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XR88C92CP Datasheet(PDF) 10 Page - Exar Corporation |
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XR88C92CP Datasheet(HTML) 10 Page - Exar Corporation |
10 / 32 page XR88C92/192 10 Rev. 1.31 This is also reflected in the Interrupt Status Register, ISR bit-0 for channel A and bit-4 for channel B. This is different from the TxRDY bit in the status register. The TxRDY bit in the status register (SRA, SRB bit-2) indicates if the TX FIFO has at least one empty location. This can also be programmed to appear at the output pin OP6/OP7. The TxEMT bit (SRA, SRB bit-3) indicates if both the TX FIFO and the TX Shift Register are empty. The transmitter can be reset through a software com- mand (CRA, CRB bits 7:4). If it is reset, operation ceases immediately and must be enabled through the command register before resuming operation. Reset also discards any characters in the FIFO. RECEIVER The channel A and B receivers are enabled for data reception through the respective channels command register (CRA, CRB bits 1:0). The channels receiver looks for the high-to-low (mark-to-space) transition of a start bit on the receiver serial-data input pin. If operating in 16X clock mode, the serial input data is re-sampled on the next 7 clocks. If the receiver serial data is sampled high, the start bit is invalid and the search for a valid start bit begins again. If receiver serial data is still low, a valid start bit is assumed and the receiver continues to sample the input at one bit time intervals (at the theoretical center of the bit) until the proper number of data bits and the parity bit (if any) have been assembled and one stop bit has been detected. If an 1X clock is used, data is sampled at one bit time intervals throughout, including the start bit. Data on the receiver serial data input pin is sampled on the rising edge of the programmed clock source (XTAL1, IP4 or IP6: see CSR bits 7:4). In this process, the least significant bit is received first. The receiver buffer is composed of the FIFO (8/16 locations in XR88C92/192 respectively) and a receive shift register connected to the receiver serial-data input. Data is assembled in the shift register and loaded into the bottom most empty FIFO location. If the character length is less than eight bits, the most significant unused bits are set to zero. If the stop bit is sampled as a 1, the receiver will immediately look for the next start bit. However, if the stop bit is sampled as a 0, either a framing error or a received break has occurred. If the stop bit is 0 and the data and parity (if any) are not all zero, it is a framing error. The damaged character is transferred to the FIFO with the framing error flag set. If the receiver serial data remains low for one-half of the bit period after the stop bit was sampled, the receiver operates as if a new start bit transition has been detected. If the stop bit is 0 and the data and parity (if any) bits are also all zero, it is a break. A character consisting of all zeros will be loaded into the the FIFO with the received-break bit (but not the framing error bit) set to one. The receiver serial-data input must return to a high condition for at least one-half bit time before a search for the next start bit begins. Also, at this time, the received break bit is reset. The receiver can detect a break that starts in the middle of a character provided the break persists completely through the next character time or longer. When the break begins in the middle of a character, the receiver will place the damaged character in the FIFO with the framing error bit set. Then, provided the break persists through the next character time, the receiver will also place an all-zero character in the FIFO with the re- ceived-break bit set. The parity error, framing error, overrun error, and received-break conditions (if any) set error and break flags in the status register at the received character boundary and are valid only when the receiver-ready bit (RXRDY) in the status register is set. The receiver-ready bit in the status register (SRA, SRB bit-0) is set whenever one or more characters are available to be read by the CPU. A read of the receiver buffer produces an output of data from the top of the FIFO stack. After the read cycle, the data at the top of the FIFO stack and its associated status bits are “popped” and new data can be added at the bottom of the stack by the receive shift register. The FIFO-full status bit (SRA, SRB bit-1) is set if all 8 (or 16) stack positions are filled with data. Either the receiver-ready or the FIFO-full status bits can be selected to cause an interrupt (see MR1A, MR1B bit-6). In addition to the data byte, three status bits (parity error, framing error, and received break) are appended to each data character in the FIFO (overrun is not). By programming the error-mode control bit (MR1A, MR1B bit-5), status can be provided for “character” or “block” modes. In the “character” mode, the status register (SRA, SRB) is updated on a character-by-character basis and applies only to the character at the top of the FIFO. Thus, the status must be read before the charac- ter is read. Reading the character pops the data byte and its error flags off the FIFO. In the “block” mode, the status provided in the status register for the parity error, |
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