Quatech MPAP-100 user manual FIFO Control Register

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15 FIFO Control Register

The FIFO Control Register is used to control the external data FIFOs. The address of this register is Base+A (hex). Table 13 details the bit definitions of the register. This register can be ignored if the external FIFOs are not being used.

Bit 7

Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

Bit 1

Bit 0

0

EN_PAT

EN_TO

RX_RESET

0

0

0

TX_RESET

Table 13 --- FIFO Control Register - Read/Write

Bit 7:

Reserved, always 0.

Bit 6:

EN_PAT --- Enable Receive Pattern Detection:

Set this

bit (logic 1), to enable the receive pattern detection circuitry. Clear this bit (logic

0), to disable pattern detection. See page 37 for details on the receive pattern

detection feature.

Bit 5:

EN_TO --- Enable Receive Timeout:

Set this bit (logic 1), to enable the external receive FIFO timeout. Clear this bit

(logic 0), to disable the receive FIFO timeout. See page 38 for details on the

receive FIFO timeout feature.

Bit 4:

RX_RESET --- Reset Receive FIFO:

Set (logic 1), then clear (logic 0) this bit to reset the external receive FIFO. The

FIFO can be reset only when it is disabled.

Bits 3-1:

Reserved, always 0.

Bit 0:

TX_RESET --- Reset Transmit FIFO:

Set (logic 1), then clear (logic 0) this bit to reset the external transmit FIFO. The

FIFO can be reset only when it is disabled.

Image 50

Contents for PCMCIA Card Standard compatible machines MPAP-100 RS-232 PCMCIA SYNCHRONOUS ADAPTERUsers Manual QUATECH, INCPRODUCT DESCRIPTION Single Channel PCMCIA RS-232-D WARRANTY INFORMATIONMPAP-100 Synchronous Communications AdapterCopyright 2001 Quatech, Inc 5.4 Monitoring The Status Of PCMCIA Cards 5.2.1 Tying a configuration to a particular socket5.3 OS/2 Client Driver Configuration Examples Table of ContentsAccessing the SCC while FIFOs are enabled Table of Contents10.3.1 Using channel A for both transmit and receive 22.1.4 Older Versions of Card and Socket Services1 Introduction 1.1 System Requirements2 Hardware Installation 3 DOS / Windows 3.x Software Installation DEVICE=drive\path\MPAP1CL.SYS S#,B#,I#,C ... S#,B#,I#,C 3.1.1 DOS client driver installation3.1 MPAP-100 Client Driver for DOS 3.1.2 Auto Fallback configuration 3.1.3 Hot SwappingPage DEVICE=C\MPAP-100\MPAP1CL.SYS b300,c 3.2 DOS Client Driver examplesDEVICE=C\MPAP-100\MPAP1CL.SYS DEVICE=C\MPAP-100\MPAP1CL.SYS s0,b300,i53.3.3 Configuring a card 3.3 MPAP-100 Enabler for DOS3.3.1 DOS Enabler Installation 3.3.2 Hot Swapping is not supportedMPAP1EN S#,B#,I#,W#,C 3.3.4 Releasing a cards configuration MPAP1EN S#,R,W#MPAP1EN.EXE s1,b300,i3,wd8 3.4 DOS Enabler ExamplesMPAP1EN.EXE s0,b300,i5,c MPAP1EN.EXE s0,r4 Windows 95/98 Installation 4.1 Using the Add New Hardware WizardPage Page 4.2 Viewing Resources with Device Manager 4.3 Configuration Options 5.1 System Requirements 5 OS/2 Software Installation5.2 OS/2 Client Driver Installation DEVICE=drive\path\MPAP100.SYS addr,irq,C ... addr,irq,C5.2.2 Auto Fallback configuration 5.2.3 Hot Swapping5.5 Installing OS/2 PCMCIA Support DEVICE=C\MPAP-100\MPAP100.SYS 300,5Page 6 Using the MPAP-100 with Syncdrive 7 Addressing 8 Interrupts Byte-oriented Synchronous Communications 9 SCC General InformationSDLC/HDLC Bit Synchronous Communications Asynchronous Communications9.1 Accessing the registers Example 3 Write data into the transmit buffer of channel A Interrupt control, Wait/DMA request control Master interrupt control and resetcoding, CRC reset Interrupt vector9.4 Support for SCC Channel B 9.2 Baud Rate Generator Programming9.3 SCC Data Encoding Methods ClockFrequency TimeConst 2 BaudRate ClockMode9.4.2 Extra clock support for channel A 9.4.1 Receive data and clock signals9.4.4 Other signals are not used 9.4.3 Extra handshaking for channel A9.5.2 Software Interrupt Acknowledge 9.5 SCC Incompatibility Warnings9.5.1 Register Pointer Bits 10.1 Enabling and disabling the FIFOs 10.2 Accessing the FIFOs10 FIFO Operation 10.2.1 Transmit FIFO10.3 SCC configuration for FIFO operation 10.2.2 Receive FIFORegister 10.3.2 Using channel B for receive 10.4 FIFO status and control 10.4.1 Interrupt status10.4.3 Reading current FIFO status 10.4.2 Resetting the FIFOs10.5 Accessing the SCC while FIFOs are enabled 10.4.4 Controlling the FIFOsPage 10.7 Receive FIFO timeout 11 Communications Register SWSYNCBits 1-0 Reserved, always RCKEN --- Receive Clock SourceBit 2 TCKEN --- Transmit Clock Source FIFOEN --- External data FIFO enable 12 Configuration RegisterINTS1, INTS0 --- Interrupt Source and Enable Bits External Data FIFOs Present --- Reserved, alwaysRXSRC --- Receive FIFO DMA Source 13 Interrupt Status Register 14 FIFO Status Register 15 FIFO Control Register 16 Receive Pattern Character Register Bits 7-0 Receive Pattern CharacterThis is17 Receive Pattern Count Register Bits 7-0 Receive Pattern CountBit 7 X16MODE --- Clock Mode 18 Receive FIFO Timeout RegisterBit 6 Reserved, always Bits 5-0 Timeout Interval 19 External Connections 19.1 SYNCA pin 19.2 RING pin19.3 Null-modem cables CIRCUIT BB - RECEIVED DATA 20 DTE Interface SignalsCIRCUIT AB - SIGNAL GROUND CIRCUIT CB - CLEAR TO SENDCIRCUIT CE - RING INDICATOR CONNECTOR NOTATION RING CIRCUIT CC - DCE READY DATA SET READY CONNECTOR NOTATION DSRCIRCUIT CD - DTE READY DATA TERMINAL READY CONNECTOR NOTATION DTR CIRCUIT CF - RECEIVED LINE SIGNAL DETECT CARRIER DETECTCIRCUIT TM - TEST MODE 21 Specifications 22.2 DOS Enabler 22 Software Troubleshooting22.1.3 Multiple Configuration Attempts 22.1 DOS Client Driver 22.1.1 Generic SuperClient Drivers22.2.3 Memory range exclusion 22.2.1 With Card and Socket Services22.2.2 Socket Numbers 22.3 OS/2 Client Driver 22.3.1 Resources Not AvailablePage MPAP-100 Users Manual Revision March P/N