SCD128410QCE Intel, SCD128410QCE Datasheet - Page 59

SCD128410QCE

Manufacturer Part Number

SCD128410QCE

Description

Manufacturer

Intel

Datasheet

1.SCD128410QCE.pdf (176 pages)

Specifications of SCD128410QCE

Pin Count

100

Lead Free Status / RoHS Status

Not Compliant

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5.6.4

Datasheet

Table 18. Out-of-Band Pin Connections

The CTS* input can also be monitored by the CD1284 and is a transmitter enable. The functions is

enabled by setting CtsAE (COR2[1]). If CtsAE is set, character transmission occurs only when the

CTS* input signal is asserted. If the signal is deasserted during active transmission, the current

character plus the character in the Transmitter Holding register are transmitted and transmission

ceases. Thus, a minimum of one and a maximum of two characters can be transmitted after the

control signal is deasserted. Transmission resumes when the signal(s) is reasserted.

The send special character command does not sample the CTS* or DSR* inputs. If the CPU opts to

send one of the special characters, the character is transmitted regardless of the state of these

inputs. This is preferable as the CPU can still flow control a remote even if it is being flow

controlled. If the state of CTS* and DSR* are important, they should be tested through

MSVR1[7:6] before the special character send command is issued.

Modem Signals and General-Purpose I/O

Each channel of the CD1284 has four pins that can be used either as modem-control or general-

purpose input/output pins. The modem signal names assigned to these four pins provide an easy

reference for system designers. In fact, they are all simply general-purpose inputs and outputs (if

automatic out-of-band flow-control is not used) are individually controlled in the MSVRs. Since

they are general-purpose, system designers can opt to connect the pins any way to suit the

application.

DCE, DTE Application

When the system software design opts to use automatic out-of-band flow control, then the signal

naming convention no longer holds true in some cases, depending on if the device is used as DCE

or DTE. For this case, use these pins within the CD1284, connect them accordingly, and disregard

their names. The RTS* and CTS* pins are associated with the transmitter; the DTR* and DSR*

pins are associated with the receiver.

automatic out-of-band flow control.

For example, if the CD1284 is designed for DCE and automatic out-of-band flow control, connect

DTR* to the remote CTS* input. If the CD1284 is for the DTE side, then connect the CD1284

CTS* output to the remote CTS* input.

Note, if automatic out-of-band flow control is implemented, the activity of DTR* and DSR* do not

implement the function assigned to those signal names by the signaling conventions of the CCITT

(and other) standards organization. These pin names only apply to these pins if they are under

program control and not under automatic CD1284 control. In fact, the defined DTR function

enables the modem to go on- and off-line, depending on the state of the pin. If automatic flow

CTS*

RTS*

DCE

–

RTS*

CTS*

DTE

–

CD1284 Pins

IEEE 1284-Compatible Parallel Interface Controller — CD1284

DTR*

RTS*

CTS*

–

Table 18

Signal remote to

transmit

Not implemented in

this direction

Request remote

permission to transmit

Enable transmitter

Out-of-Band Flow

Control

shows the Intel recommended signal hook-up for

SCD128410QCE Intel, SCD128410QCE Datasheet - Page 59

SCD128410QCE

Specifications of SCD128410QCE

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