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SCC2691AC1A28 Datasheet(PDF) 7 Page - NXP Semiconductors |
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SCC2691AC1A28 Datasheet(HTML) 7 Page - NXP Semiconductors |
7 / 24 page Philips Semiconductors Product specification SCC2691 Universal asynchronous receiver/transmitter (UART) 1998 Sep 04 7 BLOCK DIAGRAM As shown in the block diagram, the UART consists of: data bus buffer, interrupt control, operation control, timing, receiver and transmitter. Data Bus Buffer The data bus buffer provides the interface between the external and internal data busses. It is controlled by the operation control block to allow read and write operations to take place between the controlling CPU and UART. Interrupt Control A single interrupt output (INTRN) is provided which may be asserted upon occurrence of any of the following internal events: – Transmit holding register ready – Transmit shift register empty – Receive holding register ready or FIFO full – Change in break received status – Counter reached terminal count – Change in MPI input – Assertion of MPI input Associated with the interrupt system are the interrupt mask register (IMR) and the interrupt status register (ISR). The IMR can be programmed to select only certain of the above conditions to cause INTRN to be asserted. The ISR can be read by the CPU to determine all currently active interrupting conditions. However, the bits of the ISR are not masked by the IMR. Operation Control The operation control logic receives operation commands from the CPU and generates appropriate signals to internal sections to control device operation. It contains address decoding and read and write circuits to permit communications with the microprocessor via the data bus buffer. The functions performed by the CPU read and write operations are shown in Table 1. Table 1. Register Addressing A2 A1 A0 READ (RDN = 0) WRITE (WRN = 0) 0 0 0 MR1, MR2 MR1, MR2 0 0 1 SR CSR 0 1 0 BRG Test CR 0 1 1 RHR THR 1 0 0 1X/16X Test ACR 1 0 1 ISR IMR 1 1 0 CTU CTUR 1 1 1 CTL CTLR NOTE; *Reserved registers should never be read during operation since they are reserved for internal diagnostics. ACR = Auxiliary control register CR = Command register CSR = Clock select register CTL = Counter/timer lower output register CTLR = Counter/timer lower preset register CTU = Counter/timer upper output register CTUR = Counter/timer upper preset register MR = Mode register A SR = Status register THR = Tx holding register * See Table 6 for BRG Test frequencies in this data sheet, and “Extended baud rates for SCN2681, SCN68681, SCC2691, SCC2692, SCC68681 and SCC2698B” Philips Semiconductors ICs for Data Communications, IC-19, 1994. Mode registers 1 and 2 are accessed via an auxiliary pointer. The pointer is set to MR1 by RESET or by issuing a reset pointer command via the command register. Any read or write of the mode register while the pointer is at MR1 switches the pointer to MR2. the pointer then remains at MR2 so that subsequent accesses are to MR2, unless the pointer is reset to MR1 as described above. Timing Circuits The timing block consists of a crystal oscillator, a baud rate generator, a programmable 16-bit counter/timer, and two clock selectors. The crystal oscillator operates directly from a 3.6864MHz crystal connected across the X1/ CLK and X2 inputs with a minimum of external components. If an external clock of the appropriate frequency is available, it may be connected to X1/CLK. If an external clock is used instead of a crystal, X1/CLK is driven using a configuration similar to the one in Figure 7. In this case, the input high-voltage must be capable of attaining the voltage specified in the DC Electrical Characteristics. The clock serves as the basic timing reference for the baud rate generator (BRG), the counter/timer, and other internal circuits. A clock frequency, within the limits specified in the electrical specifications, must be supplied if the internal BRG is not used. The baud rate generator operates from the oscillator or external clock input and is capable of generating 18 commonly used data communications baud rates ranging from 50 to 38.4K baud. Thirteen of these are available simultaneously for use by the receiver and transmitter. Eight are fixed, and one of two sets of five can be selected by programming ACR[7]. The clock outputs from the BRG are at 16X the actual baud rate. The counter/timer can be used as a timer to produce a 16X clock for any other baud rate by counting down the crystal clock or an external clock. The clock selectors allow the independent selection by the receiver and transmitter of any of these baud rates or an external timing signal. Counter/Timer (C/T) The C/T operation is programmed by ACR[6:4]. One of eight timing sources can be used as the input to the C/T. The output of the C/T is available to the clock selectors and can be programmed by ACR[2:0} to be output on the MPO pin. In the timer mode, the C/T generates a square wave whose period is twice the number of clock periods loaded into the C/T upper and lower registers. The counter ready bit in the ISR is set once each cycle of the square wave. If the value in CTUR or CTLR is changed, the current half-period will not be affected, but subsequent half-periods will be affected. In this mode the C/T runs continuously and does not recognize the stop counter command (the command only resets the counter ready bit in the ISR). Receipt of a start C/T command causes the counter to terminate the current timing cycle and to begin a new cycle using the values in CTUR and CTLR. In the counter mode, the C/T counts down the number of pulses loaded into CTUR and CTLR. Counting begins upon receipt of a start C/T command. Upon reaching terminal count, the counter ready bit in the ISR is set. The counter continues counting past the terminal count until stopped by the CPU. If MPO is programmed to be the output of the C/T, the output remains high until terminal count is reached, at which time it goes low. The output returns to the high state and the counter ready bit is cleared when the counter is stopped by a stop counter command. the CPU may change the |
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