device) DIOR# tdvs ID[15:0] (host) tdvh tli tmli tiordyz tack CRC tack IA[2:0], ICS[1:0] Figure 14: Device Terminating an Ultra DMA data-out burst Data Sheet Rev 1.1 Page 25 OXFORD SEMICONDUCTOR LTD. OXFW911 tcyc CLK 1 2 3 4 PD[7:0] CTL[1:0] LReq tlsu tlh Figure 15: Phy to Link timings tcyc CLK PD[7:0] CTL[1:0] LReq 1 2 3 4 tld1 tld2 tld3 Figure 16: Link to Phy timings Data Sheet Rev 1.1 Page 26 OXFORD SEMICONDUCTOR LTD. OXFW911 taddr tws Address Data tas tdsa tdha CS# tah OE# WE# taddr taddr Address Data tas CS# tah OE# tdsa tdha tdsa tdha WE# tws tws Figure 17: External Processor Bus read timings Data Sheet Rev 1.1 Page 27 OXFORD SEMICONDUCTOR LTD. OXFW911 taddr tws Address Data tas twds twdh CS# tah OE# WE# tcsw twe taddr taddr Address Data tas CS# tah OE# twds twdh twds twdh WE# twe tadw twe Figure 17a: External Processor Bus write timings Data Sheet Rev 1.1 Page 28 OXFORD SEMICONDUCTOR LTD. OXFW911 8 PACKAGE INFORMATION Figure 18: 128 TQFP package information 9 ORDERING INFORMATION Page 29 Data Sheet Rev 1.1 OXFORD SEMICONDUCTOR LTD. OXFW911 OXFW911-TQ - A Revision Package Type - 128 TQFP Data Sheet Rev 1.1 Page 30 OXFORD SEMICONDUCTOR LTD. OXFW911 NOTES This page has been intentionally left blank Data Sheet Rev 1.1 Page 31 OXFORD SEMICONDUCTOR LTD. OXFW911 CONTACT DETAILS Oxford Semiconductor Ltd. 25 Milton Park Abingdon Oxfordshire OX14 4SH United Kingdom Telephone: Fax: Sales e-mail: Web site: +44 (0)1235 824900 +44 (0)1235 821141 sales@oxsemi.com http://www.oxsemi.com DISCLAIMER Oxford Semiconductor believes the information contained in this document to be accurate and reliable. However, it is subject to change without notice. No responsibility is assumed by Oxford Semiconductor for its use, nor for infringement of patents or other rights of third parties. No part of this publication may be reproduced, or transmitted in any form or by any means without the prior consent of Oxford Semiconductor Ltd. Oxford Semiconductor's terms and conditions of sale apply at all times. Data Sheet Rev 1.1 Page 32 |
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