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MAR3690NL Datasheet(PDF) 7 Page - Dynex Semiconductor |
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MAR3690NL Datasheet(HTML) 7 Page - Dynex Semiconductor |
7 / 41 page MA3690/1/3 7/41 TX Status Missing This bit will be set if a no-response is detected from an RT which has been commanded to transmit and the relevant RT address was not the Broadcast address. This bit will be reset at the start of each new instruction cycle or message retry. TX Status Flag This bit will be set if the status word received from a transmitting RT has a bit set or has the wrong terminal address. This bit will be reset at the start of each new instruction execution cycle or message retry. RX Status Missing This bit will be set if a no-response is detected from an RT which has been commanded to receive and the relevant RT address was not the Broadcast address. This bit will be reset at the start of each new instruction cycle or message retry. RX Status Flag This bit will be set if the status word received from a receiving RT has a bit set or has the wrong terminal address. This bit will be reset at the start of each new instruction execution cycle or message retry. Transmitter Timeout On Bus 0 This bit will be set if the transmitter timeout mechanism operates on Bus 0. This will be set under Self Test execution with Bus 0 selected in the Instruction word. This bit will be reset to logic zero if the terminal is reset. Transmitter Timeout On Bus 1 This bit will be set if the transmitter timeout mechanism operates on Bus 1. This will be set under Self Test execution with Bus 1 selected in the Instruction word. This bit will be reset to logic zero if the terminal is reset. Continuous Bus Traffic This bit will be set if the terminal detected that the data bus is already active when the BC is instructed to execute a message on that data bus. An active data bus is defined as a data stream of one command word or status word and greater than 32 continguous data words being received by the terminal. The setting of this bit will cause transmission to be suppressed and a subsystem interrupt to be generated. It should be noted that: 1. This condition is only likely to be caused by a runaway RT which transmits continuously. 2. If this condition is present the subsystem is able to specify the use of the alternative bus for its transmissions. This bit will be reset to logic zero when the terminal is reset or when the terminal detected a quiet bus. RECEIVE STATUS WORD The receive status word location is addressed when CODENN, C1 and R/WN are low and C0 is high. This location is used by the terminal to store the status word, if any, received from a receiving RT. In self test mode this location is updated with the contents of the receive command word during the instruction fetch cycle. TRANSMIT STATUS WORD The transmit status word location is addressed when CODENN, C0 and R/WN are low and C1 is high. This location is used by the terminal to store the status word, if any, received from a transmitting RT. In self test mode this location is updated with the contents of the transmit command word during the instruction fetch cycle. MODES OF OPERATION The Bus Controller may be controlled in either a single shot mode or in a table driven mode. In the former, the execution of the message table would be under direct control of the subsystem, on a message by message basis. The table driven mode would provide a subsystem capable of more autonomous operation, leading to a greatly reduced level of processor intervention in the message execution level, at least. In either case the procedure of Instruction fetch, message execute and reporting would be the same. The difference arises from the value of the HALTREQN line when it is resampled at the end of message execution. This is further described below. SINGLE SHOT OPERATION To commence a message execution the subsystem must take the HALTREQN line low to high for a minimum of 1us. This will be followed by the terminal acknowledging this action by the HALTEDN line being set inactive (high). The HALTEDN line will remain high until the message has been completed, at which time the HALTREQN line is further sampled. If it is low then the terminal will halt and wait until the request line is taken high again, in effect a single instruction execution. It is important to the integrity of the system that the HALTREQN line is strictly glitch free, otherwise problems will arise with the terminal attempting to execute commands at a time when no terminal access to the various stores can be guaranteed. |
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