Texas Instruments TMS380C26 specifications Bit 12 Sinten Ð System-Interrupt Enable

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TMS380C26

NETWORK COMMPROCESSOR

SPWS010A±APRIL 1992±REVISED MARCH 1993

Bit 12: SINTEN Ð System-Interrupt Enable

This bit allows the host processor to enable or disable system interrupt requests from the TMS380C26. The system interrupt request from the TMS380C26 is on the SINTR/SIRQ pin. The following equation shows how the SINTR/SIRQ pin is driven. The table also explains the results of the states.

SINTR/SIRQ = (PSDMAEN * SWHRQ * !SWHLDA) + (SINTEN * SYSTEM_INTERRUPT)

 

 

 

 

SYSTEM

 

PSDMAEN

SWHRQ

SWHLDA

SINTEN

INTERRUPT

RESULT

 

 

 

 

(SIFSTS Reg.)

 

 

 

 

 

 

 

1²

1

1

X

X

Pseudo-DMA is active.

1²

1

0

X

X

The TMS380C26 generated a system

interrupt for a pseudo-DMA.

 

 

 

 

 

1²

0

0

X

X

Not a pseudo-DMA interrupt.

X

X

X

1

1

The TMS380C26 will generate a system

interrupt.

 

 

 

 

 

0

X

X

1

0

The TMS380C26 will not generate a system

interrupt.

 

 

 

 

 

0

X

X

0

X

The TMS380C26 can not generate a system

interrupt.

 

 

 

 

 

 

 

 

 

 

 

² The value on the SHLDA/SBGR pin is ignored.

Bit 13: PEN Ð Adapter Parity Enable

This bit determines whether data transfers within the TMS380C26 are checked for parity.

0= Data transfers are not checked for parity

1= Data transfers are checked for correct odd parity.

Bit 14 Ð 15: NSELOUT (0±1) Ð Network selection outputs.

The values in these bits control the output pins NSELOUT0 and NSELOUT1. These bits can only be modified while the ARESET bit is set.

These bits can be used to software configure a multi-protocol TMS380C26, as follows:

The NSELOUT0 and NSELOUT1 pins should be connected to TEST0 and TEST1 pins respectively (TEST2 should be left unconnected or tied high). NSELOUT0 should be used to select network speed and NSELOUT1 network type, as shown in the table below:

NSELOUT0

NSELOUT1

 

0

0

Reserved

0

1

16 Mbps token ring

1

0

Ethernet (802.3/Blue Book)

1

1

4 Mbps token ring

At power-up these bits are set NSELOUT1 = 1, NSELOUT0 = 0 corresponding to 16 Mbps token ring.

28

POST OFFICE BOX 1443 HOUSTON, TEXAS

 

77251±1443

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Contents Network Commprocessor Attached System Bus LAN SubsystemPinout PIN Quad Flat Pack TOP ViewDescription Block diagram and signal descriptions Terminal Functions TMS380C26PIN Name Description Maxph AX1 AX0Maxpl AX3 AX2Sreset Mreset OUTMOE MrasPrtyen NSELOUT0 NSELOUT1= H SbheShrq Sddir Direction DIO DMASintr SRD SWR108 Reserved. This signal must be left unconnected see Note = Selects 8-bit mode see Note= Selects 16-bit mode Syncin= L System Interface ± Motorola Mode SI/MSBHE/ Srnw Terminal Functions = L SbgrSbrq SirqSdtack SudsSlds FRAQ/TXD NsrtPxtalin RCVR/RXDTXC LpbkColl Terminal Functions Vssl VSS1 VSS2VSS3 VSS4 VSS5 VSS6Communications processor CP ArchitectureSystem interface SIF Memory interface MIF Protocol handler PHAdapter support function ASF Clock generator CGAdapter-Internal Pointers for Token-Ring² Address DescriptionAdapter-Internal Pointers for Ethernet ² User-Access Hardware Registers ³ 68xxx Mode is always 16-bitWord Transfers Byte TransfersBits 0-2 Test 0±2. Value on Test 0±2 pins Bit 5 Swddir Ð Current Sddir Signal ValueSIF Adapter Control Register Sifacl Sifacl RegisterBit 6 Swhrq Ð Current Shrq Signal Value Bit 7 Psdmaen Ð Pseudo-System-DMA EnableBit 8 Areset Ð Adapter Reset Bit 10 Boot Ð Bootstrap CP CodeBit 12 Sinten Ð System-Interrupt Enable Bit 13 PEN Ð Adapter Parity EnableBit 14 Ð 15 Nselout 0±1 Ð Network selection outputs System Psdmaen Swhrq Swhlda Sinten Interrupt ResultSifacl Control for Pseudo-DMA Operation Systeminterrupt SINTR/SIRQDMA SHRQ/SBRQ Dmadir Sddir Swhlda Swddir Swhrq Psdmaen SintenRecommended operating conditions MIN NOM MAX UnitParameter Test Conditions MIN TYP MAX Unit See NoteTest measurement High LowVload IOL Output Under TestWhen Reference PeriodsClkdiv = Oscout MBCLK1² MBCLK2² Static signals Timing parameter symbologySignal Function Timing parameters289² ThRST Hold time of DMA size from High Intel mode only Parameter MIN MAX UnitReaches minimum high level HVDDH-RSL 118² Pulse duration HighVDD Sbclk Oscin MBCLK1 MBCLK2 Sreset S8/SHALT Minimun VDD High Level103 101 106 104 105 102 107 110 108 109 111 117 118 119 288 289126 Delay time from MBCLK1 no longer low to Valid MresetNMI 121 Hold time Valid after MBCLK1 lowMBCLK1 MBCLK2 MAX0 MAX2 ADD/EN Mromen Maxph Maxpl MresetMADH0±MADH7 MADL0±MADL7 Maxph Maxpl Memory bus timing clocks, MRAS, MCAS, and MAL to AddressMromen MAL Column Row AddressAddress Status Column StatusMemory bus timing read cycle Mcas MOEMaxph Maxpl MADH0±MADH7 Maxph MaxplMAX0 MAX2 Mromen Mras McasAddress Status Data/Parity MbiaenMemory bus timing write cycle Enable Address MAX0, AddressMAX2 Mromen Mras Mcas MbenMemory bus timing TMS380C26 releases control of bus Parameter MIN75a 74a MBCLK1 MBCLK2 MbenMddir MAL Mbiaen Mbrq Mbgr Memory bus timing TMS380C26 resumes control of bus Setup time High before MBCLK1 rising edge, bus resumeHold time Valid after MBCLK1 low, bus resume Memory Bus Timing TMS380C26 Resumes Control of Bus Mben Mddir MAL Mbiaen Mbrq Mbgr Macs Memory bus timing external bus master read from TMS380C26Hold time Low after MBCLK2 low, external bus master read MAX0 MAX2 Maxph Maxpl MADH0±MADH7 MBCLK1 MBCLK2Mddir Macs MAX0, MAX2 Maxph Maxpl Memory bus timing external bus master write to TMS380C26Data/Pty Memory bus timing Dram refresh timing MADL0±MADL7 Mras73a Mcas MrefXmatch and Xfail timing Bit127 128 Xmatch XfailToken ring Ð ring interface timing Parameter MIN TYP MAX UnitRclk RcvrToken ring Ð transmitter timing see Figure Rclk or PxtalinDrvr 160 159Ethernet timing of clock signals Ethernet timing of Xmit signalsTXD TxenEthernet timing of RCV signals Ð start of frame CRSRXC RXDEthernet timing of RCV signals Ð end of frame Crshld320 321 322Norxc Ethernet timing of RCV signals Ð no RXCTXD Txen 350 TXC TXDData JAM80x8x DIO read timing SCS, Srsx SRS0± SRS2 SbheSras Sdben80x8x DIO write timing Valid 264 265 268 256 267 272a 280 281281a 282W 283W 276 279 275 282b80x8x interrupt acknowledge timing ± first Siack pulse 80x8x interrupt acknowledge timing ± second Siack pulseSRD, SWR SCS Siack 287 First 286 SecondSCS, Srsx SRS0±SRS2 Sbhe Siack SWR SRD Sddir HighSdben SRDY²HI-Z SADH0±SADH7 SADL0±SADL7,HI-ZSPH, SPL80x8x mode bus arbitration timing, SIF takes control SownSRD SWR SWR SownSRD, SWR Sbbsy ShldaSADL0±SADL7 SPH, SPL After Sbclk low to guarantee recognition on this cycle 212 Delay from Sbclk low to address valid 214 ²This cycle 208b High TwSCKL ±Sbclk Sras 80x8x mode DMA write timing SldsSRD High SADL0±SADH7SADH0±SADL7 SPH, SPL Sddir High80x8x mode bus arbitration timing, SIF returns control 80x8x mode bus release timing Sbrls SownTW or 208c68xxx DIO read timing SRS0, SRS1 Siack SrnwSuds Slds SDTACK²HI-Z SADH0±SADH7 SADL0±SADL7,HI-Z SPH, SPL68xxx DIO write timing Suds Slds SdtackSCS SRSX, SRS0, SRS1 Siack Srnw SDBEN³SDTACK² SADH0±SADH7 SADL0±SADL7,HI-Z SPH, SPL68xxx interrupt acknowledge cycle timing SCS SiackSCS Srnw Sdtack Siack SdtackSCS, Srsx SRS0, SRS1 Sbhe Siack Srnw Slds Sdben SDTACK² HI-ZSADH0±SADH7 SADL0±SADL7, HI-ZSPH, SPL 275 282a 25568xxx mode bus arbitration timing, SIF takes control 241 Delay from Sbclk high in TX cycle to HighSbgr SbrqSberr Sdtack Sbbsy SAS, SldsSuds Srnw SADH0±SADH7 HI-Z SADL0±SADL7 SPH, SPL68xxx mode DMA read timing 237R Delay from Sbclk high in the T2 cycle to LowOn this cycle 208b Suds SASSale SADL0±SADH7 SADH0±SADL7 SPH, SPL 68xxx mode DMA write timing Sdben Suds SldsSAS SADL0±SADH7, SADH0±SADL7 SPL, SPH68xxx mode bus arbitration timing, SIF returns control 240 ² Setup SRNW,Sbclk Sbgr Sdtack Read HI-Z WriteSIF HI-Z Write Read68xxx mode bus release and error timing Sown SberrSbrls Sown Sberr SdtackRerun cycle with delayed start² Normal completion with delayed start²Sbclk Sdtack Sberr Shalt TH B TH E Sbclk Sdtack Sberr Shalt SownJedec plastic leaded quad flat package PQ suffix 254 0.010 NOM 635 0.025 NOM 76 0.030 NOMJedec NO. Outline Terminals MIN MAX MO±069±ADImportant Notice