Texas Instruments TMS380C26 specifications Memory interface MIF, Protocol handler PH

Page 21

TMS380C26

NETWORK COMMPROCESSOR

SPWS010A±APRIL 1992±REVISED MARCH 1993

On every cycle the system interface compares all the system clocks to a reference clock. If any of the clocks become invalid, the TMS380C26 enters the slow clock mode, which prevents latchup of the TMS380C26. If the SBCLK is invalid, any DMA cycle is terminated immediately; otherwise, the DMA cycle is completed and then the TMS380C26 is placed in slow clock mode.

When the TMS380C26 enters the slow clock mode, the clock that failed is replaced by a slow free-running clock and the device is placed into a low-power reset state. When the failed clock(s) return to valid operation, the TMS380C26 must be re-initialized.

Using DMA, a continuous transfer rate of 64 Mbits per second (Mbps), which is 8 MBytes per second (MBps), can be obtained. For pseudo-DMA a continuous transfer rate of 48 Mbps (6 MBps) can be obtained when using a 16-MHz clock. The DIO transfer rate is not a significant issue, since the main purpose of DIO is for downloading and initialization. For comparison, the ISA bus continuous DMA transfer is rated for approximately 23 Mbps.

memory interface (MIF)

The Memory Interface (MIF) performs the memory management to allow the TMS380C26 to address 2 MBytes in local memory. Hardware in the MIF allows the TMS380C26 to be directly connected to DRAMs without additional circuitry. This glueless DRAM connection includes the DRAM refresh controller.

The MIF also handles all internal bus arbitration between these blocks. When required, the MIF then arbitrates for the external bus.

The MIF is responsible for the memory mapping of the CPU of a task. The memory map of DRAMs, EPROMs, Burned-in Addresses (BIA), and External Devices are appropriately addressed when required by the System Interface (SIF), Protocol Handler (PH), or for a DMA transfer.

The memory interface is capable of a 64 Mbps continuous transfer rate when using a 4-MHz local bus (64-MHz device crystal).

protocol handler (PH)

The Protocol Handler (PH) performs the hardware-based realtime protocol functions for a token ring or Ethernet Local Area Network (LAN). Network type is determined by the test pins TEST0±2. Token ring network is determined by software and can be either 16-Mbps or 4-Mbps. These speeds are not fixed by the hardware, but by the software.

The (PH) converts the parallel transmit data to serial network data of the appropriate coding, and converts the received serial data to parallel data. The PH data management state machines direct the transmission/reception of data to/from local memory through the MIF. The PH's buffer management state machines automatically oversee this process, directly sending/receiving linked-lists of frames without CPU intervention.

POST OFFICE BOX 1443 HOUSTON, TEXAS

21

77251±1443

 

Page 20 Page 22
Image 21
Page 20 Page 22
Contents Attached System Bus LAN Subsystem Network CommprocessorPIN Quad Flat Pack TOP View PinoutDescription Block diagram and signal descriptions TMS380C26 Terminal FunctionsPIN Name Description AX1 AX0 MaxphMaxpl AX3 AX2Mreset OUT SresetMOE MrasNSELOUT0 NSELOUT1 PrtyenSbhe = HSddir Direction DIO DMA ShrqSintr SWR SRD= Selects 8-bit mode see Note 108 Reserved. This signal must be left unconnected see Note= Selects 16-bit mode SyncinSystem Interface ± Motorola Mode SI/M = LSBHE/ Srnw Sbgr Terminal Functions = LSbrq SirqSuds SdtackSlds Nsrt FRAQ/TXDPxtalin RCVR/RXDLpbk TXCColl Terminal Functions VSS1 VSS2 VsslVSS3 VSS4 VSS5 VSS6Architecture Communications processor CPSystem interface SIF Protocol handler PH Memory interface MIFClock generator CG Adapter support function ASFAddress Description Adapter-Internal Pointers for Token-Ring²Adapter-Internal Pointers for Ethernet ² ³ 68xxx Mode is always 16-bit User-Access Hardware RegistersWord Transfers Byte TransfersBit 5 Swddir Ð Current Sddir Signal Value Bits 0-2 Test 0±2. Value on Test 0±2 pinsSIF Adapter Control Register Sifacl Sifacl RegisterBit 7 Psdmaen Ð Pseudo-System-DMA Enable Bit 6 Swhrq Ð Current Shrq Signal ValueBit 8 Areset Ð Adapter Reset Bit 10 Boot Ð Bootstrap CP CodeBit 13 PEN Ð Adapter Parity Enable Bit 12 Sinten Ð System-Interrupt EnableBit 14 Ð 15 Nselout 0±1 Ð Network selection outputs System Psdmaen Swhrq Swhlda Sinten Interrupt ResultSysteminterrupt SINTR/SIRQ Sifacl Control for Pseudo-DMA OperationDMA SHRQ/SBRQ Dmadir Sddir Swhlda Swddir Swhrq Psdmaen SintenMIN NOM MAX Unit Recommended operating conditionsParameter Test Conditions MIN TYP MAX Unit See NoteHigh Low Test measurementVload IOL Output Under TestReference Periods WhenClkdiv = Oscout MBCLK1² MBCLK2² Timing parameter symbology Static signalsSignal Function Timing parametersParameter MIN MAX Unit 289² ThRST Hold time of DMA size from High Intel mode onlyReaches minimum high level HVDDH-RSL 118² Pulse duration HighMinimun VDD High Level VDD Sbclk Oscin MBCLK1 MBCLK2 Sreset S8/SHALT103 101 106 104 105 102 107 110 108 109 111 117 118 119 288 289Mreset 126 Delay time from MBCLK1 no longer low to ValidNMI 121 Hold time Valid after MBCLK1 lowMreset MBCLK1 MBCLK2 MAX0 MAX2 ADD/EN Mromen Maxph MaxplMADH0±MADH7 Memory bus timing clocks, MRAS, MCAS, and MAL to Address MADL0±MADL7 Maxph MaxplMromen MAL Address Column RowAddress Status Column StatusMcas MOE Memory bus timing read cycleMaxph Maxpl MADH0±MADH7 Maxph MaxplMras Mcas MAX0 MAX2 MromenAddress Status Data/Parity MbiaenMemory bus timing write cycle MAX0, Address Enable AddressMAX2 Mromen Mras Mcas MbenParameter MIN Memory bus timing TMS380C26 releases control of busMBCLK1 MBCLK2 Mben 75a 74aMddir MAL Mbiaen Mbrq Mbgr Setup time High before MBCLK1 rising edge, bus resume Memory bus timing TMS380C26 resumes control of busHold time Valid after MBCLK1 low, bus resume Memory Bus Timing TMS380C26 Resumes Control of Bus Mben Mddir MAL Mbiaen Mbrq Mbgr Memory bus timing external bus master read from TMS380C26 MacsHold time Low after MBCLK2 low, external bus master read MBCLK1 MBCLK2 MAX0 MAX2 Maxph Maxpl MADH0±MADH7Mddir Macs Memory bus timing external bus master write to TMS380C26 MAX0, MAX2 Maxph MaxplData/Pty MADL0±MADL7 Mras Memory bus timing Dram refresh timing73a Mcas MrefBit Xmatch and Xfail timing127 128 Xmatch XfailParameter MIN TYP MAX Unit Token ring Ð ring interface timingRclk RcvrRclk or Pxtalin Token ring Ð transmitter timing see FigureDrvr 160 159Ethernet timing of Xmit signals Ethernet timing of clock signalsTXD TxenCRS Ethernet timing of RCV signals Ð start of frameRXC RXDCrshld Ethernet timing of RCV signals Ð end of frame320 321 322Ethernet timing of RCV signals Ð no RXC NorxcTXD Txen TXC TXD 350Data JAM80x8x DIO read timing SRS0± SRS2 Sbhe SCS, SrsxSras Sdben80x8x DIO write timing 267 272a 280 281 Valid 264 265 268 256281a 282W 283W 276 279 275 282b80x8x interrupt acknowledge timing ± second Siack pulse 80x8x interrupt acknowledge timing ± first Siack pulseSRD, SWR SCS Siack 287 First 286 SecondSddir High SCS, Srsx SRS0±SRS2 Sbhe Siack SWR SRDSdben SRDY²HI-Z SADH0±SADH7 SADL0±SADL7,HI-ZSPH, SPLSown 80x8x mode bus arbitration timing, SIF takes controlSRD SWR SWR SownSbbsy Shlda SRD, SWRSADL0±SADL7 SPH, SPL 212 Delay from Sbclk low to address valid 214 ² After Sbclk low to guarantee recognition on this cycleThis cycle 208b High TwSCKL ±Sbclk Sras Slds 80x8x mode DMA write timingSADL0±SADH7 SRD HighSADH0±SADL7 SPH, SPL Sddir High80x8x mode bus arbitration timing, SIF returns control Sbrls Sown 80x8x mode bus release timingTW or 208c68xxx DIO read timing Siack Srnw SRS0, SRS1Suds Slds SDTACK²HI-Z SADH0±SADH7 SADL0±SADL7,HI-Z SPH, SPLSuds Slds Sdtack 68xxx DIO write timingSDBEN³ SCS SRSX, SRS0, SRS1 Siack SrnwSDTACK² SADH0±SADH7 SADL0±SADL7,HI-Z SPH, SPLSCS Siack 68xxx interrupt acknowledge cycle timingSCS Srnw Sdtack Siack SdtackSdben SDTACK² HI-Z SCS, Srsx SRS0, SRS1 Sbhe Siack Srnw SldsSADH0±SADH7 SADL0±SADL7, HI-ZSPH, SPL 275 282a 255241 Delay from Sbclk high in TX cycle to High 68xxx mode bus arbitration timing, SIF takes controlSbgr SbrqSAS, Slds Sberr Sdtack SbbsySuds Srnw SADH0±SADH7 HI-Z SADL0±SADL7 SPH, SPL237R Delay from Sbclk high in the T2 cycle to Low 68xxx mode DMA read timingOn this cycle 208b Suds SASSale SADL0±SADH7 SADH0±SADL7 SPH, SPL Sdben Suds Slds 68xxx mode DMA write timingSADL0±SADH7, SADH0±SADL7 SPL, SPH SAS240 ² Setup SRNW, 68xxx mode bus arbitration timing, SIF returns controlRead HI-Z Write Sbclk Sbgr SdtackSIF HI-Z Write ReadSown Sberr 68xxx mode bus release and error timingSbrls Sown Sberr SdtackNormal completion with delayed start² Rerun cycle with delayed start²Sbclk Sdtack Sberr Shalt TH B TH E Sbclk Sdtack Sberr Shalt Sown254 0.010 NOM 635 0.025 NOM 76 0.030 NOM Jedec plastic leaded quad flat package PQ suffixJedec NO. Outline Terminals MIN MAX MO±069±ADImportant Notice
Top Page Image Contents