Data Terminal Ready

Abstract: A selection of signals, each to one of a limted number of contacts, achieves both parallel and serial interfaces using a single connector. The connector has individual contacts for the following signals for parallel communications: strobe, data signals, acknowledge, busy, printer out of paper, printer selected, paper feed one line after printing, logic ground, chassis ground, initialize the printer controller, and printer error; and has individual contacts for the following signals for serial communications: transmit data, request to send, logic ground, receive data, data terminal ready, data set ready, and clear to send.

Abstract: Apparatus 70 interfaces between port 20 of personal computer 10 and peripheral device 40 connectable to port 20. Transmit and receive data signals (TXD, RXD) are transmitted and received between port 20 and device 40 to pass through without substantial modification by apparatus 70. Protocol signals are transmitted by port 20 and processed to provide digital data signals. The protocol signals include a Request To Send (RTS) signal and a Data Terminal Ready (DTR) signal, whereby the apparatus processes RTS signal to provide a protocol clock signal and processes DTR signal to provide a protocol data signal. The protocol signals are monitored to identify a protocol signal pattern. Upon identifying such pattern within a particular protocol signal, a particular digital data signal is extracted from the protocol signal. The extracted digital data signal may then be converted to analog signals which are applicable to produce sound from speaker 80.

Abstract: A power source control system is disclosed for a data terminal which is connected to a communication line through a modem and a network control unit. A power source control unit is provided between the modem and the data terminal while interface between the modem and the data terminal is maintained so that when an incoming call to the data terminal is received and detected, a line establishing procedure is immediately executed with resepct to the calling party in place of the data terminal, and a main power source of the data terminal is turned ON, making the data terminal ready for a communication operation.

Abstract: A data communication system is described in which dial access control signals such as RING, DATA SET READY, DATA TERMINAL READY, CARRIER DETECT, and OUT OF SERVICE are transmitted between a central processing unit (CPU) and remote terminals in the form of frequency-modulated signals. A special frequency signal is transmitted from a remote terminal whenever a RING or DATA SET READY control signal is present and a CARRIER DETECT signal is not. Preferably, this special frequency is midway between the center frequency used for data communication and the frequency of either the MARK or the SPACE signal. Upon reception, this special frequency signal is processed in a particular fashion to generate signals comparable to the RING or DATA SET READY signals of the prior art. DATA TERMINAL READY and CARRIER DETECT control signals are transmitted as carrier signals and the OUT OF SERVICE signal is transmitted as a center frequency signal. Suitable processing at the receiver forms these signals into signals comparable to those of the prior art. Advantageously, the OUT OF SERVICE signal is used with appropriate apparatus to initiate testing of the remote terminal. Circuitry in this apparatus permits one to switch repeatedly from testing of just an FDM transmitter/receiver in the remote terminal to testing of both the FDM transmitter/receiver and a modem.